ANNEX I
Annex II to Regulation (EU) 2023/1529 is replaced by the following:
‘ANNEX II
LIST OF ITEMS REFERRED TO IN ARTICLE 2
INTRODUCTORY NOTES
1.
Where “ex” precedes the HS/CN code, the goods covered by Regulation (EU) 2023/1529 constitute only a part of the scope of the HS/CN code and are determined by both the description given in this Annex and the scope of the HS/CN code.
2.
Definitions of terms between “single quotation marks” are given in a technical note to the relevant item.
3.
Definitions of terms between “double quotation marks” can be found in Annex I to Regulation (EU) 2021/821.
Category 1 – Special materials and related equipment
Description
HS/CN code
Energetic materials as follows and mixtures thereof:
Ammonium picrate (CAS 131-74-8);
ex 2908 99 00
Black powder;
ex 3601 00 00
Hexanitrodiphenylamine (CAS 131-73-7);
ex 2921 44 00
Difluoroamine(CAS 10405-27-3);
ex 2812 90 00
Nitrostarch (CAS 9056-38-6);
ex 3505 10 50
Tetranitronaphthalene (CAS 28995-89-3, CAS 4793-98-0);
ex 2902 90 00
Trinitroanisol (CAS 606-35-9);
ex 2909 30 90
Trinitronaphthalene (CAS 55810-17-8, CAS 2243-94-9);
ex 2902 90 00
Trinitroxylene (CAS 632-92-8);
ex 2902 41 00
ex 2902 42 00
ex 2902 43 00
ex 2902 44 00
N-methyl-2-pyrrolidinone; 1-methyl-2-pyrrolidinone (CAS 872-50-4);
ex 2939 79 90
Dioctylmaleate (CAS 142-16-5);
ex 2917 19 80
Ethylhexylacrylate (CAS 103-11-7);
ex 2916 12 00
Triethylaluminium (TEA) (CAS 97-93-8), trimethylaluminium (TMA) (CAS 75-24-1), and other pyrophoric metal alkyls and aryls of lithium, sodium, magnesium, zinc or boron;
ex 2931 90 00
Nitrocellulose (CAS 9004-70-0);
3912 20
Nitroglycerin (or glyceroltrinitrate, trinitroglycerine) (NG) (CAS 55-63-0);
ex 2920 90 70
2,4,6-trinitrotoluene (TNT) (CAS 118-96-7);
ex 2904 20 00
Ethylenediaminedinitrate (EDDN) (CAS 20829-66-7);
ex 2920 90 70
Pentaerythritoltetranitrate (PETN) (CAS 78-11-5);
ex 2920 90 70
Lead azide (CAS 13424-46-9), normal lead styphnate(CAS 15245-44-0) and basic lead styphnate (CAS 12403-82-6), and primary explosives or priming compositions containing azides or azide complexes;
ex 2850 00 60
ex 2908 99 00
Diethyldiphenylurea (CAS 85-98-3); dimethyldiphenylurea(CAS 611-92-7); methylethyldiphenyl urea
ex 2924 21 00
N,N-diphenylurea (unsymmetrical diphenylurea) (CAS 603-54-3);
ex 2924 21 00
Methyl-N,N-diphenylurea (methyl unsymmetrical diphenylurea) (CAS 13114-72-2);
ex 2924 21 00
Ethyl-N,N-diphenylurea (ethyl unsymmetrical diphenylurea) (CAS 64544-71-4);
ex 2924 21 00
4-Nitrodiphenylamine (4-NDPA)(CAS 836-30-6);
ex 2921 44 00
2,2-dinitropropanol (CAS 918-52-5);
ex 2905 59 98
Fibrous and filamentary materials, not controlled by 1C010 ( 1 ) or 1C210 ( 2 ) , for use in “composite” structures and with a specific modulus of 3,18 x 10 6 m or greater and a specific tensile strength of 7,62 x 10 4 m or greater
ex 5402 11
ex 5501 11
ex 5503 11
ex 6815 11
ex 6815 12
ex 6815 19
ex 7019 19 10
Nanomaterials as follows:
a.
Semiconductor nanomaterials;
b.
Composite-based nanomaterials; or
c.
Any of the following carbon-based nanomaterials:
1.
Carbon nanotubes;
2.
Carbon nanofibres;
3.
Fullerenes;
4.
Graphenes; or
5.
Carbon onions.
Notes:
For the purposes of this control, nanomaterial means a material that meets at least one of the following criteria:
1.
Consists of particles, with one or more external dimensions in the size range 1 - 100 nm for more than 1 % of their number size distribution;
2.
Has internal or surface structures in one or more dimensions in the size range 1 - 100 nm; or
3.
Has a specific surface area by volume greater than 60 m 2 /cm 3 , excluding materials consisting of particles with a size lower than 1 nm
ex 2805 30
ex 2846 10
ex 2846 90
ex 5402 11
ex 5501 11
ex 5503 11
ex 6815 11
ex 6815 12
ex 6815 13
ex 6815 19
ex 7019 12
ex 7019 19
Tungsten, tungsten carbide and alloys, not controlled by 1C117 ( 3 ) , 1C226 ( 4 ) , II.A1.013 ( 5 ) or II.A1.017 ( 6 ) , containing more than 90 % tungsten by weight.
Note 1:
For the purposes of this control, wire is excluded
Note 2:
For the purposes of this control, surgical or medical instruments are excluded
2849 90 30
ex 8101 10
ex 8101 94
ex 8101 97
ex 8101 99
Ultra-High-Molecular-Weight Polyethylene (UHMWPE), not controlled by 1C010 ( 7 ) or 1C210 ( 8 ) , presented in any of the following forms:
a.
Primary forms;
b.
Filament yarn or monofilaments;
c.
Filament tows;
d.
Rovings;
e.
Staple or chopped fibres;
f.
Fabrics;
g.
Pulp or flocks.
ex 3901 20 10
ex 3901 20 90
ex 5402 39
ex 5402 49
ex 5402 59
ex 5402 69
ex 5404 90 90
ex 5407 20 11
ex 5407 20 19
ex 5501 90
ex 5503 90
ex 5506 90
ex 5601 30
Category 2 – Materials processing
Description
HS/CN code
Bearings and bearing systems not controlled by 2A001 ( 9 ) and 2A101 ( 10 ) :
a.
Ball bearings or Solid ball bearings, having tolerances specified by the manufacturer in accordance with ABEC 7, ABEC 7P, or ABEC 7T or ISO Standard Class 4 or better (or equivalents) and having any of the following characteristics;
1.
Manufactured for use at operating temperatures above 573 K (300 o C) either by using special materials or by special heat treatment; or
2.
With lubricating elements or component modifications that, according to the manufacturer’s specifications, are specially designed to enable the bearings to operate at speeds exceeding 2,3 million “DN”;
b.
Solid tapered roller bearings, having tolerances specified by the manufacturer in accordance with ANSI/ABMA Class 00 (inch) or Class A (metric) or better (or equivalents) and having either of the following characteristics:
1.
With lubricating elements or component modifications that, according to the manufacturer’s specifications, are specially designed to enable the bearings to operate at speeds exceeding 2,3 million “DN”; or
2.
Manufactured for use at operating temperatures below 219 K (-54 o C) or above 423 K (150 o C);
c.
Gas-lubricated foil bearing manufactured for use at operating temperatures of 561 K (288 o C) or higher and a unit load capacity exceeding 1 MPa;
d.
Active magnetic bearing systems;
e.
Fabric-lined self-aligning or fabric-lined journal sliding bearings manufactured for use at operating temperatures below 219 K (-54 o C) or above 423 K (150 o C).
ex 8482 10
ex 8482 20
ex 8482 30
ex 8482 40
ex 8482 50
ex 8482 80
ex 8482 91
Technical Notes:
1.
“DN” is the product of the bearing bore diameter in mm and the bearing rotational velocity in rpm.
2.
Operating temperatures include those temperatures obtained when a gas turbine engine has stopped after operation
Concealed object detection equipment operating in the frequency range from 30 GHz to 3 000 GHz and having a spatial resolution of 0,1 mrad (milliradian) up to and including 1 mrad (milliradian) at a standoff distance of 100 m; and components, other than those specified in the CML or in Regulation (EU) 2021/821.
Note: Concealed object detection equipment includes but is not limited to equipment for screening people, documents, baggage, other personal effects, cargo and/or mail.
Technical Note:
The range of frequencies span what is generally considered as the millimetre-wave, submillimetre-wave and terahertz frequency regions.
ex 8526 10
ex 8526 92
ex 8482 10 90
“Numerical control” units for machine tools and “numerically controlled” machine tools, other than those specified in the CML or in Regulation (EU) 2021/821 (see List of Items Controlled):
a.
“Numerical control” units for machine tools:
1.
Having four interpolating axes that can be coordinated simultaneously for contouring control; or
2.
Having two or more axes that can be coordinated simultaneously for contouring control and a minimum programmable increment better (less) than 0,001 mm;
3.
“Numerical control” units for machine tools having two, three or four interpolating axes that can be coordinated simultaneously for contouring control, and capable of receiving directly (on-line) and processing computer-aided-design (CAD) data for internal preparation of machine instructions; or
b.
Motion control boards specially designed for machine tools and having any of the following characteristics:
1.
Interpolation in more than four axes;
2.
Capable of real-time processing of data to modify tool path, feed rate and spindle data, during the machining operation, by any of the following:
a.
Automatic calculation and modification of part program data for machining in two or more axes by means of measuring cycles and access to source data; or
b.
Adaptive control with more than one physical variable measured and processed by means of a computing model (strategy) to change one or more machining instructions to optimize the process; or
3.
Capable of receiving and processing CAD data for internal preparation of machine instructions;
c.
“Numerically controlled” machine tools that, according to the manufacturer’s technical specifications, can be equipped with electronic devices for simultaneous contouring control in two or more axes and that have both of the following characteristics:
1.
Two or more axes that can be coordinated simultaneously for contouring control; and
2.
Positioning accuracies according to ISO 230/2 (2006), with all compensations available:
a.
Better than 15 μm along any linear axis (overall positioning) for grinding machines;
b.
Better than 15 μm along any linear axis (overall positioning) for milling machines; or
c.
Better than 15 μm along any linear axis (overall positioning) for turning machines; or
d.
Machine tools, as follows, for removing or cutting metals, ceramics or “composites”, that, according to the manufacturer’s technical specifications, can be equipped with electronic devices for simultaneous contouring control in two or more axes:
1.
Machine tools for turning, grinding, milling or any combination thereof, having two or more axes that can be coordinated simultaneously for contouring control and having any of the following characteristics:
a.
One or more contouring “tilting spindles”;
Note:
this applies to machine tools for grinding or milling only.
b.
“Camming” (axial displacement) in one revolution of the spindle less (better) than 0,0006 mm total indicator reading (TIR);
Note:
this applies to machine tools for turning only.
c.
“Run-out” (out-of-true running) in one revolution of the spindle less (better) than 0,0006 mm total indicator reading (TIR); or
d.
The positioning accuracies, with all compensations available, are less (better) than: 0,001 o on any rotary axis;
2.
Electrical discharge machines (EDM) of the wire feed type that have five or more axes that can be coordinated simultaneously for contouring control.
ex 8537 10 10
ex 8537 10 98
ex 8456 30
ex 8457 10
ex 8457 20
ex 8457 30
ex 8458 11
ex 8458 91
ex 8459 10
ex 8459 31
ex 8459 51
ex 8459 61
ex 8460 12
ex 8460 22
ex 8460 23
ex 8460 24
Assemblies, circuit boards or inserts specially designed for machine tools controlled in this annex:
a.
Spindle assemblies, consisting of spindles and bearings as a minimal assembly, with radial (“run-out”) or axial (“camming”) axis motion in one revolution of the spindle less (better) than 0,0006 mm total indicator reading (TIR);
b.
Single point diamond cutting tool inserts, having all of the following characteristics:
1.
Flawless and chip-free cutting edge when magnified 400 times in any direction;
2.
Cutting radius from 0,1 to 5 mm inclusive; and
3.
Cutting radius out-of-roundness less (better) than 0,002 mm TIR.
c.
Specially designed printed circuit boards with mounted components capable of upgrading, according to the manufacturer’s specifications, “numerical control” units, machine tools or feed-back devices to or above the levels specified in this Annex.
Technical Note:
This entry does not control measuring interferometer systems, without closed or open loop feedback, containing a laser to measure slide movement errors of machine-tools, dimensional inspection machines or similar equipment.
ex 8207 19
ex 8207 20
ex 8207 50
ex 8207 60
ex 8207 90
ex 8466 10
ex 8466 20 20
ex 8466 20 91
ex 8466 20 98
ex 8466 30
ex 8466 93
“Software” specially designed for the “development”, “production”, or “use” of the machine tools controlled in this Annex
“Numerical controlled” machine tools, having one or more linear axis with a travel length greater than 8 000 mm.
ex 8456
ex 8457
ex 8458
ex 8459
ex 8460
Category 3 – Electronics
Description
HS/CN code
Integrated circuits as follows: Field Programable Gate Array (FPGA), microcontrollers, microprocessors, signal processors, signal analysers, Analogue-to-Digital Converters (ADC), voltage regulators, video encoders and DC-DC converters
ex 8542 31
ex 8542 39
“Monolithic Microwave Integrated Circuits” (“MMIC”) amplifiers and devices
ex 8542 33
8543 70 02
RF filters or Electromagnetic Interference (EMI) filters
ex 8548 00
Tantalum capacitors
8532 21
Aluminium electrolytic capacitors
8532 22
Ceramic dielectric multilayer capacitors
8532 24
Storage integrated circuits, as follows:
a.
Electrically erasable programmable read-only memories (EEPROMs) with a storage capacity;
1.
Exceeding 16 Mbits per package for flash memory types; or
2.
Exceeding either of the following limits for all other EEPROM types:
a.
Exceeding 1 Mbit per package; or
b.
Exceeding 256 kbit per package and a maximum access time of less than 80 ns;
b.
Static random access memories (SRAMs) with a storage capacity:
1.
Exceeding 1 Mbit per package; or
2.
Exceeding 256 kbit per package and a maximum access time of less than 25 ns
ex 8542 32
Mounted piezo-electric crystals
8541 60
“Semiconductor devices” fulfilling the military standard MIL-STD-750D or other equivalent standard.
Technical note: For the purposes of this control “semiconductor devices” are electronic components that rely on the electronic properties of a semiconductor material, such as diodes, transducers, photosensitive devices, thyristors, diacs, triacs or transistors, including metal–oxide–semiconductor field-effect transistors (MOSFETs), FETs, FINFETs, IGBT, etc
ex 8541 10
ex 8541 21
ex 8541 29
ex 8541 30
ex 8541 49
ex 8541 51
ex 8541 59
Electrical plugs, connectors, jacks, jumpers, terminals, sockets or adapters, having any of the following:
a.
Rated for operation at an ambient temperature above 398K (125 o C);
b.
Rated for operation at an ambient temperature below 218K (-55 o C); or
c.
Rated for operation over the entire ambient temperature range from 218K (-55 o C) to 398K (125 o C).
ex 8536 69
ex 8536 90
Equipment for the manufacture of Printed Circuit Boards (PCBs) and specially designed components and accessories therefor, as follows:
a.
Film processing equipment;
b.
Solder mask coating equipment;
c.
Photo plotter equipment;
d.
Plating or electroplating deposition equipment;
e.
Vacuum chambers and presses;
f.
Roll laminators;
g.
Alignment equipment; or
h.
Etching equipment.
ex 8424 89 40
ex 8479 89 70
ex 8543 30 40
ex 8486 40
ex 8420 10 81
ex 8479 90 15
Automated optical inspection equipment for testing Printed Circuit Boards (PCBs), based on optical or electrical sensors, and capable to detect any of the following quality defects:
a.
Spacing, area, volume or height;
b.
Bill boarding;
c.
Components (presence, absence, flipped, offset, polarity, or skew);
d.
Solder (bridging, insufficient solder joints);
e.
Leads (insufficient paste, lifting);
f.
Tombstoning; or
g.
Electrical (shorts, opens, resistance, capacitance, power, grid performance).
ex 9030 31
ex 9030 32
ex 9030 33 20
ex 9030 33 70
ex 9030 39 00
ex 9030 84
ex 9030 89
ex 9031 49 10
ex 9031 49 90
ex 9031 80 20
ex 9031 80 80
Chemicals and materials of the type used in the production of Printed Circuit Boards (PCBs), as follows:
a.
PCB “composite” substrates made of glass fibre or cotton (e.g. FR-4, FR-2, FR 6, CEM-1, G-10, etc.);
b.
Multilayer PCB substrates, containing at least one layer of any of the following materials:
1.
Aluminium;
2.
Polytetrafluoroethylene (PTFE); or
3.
Ceramic materials (e.g. alumina, titanium oxide, etc.);
c.
Etchant chemicals;
1.
Ferric chloride (7705-08-0);
2.
Cupric chloride (7447-39-4);
3.
Ammonium persulphate (7727-54-0);
4.
Sodium persulphate (7775-27-1); or
5.
Chemical preparations specially designed for etching and containing any of the chemicals included in points 1 to 4.
Note:
This control does not control “chemical mixtures” containing one or more of the chemicals specified in this entry in which no individually specified chemical constitutes more than 10 % by the weight of the mixture.
d.
Copper foil with a minimum purity 95 % and of a thickness less than 100 μm;
e.
Polymeric substances and films thereof of less than 0,5 mm of thickness, as follows:
1.
Aromatic polyimides;
2.
Parylenes;
3.
Benzocyclobutenes (BCBs); or
4.
Polybenzoxazoles.
ex 3921 90 55
ex 8534 00
ex 2827 39 20
ex 2827 39 85
ex 2833 40
ex 3824 99 96
ex 7410 11
ex 7410 21
ex 3919 10 80
ex 3919 90 80
“Software” specially designed for the test, “development” or “production” of Printed Circuit Boards (PCBs).
N/A
Radio frequency systems and equipment not included in Regulation (EU) 2021/821, components and accessories, specially designed or modified to develop any of the following functions:
a.
Take control and command of UAVs.
b.
Deliberately and selectively interfere with, deny, inhibit, degrade or deceive radio frequency signals for the control and command of unmanned aircraft.
c.
Use the specific features of the radio frequency protocol used by drones to interfere with their operation.
ex 8517 62
ex 8517 71
ex 8517 79
ex 8525 50
ex 8526 92
ex 8529 10
ex 8543 70 90
Category 4 – Computers
Description
HS/CN code
Electronic computers and related equipment, and “electronic assemblies” and specially designed components therefor, rated for operation at an ambient temperature above 343 K (70 o C)
ex 8471
“Digital computers”, including equipment of “signal processing” or “image enhancement”, having an “Adjusted Peak Performance” (“APP”) equal to or greater than 0,0128 Weighted TeraFLOPS (WT);
ex 8471
Hybrid computers and “electronic assemblies” and specially designed components therefor containing analogue-to-digital converters having all of the following characteristics:
a.
32 channels or more; and
b.
A resolution of 14 bit (plus sign bit) or more with a conversion rate of 200 000 Hz or more
ex 8471
Category 5 – Telecommunications and information security
Description
HS/CN code
Telecommunications apparatus, devices or machines, for “aircraft”
ex 8517 62
ex 8517 69
Category 6 – Sensors and lasers
Description
HS/CN code
Cameras for aerial survey
ex 9006 30
Optical Sensors as follows:
a.
Image intensifier tubes and specially designed components therefor, as follows:
1.
Image intensifier tubes having all the following:
a.
A peak response in wavelength range exceeding 400 nm, but not exceeding 1 050 nm;
b.
A microchannel plate for electron image amplification with a hole pitch (centre-to-centre spacing) of less than 25 μm; and
c.
Having any of the following:
1.
An S-20, S-25 or multialkali photocathode; or
2.
A GaAs or GaInAs photocathode;
2.
Specially designed microchannel plates having both of the following characteristics:
a.
15 000 or more hollow tubes per plate; and
b.
Hole pitch (centre-to-centre spacing) of less than 25 μm
b.
Direct view imaging equipment operating in the visible or infrared spectrum, incorporating image intensifier tubes having the characteristics of the image intensifier tube included in this control.
ex 8529 90
ex 8542 39
ex 9006 91
ex 9013 80
ex 9025 80
ex 9025 90
ex 9026 80
ex 9026 90
ex 9027 50
ex 9032 10
Night vision cameras
8525 83
Cameras that meet the criteria of Note 3 to 6A003.b.4 ( 11 )
ex 8525 89
ex 9006 30
Airborne laser rangefinders
ex 9013 20 00
ex 9013 80 00
ex 9013 90 80
ex 9015 10
ex 9015 80
ex 9015 90
ex 9031 80 20
ex 9031 80 80
ex 9031 90 00
ex 9033 00 90
“Primary cells” or batteries and components having an energy density of 150 Wh/kg or more at 293 K (20 o C)
Technical Notes:
1.
For the purposes of this control, “energy density” (Wh/kg) is calculated from the nominal voltage multiplied by the nominal capacity in ampere-hours (Ah) divided by the mass in kilograms. If the nominal capacity is not stated, energy density is calculated from the nominal voltage squared then multiplied by the discharge duration in hours divided by the discharge load in ohms and the mass in kilograms.
2.
For the purposes of this control, a “cell” is defined as an electrochemical device, which has positive and negative electrodes, an electrolyte, and is a source of electrical energy. It is the basic building block of a battery.
3.
For the purposes of this control, a “primary cell” is a “cell” that is not designed to be charged by any other source.
ex 8506
Radar systems, equipment and major components, other than those specified in the CML or in Regulation (EU) 2021/821, and specially designed components therefor, as follows:
a.
Airborne radar equipment, other than those specified in the CML or in Regulation (EU) 2021/821, and specially designed components therefor;
b.
“Space-qualified”“laser” radar or Light Detection and Ranging (LIDAR) equipment specially designed for surveying or for meteorological observation;
c.
Millimeter wave enhanced vision radar imaging systems specially designed for rotary wing aircraft and having all of the following:
1.
Operates at a frequency of 94 GHz;
2.
An average output power of less than 20 mW;
3.
Radar beam width of 1 degree; and
4.
Operating range equal to or greater than 1 500 m
ex 8526 10
ex 8529 90
ex 9015 10
ex 90
“Magnetometers”, “Superconductive” electromagnetic sensors, and specially designed components therefor, as follows:
a.
“Magnetometers”, other than those specified in the CML or in Regulation (EU) 2021/821, having a “sensitivity” lower (better) than 1,0 nT (rms) per square root Hz
Technical Note: For the purposes of this control, “sensitivity” (noise level) is the root mean square of the device-limited noise floor which is the lowest signal that can be measured
b.
“Superconductive” electromagnetic sensors, components manufactured from “superconductive” materials:
1.
Designed for operation at temperatures below the “critical temperature” of at least one of their “superconductive” constituents (including Josephson effect devices or “superconductive” quantum interference devices (SQUIDS));
2.
Designed for sensing electromagnetic field variations at frequencies of 1 kHz or less; and
3.
Having any of the following characteristics:
a.
Incorporating thin-film SQUIDS with a minimum feature size of less than 2 μm and with associated input and output coupling circuits;
b.
Designed to operate with a magnetic field slew rate exceeding 1 x 10 6 magnetic flux quanta per second;
c.
Designed to function without magnetic shielding in the earth’s ambient magnetic field; or
d.
Having a temperature coefficient less (smaller) than 0,1 magnetic flux quantum/K
ex 9015 80
ex 9031 80
Gravity meters (gravimeters) designed or modified for ground use, other than those specified in the CML or in Regulation (EU) 2021/821, as follows:
a.
Having a static accuracy of less (better) than 100 μGal; or
b.
Being of the quartz element (Worden) type
ex 9015 80
“Software”, other than those specified in the CML or in Regulation (EU) 2021/821, specially designed for the “development”, “production”, or “use” of goods controlled by 6A002 ( 12 ) , 6A003 ( 13 ) , and radars, magnetometers and gravity meters included in Category 6 of this Regulation.
N/A
Category 7 – Navigation and avionics
Description
HS/CN code
Inertial Navigation systems, Inertial Measuring Units (IMU), accelerometers or gyros, and parts and accessories thereof
ex 9014 20
ex 9014 80
ex 9014 90
Aerials and aerial reflectors for “aircraft” or guidance systems, parts suitable for use therewith
ex 8517 71
ex 8529 10
“Satellite navigation system” equipment, including aerials and antennas suitable for the reception of GNSS signals, and parts thereof
ex 8526 91
ex 8529 90
ex 8526 10
ex 8526 92
ex 8517 71
ex 8529 10
Digital flight data recorders
Note: This control does not cover those digital flight data recorders which meet all of the following:
a.
Certified by the civil aviation authorities of one or more EU Member States or Wassenaar Arrangement Participating States; and
b.
Intended for non-military “aircraft” for which any of the following has been issued by civil aviation authorities of one or more EU Member States or Wassenaar Arrangement Participating States for the “aircraft” with this specific engine type:
1.
A civil type certificate; or
2.
An equivalent document recognised by the International Civil Aviation Organization (ICAO).
8543 70 04
Radio navigational aid apparatus for “aircraft” and specially designed components thereof
ex 8526 91
ex 8529 90
Flight control units for “Unmanned Aerial Vehicles” (“UAVs”), and parts thereof
ex 8537 10
ex 8807 30
Remote control units for “Unmanned Aerial Vehicles” (“UAVs”), and parts thereof
ex 8517 61
ex 8526 92
ex 8537 10
ex 8543 70 90
ex 8807 30
Category 9 – Aerospace and propulsion
Description
HS/CN code
“Unmanned aerial vehicles” (“UAVs”) other than those designed for carrying passengers, and parts thereof
8806 21
8806 22
8806 23
8806 24
8806 29
8806 91
8806 92
8806 93
8806 94
8806 99
ex 8807 30
Aero gas turbine engines (turboprop, turbojet and turbofan) for “aircraft”, and specially designed components thereof
ex 8411 11
ex 8411 12
ex 8411 21
ex 8411 22
ex 8411 91
Spark-ignition reciprocating or rotary internal combustion piston engines for “aircraft”
8407 10
Parts suitable for use solely or principally with internal combustion piston engine for “aircraft”
8409 10
Compression-ignition internal combustion piston engines for “aircraft”
ex 8408 90
Servomotor for “Unmanned Aerial Vehicles” (“UAVs”)
ex 8501
ex 8807 30
Launch systems for “UAVs”, and parts thereof
ex 8805 10
ex 8807 30
Ground support equipment for “UAVs”
ex 8805 10
Testing equipment for aerospace and propulsion, and specially designed components therefor, other than those specified in the CML or in Regulation (EU) 2021/821.
Note: this control includes the following items, and the related “software”:
—
Load release test bench and other facilities to simulate safe separation from the “aircraft” or launch system.
—
Salt spray chambers for temperature and humidity ranges to perform oxidation tests.
—
Chambers to perform fungus tests.
—
Devices for acceleration, shock and transport shock tests.
—
Vibration chambers with altitude, temperature and humidity ranges.
—
Chambers for explosive decompression tests.
—
Chambers for temperature, humidity and solar radiation tests.
—
Devices to estimate the captured solar radiation for solar radiation tests.
—
Vibrators for sinusoidal, random and shock tests, combinable with altitude, temperature and humidity tests.
—
Vibration table for longitudinal and lateral tests combined with temperature chambers.
—
Overpressure chambers.
ex 9031 20
ex 9031 80
“Flight termination” systems and specifically designed components .
Note: this control covers digital and analogic communications standards for Flight Termination Systems, including encrypted operational modes.
Technical notes:
1.
For the purposes of this control, “flight termination” can involve a controlled descent, self-destruction, or detonation of the warhead to minimize the risk of collateral damage
2.
For the purposes of this control, components include ground and on board equipment, command exciters, encoders, amplifier controllers, command verification receivers, amplifiers, transmitters, decoders and receivers.
ex 8526 92
ex 8529 90
Category 10 – Technology
“Technology”, designed or specifically adapted for the test, development or production of equipment controlled in this Annex
“Technology” for the “use” of machine tools controlled in this Annex.’
( 1 ) Ref. Annex I to Regulation (EU) 2021/821
( 2 ) Ref. Annex I to Regulation (EU) 2021/821
( 3 ) Ref. Annex I to Regulation (EU) 2021/821
( 4 ) Ref. Annex I to Regulation (EU) 2021/821
( 5 ) Ref. Annex II to Regulation (EU) No 267/2012
( 6 ) Ref. Annex II to Regulation (EU) No 267/2012
( 7 ) Ref. Annex I to Regulation (EU) 2021/821
( 8 ) Ref. Annex I to Regulation (EU) 2021/821
( 9 ) Ref. Annex I to Regulation (EU) 2021/821
( 10 ) Ref. Annex I to Regulation (EU) 2021/821
( 11 ) Ref. Annex I to Regulation (EU) 2021/821
( 12 ) Ref. Annex I to Regulation (EU) 2021/821
( 13 ) Ref. Annex I to Regulation (EU) 2021/821