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Statutory Instruments
CUSTOMS AND EXCISE
Made
15th December 1989
Coming into force
14th February 1990
1.—(1) This Order may be cited as the Export of Goods (Control) Order 1989 and shall come into force on 14th February 1990.
(2) In this Order, unless the context otherwise requires—
“aircraft” does not include helicopters;
“Commissioners” means the Commissioners of Customs and Excise;
“country” includes territory;
“document” includes any record or device by means of which information is recorded or stored;
“goods”, unless otherwise specified, means both used and unused goods;
“hovercraft” has the same meaning as in section 4(1) of the Hovercraft Act 1968(3);
“importation” and “exportation” in relation to a vessel, submersible vehicle, aircraft or helicopter includes the taking into or out of the United Kingdom of the vessel, submersible vehicle, aircraft or helicopter notwithstanding that the vessel, submersible vehicle, aircraft or helicopter is conveying goods or passengers, and whether or not it is moving under its own power; and cognate expressions shall be construed accordingly;
“Member State” means a Member State of the European Communities;
“microprogramme” means a sequence of elementary instructions, maintained in a special storage, the execution of which is initiated by the introduction of its reference instruction into an instruction register;
“normal commercial journey” means a journey providing transport services in the ordinary course of business;
“ODMA software” means operating software, diagnostic software, maintenance software or application software; and in each case includes only the minimum software necessary to enable the equipment to perform the function for which it was designed;
“programme” means a sequence of instructions to carry out a process in, or convertible into, a form executable by an electronic computer and includes a microprogramme;
“scheduled goods” means goods of a description specified in Schedule 1 hereto;
“scheduled journey” means one of a series of journeys which are undertaken between the same two places and which together amount to a systematic service operated in such a manner that the benefits thereof are available to members of the public from time to time seeking to take advantage of it;
“ship” includes the hull or part of the hull of a ship;
“software” means one or more programmes fixed in any tangible medium of expression;
“surface effect vehicle” means any air cushion vehicle (whether side wall or skirted) and any vehicle using the wing-in-ground effect for positive lift;
“SWATH vessel” means any small waterplane area twin-hull vessel;
“technological document” means any document containing information relating to the design, production, testing or use of goods or to technologies or processes, excluding:
document which is generally available to the public;
application for the grant of a patent (or any other form of protection for an invention) or for the registration of a design, or a semi conductor topography, in each case under the law of the United Kingdom or of any other country or under any treaty or international convention;
document necessary to enable any such application to be filed, made or pursued;
“vessel” includes any ship, surface effect vehicle, SWATH vessel and hydrofoil, and the hull or part of the hull of a vessel;
a prohibition on exportation means a prohibition on exportation from the United Kingdom and shall include a prohibition on shipment as ships' stores;
any reference to scheduled goods or any other item being indicated by a letter shall be taken as a reference to such goods or items being so indicated in Schedule 1 hereto;
numerical references in Schedule 1 hereto to British Standards are references to the standards so numbered published by the British Standards Institution in the year indicated after such references with such amendments (if any) thereto as may have been made before the making of this Order;
references in Schedule 1 hereto to percentages of the contents of any goods are references to percentages by weight;
any description of goods specified in Group A of Part I of Schedule 1 hereto in relation to a Combined Nomenclature heading or sub-heading, other than one covering a whole heading, shall be taken to comprise all goods which would be classified under an entry in the same terms constituting a subheading in the relevant heading in the Combined Nomenclature of the European Economic Community(4).
2. Subject to the provisions of this Order—
(i)where scheduled goods are indicated by the letter “C”, those goods are prohibited to be exported to any destination, and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination in a country listed in Schedule 2 to this Order;
(ii)where technology is specified in Schedule 1 to this Order and indicated by the “D”, technological documents the information in which includes that technology are prohibited to be exported to any destination in a country listed in Schedule 2 to this Order;
(iii)scheduled goods indicated by the letter “E” are prohibited to be exported to any destination except a destination in another Member State;
(iv)where scheduled goods are indicated by the letter “I”, those goods and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination in Iran or Iraq;
(v)where scheduled goods are indicated by the letter “L”, those goods and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination in Libya;
(vi)where scheduled goods are indicated by the letter “S”, those goods and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination after delivery or for the purpose of delivery, directly or indirectly, to a person in any country listed in Schedule 2 to this Order;
(vii)scheduled goods indicated by the letter “T” are prohibited to be exported to any destination except that when in relation to such goods the provisions of Commission Regulation (EEC) 1062/87, as amended(5), relating to the use of Community transit documents requiring anything to be done at or before the time of exportation have been complied with, the goods may be exported to a destination in another Member State;
(viii)scheduled goods indicated by the letter “W” are prohibited to be exported to any destination;
(ix)scheduled goods indicated by the letter “X” are prohibited to be exported to any destination in India or Pakistan;
(x)where scheduled goods are indicated by the letter “Y”, those goods and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination in Syria;
(xi)where scheduled goods are indicated by the letter “Z”, those goods and (whether or not express provision is made in relation to technology) technological documents the information in which relates to those goods are prohibited to be exported to any destination in South Africa or Namibia;
(xii)specialised components of any goods of a description specified in Group 1 of Part II of Schedule 1 hereto, whether or not such components are specified in the description, are prohibited to be exported to any destination in South Africa or Namibia;
(xiii)goods of a description specified in Group C of Part I of Schedule 1 hereto are prohibited to be exported to any destination in the United States of America or the Commonwealth of Puerto Rico.
3. The prohibition in article 2(xiii) of this Order shall not apply to any exportation to any destination in the United States of America or the Commonwealth of Puerto Rico in accordance with a European Community export licence issued by the competent authority of a Member State in conformity with the provisions of Commission Decision 2873/82/ECSC(6) or Commission Regulation (EEC) No.2874/82(7) or Commission Regulation (EEC) No.61/85(8).
4. Nothing in article 2 of this Order shall be taken to prohibit the exportation of—
any goods under the authority of a licence granted by the Secretary of State, or the shipment of any goods as ships' stores with the permission of the proper officer of Customs and Excise at the port of departure for use on board the ship, provided that all conditions attaching to the said licence or the said permission are complied with;
any goods other than goods of a description specified in Group B of Part I of Schedule 1 hereto or in Group 1 of Part II of the said Schedule, to any destination in the Channel Islands;
trade samples of any goods of a description specified in Group A of Part 1 of Schedule 1 hereto, if the samples have no saleable value;
(i)any aircraft or helicopter which is being exported after temporary importation into the United Kingdom, provided that there has been no change of ownership or registration since such importation;
(ii)any aircraft or helicopter engaged on a scheduled journey;
cocoa beans, whole or broken, raw or roasted, and the following cocoa products namely cocoa paste (in bulk or block) whether or not defatted, cocoa butter (fat and oil) and cocoa powder not containing added sugar or other sweetening matter to any destination if there is produced to the proper officer of Customs and Excise at the place of export the appropriate certificate prescribed for this purpose by the economic and control rules of the International Cocoa Agreement 1986(9) which were adopted by the International Cocoa Council on 23rd January 1987
(i)firearms (not being goods of a description specified in Group B of Part 1 of Schedule 1 hereto) authorized to be held by a valid firearm certificate or shotgun certificate granted or having effect as if granted under the Firearms Act 1968(10) or by a valid firearm certificate granted under the Firearms (Northern Ireland) Order 1981(11) or granted in the Isle of Man under the Firearms Act 1947 (an Act of Tynwald)(12); and
(ii)related ammunition for use therewith;
to any destination other than a destination in South Africa or in Namibia, provided that the firearms and ammunition form part of the personal effects of the holder of the certificate and the certificate is produced by the holder, or his duly authorized agent, with the firearms and ammunition, to the proper officer of Customs & Excise at the place of export;
(i)any live animal if the place of export is Great Britain;
(ii)live bovine animals, live swine and live sheep from Northern Ireland to the Republic of Ireland;
(i)any vessel registered or constructed outside the United Kingdom which is being exported after temporary importation into the United Kingdom;
(ii)any vessel which is departing from the United Kingdom on trials;
(iii)any vessel proceeding on a normal commercial journey.
5. Any exporter or any shipper of goods which have been exported from the United Kingdom shall, if so required by the Commissioners, furnish within such time as they may allow proof to their satisfaction that the goods have reached either—
(i)a destination to which they were authorised to be exported by a licence granted for the purposes of this Order, or
(ii)a destination to which their exportation was not prohibited by this Order;
and, if he fails to do so, he shall be liable to a customs penalty not exceeding two thousand pounds unless he proves that he did not consent to or connive at the goods reaching any destination other than such a destination as aforesaid.
6.—(1) If for the purpose of obtaining any licence or permission under this Order for the exportation or shipment as ships' stores of any goods or of obtaining from the Secretary of State a European Community export licence as referred to in article 3 of this Order any person makes any statement or furnishes any document or information which to his knowledge is false in a material particular or recklessly makes any statement or furnishes any document or information which is false in a material particular he shall be guilty of an offence and liable on summary conviction to a fine not exceeding two thousand pounds and on conviction on indictment to a fine or imprisonment for a term not exceeding 2 years, or to both; and any licence or permission or European Community export licence which may have been granted for the exportation or shipment as ships' stores of any goods, in connection with the application for which the false statement was made or the false document or information furnished, shall be void as from the time it was granted.
(2) Any person who has exported goods from the United Kingdom under the authority of a licence granted by the Secretary of State in pursuance of Article 4(a) and who fails to comply with any condition attaching to that licence shall be guilty of an offence and liable on summary conviction to a fine not exceeding two thousand pounds and on conviction on indictment to a fine or imprisonment for a term not exceeding 2 years, or to both:
Provided that no person shall be guilty of an offence under this paragraph where he proves that the condition with which he failed to comply was modified, otherwise than with his consent, by the Secretary of State and that the goods in relation to which he failed to comply with the condition had, at the time when the condition was modified, been exported from the United Kingdom.
7.—(1) Any person who, on any occasion, is about to leave the United Kingdom shall, if on that occasion he is required to do so by an officer of Customs and Excise—
(a)declare whether or not he has with him any goods the export of which from the United Kingdom is subject to any prohibition or restriction under this Order; and
(b)produce any such goods as aforesaid which he has with him;
and such officer, and any person acting under his directions, may search that person for the purpose of ascertaining whether he has with him any such goods as aforesaid:
Provided that no person shall be searched in pursuance of this paragraph except by a person of the same sex.
(2) Any person who without reasonable excuse refuses to make a declaration, fails to produce any goods or refuses to allow himself to be searched in accordance with the foregoing provisions of this article shall be guilty of an offence and liable to a customs penalty not exceeding one thousand pounds.
(3) Any person who under the provisions of this article makes a declaration which to his knowledge is false in a material particular or recklessly makes any declaration which is false in a material particular shall be guilty of an offence and liable on summary conviction to a customs penalty not exceeding two thousand pounds and on conviction on indictment to a customs penalty of any amount or imprisonment for a term not exceeding two years, or to both.
8.—(1) A licence granted by the Secretary of State in pursuance of article 4(a) or having effect as if so granted may be modified or revoked by him at any time.
(2) Any permission granted by the proper officer of Customs and Excise for the shipment of any goods as ships' stores may be modified or revoked by such officer at any time.
9. The Orders specified in Schedule 3 hereto are hereby revoked.
Trefgarne
Minister for Trade,
Department of Trade and Industry
15th December 1989.
Article 1(2)
PART I
Group A Goods specified by reference to headings and subheadings of the Combined Nomenclature
Group B antiques
Group C Steel products prohibited to be exported to the United States of America or the Commonwealth of Puerto Rico
PART II
Group 1 Military aircraft, Arms and related material, Ammunitionm, Military Stores and Appliances, and Security and Parliamentary police Equipment
Group 2A Atomic Energy Minerals and Materials
Group 2B Nuclear Facilities, Equipment and Appliances
Group 3A Metal Working Machinery and Associated Equipment
Group 3B Chemical and Petroleum Equipment
Group 3C Electrical and Power-Generating Equipment
Group 3D General Industrial Equipment
Group 3E Aircraft, Spacecraft, Marine Equipment and Ships (other than Warships and Naval Equipment)
Group 3F Electronic Equipment including Communications and Radar and Scientific Instruments and Apparatus
Group 3G Electronic Equipment including Computers, Software and Telecommunications Equipment, and Photographic Equipment
Group 3H Metals, Minerals and their Manufactures
Group 3I Chemicals, Metalloids, Petroleum Products and Synthetic Rubber
INDEX
CN Heading and Sub-Heading No. | Description of Goods | |
---|---|---|
1002 | Live bovine animals | W |
0103 | Live swine | W |
010410 | Sheep | W |
1801 | Cocoa beans, whole or broken raw or roasted | E |
ex1803 | Cocoa paste (in bulk or block), whether or not defatted | E |
1804 | Cocoa butter, fat and oil | E |
ex1805 | Cocoa powder, not containing added sugar or other sweetening matter, otherwise than in retail packs each of less than 3.5 kg | E |
262030 | Ash and residues, (other than from the manfuacture of iron or steel), containing metals or metallic compounds—containing mainly copper | E |
ex7118 | Coin of silver alloy of the United Kingdom minted before 1947, but not more than 100 years old at the date of exportation, exported in a quantity exceeding 10 in number | W |
720410 | Waste and scrap metal of cast iron (ECSC) | E |
Waste and scrap of alloy stel | E | |
720421 | Waste and scrap of stainles steel (ECSC) | E |
720429 | Other (ECSC) | E |
720430 | Waste and scrap of tinned iron or steel | E |
720441 | Turnings, shavings, chips, milling waste, sawdust, filings, trimmings and stampings, whether or not in bundles (ECSC) | E |
720449 | Other (ECSC) | E |
720450.10 | Remelting scrap ingots: Of alloy steel (ECSC) | E |
7404 | Copper waste and scrap | E |
7602 | Aluminium waste and scrap | T |
7802 | Lead waste and scrap | T |
790200 | Zinc waste and scrap | T |
Any goods manufactured or produced more than 50 years before the date of exportation except (1) postage stamps and other articles of philatelic interest: (2) birth, marriage or death certificates or other documents relating to the personal affairs of the exporter or the spouse of the exporter; (3) letters or other writings written by or to the exporter or the spouse of the exporter; and (4) any goods exported by, and being the personal property of, the manufacturer or producer thereof, or the spouse, widow or widower of that person. | W |
The products specified in Annex I to the following Community instruments on the restriction of exports of certain steel products to the United States of America,
Commission Decision No. 2872/82/ECSC(13)
Council Decision No. 3713/85 ECSC(14) and Commission Decision No. 2827/86/ECSC(15)
Note: The goods in this Part are for convenience specified by reference to the classification system used by the Department of Trade and Industry for export control purposes.
Note: Goods specified in the heads of this Group may also be specified in Groups 3E, 3F and 3G of this Part of this Schedule. Military aircraft and helicopters, Arms and related material, Ammunition, Military Stores and Appliances, and Security and Para-Military Equipment | ||
ML1 | Small arms and machine guns, the following— | |
(a)Rifles, carbines, revolvers, pistols, machine pistols and machine guns | C | |
(b)Smooth-bore weapons specially designed for military use | C | |
(c)Specially designed components therefore, such as barrels, cylinders and breeches | C | |
except
| ||
PL5003 | Mounting for machine guns | C |
ML2 | Large calibre armament or weapons and projectors the following: and specially designed components and specially designed ODMA software therefor— | |
(a)Guns, howitzers, cannon, mortars, tank destroyers, projectile and rocket launchers, military flame throwers, recoilless rifles | C | |
(b)Military smoke, gas and pyrotechnic projectors | C | |
PL5004 | Military smoke producing appliances and specially designed components and specially designed ODMA software therefor | C |
ML3 | Ammunition including projectiles and specially designed components and specially designed ODMA software therefor, for the equipment mentioned in the entries ML1, ML2, PL5003 and PL5004 above | C |
ML4 | Bombs, torpedoes, rockets and missiles guided and unguided the following and specially designed ODMA software therefor— | |
(a)Bombs, torpedoes, grenades (including smoke grenades), smoke canisters, rockets, mines, missiles guided or unguided, depth charges, fire bombs, incendiary bombs and military demolition charges, devices and kits; and pyrotechnic flare signals for military use; cartridges and simulators; and specially designed components therefor | C | |
(b)Apparatus and devices specially designed for the handling, control, activation, launching, laying, sweeping, discharging detonation or detection of items enunerated in head (a); and specially designed components therefor | C | |
(c)Military fuel thickeners, including but not limited to compounds such as octal or mixtures of such compounds such as napalm, specifically formulated for the purpose of producing materials which, when added to petroleum products, provide a gel-type incendiary material for use in bombs, projectiles, flamethrowers or other implements of war | C | |
PL5005 | Apparatus and devices specially designed for the refuelling or disruption of items specified in head (a) of entry ML4 in this Group and specially designed components therefor | C |
PL5006 | Apparatus and devices specially designed for dealing with improvised explosive devices | C |
In this entry “improvised explosive devices” means devices placed or fabricated in an improvised manner incorporating destructive, lethal, noxious, pyrotechnic or incendiary chemicals, designed to destroy, disfigure or harass. They may incorporate military stores, but are normally devised from non-military components. | ||
ML5 | Fire control equipment and range finders the following: and specially designed components, accessories and specially designed software therefor— | |
(a)Fire control, gun laying,night sighting, missile tracking and guidance equipment | C | |
(b)Range, position and height finders, and spotting instruments, specially designed for military purposes | C | |
(c)Aiming devices, electronic, gyroscopic, acoustic and optical, specially designed for military purposes | C | |
(d)Bomb sights, bombing computers, gun sights and periscopes, specially designed for military purposes | C | |
(e)Television sighting units specially designed for military use | C | |
ML6 | Tanks and vehicles specially designed for military purposes, the following: and specially designed components and specially designed ODMA software therefor— | |
(a)Tanks and self-propelled guns | C | |
(b)Military type armed or armoured vehicles, and vehicles fitted with mounting for arms | C | |
(c)Armoured railway trains | C | |
(d)Military half-tracks | C | |
(e)Military type recovery vehicles | C | |
(f)Gun-carriers and tractors specially designed for towing artillery | C | |
(g)Trailers specially designed to carry ammunition | C | |
(h)Amphibious and deep water fording military vehicles | C | |
(i)Military mobile repair shops specially designed to service military equipment | C | |
(j)All other specially designed military vehicles | C | |
PL5007 | Engines specially designed or modified for military use for the propulsion of vehicles specified in entry ML6 in this Group | C |
PL5008 | Pneumatic tyre casings, other than tractor or farm implement types, of a kind specially constructed to be bullet proof or to run when deflated | C |
ML7 | Toxicological agents and tear gas, related equipment, components and materials the following: and specially designed ODMA software therefor— | |
(a)Biological, chemical and radioactive materials adapted for use in war to produce casualties in men or animals, or to damage crops | C | |
(b)Noxious chemicals, the following— | ||
(1)Bromobenzyl cyanide | C | |
(2)oChlorobenzylidenemalononitrile (oChlorobenzalmalononitrile) | C | |
(3)monoChloromethyl chloroformate | C | |
(4)2-Chlorotriethylamine | C | |
(5)Dibenzoxazepine | C | |
(6)Dibromodimethyl ether | C | |
(7)Dichlorodimethyl ether | C | |
(8)2:2'-Dichlorotriethylamine | C | |
(9)Diphenylaminochloroarsine | C | |
(10)Diphenylchloroarsine | C | |
(11)Diphenylcyanoarsine | C | |
(12)Ethyl NN-dimethylphosphoramidocyanidate | C | |
(13)Ethyldibromoarsine | C | |
(14)Ethyldichloroarsine | C | |
(15)Lewisite (chlorovinyldichloroarsine and dichlorodivinylchloroarsine) | C | |
(16)Methyldichloroarsine | C | |
(17)Mustard gas (dichlorodiethyl sulphide) | C | |
(18)Phenylcarbylamine chloride (phenyhlaminocarbony chloride) | C | |
(19)Phenylacyl chloride (w-Chloroacetophenone) | C | |
(20)Phenyldibromoarsine | C | |
(21)Phenyldichloroarsine | C | |
(22)Pinacolyl methylphosphofluoridate | C | |
(23)isoPropyl methylphosphonofluoridate | C | |
(24)2:2':2" Trichlorotriethylamine | C | |
(c)Equipment specifically designed and intended for the dissemination of the materials described in heads (a) and (b) above | C | |
(d)Equipment and materials specially designed and intended for defence against the materials described in heads (a) and (b) above and for their detection and identification | C | |
(e)Components specially designed for the items listed in heads (c) and (d) above | C | |
(f)Bipolymers specially designed or processed for detection and identification of chemical warfare materials described in head (a) above and the cultures of specific cells used to produce them | C | |
PL5009 | Explosives, propellants and related substances the following— | |
(a)Explosives as defined in section 3 of the Explosives Act 1875(17) except those specially designed for toys, novelty goods and display fireworks | C | |
(b)Military propellants and fuels not elsewhere specified in this Schedule | C | |
(c)Military pyrotechnics | C | |
(d)Additives, precursors and stabilisers, and specially designed ODMA software, for the materials specified in heads (a) to (c) above (inclusive) | C | |
ML9 | Vessels (including ships) of war and special naval equipment, the following: and specially designed ODMA software therefor— | |
(a)Combatant vessels or vessels designed for offensive or defensive action (surface or underwater) whether or not converted to non-military use and regardless of current state of repair or operating condition | C | |
(b)Engines, the following— | ||
(1)diesel engines of 1,500 b.h.p. and over with rotary speed of 700 r.p.m. or over, specially designed for submarines | C | |
(2)electric motors specially designed for submarines, namely those over 1,000 b.h.p. quick reversing type, liquid cooled and totally enclosed | C | |
(3)non-magnetic diesel engines, 50 b.h.p. and over, specially designed for military purposes | C | |
(d)Submarine and torpedo nets | C | |
(e)Compasses and equipment therefor and ship’s course indicators, specially designed for submarines | C | |
(f)Specially designed components, accessories and attachments to the foregoing, such as turrets, naval gun mounts, submarine batteries and catapults | C | |
(g)Hull penetrators and connectors specially designed for military purpposes that enable interaction with equipment external to a vessel | C | |
(h)Silent bearings for military purposes and equipment containing these bearings | C | |
PL5010 | Underwater detection devices specially designed for military purposes; controls and components thereof | C |
ML10 | Aircraft and helicopters, of the piloted or pilotless types, and aero-engines and aircraft or helicopter equipment, associated equipment and components, specially designed for military purposes, the following: and specially designed ODMA software therefor— | |
(a)Combat aircraft and helicopters and other aircraft and helicopters specially designed for military purposes, including military reconnaissance, assault, military training and logistic support, and all aircraft and helicopters having special structural features such as multiple hatches, special doors, ramps, reinforced floors and the like, for transporting and airdroppng troops, military equipment and supplies; aero-engines specially designed or adapted for use with such aircraft and helicopters, but not including those aero-engines not falling within head IL1460(d) in Group 3E, in this Schedule; and specially designed components therefor | C | |
(b)Airborne equipment, including airborne refuelling equipment specially designed for use with the aircraft and helicopters and the engines for the types of aircraft and helicopters specified in head (a) of this entry and specially designed components therefor | C | |
(c)Pressure refuellers, pressure fuelling equipment, equipment specially designed to facilitate operations in confined areas and ground equipment, not elsewhere specified, developed specially for aircraft and helicopters, and aircraft and helicopter engines specified in head (a) of this entry | C | |
PL5011 | Remotely piloted air vehicles specially designed for reconnaissance, surveillance electronic warfare and other military purposes and their launchers ground stations and associated equipment for command and control | C |
PL5012 | Apparatus and appliances specially designed for use with aircraft and helicopters, associated equipment and components, the following: and specially designed ODMA software therefor— | |
(a)Pressurised breathing equipment and partial pressure suits | C | |
(b)Anti-g suits | C | |
(c)Military crash helmets | C | |
(d)Military parachutes | C | |
(e)Liquid oxygen converters used for aircraft, helicopters and missiles | C | |
(f)Catapults and cartridge actuated devices used in emergency escape of personnel from aircraft and helicopters | C | |
PL5013 | Supply dropping apparatus for use with aircraft and helicopters specified in entry ML10 in this Group and associated equipment and specially designed components and specially designed ODMA software therefor | C |
ML11 | Electronic equipment specially designed for military use and specially designed components and specially designed ODMA software therefor— | C |
ML12 | Photographic and electro-optical imaging equipment, the following: and specially designed components and specially designed ODMA software therefor— | |
(a)Air reconnaissance cameras and associated equipment designed for military purposes | C | |
(b)Other cameras and electro-optical imaging devices, including infrared and imaging radar sensors, whether recording, or transmitting via data link, designed for military including reconnaissance purposes | C | |
(c)Specialized equipment for the cameras and electro-optical imaging devices specified in head (d) above designed to make the recorded or transmitted information militarily useful | C | |
(d)Film processing and printing machines designed for military purposes | C | |
ML13 | Special armoured equipment, the following— | |
(a)Armoured plate | C | |
(b)Combinations and constructions of metallic or non-metallic materials specially designed to provide ballistic protection for military systems | C | |
(c)Military helmets | C | |
(d)Body armour, bullet-proof or bullet-resistant clothing, flack suits and specially designed components therefor | C | |
PL5014 | Specially designed components for the equipment specified in entry ML13 heads (a), (b) and (c), in this Group | C |
ML14 | Specialised military training equipment and specially designed components and accessories and specially designed ODMA software therefor | C |
ML15 | Military infrared, thermal imaging and image intensifier equipment, and specially designed components and specially designed ODMA software therefor | C |
ML16 | Forgings, castings and semi-finished products specially designed for the products specified in by entries ML1, 2, 3, 4 and 6 and PL5003, 5004, 5005, 5006 5007 and 5008 above | C |
ML17 | Miscellaneous equipment and materials, the following and specially designed ODMA software therefor— | |
(a)Self contained diving and underwater swimming apparatus, the following— | ||
(1)closed and semi-closed circuit (rebreathing) apparatus | C | |
(2)specially designed components for use in the conversion of open-circuit apparatus to military use | C | |
(3)articles exclusively designed for military use with self-contained diving and underwater swimming apparatus | C | |
(b)Silencers or mufflers for armaments | C | |
(c)Power-controlled searchlights and control units therefor, designed for military use and specially designed ODMA softward therefor | C | |
(d)Construction equipment built to military specifications, specially designed for airborne transport and specially designed components therefor | C | |
PL5002 | Telescopic sights for firearms | C |
PL5016 | Material or devicers specially designed to reduce, distort or eliminate the signature (ie thermal, electronic, acoustic or magnetic) of a vehicle or military installation | C |
In this entry “vehicle” means a self-propelled, boosted or towed conveyance for transporting a burden or load on land, sea, through air or space. | ||
ML18 | Equipment and technology for the production, namely design, examination, manufacture, testing and checking, of goods specified in this Group, the following: and specially designed ODMA software therefor— | |
(a)Specially designed production equipment | C | |
(b)Components specially designed for equipment specified in head (a) abovr | C | |
(c)Production equipment for goods specified elsewhere in this Schedule | C | |
(d)Production technology even if the equipment with which such technology is to be used is not specified in this Group | D | |
(e)Technology specific to the design of, the assembly of components into, and the operation, maintenance and repair of complete production installations even if the components are not specified in this Group | D | |
PL5017 | Equipment and technology for the development of the goods specified in this Group and specially designed ODMA software therefor | C |
ML19 | Environmental chambers capable of pressures below 0.133 microbar (10−4 Torr) and specially designed components therefor | C |
except equipment fitted with industrial machinery not specified elsewhere in this Schedule | ||
ML20 | Cryogenic and superconductive equipment and components, the following and specially designated ODMA software therefor | |
(a)Equipment specially designed or configured to be installed in a vehicle for military ground, marine, airborne or space application and capable of operating while in motion and of producing or maintaining temperatures below 103 K (−170°C) and specially designed accessories and components and specially designed ODMA software therefor | C | |
(b)Superconductive electrical equipment (rotating machinery and transformers) designed for operation at temperatures below 103 K (−170°C) and that are specially designed or configured to be installed in a vehicle for military ground, marine, airborne or space applications and capable of operating while in motion, except direct-current hybrid homopolar generators that have single-pole normal metal armatures which rotate in a magnetic field produced by superconducting windings, provided those windings are the only superconducting component in the generator, and specially designed accessories and components and specially designed ODMA software therefor | C | |
ML22 | Electrically triggered shutters of the carbon injection or photochromic function type having a shutter speed of less than 100 microseconds, and specially designed ODMA software therefor; except shutters specially designed for high-speed cameras | C |
ML23 | Directed energy weapons (DEW) systems, the following and specially designed ODMA software therefor— | |
(a)Laser systems specially designed for destruction or effecting mission-abort of a target | C | |
(b)Particle beam systems capable of destruction or effecting mission-abort of a target | C | |
(c)High power radio-frequency (RF) systems capable of destruction or effecting mission-abort of a target | C | |
(d)Specially designed components for systems specified in heads (a), (b) or (c) above, including | C | |
(1)prime power generation, energy storage, switching, power conditioning and fuel handling equipment | C | |
(2)target acquisition and tracking sub-systems | C | |
(3)sub-systems capable of assessing target damage, destruction or mission-abort | C | |
(4)beam-handling, propagation and pointing equipment | C | |
(5)equipment with rapid beam slew capability for rapid multiple target operations | C | |
(6)adaptive optics | C | |
(7)current injectors for negative hydrogen ion beams which provide average injection currents over 50 mA with beam brightness (defined as current divided by the product of orthogonal transverse, normalised RMS emittances) greater than 40 A(cm2 mrad) at kinetic energies greater than 20keV; or | C | |
(8)specially designed components for the equipment specified in sub-heads (1) to (7) above | C | |
(e)Equipment, and components thereof, specially designed and intended for defence against systems specified in heads (a), (b) and (c) above and for their detection and identification | C | |
(f)Physical test models and related documentation for the systems, equipment and components specified in heads (a) to (e) above | C | |
ML24 | Software not elsewhere specified, the following— | |
(a)Software specially designed for the modelling, simulation or evaluation of military weapons systems | C | |
(b)Software for determining the effects of conventional, nuclear, chemical or biological warfare weapons | C | |
ML25 | Biocatalysts for decontamination and degradation of chemical warfare (CW) agents, technology, and biological systems therefor, the following— | |
(a)Biocatalysts, specially designed for decontamination and degradation of CW agents specified in head (a) of entry ML7 resulting from directed laboratory selection or genetic manipulation of biological systems | C | |
(b)Technology designed, produced and used exclusively for the incorporation of biocatalysts, specified in head (a) above, into military carrier substances or military material | D | |
(c)Biological systems, the following— | ||
| C | |
| ||
In this entry (a) “biocatalysts” means enzymes or other biological compounds which bind to and accelerate the degradation of CW agents. (b) “expression vectors” are carriers (eg plasmid or virus) which are used to introduce genetic material into host cells. | ||
PL5001 | Security and para-military police equipment, the following— | |
(a)Acoustic devices represented by the manufacturers or suppliers thereof as suitable for riot control purposes, and specialised components therefor | C | |
(b)Anti-riot shields and components therefor | C | |
(c)Leg-irons, shackles (excluding handcuffs) and gangchains, specially designed for restraining human beings | C | |
(d)Portable anti-riot devices for administering an electric shock or an incapacitating substance, and specialised components therefor | C | |
(e)Water cannon and components therefor | C | |
(f)Riot control vehicles which have been specially designed or modified to be electrified to repel boarders | C |
Note 1: For the purposes of this Group “crude forms” and “semi-fabricated forms” have the same meanings as in Group 3H.
Note 2: Goods specified in this Group may also be specified in Group 3 of this Part of this Schedule.
A1 | Special and other fissile materials | C |
except
In this entry— 1. “special fissile materials” means plutonium-239, uranium-233, uranium enriched in the isotopes 235 or 233, and any material containing the foregoing. 2. “uranium enriched in the isotopes 235 or 233” means uranium containing the isotopes 235 or 233, or both, in an amount such that the abundance ratio of the sum of these isotopes to the isotope 238 is more than the ratio of the isotope 235 to the isotope 238 occurring in nature (isotope ratio 0.72 per cent); 3. “other fissile material” means previously separated americium-242m, curium-245 and -247, californium-249 and -251 isotopes of plutonium other than -239, and any material containing the foregoing; 4. “effective gramme” of special or other fissile material is defined as follows: (a)for plutonium isotopes and uranium-233, the isotope weight in grammes; (b)for uranium enriched 1 per cent or greater in the isotope U-235, the element weight in grammes multiplied by the square or its enrichment expressed as a decimal weight fraction; (c)for uranium enriched below 1 per cent in the esotope U-235, the element weight in grammes multiplied by 0.0001; (d)for americium-242m, curium-245 and -247, and californium-249 and -251, the esotope weight to grammes multiplied by 10. 5. For the purposes of this item the term “previously separated” means the application of any process intended to increase the concentration of the controlled isotope. | ||
A2 | Source material, the following— | |
Natural and depleted uranium, in any form, or incorporated in any substance in which the concentration of uranium exceeds 0.05% | C | |
In this entry— “natural uranium” means uranium contining the mixtures of esotopes occurring in nature; “depleted uranium” means uranium depleted in the isotope 235 below that occurring in nature. | ||
PL6001 | Source material, the following— | |
Thorium, in any form, or incorporated in any substance in which the concentration of thorium exceeds 0.05% | C | |
except alloys containing less than 5% thorium. | ||
A3 | Deuterium, heavy water, deuterated paraffins, and simple or complex lithium deuterides, and mixtures and solutions containing deuterium, in which the instopic ratio of deuterium to hydrogen exceeds 1:5,000 | C |
PL6012 | Compounds of deuterium | C |
A4 | Zirconium in which the ratio of hafnium content to zirconium content is less than one part to five hundred parts by weight, the following— | |
(a)Zirconium and alloys containing more than 50% zirconium, in crude or semi-fabricated forms | C | |
(b)Zirconium compounds, except zirconium oxide thermally stabilised with calcium oxide or magnesium oxide or both | C | |
(c)Manufactures wholly of any of the foregoing | C | |
A5 | Nickel powder and porous nickel metal, the following— | |
(a)Powder with a nickel content of 99% or more tha a mean particle size of less than 100 micrometres, whether compacted or not | C | |
(b)Porous nickel metal material produced from materials specified in head (a) above except single porous nickel metal sheets not exceeding 930 cm2 intended for use in batteries for civil applications | C | |
PL6011 | Graphite, nuclear-grade, having a purity level of less than 5 parts per million boron equivalent and with a density greater than 1.5 g/cm3 | C |
A7 | Lithium, the following— | |
(a)Lithium and alloys containing 50 per cent or more of lithium, in crude or semi-fabricated forms | C | |
(b)Lithium and alloys, mixtures, concentrates and compounds, containing lithium enriched in the lithium-6 isotope | C | |
(c)Hydrides in which lithium, whether normal, depleted or enriched in the lithium-6 isotope, is compounded with hydrogen or its isotopes or complexed with other metals or aluminium hydride | C | |
(d)Substances not specified above containing lithium enriched in the lithium-6 isotope | C | |
A8 | Hafnium, the following— | |
(a)Hafnium and alloys containing more than 60 per cent of hafnium, in crude or semi-fabricated forms | C | |
(b)Hafnium compounds containing more than 60 per cent of hafnium | C | |
(c)Manufacurues of any of the foregoing | C | |
A9 | Berylium, the following— | |
(a)Beryllium and alloys containing more than 50 per cent of beryllium, in crude or semi-fabricated forms | C | |
(b)Beryllium compounds | C | |
(c)Manufacturers of any of the foregoing except metal windows for medical X-ray machines and oxide shapes in fbricated or semi-fabricated forms specially designed for electronic component parts or as substrates for electronic circuits | C | |
PL6002 | Fluorine | C |
PL6003 | Chlorine trifluoride | C |
A12 | Tritium, compounds and mixtures containing tritium in which the ratio of tritium to hydrogen by atoms exceeds 1 part in 1,000, and products containing ore or more of the foregoing | C |
except (i) labelled compounds not exceeding 100 curies per shipment (in this entry “labelled compounds” means compounds in which one of the atoms is a different isotope from that found normally); (ii) tritium contained in luminous paint, self-luminous products, gas and aerosol detectors, electron tubes, lightning or static elimination devices, ion generating tubes, detector cells of gas chromatography devices, and calibration standards, provided that each product or device contains not more than 40 curies of tritium in any chemical or physical form; (iii) compounds and mixtures of tritium, where the separation of the constituents cannot result in the evolution of an isotopic mixture of hydrogen in which the ratio of tritium to hydrogen by atoms exceeds 1 part in 1,000 | ||
A13 | Materials for nuclear heat sources, the following— | |
(a)Plutonium in any form with a plutonium isotopic assay of pultonium 238 | C | |
| ||
(b)Previously separated neptunium-237 in any form | C | |
In this entry— “previously separated” means the application of any process intended to increase the concentration of the controlled isotope. | ||
A14 | Specially designed or prepared materials for the separation of isotopes of natural uranium, depleted uranium and special and other fissile materials, including specially designed chemical exchange resins | C |
Note 1: see entries A1 and A2 in this Group for the special and other fissile materials to which this entry refers. Note 2: for isotopic separation plants, see the entry in Group 2B relating thereto. | ||
PL6005 | Calcium containing less than 100 perts per million by weight of impurities other than magnesium and less than 10 parts per million by weight of boron | C |
PL6006 | Alloys containing a higher percentage of megnesium than of any other element and 10% or more of lithium | C |
B1 | Plants for the separation of isotopes of natural and depleted uranium and special and other fissile materials, and specially designed or prepared equipment and components therefor, including | C |
(a)Units capable of separating isotopes of natural uranium, depleted uranium, and special or other fissile materials, such as— | ||
(1)Gas cintrifuges | C | |
(2)Jet nozzle separation units | C | |
(3)Vortex separation units | C | |
(4)Laser isotopic separation units | C | |
(5)Chemical exchange separation units | C | |
(6)Electromagnetic separation units | C | |
(7)Plasma separation units | C | |
(8)Gaseous diffusion separation units | C | |
(b)Specially designed components for the above including— | ||
(1)Vlaves wholly made of or lined with nickel, nickel alloy, phosphor bronze, stainless steel, aluminium or aluminium alloy, corrosion resistant to uranium hexafluoride (UF6) or hydrogen fluoride (HF), 0.5 cm or greater in diameter with bellows seal | C | |
(2)Blowers and compressors (turbo, centrifugal and axial flow types) wholly made of or lined with nickel, nickel alloy, phosphor bronze, stainless steel, aluminium or aluminium alloy, corrosion resistant to uranium hexafluoride (UF6) or hydrogen fluoride (HF) and having a capacity of 1,700 litres (1.7m3) per minute or greater, including compressor seals | C | |
(3)Gaseous diffusion barriers | C | |
(4)Gaseous diffusion housings | C | |
(5)Heat exchangers made of alumium, copper, nickel or nickel alloys, separately or together, and heat exchangers incorporating tubing clad with alumium copper, nickel or nickel alloys, separately or together, and in which the other parts are made wholly of the foregoing metals, separately or together, designed to operate at sub-atmospheric presssure with a leak rate of less than 10 pascal (0.1 millibar) per hour under a pressure differential of 105 pascal (a bar) | C | |
(For specially designed or prepared materials for the separtion of sotopes, see the entry A14 in Group 2A.) | ||
B2 | Plants for the reprocessing of irradiated nuclear reactor fuel and equipment and components specially designed or prepared therefor, or capable of being adapted for use therein, including— | C |
(a)Fuel element chopping or shredding machines | C | |
(b)Criticality safe tanks (eg small diameter, annular or slab tanks) | C | |
(c)Counter-current solvent extractors and ion-exchange processing equipment | C | |
(d)Process control or instrumentation specially designed or prepared for monitoring or controlling the reprocessing of irradiated source and special and other fissile materials | C | |
In this entry “plant for the reprocessing of irradiated nuclear reactor fuel” includes equipment and components which normally come into direct contact with and directly control the irradiated fuel and the major nuclear material and fission product processing streams. Note: For process control equipment for lithium, see entry PL6010 in this Group. | ||
B3 | Nuclear reactors, ie reactors capable of operation so as to maintain a controlled, self-sustaining fission chain reaction, and equipment and components specially designed or prepared for use in connection with a nuclear reactor, including— | C |
(a)Pressure vessels, ie metal vessels as complete units or as major shop-fabricated parts therefor | C | |
(b)Fuel element handling equipment, including reactor fuel charging and discharging equipment | C | |
(c)Control rods, including the neutron absorbing part and the support or suspension structures therefor, and control rod guide tubes | C | |
(d)Electronic controls for controllng the power levels in nuclear reactors, including reactor control rod drive mechanisms and radiation detection and measuring instruments to determine neutron flux levels | C | |
(e)Pressure tubes | C | |
(f)Coolant pumps | C | |
(g)Internals specially designed or prepared for the operation of a nuclear reactor, including but not limited to core support structures, thermal shields, baffles, core grid plates and diffuser plates | C | |
(h)Heat exchangers | C | |
In this entry “nuclear reactor” includes the items within or attached directly to the reactor vessel, the equipment which controls the level of power in the core, and the components which normally contain or come into direct contact with or control the primary coolant of the reactor core. | ||
B4 | Plants specially designed for the fabrication of nuclear reactor fuel elements and specially designed equipment therefor | C |
Note: A plant for the fabrication of nuclear reactor fuel elements includes equipment which (1) normally comes into direct contact with or directly processes or controls the production flow of nuclear materials, (2) seals the nuclear material within the cladding, (3) checks the ingegrity of the cladding or the seal, and (4) checks the finish treatment of the solid fuel. | ||
B5 | Plants for the production or concentration of heavy water, deuterium, or deuterium comounds, and specially designed or prepared equipment and compounds therefor | C |
B6 | Plants for the production of uranium hexafluoride (UF6) and specially designed or prepared equipment (including UF6 purification equipment) and components therefor | C |
C1 | Neutron generator systems, including tubes, designed for operation without an external vacuum system and utilizing electrostatic acceleration to induce a tritium-deuterium nuclear reaction | C |
C2 | Power generating or propulsion equipment specially designed or adapted for use with military, space, marine or mobile neclear reactors | C |
C3 | Electrolytic cells for the production of fluorine with a production capacity greater than 250 g of fluorine per hour | C |
C4 | Equipment specially designed for the separation of isotopes of lithium | C |
(For plants for the separation of isotopes other than lithium, see the entry for such plants in this Group.) | ||
C5 | Equipment specially designed for the production or recovery of tritium | C |
C6 | Frequency changers (converters or inverters) capable of a multi-phase electrical output of between 600-2,000 Hz, and specially designed components therefor, for use in gas centrifuge plants | C |
PL6007 | Equipment specially designed for the manufacture or assembly of gas centrifuges capable of the enrichment or separation of isotopes and specially designed parts, components and equipment therefor | C |
(For gas centrifuge plants, see entry B1, plants for separation of isotopes, in this Group.) | ||
PL6008 | Mass spectrometers and mass spectrometer sources designed for measuring the isotopic composition of uranium hexafluoride (UF6) gas, uranium and uranyl compounds | C |
PL6009 | Pressure gauges capable of measuring pressures to 100 Torr (1332.2 newtons per square metre) or less having sensing elements of nickel, nickel alloy, phosphor bronze, stainless steel, aluminium or aluminium alloy, corrosion resistant to uranium hexafluoride (UF6) or hydrogen fluoride (HF); and such sensing elements | C |
PL6010 | Process control equipment or instrumentation specially designed or prepared for monitoring or controlling the reprocessing of irradiated lithium | C |
IL1001 | Technology for metal-working manufacturing processes and specially designed software, the following— | |
(a)Technology for the design of tools, dies and fixtures specially designed for the following processes— | D | |
(1)hot die forging; (2)superplastic forming; (3)diffusion bonding; (4)metal powder compaction using— (i)vacuum hot pressing; (ii)high pressure extrusion; or (iii)isostatic pressing. (5)direct-acting hydraulic pressing. | ||
(b)Technology consisting of the physical process parameters listed below in relation to each subhead, using to control— | D | |
(1)hot die forging— (i)temperature; (ii)strain rate; (2)superplastic forming of aluminium alloys, titanium alloys and superalloys— (i)surface preparation; (ii)strain rate; (iii)temperature; (iv)pressure; (3)diffusion bonding of superalloys and titanium alloys— (i)surface preparation; (ii)temperature; (iii)pressure; (4)metal powder compaction using— (i)vacuum hot processing: (a) temperature; (b) pressure; (c) cycle time; (ii)high pressure extrusion: (a) temperature; (b) pressure; (c) cycle time; (iii)isostatic pressing: (a) temperature; (b) pressure; (c) cycle time; (5)direct-acting hydraulic pressing of aluminium alloys, and titanium alloys— (i)pressure; (ii)cycle time; (6)hot isostatic densification of titanium alloys, alumium alloys and superalloys— (i)temperature; (ii)pressure; (iii)cycle time.
(a) “hot die forcing” means a deformation process where die temperatures are at the same nominal temperature as the workpiece and exceed 850 K (577°C); (b) “superplastic forming” means a deformation process using heat for metals that are normally characterised by low values of elongation (less than 20%) at the breaking point as determined at room temperature by conventional tensile strength-testing, in order to achieve elongations during processing which are at least 2 times those values; (c) “diffusion bonding” means a solid-state molecular joining of at least two separate metals into a single piece with a joint strength equivalent to that of the weakest material; (d) “metal powder compaction” means a process capable of yielding parts having a density of 98% or more of the theoretical maximunm density; (e) “direct-acting hydraulic pressing” means a deformation process which uses a fluit-filled flexible bladder in direct contact with the workpiece; (f) “hot isostatic densification” means a process of presurizing a casting at temperatures exceeding 375 K (102°C) in a closed cavity through various media (gas, liquid, solid particles, etc) to create equal force in all directions to reduce or eliminate internal voids in the casting; (g) “vacuum hot pressing” means a process which uses a press with heated dies to consolidate metal powder under reduced atmospheric pressure into a part; (h) “high pressure extrusion” means a process yielding a single-pass reduction ratio of 4 to 1 or greater in a cross-sectional area of the resulting part; (i) “isostatic pressing” means a process which uses a pressurizing medium (gas, liquid, solid particles, etc) in a closed cavity to create equal force in all direction upon a metal powder-filled container for consolidating the powder into a part. | ||
IL1075 | Spin-forming and flow-forming machines specially designed or adapted for use with numerical or computer controls and specially designed components and software therefor | C |
IL1080 | Specially designed equipment, tooling and fixtures and technology for the manufacture or measuring of gas turbine blades or vanes, the following and specially designed components and accessories therefor and specially designed ODMA software for the equipment, components and accessories—
| |
(a)Blade or vane aerofoil or root automatic measuring equipment | C | |
(b)Precision vacuum investment casting equipment, including core-making equipment | C | |
(c)Small-hole drilling equipment for producing holes having depth more than four times their diameter and less than 0.76 mm (0.03 inch) in diameter | C | |
(d)Directional solidification casting equipment and directional recrystallization equipment | C | |
(e)Segmented cast blade or vane bonding equipment | C | |
(f)Integral blade-and-disc casting equipment | C | |
(g)Blade or vane coating equipment, except furnaces, molten-metal baths and ion plating baths | C | |
(h)Ceramic blade or vane moulding and finishing machines | C | |
(i)Moulds, cores and tooling for the manufacture and finishing of— | ||
(1)cast hollow turbine blades or vanes | C | |
(2)turbine blades or vanes produced by powder compaction | C | |
(j)Composite metal turbine blade or vane moulding and finishing machines | C | |
(k)Inertial blade or vane welding machines | C | |
(l)Machinery and equipment for the manufacture of blades or vanes in the compressor section of aircraft or aircraft-derived gas turbine engines where the technology is the same as for the manufacture of blades or vanes in the turbine section | C | |
(2) Technology (except installation, operation and maintenance technology) for use of the following equipment | ||
(a)Blade or vane belt grinding machines | D | |
(b)Blade or vane edge radiusing machines | D | |
(c)Blade or vane aerofoil milling or grinding machines | D | |
(d)Blade or vane blank performing machines | D | |
(e)Blade or vane rolling machines | D | |
(f)Blade or vane aerofoil shaping machines except metal removing types | D | |
(g)Blade or vane root grinding machines | D | |
(h)Blade or vane aerofoil scribing equipment | D | |
(i)Machinery and equipment for the manufacture of blades or vanes in the compressor section of aircraft or aircraft-derived gas turbine engines where the technology is the same as for the manufacture of blades or vanes in the turbine section | D | |
In this entry— “manufacture” or “making” includes refurbishing. | ||
IL1081 | Specially designed or modified equipment, tools, dies, moulds and fixtures for the manufacture or inspection of aircraft, airframe structures or aircraft fasteners, the following and specially designed components and accessories therefor and specially designed ODMA software for the equipment, components and accessories— (a) Equipment, tools, dies, moulds or fixtures for: (1) hydraulic stretch forming— | |
(i)whose machine motions or forces are digitally controlled or controlled by electrical analogue devices or | C | |
(ii)which are capable of thermal-conditioning the workpiece | C | |
(2)the milling of aircraft skins or spars except those which do not present an improvement on machinery in production ten years preceding the year of export | C | |
(b)Tools, dies, moulds in fixtures for— | ||
(1)diffusion bonding | C | |
(2)superplastic forming | C | |
(3)hot-die forging | C | |
(4)metal powder compaction by vacuum hot pressing, high-pressure extrusion or isostatic pressing | C | |
(5)direct-acting hydraulic pressing of aluminium alloys and titanium alloys | C | |
(6)the manufacture, inspection, inserting or securing of specially designed high-strength aircraft fasteners | C | |
The definitions in entry IL1001 of the processes and control of the metal working manufacturing technologies mentioned above, apply also for the purposes of this entry. | ||
IL1086 | Specially designed or modified equipment, tools, dies, moulds, fixtures and gauges for the manufacture or inspection of aircraft and aircraft derived gas turbine engines, the following: and especially designed components and accessories and specially designed ODMA software for the equipment, components and accessories— (a) Equipment, tools, dies, moulds or fixtures and gauges— | |
(1)for automated production inspection | C | |
(2)for automated welding | C | |
(b)Tools, dies, fixtures and gauges— | ||
(1)for solid-state joining by inertial welding or thermal bonding | C | |
(2)for manufacture and inspection of high-performance gas turbine bearings | C | |
(3)for rolling specially configured rings such as nacelle rings | C | |
(4)for forming and finishing turbine discs | C | |
(c)Compressor or turbine disc broaching machines | C | |
this head includes only broaching machines specially designed for the manufacture of aircraft or aircraft derived gas turbine engines and not general purpose broaching machines specially adapted for that purpose. | ||
IL1088 | Gear making or finishing machinery, the following— | |
(a)Bevel gear making machinery, the following— | ||
(1)gear grinding machinery (non-generating type) | C | |
(2)other machinery capable of the production of bevel gears of module finer than 0.5 mm (diametrical pitch finer than 48) and meeting a quality standard better than DIN 58405 Class 6 | C | |
(b)Machinery capable of producing gears in excess of AGMA quality level 13 or equivalent | C | |
For the purposes of this entry DIN 3963 Class 4 shall be considered equivalent to AGMA quality level 13. | ||
IL1091 | Numerical control units, numerically controlled machine-tools, dimensional inspection machines, direct numerical control systems, specially designed sub-assemblies, and specially designed software, the following— | |
(a)Units for numerically controlling simultaneously co-ordinated (contouring and continuous path) movements of machine-tools and dimensional inspection machines in two or more axes | C | |
Note: For digital computers either incorporated in or associated with but not embedded in, controllers see, entry IL 1565 in Group 3G. | ||
(aa)Technology for the design and production except assembly and testing) of two-axis numerical control units with an embedded computer | D | |
(b)Machine-tools and dimensional-inspection machines which, according to the manufacturer’s technical specifications, can bre equipped with numerical control units specified in by head (a) above | C | |
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(c)Direct numerical control systems (DNC) consisting of a dedicated stored programme computer acting as a host computer and controlling, on-line or off-line one or more numerically controlled machine-tools or inspection machines, specified in head (b) above, related software, and interface and communication equ9pment for data transfer between the host computer memory, the interpolation functions, and the numerically controlled machine-tools | C | |
(d)Specially designed sub-assemblies and software which can upgrade the capabilities of numerical control units and machine-tools specified by head (a), (b) or (c) above, including specially designed printed circuit board sub-assemblies | C | |
In this entry— “Numerical control” means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress. “Contouring control” means two or more numerically controlled mations operating in accordance with instructions that specify the next required position and the required feed rates to that position. These feed rates are varied in relation to each other so that a desired contour is generated.
A “direct numerical control system” (DNC) means a system connecting a set of numerically controlled machines to a common memory for part programme or machine programme storage with provision for on-demand distribution of data to the machnes.
“Positioning accuracy” is that accuracy which would be obtained in a temperature-controlled environment of 20°C ± 2°C with any mechanical compensation techniques exported with the machine or any electronic compensation meeting the requirements in exception (iv) to head (a) above. “Positioning accuracy” of machines exported without numerical control units is that attained with a control unit used during checkout of the machine and with feedback systems identical to those that will be used with the machine, or by accuracy and feed back system and control unit which will be connected to the machine.
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PL7005 | Machines, internal grinding, (except hand-held drills) of the kind incorporating, or specially designed for the utilisation of, grinding heads designed or rated for operation at speeds in excess of 120,000 revolutions per minute | W |
IL1093 | Components and specially-designed parts for machine tools and dimensional inspection machines in entry IL1091, the following— | |
(a)Spindle assemblies, consisting of spindles and bearings as a minimal assembly | C | |
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(b)Lead screws, including ball nut screws | C | |
| ||
(c)Linear and rotary position feedback units including inductive type devices, graduated scales, and laser systems | C | |
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(d)Linear induction motors used as drives for slides, having all the following characteristics | C | |
(1)stroke greater than 200 mm; (2)nominal force rating greater than 45 N; (3)minimum controlled incremental movement less than 0.001 mm. |
IL1110 | Equipment for the production of liquid fluorine, and specially designed components therefor | C |
IL1129 | Vacuum pump systems, the following and specially designed components, controls and accessories therefor— | |
(a)Cryopump systems (ie systems in which the circulation of cooled or liquefied gas is used to achieve a vacuum, static or dynamic, by lowering the temperature of the environment) designed to operate at temperatures of less than −200°C (−328°F) measured at atmospherical pressure | C | |
(b)Vacuum pump systems capable of evacuating a chamber of volume greater than one litre to pressures below 19−8 torr (1.3 × 10−6 pascals) while the temperature ;in the chamber is maintained abover 800°C | C | |
IL1131 | Pumps (except vacuum pumps) designed to move molten metals by electromagnetic forces | C |
IL1142 | Reinforced tubing (including connectors and fittings for use with such tubing) incorporating coagulated dispersion grades of polytetrafluroethylene, cocopymers of tetrafluoroethylene and hexafluropropylene, or any of the flurocarbon materials specified in entry IL1754 sub-head (a)(2), and designed for operating (working) pressures of 210.9 kg/cm2 (3,000 psi) or greater, whether or not specially processed to make the flow surfaces electrically conductive | C |
IL1145 | Containers, jacketed only, specially designed for the storage or transportation of liquid fluorine | C |
IL1203 | Electric furnaces, the following and specially designed components and controls therefor, and specially designed ODMA software for such furnaces, components and controls— | |
(a)Consumable electrode vacuum arc furnaces with a capacity in excess of 20,000 kg | C | |
(b)Skull type vacuum arc furnaces | C | |
(c)Vacuum induction furnaces allowing the molten metal to be poured into a mould within the same vacuum chamber without breaking the vacuum and having all of the following characteristics | C | |
(1)a capacity in excess of 2,275 kg; (2)designed to operate at pressures lower than 6.67 Pa (0.0667 mbar); and (3)designed to operate at temperatures in excess of 1,373K (1,100°C). | ||
(d)Induction furnaces having both of the following characteristics— | C | |
(1)a diameter inside the induction coil of 155 mm or more (6.1 inches or more); and (2)designed to heat a workpiece with a diameter or 130 mm or more (5.1 inches or more) to a temperature in excess of 2,273K (2,000°C); | ||
There shall be excluded from this entry susceptors made of graphite not specified elsewhere in this Schedule. Note: this entry includes vacuum furnaces capable of operating with protective atmospheres. | ||
IL1205 | Electro-chemical, semiconductor and radioactive devices for the direct conversion of chemical, solar or nuclear energy to electrical energy, the following— (a) Electro-chemical devices, the following: and specially designed components therefor— | |
(1)fuel cells operating at temperatures of 523K (250°C) or less, including regenerative cells, ie cells for generating electric power, to which all the consumable components are supplied from outside the cell | C | |
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(2)primary cells and batteries having any of the following characteristics— | ||
(i)reserve (water, electrolyte or thermally activated) batteries possessing a means of activation and having a rated unactivated storage life of three years or more at an ambient temperature of 297K (24°C) | C | |
(ii)utilizating lithium or calcium (including alloys in which lithium or calcium are constituents) as electrodes and having an energy density at a discharge current equal to C/24 hours (C being the nominal capacity at 297K (24°C) in ampere-hours of more than 250 watt-hours per kilogramme at 297K (24°C) and more than 80 watt-hours per kilogramme at 244K (−29°C) | C | |
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(iii)using an air electrode together with either lithium or aluminium counter-electrodes and having a power output of 5 kilowatt or more or an energy output of 5 kilowatt-hours or more | C | |
(3)secondary (rechargeable) cells and batteries having any of the following characteristics after more than 20 charge/discharge cycles at a discharge current equal to C/5 hours (C being the nominal capacity in ampere-hours)— | ||
(i)utilizing nickel and hydrogen as the active constituents and having an energy density of 55 watt-hours per kilogramme or more at 297K (24°C) | C | |
(ii)utilizing lithium or sodium as electrodes or reactants and having an energy density of 55 watt-hours per kilogramme or more at the rated operational temperature | C | |
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(4)molten salt electrolyte cells and batteries which normally operate at temperatures of 773K (300°C) or below | C | |
(b)Photo-voltaic cells and specially designed components therefor, the following— | ||
(1)with a power output of 14mW or more per sq cm under 100mW per sq cm tungsten 2,800°K (2,527°C) illumination | C | |
(2)all gallium arsenide photo-voltaic cells excluding those having a power output of less than 4mW measured by the above technique | C | |
(3)with a power output of 450mW or more per sq cm under 10 watts per sq cm silicon carbide at 1,750K (1,477°C) illumination | C | |
(4)electromagnetic (including laser) and ionized particle radiation resistant | C | |
(c)Power source based on radio-active materials systems other than nuclear reactors | C | |
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There are excluded from heads (a) (b) and (c) cells and power source devices, the following and specially designed components therefor— (a) fuel cells specified in sub-head (a)(1) above, provided they are not space qualified, with a maximum output power more than 10 kilowatts and which use gaseous pure hydrogen and oxygen/air reactants, alkaline electrolyte and a catalyst supported by carbon either pressed on a metal mesh electrode or attached to a conducting porous plastic; (b) lithium primary cells or batteries specified in sub-head (a)(2)(ii) which: (1) are specially designed for consumer applications and used in watches, pacemakers, calculators or hearing aids, or (2) are specially designed for consumer or civil industrial applications and have a nominal capacity less than or equal to 35 ampere-hours and a discharge current of less than C/10 hours (C as defined for the purpose of subhead (a)(2)(ii)). (c) lithium secondary (rechargeable) cells and batteries specified in sub-head (a)(3)(ii) above which: (1) are specially designed for consumer applications; (2) have a nominal capacity less than or equal to 0.5 ampere-hour and an energy density of less than 40 watt-hours per kilogramme at 273K (0°C) and a discharge current of less than C/10 hours (C as defined for the purpose of subhead (a)(3)); (d) sodium secondary (rechargeable) cells and batteries specified in sub-head (a)(3)(ii) above which are specially designed for consumer or civil industrial applications which are not space qwualified. In this entry “space qualified” refers to products which are stated by the manufacturer as designed and tested to meet the special electrical, mechanical or environmental requirements for use in rockets, satellites or high-altitude flight systems operating at altitudes of 100 km or more. | ||
IL1206 | Electric arc devices (or plasma torches) and equipment, the following: and specially designed components, accessories and controls and specially designed ODMA software therefor— | |
(a)Electric arc devices for generating a flow of ionized gas in which the arc column is constricted | C | |
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(b)Equipment incorporating electric arc devices with a constricted arc column and capable of having a programmable increment (for the continuous movement of the device) less (finer) than 0.01 mm | C | |
(c)Test equipment incorporating electric arc devices specified in head (a) above | C | |
There shall be excluded from this entry plasma torches for industrial gas heating which are a non-constricted arc column with an operating pressure of 1 to 15 bar inclusive. |
IL1301 | Equipment and technology for the production of superalloys, the following— | |
(a)Equipment specially designed for the production of superalloys including vacuum induction furnaces used in the production of superalloy powders | C | |
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(b)Technology specific to the production of superalloys, regardless of the type of equipment with which it may be intended to use such technology | D | |
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In this entry “superalloys” means nickel-, cobalt-, or iron-base alloys having strengths superior to the AISI 300 series (as of the 1 May 1982) at temperatures over 922 K (649°C) under severe environmental and operating conditions. Excluded are carbon steels, low-alloy steels and stainless steels having strengths inferior to the AISI 300 series (as of 1 May 1982). | ||
IL1305 | Metal rolling mills,m the following: and specially designed components accessories and controls and specially designed ODMA software therefor— | |
(a)Isothermal rolling mills, except those capable of operating only at ambient temperatures | C | |
In this head an “isothermal rolling mill” means an isothermal rolling mill in which a constant instantaneous temperature profile is maintained in the contact area between the workpiece and the rolls. | ||
(b)Other mills specially designed or re-designed for the rolling of metals and alloys with a melting point exceeding 1,900°C | C | |
IL1312 | Isostatic presses the following: and specially designed dies and moulds (except those used in isostatic presses operating at amient temperatures), components, accressories and controls and specially designed ODMA software therefor— | |
(a)Those capable of achieving a maximum working pressure of 138MPa (20,000 psi) or more and possessing a chamber cavity with an inside diameter in excess of 406 mm (16 inches) or | C | |
(b)Those having a controlled thermal environment within the closed cavity and possessing a chamber cavity with an inside diameter of 127 mm or more | C | |
In this entry “isostatic presses” are equipment capable of pressurizing a closed cavity through various media (gas, liquid, solid particles, etc) to create equal pressure in all directions within the cavity upon a workpiece or material. | ||
IL1352 | Nozzles, dies and extruder barrels specially designed for the processing of the fluorocarbon materials specified in subhead (a)(2) of the entry IL1754 in Group 31 | C |
IL1353 | Manufacturing and testing equipment for optical fibre, optical cable and other cables, the following: and specially designed components and specially designed ODMA software therefor— | |
(a)Equipment specially designed to manufacture cable specified in heads (a) and (d) of entry IL1526 in Group 3F | C | |
(b)Equipment specially designed to manufacture optical fibre or optical cable specified in entry IL1526 in Group 3F | C | |
(c)Equipment specially designed to manufacture optical preforms specified in entry IL1767 in Group 3I | C | |
(d)Optical fibre and preform characterisation equipment using semi-conductor lasers for the testing of optical fibres or optical preforms at operting wavelengths exceeding 850 nm | C | |
IL1354 | Equipment designed for the manufacture or testing of printed circuit boards, the following: and specially designed components and accessories and specially designed ODMA software therefor— | |
(a)Equipment specially designed for removal of resists or printed circuit board materials by dry (plasma) methods | C | |
(b)Computer-aided design (CAD) equipment for printed circuit boards, having any of the following functions— | ||
(1)generation of artwork design with an interactive capability | C | |
(2)generation of test string lists for multi-layer boards | C | |
(3)generation of data or programmes for stored-programme controlled printed circuit board drilling equipment | C | |
(4)generation of data or programmes for stored-programme controlled printed circuit board shaping and profiling equipment or | C | |
(5)generation of data for control of the sequencing of processes of the equipment for printed circuit board manufacture specified in head (c) below | C | |
(c)High-speed automated continuous panel processors for plating capable of delivering more than or equal to 860 A/m2 of plate current, (This does not include processors specially designed for, and restricted to, plating tab (edge) connnectors) | C | |
(d)Stored-programme controlled inspection equipment for the detection of defects in printed circuit boards using optical pattern comparison or other machine scanning techniques | C | |
(e)Stored-programme controlled electrical test equipment for the identification of open and short circuits on bare printed circuit boards, capable of— | ||
(1)continuity testing (less than or equal to 4 ohm) at a rate of 2,500 or more measurements per second | C | |
(2)high voltage testing (greater than or equal to 50 volts) at a rate of 10,000 or more measurements per minute | C | |
(f)Stored-programme controlled multi-spindle drills and routers having any of the following characteristics— | ||
(1)absolute positioning accuracy of ±10 micrometres or better | C | |
(2)minimum time needed for drill bit changes less than or equal to 5 seconds | C | |
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(3)X and Y positioning speeds higher than or equal to 0.125 m/sec for drilling or for routing | C | |
(g)Stored-programme controlled cyclic voltametric stripping equipment specially designed for printed circuit board plating bath monitoring and analysis | C | |
For the purpose of this entry “stored progamme controlled” means controlled using instructions stored in an electronic storage which a processor can execute in order to direct the performance of predetermined functions. | ||
IL1355 | Equipment for the manufacture of testing of electronic components and materials, the following: and specially designed components, accessories and specially designed ODMA software therefor— | |
(a)Equipment specially designed for the manufacture or testing of electron tubes and optical elements specified in entries IL1541, 1542, 1555, 1556, 1558 and 1559 in Group 3F, and specially designed components therefor | C | |
(b)Equipment specially designed for the manufacture or testing of semiconductor devices, integrated circuits and assemblies, and systems incorporating or having the characteristics of such equipment, the following— | ||
(1)equipment for the processing of materials for the manufacture of devices and components, the following— | ||
(a)equipment for producing polycrystalline silicon specified in head (f) of entry IL1757 in Group 3I having a purity more than 99.99% in the form of rods (ingots, boules), pellets, sheets, tubes or small particles | C | |
(b)equipment specically designed for purifying or processing III-V and II-VI semiconductor materials specified in the entry IL1757 in Group 3I, except crystal pullers | C | |
(c)crystal pullers, furnaces, and gas systems, the following: | ||
(1) types with specially designed stored programme controlled temperature, power input or gas, liquid or vapour flow | C | |
(2) diffusion, oxidation and annealing furnaces for operation at pressures above 1 atmosphere (nominal) | C | |
(3) annealing or re-crystallizing equipment other than constant temperature furnaces employing high rates of energy transfer capable of processing wafers at a rate greater than 50 cm2 per minute | C | |
(4) plasma enhanced or photo-enhanced chemical reactor equipment | C | |
(5) equipment for automatic control of crystal taper and diameter, except taper and diameter control mechanisms using any of the following equipment techniques | C | |
(i) radiation pyrometers; (ii) thermocouples; (iii) RF power sensors; or (iv) mass weighing (without digital or anomaly control permitting the growth of semiconductors). | ||
(6) crystal pullers having any of the following characteristics: | ||
(i) rechargeable without replacing the crucible container | C | |
(ii) capable of operation at pressures above 2.5 × 105 pascal (2.5 atmospheres absolute) or below 1 × 105 pascal (1 atmosphere absolute) | C | |
(iii) capable of pulling crystals of a diameter greater than 76.2 mm | C | |
(iv) specially designed to minimize convection currents in the melt by the use of magnetic fields or multiple crucibles | C | |
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(v) capable of pulling sheet or ribbon crystals | C | |
(7) vacuum induction-heated zone-refining equipment for operation at a pressure of 0.01 pascal or less | C | |
(d)equipment for epitaxial growth having any of the following characteristics: | ||
(1) operation at pressures below 105 pascal (1 atmosphere absolute) | C | |
(2) stored programme controlled | C | |
(3) rotating vertical-support, radiant-heated reactors | C | |
(4) specially designed for processing bubble memories | C | |
(5) metal-organic chemical vapour deposition reactors; or | C | |
(6) for liquid phase epitaxy | C | |
(e)molecular beam epitaxial growth equipment | C | |
(f)magnitically-enhanced sputtering equipment | C | |
(g)equipment designed for ion implantation, or for ion-enhanced or photo-enhanced diffusion | C | |
(h)equipment for selective or non-selective removal by dry methods of passivation layers, dielectrics, semiconductor materials, resists or metals | C | |
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(i)equipment for semiconductor device fabrication operating below 105 pascal (1 atmosphere absolute) for the chemical vapour deposition of oxides, nitrides, metals and polysilicon except reactive sputtering equipment | C | |
(j)electron beam systems (including scanning electron microscopes), capable of mask making or semiconductor device processing and having any of the following characteristics: | ||
(1) electrostatic beam deflection | C | |
(2) shaped, non-Gaussian beam profile | C | |
(3) beam blanking capability | C | |
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(4) digital-to-analogue conversion rate greater than 3MHz | C | |
(5) digital-to-analogue conversion accuracy greater than 12 bits, or | C | |
(6) target to beam position feedback control precision of 1 micrometre or finer | C | |
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(k)surface finishing equipment, specially designed for the processing of semiconductor wafers and having any of the following characteristics: | ||
(1) waxless or non-adhesive mounting | C | |
(2) double-sided simultaneous polishing or lapping | C | |
(3) capable of polishing and lapping wafers exceeding 76.2 mm in diameter, or | C | |
(4) lappng or polishing in two stages on the same machine | C | |
(l)interconnection equipment which, may include common single or multiple vacuum chambers, specially designed to permit the integration of equipment specified in this entry into a complete system | C | |
(2)masks, mask substrates, mask-making equipment and image-transfer equipment for the manufacture of devices and components, the following— | ||
(a)finished masks, and reticles and designs therefor | C | |
(b)hard surface (eg chromium, silicon, iron oxide) coated substrates (eg glass, quartz, sapphire) for the preparation of masks having dimensions exceeding 76.2 × 76.2 mm | C | |
(c)computer-aided design (CAD) equipment, for transforming schematic or logic diagrams into designs for producing semiconductor devices or integrated circuits, having any of the following functions: | ||
(1) storage of pattern cells for subdivision of integrated circuits | C | |
(2) scaling, positioning, or rotation of pattern cells | C | |
(3) interactive graphic capabilities | C | |
(4) design rule and circuit checking; or | C | |
(5) circuit layout modification of the arrangement of the elements | C | |
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(d)mask fabrication machines using photo-optical methods, the following: | ||
(1) step and repeat cameras capable of producing arrays larger than 63.5 × 63.5 mm, or capable of producing a single exposure larger than 3.75 × 3.75 mm, in the focal plane, or capable of producing useful line widths of 3.5 micrometres or less | C | |
(2) pattern generators specially designed for the generation or manufacture of masks or the creation of patterns in photosensitive layers and with placement precision finer than 10 micrometres | C | |
(3) mask fabrication equipment containing automatic adjustment of focus or adjustment of the mask material into the focal plane | C | |
(4) equipment and holders for altering masks or reticles or adding pellicles to remove defects | C | |
(e)mask reticle or pellicle inspection equipment, the following: | ||
(1) equipment for comparison with a precision of 0.75 micrometre or finer over an area of 63.5 × 63.5 mm or more | C | |
(2) stored programme controlled equipment with a resoution of 0.25 micrometres or finer and with a precision of 0.75 micrometre or finer over a distance in one or two coordinates of 63.5 mm or more | C | |
(3) stored programme controlled defect inspection equipment | C | |
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(f)align and expose equipment using photo-optical methods, including projection image transfer equipment, capable of performing any of the following functions: | ||
(1) production of useful pattern size of less than 5 micrometres | C | |
(2) alignment with a precision finer than 1 micrometre | C | |
(3) field coverage exceeding 76.2 × 76.2 mm | C | |
(4) wafer backside alignment | C | |
(5) automatic alignment by the sensing of patterns or index marks on the substrate | C | |
(6) projection image transfer for processing slices (wafers) of 50.8 mm or larger in diameter | C | |
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(g)electron beam, ion beam, or X-ray equipment for projection image transfer | C | |
(h)photo-optical or non-photo-optical step and repeat or partial field equipment for the transfer of the image on to the wafer | C | |
(i)mask contact transfer equipment for imaging a field larger than 76.2 × 76.2 mm | C | |
(3)stored programme controlled inspection equipment for the detection of defects in processed wafers, substrates or chips using optical pattern comparison or other machine scanning techniques | C | |
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(4)specially designed stored programme controlled measuring and analysis equipment, the following— | ||
(a)equipment specially designed for the measurement of oxygen or carbon content in semiconductor materials | C | |
(b)equipment for concurrent etching and doping profile analysis (employing capacitance-voltage or current-voltage analysis techniques) | C | |
(c)equipment for linewidth measurement with a resolution of 1.0 micrometre or finer | C | |
(d)specially designed flatness measurement instruments capable of measuring deviations from flatness of 10 micrometres or less with a resolution of 1 micrometre or finer | C | |
(5)equipment for the assembly of integrated circuits, the following— | ||
(a)stored programme controlled die (chip) mounters and bonders with a positioning accuracy finer than 50 micrometres or incremental steps finer than 6.4 micrometres | C | |
(b)stored programme controlled wire bonders and welders for performing consecutive bonding operations | C | |
(c)equipment for producing multiple bonds in a single operation (eg beam lead bonders, chip carrier bonders, tape bonders) | C | |
(d)semi-automatic or automatic hot cap sealers, in which the cap is heated locally to a higher temperature than the body of the package, specially designed for ceramic microcircuit packages specified in head (b) of entry IL1564 in Group 3F and which have a throughput equal to or greater than one package per minute except general purpose resistance type spot welders | C | |
(e)thermal compression bonders, also known as nailhead bonders | C | |
(6)stored programme controlled wafer probing equipment, the following— | ||
(a)equipment having positioning accuracy finer than 50 micrometres, or incremental steps finer than 6.4 micrometres | C | |
(b)equipment having individual die location read-out (X-Y position information) during testing | C | |
(c)equipment capable of testing devices having more than a total of 24 terminals | C | |
(d)equipment having automatic slice (wafer) alignment | C | |
(7)test equipment, the following— | ||
(i) stored programme controlled equipment specially designed for testing discrete semiconductor devices and unencapsulated dice, capable of performing any of the following functions | C | |
(a) measurement of time intervals of less then 10 ns; (b) measurement of parameters (eg fT, S-parameters, noise figure) at frequencies greater than 250 MHz; (c) resolution of currents of less than 100 picoamperes; or (d) measurements of spectral response at wavelengths outside the range from 450 to 950 nm; | ||
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(ii) stored programme controlled equipment specially designed for testing integrated circuits, and assemblies thereof, capable of performing any of the following functions | C | |
(a) functional (truth table) testing at a pattern rate greater than 2 MHz; (b) resolution of currents of less than 1 nonoampere; (c) testing of integrated circuits (not mounted on circuit boards) in packages having more than a total of 24 terminals, except equipment specially designed for and dedicated to the testing of integrated circuits not specified in entry IL1564 in Group 3G; or (d) measurement of rise times, fall times and edge placement times with a resolution of less than 20 ns; | ||
(1) test equipment which is not of a general-purpose nature and which is specially designed for, and dedicated to, testing assemblies or a class of assemblies for home and entertainment applications and (2) test equipment which is not of a general-purpose nature and which is specially designed for, and dedicated to, testing electronic components, assemblies and integrated circuits the subject of a specific exception to IL1564 in Group 3G provided that such test equipment does not incorporate computing facilities with user-accessible programming capabilities; | ||
(iii) equipment specially designed for determining the performance of focal-plane arrays at wavelengths more than 1,200 nm, using stored programme controlled measurements or computer aided evaluation and having any of the following characteristics | C | |
(a) using scanning light spot diameters of less than 0.12 mm; (b) designed for measuring photosensitive performance parameters and for evaluating frequency response, modulation transfer function, uniformity of responsivity or noise; or (c) designed for evaluating arrays capable of creating images of greater than 32 × 32 line elements; | ||
(iv) specially designed for bubble memories | C | |
(8)Class 10 filters capable of providing an environment of 10 or less particles of 0.3 micrometre or more per 0.02832/m3 and filter materials therefor | C | |
(9)Electron-beam test systems (capable of operating at or below 3,000 eV), for non-contactive probing of powered-up semiconductor devices having any of the following— | C | |
(a)Stroboscopic capability with either beam blanking or detector strobing; (b)An electron spectrometer for voltage measurements with a rsolution of less than one-half (0.5) volt; or (c)Electrical tests fixtures for performance analysis of integrated circuits. | ||
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In this entry— “masks” means those used in electron beam lithography, X-ray lithography, and ultra-violet lithography, as well as ultra-violet and visible photolithography; “magnetically-enhanced” means equipment incorporating a cathode assembly having an integral magnetic structure for enhancing the plasma intensity; “stored programme controlled” means controlled by using instructions stored in an electronic storage which a processor can erxecute in order to direct the performance of predetermned functions. | ||
IL1356 | Equipment specially designed or incorporating modifications for the continuous coating of polyester-base magnetic tape specified in entry IL1572 in Group 3G, and specially designed components therefor | C |
except general purpose continuous coating equipment. | ||
L1357 | Equipment for the production of fibres specified in the entry IL1763 in Group 3I or their composites, the following and specially designed components and accessories and specially designed ODMA software therefor— | |
(a)Filament winding machines of which the motions for positioning wrapping and winding fibres are coordinated and programmed in three or more axes, specially designed to fabricate composite structures or laminates from fibrous and filamentary materials; and coordinating and programming controls therefor | C | |
(b)Tape-laying machines of which the motions for positioning and laying tape and sheets are coordinated and programmed in two or more axes, specially designed for the manufacture of composite airframes and missile structures | C | |
(c)Multidirectional, multidimensional weaving machines and interlacing machines, including adapters and modification kits, for weaving, interlacing or braiding fibres to manufacture composite structures, except textile machinery which has not been modified for the above end-uses | C | |
(d)Specially designed or adapted equipment for the production of fibrous and filamentary materials specified in head (a) or (b) in the entry IL1763 in Group 3I, the following— | ||
(1)equipment for converting polymeric fibres, (such as polyacrylonitrile, rayon, or polycarbosilane) including special provision to strain the fibre during heating | C | |
(2)equipment for the vapour deposition of elements or compounds on heated filamentary substrates | C | |
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(3)equipment for the wet-spinning of refractory ceramics (such as aluminium oxide) | C | |
(e)Specially designed or adapted equipment for special fibre surface treatment or for producing prepregs and preforms specified in head (c) in the entry IL1763 in Group 3I | C | |
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IL1358 | Equipment specially designed for the manufacture or testing of devices and assemblies thereof specified in the entry IL1588 in Group 3G or magnetic recording media specified in the entry IL1572 in Group 3G the following: and specially designed components and specially designed ODMA software therefor— (a) Equipment for the manufacture of single and multi-aperture forms specified in heads (b), (c) and (d) mentioned in entry IL1588 in Group 3G, the following— | |
(1)automatic presses to produce specified types | C | |
(2)press dies to produce specified types | C | |
(3)automatic equipment for monitoring, grading, sorting, exercising or testing of specified types | C | |
(b)Equipment for the manufacture of thin film memory storage or switching devices having square hysteresis loops and automatic equipment for monitoring, grading, sorting, exercising or testing of devices specified in head (e) of entry IL1588 in Group 3G | C | |
(c)Automatic equipment for monitoring, exercising or testing assemblies of devices specified in heads (b), (c), (d) or (e) of the entry IL1588 in Group 3G | C | |
(d)Equipment which incorporates specially designed modifications for the application of magnetic coating to flexible disk recording media with a packing density exceeding 2,460 bit per cm | C | |
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(e)Equipment specially designed for the application of magnetic coating to non-flexible (rigid) disk type recording madia not excepted in paragraph (vi) of head (d) of entry IL1572 in Group 3G | C | |
(f)Stored programme controlled equipment for monitoring, grading, exercising or testing recording media, other than tape, specified in head (d) of entry IL1572 in Group 3G | C | |
Note: For the purpose of this entry “single aperture forms” means single aperture forms having either of the following characteristics: (i) switching rate of 0.3 microsecond or faster at the minimum field strength required for switching at 40°C or (ii) a maximum dimension less than 0.45 mm except single aperture forms which have: (a) a switching time equal to or more than 0.24 microsecond; and (b) a maximum dimension of 0.30 mm or more. | ||
In this entry— “automatic” means machinery not requiring the assistance of a human operator to complete its function(s) during each complete cycle of operations; “function” does not include the initial loading or final unloading of material from the machine. | ||
IL1359 | Specially designed tooling and fixtures for the manufacture of fibre-optic connectors and couplers specified in head (e) of the entry IL1526 in Group 3F | C |
IL1360 | Stored programme controlled equipment capable of automatic X-ray orientation and angle correction of double-rotated stress-compensated (SC) quartz crystals specified in entry IL1587 in Group 3G, with a tolerance of 10 seconds of arc maintained simultaneously in both angles of rotation | C |
In this entry “stored programme controlled” means controlled by using instructions stored in an electronic storage which a processor can execute in order to direct the performance of predetermined functions. | ||
IL1361 | Test facilities and equipment for the design or development of aircraft or gas turbine aero-engines, the following and specially designed components, accessories and specially designed ODMA software therefor— | |
(a)Supersonic (Mach 1.4 to Mach 5), hypersonic (Mach 5 to Mach 15) and hypervelocity (above Mach 15) wind tunnels | C | |
(i)supersonic (Mach 1.4 to Mach 5) wind tunnels not specially designed for or fitted with means of, preheating the air;
(ii)wind tunnels speciall;y designed for educational purposes and having a test section size (measured internally of less than 25 cm;
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(b)Devices for simulating flow-environments of Mach 5 and above, regardless of the actual Mach number at which the devices operate, including hot shot tunnels, plasma arc tunnels, shock tubes, shock tunnels, gas tunnels and light gas guns | C | |
(c)Wind tunnels and devices, other than two dimensional (2-D) sections that have unique capabilities for simulating Reynolds number flow in excess of 25 × 106, at transonic velocities | C | |
(d)Automated control systems, instrumentation (including sensors) and automated date-acquisition equipment, specially designed for use with wind tunnels and devices specified in head (a), (b) or (c) above | C | |
(e)Models, specially designed for use with wind tunnels or with the devices specified in head (b) or (c) above, of aircraft, helicopters, airfoils, spacecraft, space-launch vehicles, rockets or surface-effect vehicles specified in the entries in Groups 1 and 3E relating thereto or of surface-effect vehicles specified in head (b) of the entry IL1416 relating to vessels | C | |
(f)Specially designed electromagnetic interference and electromagnetic pulse (EMI/EMP) simulators | C | |
(g)Specially designed test facilities and equipment for the development of gas turbine aero-engines and components, the following— | ||
(1)special test facilities capable of applying dynamic flight loads, measuring performance or simulating the design operating environments for rotating assemblies of aero-engines | C | |
(2)test facilities, test rigs and simulators for measuring combustion system and hot gas flow path performance, heat transfer and durability for static assemblies and aero-engine components | C | |
(3)specially designed test rigs, equipment or modified gas turbine engines which are utilized for development of gas turbine aero-engine internal flow systems (gas path seals, air-oil seals and disc cavity flow fields) | C | |
IL1362 | Vibration test equpment the following— | |
(a)Vibration test equipment using digital control techniques and specially designed ancillary equipment and specially designed ODMA software therefor | C | |
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(b)High intensity acoustic test equipment capable of producing an overall sound pressure level of 140 dB or greater (referenced to 2 × 10−5 N/m2) or with a rated output of 4kW or greater and specially designed ancillary equipment and specially designed ODMA software therefor | C | |
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(c)Ground vibration (including modal survey) test equipment that uses digital control techniques and specially designed ancillary equipment, and specially designed ODMA software therefor | C | |
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IL1363 | Specially designed water tunnel equipment, components, accessories and databases for the design and development of vessels, the following: and specially designed ODMA software therefor— | |
(a)Automated control systems, instrumentation (including sensors) and data acquisition equipment specially designed for water tunnels | C | |
(b)Automated equipment to control air pressure acting on the surface of the water in the test section during the operation of the water tunnel | C | |
(c)Components and accessories for water tunnels, the following— | ||
(1)balance and support systems | C | |
(2)automated flow or noise measuring devices, and | C | |
(3)models of hydrofoil vessels, surface-effect vehicles, SWATH vessels and specially designed equipment and components specified in heads (a), (b), (c), (e), (f), (g) and (h) in entry IL1416 in Group 3E for use in water tunnels | C | |
(d)Databases generated by use of equipment specified in this entry | C | |
In this entry “database” shall have the same meaning as in entry IL1566 in Group 3G. | ||
IL1364 | Machinery and equipment for the manufacture of hydrofoil vessel and surface-effect vehicle and SWATH vessel structures and components, the following: and specially designed components and accesspories therefor— | |
(a)Specially designed equipment for manufacturing anisotropic, orthotropic or sandwich structures from components specified in subhead (h)(3) of the entry IL1416 in Group 3E | C | |
Note: in this head— 1. “Anisotropic construction” means the use of fibre reinforcing members aligned so that the load-carrying ability of the structure can be primarily orientated in the direction of expected stress. 2. “Orthotropic construction” means a method of stiffening plates in which the structural members are at right angles to each other. 3. “Sandwich construction” means the use of structural members or plates which are fabricated and permanently affixed in layers to enhance their strength and reduce their weight. | ||
(b)Specially designed equipment for the production and testing of flexible materials for skirts, seals, air curtains, bags and fingers for surface-effect vehicles | C | |
(c)Specially designed equipment for the production of water-screw propellers and hub assemblies and water-screw propeller systems specified in heads (c) and (f) of entry IL1416 in Group 3E | C | |
(d)Specially designed equipment for the production, dynamic balancing and automated testing and inspection of lift fans for surface-effect vehicles | C | |
(e)Specially designed equipment for the production of water-jet propulsion pumps rated at 3,000 hp or greater, or multiple-pump system equivalents thereof | C | |
(f)Specially designed equipment for the production, dynamic balancing and automatic testing of AC-AC synchronous and AC-DC systems, sectored disc and concentric-drum rotors for DC momopolar machines | C | |
IL1365 | Equipment specially designed for in-service monitoring of acoustic emissions in airborne vehicles, or underwater vehicles specified in the entry IL1418 in Group 3E, capable of discriminating acoustic emissions related to crack growth from innocuous noise sources and capable of spatial location of the crack, and specially designed components, accessories and specially designed ODMA software therefor | C |
except, general purpose acoustic emission equipment. Note: The methods used for discriminating acoustic emissions from innocuous noise sources include pattern recognition techniques. | ||
IL1370 | Machine-tools for generating optical quality surfaces, specially designed components and accessories the following and specially designed ODMA software therefor— | |
(a)Turning machines using a single point cutting tool and having all of the following characteristics— | C | |
(1)slide positioning accuracy less (finer) than 0.0005 mm per 300 mm of travel, TIR (peak-to-peak); (2)slide positioning repeatability less (finer) than 0.0002 mm per 300 mm of travel, TIR (peak-to-peak); (3)spindle run-out (radial and axial) less than 0.0004 mm TIR (peak-to-peak); (4)angular deviation of the slide movement (yaw, pitch and roll) less (finer) than 2 seconds of arc (peak-to-peak) over full travel; (5)slide perpendicularity less than 0.001 mm per 300 mm of travel, TIR (peak-to-peak); | ||
(b)Fly cutting machines having both of the following characteristics— | C | |
(1)spindle run-out (radial and axial) less than 0.0004 mm TIR (peak-to-peak); (2)angular deviation of slide movement (yaw, pitch and roll) less (finer) than 2 seconds of arc (peak-to-peak) over full travel; | ||
(c)Specially designed components, the following— | ||
(1)spindle assemblies, consisting of spindles and bearings as a minimal assembly, except those assemblies with axial and radial axis motion measured along the spindle axis in one revolution of the spindle equal to or greater (coarser) than 0.0008 mm TIR (peak-to-peak) | C | |
(2)linear induction motors used as drives for slides, having all of the following characteristics— | C | |
(i)stroke greater than 200 mm; (ii)nominal force rating greater than 45N; (iii)minimum controlled incremental movement less than 0.001 mm; | ||
(d)Single point diamond cutting tool inserts having all of the following characteristics | C | |
(1)flawless and chip-free cutting edge when magnified 400 times in any direction; (2)cutting radius between 0.1 and 5 mm; (3)cutting radius out-of-roundness less than 0.002 mm TIR (peak-to-peak). | ||
ILO1371 | Anti-friction bearings, the following— (a) Ball and roller bearings having an inner bore diameter of 10 mm or less and tolerances of ABEC 5, RBEC 5 or better and either of the following characteristics— | |
(1)made of special materials that is to say, with rings, balls or rollers made from any steel alloy or other material (including but not limited to high-speed tool steels, Monel metal, beryllium, metalloids, ceramics and sintered metal composites), except the following; low-carbon steel, SAE-52100 high carbon chromium steel, SAE-4615 nickel molybdenum steel, AISI-440C (SAE-51440C) stainless steel (or national equivalents), or | C | |
(2)manufactured for use at normal operating temperatures over 150°C either by use of special materials or by special heat treatment | C | |
(b)Ball and roller bearings (exclusive of separable ball bearings and thrust ball bearings) having an inner bore diameter exceeding 10 mm and having tolerances of ABEC 7, RBEC 7 or better and either of the following characteristics— | ||
(1)made of special materials, that is to say, with rings, balls or rollers made from any steel alloy or other material (including but not limited to high-speed tool steels, Monel metal, beryllium, metalloids, ceramics and sintered metal composites), except the following; low-carbon steel, SAE-52100 high carbon chromium steel, SAE-4615 nickel molybdenum steel, AISI-440C (SAE-51440C) stainless steel (or national equivalents), or | C | |
(2)manufactured for use at normal operating temperatures over 150°C either by use of special materials or by special heat treatment | C | |
(c)Ball and roller bearings having tolerances better than ABEC 7 | C | |
(d)Gas-lubricated foil bearings | C | |
(e)Bearing parts usable only for bearings specified in this entry, the following: outer rings, inner rings, retainers, balls, rollers and sub-assemblies | C | |
There shall be excluded from this entry hollow bearings. | ||
IL1372 | Technology for industrial gas turbine engines, the following— | |
(a)Technology common to industrial gas turbine engines and gas turbine aero-engines specified in head (d) of the entry IL1460 in Group 3E | D | |
(b)Technology common to industrial gas turbine engines and marine gas turbine engines specified in the entry IL1431 in Group 3E | D | |
IL1385 | Specially designed production equipment for compasses, gyroscopes (gyros), accelerometers and inertial equipment specified in the entry IL1485 in Group 3E | C |
Note: This entry includes— (a) For ring laser gyro equipment, the following equipment used to characterize mirrors, having the threshold accuracy shown or better: (1) Rectilinear scatterometer (10 ppm) (2) Polar scatterometer (10 ppm) (3) Reflectometer (50 ppm) (4) Profilometer (5 angströms) (b) For other inertial equipment: (1) Inertial Measurement Unit (IMU) module tester (2) IMU platform tester (3) IMU stable element handling fixture (4) IMU platform balance fixture (5) Gyro tuning test station (6) Gyro dynamic balance station (7) Gyro run-in/motor test station (8) Gyro evacuation and fill station (9) Centrifuge fixture for gyro bearings (10) Accelerometer axis align station (11) Accelerometer test station | ||
IL1388 | Specially designed equipment for the deposition, processing and in-process control of inorganic overlays, coatings and surface modifications, for non-electric substrates by processes specified in entry IL1389 in this Group, the following: and specially designed automated handling, positioning, manipulation and control components and specially designed ODMA software therefor— | |
(a)stored programme controlled chemical vapour deposition (CVD) production equipment with both of the following characteristics | C | |
(1)process modified for one of the following— (a)pulsating CVD; (b)controlled nucleation thermal decomposition (CNTD); or (c)plasma anhanced or plasma assisted CVD; and (2)any of the following characateristics— (a)incorporating high vacuum (less than or equal to 10−7 atm) rotating seals; (b)operating at reduced pressure (less than 1 atm); or (c)incorporating in situ coating thickness control; | ||
(b)Stored programme controlled ion implantation production equipment having beam currents of 5 mA or higher | C | |
(c)Stored programme controlled electron beam physical vapour deposition (EB-PVD) production equipment with either of the following characteristics | C | |
(i)incorporating power systems greater than 80 kW; or (ii)(1)incorporating power systems greater than 50 kW; and (2)having both of the following characteristics: (a) incorporating a liquid pool level laser control system which regulates precisely the ingots feed rate; and (b) incorporating a computer controlled rate monitor operating on the principle of photo-luminescence of the ionised atoms in the vaporant stream to control the deposition rate of a coating containing two or more elements | ||
(d)Stored programme controlled plasma spraying production equipment having any of the following characteristics— | C | |
(1)operating at atmospheric pressure discharging molten or partially molten material particles into air or inert gas (shrouded torch) at nozzle exit gas velocities greater than 750 m/sec calculated at 293 K at 1 atmosphere; (2)operating at reduced pressure controlled atmosphere (less than or equal to 100 millibar (0.1 atm) measured above and within 30 cm of the gun nozzle exit) in a vacuum chamber capable of evacuation down to 10−4 millibar prior to the spraying process; or (3)incorporating in situ coating thickness control. | ||
(e)Stored programme controlled sputter deposition production equipment capable of current densities of 5 mA/cm2 or higher at a deposition rate of 10 micrometres/hr or higher | C | |
(f)Stored programme controlled cathodic arc deposition production equipment with either of the following characteristics— | C | |
(1)incorporating target areas larger than 45.6 cm2; or (2)incorporating a magnetic field steering control of the arc spot on the cathode | ||
(g)Deposition process or surface modification equipment for stored programme controlled production processing which enables the combining of any individual deposition processes specified in heads (a) to (f) above (inclusive) so as to enhance the capability of such individual processes | C | |
For the purpose of this entry “stored programme controlled” means controlled by using instructions stored in an electronic storage which a processor can execute in order to direct the performance of perdetermined functions. | ||
IL1389 | Technology and sp[ecially designed ODMA software therefor, the following— (a) Technology for application to non electronic devices designed to achieve— | |
| D | |
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(b)Specially designed ODMA software for the technology included in head (a) | D | |
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1. Coating process | 2. Substrate | 3. Resultant coating |
---|---|---|
A. chemical vapour deposition (CVD) | superalloys | aluminides for internal surfaces, alloyed aluminides or noble metal modified aluminides |
titanium or titanium alloys | carbides aluminides of alloyed aluminides | |
ceramics | silicides or carbides | |
carbon-carbon, carbon-ceramics, or metal matric composites | silicides, carbides, mixtures thereof or dielectric layers | |
copper or copper alloys | tungsten or dielectric layers | |
silicon carbide or cemented tungsten carbide | carbides, tungsten, mixtures thereof or dielectric layers | |
B. electron-beram physical vapour deposition (EB-PVD) | superalloys | alloyed silicides, alloyed aluminides MCrA1X (except CoCrA1y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluminium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia) or mixtures thereof (including mixtures of the above with silicides or aluminides) |
ceramics | silicides or modified zirconia (except calcia-stabilized zirconia) | |
aluminium alloys | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of alumium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia) or mixtures thereof | |
corrosion resistant steel | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluminium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia) | |
carbon-carbon, carbon-ceramic, or metal matric composites | silicides, carbides, mixtures thereof or dielectric layers | |
copper or copper alloys | tungsten or dielectric layers | |
silicon carbide or comented tungsten carbide | carbides, tungsten, mixtures thereof or dielectric layers | |
C. electro-phoretic deposition | superalloys | alloyed aluminides or noble metal modified aluminides |
D. pack cementation | superalloys | alloyed aluminides or noble metal modified aluminides |
(see also A above) | carbon-carbon, carbon-ceramic or metal matric composites | silicides, carbides or mixtures thereof |
aluminium alloys | aluminides or alloyed aluminides | |
E. plasma spraying (high velocity or low pressure only) | superalloys | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia), or mixtures thereof |
aluminium alloys | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia), or mixtures thereof | |
corrosion resistant steel | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia), or mixtures thereof | |
titanium or titanium alloys | carbides or oxides | |
F. slurry deposition | refractory metals | fused silicides or fused aluminides |
carbon-carbon, carbon-ceramic or metal matrix composites | silicides, carbides or mixtures thereof | |
G. sputtering (high rate, reactive or radio frequency only) | superalloys | alloyed silicides, alloyed aluminides noble metal modified aluminides, MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia) platinum or mixtures thereof (including mixtures of the above silicides or aluminides) |
ceramics | silicides, platinum or mixtures thereof | |
aluminium alloys | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia), or mixtures thereof | |
corrosion resistant steels | MCrA1X (except CoCrA1Y which contains less than 22 weight per cent of chromium and less than 12 weight per cent of aluinium and less than 2 weight per cent of yttrium), modified zirconia (except calcia-stabilized zirconia), or mixtures thereof | |
titanium or titanium alloys | borides or nitrides | |
carbon-carbon, carbon-ceramic or metal matrix composites | silicides, carbides, mixtures thereof or dielectric layers | |
copper or copper alloys | tungsten or dielectric layers | |
silicon carbide or cemented tungsten carbide | carbides, tungsten or dielectric layers | |
H. ion implantation | high temperature bearing steels | tantalum or niobium columbiun |
beryllium or berylli;um alloys | borides | |
carbon-carbon, carbon-ceramic or metal matrix | silicides, carbides, mixtures thereof or dielectric layers | |
titanium or titanium alloys | borides or nitrides | |
silicon nitride or cemented tungsten carbide | nitrides, carbides or dielectric layers | |
sensor widow materials transparent to electromagnetic waves, as follows: silica, alumina, silicon, gcermanium, zinc sulphide, sinc selenide or gallium arsenide | dielectric layers |
Notes
A. The definitions of processes specified in column 1 of the Table are as follows:
(a)“Chemical Vapour Deposition” (CVD) is an overlay coating or surface modification coating process wherein a metal, alloy composite or ceramic is deposited upon a heated substrate. Gaseous reactants are reduced or combined in the vicinity of a substrate resulting in the deposition of the desired elemental, alloyed or compounded material on the substrate. Energy for this decomposition or chemical reaction process is provided by the heat of the substrate.
1CVD includes the following processes: out-of-pack, pulsating, controlled nucleation thermal decomposition (CNTD), plasma enhanced or plasma assisted processes.
2“Pack” means a substrate immersed in a powder mixture.
3The gaseous material utilized in an out-of-pack process is produced using the same basic reactions and parameters as the pack cementation process, except that the substrate to be coated is not in contact wth the powder mixture.
(b)“Electron beam physical vapour deposition” (EB PVD) is an overlay coating process conducted in a vacuum chamber, wherein an electron beam is directed onto the surface of a coating material causing vaporization of the material and resulting in condensation of the resultant vapours onto a substrate positioned appropriately, and includes a case where gases are added to the chamber during the processing.
(c)“Electrophoretic deposition” is a surface modification coating or overlay coating process in which finely divided particles of a coating material suspended in a liquid dielectric medium migrate under the influence of an electrostatic field and are deposited on an electronically coducting substrate.
NB:
Heat treatment of parts after coating materials have been deposited on the substrate, in order to obtain the desired coating, is an essential step in the process.
(d)“Pack cementation” is a surface modification coating or overlay coating process wherein a substrate is immersed in a powder mixture, a so-called pack, that consists of:
(1)the metallic powders that are to be deposited (usually aluminium, chromium, silicon or combinations thereof);
(2)an activator (normally a halide salt); and
(3)an inert powder, most frequently alumina.
The substrate and powder mixture is contained within a retort which is heated to between 1030 K to 1375 K for sufficient time to deposit the coating.
(e)“Plasma spraying” is an overlay coating process wherein a gun (spray torch), which produces and controls a plasma, accepts powdered coating materials, melts them and propels them towards a substrate, whereon an integrally bonded coating is formed.
For this purpose
1.“High velocity” means more than 750 metres per second.
2.“Low pressure” means less than ambient atmospheric pressure.
(f)“Slurry deposition” is a surface modification coating or overlay coating process wherein a metallic or ceramic powder with an organic binder is suspended in a liquid and is aaplied to a substrate by either spraying, dipping or painting; subsequently air or oven dried, and heat treated to obtain the desired coating.
(g)“Sputtering” is an overlay coating process wherein positively charged ions are accelerated by an electric field towards the surface of a target (coating material). The kinetic energy of the impacting ions is sufficient to cause target surface atoms to be released and despoited on the substrate.
NB:
Triode, magnetron or radio frequency sputtering to increase adhesion of coating and rate of despoition are included.
(h)“Ion implantation” is a surface modification coating process in which the element to be alloyed is ionized, accelerated through a potential gradient and implanted into the surface region of the substrate. The definition includes processes in which the source of the ions is a plasma surrounding the substrate and processes in which ion implantation is performed simultaneously wth electron beam physical vapour deposition or sputtering.
(i)“Cathodic arc deposition” employs a cathode which is consumable and has an arc discharge established on the surface by a momentary contact of ground trigger. Arc spots form and begin to erode randomly but uniformly the cathode surface creating a highly ionised plasma. The anode can be either a cone attached to the periphery of the cathode through an insulator or the chamber can be used as an anode. Substrates appropriately positioned receive deposits from the ionised plasma. Substrate biasing is used for non-line-of-sight deposition. A gas can be introduced in the vicinity of the substrate surface in order to react during deposition to synthesise compound coatings.
B. The definitions of other terms used in the Table are as follows—
(1) “Coating process” includes coating repair and refurbishing as well as original coating.
(2) Multiple-stage coatings in which an element or elements are desposited prior to application of the aluminide coating, even if these elements are deposited by another coating process, are included in the term “alloyed aluminide coating”, but the multiple use of single-stage pack cementation processes to achieve alloyed aluminides is not included in the term “alloyed aluminide coating”.
(3) Multiple-stage coatings in which the noble metal or noble metals are laid down by some other coating process prior to application of the aluminide coating are included in the term “noble metal modified aluminide coating”.
(4) “Mixtures” consist of infiltrated material, graded compositions, co-deposits and multilayer deposits and are obtained by one or more of the coating processes specified in this table.
(5) “MCrA1X” refers to an alloy where M equals cobalt, iron, nickel or combinations thereof and X equals hafnium, yttrium, silicon or other minor additions in various proportions and combinations.
(6) “Aluminium alloys” as a substrate in this Table means alloys usable at temperqatures above 500 K (227°C).
(7) “Corrosion resistant steel” means such steel as complies with AISI (American Iron and Steel Institute) 300 series or equivalent national standard for steels.
(8) “Refractory metals” as a substrate in this Table means the following metals and their alloys: niobium (columbium), molybdenum, tungsten and tantalum.
There shall be excluded from this entry technology for single-stage pack cementation of solid air foils.
IL1391 | Robots, robot controllers and robot end-effectors the following: and specially designed components and specially designed ODMA software therefor— Note: for the purposes of this entry specially designed components includes mechanical structures. (a) Robots having any of the following characteristics— | |
(1)capable of employing feedback information in real-time processing from one or more sensors to generate or modify programmes or to generate or modify numerical programme data | C | |
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(2)specially designed to comply with national safety standards applicable to explosive munitions environments | C | |
(3)incorporating means of protecting hydraulic lines against externally induced punctures caused by ballistic fragments (e.g. incorporating self-sealing lines) and designed to use hydraulic fluids with flash points higher than 839 K (566°C) | C | |
(4)specially designed for underwater use such as those incorporating special techniques or components for sealing, pressure compensation or corrosion resistance | C | |
(5)operable at altitudes exceeding 30,000 metres | C | |
(6)specially designed for outdoor applications and meeting military specifications therefor | C | |
(7)specially designed or rated for operating in an electromagnetic pulse (EMP) environment | C | |
(8)specially designed or rated as radiation-hardened beyond that necessary to withstand normal industrial (other than nuclear industry) ionising radiation | C | |
(9)equipped with a robot manipulator arms which contain fibrous and filamentary materials specified in entry IL1763 in Group 3I | C | |
(10)equipped with precision measuring devices specified in entry IL1532 in Group 3F | C | |
(11)specially designed to move autonomously its entire structure through three-dimensional space in a simultaneously co-ordinated manner, except systems in which the robot moves along a fixed path | C | |
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(b)Electronic controllers for robots having any of the following characteristics— | ||
(1)controllers specially designed to be part of a robot specified in sub head (a) (2) to (8), (10) or (11) above | C | |
(2)minimum programmable increment less (finer) than 0.001 mm per linear axis | C | |
(3)having more than one integral interface which meets or exceeds ANSI/IEEE standard 488-1978, IEC publication 625-1 or any equivalent standard for parallel data exchange | C | |
(4)capable of being programmed by means of other than lead-through, key-in (such as without processing, on-line or off-line) or teach-pendant techniques | C | |
(5)word size exceeds 16 bit (excluding parity bits) | C | |
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(6)incorporating interpolation algorithms for an order of interpolation higher than two | C | |
(7)generation or modification by one-line, real-time processing of the programmed path, velocity and functions other than the following— | C | |
(i)manual velocity override; (ii)linear, rotary or Cartesian offset; (iii)manual robot path editing (including manual path compensation) excluding source language used to programme automatically the robot path, velocity or runction; (iv)branching to pre-programmed modification of robot path, velocity or function; (v)fixed cycles (e.g. macro instructions or pre-programmed sub-routines); or (vi)keyed-in or teach-in modifications; | ||
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(c)End-effectors having any of the following characteristics— | ||
(1)having integrated computer-aided data processing, except those using sensors used to measure the parameters or values described in exception 1 to head (a)(1) above. | C | |
(2)equipped with an integral interface which meets or exceeds ANSI/IEEE Standard 488-1978, IEC publication 625-1, or any equivalent standard for parallel data exchange | C | |
(3)having any of the characteristics specified in sub-heads (a)(2) to (8) and (10) above | C | |
In this entry— “robot” means a manipulation mechanism, which may be of the continuous path or of the point-to-point variety, may use sensors, is multifunctional and capable of positioning or orienting material, parts, tools or special devices through variable movements in three dimensional space. It incorporates three or more closed or open loop servo-devices which may include stepping motors; and has user-accessible programmability by means of teach/playback method or by means of an electronic computer which may be a programmable logic controller, without mechanical intervention. “Robot” does not include the following devices— (1) Manipulation mechanisms which are only manually/teleoperator controllable; (2) Fixed sequence manipulation mechanisms which are automated moving devices, operating accordingly to mechanically fixed programmed motions, where the programme is mechanically limited by fixed stops, such as pins or cams, and the sequence of motions and the selection of paths or angles are not variable or changeable by mechanical, electronic or electrical means; (3) Mechanically controlled variable sequence manipulation mechanisms which are automated moving devices, operating according to mechanically fixed programmed motions, where the programme is mechanically limited by fixed, but adjustable stops, such as pins or cams, or the sequence of motions and the selection of paths or angles are variable within the fixed programme pattern, and variations or modifications of the programme pattern (eg, changes of pins or exchanges of cams) in one or more motion axes are accomplished only through mechanical operations; (4) Non-servo-controlled variable sequence manipulation mechanisms which are automated moving devices, operating according to mechanically fixed programmed motions and the programme is variable but the sequence proceeds only by the binary signal from mechanically fixed electrical binary devices or adjustable stops; (5) Stacker cranes which are Cartesian coordinate manipulator systems manufactured as an integral part of a vertical array of storage bins and designed to access the contgents of those bins for storage or retrieval; “end-effectors” include grippers, active tooling units being devices for applying motive power, process energy or sensing to the workpiece and any other tooling that is attached to the baseplate on the end of the robot’s manipulator arm(s); “active tooling unit” is a device for applying motive power, process energy or sensing to the workpiece; “sensor” means a detector of a physical phenomenon, the output of which (after conversion into a signal that can be interpreted by a controller) is able to generate programmes or modify programmed instructions or numerical programme data. This includes sensors with machine vision, infrared imaging, acoustical imaging, tactile feel, inertial position measuring, optical or acoustic ranging or force or torque measuring capabilities. | ||
IL1399 | Software and technology for automatically controlled industrial systems, to produce assemblies or discrete parts, the following— | |
(a)Softward with all the following characteristics— | C | |
(1)specially designed for automatically controlled industrial systems which include at least eight items of the following equipment in any combination— (a)machine tools or dimensional inspection machines specified in head (b) of entry IL1091 in Group 3A or IL1370 in this Group; (b)robots specified in entry IL1391 in this Group; (c)digitally controlled spin-forming or flow-forming machines specified in the entry IL1075 in Group 3A; (d)digitally controlled equipment of the type specified in entry IL1080, IL1081, IL1086 or IL1088 in Group 3A; (e)digitally controlled electric arc devices specified in the entry IL1206 in Group 3C; (f)digitally controlled equipment of the type specified in the entry IL1354 or IL1355 (head(b)) of this Group; (g)digitally controlled equipment of the type specified in the entry IL1357 in this Group; (h)digitally controlled electronic equipment of the type specified in the entry IL1529 in Group 3F; (i)any digitally controlled measuring system specified in entry IL1529 in Group 3F (2)integrating, in a hierarchical manner, while having access to data which may be stored outside the supervisory digital computer, the manufacturing processes with— (i)design functions; or (ii)planning and scheduling functions; (3)(i)automatically generating and verifying the manufacturing data and instructions, includng selection of equipment and sequences of manufacturing operations, for the manufacturing processes, from design and manufacturing data; or (ii)automatically reconfiguring the automatically controlled industrial system through reselecting equipment and sequences of manufacturing operation by real-time processing of data pertaining to anticipated but unscheduled events; | ||
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(b)Technology for the design of automatically controlled industrial systems which will be used with the software specified in head (a) above, whether the conditions required by subhead (a)(1) above are met | D | |
In this entry an “automatically controlled industrial system” is a combination of: (1) one or more flexible manufacturing units; and (2) a supervisory digital computer for coordination of the independent sequences of computer instructions to, from and within the flexible manufacturing units; a “flexible manufacturing unit” is an entity which comprises a combination of a digital computer including its own main storage and its own ralated equipment and at least one of the pieces of equipment referred to in sub-head (a)(1)(a) to (i) inclusive in this entry. |
IL1401 | Reciprocating diesel engine development and production technologies, including specially designed software, the following— | |
(a)Development and production technology, including specially dsigned software, for reciprocating diesel engine ground vehicle propulsion systems having all of the following characteristics— | D | |
(1)a box volume of 1.2m3 or less; (2)an overall power output of more than 750 kW based on 80/1269/EEC, ISO 2534 or national equivalents; (3)a power density of more than 700 kW/m3 of box volume. | ||
(b)Development and production technology for solid or dry film cylinder wall lubrication permitting operation at temperatures in excess of 723 K (450°C) measured on the cylinder wall at the top limit of travel of the top ring of the piston | D | |
In this entry the “box volume” means the product of three dimensions at right angles to each other measured in the following way—
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IL1416 | Vessels (including ships and surface-effect vehicles), water-screw propellers and hub assemblies, water-screw propeller systems, moisture and particulate separator systems and specially designed components, the following— | |
(a)Hydrofoil vessels with automatically controlled foil systems which are capable of speeds of above 40 knots in rough water (Sea State Five) | S, I | |
(b)Surface-effect vehicles, namely hovercraft, air cushion vehicles (both sidewall and skirted varieties) and all variations of vehicles using the wing-in-ground effect for positive lift | C | |
(c)Small waterplane area twin-hull (SWATH) vessels having underwater hulls whose cross-sectional area varies along the longitudinal axis between points two major diameters from the bow and two major diameters from the stern | C | |
(d)Ships and vessels fitted with any of the following— | ||
(1)equipment specified in Group 1, in entry IL1485 in this Group or in entry IL1501, IL1502 or IL1510 in Group 3F | S, I | |
(2)degaussing facilities | S, I | |
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(3)closed ventilation systems designed into the vessel which are designed to maintain air purity and positive pressure regardless of the conditions external to the vessel except where those closed ventilation systems are specially designed for and incorporated in the vessel’s medical facilities only | C | |
(e)Water-screw propellers and hub assemblies, the following— | ||
(1)supercavitating propellers rated at greater than 10,000 hp | C | |
(2)controllable-pitch propellers and hub assemblies rated at above 40,000 hp capacity | C | |
(f)Water-screw propeller systems, the following— | ||
(1)contrarotating propeller systems rated at greater than 20,000 hp | C | |
(2)ventilated, base-ventilated and super-ventilated propeller systems | C | |
(3)systems employing pre-swirl and post-swirl techniques for smoothing the flow into a propeller so as to improve propulsive efficiency of— | C | |
(i)SWATH vessels, hydrofoil vessels, and surface-effect vehicles, or | C | |
(ii)other vessels whose propeller rotation speed is above 200 rpm, or having propellers with a rating exceeding 50,000 hp per shaft | C | |
(g)Moisture and particulate separator systems which are capable of removing 99.9 per cent of particles larger than 2 micrometers in diameter with a maximum pressure loss of 1.6 kPa (16 millibar) for gas turbine engine air inlets | C | |
(gg)Technology for moisture and particulate separator systems specified in head (g) above only the following— | ||
(1)technology for preventing water leakage around the filter stages | D | |
(2)technology for integrating the components of such a system | D | |
(h)Specially designed components for vessels covered by heads (a), (b) and (c) above, the following— | ||
(1)advanced hull forms which incorporate any of the following— | ||
(i)stepped hull for hydrofoil vessels | C | |
(ii)hulls for air cushion vehicles with trapezoidal platforms | C | |
(iii)hulls for surface-effect vehicles with catamaran-like sidewalls | C | |
(iv)hulls for wing-in-ground effect vehicles | C | |
(v)underwater hulls and struts for SWATH vessels | C | |
(2)fully submerged subcavitating or supercavitating hydrofoils | C | |
(3)lightweight structural components for SWATH vessels, hydrofoil vessels and surface-effect vehicles, constructed using anisotropic, orthotropic or sandwich construction methods | C | |
In this subhead— 1. “Anisotropic construction methods” means the use of fibre reinforcing members aligned so that the load-carrying ability of the structure can be primarily orientated in the direction of expected stress. 2. “Orthotropic construction methods” means the means of stiffening plates, in which the structural members are at right angles to each other. 3. “Sandwich construction methods” means the use of structural members or plates which are fabricated and permanently affixed in layers to enhance their strength and reduce their weight. | ||
(4)flexible skirts, seals and fingers for surface-effect vehicles | C | |
(5)systems for automatically controlling the stability of SWATH vessels, hydrofoil vessels or surface-effect vehicles | C | |
(6)power transmission shaft systems which incorporate composite material components, for SWATH vessels, hydrofoil vessels or surface-effect vehicles | C | |
(7)lightweight, high capacity (K factor greater than 150) gearing (planetary, cross-connect and multiple input/output gears and bearings) for SWATH vessels, hydrofoil vessels and surface-effect vehicles | C | |
(8)water-cooled electrical propulsion machinery (motor and generator), including AC-AC synchronous and AC-DC systems, sectored-disc and concentric-drum rotors for DC homopolar machines, for SWATH vessels, hydrofoil vessels and surace-effect vehicles | C | |
(9)superconducting electrical propulsion machinery for SWATH vessels, hydrofoil vessels and surface-effect vehicles | C | |
(10)lift fans for surface-effect vehicles, rated at greater than 400 hp | C | |
(11)waterjet propulsor systems rated at 3,000 input hp or greater for hydrofoil vessels and surface-effect vehicles | C | |
PL7009 | Other vessels (including ships), the following: and specially designed components therefor— | |
(a)Vessels having special structural features for landing personnel and/or vehicles on a beach | I | |
(b)Vessels capable of supporting helicopter operations and maintenance | I | |
(c)Vessels capable of submerging | I | |
(d)Vessels not elsewhere specified in this Part of this Schedule of below 100 tonnes GRT including inflatable craft in an inflated or uninflated state except light vessels, fire floats and dredgers | I | |
(e)Ships with decks and platforms specially strengthened to receive weapons | S, L, I | |
IL1417 | Submersible systems including those incorporated in a submersible vehicle, the following: and specially designed components therefor— | |
(a)Automatically-controlled atmosphere-regeneration systems specially designed or modified for submersible vehicles which, in a single chemical-reaction cycle, ensure carbon dioxide removal and oxygen renewal | C | |
(b)Systems specially designed or modified for the automated control of the motion of a submersible vehicle using navigation data and having closed-loop servo-control(s) so as to– | ||
(1)enable the vehicle to move within ten metres of a predetermined point in the water column | C | |
(2)maintain the position of the vehicle within ten metres of a predetermined point in the water column | C | |
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(3)maintain the position of the vehicle within ten metres while following a cable on or under the sea bed | C | |
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(c)Underwater vision systems, the following— | ||
(1)television systems (comprising camera, lights, monitor and signal transmission equipment) specially designed or modified for remote operation with a submersible vehicle, having a limiting resolution, when measured in the air, more than 500 lines, using IEEE Standard 208/1960 or any equivalent standard | C | |
(2)systems specially designed or modified for remote operation with a submersible vehicle employing techniques to minimize the effects of back-scatter, such as range-gated illuminators | C | |
except television cameras used merely through a porthole. | ||
(d)Remotely controlled articulated manipulators specially designed or modified for use with submersible vehicles and having any of the following characteristics— | ||
(1)systems which control the manipulator using information from sensors which measure force or torque applied to an external object, distance from an external object, or tactile sense between the manipulator and an external object | C | |
except systems where force or torque are only measured and then displayed to the operator. | ||
(2)controlled by proportional master-slave techniques or by using a dedicated stored-programme computer | C | |
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(3)capable of exerting a force of 250 Newtons or more or a torque of 250 Newton-metres or more and using titanium based alloys or fibrous and filamentary composite materials in their structural members | C | |
(e)Photographic cameras and associated equipment specially designed or modified for use underwater, having a film format of 35 mm or larger, and capable of any of the following— | ||
(1)film advancement of more than 5 frames per second | C | |
(2)annotating the film with data provided by a source external to the camera | C | |
(3)taking more than 250 full frame exposures without changing the film | C | |
(4)autofocusing specially designed or modified for use underwater | C | |
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(5)operating at depths of more than 1,000 metres | C | |
(f)Light systems specially designed or modified for use under water, the following— (1)stroboscopic lights capable of— | ||
(i)light output energy of more than 150 joules per flash | C | |
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(ii)flash rates of more than 5 flashes per second at a light output energy of more than 10 joules per flash | C | |
(2)other lights and associated equipment, capable of operating at depths of more than 1,000 metres | C | |
In this entry “limiting resolution” in television is a measure of resolution usually expressed in terms of the maximum number of lines per picture height discriminated on a test chart. | ||
IL1418 | Deep submergence vehicles, manned or unmanned, tethered or untethered, capable of operating at depths exceeding 1,000 metres, and specially designed or modified associated systems, equipment, components and materials therefor, including the following— | C |
(a)pressure housings or pressure hulls; (b)propulsion motors and thrusters; (c)hull penetrators or connectors. | ||
IL1425 | Floating docks, and software and technology therefor, the following— (a) Floating docks specially designed for use at remote locations (i.e. without support from shore bases) incorporating all of the following facilities— (1) welding and pipe fitting repair shop(s); (2) electrical and electronic repair shop(s); (3) mechanical repair or metal working machine shop(s) | |
| C | |
(b)Floating docks specially equipped to permit the operation, maintenance or repair of nuclear reactors | C | |
(c)Floating docks having both the following characteristics— (1)a lifting capacity of more than 36,364 tonnes; (2)larger than 120 metres in length and 30 metres in width, measured between the pontoons. | ||
(d)Specially designed software for computer-controlled pumping and flooding systems for the above floating docks, to permit the docking of listing vessels | C | |
(e)Technology, the following— | ||
(1)for that portion of the design of a floating dock specified in head (a) above which relates to the incorporation of the three types of facilities specified in that head | D | |
(2)for design, production and use of onboard floating dock facilities specified in head (b) above which permit the operation, maintenance and repair of nuclear reactors | D | |
IL1431 | Marine gas turbine engines (marine propulsion or shipboard power generation engines), whether originally designed as such or adapted for such use, and specially designed components therefor | C |
Note: for the purpose of this entry “shipboard power generation” does not include offshore platform applications. | ||
IL1460 | Aircraft and helicopters, aero-engines and aircraft and helicopter equipment, and technology therefor, the following— | |
(a)Aircraft and helicopters, except those which do not contain equipment specified in Group 1 or in the entries IL1485 or IL1501 in Groups 3E and 3F and which are of types which are in bona fide normal civil use | C | |
(b)Technology for aircraft and helicopter airframes, for aircraft propellers, and for aircraft and helicopter airframe, aircraft-propeller and helicopter-rotor-systems components, and specially designed ODMA software therefor, the following— | ||
(1)design technology using computer-aided aerodynamic analyses for integration of the fuselage, propulsion system and lifting and control surfaces to optimize aerodynamic performance throughout the flight regime of an aircraft | D | |
(2)technology for the design of active flight control, the following— | ||
(i)technology for configuration design for inter-connecting multiple microelectronic processing elements (on-board computers) to achieve high-speed data transfer and high-speed data integration for control law implementation | D | |
(ii)technology for control law compensation for sensor location and dynamic airframe loads, namely compensation for sensor vibration environment and for variation of sensor location from centre of gravity | D | |
(iii)technology for electronic management of systems reducdancy and data redundancy for fault detection, fault tolerance and fault isolation | D | |
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(iv)technology for design of flight controls which permit in-flight reconfiguration of force and moment controls | D | |
(3)design technology for integration of flight control, navigation and propulsion control data into a flight management system for flight path optimzation | D | |
(4)design technology for protection of avionic and electrical sub-systems against electromagnetic pulse (EMP) and electromagnetic interference (EMI) hazards from sources external to the aircraft, the following— | ||
(i)technology for design of shielding systems | D | |
(ii)technology for the configuration design of hardened electrical circuits and sub-systems | D | |
(iii)technology for determination of hardening criteria for the above | D | |
(5)technology for the design, production and reconstruction of adhesively bonded airframe structural members designed to withstand operational temperatures in excess of 120°C | D | |
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(6)technology for the design and production of propeller blades constructed wholly or partly of composite materials, and specially designed hubs therefor | D | |
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(7)technology for the design and production of digital electronic synchrophasers specially designed for propellers; technology for the design of digital electronic controls for propellers; and technology for the production of digital electronic controls for the propeller blades and hubs described in sub-head (b)(6) above | D | |
(8)technology for the design and production of active laminar flow control lifting surfaces including design data used to substantiate the design approach | D | |
(9)technology for the development of helicopter multi-axis fly-by-light or fly-by-wire controllers which combine the functions of at least two of the following into one controlling element | D | |
(i)collective controls; (ii)cyclic controls; (iii)yaw controls. | ||
(10)technology for the development of circulation controlled anti-torque or directional control systems for helicopters | D | |
Note: “Circulation-controlled anti-torque and directional control systems” utilise air blown over aerodymamic surfaces to increase or control the forces generated by the surfaces. buried fan-in-fin anti-torque designs fitted or not fitted with guide vanes such as the fenestron are excluded from this subhead. | ||
(11)technology for the development of helicopter rotor blades incorporating variable geometry airfoils utilizing trailer edge flaps or tabs or pivotted nose droop, which can be controlled in position in flight | D | |
(12)technology for the development of active control of helicopter blades and other surfaces used to generate aerodynamic forces and moments | D | |
Note: “Active control” (of helicopter blades and other surfaces used to generate aerodynamic forces and moments) functions to prevent undesirable helicopter vibrations, structural loads or helicopter rotor dynamic behaviour by autonomously processing outputs from multiple sensors and then providing necessary preventive commands to effect automatic control. | ||
(c)Helicopter power transfer systems and technology therefor | C | |
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(d)Gas turbine engines and auxiliary power units (APUs) for use in aircraft or helicopters and technology therefor— | C | |
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(e)Specially designed components for gas turbine engines, APUs and helicopter power transfer systems specified in heads (c) and (d) above, the following— | ||
(1)embodying technologies listed in Tables 1 or 2 below | C | |
(2)hot-section components | C | |
(3)engine control system components | C | |
(4)gas turbine engine or APU rotor system components (including bearings) | C | |
Notes: 1. The period of civil use referred to in heads (c) and (d) above begins with the date that the particular engine or helicopter power transfer system (model and specifications) or its most recent modification was certified as airworthy for commercial service or commercial navigability under the standards and requirements of the government of the country in which it was manufactured: modification does not include minor safety or operational changes which do not significantly enhance the performance of a particular gas turbine aero-engine or improve its reliability. For the purposes of this entry: (a)A gas turbine aero-engine which is recertified as the result of incorporating any technology listed in Table 1 below is to be treated as a newly certified engine. Recertification which does not result from incorporation of such technology, or modifications which do not require recertification by national authorities, will not affect the period of civil use of the engine; (b)Modification of a gas turbine APU by incorporation of any technology listed in Table 1 will cause it to be treated as a new APU. Other modifications will not affect the period of civil use of the APU. (c)Modification of a helicopter power transfer system by incorporation of any technology listed in Table 2 will restart the period of civil use for the helicopter power transfer system as though it were newly certified in a helicopter. Other modifications will not affect the period of civil use of the helicopter power transfer system. 2. This entry does not include gas turbine engines, APUs and helicopter power transfer systems for civil use and modifications (and technology therefore) certified or re-certified for civil use, as described in Note 1 prior to the 1st January 1979, other than: Helicopters over 4,530 kg empty weight, and power transmissions systems therefor. Note: Empty weight is understood to include normal installation and normal minimum crew, but does not include fuel or payload. Aero-engines, the following— (i) Piston engines; (ii) Jet engines of less than 2,625 kg thrust; (iii) Turboprop or turboshaft engines of less than 2,500 horsepower or with a residual thrust of less than 453 kg. 3. Head (d) above does not include those engines which contain none of the technologies listed in Table 1 below for use in civil aircraft or civil helicopters. |
TECHNOLOGY RELATING TO THE FOLLOWING I. Materials and manufacturing procedures Ceramic, ceramic-composite or composite hot-section components (combuster, turbine blades and vanes, seals, discs, flow path) Turbine blades on basis of directional solidification or monocrystal technology
Turbine blades consisting of several parts connected by diffusion bonding Fibre technology in frames or in highly stressed discs, casings, blades and vanes Protective coating technology for air-cooled turbine blades and vanes with internal and external cooling passages and their related flow paths capable of operating in high gas temperature environments (in excess of 1,499°C), irrespective of the actual gas temperature environment in which they will be used, involving applications of metallic or ceramic material by vapour, pack, plasma, electron beam, sputtering or sintering processes Metallic coatings
Ceramic Coatings Application of powder metallurgy for fan compressor and turbine blades or vanes; discs, wheels, reduction gears, engine main shafts and frames
Cooled components on basis of electrostream or laser drilling methods;
Electron beam drilling for small holes in turbine blades and vanes Titanium or superalloy—casting on basis of centrifugal techniques Ceramic core casting technology for casting holes in turbine blades and vanes II. Construction methods Adjustable flow path geometry and associated control systems for:
(Adjustable flow path geometry and associated control systems do not include: inlet guide vanes, variable pitch fans, variable stators or bleed valves for compressors.) Full authority or hybrid digital electronic control and respective sensor equipment High temperature (capable of utilizing gases heated above 1,100°C) heat exchangers for preheating compressor exit air Combustors with combustion in several stages Maintenance of compressor or turbine tip clearance through methods employing active compensating casing technology:
Ceramic bearings Nozzles with thrust vectoring (not including reverse thrust) |
TECHNOLOGY RELATING TO THE FOLLOWING 1. Materials and manufacturing procedures A. Rotor heads, containing:
B. Gear boxes, containing:
C. Drive shaft systems containing super-critical drive shafts II. Construction methods A. Components fabricated by diffusion bonding B. High-survivability loss-of-lubrication technology for high-speed bearings (DN equal to or greater than 2.4 million where D is expressed in millimetres and N in rpm) |
In this entry— “civil aircraft” and “civil helicopters” means only those types of civil aircraft and civil helicopters which are listed by designation in published airworthiness certification lists by the civil aviation authorities to fly commercial civil internal and external routes or for legitimate civil, private or business use. “helicopter power transfer systems” means all those components which transfer power from the engine to the main and tail rotor blade(s). Note: Aero-engines, APUs or helicopter power transfer systems which have any special feature designed for a military application are specified in the entry ML10 in Group 1. | ||
PL7010 | Aircraft and helicopters having a maximum all up weight of 680 Kg or more | L, Z |
PL7011 | Specially designed components for aircraft and helicopters specified in head (a) of the entry IL1460 other than components falling within a description in Group 1 or under any other heading in Group 3 of Part II, of this Schedule | W |
IL1465 | Spacecraft and launch vehicles, the following— | |
(a)Spacecraft, manned or unmanned (not including their payloads) | C | |
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(b)Launch vehicles | C | |
(c)Propulsion systems, guidance equipment, attitude control equipment and on-board communications equipment for remote control of the equipment specified in head (a) or (b) above | C | |
(d)Specially designed components for the equipment specified in heads (a), (b) and (c) above | C | |
In this entry “spacecraft” means active and passive satellites and space probes. | ||
IL1485 | Compasses, gyroscopes, (gyros), accelerometers and inertial equipment, the following: and specially designed software and specially designed components therefor— | |
(a)Gyro compasses with provision for determining and transmitting ship’s level reference data (roll, pitch) in addition to own ship’s course data | C | |
(b)Integrated flight instrument systems which include tyrostabilisers or automatic pilots for aircraft and specially designed integration software therefor | C | |
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(c)Gyro-astro compasses and other devices which derive position or orientation by means of automatically tracking celestial bodies | C | |
(d)Gyro-stabilisers used for other purposes than aircraft control | C | |
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(e)Automatic pilots used for purposes other than aircraft control and specially designed integration software therefor, except marine types for surface vessels | C | |
(f)Accelerometers with a threshold of 0.005 g or less or a linearity error within 0.25 per cent of full scale output or both, which are designed for use in inertial navigation systems or in guidance systems of all types | C | |
(g)Gyros with a rated free directional drift rate (rated free precession) of less than 0.5 degree (1 Sigma or r.m.s.) per hour in a 1 g environment | C | |
(h)Continuous output accelerometers which utilize servo or force balance techniques and gyros, both specified to function at acceleration levels greater than 100 g | C | |
(i)Inertial or other equipment using accelerometers specified in head (f) or (h) above or gyros specified in head (g) or (h) above, and systems incorporating such equipmenmt, and specially designed integration software therefor | C | |
(j)Specially designed test, calibration and alignment equipment for goods specified in heads (a) to (i) above | C |
IL1565 | Electronic computers, related equipment, equipment or systems containing electronic computers, and technology therefor, the following: and specially designed components and accessories for such electronic computers and related equipment— | |
(a)Analogue computers, and related equipment therefor, which are designed or modified for use in ariborne vehicles, missiles or space vehicles and rated for continuous operation at temperatures from below 228 K (−45°C) to above 328 K (+55°C) | C | |
(b)Equipment or systems containing analogue computers specified in head (a) above | C | |
(c)Analogue computers and related equipment therefor, other than those specified in head (a) above | C | |
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(d)Hybrid computers and related equipment therefor, having all the following characteristics— | C | |
(1)the analogue section is specified in head (c) above; (2)the digital section has an internal fixed or alterable storage of more than 2,048 bit; and (3)facilities are included for processing numerical data from the analogue section in the digital section or vice versa; | ||
(e)Analogue computers specified in heads (a) to (c) above (inclusive) or digital computers containing equipment for interconnecting analogue computers with digital computers | C | |
(f)Digital computers and related equipment therefor, with any of the following characteristics— | ||
(1)designed or modified for use in airborne vehicles, missiles or space vehicles and rated for continuous operation at temperatures from below 228 K (−45°C) to above 328 K (+55°C) | C | |
(2)designed or modified to limit electromagnetic radiation to levels much less than those required by government civil interference specifications | C | |
(3)designed as ruggedized or radiation-hardened equipment and capable of meeting military specifications for ruggedized or radiation-hardened equipment | C | |
(4)modified for military use, or | C | |
(5)designed or modified for certifiable multi-level security or certifiable user isolation applicable to government classified material or to applications requiring an equivalent level of security | C | |
(g)Equipment or systems containing digital computers specified in head (f) above | C | |
(h)Digital computers and related equipment therefor, (other than those specified in heads (e) and (f) above even when embedded in, incorporated in, or associated with equipment or systems, and other than digital computers embedded in equipment described elsewhere in this Schedule), including but not limited to the following— | C | |
(1)Digital computers and related equipment designed or modified for— | ||
(a)signal processing | C | |
(b)image enhancement | C | |
(c)local area networks | C | |
(d)multi-data-stream processing | C | |
(e)combined recognition, understanding and interpretation of image, continuous (connected) speech or connected word text other than signal processing or image enhancement | C | |
(f)real time processing of sensor data having both of the following characteristics: | C | |
(1) concerning events occurring outside the computer using facility; and (2) provided by equipment specified in entry IL1501, IL1502, IL1510 or IL1518 in Group 3F. | ||
(g)microprocessor or microcomputer development systems | C | |
(h)fault tolerance | C | |
(j)user-accessible microprogrammability except where this facility is limited to— | C | |
(a) loading, reloading or inserting of micro-programmes provided by the supplier; or (b) simple loading of microprogrammes which may or may not be provided by the supplier, but which are neither designed to be accessible to the user nor accompanied by training or software for user accessibility. | ||
(k)data (message) switching | C | |
(l)stored programme controlled circuit switching, or | C | |
(m)wide area networks | C | |
(2)digital computers and related equipment therefor, having both the following characteristics— | C | |
(a)size, weight, power consumption and reliability or other characteristics (eg bubble memory), which allow easy application in mobile tactical military systems; and (b)ruggedised above the level required for a normal commercial/office environment, but not necessarily up to levels specified in head (f) above; | ||
(j)Technology, the following— (1)technology applicable to the— | ||
(i)development, production or use of electronic computers or related equipment, even if these electronic computers or related equipment are not specified in this entry | D | |
(a) technology which is unique to related equipment excluded under sub-heads (h)(2)(iv)(a) to (c), (e), (f), (m), (n) or (q) above and which is not specified elsewhere in this Schedule; (b) the minimum technology necessary for the use of electronic computers or related equipment not specified elsewhere in this entry; or | ||
(ii)development, production or use of equipment or systems specified in head (b) or (g) of this entry | D | |
For the purpose of this subhead “use” means assembly, operation, maintenance or repair. | ||
(2)technology for the integration of— | ||
(i)electronic computers or related equipment specified in this entry into other equipment or systems whether or not the other equipment or systems are specified in this Schedule; except technology for integration which is unique to the other equipment or systems provided they are not specified elsewhere in this Schedule or | D | |
(ii)other electronic computers or related equipment into equipment or systems specified in this Schedule | D | |
In this entry— “access rate”— (a) of an input/output control unit-drum or disk drive combination (Rad), means either the access rate of an input/output control unit (Rac) or the sum of the individual access rates of all independent seek mechanisms (Ras), whichever is smaller;
(b) of an input/output control unit (Rac) (1) with rotational position sensing (rps), means the sum of the individual access rates of all independent seek mechanisms (Ras) connected to the control unit;
“latency time” (tl) means the rotational period divided by twice the number of independent read/write heads per track; “analogue computer”—means equipment which can, in the form of one or more continuous variables: (a) accept data; (b) process data; and (c) provide output of data; goods which are “associated” with equipment or systems— (a) can feasibly be either: (i) removed from such equipment or systems; or (ii) used for other purposes; and (b) are not essential to the operation of such equipment or systems: “block move data rate” — means the maximum number of pixels which can be moved per second from one location to another in the storage which functions as the frame buffer; “communication channel” — means the transmission path or circuit including the terminating transmission and receiving equipment (modems) for transferring digital information between distant locations; “computer operating area” — means the immediate contiguous and accessible area around the electronic computer where the normal operating, support and service functions take place; “computer using facility” — means the end-users contiguous and accessible facilities: (a) housing the computer operating area and those end-user functions which are being supported by the stated application of the electronic computer and its related equipment; and (b) not exceeding beyond 1,500 metres in any direction from the centre of the computer operating area; “cumulative total processing data rat” — means the sum of all total processing data rates in a given transaction; “data device” — means equipment capable of transmitting or receiving sequences of digital information; “data (message) switching” — means the technique including store-and-forward or packet switching, for: (a) accepting data groups (including messages, packets, or other digital or telegraphic information groups which are transmitted as a composite whole); (b) storing (buffering) data groups as necessary; (c) processing part or all of the data groups, as necessary, for the purpose of: (1) control (routing, priority, formatting, code conversion, error control, retransmission or journaling); (2) transmission; or (3) mutliplexing; and (d) retransmitting (processed) data groups when transmission or receiving or receiving facilities are available; “data signalling rate” — means the rate as defined in ITU Recommendation 53-36, taking into account that, for non-binary modulation, baud and bit per second are not equal. Binary digits for coding, checking, and synchronization functions are included. It is the maximum one-way rate, namely the maximum rate in either transmission or reception; “digital computer” — means equipment which can, in the form of one or more discrete variables: (a) accept data; (b) store data or instructions in fixed or alterable (writable) storage devices; (c) process data by means of a stored sequence of instructions which is modifiable; and (d) provide output of data; and for this purpose modifications of a stored sequence of instructions include replacement of fixed storage devices, but not a physical change in wiring or interconnection; “embedded” in equipment or systems-means that the relevant item can feasibly be neither: (a) removed from such equipment or system; nor (b) used for other purposes; “equivalent multiply rate” — means the maximally achievable number of multiplication operations which can be performed per second considering that, in the case of simultaneous multiplication operations, all multiplication rates have to be summed in order to arrive at the equivalent multiply rate: (a) assuming (1) optional operand locations in the most immediate storage; and (2) operand lengths at least 16 bit, or more if this allows for faster operation; and (b) ignoring (1) set-up operations; (2) pipeline filling operations; (3) initialization; (4) interrupts; and (5) data reordering times; “fault tolerance” — means the capability to perform correctly without human intervention after failure of any assembly, so that there is no single point in the system the failure of which could cause catastrophic failure of the system’s functioning; and for this purpose “assembly” — means a number of components (ie circuit elements, discrete components, microcircuits) connected together to perform a specific function or functions, replaceable as an entity and normally capable of being disassembled; “gateway” — means the function, realised by any combination of equipment and software to carry out the conversion of conventions for representing, processing or communicating information used in one system into the corresponding but different conventions used in another system; “gross capacity” — means the product of: (a) the maximum number of binary digit (bit) positions per unformatted track; and (b) the total number of tracks including spare tracks and tracks not accessible to the user; “hybrid computer” — means equipment which can: (a) accept data; (b) process data, in both analogue and digital representations; and (c) provide output at a; “image digitiser” — means a device for directly converting an analogue representation of an image into a digital representation; “image enhancement” — means the processing of externally derived information-bearing images by algorithms such as time compression, filtering, extraction, selection, correlation, convolution or transformations between domains (eg Fast Fourier Transform or Walsh Transform). This does not include algorithms using only linear or rotational transformation of a single image, such as translation, feature extraction, registration or false colouration; “incorporated” in equipment or system means (a) can feasibly be either: (i) removed from such equipment or systems; or (ii) used for other purposes; and (b) is essential to the operation of such equipment or systems; “internetwork gateway” — means a gateway for two systems which are themselves local area networks, wide area networks or both; “local area network” — means a data communication system which: (a) allows an arbitrary number of independent data devices to communicate directly with each other; and (b) is confined to a geographical area of moderate size including office building, plant, campus, warehouse; “main storage” — means the primary storage for data or instructions for rapid access by a central procession unit. It consists of the internal storage of a digital computer and any hierarchical extension thereto, such as cache storage or non-sequentially accessed extended storage; “maximum bit packing density” — means the density of recording specified in accordance with the appropriate ANSI or ISO Standard (eg ANSI X3.14-1979, ISO 1863-1975; ANSI X3.22-1973; ISO 1873-1976; ANSI X3.39-1973; ISO 3788-1976; ANSI X3.48-1977; ISO 3407-1976; ANSI X3.56-1977; ISO 4057-1979; ANSI X3.54-1976). “maximum bit transfer rate”— (a) of a drum or disk drive (Rtdmax), is the product of: (1) the maximum number of binary digit (bit) positions per unformatted track; and (2) the number of tracks which simultaneously can be read or written, divided by the rotational period; (b) of a magnetic tape drive (Rttmax), is the product of: (1) the maximum bit packing density; (2) the number of data bits per character (ANSI) or per row (ISO); and (3) the maximum tape read/write speed; “most immediate storage” — means the portion of the main storage, most directly accessible by the central processing unit; (a) for single level main storage, this is the internal storage; or (b) for hierarchical main storage, this is: (1) the cache storage; (2) the instruction stack; or (3) the data stack; “multi-data-stream processing” — means the microprogramme or equipment architecture technique which permits processing two or more data sequences under the control of one or more instruction sequences by means such as: (a) parallel processing; (b) structured arrays of processing elements; (c) single Instrumentation Multiple Data (SIMD) operations; or (d) multiple Instruction Multiple Data (MIMD) operations; “net capacity” — of a drum, disk or cartridge-type streamer tape drive, or a bubble memory, is the total capacity designed to be accessible to the digital computer excluding error control bits; “non-volatile storage” — means a storage device the contents of which are not lost when power is removed; “other peripheral device” — means a data device which is: (a) peripheral to a central processing unit-main storage combination; and (b) not an input/output control unit-drum, disk or magnetic tape drive or bubble memory combination; “personal computer” — means a microprocessor based digital computer that is: (1) designed for a commercial/office environment; (2) designed and announced by the manufacturer for personal, home or business use; and (3) available for purchase over the counter at retail stores; “principal element” — means a digital computer or related equipment which is: (a) either embedded or incorporated in another piece of equipment or system; and (b) in value more than 35% of the replacement value of the total equipment or system, (including the digital computer or related equipment); “real time processing” — means processing of data by an electronic computer in response to an external event according to time requirements imposed by the external event; “related equipment” — means the following equipment embedded in, incorporated in or associated with electronic computers; (a) equipment for interconnecting analogue computers with digital computers; (b) equipment for interconnecting digital computers; (c) equipment for interfacing electronic computers to local area networks or to wide area networks; (d) communication control unit; (e) other input/output (I/O) control units; (f) recording or reproducing equipment specified in entry IL1572 in this Group; (g) displays; or (h) other peripheral equipment; Note: related equipment which contains an embedded or incorporated electronic computer but which lacks user-accessible programmability does not thereby fall within the definition of electronic computer. “signal processing” — means the processing of externally derived information-bearing signals by algorithms such as time compression, filtering, extraction, selection, correlation, convolution or transformations between domains including Fast Fourier Transform or Walsh Transform; “stored-programme-controlled circuit switching” — means the technique for establishing, on demand and until released, a direct (space division switching) or logical (time division switching) connection between circuits based on switching control information derived from any source or circuit and processed according to the stored programme by one or more electronic computers; “terminal device” — means a data device which: (a) does not include process control sensing and actuating devices; and (b) is capable of: (1) accepting or producing a physical record; (2) accepting a manual input; or (3) producing a visual output; “total access rate” (Ratot)—means the sum of the individual access rates of all input/output control unit—drum or disk drive combinations (Rad) provided with the system which can be sustained simultaneously assuming the configuration of equipment which would maximize this total access rate; (Thus: Ratot = SUM Rad) “total connected capacity” — means the storage capacity excluding error control bits, word marker bits, and flag bits; “total data signalling rate” — means the sum of individual data signalling rates of all communication channels which: (a) have been provided with the system; and (b) can be sustained simultaneously;assuming the configuration of the equipment which would maximize this sum of rates; “total internal storage available to the user” — means the sum of the individual capacities of all internal user-alterable or user-replaceable storage devices which maybe: (a) included in the equipment at the same time; and (b) used to store software instructions or data; “total processing data rate”— (a) of a single central processing unit, is its processing data rate; (b) of multiple central processing units which do not share direct access to a common main storage, is the individual processing data rate of each central processing unit, (ie each unit is separately treated as a single central processing unit as in (a) above); (c) of multiple central processing units which partially or fully share direct access to a common main storage at any level, in the sum of: (1) the highest of the individual processing data rates of all central processing units; and (2) 0.75 times the processing data rate of each remaining central processing unit sharing the same main storage; assuming the configuration of equipment which would maximize this sum of rates; For the purpose of this definition: “processing data rate” — means the maximum of either: (a) the floating point processing data rate (Rt); or (b) the fixed point processing data rate (Rx).
“floating point processing data rate” (Rf) is the sum of: (1) 0.85 times the number of bits in a fixed point instruction (nix) or 0.85 times the number of bits in a floating point instruction (nif), if no fixed point instructions are implemented; (2) 0.15 times the number of bits in a floating point instruction (nif); (3) 0.40 times the number of bits in a fixed point operand (nox) or 0.40 times the number of bits in a floating point operand (nof) if no fixed point instructions are implemented; and (4) 0.15 times the number of bits in a floating point operand (nof); divided by the sum of: (1) 0.85 times the execution time for a fixed point addition (tax) or for a floating point addition (taf) if no fixed point instructions are implemented; (2) 0.09 times the execution time for a floating point addition (taf); and (3) 0.06 times the execution time for a floating point multiplication (tmf) or for the fastest available subroutine (tmsub) to simulate a floating point multiplication instruction, if no floating point multiplication instructions are implemented; (Thus: Or if no fixed point instructions are implemented, then: Or if no floating point multiplication instructions are implemented (tmf = tmsub) then: ) If a digital computer has neither floating point addition nor floating point multiplication instructions, then its floating point processing data rate is equal to zero. “fixed point processing data rate” (Rx) is the sum of: (1) 0.85 times the number of bits in a fixed point addition instruction (niax); (2) 0.15 times the number of bits in a fixed point multiplication instruction (nimx); and (3) 0.55 times the number of bits in a fixed point operand (nox); divided by the sum of: (1) 0.85 times the execution time for a fixed point addition (tax); and (2) 0.15 times the execution time for a fixed point multiplication (tmx) or for the fastest available subroutine (tmsub) to simulate a fixed point multiplication instruction if no fixed point multiplication instructions are implemented; (Thus Or if no fixed point multiplication instructions are implemented (tmx = tmsub) then: ) If a digital computer has neither fixed point addition nor fixed point multiplication instructions, then its fixed point processing data rate is equal to zero; The number of bits in a:
The number of bits in a fixed point operand (nox) is (a) the shorted fixed point operand length; or (b) 16 bit; whichever is greater; The number of bits in a floating point operand (nox) is (a) the shortest floating point operand length; or (b) 30 bit; whichever is greater; “execution time” is (a) the time certified or published by the manufacture for the execution of the fastest appropriate instruction, under the following conditions; (1) no indexing or indirect operations are included; (2) the instruction is in the most immediate storage; (3) one operand is in the accumulator or in a location of the most immediate storage which is acting as the accumulator; (4) the second operand is in the most immediate storage; and (5) the result is left in the accumulator or the same location in the most immediate storage which is acting as the accumulator; (b) if only the maximum and minimum execution times of the instructions are published, the sum of:
(c) for central processing units which simultaneously fetch more than one instruction from one storage location, the average of the execution times when executing instructions fetched from all possible locations within the stored word; (d) if the longest fixed point operand length is smaller than 16-bit, the time required for the fastest available subroutine to simulate a 16 bit fixed point operation; NOTES: 1. If the addressing capability of an instruction is expanded by using a base register, then the execution time shall include the time for adding the content of the base register to the address part of the instruction. 2. When calculating processing data rate for computers with cache sizes smaller than 64K Bytes, the execution time of the appropriate instructions will be calculated as follows:
The cache hit rate being:
“total transfer rate”— (a) of the input/output control unit-drum, disk or cartridge-type streamer tape drive combinations (Rtdtot), means the sum of the individual transfer rates of all input/output control unit-drum, disk or cartridge-type streamer tape drive combinations (Rtd) provided with the system which can be sustained simultaneously assuming the configuration of equipment which would maximize this sum of rates;
(b) Of the input/output control unit-magnetic tape drive combination (Rtttot), means the sum of the individual transfer rates of all input/output control unit-magnetic tape drive combinations (Rtt) provided with the system which can be sustained simultaneously assuming the configuration of equipment which would maximize this sum of rates;
(c) of the input/output or communication control unit-directly connected data channel combinations means the sum of the individual transfer rates of all data channels provided with the system which can be sustained simultaneously assuming the configuration of equipment which would maximize this sum of rates; For the purpose of this definition— “transfer rate”— (1) of an input/output control unit-drum or disk drive combination (Rtd), is the smaller of either: (i) the input/output control unit transfer rate (Rtc); or (ii) the sum of the individual transfer rates of all independent seek mechanisms (Rts); (Thus: Rtd = min (Rtc; SUM Rts) (1) of an input/output control unit (Rtc): (i) with rotational position sensing (rps), is the product of: (a) the number of independent read/write channels (C); and (b) the greatest maximum bit transfer rate (Rtsmaxmax) of all independent seek mechanisms; or (ii) without rotational position sensing (rps), is two thirds of this product.
(For this purpose— “minimum seek time” (tsmin)— (1) for fixed dead devices, is zero; or (2) for moving head or moving media devices, is the rated time to move from one track to an adjacent track; “latency time” (tl)— the rotational period divided by twice the number of independent read/write heads per track); (1) of an input/output control unit-cartridge-type streamer or magnetic tape drive combination (Rtt) is the product of: (1) the number of independent read/write channels (C); and (2) the greatest maximum bit transfer rate (Rttmaxmax) of all tape drives; (Thus: Rtt = C.Rttmaxmax.) “transfer rate of any data channel” — means the sum of the individual bit transfer rates of all the other peripheral devices, excluding terminal devices, which can be sustained simultaneously on the data channel; “user-accessible microprogrammability” — means the facility allowing a user to insert, modify or replace microprogrammes; “user-accessible programmability” — means the facility allowing a user to insert, modify or replace programmes by means other than: (a) a physical change in wiring or interconnections; or (b) the setting of function controls including entry of parameters; “virtual storage” — means the storage space that may be regarded as addressable main storage by the user of a computer system in which virtual addresses are mapped into real addresses; (The size of virtual storage is limited by the addressing scheme of the computer system and not by the actual number of main storage locations.) “wide are network” — means a data communication system which: (a) allows an arbitrary number of independent data devices to communicate with each other; (b) may include local area networks; and (c) is designed to interconnect geographically dispersed facilities; | ||
IL1566 | Software and technology therefor, the following— NOTE:Software for equipment described in entry IL1565 is dealt with in this entry. Specially designed ODMA software for the use of equipment described in other entries in this Schedule, except entry IL1565 is dealt with in the appropriate entry. (a) Software, the following— | |
(1)software designed or modified for any computer that is part of a computer series designed and produced in any country specified in Part A of Schedule 2 to this Order except application software designed for and limited to— | C | |
(i)accounting, general ledger, inventory control, payroll, accounts receivable, personnel records, wages calculation or invoice control; (ii)data and text manipulation such as sort/merge, text editing, data entry or word processing; (iii)data retrieval from established data files for purposes of report generation or inquiry for the functions described in (i) or (ii) above; or (iv)the non real time processing of pollution sensor data at fixed sites or in civil vehicles for civil environmental monitoring purposes; | ||
(2)software designed or modified for the design, development or production of items specified in this Schedule | C | |
(3)Software designed or modified for— | ||
(i) computers specified in entry IL1565 in this Group | C | |
(ii)one or more of the functions specified in sub-heads (h)(1)(i)(a) to (j) or (m) or excluded by exception (vi) to head (h) of entry IL1565 or for digital computers or related equipment designed or modified for such functions, | C | |
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(4)software for computer-aided design, manufacture, inspection or test of items specified in this Schedule | C | |
(5)software designed or modified to provide certifiable multilevel security or certifiable user-isolation applicable to government-classified material or to applications requiring an equivalent level of security, or software to certify such software | C | |
(b)Categorized software, the following— (1)development systems the following— (i)development system employing high-level language and designed for or containing programmes or databases special to the development or production of: | ||
(a) specially designed software specified elsewhere in this Schedule | C | |
(b) software specified in sub-heads (a)(2) or (3) of this entry, including any subset designed or modified for use as part of such a development system | C | |
(ii)development systems employing high-level language and designed for or containing the software tools and databases for the development or production of software or any subset designed or modified for use as part of a development system such as, or equivalent to: | C | |
(a) Ada Programming Support Environment (APSE): | C | |
(b) any subset of APSE, the following: | ||
(1) Kernel APSE | C | |
(2) Minimal APSE | C | |
(3) Ada compilers specially designed as an integrated subset of APSE or | C | |
(4) any other subset of APSE | C | |
(c) any superset of APSE or | C | |
(d) any derivative of APSE | C | |
(2)programming systems, the following— | ||
(i)cross-hosted compilers and cross-hosted assemblers | C | |
(ii)compilers or interpreters designed or modified for use as part of a development system specified in sub-head (1) above | C | |
(iii)disassemblers, decompilers or other software which convert programmes in objects or assembly language into a higher level language, except simple debugging application software such as mapping, tracing, check-point/restart, breakpoint, dumping and the display of the storage contents or their assembly language equivalent | C | |
(3)diagnostic systems or maintenance systems designed or modified for use as part of a development system specified in sub-head (1) above | C | |
(4)operating systems, the following— | ||
(i)operating systems designed or modified for digital computers or related equipment exceeding any of the following limits: | C | |
(a) central processing unit—main storage combinations: (1) total processing data rate—48 million bit per second; (2) total connected capacity of main storage—25.2 million bit; (3) virtual storage capability—512 MByte; (b) input/output control unit—drum, disk or cartridge-type streamer tape drive combinations: (1) total transfer rate 15 million bit per second; (2) total access rate 320 accesses per second; (3) total connected net capacity—7,000 million bit; (4) maximum bit transfer rate of any drum or disk drive—10.3 million bit per second; (c) input/output control unit—bubble memory combinations:
(d) input/output control unit—magnetic tape drive combinations: (1) total transfer rate—5.2 million bit per second; (2) number of magnetic tape drives—twelve; (3) maximum bit transfer of any magnetic tape drive—2.6 million bit per second; (4) maximum bit packing density—63 bit per mm per track; (5) maximum tape read/write speed—508 cm per second; except operating systems designed or modified for digital computers or related equipment:(a) not exceeding the above limits even when the operating systems can also be used on digital computers or related equipment exceeding the above limits; or (b) belonging to a series containing models exceeding the above limits, if the operating systems are used on digital computers or related equipment of the series which do not exceed the above limits. | ||
(ii)operating systems providing on-line transaction data processing which permit integrated teleprocessing and on-line updating of databases | C | |
(5)application software, the following— | ||
(i)software for cryptologic or cryptanalytic applications | C | |
(ii)artificial intelligence software, including software, normally classified as expert systems, which enables a digital computer to perform functions that are normally associated with human perception and reasoning or learning | C | |
(iii)database management systems which are designed to handle distributed databases for: | ||
(a) fault tolerance by using techniques such as maintenance of duplicated databases | C | |
(b) integrating data at a single site from independent remote databases | C | |
(iv)software designed to adapt software resident on one digital computer for use on another digital computer | C | |
(c)Technology applicable to the development, production or use (namely installation, operation and maintenance) of software, whether or not such software is specified in this Schedule | D | |
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In this entry— “application software” — means software not falling within any of the other defined categories of software that is to say, other than development systems, diagnostic systems, maintenance systems, operating systems or programming systems; “cross-hosted” — means, for programming systems, those which produce programmes for a model of electronic computer different from those used to run the programming system, namely they have code generators for equipment different from the host computer; “database” — means a collection of data, defined for one or more particular applications, which is physically located and maintained in one or more electronic computers or related equipments; “database management systems” — means application software to manager and maintain a database in one or more prescribed logical structures for use by other application software independent of the specific methods used to store or retrieve the database; “development systems” — means software to develop or produce software and software to manage those activities. Examples of a development system are programming support environments, software development environments, and programmer-productivity aids; “diagnostic systems” — means software to isolate or detect software or equipment malfunctions; “digital computer” — means equipment which can, in the form of one or more discrete variables; (a) accept data; (b) store data or instructions in fixed or alterable (writable) storage devices; (c) process data by means of a stored sequence of instructions which is modifiable; and (d) provide output data; For this purpose modification of a stored sequence of instructions include replacement of fixed storage devices, but not physical change in wiring or interconnections. “distributed database” — means a database which is physically located and maintained in part or as a whole in two or more interconnected electronic computers or related equipment, such that inquiries from one location can involve database access in other interconnected electronic computers or related equipment; “high-level language” — means a programming language that does not reflect the structure of any one given electronic computer or that of any one given class of electronic computers; “maintenance systems” — means software to: (a) modify software or its associated documentation in order to correct faults, or for other updating purposes; or (b) maintain equipment; “object code” or “object language”—see “programming system”; “on-line updating” — means processing in which the contents of a database can be amended within a period of time useful to interact with an external request; “operating systems” — means software to control; (a) the operation of a digital computer or of related equipment; or (b) the loading or execution of programmes; “programming systems” — means software to convert a convenient expression of one or more processes (source code or source language) into equipment executable form (object code or object language); “related equipment” — means the following equipment embedded in, incorporated in or associated with electronic computers: (a) equipment for interconnecting analogue computers with digital computers; (b) equipment for interconnecting digital computers; (c) equipment for interfacing electronic computers to local area networks or to wide area networks; (d) communication control units; (e) other input/output (I/O) control units; (f) recording or reproducing equipment referred to entry IL1565 by entry IL1572; (g) displays; or (h) other peripheral equipment; “self-hosted” — means for programming systems, those which produce programmes for the same model of electronic computer as that used to run the programming system, that is they only have code generators for the host computer; “source code” or “source language”—see “programming system”; “standard commercially available” — means for software, that which is: (a) commonly supplied to general purchasers or users of equipment outside any country specified in Schedule 2 of this Order, but not precluding the personalization of certain parameters for individual customers wherever located; (b) designed and produced for civil application; (c) not designed or modified for any digital computer which is part of a digital computer series designed and produced within any country specified in Schedule 2 of this Order; and (d) supplied in a commonly distributed form. Any term used in this entry shall bear the meaning as it has in entry IL1565 in this Group. | ||
IL1567 | Stored-programme-controlled communication switching equipment or systems and technology therefor, the following: specially designed components therefor and specially designed software for the use of these equipment or systems— | |
(a)Communication equipment or systems for data (message) switching, including those for local area networks or for wide area networks | C | |
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(b)Communication equipment or systems for stored-programme-controlled circuit switching | C | |
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(c)Technology applicable to the development, production or use (namely installation, operation and maintenance) of stored-programme-controlled communication switching equipment or systems, even if such equipment or systems are not specified in this entry | D | |
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In this entry— “affiliated equipment” means the following equipment: (a) input/output (I/O) control units; (b) recording or reproducing equipment; (c) displays; or (d) other peripheral equipment; “common channel signalling” — means a signalling method in which a single channel between exchanges conveys, by means of labelled messages, signalling information relating to a multiplicity of circuits or calls and other information such as that used for network management; “communication channel” — means the transmission part or circuit including the terminating transmission and receiving equipment (modems) for transferring digital information between distant locations; “data device” — means equipment capable of transmitting or receiving sequences of digital information; “data (message) switching” — means the technique, including but not limited to store-and-forward or packet switching, for: (a) accepting data groups (including messages, packets, or other digital or telegraphic information groups which are transmitted as a composite whole); (b) storing (buffering) data groups as necessary; (c) processing part or all of the data groups, as necessary, for the purpose of: (1) control (routing, priority, formatting, code conversion, error control, retransmission or journaling); (2) transmission; or (3) multiplexing; and (d) retransmitting (processed) data groups when transmission or receiving facilities are available; “a signalling rate” — means the rate as defined in ITU Recommendation 53-36, taking into account that, for non-binary modulation, baud and bit per second are not equal. Binary digits for coding, checking, and synchronization functions are included; (Note: It is the maximum one-way rate, namely the maximum rate in either transmission or reception.) “digital computer” — means equipment which can, in the form of one or more discrete variables: (a) accept data; (b) store data or instructions in fixed or alterable (writable) storage devices; (c) process data by means of a stored sequence of instructions which is modifiable; and (d) provide output of data; “embedded” in equipment or systems means can feasibly be neither: (a) removed from such equipment or systems; and (b) used for other purposes; “fast select” — means a facility applicable to virtual calls which allows a data terminal equipment to expand the possibility to transmit data in call set-up and clearing packets beyond the basic capabilities of a virtual call; “local area network” — means a data communication system which: (a) allows an arbitrary number of independent data devices to communicate directly with each other; and (b) is confined to a geographical area of moderate size (eg office building, plant, campus, warehouse); “PABX”—see “private automatic branch exchange”; “packet” means a group of binary digits including data and call control signals which is switched as a composite whole. The data, call control signals and possibly error control information are arranged in a specified format; “packet-mode operation” means the transmission of data by means of addressed packets whereby a transmission channel is occupied for the duration of the packet only. The channel is then available for use by packets being transferred between different data terminal equipments. In certain data communication networks the data may be formatted into a packet or divided and then formatted into a number of packets (either by the data terminal equipment or be equipment within the network) for transmission and multiplexing purposes; “private automatic branch exchange” — means an automatic telephone exchange, typically incorporating a position for an attendant, designed to provide access to the public network and serving extensions in an institution such as a business, government, public-service or similar organization; “space-division analogue exchange” — means a space-division exchange, using an analogue (including sampled analogue) signal within the switching matrix. Such exchanges can route digital signals, subject to the bandwidth limitations of the equipment. Thus, such exchanges in public networks commonly pass digital data at rates of several kilobit per second per voice channel of 3,100 Hz as defined in CCITT Recommendation G151; “space-division digital exchange” — means a space-division exchange which accommodate the transmission through the switching matrix of digital signals requiring a bandwidth wider than a voice channel of 3,100 Hz as defined in CCITT Recommendation G151; “space-division exchange” — means an exchange in which different streams of data or voice signals are routed through the switching matrix along physically different paths. The signal being routed through the matrix can be analogue (eg conventional amplitude modulation, pulse amplitude modulation) or digital (eg pulse code modulation, delta modulation or data); “stored programmed controlled circuit switching” — means the technique for establishing, on demand and until released, a direct (space-division switching) or logical (time-division switching) connection between circuits based on switching control information derived from any source or circuit and processed according to the stored programme by one or more electronic computers; “stored programme controlled telegraph circuit switching” — means techniques essentially identical to those for stored-programme-controlled telephone circuit switching, for establishing connections between telegraph (eg telex) circuits based solely on a subscriber type of signalling information; “stored programme controlled telephone circuit switching” — means the technique for establishing within an exchange, on demand and until released, an exclusive direct (space-division switching) or logical (time-division switching) connection between calling and called telephone circuits): (a) based solely on a subscriber-type of telephone signalling information, derived from the calling circuit; and (b) processed according to the stored programmes by one or more electronic computers. The telephone circuits may carry any type of signal, eg telephone or telex, compatable with a voice channel bandwidth of 3,1000 Hz or less; “terminal device” — means a data device which: (a) does not include process control sensing and actuating devices; and (b) is capable of: (1) accepting or producing a physical record; (2) accepting a manual input; or (3) producing a visual output;
“terminal exchange” — means (a) a local exchange used for terminating subscribers' lines; (b) a remote switching unit which performs some functions of a local exchange and operates under a measure of control from the parent exchange; (c) a local exchange, typically 2-wire, used as a switching point for traffic between subordinate local exchanges, which may also provide 4-wire connections to and from the national long-distance network; or (d) an exchange which performs any combination of functions in paragraphs (a), (b) and (c) above; “time-division analogue exchange” — means a time-division exchange in which the parameter, associated with an individual segment of a stream of data or voice signals, varies continuously; “time-division digital exchange” — means a time-division exchange in which the parameter, associated with an individual segment of a stream of data or voice signals, is one of the finite number of digitally coded values; “time-division exchange” — means an exchange in which segments of different streams of data or voice signals are interleaved in time and routed through the switching matrix along a common physical path. The matrix may also include one or more stages of space-division switching. The signal being routed though the matrix can be analogue (eg pulse amplitude modulation) or digital (eg pulse code modulation, delta modulation or data); “total data signalling rate” — means the sum of the individual data signalling rates of all communication channels which: (a) have been provided with the system; and (b) can be sustained simultaneously assuming the configuration of the equipment which would maximize this sum of rates; “transit exchange” — means (a) an exchange, typically 4-wire, used as a switching point for traffic between other exchanges in the national network (historically known as a trunk exchange); (b) a 4-wire exchange serving outgoing, incoming or transit international calls; or (c) an exchange which performs any combination of functions in paragraph (a) or (b) above or those of a terminal exchange; “trunk circuit” — means a circuit with associated equipment terminating in two exchanges; “trunk exchange”—see “transit exchange”; “wide area network” — means a data communication system which: (a) allows an arbitrary number of independent data devices to communicate with each other; (b) may include local area networks; and (c) is designed to interconnect geographically dispersed facilities. | ||
IL1568 | Analogue-to-digital and digital-to-analogue converters, position encoders and transducers, the following: and specially designed components and test equipment therefor— (a) Electrical input type analogue-to-digital converters having any of the following characteristics— | |
(1)a conversion rate of more than 200,000 complete conversions per second at rated accuracy | C | |
(2)an accuracy in excess of 1 part in more than 10,000 of full scale over the specified operating temperature range; | C | |
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(3)a figure of merit of 1 × 108 or more (being the number of complete conversions per second divided by the accuracy). | C | |
(b)Electrical input type digital-to-analogue converters having any of the following characteristics— | ||
(1)a maximum settling time of less than 3 microseconds for voltage output devices and less than 250 ns for current output devices | C | |
(2)an accuracy in excess of 1 part in more than 10,000 of full scale over the specified operating temperature range or | C | |
(3)a figure of merit (being the reciprocal of the product of the maximum settling time in seconds and the accuracy) of more than 2 × 109 for voltage output converters or 1 × 1010 for current output converters | C | |
(c)Solid-state synchro-to-digital or digital-to-synchro converters and resolver-to-digital or digital-to-resolver converters (including multipole resolvers) having a resolution of better than ±1 part in 40,000 for dual speed systems | C | |
(d)Mechanical input type position encoders and transducers, excluding complex servo-follower systems, the following— (1)rotary types having— | ||
(i)a resolution of better than 1 part in 265,000 of full scale or | C | |
(ii)an accuracy better than ±2.5 arc-seconds | C | |
(2)Linear displacement types having a resolution of better than 5 micrometres | C | |
(e)Any equipment specified in heads (a) to (d) above (inclusive) which is designed to operate below 218 K (−55°C) or above 398 K (+ 125°C);. | C | |
In this entry— “settling-time” means the time required for the output to come within one-half bit of the final value when switching between any two levels of the converters. | ||
IL1570 | Thermoelectric materials and devices, the following— | |
(a)Thermoelectric materials with a maximum product of the figure of merit (Z) and the temperature (T in degrees K) in excess of 0.75 | C | |
(b)Junctions and combinations of junctions using any of the materials in head (a) above | C | |
(c)Heat absorbing or electrical power generating devices containing any of the junctions in head (b) above | C | |
(d)Other power generating devices, and specially designed components therefor, which generate in excess of 22 W per kg or of 17.70kW per cubic metre of the device’s basic thermoelectric components | C | |
In this entry the figure of merit (z) equals Seebeck coefficient squared divided by the product of electrical resistivity and thermal conductivity. | ||
IL1571 | Magnetometers, magnetometer systems and related equipment, the following and specially designed components therefor— | |
(a)Magnetometers and magnetometer systems having or capable of having a sensitivity better than ±1.0 gamma (±10−5 oersteds), except magnetometers having sensitivities not better than ±0.1 gamma (±10−6 oersteds) where the reading rate capability is no faster than once per half-second | C | |
(b)Magnetometer test facilities able to control magnetic field values to an accuracy of 1.0 gamma (10−5 oersteds) or less | C | |
(c)Magnetic compensation systems utilizing digital computers, non-magnetic platforms and calibration systems | C | |
In this entry— “sensitivity” means the visually recognized minimum sinusoidal signal in the frequency range of 0.025 Hz to 1.5 Hz when signal-to-noise ratio is higher than 1; “specially designed components” includes non-magnetic pumping lamps and heating coils, cryogenic magnetic componentry, enhanced resonance gases, and any form of dynamic signal-processing gradient compensation provided as part of, or designed for use with, magnetometers specified in this entry. Enhanced resonance gases are gases of isotopes of cesium, rubidium and other metals which exhibit very sharp bands of response to pumping frequencies in optically pumped magnetometers; “magnetometer systems” use magnetic sensors, including those designed to operate at cryogenic temperatures, compensation systems, displays, recorders and associated electronics for signal processing, target parameter detection, gradient compensation and dynamic range control. | ||
IL1572 | Recording or reproducing equipment, recording media and technology, the following: and specially designed components, accessories and software therefor— | |
(a)Recording or reproducing equipment using magnetic techniques | C | |
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(b)Recording or reproducing equipment using laser beams which produce patterns or images directly on the recording surface or reproduce from such surfaces | C | |
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(c)Graphics instruments capable of continuous direct recording of sine waves at frequencies exceeding 20 kHz | C | |
(d)Recording media used in equipment specified in head (a) or (b) above | C | |
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(e)Technology for the development, production or use of recording or reproducing equipment specified in this entry | D | |
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(f)Technology for continuous coating of magnetic tape whether specified or not in this entry, the following— | ||
(1)technology for the formulation of coating material | D | |
(2)technology for the application of coating material to the backing | D | |
(g)Technology for the manufacture of flexible disk recording media whether specified or not in this entry, the following— | ||
(1)technology for the formulation of coating material | D | |
(2)technology for the application of coating material to the flexible backing | D | |
(h)Technology for the development or production of rigid disk recording media described whether specified or not in this entry | D | |
In this entry— “recording media” — means all types and forms of specialised media used in recording techniques, including but not limited to tapes, drums, disks and matrices; “recording density” for direct recorders-means the recording bandwidth divided by the tape speed; “recording density” for FM recorders-means the sum of the carrier frequency and the deviation divided by the tape speed; “packing density” for digital recorders-means the number of bits per second per track divided by the tape speed. | ||
IL1573 | Superconductive electromagnets and solenoids, the following— | |
(a)Those which have a non-uniform distribution of current-carrying windings, measured along the axis of symmetry when specially designed for gyrotron application | C | |
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(b)Those which are specially designed to be fully charged or discharged in less than one minute, provided that (1)the maximum energy delivered during discharge divided by the duration of the discharge is more than 500 kJ per minute; (2)the inner diameter of the current-carrying windings is more than 6 cm; and (3)they are rated for magnetic induction of more than 8 tesla or overall current density in the windings of more than 10,000 A/cm2. | C | |
In this entry “overall current density” means the total number of ampereturns in the coil (ie the sum of the number of turns multiplied by the maximum current carried by each turn) divided by the total cross-section of the coil (comprising the superconducting filaments, the metallic matrix in which the superconducting filaments are embedded, the encapsulating material, any cooling channels, etc.). | ||
IL1574 | Electronic devices, circuits and systems specially designed for or capable of operation at temperatures below 103 K (−170°C) and containing components manufactured from superconducting materials which perform functions such as electromagnetic sensing and amplification, current switching, frequency selection or electromagnetic energy storage at resonant frequencies above 1 MHz, including the following | C |
(a)Josephson-effect devices (b)Dayem bridges (c)Weak-link devices (d)Proximity-effect devices (e)Phase slip devices (f)SNS (super-normal-super) bridges (g)SIS (Superconductor-insulator-superconductor) devices (h)Quasiparticle devices or detectors | ||
In this entry— “Dayem bridges” are superconducting thin film devices with a reduced section area which acts as a conductive weak link. This weak link has a much lower critical current than the areas it joins. Dayem bridges can act as superconducting quantum interference devices (squids); “proximity-effect devices” are superconducting weak link devices whose low critical current is due to an overlay of normal metal rather than a small area. These devices can be used for the same purpose as Dayem bridges. | ||
IL1584 | Cathode-ray oscilloscopes and specially designed components therefor, including associated plug-in units, external amplifiers, pre-amplifiers and sampling devices, having any of the following characteristics— | |
(a)An amplifier or system bandwidth greater than 250 MHz, where the band of frequencies over which the deflection on the cathode-ray tube does not fall below 70.7 per cent of that at maximum point measured with a constant input voltage to the amplifier | C | |
(b)A horizontal sweep speed faster than 1 nanosecond per cm with an accuracy (linearity) better than 2 per cent | C | |
(c)Containing or designed for use with cathode-ray tubes specified in head (c) of the entry IL1541 in Group 3F | C | |
(d)Ruggedized to meet a military specification | C | |
(e)Rated for operation over an ambient temperature range of from below −25°C to above +55°C | C | |
(f)Using sampling techniques for the analysis of recurring phenomena which increases the effective bandwidth of an oscilloscope or time-domain reflectometer to a frequency greater than 4 GHz | C | |
(g)Digital oscilloscopes with sequential sampling of the input signal at an interval of less than 50 nanoseconds | C | |
(h)Technology, other than for maintenance, repair and operation, relating to oscilloscopes not specified in subhead (a) above which— | ||
(1)Use cathode-ray tubes specified in head (b) of entry IL1541 in Group F, or | D | |
(2)Exceed an amplifier bandwidth of 200 MHz | D | |
IL1585 | Photographic equipment and film, the following— (a) High speed cinema recording cameras and equipment the following— | |
(1)cameras in which the film is continuously advanced through-out the recording period, and which are capable of recording at framing rates exceeding 13,150 frames per second, using any camera and film combination from the standard 8mm to the 90mm size inclusive | C | |
(2)special optical or electronic devices which supplement, replace or are interchangeable with standard camera components for the purpose of increasing the number of frames per second | C | |
(b)High speed cameras in which the film does not move, and which are capable of recording at rates exceeding 1,000,000 frames per second for the full framing height of standard 35mm wide photographic film, or at proportionately higher rates for lesser frame heights or at proportionately lower rates for greater frame heights | C | |
(c)Cameras incorporating electron tubes specified in head (a) to the entry IL1555 in Group 3F | C | |
(d)Streak cameras having writing speeds of 10mm/microsecond and above | C | |
(e)Camera shutters with speeds of 50 nanoseconds or less per operation, and specialized parts and accessories therefor | C | |
(f)Film, the following— | ||
(1)having an intensity dynamic range of 1,000,000:1 or more | C | |
(2)having a speed of ASA 10,000 (or its equivalent) or better or | C | |
(3)colour film having a spectral sensitivity extending beyond 7,200 Angstroms or below 2,000 Angstroms | C | |
(g)High speed plates having an intensity dynamic range of 1,000,000:1 or more | C | |
IL1586 | Acoustic wave devices, the following: and specially designed components therefor— (a) Surface acoustic wave and surface skimming (shallow bulk) acoustic wave devices (namely signal-processing devices employing elastic waves in materials, including but not limited to lithium niobate, lithium tantalate, bismuth germanium oxide, silicon, quartz, zinc oxide, aluminium oxide (sapphire), gallium arsenide and alpha-aluminium phosphate (berlinite)), which permit direct processing of signals, (including but not limited to convolvers, correlators (fixed, programmable and memory), oscillators, bandpass filters, delay lines (fixed and tapped) and non-linear devices) having either of the following characteristics— | |
(1)a carrier frequency of greater than 400 MHz | C | |
(2)a carrier frequency of 400 MHz or less (except those specially designed for home electronics and entertainment type applications) having any of the following characteristics— | C | |
(i)a side-lobe rejection of greater than 45 dB; (ii)a product of the maximum delay time and the bandwidth (time in microseconds and bandwidth in MHz) greater than 100; (iii)a dispersive delay of greater than 10 microseconds (iv)an insertion loss of less than 10 dB; | ||
(b)Bulk (volume) acoustic wave devices (i.e. signal processing devices employing elastic waves in the various materials described in head (a) above which permit direct processing of signals at frequencies over 1GHz), including fixed delay lines, non-linear and pulse compression devices | C | |
(c)Acousto-optic signal-processing devices employing an interaction between acoustic waves (bulk wave or surface wave) and light waves which permit the direct processing of signals or images, including but not limited to spectral analysis, correlation and convolution | C | |
In this entry “acoustic wave devices” means signal processing devices employing elastic waves made from acousto-optic materials, including lithium niobate, bismuth germanium oxide, bismuth silicon oxide, gallium arsenide, gallium phosphide, tellurium oxide and lead molybdenate. | ||
IL1587 | Quartz crystals and assemblies thereof, in worked, semi-finished or mounted form, except optical grade quartz crystals, the following— (a) Those for use as filter elements, and having either of the following characteristics— | |
(1)designed for operation over a temperature range wider than 125°C | C | |
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(2)crystals or assemblies of crystals which use the trapped energy phenomenon and which have more than three series or parallel resonances on a single quartz element | C | |
except quartz crystals for use as filter elements which have either of the following characteristics— (i) designed for operation as intermediate frequency filters operating from 10.5 to 11 MHz or from 21 to 22 MHz with 3 dB bandwidths not exceeding 40 kHz; or (ii) designed for operation as single side-band filters operating at from 1 to 10 mHz with 3 dB bandwidths not exceeding 4 kHz. | ||
(b)For use as oscillator elements specially designed for temperature-controlled crystal ovens of for TCXO’s specified in head (c) below, and having an average ageing rate of ±1 × 10−9 per day or better (less) | C | |
(c)Temperature-compensated crystal oscillators (TCXO) having any of the following characteristics— | ||
(1)a stability with respect to temperature of better than ±0.00015 per cent over their operating temperature range | C | |
(2)an operating temperature range wider than 120°C | C | |
(3)capable of reaching to within 1 × 10−7 of normal operating frequency or better in 3 minutes or less from switch-on at an ambient temperature of 25°C | C | |
(4)rated to have an acceleration sensitivity of less than 1 × 10−9 of the operating frequency per g (where g = 981 cm/sec2) over a vibration test frequency range from 10 to 2,000 Hz sine wave and with a maximum level of acceleration not exceeding 20 g | C | |
(5)designed to withstand a shock greater than 10,000 g (where g = 981 cm/sec2) over a period of 1 millisecond | C | |
(6)radiation hardened to better than 10−10 of the operating frequency per gray (1 rad = 10−2 gray) | C | |
For the purpose of this entry “quartz crystals” means quartz crystals having piezoelectric qualities. Ageing rate shall be measured over a longer period than 1 × 10−9 per day at a constant temperature of +60°C or higher +2°C. | ||
IL1588 | Materials composed of crystals having spinel, hexagonal, orthorhombic, or garnet crystal structures, thin film devices, assemblies of the foregoing and devices containing them, the following— | |
(a)Monocrystals of ferrites and garnets, synthetic only | C | |
(b)Single aperture forms having either of the following characteristics— | ||
(1)switching rate of 0.3 microsecond or faster at the minimum field strength required for switching at 40°C, or | C | |
(2)a maximum dimension less than 0.45mm | C | |
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(c)Multi-aperture forms with fewer than 10 apertures having either of the following characteristics— | ||
(1)switching rate of 1 microsecond or faster at the minimum field strength required for switching at 40°C, or | C | |
(2)a maximum dimension less than 2.54 mm | C | |
(d)Multi-aperture forms having 10 or more apertures | C | |
(e)Memory storage or switching devices, the following— | ||
(1)thin film, including plated wire and plated rods | C | |
(2)single crystal or amorphous film magnetic bubble | C | |
(3)moving domain or | C | |
(4)crosstie | C | |
(f)Magnetic ferrite materials having square loop characteristics, suitable for operations above 1 GHz and having all of the following characteristics— | C | |
(1)a saturation magnetization of greater than— (i)0.2 T (2,000 gauss) for lithium-based ferrites (ii)0.3 T (3,000 gauss) for other than lithium-based ferrites; (2)a dielectric loss tangent of less than 0.001 measured at a frequency of 1 GHz or greater; (3)a ratio of the remanent magnetization (Br) to the saturation magnetization (4piMs) equal to or greater than 0.7. | ||
(g)Rod forms having any of the following characteristics— | ||
(1)switching rate of 0.3 microsecond or faster at the minimum field strength required for switching at 40°C | C | |
(2)a minimum dimension less than 0.254 mm | C | |
IL1595 | Gravity meters (gravimeters), gravity gradiometers and specially designed components therefor | C |
except— (a) Gravity meters for land use having either of the following characteristics— (1) static accuracies of not less than 100 microgal; or (2) being of the Worden type; (b) Marine gravimetric systems having either of the following characteristics— (1) static accuracy of 1 milligal or more; or (2) an in-service (operational) accuracy of 1 milligal or more with a time to steady state registration of two minutes or greater under any combination of attendant corrective compensations and motional influences. |
In this Group, the following definitions apply— “Crude forms” means anodes, balls, bars (including notched bars and wire bars), billets, blocks, blooms, brickets, cakes, cathodes, crystals, cubes, dice, grains, granules, ingots, lumps, pellets, pigs, powder, rondelles, shot, slabs, slugs, sponge, sticks. “Semi-fabricated forms” means (whether or not coated, plated, drilled or punched)— (i) in the form of wrought or worked materials fabricated by rolling, drawing, extruding or grinding, (i.e. angles, channels, circles, discs, dust, flakes, foils and leaf, forging, plate, powder, pressings and stampings, ribbons, rings, rods (including bare welding rods, wire rods, and rolled wire). Sections, shapes, sheets, strip, pipe and tubes (including tube rounds, squares, and hollows), drawn or extruded wire); (ii) cast material produced by casting in sand, die, metal, plaster or other types of moulds, including high pressure castings, sintered forms and forms made by powder metallurgy. | ||
IL1601 | Inert gas and vacuum atomizing technology to achieve sphericity and uniform size of particles in metal powders regardless of the type of metal and regardless of whether or not this powder is specified in this Schedule | D |
IL1602 | Pyrolitic deposition technology and specially designed components related thereto the following— | |
(a)Technology for producing pyrolitically derived materials formed on a mould, mandrel or other substrate from precursor gases which decompose in the 1,573 K (1,300°C) to 3,173 K (2,900°C) temperature range at pressures of 133.3 Pa to 19.995 kPa (including the composition of precursor gases, flow rates, and process control schedules and parameters) | D | |
(b)Specially nozzles for the above processes | C | |
IL1631 | Magnetic metals of all types and of whatever form having any of the following characteristics— | |
(a)Initial permeability: 0.15 henry/m (120,000 gauss/oersteds) or more calculated at induction 0 and magnetic field strength 0 or the equivalent. | C | |
(a)have a thickness between 0.076 mm and 2.54 mm; and (b)are fully annealed. | ||
(b)Remanence: 98.5% or over of maximum magnetic flux for materials having magnetic permeability | C | |
(c)Capable of an energy product of 200,000 J/m3 (25 × 106 gauss-oersteds) or more | C | |
(d)Grain-oriented iron alloy sheets or strips of a thickness of 0.1mm or less | C | |
(e)Magnetostrictive alloy having either of the following characteristics— | ||
(1)saturation magnetostriction more than 5 × 10−4 or | C | |
(2)magnetomechanical coupling factor (k) more than 0.8 | C | |
(f)Amorphous alloy strips having both of the following characteristics | C | |
(1)composition having a minimum 75 weight per cent of one or more of the elements iron, cobalt and nickel; and (2)saturation magnetic induction (Bs) of 1.6 tesla or more, and either— (i)strip thickness of 0.020 mm or less; or (ii)electrical resistivity of 2 × 10−4 ohm —cm or more. | ||
IL1635 | Steel alloys in crude or semi-fabricated form, which contain all of the following major alloy elements in the amounts listed by weight— | C |
(a)4.5 to 5.95% nickel; (b)0.3 to 1.0% chromium; (c)0.2 to 0.75% molybdenum; (d)0.04 to 0.15% vanadium; (e)Less than 0.19% carbon. | ||
IL1648 | Cobalt-based alloys (i.e. containing a higher percentage by weight of cobalt than of any other element), the following— | |
(a)Those which are dispersion strengthened and contain more than 1% of oxides of thorium, aluminium, yttrium zirconiun or cerium | C | |
(b)Those containing 0.05% or more of scandium, yttrium, didymium, cerium, lanthanum, neodymium, or praseodymium | C | |
IL1661 | Nickel-based alloys (i.e. containing a higher percentage by weight of nickel than of any other element), the following— | |
(a)Those which are dispersion strengthened and contain more than 1% of oxides of thorium, aluminium, yttrium, zirconium, cerium, or lanthanum | C | |
(b)Those containing 0.05% or more scandium, yttrium, didymium, cerium, lanthanum, neodymium, or praseodymium | C | |
(c)Those containing 10% or more by weight of aluminium in the form of nickel aluminide, in crude or semi-fabricated forms, and scrap thereof | C | |
IL1672 | Titanium-based alloys containing 12% or more by weight of aluminium in the forms of titanium aluminide, in crude or semi-fabricated forms, and scrap thereof | C |
IL1675 | Superconductive materials of all types and processed conductors containing at least one superconducting constituent, which are designed for operation at temperatures below 103 K (−170°C) | C |
except Processed conductors having superconducting filaments embedded in a copper or copper-based mixture matrix and either of the following sets of characteristics— either: (a) (i) the superconducting constituent, when evaluated in sample lengths of less than one metre, does not remain in the superconducting state when exposed to a magnetic induction in excess of 12T at a temperature of 4.2 K (−268°C); (ii) the superconducting constituent or filament has a cross-section area greater than 3.14 × 10−4 mm2 (20-micrometre diameter for circular filaments); and (iii) the conductor is either non-coated or insulated with varnish, glass fibre, polyamide or polyimide; or (b) (i) containing niobium-titanium wire; (ii) having a filament cross-sectional area of more than 9.5 × 10−5 mm2 (11-micrometre diameter for circular filaments) or greater; and (iii) a mass of each processed conductor including the matric not exceeding 10 kg. | ||
(Note: Superconductive materials are metals, alloys and compounds which lose electrical resistance near absolute zero of temperature, i.e. they have infinite electrical conductivity and can carry very large electrical currents without Joule heating. The superconducting state for each material is individually characterised by a critical temperature, a critical magnetic field (which is a function of temperature) and a critical current density (which is a function of both magnetic field and temperature). Materials remain in the superconducting state provided temperature, magnetic field and current density are all less than the critical values.) | ||
PL7001 | Aluminium alloys, the following: tubes, bars or forged forms having an outside diameter greater than 75mm and less than 400mm and a tensile strength of 460 × 106 N/m2 or greater | W |
PL7002 | Maraging steel alloy capable of ultimate tensile strength of 2.050 × 109 N/m2 or greater, whether or not finally heat treated, in crude, semi-fabricated or fabricated form | W |
PL7012 | Tantalum (or Tantalum lined) crucibles for casting actinide metals | W |
IL1702 | Hydraulic fluids which contain as the principal ingredient petroleum (mineral) oils, synthetic hydrocarbon oils, non-fluorinated silicones or fluorocarbons and which have all of the following characteristics— | C |
(a)a flash point of greater than 477 K (204°C); (b)a pour point of 239 K (−34°C) or lower; (c)a viscosity index of 75 or greater; and (d)thermally stable at 616 K (343°C). | ||
Notes “Flash point” is determined using the “Cleveland Open Cup Method” as shown in ASTM D—92 or national equivalents.
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IL1715 | Boron, the following— | |
(a)Boron element (metal) in all forms | C | |
(b)Boron compounds, mixtures, and composites containing 5% or more of boron (except pharmaceutical preparations packaged for retail sale), the following— | ||
(1)non-ceramic boron-nitrogen compounds (e.g. borazanes, borazines and boropyrazoyls) | C | |
(2)boron hydrides (e.g. boranes), except sodium boron hydride, potassium boron hydride, monoborane, diborane and triborane | C | |
(3)organoboron compounds, including metallo-organoboron compounds | C | |
PL7006 | Boron compounds and mixtures in which the boron—10 isotope comprises more than 20% of the total boron content | W |
IL1733 | Base materials, non-composite ceramic materials, ceramic-ceramic composite materials and precursor materials for the manufacture of high temperature fine technical ceramic products, the following— | |
(a)Base materials having all the following characteristics— | C | |
(1)any of the following compositions— (i)single or complex oxides of zirconium, and complex oxides of silicon and aluminium; (ii)single or complex borides of zirconium; (iii)single or complex carbides of silicon or boron; or (iv)single or complex nitrides of silicon, boron, aluminium, or zirconium; (2)total metallic impurities, excluding intentional additions, of less than— (i)1,000 ppm for single oxides or carbides; (ii)5,000 ppm for complex compounds, single borides or single nitrides; and (3)average particle size less than or equal to 5 micrometers and no more than 10% of the particles larger than 10 micrometers except for zirconia where these limits are 1 micrometre and 5 micrometres respectively. | ||
(b)Non-composite ceramic materials, in crude or semi-fabricated form, composed of any material specified in head (a) above, except abrasives | C | |
(c)Ceramic-ceramic composite materials containing finely dispersed particles or phases or any non-metallic fibrous or whisker-like materials, whether externally introduced or grown in situ during processing, where the following materials form the host matrix— | ||
(1)all oxides, including glasses | C | |
(2)carbides or nitrides of silicon or boron | C | |
(3)borides or nitrides of zirconium or boroides, carbides or nitrides of hafnium | C | |
(4)any combination of the materials specified in subheads (c)(1) to (3) above | C | |
except manufactured products or components not specified elsewhere in this Schedule (d) Precursor materials, (i.e., special-purpose polymeric or metallo-organic materials for producing any base or phases of the materials specified in heads (b) or (c) above), the following— | ||
(1)polycarbosilanes and polydiorganosilanes (for producing silicon carbide) | C | |
(2)polysilazanes (for producing silicon nitride) | C | |
(3)polycarbosilazines for producing ceramics with silicon, carbon and nitrogen components | C | |
In this entry— (a) a “matrix” means a substantially continuous phase that fills the space between particles, whiskers or fibres; (b) a “composite” means a matrix and an additional phase or additional phases consisting of particles, whiskers, fibres or any combination thereof, present for a specific purpose or purposes. | ||
IL1734 | Low density rigid, carbon-bonded, fibrous or non-fibrous carbon thermal insulating materials having all of the following characteristics— | C |
(a)a capability of operating at temperatures greater than 2273 K (2000°C); (b)a density greater than 100 kg/m3 and less than 300 kg/m3; (c)a compressive strength greater than 0.1Mpa and less than 1.0 Mpa; (d)a flexural strength greater than 1.0 Mpa; and (e)a carbon content of greater than 99.9% of total solids. | ||
IL1746 | Polymeric substances, the following: and manufactures thereof— | |
(a)Polyimides (including maleimides) | C | |
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(b)Polybenzimidazoles | C | |
(c)Aromatic polyamides, including heterocyclic aromatic polyamides characterised as aromatic due to the presence of a benzene ring | C | |
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(d)Polyabenzothiazoles | C | |
(e)Polyoxadiazoles | C | |
(f)Polyphosphazenes (Polyphosphonitriles) | C | |
(g)Polystyrylpyridine (PSP) | C | |
(h)Thermopolastic liquid crystal copolyesters, the following— | ||
(1)ethylene copolyesters of terephthalic acid and parahydroxy-benzoic acid | C | |
| ||
(2)phenylene or biphenylene copolyesters of terephthalic acid and parahydroxybenzoic acid | C | |
(i)Polybenzoxozoles | C | |
(j)Aromatic polyether ether ketones (PEEK) | C | |
(k)Butadiene polymers, the following— | ||
(1)carboxyl terminated polybutadienes (CTPB); hydroxyl terminated polybutadienes (HTPB); thiol terminated polybutadienes (TTPB); vinyl terminated polybutadiene (VTPB) cyclised 1-2 polybutadiene | C | |
(2)mouldable copolymers of butadiene and acrylic acids | C | |
(3)mouldable terpolymers of butadiene, acrylonitrile, acrylic acid or any of the homologues of acrylic acid | C | |
(l)Carboxyl terminated polyisoprene | C | |
There shall be excluded from this entry manufactured articles where the value of the polymeric component together with materials specified elsewhere in this Schedule is less than 50% of the total. In this entry— “tenacity” means tensile stress expressed as force per unit linear density of the unstrained specimen, namely, Newton per tex; “fibre modulus” (secant modulus) means the ratio of change in stress to change in strain between two points on a stress-strain curve, particularly the points of zero stress and breaking stress, and is express in Newton per tex and tex is the number of grams in 1,000 metres of material. | ||
IL1749 | Polycarbonate sheet of 1.5 mm to 25.4 mm thickness, having no major defects and having all of the following optical characteristics— | C |
(a)less than 2% haze as determined by method ASTM D1003; (b)an angular deviation, as determined by method ASTM D637, as follows— (1)not more than 12 minutes at any location more than 25.4 mm from the edge of the sheet for sheet thickness of 1.5 mm to 9.5 mm; or (2)not more than 20 minutes at any location more than 25.4 mm from the edge of the sheet for sheet thickness over 9.5 mm to 25.4 mm; (c)total number of minor optical defects (excluding those within 25.4 mm of the sheet edge) as follows— (1)not exceeding 1 per 0.368 m2 for sheet which is 12.7 mm or less in thickness; or (2)not exceeding 2 per 0.092 m2 for sheet over 12.7 mm in thickness. | ||
In this entry— “major defects” means variations in the material which cause angular deviations either side of the undeviated position in excess of those listed in (b) above. “Minor defects” include any embedded particles, bubbles, scratches or internal inhomogeneity with a major dimension of at least 0.250 mm, and those localized imperfections which cause a variation in angular deviation of more than 5 minutes within a distance of not more than 508 mm on the screen when tested by method ASTM D637. | ||
IL1754 | Fluorinated compounds, materials and manufactures thereof, the following— (a) Compounds, the following— | |
(1)dibromotetrafluoroethane, except when having a purity of 99.8% or less and containing at least 25 particles, of 200 micrometres or larger in size per 100 ml | C | |
(2)perfluoroalkylamines | C | |
(b)Polymeric materials and intermediates, unprocessed, the following— | ||
(1)polychlorotrifluoroethylene, oily and waxy modifications only | C | |
| ||
(2)fluoroelastomeric compounds composed of at least 95% of a combination of two or more of the following monomers: tetrafluoroethylene, chlorotrifluoroethylene vinylidene fluoride, hexafluoropropylene, bromotrifluoroethylene, iodotrifluoroethylene, perfluoromethylvingylether and perfluoropro-poxypropylvinylether | C | |
(3)polybromotrifluoroethylene | C | |
(4)copolymers of vinylidene fluoride having 75% or more beta crystalline structure without stretching | C | |
(5)fluorinated silicone rubber and intermediates for their production containing 10% or more of combined fluorine | C | |
(c)Manufactures, the following— | ||
(1)greases, lubricants and dielectric, damping and flotation fluids made of at least 85% of any of the materials specified in head (a) or (b) above | C | |
(2)electric wire and cable coated with or insulated with any of the materials specified in sub head (b)(2) above, except oil well logging cable | C | |
(3)seals, gaskets, rods, sheets, sealants or fuel bladders made of more than 50% of any of the materials specified in subhead (b)(2) above and specially designed for aerospace and aircraft use | C | |
(4)piezoelectric polymers and copolymers made from vinylidene fluoride having both of the following characteristics— | C | |
(i)in sheet or film form; and (ii)with a thickness of more than 200 micrometres. | ||
IL1755 | Silicone fluids and greases, the following— | |
(a)Fluorinated silicone fluids, except those with kinematic viscosity of 5,000 centistokes or higher measured at 25°C | C | |
(b)Silicone and fluorinated silicone lubricating greases capable of operating at temperature of 478 K (205°C) or higher and having a drop point (method of test being ASTM D2265) of 493 K (220°C) or higher | C | |
IL1757 | Compounds and materials, the following— | |
(a)Monocrystalline silicon | C | |
| ||
(b)Gallium of a purity equal to or greater than 99.9999% and gallium III/V compounds of any purity level | C | |
| ||
(c)Indium of a purity greater than 99.9995% and III-V indium compounds containing more than 1% indium | C | |
(d)Hetero-epitaxial materials consisting of a monocrystalline insulating substrate epitaxially layered with silicon, compounds of gallium or compounds of indium | C | |
(e)Elemental Cd and Te of purity levels equal to or more than 99.9995% CdTe compounds of a purity level equal to or more than 99.99% and single crystals of CdTe of any purity level | C | |
(f)Polycrystalline silicon, (except polycrystalline silicon having a purity not better than 99.99% and containing at least 0.5 part in 106 each of iron, carbon, boron and phosphorus, plus other impurities) | C | |
(g)SiCl2H2 with a purity level of 97.0 per cent or better and compounds having a purity level based upon the amount of the primary constituents of 99.5% or better and used in the synthesis of the materials specified in head (f) above, or used as the silicon source in the deposition of epitaxial layers of silicon, silicon oxide or silicon nitride | C | |
(h)Single crystals sapphire substrates | C | |
(i)B2O3 with a purity of 99.9% or greater, containing 1,000 parts per million of H2O or less, in powder or cast form | C | |
(j)Monocrystalline germanium with a resistivity greater than 100 ohm cm | C | |
(k)Resist, materials, the following— | ||
(1)negative resists whose spectral response has been adjusted for use below 350 nanometres | C | |
(2)all positive resists | C | |
(3)all resists for use with E-beams or ion beams with a sensitivity of 100 microcoulomb/cm2 or better | C | |
(4)all resists for use with X-rays with a sensitivity of 500 millijoules/cm2 or better | C | |
(5)all resists specified or optimized for dry development | C | |
(l)Single-crystal forms of bismuth germanium oxide having piezoelectric properties and single-crystal forms of lithium niobate, of lithium tantalate and of aluminium phosphate | C | |
(m)Metal-organic or hydride compounds of beryllium and magnesium (Group IIA), zinc, cadmium and mercury (Group IIB), aluminium, gallium and indium (Group IIIA), phosphorus, arsenic and antimony (Group VA) and selenium and tellurium (Group VIA) having a purity (metal basis) of 99.999% or better | C | |
IL1759 | Syntactic foam for under water use formulated for applications at depths greater than 1000 metres or with a density of 0.561g/cm3 (specific gravity 0.561) or less | C |
In this entry— “syntactic foam” consists of hollow plastic or glass spheres less than 100 micrometers in diameter uniformly embedded in a resin matrix | ||
IL1760 | Tantalates and niobates having a purity of 99% or better except fluorotantalates | C |
IL1763 | Fibrous and filamentary materials which may be used in organic matrix, metallic matrix or carbon matrix composite structures or laminates, and such composite structures and laminates and technology therefor, the following and specially ODMA software therefor— | |
(a)Fibrous and filamentary materials with specific modulus greater than 3.18 × 106m and specific tensile strength greater than 7.62 × 104m except silicate glass fibres | C | |
(b)Fibrous and filamentary materials having both of the following characteristics— | C | |
(1)specific modulus greater than 2.54 × 106m and; (2)melting or sublimation point higher than 1,992 K (1.649°C) in an inert environment; | ||
| ||
There shall be excluded from heads (a) and (b) carbon fibres having both of the following characteristics: (a) specific modulus less than 11.43 × 106m and (b) specific tensile strength less than 10.16 × 104m. | ||
(c)Resin or pitch-impregnated fibres (prepregs), metal or carbon-coated fibres (preforms) or carbon fibre preforms made with materials specified in head (a) or (b) above | C | |
(d)Composite structures, laminates and manufactures thereof for products and components made either with an organic matrix, a carbon matrix or a metal matrix utilising materials specified in head (a), (b) or (c) above | C | |
| ||
(e)Technology for fibrous and filamentary materials and for composite structures and laminates, the following— | ||
(1)technology which is unique to the spinning and subsequent treatment of precursor materials into fibres specially designed for processing into carbon filamentary materials specified in head (a) or (b) above | D | |
(2)technology for the production of fibrous and filamentary materials specified in head (a) or (b) above | D | |
(3)technology for the production of prepregs specified in head (c) above using pressure impregnation or chemical vapour deposition, and for preforms specified in head (c) above using vacuum or pressure impregnation of chemical vapour deposition | D | |
(4)technology for the development and production of composite structures, laminates and manufactures specified in head (d) above | D | |
(5)technology for rigidisation and densification processes specially designed for the manufacture of carbon-carbon composite materials, the following— | ||
(i)for impregnation, infiltration or deposition into carbon fibre preforms | D | |
(ii)for carbonisation | D | |
(iii)for graphitisation | D | |
(iv)for hot isostatic pressing | D | |
In this entry— the term “fibrous and filamentary materials” includes: (a) continuous monofilaments; (b) continuous yarns and rovings; (c) tapes, fabrics, random mats and braids; (d) chopped fibres, staple fibres and coherent fibre blankets; (e) whiskers, either monocrystalline or polycrystalline, of any length; “specific modulus” is Young’s modulus in pascals, equivalent to N/m2 divided by specific weight in N/m3 measured at a temperature of (296 ± 2) K (23 ± 2) C) and a relative humidity of (50 ± 5)%; “specific tensile” strength is ultimate tensile strength in pascals, equivalent to N/m2 divided by specific weight in N/m3 measured at a temperature of (296 ± 2) K ((23 ± 2) C) and a relative humidity of (50 ± 5)%; “carbon fibre preform” means an ordered arrangement of uncoated or coated fibres intended to constitute a framework of a part before the matrix is introduced to form a composite; “matrix” means a substantially continuous phase that fills the space between particles, whiskers or fibres; “composite” means a matrix and an additional phase or additional phases consisting of particles, whiskers, fibres or any combination thereof, present for a specific purpose or purposes. | ||
IL1767 | Preforms of glass or of any other material specially designed for the fabrication of optical fibres specified in heads (b) or (c) in entry IL1526 in Group 3F relating to cable and wire | C |
In this entry “optical fibre preforms” means bars, ingots, or rods of glass, plastic or other materials which have been specially processed for use in fabricating optical fibres. | ||
IL1781 | Synthetic lubicating oils and greases which are or which contain, as their principal ingredient, the following— | |
(a)Monomeric and polymeric forms of perfluorotriazines, perfluoroaromatic ethers and esters, and perfluoroaliphatic ethers and esters | C | |
(b)Polyphenyl ethers or thio ethers containing more than three phenyl or alkyl phenyl groups | C | |
PL7007 | Chemicals, the following— | |
(a)Chloroethanl | W, L, I, Y | |
(b)Dimethylamine | W, L, I, Y | |
(c)Dimethylamine hydrochloride | W, L, I, Y | |
(d)Dimethyl methylphosphate | W, L, I, Y | |
(e)Dimethylphosphite | W, L, I, Y | |
(f)Hydrogen fluoride | L, I, Y | |
(g)Methyl phosphonyl dichloride | W, L, I, Y | |
(h)Methyl phosphonyl difluoride | W, L, I, Y | |
(i)Phosphorus oxychloride | W, L, I, Y | |
(j)Phosphorus trichloride | W, L, I, Y | |
(k)Potassium fluoride | W, L, I, Y | |
(l)Thiodiglycol | W, L, I, Y | |
(m)Thionyl chloride | W, L, I, Y | |
(n)Trimethylphosphite | W, L, I, Y | |
(o)Tris-ethanolamine | W, L, I, Y |
Additives, explosives | PL 5009 |
Airborne equipment | ML 10 b |
Ammunition | ML 3 |
Amphibious vehicles | ML 6 |
Anti-riot shields and devices | PL 5001 |
Armoured plate | ML 13 a |
Armoured railway trains | ML 6 |
Armoured vehicles | ML 6 |
Biocatalysts | ML 25 |
Biological systems | ML 25 |
Body armour | ML 13 d |
Bombs | ML 4 a |
Breathing equipment | PL 5012 |
Bromobenzyl cyanide | ML 7 |
Cameras, reconnaissance | ML 12 |
Cannon | ML 2 a |
Carbines | ML 1 a |
Castings | ML 16 |
Chemicals | ML 7 |
2-Chlorotriethylamine | ML 7 |
Chlorovinyldichloroarsine and dichlorodivinylchloroarsine (Lewisite) | ML 7 |
Compasses | ML 9 |
Crash helmets | PL 5012 |
Cryogenic equipment | ML 20 |
Demolition charges | ML 4 a |
Detection devices, underwater | PL 5010 |
Depth charges | ML 4 a |
Dibenzoxazepine | ML 7 |
Dibromodiemthyl ether | ML 7 |
Dichlorodiethyl sulphide | ML 7 |
Dichlorodimethyl ether | ML 7 |
2:2'-Dichlorotriethylamine | ML 7 |
Diphenylaminechloroarsine | ML 7 |
Diphenylchloroarsine | ML 7 |
Diphenylcyanoarsine | ML 7 |
Directed energy weapons | ML 23 |
Diving apparatus | ML 17 |
Electronic equipment, military | ML 11 |
Electrified riot control vehicles | PL 5001 |
Environmental chambers | ML 19 |
Ethyl NN-dimethylphosphoramidocyanidate | ML 7 |
Ethyldibromoarsine | ML 7 |
Ethyldichloroarsine | ML 7 |
Explosives | PL 5009 |
Fire bombs | ML 4 a |
Fire control equipment | ML 5 |
Flame throwers | ML 2 |
Fuels | PL 5009 |
Fuel thickeners | ML 4 c |
Gas projectors | ML 2 b |
Grenades | ML 4 a |
Guns | ML 2 a |
Gun-carriers | ML 6 |
Half-tracks | ML 6 |
Helmets | ML 13 c |
Howitzers | ML 2 a |
Image intensifiers | ML 15 |
Imaging equipment | ML 12 |
Incendiary bombs | ML 4 a |
Infrared equipment | ML 12 and ML 15 |
Large calibre armaments | ML 2 |
Lasers | ML 23 |
Leg irons | PL 5001 |
Lewisite | ML 7 |
Machine guns | ML 1 a |
Machine pistols | ML 1 a |
Methyldichloroarsine | ML 7 |
Microwave weapon systems | ML 23 |
Military aircraft | ML 10 a |
Military helicopters | ML 10 a |
Mines | ML 4 a |
Missiles, guided or unguided | ML 4 a |
Mobile repair shops | ML 6 |
MonoChloromethylchloroformate | ML 7 |
Mortars | ML 2 a |
Mustard gas | ML 7 |
Naval equipment | ML 9 |
oChlorobenzylidenealononitrile (oChlorobenzalmalononitrile) | ML 7 |
Parachutes | PL 5012 |
Particle beam systems | ML 23 |
Phenylcarbylamine chloride (phenylaminocarbonyl chloride) | ML 7 |
Phenylacyl chloride (w-Chloroacetophenone) | ML 7 |
Phenyldibromarsine | ML 7 |
Phenyldichloroarsine | ML 7 |
Photographic equipment | ML 12 |
Pinacolyl methylphosphonofluoridate | ML 7 |
Pistols | ML 1 a |
Precursors, explosives | PL 5009 |
Pressure suits | PL 5012 |
Production equipment, military | ML 18 |
Production technology, military | ML 18 |
Projectile launchers | ML 2 a |
Propellants | PL 5009 |
IsoPropyl methylphosphonofluoridate | ML 7 |
Pyrotechnics | PL 5009 |
Pyrotechnic flare signals | ML 4 a |
Pyrotechnic projectors | ML 2 b |
Range finders | ML 5 |
Recoilless rifles | ML 2 a |
Recovery vehicles | ML 6 |
Refuelling | ML 10 c |
Revolvers | ML 1 a |
Rifles | ML 1 a |
Riot control equipment | PL 5001 |
Riot control vehicles, electrified | PL 5001 |
Rockets | ML 4 a |
Rocket launchers | ML 2 a |
Searchlights | ML 17 c |
Self-propelled guns | ML 6 |
Shackles | PL 5001 |
Shutters, electronically triggered | ML 22 |
Silencers, firearm | ML 17 b |
Smoke canisters | ML 4 a |
Smoke grenades | ML 4 a |
Smoke projectors | ML 2 b |
Small arms | ML 1 |
Smooth bore weapons | ML 1 |
Software | ML 24 |
Stabilisers, explosives | PL 5009 |
Submarines | ML 9 |
Submarine nets | ML 9 |
Superconductive equipment | ML 20 |
Surface vessels | ML 9 |
Tanks | ML 6 |
Tank destroyers | ML 2 a |
Tear gas | ML 7 |
Telescopic sights | PL 5002 |
Thermal imaging equipment | ML 15 |
Torpedoes | ML 4 a |
Torpedo nets | ML 9 |
Toxicological agents | ML 7 |
Trailings, ammunition | ML 6 |
Training equipment | ML 14 |
2:2':2" Trichlorotriethylamine | ML 7 |
Underwater swimming apparatus | ML 17 a |
Underwater vessels | ML 9 |
Vehicles | ML 6 |
Vessels | ML 9 |
Water cannon | PL 5001 |
Beryllium (metal and compounds) | A 9 |
Calcium | PL 6005 |
Chlorine trifluoride | PL 6003 |
Deuterated paraffins | A 3 |
Deuterium | A 3 |
Deuterium production plant | B 5 |
Electrolytic cells (fluorine production) | C 3 |
Fabrication plant, fuel element | B 4 |
Fissile materials | A 1 |
Fluorine | PL 6002 |
Fluorine production | C 3 |
Frequency changers, gas centrifuge | C 6 |
Fuel element fabrication plant | B 4 |
Gas centrifuges, manufacture | PL 6007 |
Graphite, nuclear-grade | PL 6011 |
Hafnium (metal, alloys and compounds) | A 8 |
Heat source materials | A 13 |
Heavy water | A 3 |
Heavy water production plant | B 5 |
Isotope separation equipment, lithium | C 4 |
Isotope separation, special materials | A 14 |
Isotopic separation plants | B 1 |
Lithium, process control equipment | PL 6010 |
Lithium (metal, hybrides and alloys) | A 7 |
Lithium isotope separation | C 4 |
Magnesium alloys | PL 6006 |
Mass spectrometers | PL 6008 |
Materials for isotope separation | A 14 |
Military nuclear reactors | C 2 |
Neutron generator systems | C 1 |
Nickel (powder and metal) | A 5 |
Nuclear reactors | B 3 |
Plants, reprocessing | B 2 |
Plants, separation | B 1 |
Plutonium | A 1 and A 13 |
Power generating systems, nuclear reactor | C 2 |
Pressure gauges | PL 6009 |
Production equipment, tritium | C 5 |
Production plant, heavy water | B 5 |
Production plant, uranium hexafluoride | B 6 |
Propulsion equipment, nuclear | C 2 |
Reaction generator systems | C 1 |
Reactors, nuclear | B 3 |
Reprocessing plants | B 2 |
Thorium | PL 6001 |
Tritium (compounds, mixtures and products) | A 12 |
Tritium production equipment | C 5 |
Uranium hexafluoride production plant | B 6 |
Uranium, natural or depleted | A 1 and A 2 |
Zirconium metal and alloys | A 4 |
A to D converters-analogue to digital | IL 1564 and IL 1568 |
ADC | IL 1564 d and IL 1568 |
ATE | IL 1355 b 7 |
Absorbers, electromagnetic waves | IL 1561 |
Absorbers, hair type | IL 1561 |
Absorbers, non-planar and planar | IL 1561 |
Absorbers, paint | IL 1561 |
Accelerometer manufacture | IL 1385 |
Accelerometers | IL 1485 |
Acoustic emission | IL 1365 |
Acoustic positioning systems | IL 1510 |
Acoustic test equipment | IL 1362 b |
Acoustic wave devices | IL 1586 |
Aero-engine design | IL 1361 |
Aero-engines | IL 1460 |
Airborne communication equipment | IL 1501 a and IL 1531 c |
Aircraft | IL 1460 and PL 7010 |
Aircraft components | PL 7011 |
Aircraft manufacture or inspection | IL 1081 |
Airframe structure manufacture | IL 1081 |
Align and expose equipment | IL 1355 b 2 |
Altimeters | IL 1501 b |
Aluminides of titanium | IL 1672 |
Aluminium alloys | PL 7001 |
Amplifiers | IL 1521 and IL 1564 d |
Analogue computers | IL 1565 a, b, c, e |
Analogue divider integrated circuits | IL 1564 d |
Analogue exchanges | IL 1567 b |
Analogue multiplier integrated circuits | IL 1564 d |
Analogue tape recorders | IL 1572 a |
Analogue to digital converters | IL 1564 d and IL 1568 |
Analogue transmission equipment | IL 1519 |
Angular measuring machines | IL 1532 c |
Angular measuring systems | IL 1532 |
Annealing furnaces | IL 1355 b 1 |
Antenna | IL 1537 h |
Anti-TR) tubes | IL 1537 e |
Application software | IL 1566 a, b |
Arc furnaces | IL 1203 |
Aromatic polyamides | IL 1746 c |
Aromatic polyether ether ketones | IL 1746 j |
Artificial intelligence | IL 1566 b |
Assemblies, electronic | IL 1564 |
Assemblies with mounted components | IL 1564 c |
Audio amplifiers | IL 1564 d |
Automatic pilots | IL 1485 |
Automatic test equipment | IL 1355 b 7 |
Automatically controlled industrial systems | IL 1399 |
Bare board testers | IL 1354 e |
Barrell etchers | IL 1355 b 1 |
Base materials | IL 1733 |
Batteries | IL 1205 a |
Bearings, anti-friction | IL 1371 |
Bipolar monolithic integrated circuits | IL 1564 d |
Bipolar random access memories | IL 1564 d |
Bit-slice microprocessor microcircuits | IL 1564 d |
Bonders | IL 1355 |
Boric oxide | IL 1757 i |
Boring mills | IL 1091 b |
Boron | IL 1715, PL 7006 |
Broadband amplifiers | IL 1521 |
Bubble memories | IL 1588 e |
Bubble memory processing equipment | IL 1355 b 1 |
Bulk acoustic wave devices | IL 1586 |
Burst transmitters | PL 7003 |
CCD-Change coupled device | IL 1564 d |
CMOS monolithic integrated circuits | IL 1564 d |
CNC-Computer numerical control | IL 1091 a |
CRT-Cathode ray tube | IL 1541 |
CVD-Chemical vapour deposition | IL 1355, IL 1388 and IL 1389 |
Cable | IL 1526 |
Cable manufacturing equipment | IL 1353 |
Cadmium | IL 1757 e |
Calibrating equipment | IL 1529 |
Cameras, underwater | IL 1417 e |
Capacitors | IL 1560 |
Carboxyl terminated polyisoprene | IL 1746 1 |
Cathode-ray oscilloscopes | IL 1584 |
Cathode-ray tube displays | IL 1565 h |
Cathode-ray tubes | IL 1541 |
Cathodes | IL 1558 |
Cathodic arc deposition | IL 1389 and IL 1388 |
Ceramic base materials | IL 1733 |
Ceramic packages for integrated circuits | IL 1564 b |
Ceramic-ceramic composite materials | IL 1733 |
Ceramic-metal structured hydrogen thyratrons | IL 1559 |
Channel estimators | IL 1520 b |
Characterisation equipment | IL 1353 |
Charge-coupled devices | IL 1564 d |
Chemical vapour deposition (CVD) | IL 1355 b 1 and IL 1388 a |
Chemicals | PL 7007 |
Chloroethanol | PL 7007 |
Cipher equipment | IL 1527 |
Civil aviation communication networks | IL 1567 b |
Clean air filters | IL 1355 b 8 |
Clock drivers | IL 1564 d |
Coating equipment for magnetic tape | IL 1356 |
Coating technology | IL 1389 |
Coaxial cable | IL 1526 d |
Cobalt-based alloys | IL 1648 |
Cold cathode tubes | IL 1542 |
Colombium compounds | IL 1760 |
Combustion system testing | IL 1361 |
Communication equipment | IL 1519 and IL 1567 |
Comparators | IL 1564 d |
Compass manufacture | IL 1385 |
Compasses | IL 1485 |
Compilers | IL 1529 b |
Components, electronic | IL 1564 |
Compound semiconductor processing | IL 1355 b 1 |
Computer disc cartridges | IL 1572 d |
Computer disc packs | IL 1572 d |
Computer tape | IL 1572 d |
Computer-aided design for PCB | IL 1354 b |
Computer-aided design of semiconductors | IL 1355 b 2 |
Computer-aided design software | IL 1566 a |
Computer-aided inspection software | IL 1566 a |
Computer-aided manufacture software | IL 1566 a |
Computer-aided test software | IL 1566 a |
Computers | IL 1565 |
Controllers, robot | IL 1391 b |
Converter integrated circuits | IL 1564 d |
Converters | IL 1568 |
Copolyesters | IL 1746 h |
Crossed-field amplifier tubes | IL 1558 b |
Crossed-field oscillator tubes | IL 1558 b |
Crucibles | IL 1355 b 1 |
Cryopump systems | IL 1129 |
Cryptographic equipment | IL 1527 |
Crystal materials | IL 1588 |
Crystals materials, multi aperture forms | IL 1588 c, d |
Crystal materials, single aperture forms | IL 1588 b |
Crystal pullers | IL 1355 b 1 |
Crystals | IL 1588 |
Cyclic voltametric stripping equipment | IL 1354 g |
D to A converters | IL 1564 d and IL 1568 |
DAC | IL 1564 d and IL 1568 |
DNC | IL 1091 c |
DRAM | IL 1564 d |
DVM | IL 1529 f |
Data (message) switching | IL 1565 h 1 and IL 1567 |
Dayem bridges | IL 1574 |
Deep submergence vehicles | IL 1418 |
Definitions, SPC communication switching | IL 1567 |
Densitometers | IL 1534 |
Degaussing, vessel | IL 1416 d |
Depth sounders | IL 1510 |
Desmear equipment | IL 1354 a |
Detection equipment | IL 1502 |
Detector diodes | IL 1544 b |
Development systems | IL 1565 h 1 and IL 1566 b |
Device testers | IL 1355 b 7 |
Diagnostic systems | IL 1566 b |
Die bonders | IL 1355 b 5 |
Die mounters | IL 1355 b 5 |
Diffractive type optical elements | IL 1556 d |
Diffusion furnaces | IL 1355 b 1 |
Digital circuit testers | IL 1529 b |
Digital computer definition | IL 1565 |
Digital computers | IL 1565 e, f and h |
Digital computers (free from control) | IL 1565 h 2 |
Digital counters | IL 1529 c |
Digital exchanges | IL 1567 |
Digital instruments | IL 1529 b |
Digital oscilloscopes | IL 1584 |
Digital tape recorders | IL 1565 h and IL 1572 a |
Digital to analogue converters | IL 1564 d and IL 1568 |
Digital voltage measuring apparatus | IL 1529 f |
Digital word generators | IL 1529 b |
Digitally controlled radio receivers | IL 1531 d |
Digitizers | IL 1565 h |
Dimensional inspection machine (components) | IL 1093 |
Dimensional inspection machines | IL 1091 b |
Dimethylamine | PL 7007 |
Dimethylamine hydrochloride | PL 7007 |
Dimethyl methylphosphonate | PL 7007 |
Dimethylphosphite | PL 7007 |
Diodes | IL 1544 |
Direct numerical control (DNC) systems | IL 1091 c |
Direction finding equipment | IL 1501 b |
Directional couplers | IL 1537 c |
Disc cartridges | IL 1572 d |
Disc drives | IL 1565 h and IL 1572a |
Disc packs | IL 1572 d |
Display drivers | IL 1564 d |
Displays | IL 1564 c and d |
Doping profile analysis | IL 1355 b 4 |
Doppler systems | IL 1501 b and c |
Drills (PCB) | IL 1354 f |
Drivers | IL 1564 d |
Dry etchers | IL 1355 b 1 |
Dynamic random access memories | IL 1564 d |
Electrical, electronic equipment | PL 7004 |
Electric arc devices | IL 1206 |
Electro-chemical devices | IL 1205 a |
Electrolyte cells | IL 1205 a |
Electron beam deposition systems | IL 1355 b 1 and IL 1388 c |
Electron beam microfabrication systems | IL 1355 b 1 |
Electron tubes | IL 1555 |
Electron tubes for electron streak cameras | IL 1555 |
Electron tubes for framing cameras | IL 1555 |
Electron tubes for image conversion | IL 1555 a |
Electron tubes for image intensification | IL 1555 a |
Electron tubes for television cameras | IL 1555 b |
Electron tubes for video cameras | IL 1555 b |
Electronic assemblies | IL 1564 |
Electronic components | IL 1564 |
Electronic components, manufacture and test | IL 1355 |
Electronic equipment (with certificate concerned with the limitation of compromising electromagnetic radiation) | PL 7004 |
Electronic instruments | IL 1529 |
Electronic material, manufacture and test | IL 1355 |
Electronic vacuum tubes | IL 1558 |
Elements for optical tubes | IL 1556 |
Embedded digital computers | IL 1565 h 2 |
Encapsulated passive networks | IL 1564 d |
Encoders | IL 1568 d |
Encryption | IL 1527, IL 1565, IL 1566 and PL 7003 |
End effectors, robot | IL 1391 c |
Epitaxial growth equipment | IL 1355 b 1 |
Etchers, plasma | IL 1355 b 1 |
Etching equipment (PCB) | IL 1354 a |
Exchanges | IL 1567 |
Expert systems | IL 1566 b |
FET | IL 1545 a |
FFT analysers | IL 1533 |
Facsimile equipment | IL 1519 and IL 1572 |
Fast fourier transform analysers | IL 1533 |
Fast recovery diodes | IL 1544 e |
Fault tolerance | IL 1565 h 1 |
Fibre-optic bundles | IL 1556 a |
Fibre-optic cable | IL 1526 c and d |
Fibre-optic connector manufacture | IL 1359 |
Fibre-optic connectors | IL 1526 e |
Fibre-optic couplers | IL 1526 e |
Fibre-optic manufacturing equipment | IL 1353 |
Fibre-optic plates | IL 1556 a |
Fibre-optics | IL 1526 b and c |
Fibrous and filamentary production | IL 1357 |
Fibrous and filamentary materials | IL 1763 |
Field-effect transistors | IL 1545 a |
Filament winding machines | IL 1357 |
Film type integrated circuits | IL 1564 |
Flash discharge type X-ray systems | IL 1553 |
Flash discharge type X-ray tubes | IL 1553 |
Flatbed microdensitometers | IL 1534 |
Flatbed measurement instruments | IL 1355 b 4 |
Flexible disc drives | IL 1565 h and IL 1572 a |
Flexible disc media | IL 1572 d |
Flight data recorders | IL 1572 a |
Flight instrument systems | IL 1485 |
Floating docks | IL 1425 |
Floppy disc drives | IL 1565 h and IL 1572 a |
Floppy disc media | IL 1572 d |
Flow-forming machines | IL 1075 |
Fluorinated silicone fluids | IL 1755 a |
Fluorinated silicon lubricating greases | IL 1755 b |
Fluorine production equipment | IL 1110 |
Fluorine, containers for | IL 1145 |
Fluorocarbon coated electric wire and cable | IL 1754 c |
Fluorocarbon compounds and manufacturers | IL 1754 |
Fluorocarbon greases, lubricants and dielectric | IL 1754 c |
Fluorocarbon processing equipment | IL 1352 |
Fluorocarbon tubing | IL 1142 |
Focal plane array | IL 1548 d |
Frequency agile radio systems | IL 1516 c |
Frequency generators | IL 1529 b |
Frequency network analysers | IL 1529 b |
Frequency standards | IL 1529 a |
Frequency synthesizers | IL 1531 |
Frequency (heterodyne) converters | IL 1529 b |
Fuel cells | IL 1205 a |
Function generators | IL 1529 b |
Functional testers | IL 1355 b 7 |
Furnaces, electric vacuum | IL 1203 |
Gallium | IL 1757 b |
Gas turbine blade manufacture | IL 1080 |
Gas turbine engine inspection | IL 1086 |
Gas turbine engine manufacture | IL 1086 |
Gas turbine engine technology | IL 1372 |
Gas turbine engines | IL 1431 |
Gate arrays | IL 1564 |
Gear making machinery | IL 1088 |
Geodetic equipment | IL 1502 |
Geophones | IL 1510 |
Germanium | IL 1757 j |
Glass preforms for optical fibres | IL 1767 |
Graphic displays | IL 1565 h |
Graphic instruments | IL 1572 c |
Gravimeters | IL 1595 |
Gravity gradiometers | IL 1595 |
Gravity meters | IL 1595 |
Grinding machines | PL 7005 |
Gunn diodes | IL 1544 c |
Gyro manufacture | IL 1385 |
Gyro-stabilizers | IL 1485 |
Gyros | IL 1485 |
Gyrotrons | IL 1558 e and IL 1573 |
Helicopters | IL 1460 and PL 7010 |
Helicopter components | PL 7011 |
Hetero-epitaxial materials | IL 1757 d |
High speed cameras | IL 1585 |
High speed shutters | IL 1585 |
Hot cap sealers | IL 1355 g 5 |
Hovercraft | IL 1416 b |
Hovercraft manufacture | IL 1364 |
Hulls | IL 1416 h |
Hybrid computers | IL 1565 d |
Hybrid integrated circuits | IL 1564 |
Hydraulic fluids | IL 1702 |
Hydrofoil manufacture | IL 1364 |
Hydrofoil vessels | IL 1416 a |
Hydrogen fluoride | PL 7007 |
Hydrogen isotope thyratrons | IL 1559 |
Hydrogen thyratrons | IL 1559 |
Hydrophones | IL 1510 |
IC | IL 1564 |
Image enhancement | IL 1565 h 1 |
Image transfer equipment | IL 1355 b 2 |
Impatt diodes | IL 1544 c |
In-circuit testers | IL 1355 b 7 |
Incorporated digital computers | IL 1565 h 2 |
Incremental recorders | IL 1572 a |
Indium | IL 1757 c |
Induction furnaces | IL 1203 |
Inert gas and vacuum atomizing technology | IL 1601 |
Inertial equipment | IL 1485 |
Inertial equipment manufacture | IL 1385 |
Infrared systems | IL 1502 |
Inspection equipment, PCB | IL 1354 d |
Instrument frequency synthesizers | IL 1531 b |
Instrumentation amplifiers | IL 1564 d |
Instrumentation recorders | IL 1572 a |
Instrumentation tape | IL 1572 d |
Instruments, electronic | IL 1529 |
Integrated circuit testers | IL 1355 b 7 |
Integrated circuits | IL 1564 |
Interlacing machines | IL 1357 |
Ion implantation | IL 1355 b1 and IL 1388 B |
Iron and steel alloys | IL 1635 |
Isolation amplifiers | IL 1564 d |
Isostatic presses | IL 1312 |
Josephson-effect devices | IL 1574 |
Key telephone systems | IL 1567 b |
Klystrons | IL 1558 c and d |
Krytron tubes | IL 1542 |
LED | IL 1544 g, IL 1564 c and d |
LPE | IL 1355 b 1 |
LVDT | IL 1532 a |
Laser equipment | IL 1522 b |
Laser measuring systems | IL 1522 c |
Laser systems | IL 1522 b |
Lasers | IL 1522 a |
Launch vehicles | IL 1465 b |
Lidar equipment | IL 1522 b |
Light emitting alphanumeric displays | IL 1564 d |
Light emitting diodes | IL 1544 g, IL 1564 c and d |
Line drivers | IL 1564 d |
Line receivers | IL 1564 d |
Line-width measurement equipment | IL 1355 b 4 |
Linear array | IL 1548 d |
Linear measuring machines | IL 1532 b |
Linear measuring systems | IL 1532 |
Linear synchros | IL 1568 c |
Linear type voltage regulators | IL 1564 d |
Linear voltage differential transformers | IL 1532 a |
Liquid phase epitaxy (LPE) | IL 1355 b 1 |
Lithographic equipment, semiconductor | IL 1355 b 2 |
Local area networks | IL 1565 h 1 and IL 1567 a |
Logic analysers | IL 1529 b |
Low temperature devices | IL 1574 |
Low temperature superconductive materials | IL 1675 |
Lubricating oils | IL 1781 |
MOS-DRAM | IL 1564 d |
MOS-SRAM | IL 1564 d |
Machine tools | IL 1091 b |
Machine tools (components) | IL 1093 |
Machining centres | IL 1091 b |
Magnetic disc coating equipment | IL 1358 |
Magnetic disc media | IL 1572 d |
Magnetic ferrite materials | IL 1588 f |
Magnetic metals | IL 1631 |
Magnetic recording media, manufacture and test | IL 1358 |
Magnetic tape | IL 1572 d |
Magnetic tape coating equipment | IL 1356 |
Magnetic tape recorders | IL 1565 h and IL 1572 a |
Magnetometer systems | IL 1571 |
Magnetometers | IL 1571 |
Magnetrons | IL 1558 b |
Maintenance systems | IL 1566 b |
Maleimides | IL 1746 a |
Maraging steel alloy | PL 7002 |
Marine systems | IL 1510 |
Mask aligners | IL 1355 b 2 |
Mask fabrication equipment | IL 1355 b 2 |
Mask inspection equipment | IL 1355 b 2 |
Masks, seminconductor | IL 1355 b 2 |
Measuring equipment | IL 1529 |
Memory integrated circuits | IL 1564 d |
Memory storage or switching devices | IL 1588 e |
Metal oxide semiconductor memories | IL 1564 d |
Metal rolling mills | IL 1305 |
Metal-organic chemical vapour deposition (MOCVD) | IL 1355 b 1 |
Metal-working technology | IL 1001 |
Metallo-organic materials | IL 1733 d |
Methyl phosphonyl dichloride | PL 7007 |
Methyl phosphonyl difluoride | PL 7007 |
Microchannel plates | IL 1556 b |
Microcomputer development systems | IL 1529 b and IL 1565 h 1 |
Microcomputer microcircuits | IL 1564 |
Microdensitometers | IL 1534 |
Microprocessor development systems | IL 1529 b and IL 1565 h 1 |
Microprocessor microcircuits | IL 1564 |
Microprocessor support integrated circuits | IL 1564 d |
Microwave amplifiers | IL 1537 k |
Microwave assemblies | IL 1537 |
Microwave equipment | IL 1537 |
Microwave instrumentation receivers | IL 1529 b |
Microwave radio links | IL 1520 a |
Millimetric wave equipment | IL 1537 |
Milling machines | IL 1091 b |
Mixer diodes | IL 1544 b |
MOCVD | IL 1355 b 1 |
Modems | IL 1519 a |
Modules | IL 1564 |
Modules with mounted components | IL 1564 c |
Molecular beam epitaxy (MBE) | IL 1355 b 1 |
Monocrystalline germanium | IL 1757 j |
Monocrystalline silicon | IL 1757 a |
Monolithic ceramic capacitors | IL 1560 a |
Monolithic integrated circuits | IL 1564 |
Multi-data-stream processing | IL 1565 h 1 |
Multichip integrated circuits | IL 1564 |
Multiplex equipment | IL 1519 |
NMOS monolithic integrated circuits | IL 1564 d |
Navigation equipment | IL 1501 b |
Network analysers | IL 1529 b |
Networking equipment | IL 1565 h |
Nickel-based alloys | IL 1661 |
Niobates | IL 1760 |
Non-composite ceramic materials | IL 1733 |
Numerical control (NC) units | IL 1091 a |
OCR | IL 1565 h |
OMR | IL 1565 h |
Ocean cable | IL 1526 a |
Operating systems | IL 1566 b |
Operational amplifiers | IL 1564 d |
Optical character readers | IL 1565 h |
Optical elements | IL 1556 |
Optical elements, diffractive type | IL 1556 d |
Optical fibre cable | IL 1526 c |
Optical fibre characterisation equipment | IL 1353 |
Optical fibre connectors | IL 1526 e |
Optical fibre couplers | IL 1526 e |
Optical fibre manufacturing equipment | IL 1353 |
Optical fibre sensors | IL 1526 d |
Optical fibres | IL 1526 c and d |
Optical integrated circuits | IL 1564 |
Optical mark recognition | IL 1565 h |
Optical quality surface manufacture | IL 1370 |
Optical Spectrum Analysers | IL 1533 |
Oscillators, crystal | IL 1587 |
Oscilloscopes | IL 1584 |
Oxidation furnaces | IL 1355 b 1 |
Oxygen/carbon content measuring equipment | IL 1355 b 4 |
PABX | IL 1567 b |
PCB | IL 1354 b |
PCB CAD | IL 1354 b |
PCB manufacture and test | IL 1354 |
PCM testers | IL 1519 d |
PIN diodes | IL 1544 f |
PIN modulators | IL 1537 1 |
PLA | IL 1537 1 |
PMOS monolithic integrated circuits | IL 1564 d |
PROM | IL 1564 d |
PROM programmers | IL 1529 b |
Packages | IL 1564 |
Packet switching | IL 1567 |
Panel processors, PCB | IL 1354 c |
Panoramix radio receivers | IL 1516 a |
Parametric amplifiers | IL 1537 |
Pattern generators | IL 1355 b 2 |
Pellicles | IL 1355 b 2 |
Peniotrons | IL 1558 e |
Peripheral drivers | IL 1564 d |
Peripheral equipment | IL 1565 h 2 |
Phase slip devices | IL 1574 |
Phased array antenna | IL 1537 g |
Phosphorus oxychloride | PL 7007 |
Phosphorus trichloride | PL 7007 |
Photo-enhanced reactors | IL 1355 b 1 |
Photo-voltaic cells | IL 1205 b |
Photocathodes | IL 1556 c |
Photoconductive cells | IL 1548 |
Photocouplers | IL 1564 c and d |
Photodiodes | IL 1548 |
Photographic equipment | IL 1585 |
Photographic film | IL 1585 |
Photographic plates | IL 1585 |
Photolithography | IL 1355 b 2 |
Photomultiplier tubes | IL 1549 |
Photosensitive components | IL 1548 |
Phototransistors | IL 1548 |
Plasma etchers, semiconductors | IL 1355 b 1 |
Plasma etching, PCB | IL 1354 a |
Plasma spraying | IL 1388 d |
Plasma torches | IL 1206 |
Plasma-enhanced reactors | IL 1355 b 1 |
Plating equipment, PCB | IL 1354 c |
Plotters | IL 1565 h |
Polybenzimidazoles | IL 1746 b |
Polybenzothiazoles | IL 1746 d |
Polybenzoxozoles | IL 1746 i |
Polycarbonate sheet | IL 1749 |
Polycrystalline silicon | IL 1757 f |
Polycrystalline silicon production | IL 1355 b 1 |
Polyimides | IL 1746 a |
Polymeric materials | IL 1733 d and IL 1754 b |
Polymeric substances | IL 1746 |
Polyoxadiazoles | IL 1746 e |
Polyphosphazenes | IL 1746 f |
Polyphosphonitriles | IL 1746 f |
Polystyrlpyridine | IL 1746 g |
Positioning equipment | IL 1501 b |
Positioning systems, acoustic | IL 1510 |
Potassium fluoride | PL 7007 |
Power sources, radio-active | IL 1205 c |
Precursor materials | IL 1733 |
Preform characterisation equipment | IL 1353 |
Preforms of glass | IL 1767 |
Presses, isostatic | IL 1312 |
Primary cells | IL 1205 a |
Printed circuit board manufacture and test | IL 1354 |
Printed circuit board testers | IL 1354 e |
Printed circuit boards | IL 1564 |
Printed circuit boards with mounted components | IL 1564 c |
Printers | IL 1565 h |
Private automatic exchanges | IL 1567 b |
Programmable logic arrays | IL 1564 |
Programmable read only memories | IL 1564 d |
Programming systems | IL 1566 b |
Propellors | IL 1416 |
Propulsion systems, spacecraft | IL 1465 c |
Proximity-effect devices | IL 1574 |
Pullers, semiconductor crystal | IL 1355 b 1 |
Pulse modulators | IL 1514 |
Pumps | IL 1131 |
Pyrolitic deposition technology | IL 1602 |
Pyrolitic detectors | IL 1548 |
Quartz crystal manufacture | IL 1360 |
Quartz crystals | IL 1587 |
Quasiparticle devices or detectors | IL 1574 |
RAM | IL 1564 d |
ROM | IL 1564 d |
Radar equipment | IL 1501 c |
Radio equipment | IL 1520 a, IL 1516, IL 1517 and IL 1531 |
Radio receivers | IL 1516 and IL 1531 d |
Radio relay communication equipment | IL 1520 |
Radio transmitters | IL 1517 and IL 1531 e |
Random access memories | IL 1564 d |
Random ion etchers (RIE) | IL 1355 b 1 |
Read only memories | IL 1564 d |
Real time processing | IL 1565 h 1 |
Rechargeable batteries | IL 1205 a |
Recording equipment | IL 1572 |
Recording media | IL 1572 d |
Regulators | IL 1564 d |
Reproducing equipment | IL 1572 |
Reserve batteries | IL 1205 a |
Resist materials | IL 1757 k |
Resist removal, PCB | IL 1354 a |
Reticles | IL 1355 b 2 |
Robot controllers | IL 1391 b |
Robots | IL 1391 a |
Rolling mills | IL 1305 |
Routers, PCB | IL 1354 f |
Ruggedized computers | IL 1565 f |
SAWs | IL 1586 |
SAWs | IL 1586 |
SEM's | IL 1355 |
SIS devices | IL 1574 |
SNS bridges | IL 1574 |
SPS circuit switching | IL 1565 h 1 and IL 1567 |
SPC communication switching | IL 1567 |
SPC communication switching technology | IL 1567 c |
SPC telegraph circuit switching | IL 1567 b |
SPC telephone circuit switching | IL 1567 b |
SPC telephone circuit switching exchange | IL 1567 |
SRAM | IL 1564 d |
SWATH vessel manufacture | IL 1364 |
SWATH vessels | IL 1416 c |
Sample and hold integrated circuits | IL 1564 d |
Sapphire substrates | IL 1757 h |
Satellite communications equipment | IL 1520 |
Satellite navigation equipment | IL 1501 b |
Scanning electron microscopes | IL 1355 b 1 |
Secondary cells | IL 1205 a |
Seismic/geophysical recorders | IL 1572 a |
Semiconductor CAD | IL 1355 b 2 |
Semiconductor diodes | IL 1544 |
Semiconductor photodiodes | IL 1548 b |
Semiconductor phototransistors | IL 1548 b |
Semiconductor processing equipment | IL 1355 b 1 |
Semiconductor profilers | IL 1355 b 4 |
Sense amplifiers | IL 1564 d |
Sensors, robot | IL 1391 c |
Separator systems, vessel | IL 1416 |
Serial data analysers | IL 1529 b |
Ships, craft | IL 1416 and PL 7009 |
Signal analysers | IL 1533 |
Signal generators | IL 1529 and IL 1531 |
Signal processing | IL 1565 h 1 |
Signal processing devices | IL 1586 |
Silicon | IL 1757 |
Silicon microcomputer microcircuits | IL 1564 d |
Silicon microprocessor microcircuits | IL 1564 d |
Silicone fluids | IL 1755 |
Silicone greases | IL 1755 |
Silicon lubricating greases | IL 1755 b |
Simulators, EMI/EMP | IL 1361 |
Single crystal sapphire substrates | IL 1757 h |
Skull furnaces | IL 1203 |
Software | IL 1566 |
Software definitions | IL 1566 |
Software for industrial systems | IL 1399 |
Software, technology | IL 1566 c |
Solar cells | IL 1205 b |
Sonar systems | IL 1510 |
Space-division analogue exchanges | IL 1567 b |
Space-division digital exchange | IL 1567 |
Spacecraft | IL 1465 a |
Spectrum analysers | IL 1533 |
Spin-forming machines | IL 1075 |
Spread spectrum receivers | IL 1516 c |
Sputtering equipment | IL 1355 b 1 and IL 1388 e |
Static random access memories | IL 1564 d |
Statistical multiplexers | IL 1519 and IL 1567 |
Steel and iron alloys | IL 1635 |
Step and repeat cameras | IL 1355 b 2 |
Storage drivers | IL 1564 d |
Storage integrated circuits | IL 1564 d |
Store and forward | IL 1567 |
Stored programme controlled circuit switching | IL 1565 h 1 and IL 1567 |
Stored programme controlled communications | IL 1567 |
Streak cameras | IL 1585 |
Streamer tape drives | IL 1565 h and IL 1572 a |
Submersible systems | IL 1417 |
Submersibles | IL 1418 |
Substrates | IL 1564 |
Substrates for printed circuit board | IL 1564 a |
Superalloy production equipment | IL 1301 a |
Superalloy production technology | IL 1301 b |
Superconducting materials | IL 1574 |
Superconductive electromagnets | IL 1573 |
Superconductive materials | IL 1675 |
Superconductive solenoids | IL 1573 |
Support integrated circuits | IL 1564 d |
Surface acoustic wave devices | IL 1586 |
Surface-effect vehicle manufacture | IL 1364 |
Surface-effect vehicles | IL 1416 b |
Switches, electronic | IL 1564 d |
Switching type voltage regulators | IL 1564 d |
Syntactic foam | IL 1759 |
Synthesized signal generators | IL 1531 b |
Synthetic lubricating oils | IL 1781 |
TCXOs | IL 1587 |
TEM mode devices | IL 1537 d |
TR) tubes | IL 1537 e |
TVRO | IL 1520 |
Tantalates | IL 1760 |
Tantalum | PL 7012 |
Tantalum capacitors | IL 1560 b |
Tantalum compounds | IL 1760 |
Tape drives | IL 1565 h and IL 1572 a |
Tape-laying machines | IL 1357 |
Technology (computers) | IL 1565 j |
Technology for industrial systems | IL 1399 |
Technology, coating | IL 1389 |
Technology, communication switching | IL 1567 c |
Technology, inert gas and vacuum atomizing | IL 1601 |
Technology, pyrolitic deposition | IL 1602 |
Technology, software | IL 1566 c |
Telecommunication transmission equipment | IL 1519 |
Telecontrol equipment | IL 1518 |
Telegraph circuit switching | IL 1567 b |
Telemetering equipment | IL 1518 |
Telephone circuit switching | IL 1567 b |
Tellurium | IL 1757 e |
Temperature compensated oscillators | IL 1587 |
Terminal exchange | IL 1567 |
Testing equipment | IL 1529 |
Tetrodes | IL 1558 a |
Thermoelectric materials and devices | IL 1570 |
Thermoplastic liquid crystal copolyesters | IL 1746 h |
Thin film devices | IL 1588 |
Thin film manufacture | IL 1358 |
Thiodiglycol | PL 7007 |
Thionyl chloride | PL 7007 |
Thrusters | IL 1362 a |
Thyratrons | IL 1559 |
Thyristors | IL 1547 |
Time interval measuring equipment | IL 1529 d |
Time-division analogue exchanges | IL 1567 b |
Time-division digital exchange | IL 1567 |
Timing integrated circuits | IL 1564 d |
Titanium aluminides | IL 1672 |
Titanium-based alloys | IL 1672 |
Towed hydrophone arrays | IL 1510 |
Tracking equipment | IL 1502 |
Transducers | IL 1510 and IL 1568 |
Transfer oscillators | IL 1529 b |
Transient recorders | IL 1529 g |
Transistors | IL 1545 |
Transit exchange | IL 1567 |
Transmission equipment | IL 1519 |
Transmission media simulators | IL 1520 b |
Transmitter-amplifiers | IL 1517 |
Transmitters | IL 1517 |
Transopters | IL 1564 c and d |
Trappatt diodes | IL 1544 c |
Travelling wave tubes | IL 1558 c |
Triggered spark gaps | IL 1542 |
Trimethylphosphite | PL 7007 |
Tris-ethanolamine | PL 7007 |
Triodes | IL 1558 a |
Tropospheric scatter communication equipment | PL 7008 |
Tubes | IL 1558 |
Tubing, fluorocarbon | IL 1142 |
Ubitrons | IL 1558 e |
Ultrasonic equipment | IL 1502 |
Underwater cameras | IL 1417 e |
Underwater communication Cable | IL 1526 e |
Underwater vehicles | IL 1418 |
Underwater vision systems | IL 1417 c |
Unencapsulated integrated circuits | IL 1564 d |
Untuned alternating current amplifiers | IL 1564 d |
Vacuum photodiodes | IL 1548 a |
Vacuum pump systems | IL 1129 |
Varactor diodes | IL 1544 d |
Vessels models | IL 1363 |
Vessels | IL 1416 |
Vibration test equipment | IL 1362 |
Video recorders | IL 1572 a |
Video tape | IL 1572 a and d |
Vision systems, robot | IL 1391 |
Voltage (rms-to-DC) converters | IL 1564 d |
Voltage comparators | IL 1564 d |
Voltage references | IL 1564 d |
Voltage to frequency converters | IL 1564 d |
Voltage variable capacitance diodes | IL 1544 d |
Wafer defect inspection equipment | IL 1355 b 3 |
Wafer polishers | IL 1355 b 1 |
Wafer probers | IL 1355 b 6 |
Water tunnels | IL 1363 |
Waveguides | IL 1537 a |
Weak-link devices | IL 1574 |
Weaving machines | IL 1357 |
Wide area networks | IL 1565 h 1 and IL 1567 a |
Wideband amplifiers | IL 1521 |
Winchester disc drives | IL 1565 h and IL 1572 a |
Wind tunnel, instrumentation | IL 1361 |
Wind tunnel, models | IL 1361 |
Wind tunnels | IL 1361 |
Wire bonders | IL 1355 b 5 |
X-ray systems | IL 1553 |
X-ray tubes | IL 1553 |
Zone-refining equipment | IL 1355 b 1 |
List of countries referred to in Article 2:–
Afghanistan
Albania
Bulgaria
China
Czechoslovakia
German Democratic Republic
Hungary
North Korea
People’s Republic of Mongolia
Poland
Romania
Socialist Republic of Vietnam
Union of Socialist Soviet Republics
Export of Goods (Control) Order 1987 (S.I. 1987/2070)
Export of Goods (Control) (Amendment) Order 1988 (S.I. 1988/1487
Export of Goods (Control) (Amendment No. 2) Order 1989 (S.I. 1989/246)
Export of Goods (Control) (Amendment No. 3) Order 1989 (S.I. 1989/354)
Export of Goods (Control) (Amendment No. 4) Order 1989 (S.I. 1989/1270)
Export of Goods (Control) (Amendment No. 5) Order 1989 (S.I. 1989/1914)
Export of Goods (Control) (Amendment No. 6) Order 1989 (S.I. 1989/2327)
(This note is not part of the Order)
This Order revokes and replaces the Export of Goods (Control) Order 1987 and the subsequent amendment thereto. The changes (apart from minor or drafting changes) it effects are as follows:—
1. Export control is
(a)lifted on certain jig grinders, certain floor-type horizontal boring mills, certain pumps, valves, cocks and pressure regulators, unreinforced tubing, manufactur ing and testing equipment for coxial cable, certain wind tunnels for educational purposes or not specially designed or fitted with means for preheating the air, general purpose acoustic emission equipment for discriminating acoustic emissions related to crack growth, certain integrated flight instrument systems, certain gyrostabilisers, certain specially designed test calibration and diagnostic equipment for compasses, gyros, accelerometers and inertial equipment, certain airborne communication equipment, certain Doppler navigation equipment, certain radio altimeters, certain Loran-C navigation equipment, certain ground and marine navigation equipment, certain airborne civil weather radar, certain global positioning satellite receivers, certain specialised testing or calibrating equipment for navigation direction finding, radar and airborne communication equipment, certain infrared thermal equipment and infrared viewing equip ment, telecommunication transmission equipment using analogue techniques, certain equipment for radio relay transmission of television signals, certain communication satellite earth station equipment, certain industrial radio relay communication equipment, certain semiconductor lasers, reversed-twist double-armoured underwater communication cable, coaxial cables, certain programmable electronic instruments, certain programmable signal analysers (spectrum analysers), certain flatbed microdensitometers, certain parametric or paramagnetic amplifiers, certain cathode ray tubes, certain cold cathode tubes, non-coherent light emitting diodes, field effect transistors designed for audio frequency applications, certain semiconductor photodiodes, certain magne trons and klystrons, certain electronic or magnetic amplifiers, induction potentiometers, induction rate (tachometer) generators, servo-motors, precision potentiometers, direct current and alternating current torquers, electro-optical devices designed to monitor relative rotation of remote surfaces, synchronous motors, semiconductor Hall field probes, cylindrical structures for analogue video recording and reproducing equipment, certain single aperture forms, seamless tube and pipe, cobalt-based alloys containing 5% or more tantalum, niobium (columbium), molybdenum alloys, tantalum and tantalum alloys, vanadium and vanadium alloys, certain superconductive alloys, certain lubricating oils, and where the exportation was prohibited only by virtue of an import certificate having been issued;
(b)reduced in scope on equipment for milling aircraft skins or spars, numerical control units, crystal pullers, robots and robot controllers, passive acoustic hydrophones or transducers, telecommunication transmission equipment using digital techniques, electronic measuring and test equipment for telecommunica tion transmission equipment, digital microwave radio links, equipment containing Nd: YAG or Nd: Glass lasers, Nd: YAG lasers, optical fibre communication cable or optical fibre, optical fibres for sensing purposes, frequency standards for fixed ground use, portable (personal) or mobile radio telephones, microwave assemblies and sub-assemblies, encapsulated integrated circuits having hermetically sealed dual-in-line cases, silicon microcomputers microcircuits, embedded electronic computers, disc drives, displays for elec tronic computers, local area networks, software, communication equipment for data (message) switching, stored programme controlled telegraph circuit switching, analogue private automatic branch exchanges, mechanical input type position encoders and transducers, gravity meters, iron and steels, nickel-based alloys, titanium-based alloys, tantalates and niobates, certain carbon fibres, nuclear power generating equipment, tantalum, and on a range of personal computer systems up to specified levels;
(c)extended in scope on toxicological agents and tear gas, and directed energy weapons;
(d)amended in scope on technical data and procedures for the production of fibrous and filamentary materials, weaving and interlacing machines, robot controllers and end-effectors, technology for reciprocating diesel engines, cryptographic equipment, instrument frequency synthesizers and synthesized signal generators, stored programme controlled communication switching equipment or systems, technology for the design and production of cylindrical structures for analogue video recording and reproducing equipment, base materials, non-composite ceramic materials, ceramic-ceramic composite materials and precursor materials, polymeric substances, fibrous and filamen tary materials, nuclear materials;
(e)introduced on equipment for the deposition, processing and in-process control of inorganic overlays, coatings and surface modifications, technology for the application of coatings to non-electronic devices, biocatalysts for decontamina tion and degradation of chemical warfare agents, thionyl chloride, dimethylam ine hydrochloride and riot control vehicles specially designed to be electrified to repel boarders.
2 The structural drafting of each entry has been amended and updated to reflect the format used in other publications apertaining to export controls published nationally and internationally to simplify the correlation for UK exporters. This has resulted in a number of minor changes to the coverage of various entries throughout the Order.
3 Non COCOM items are prefixed PL and allocated an identification number. They have been included in Schedule 1 where they relate to COCOM items or in the most appropriate place in the Group and are not necessarily in numerical sequence.
They are as follows:
page | |
---|---|
PL5001 | 15 |
PL5002 | 13 |
PL5003 | 9 |
PL5004 | 9 |
PL5005 | 9 |
PL5006 | 9 |
PL5007 | 10 |
PL5008 | 10 |
PL5009 | 11 |
PL5010 | 11 |
PL5011 | 12 |
PL5012 | 12 |
PL5013 | 12 |
PL5014 | 12 |
PL5016 | 13 |
PL5017 | 13 |
PL6001 | 16 |
PL6002 | 17 |
PL6003 | 17 |
PL6005 | 17 |
PL6006 | 17 |
PL6007 | 19 |
PL6008 | 19 |
PL6009 | 19 |
PL6010 | 19 |
PL6011 | 16 |
PL6012 | 16 |
PL7001 | 142 |
PL7002 | 143 |
PL7003 | 70 |
PL7004 | 63 |
PL7005 | 27 |
PL7006 | 143 |
PL7007 | 149 |
PL7008 | 73 |
PL7009 | 55 |
PL7010 | 62 |
PL7011 | 62 |
PL7012 | 143 |
PL7013 | 83 |
4 Whenever goods are indicated in Schedule 1 by more than one letter each prohibition in article 2 relates to the relevant letter applying to the export of the goods.
5 Any particular goods may fall within more than one description in Schedule 1 to the Order. In such a case each prohibition (taking effect by such inclusion in that Schedule and the related provisions of Article 2) applies to the export of the goods.This may mean that different entries prohibit the export of the goods to different countries.
6 Copies of the British Standards referred to in these Regulations may be obtained from any of the sales outlets operated by the British Standards Institution (BSI), or by post from the BSI at 3 Lindford Wood, Milton Keynes, MK14 6LE.
7 Copies of the economic and control rules of the International Cocoa Agreement can be obtained from the International Cocoa Organisation, 22 Berners Street, London W7.
See S.I. 1970/1537.
See Council Regulation (EEC) No.2658/87 O.J.No.L256, 7.9.87, p. 1, amended by Commission Regulation (EEC) No.3985/87 O.J.No.L376 31.12.87, p. 1, Council Regulation (EEC) No.1045/88 O.J.No.L103 22.04.88 p. 1, Council Regulation (EEC) No.1058/88 O.J.No.L104 23.04.88 p. 1, Council Regulation (EEC) No.1315/88 O.J.No.L123 17.05.88 p. 2, Council Regulation (EEC) No.1471/88 O.J.No.L134 31.05.88 p. 1, Commission Regulation (EEC) No.1858/88 O.J.No.L166 01.07.88 p. 10, Commission Regulation (EEC) No.3174/88 O.J.No.L298 31.10.88 p. 1, Council Regulation (EEC) No.3468/88 O.J.No.L305 10.11.88 p. 1, Council Regulation (EEC) No.4107/88 O.J.No.L361 29.12.88 p. 1, Commission Regulation (EEC) No.0020/89 O.J.No.L004 06.01.89 p. 19, Council Regulation (EEC) No.1495/89 O.J.No.L148 01.06.89 p. 1, Council Regulation (EEC) No.1672/89 O.J.No.L169 19.06.89 p. 1, Commission Regulation (EEC) No.2886/89 O.J.No.L282 02.10.89 p. 1, and Commission Regulation (EEC) No.3469/89 O.J.No.L337 21.11.89 p. 5.
O.J.No.L107, 22.4.87, p. 1, amended by Commission Regulations (EEC) No.2823/87, O.J.No.L270, 23.9.87, p. 1, No.1469/88, O.J.No.L132, 28.5.88, p. 67 and No.1159/88, O.J.No.L119, 24.4.89, p. 100.
O.J.No.L307, 1.11.1982, p. 36, amended by Commission Decisions 2149/84/ECSC O.J.No.L202, 31.7.84, p. 1 and 978/86/ECSC O.J.No.L91, 7.4.86, p.49.
O.J.No.L307, 1.11.1982, p. 56, amended by Commission Regulations (EEC) 2150/84 O.J.No.L202, 31.7.84, p. 23 and 977/86 O.J.No.L91, 7.4.86, p. 1.
O.J.No.L9, 10.1.1985, p. 19, amended by Commission Regulation (EEC) No.979/86 O.J.No.L91, 7.4.86, p. 96.
Cmnd 9905.
1968 c. 27, as amended by the Firearms (Amendment) Act 1988 (c. 45).
S.I.1981/155 (N.I.2).
Acts of Tynwald 1947, p. 586.
O.J.No.L307, 1.11.82, p. 27, amended by Commission Decisions No.2192/83/ECSC, O.J.No.L215, 05.08.83, O.J.No.L260, 21.09.83, p. 9 and No.2827/86/ECSC, O.J. No.L262, 13.09.86, p. 12.
O.J.No.L355, 31.12.85, p. 155.
O.J.No.L262, 13.9.1986, p. 12.
S.I. 1969/47.
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