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‘Software’ specially designed for the ‘development’ or ‘production’ of equipment as follows: (a) Machine tools for turning having two or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: 1. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or 2. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. (b) Machine tools for milling having any of the following: 1. Three linear axes plus one rotary axis which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. 2. Five or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,4 μm along one or more linear axis with a travel length equal to or greater than 1 m and less than 4 m; c. ‘Unidirectional positioning repeatability’ equal to or less (better) than 6,0 μm along one or more linear axis with a travel length equal to or greater than 4 m; 3. A ‘unidirectional positioning repeatability’ for jig boring machines equal to or less (better) than 1,1 μm along one or more linear axis. 4. Electrical discharge machines of the non-wire type which have two or more rotary axes which can be coordinated simultaneously for ‘contouring control’. 5. Deep-hole-drilling machines and turning machines modified for deep-hole-drilling, having a maximum depth-of-bore capability exceeding 5 m. 6. ‘Numerically controlled’ or manual machine tools, and specially designed components, controls and accessories therefor, specially designed for the shaving, finishing, grinding or honing of hardened (Rc = 40 or more) spur, helical and double-helical gears with a pitch diameter exceeding 1 250 mm and a face width of 15 % of pitch diameter or larger finished to a quality of AGMA 14 or better (equivalent to ISO 1 328 class 3).
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.B.002
Code: 2D002
‘Software’ specially designed for the ‘development’ or ‘production’ of equipment as follows: (a) Machine tools for turning having two or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: 1. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or 2. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. (b) Machine tools for milling having any of the following: 1. Three linear axes plus one rotary axis which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. 2. Five or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,4 μm along one or more linear axis with a travel length equal to or greater than 1 m and less than 4 m; c. ‘Unidirectional positioning repeatability’ equal to or less (better) than 6,0 μm along one or more linear axis with a travel length equal to or greater than 4 m; 3. A ‘unidirectional positioning repeatability’ for jig boring machines equal to or less (better) than 1,1 μm along one or more linear axis. 4. Electrical discharge machines of the non-wire type which have two or more rotary axes which can be coordinated simultaneously for ‘contouring control’. 5. Deep-hole-drilling machines and turning machines modified for deep-hole-drilling, having a maximum depth-of-bore capability exceeding 5 m. 6. ‘Numerically controlled’ or manual machine tools, and specially designed components, controls and accessories therefor, specially designed for the shaving, finishing, grinding or honing of hardened (Rc = 40 or more) spur, helical and double-helical gears with a pitch diameter exceeding 1 250 mm and a face width of 15 % of pitch diameter or larger finished to a quality of AGMA 14 or better (equivalent to ISO 1 328 class 3).
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.B.002
Code: 2D002
‘Software’ specially designed for the ‘development’ or ‘production’ of equipment as follows: (a) Machine tools for turning having two or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: 1. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or 2. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. (b) Machine tools for milling having any of the following: 1. Three linear axes plus one rotary axis which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. 2. Five or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,4 μm along one or more linear axis with a travel length equal to or greater than 1 m and less than 4 m; c. ‘Unidirectional positioning repeatability’ equal to or less (better) than 6,0 μm along one or more linear axis with a travel length equal to or greater than 4 m; 3. A ‘unidirectional positioning repeatability’ for jig boring machines equal to or less (better) than 1,1 μm along one or more linear axis. 4. Electrical discharge machines of the non-wire type which have two or more rotary axes which can be coordinated simultaneously for ‘contouring control’. 5. Deep-hole-drilling machines and turning machines modified for deep-hole-drilling, having a maximum depth-of-bore capability exceeding 5 m. 6. ‘Numerically controlled’ or manual machine tools, and specially designed components, controls and accessories therefor, specially designed for the shaving, finishing, grinding or honing of hardened (Rc = 40 or more) spur, helical and double-helical gears with a pitch diameter exceeding 1 250 mm and a face width of 15 % of pitch diameter or larger finished to a quality of AGMA 14 or better (equivalent to ISO 1 328 class 3).
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.B.002
Code: 2D001
‘Software’ specially designed for the ‘development’ or ‘production’ of equipment as follows: (a) Machine tools for turning having two or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: 1. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or 2. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. (b) Machine tools for milling having any of the following: 1. Three linear axes plus one rotary axis which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; or b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,1 μm along one or more linear axis with a travel length equal to or greater than 1,0 m. 2. Five or more axes which can be coordinated simultaneously for ‘contouring control’ having any of the following: a. ‘Unidirectional positioning repeatability’ equal to or less (better) than 0,9 μm along one or more linear axis with a travel length less than 1,0 m; b. ‘Unidirectional positioning repeatability’ equal to or less (better) than 1,4 μm along one or more linear axis with a travel length equal to or greater than 1 m and less than 4 m; c. ‘Unidirectional positioning repeatability’ equal to or less (better) than 6,0 μm along one or more linear axis with a travel length equal to or greater than 4 m; 3. A ‘unidirectional positioning repeatability’ for jig boring machines equal to or less (better) than 1,1 μm along one or more linear axis. 4. Electrical discharge machines of the non-wire type which have two or more rotary axes which can be coordinated simultaneously for ‘contouring control’. 5. Deep-hole-drilling machines and turning machines modified for deep-hole-drilling, having a maximum depth-of-bore capability exceeding 5 m. 6. ‘Numerically controlled’ or manual machine tools, and specially designed components, controls and accessories therefor, specially designed for the shaving, finishing, grinding or honing of hardened (Rc = 40 or more) spur, helical and double-helical gears with a pitch diameter exceeding 1 250 mm and a face width of 15 % of pitch diameter or larger finished to a quality of AGMA 14 or better (equivalent to ISO 1 328 class 3).
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.B.002
Code: 2D001
‘Software’ for the ‘development’ of the material listed in VII.A1.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.B.001
Code: 1D002
‘Software’ for the ‘development’ of the material listed in VII.A1.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.B.001
Code: 1D002
Aero gas turbine engines, except aero gas turbine engines which meet all of the following: (a) Certified by civil aviation authorities of one or more Member States; and (b) Intended to power non-military manned ‘aircraft’ for which any of the following has been issued by civil aviation authorities of one or more Member States for the ‘aircraft’ with this specific engine type: 1. A civil type certificate; or 2. An equivalent document recognized by the International Civil Aviation Organization.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A9.002
Code: 9A001
Aero gas turbine engines, except aero gas turbine engines which meet all of the following: (a) Certified by civil aviation authorities of one or more Member States; and (b) Intended to power non-military manned ‘aircraft’ for which any of the following has been issued by civil aviation authorities of one or more Member States for the ‘aircraft’ with this specific engine type: 1. A civil type certificate; or 2. An equivalent document recognized by the International Civil Aviation Organization.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A9.002
Code: 9A001
Equipment, tooling or fixtures, specially designed for manufacturing gas turbine engine blades, vanes or ‘tip shrouds’, as follows: (a) Directional solidification or single crystal casting equipment; (b) Casting tooling, manufactured from refractory metals or ceramics, as follows: 1. Cores 2. Shells (moulds) 3. Combined core and shell (mould) units (c) Directional-solidification or single-crystal additive-manufacturing equipment.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A9.001
Code: 9B001
Equipment, tooling or fixtures, specially designed for manufacturing gas turbine engine blades, vanes or ‘tip shrouds’, as follows: (a) Directional solidification or single crystal casting equipment; (b) Casting tooling, manufactured from refractory metals or ceramics, as follows: 1. Cores 2. Shells (moulds) 3. Combined core and shell (mould) units (c) Directional-solidification or single-crystal additive-manufacturing equipment.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A9.001
Code: 9B001
‘Inertial measurement equipment or systems’, having any of the following: Notes: 1. ‘Inertial measurement equipment or systems’ incorporate accelerometers or gyroscopes to measure changes in velocity and orientation in order to determine or maintain heading or position without requiring an external reference once aligned. ‘Inertial measurement equipment or systems’ include: — Attitude and Heading Reference Systems (AHRSs); — Gyrocompasses; — Inertial Measurement Units (IMUs); — Inertial Navigation Systems (INSs); — Inertial Reference Systems (IRSs); — Inertial Reference Units (IRUs). 2. This paragraph does not apply to ‘inertial measurement equipment or systems’ which are certified for use on ‘civil aircraft’ by civil aviation authorities of one or more Member States. (a) Designed for ‘aircraft’, land vehicles or vessels, providing position without the use of ‘positional aiding references’, and having any of the following ‘accuracies’ subsequent to normal alignment: 1. 0,8 nautical miles per hour (nm/hr) ‘Circular Error Probable’ (‘CEP’) rate or less (better); 2. 0,5 % distanced travelled ‘CEP’ or less (better); or 3. Total drift of 1 nautical mile ‘CEP’ or less (better) in a 24 hr period; (b) Designed for ‘aircraft’, land vehicles or vessels, with an embedded ‘positional aiding reference’ and providing position after loss of all ‘positional aiding references’ for a period of up to 4 minutes, having an ‘accuracy’ of less (better) than 10 metres ‘CEP’; (c) Designed for ‘aircraft’, land vehicles or vessels, providing heading or True North determination and having any of the following: 1. A maximum operating angular rate less (lower) than 500 deg/s and a heading ‘accuracy’ without the use of ‘positional aiding references’ equal to or less (better) than 0,07 deg sec(Lat) (equivalent to 6 arc minutes rms at 45 degrees latitude); or 2. A maximum operating angular rate equal to or greater (higher) than 500 deg/s and a heading ‘accuracy’ without the use of ‘positional aiding references’ equal to or less (better) than 0,2 deg sec (Lat) (equivalent to 17 arc minutes rms at 45 degrees latitude); (d) Providing acceleration measurements or angular rate measurements, in more than one dimension, and having any of the following: 1. Performance specified for accelerometers and gyros described above along any axis, without the use of any aiding references; or 2. Being ‘space-qualified’ and providing angular rate measurements having an ‘angle random walk’ along any axis of less (better) than or equal to 0,1 degree per square root hour.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.003
Code: 7A003
‘Inertial measurement equipment or systems’, having any of the following: Notes: 1. ‘Inertial measurement equipment or systems’ incorporate accelerometers or gyroscopes to measure changes in velocity and orientation in order to determine or maintain heading or position without requiring an external reference once aligned. ‘Inertial measurement equipment or systems’ include: — Attitude and Heading Reference Systems (AHRSs); — Gyrocompasses; — Inertial Measurement Units (IMUs); — Inertial Navigation Systems (INSs); — Inertial Reference Systems (IRSs); — Inertial Reference Units (IRUs). 2. This paragraph does not apply to ‘inertial measurement equipment or systems’ which are certified for use on ‘civil aircraft’ by civil aviation authorities of one or more Member States. (a) Designed for ‘aircraft’, land vehicles or vessels, providing position without the use of ‘positional aiding references’, and having any of the following ‘accuracies’ subsequent to normal alignment: 1. 0,8 nautical miles per hour (nm/hr) ‘Circular Error Probable’ (‘CEP’) rate or less (better); 2. 0,5 % distanced travelled ‘CEP’ or less (better); or 3. Total drift of 1 nautical mile ‘CEP’ or less (better) in a 24 hr period; (b) Designed for ‘aircraft’, land vehicles or vessels, with an embedded ‘positional aiding reference’ and providing position after loss of all ‘positional aiding references’ for a period of up to 4 minutes, having an ‘accuracy’ of less (better) than 10 metres ‘CEP’; (c) Designed for ‘aircraft’, land vehicles or vessels, providing heading or True North determination and having any of the following: 1. A maximum operating angular rate less (lower) than 500 deg/s and a heading ‘accuracy’ without the use of ‘positional aiding references’ equal to or less (better) than 0,07 deg sec(Lat) (equivalent to 6 arc minutes rms at 45 degrees latitude); or 2. A maximum operating angular rate equal to or greater (higher) than 500 deg/s and a heading ‘accuracy’ without the use of ‘positional aiding references’ equal to or less (better) than 0,2 deg sec (Lat) (equivalent to 17 arc minutes rms at 45 degrees latitude); (d) Providing acceleration measurements or angular rate measurements, in more than one dimension, and having any of the following: 1. Performance specified for accelerometers and gyros described above along any axis, without the use of any aiding references; or 2. Being ‘space-qualified’ and providing angular rate measurements having an ‘angle random walk’ along any axis of less (better) than or equal to 0,1 degree per square root hour.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.003
Code: 7A003
Gyros or angular rate sensors, having any of the following and specially designed components therefor: (a) Specified to function at linear acceleration levels less than or equal to 100 g and having any of the following: 1. A rate range of less than 500 degrees per second and having any of the following: a. A ‘bias’‘stability’ of less (better) than 0,5 degree per hour, when measured in a 1 g environment over a period of one month, and with respect to a fixed calibration value; or b. An ‘angle random walk’ of less (better) than or equal to 0,0035 degree per square root hour; or Note : this paragraph does not apply to ‘spinning mass gyros’. 2. A rate range greater than or equal to 500 degrees per second and having any of the following: a. A ‘bias’‘stability’ of less (better) than 4 degrees per hour, when measured in a 1 g environment over a period of three minutes, and with respect to a fixed calibration value; or b. An ‘angle random walk’ of less (better) than or equal to 0,1 degree per square root hour; or Note : this paragraph does not apply to ‘spinning mass gyros’. (b) Specified to function at linear acceleration levels exceeding 100 g.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.002
Code: 7A002
Gyros or angular rate sensors, having any of the following and specially designed components therefor: (a) Specified to function at linear acceleration levels less than or equal to 100 g and having any of the following: 1. A rate range of less than 500 degrees per second and having any of the following: a. A ‘bias’‘stability’ of less (better) than 0,5 degree per hour, when measured in a 1 g environment over a period of one month, and with respect to a fixed calibration value; or b. An ‘angle random walk’ of less (better) than or equal to 0,0035 degree per square root hour; or Note : this paragraph does not apply to ‘spinning mass gyros’. 2. A rate range greater than or equal to 500 degrees per second and having any of the following: a. A ‘bias’‘stability’ of less (better) than 4 degrees per hour, when measured in a 1 g environment over a period of three minutes, and with respect to a fixed calibration value; or b. An ‘angle random walk’ of less (better) than or equal to 0,1 degree per square root hour; or Note : this paragraph does not apply to ‘spinning mass gyros’. (b) Specified to function at linear acceleration levels exceeding 100 g.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.002
Code: 7A002
Accelerometers as follows and specially designed components therefor: (a) Linear accelerometers having any of the following: 1. Specified to function at linear acceleration levels less than or equal to 15 g and having any of the following: a. A ‘bias’‘stability’ of less (better) than 130 micro g with respect to a fixed calibration value over a period of one year; or b. A ‘scale factor’‘stability’ of less (better) than 130 ppm with respect to a fixed calibration value over a period of one year; 2. Specified to function at linear acceleration levels exceeding 15 g but less than or equal to 100 g and having all of the following: a. A ‘bias’‘repeatability’ of less (better) than 1 250 micro g over a period of one year; and b. A ‘scale factor’‘repeatability’ of less (better) than 1 250 ppm over a period of one year; or 3. Designed for use in inertial navigation or guidance systems and specified to function at linear acceleration levels exceeding 100 g; Note : paragraphs above do not apply to accelerometers limited to measurement of only vibration or shock. (b) Angular or rotational accelerometers, specified to function at linear acceleration levels exceeding 100 g.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.001
Code: 7A001
Accelerometers as follows and specially designed components therefor: (a) Linear accelerometers having any of the following: 1. Specified to function at linear acceleration levels less than or equal to 15 g and having any of the following: a. A ‘bias’‘stability’ of less (better) than 130 micro g with respect to a fixed calibration value over a period of one year; or b. A ‘scale factor’‘stability’ of less (better) than 130 ppm with respect to a fixed calibration value over a period of one year; 2. Specified to function at linear acceleration levels exceeding 15 g but less than or equal to 100 g and having all of the following: a. A ‘bias’‘repeatability’ of less (better) than 1 250 micro g over a period of one year; and b. A ‘scale factor’‘repeatability’ of less (better) than 1 250 ppm over a period of one year; or 3. Designed for use in inertial navigation or guidance systems and specified to function at linear acceleration levels exceeding 100 g; Note : paragraphs above do not apply to accelerometers limited to measurement of only vibration or shock. (b) Angular or rotational accelerometers, specified to function at linear acceleration levels exceeding 100 g.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A7.001
Code: 7A001
Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.012
Code: 6A006
Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.012
Code: 6A006
‘Compensation systems’ for the following: (a) ‘Magnetometers’ using optically pumped or nuclear precession (proton/ Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 20 pT (rms) per square root Hz at a frequency of 1 Hz, and using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ that will permit these sensors to realize a ‘sensitivity’ lower (better) than 2 pT rms per square root Hz. (b) Underwater electric field sensors having a ‘sensitivity’ lower (better) than 8 nanovolt per meter per square root Hz when measured at 1 Hz. (c) ‘Magnetic gradiometers’ specified in VII.A6.010 that will permit these sensors to realize a ‘sensitivity’ lower (better) than 3 pT/m rms per square root H Note: Fibre optic ‘intrinsic magnetic gradiometers’ having a magnetic gradient field ‘sensitivity’ lower (better) than 0,3 nT/m (rms) per square root Hz; ‘Intrinsic magnetic gradiometers’, using ‘technology’ other than fibre-optic ‘technology’, having a magnetic gradient field ‘sensitivity’ lower (better) than 0,015 nT/m (rms) per square root Hz.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.011
Code: 6A006
‘Compensation systems’ for the following: (a) ‘Magnetometers’ using optically pumped or nuclear precession (proton/ Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 20 pT (rms) per square root Hz at a frequency of 1 Hz, and using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ that will permit these sensors to realize a ‘sensitivity’ lower (better) than 2 pT rms per square root Hz. (b) Underwater electric field sensors having a ‘sensitivity’ lower (better) than 8 nanovolt per meter per square root Hz when measured at 1 Hz. (c) ‘Magnetic gradiometers’ specified in VII.A6.010 that will permit these sensors to realize a ‘sensitivity’ lower (better) than 3 pT/m rms per square root H Note: Fibre optic ‘intrinsic magnetic gradiometers’ having a magnetic gradient field ‘sensitivity’ lower (better) than 0,3 nT/m (rms) per square root Hz; ‘Intrinsic magnetic gradiometers’, using ‘technology’ other than fibre-optic ‘technology’, having a magnetic gradient field ‘sensitivity’ lower (better) than 0,015 nT/m (rms) per square root Hz.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.011
Code: 6A006
‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.010
Code: 6A006
‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.010
Code: 6A006
‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.009
Code: 6A006
‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.009
Code: 6A006
‘Magnetometers’ using superconductive technology (SQUID) and having any of the following: (a) SQUID systems designed for stationary operation, without specially designed subsystems designed to reduce in-motion noise, and having a ‘sensitivity’ equal to or lower (better) than 50 fT (rms) per square root Hz at a frequency of 1 Hz; or (b) SQUID systems having an in-motion-magnetometer ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz and specially designed to reduce in-
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.008
Code: 6A006
‘Magnetometers’ using superconductive technology (SQUID) and having any of the following: (a) SQUID systems designed for stationary operation, without specially designed subsystems designed to reduce in-motion noise, and having a ‘sensitivity’ equal to or lower (better) than 50 fT (rms) per square root Hz at a frequency of 1 Hz; or (b) SQUID systems having an in-motion-magnetometer ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz and specially designed to reduce in-
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.008
Code: 6A006
‘Monospectral imaging sensors’ and ‘multispectral imaging sensors’, designed for remote sensing applications and having any of the following: (a) An Instantaneous-Field-Of-View (IFOV) of less than 200 μrad (microradians); or (b) Specified for operation in the wavelength range exceeding 400 nm but not exceeding 30 000 nm and having all the following; 1. Providing output imaging data in digital format; and 2. Having any of the following characteristics: a. ‘Space-qualified’; or b. Designed for airborne operation, using other than silicon detectors, and having an IFOV of less than 2,5 mrad (milliradians); Note : Does not apply to monospectral imaging sensors' with a peak response in the wavelength range exceeding 300 nm but not exceeding 900 nm and only incorporating any of the following non ‘space-qualified’ detectors or non-‘space-qualified’‘focal plane arrays’: (a) Charge Coupled Devices not designed or modified to achieve ‘charge multiplication’; or (b) Complementary Metal Oxide Semiconductor devices not designed or modified to achieve ‘charge multiplication’.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.005
Code: 6A002
‘Monospectral imaging sensors’ and ‘multispectral imaging sensors’, designed for remote sensing applications and having any of the following: (a) An Instantaneous-Field-Of-View (IFOV) of less than 200 μrad (microradians); or (b) Specified for operation in the wavelength range exceeding 400 nm but not exceeding 30 000 nm and having all the following; 1. Providing output imaging data in digital format; and 2. Having any of the following characteristics: a. ‘Space-qualified’; or b. Designed for airborne operation, using other than silicon detectors, and having an IFOV of less than 2,5 mrad (milliradians); Note : Does not apply to monospectral imaging sensors' with a peak response in the wavelength range exceeding 300 nm but not exceeding 900 nm and only incorporating any of the following non ‘space-qualified’ detectors or non-‘space-qualified’‘focal plane arrays’: (a) Charge Coupled Devices not designed or modified to achieve ‘charge multiplication’; or (b) Complementary Metal Oxide Semiconductor devices not designed or modified to achieve ‘charge multiplication’.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A6.005
Code: 6A002
Telecommunication test, inspection and production equipment and specially designed components or accessories therefor, specially designed for the ‘development’ or ‘production’ of telecommunication equipment, functions or features. Note : Does not apply to optical fibre characterization equipment.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A5.002
Code: 5B002
Telecommunication test, inspection and production equipment and specially designed components or accessories therefor, specially designed for the ‘development’ or ‘production’ of telecommunication equipment, functions or features. Note : Does not apply to optical fibre characterization equipment.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A5.002
Code: 5B002
Electronic computers and related systems, equipment and components, or ‘electronic assemblies’ having any of the following: (a) Specially designed to have any of the following: 1. Radiation hardened to exceed any of the following specifications: a. Total dose 5 × 10 3 Gy (Si); b. Dose rate upset 5 × 10 6 Gy (Si)/s; or c. Single event upset 1 × 10 – 8 error/bit/day.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A4.001
Code: 4A001
Electronic computers and related systems, equipment and components, or ‘electronic assemblies’ having any of the following: (a) Specially designed to have any of the following: 1. Radiation hardened to exceed any of the following specifications: a. Total dose 5 × 10 3 Gy (Si); b. Dose rate upset 5 × 10 6 Gy (Si)/s; or c. Single event upset 1 × 10 – 8 error/bit/day.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A4.001
Code: 4A001
Body armour and components therefor, as follows: (a) Soft body armour not manufactured to military standards or specifications, or to their equivalents, and specially designed components therefor; (b) Hard body armour plates providing ballistic protection equal to or less than level IIIA (NIJ 0101.06, July 2008) or national equivalents. Note : this paragraph does not apply to body armour when accompanying its user for the user's own personal protection, to body armour designed to provide frontal protection only from both fragment and blast from non-military explosive devices, and to body armour designed to provide protection only from knife, spike, needle or blunt trauma.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.014
Code: 1A005
Body armour and components therefor, as follows: (a) Soft body armour not manufactured to military standards or specifications, or to their equivalents, and specially designed components therefor; (b) Hard body armour plates providing ballistic protection equal to or less than level IIIA (NIJ 0101.06, July 2008) or national equivalents. Note : this paragraph does not apply to body armour when accompanying its user for the user's own personal protection, to body armour designed to provide frontal protection only from both fragment and blast from non-military explosive devices, and to body armour designed to provide protection only from knife, spike, needle or blunt trauma.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.014
Code: 1A005
Metals and compounds, as follows: (a) Metals in particle sizes of less than 60 μm whether spherical, atomized, spheroidal, flaked or ground, manufactured from material consisting of 99 % or more of zirconium, magnesium and alloys thereof; (b) Boron or boron alloys, with a particle size of 60 μm or less, as follows: 1. Boron with a purity of 85 % by weight or more; 2. Boron alloys with a boron content of 85 % by weight or more; (c) Guanidine nitrate (CAS 506-93-4); (d) Nitroguanidine (NQ) (CAS 556-88-7) Note : The metals referred to here also refer to metals or alloys encapsulated in aluminium, magnesium, zirconium or beryllium.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A1.013
Code: 1C011
Metals and compounds, as follows: (a) Metals in particle sizes of less than 60 μm whether spherical, atomized, spheroidal, flaked or ground, manufactured from material consisting of 99 % or more of zirconium, magnesium and alloys thereof; (b) Boron or boron alloys, with a particle size of 60 μm or less, as follows: 1. Boron with a purity of 85 % by weight or more; 2. Boron alloys with a boron content of 85 % by weight or more; (c) Guanidine nitrate (CAS 506-93-4); (d) Nitroguanidine (NQ) (CAS 556-88-7) Note : The metals referred to here also refer to metals or alloys encapsulated in aluminium, magnesium, zirconium or beryllium.
Authority: EU
Prohibited Supply To: IRKP
Program: KP
EU Code: VII.A1.013
Code: 1C011
Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.011
Code: 1C009
Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.011
Code: 1C009
Non-fluorinated polymeric substances as follows: (a) Imides as follows: 1. Bismaleimides; 2. Aromatic polyamide-imides (PAI) having a ‘glass transition temperature (Tg)’ exceeding 290 °C; 3. Aromatic polyimides having a ‘glass transition temperature (Tg)’ exceeding 232 °C; 4. Aromatic polyetherimides having a ‘glass transition temperature (Tg)’ exceeding 290°C; (b) Polyarylene ketones; (c) Polyarylene sulphides, where the arylene group is biphenylene, triphenylene or combinations thereof; (d) Polybiphenylenethersulphone having a ‘glass transition temperature (Tg)’ exceeding 290°C. Note : Applies to the substances in liquid or solid ‘fusible’ form, including resin, powder, pellet, film, sheet, tape, or ribbon.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.010
Code: 1C008
Non-fluorinated polymeric substances as follows: (a) Imides as follows: 1. Bismaleimides; 2. Aromatic polyamide-imides (PAI) having a ‘glass transition temperature (Tg)’ exceeding 290 °C; 3. Aromatic polyimides having a ‘glass transition temperature (Tg)’ exceeding 232 °C; 4. Aromatic polyetherimides having a ‘glass transition temperature (Tg)’ exceeding 290°C; (b) Polyarylene ketones; (c) Polyarylene sulphides, where the arylene group is biphenylene, triphenylene or combinations thereof; (d) Polybiphenylenethersulphone having a ‘glass transition temperature (Tg)’ exceeding 290°C. Note : Applies to the substances in liquid or solid ‘fusible’ form, including resin, powder, pellet, film, sheet, tape, or ribbon.
Authority: EU
Prohibited Supply To: KP
Program: KP
EU Code: VII.A1.010
Code: 1C008

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‘Software’ for the ‘development’ of the material listed in VII.A1.

‘Software’ for the ‘development’ of the material listed in VII.A1.

Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.

Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.

‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;

‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;

‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;

‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;

Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.

Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.

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Search results

‘Software’ for the ‘development’ of the material listed in VII.A1.

‘Software’ for the ‘development’ of the material listed in VII.A1.

Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.

Underwater electromagnetic receivers incorporating ‘magnetometer’ specified by section 1 or 2 ‘Magnetic and electric field sensors’.

‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;

‘Magnetic gradiometers’ using multiple ‘magnetometers’ specified in VII.A6;

‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;

‘Magnetometers’ using optically pumped or nuclear precession (proton/Overhauser) ‘technology’ having a ‘sensitivity’ lower (better) than 2 pT (rms) per square root Hz at a frequency of 1 Hz;

Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.

Unprocessed fluorinated compounds as follows: (a) Fluorinated polyimides containing 10 % by weight or more of combined fluorine; (b) Fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.