Statutory Instruments
2017 No. 669
Electronic Communications
The Wireless Telegraphy (Mobile Communication Services on Aircraft) (Exemption) Regulations 2017
Made
25th May 2017
Coming into force
15th June 2017
The Office of Communications (βOFCOMβ), in exercise of the powers conferred by section 8(3) and section 122(7) of the Wireless Telegraphy Act 2006( 1 ) and in exercise of those sections of the Act( 2 ) as extended to the Bailiwick of Guernsey, to the Bailiwick of Jersey and to the Isle of Man, make the following Regulations.
Before making these Regulations, OFCOM have given notice of their proposal to do so in accordance with section 122(4)(a) of the Act, published notice of their proposal in accordance with section 122(4)(b) of the Act, and have considered the representations made to them before the time specified in the notice in accordance with section 122(4)(c) of the Act.
Citation and commencement
1. These Regulations may be cited as the Wireless Telegraphy (Mobile Communication Services on Aircraft) (Exemption) Regulations 2017 and come into force on 15th June 2017.
Revocation
2.The Wireless Telegraphy (Mobile Communication Services on Aircraft) (Exemption) Regulations 2014( 3 ) are hereby revoked.
Interpretation
3. In these Regulationsβ
βaircraft BTSβ means a base transceiver station located in an aircraft;
βapparatusβ means wireless telegraphyapparatus;
βdBmβ means decibels of power referenced to one milliWatt;
βe.i.r.p.β means equivalent isotropic radiated power;
βETSIβ means the European Telecommunications Standards Institute;
βGSM apparatusβ means apparatus used for an electronic communications network that complies with standards developed for the Global System for Mobile Communications (also known as GSM);
βkHzβ means kilohertz;
βLTE apparatusβ means apparatus used for an electronic communications network that complies with standards developed for the Long Term Evolution (also known as LTE);
βMHzβ means megahertz;
βmobile communication services on aircraftβ means electronic communications services provided by an undertaking to enable airline passengers to use public electronic communications networks during flight without establishing direct connections with electronic communications networks based on the ground;
βnetwork control unitβ means equipment located in an aircraft that ensures that signals transmitted by electronic communications networks based on the ground are not detectable within the cabin by raising the noise floor inside the cabin in mobile communication receive bands;
βpublic electronic communications networkβ has the meaning given to it by section 151(1) of the Communications Act 2003( 4 );
βrelevant networkβ means an electronic communications network that includes an aircraft BTS and a network control unit;
βsignalβ has the meaning given to it by section 32(10) of the Communications Act 2003;
βthe 1800 MHz bandβ means the 1710β1785 MHzfrequency band (for the uplink from the apparatus to the aircraft BTS) and the 1805β1880 MHzfrequency band (for the downlink from the aircraft BTS to the apparatus);
βthe 2100 MHz bandβ means the 1920β1980 MHzfrequency band (for the uplink from the apparatus to the aircraft BTS) and the 2110β2170 MHzfrequency band (for the downlink from the aircraft BTS to the apparatus);
βUMTS apparatusβ means apparatus used for an electronic communications network that complies with standards developed for the Universal Mobile Telecommunications System (also known as UMTS); and
βUMTS networksβ means electronic communications networks based on the ground that are available for use with UMTS apparatus.
Exemption
4. The use of any apparatus on board an aircraft which isβ
(a) registered in the British Islands; and
(b) flying over the British Islands and the territorial waters adjacent thereto, or, for the time being, beyond the British Islands and the territorial waters adjacent thereto,
is hereby exempt from the provisions of section 8(1) of the Wireless Telegraphy Act 2006 where the terms, provisions and limitations in regulation 5 are met.
Terms, provisions and limitations
5. β(1) The apparatus must comply with the standards published by ETSI( 5 ) which are referred to in paragraph (2).
(2) The standards referred to in paragraph (1) areβ
(a) for GSM apparatus, the GSM standard EN 301 511( 6 );
(b) for UMTS apparatus, the UMTS standardsβ
(i) EN 301 908β1( 7 ); and
(ii) EN 301 908β2( 8 );
(c) for LTE apparatus, the LTE standardsβ
(i) EN 301 908β1; and
(ii) EN 301 908β13( 9 ).
(3) The apparatus must only operate in the 1800 MHz band or the 2100 MHz band.
(4) The apparatus must only be usedβ
(a) for mobile communication services on aircraft;
(b) when the aircraft is three thousand metres or more above the ground;
(c) where the following operational requirements are metβ
(i) the aircraft BTS, while in operation, limits the transmission power of all GSM apparatus to a nominal value of 0 dBm/200 kHz at all stages of communication, including initial access;
(ii) the aircraft BTS, while in operation, limits the transmission power of all LTE apparatus in the 1800 MHz band to a nominal value of 5 dBm/5 MHz at all stages of communication; or
(iii) the aircraft BTS, while in operation, limits the transmission power of all UMTS apparatus in the 2100 MHz band to a nominal value of -6 dBm/3.84 MHz at all stages of communication and limits the number of users to no more than twenty; or
(d) where the e.i.r.p. outside the aircraft emanating from the apparatus transmitting in the frequency bands specified in the headings of Columns 2 to 4 of Table 1 of the Schedule does not, at each of the heights above ground specified in Column 1 of that Table, exceed the relevant value specified in Columns 2, 3 or 4 of that Table.
(5) The apparatus must not cause or contribute to any undue interference to any wireless telegraphy.
(6) The apparatus must connect directly to a relevant network that complies with the requirements set out in paragraph (7).
(7) The requirements referred to in paragraph (6) areβ
(a) the apparatus used in the relevant network must be prevented from operating on the frequency bands 925β960 MHz and 2110β2170 MHz to register with UMTS networks by the installation ofβ
(i) shielding in the aircraftβs fuselage that prevents signals from entering and leaving the fuselage; or
(ii) a network control unit;
(b) the relevant network must operate such that the total e.i.r.p. of the network control unit outside the aircraft for the frequency band 925β960 MHz does not, at each height above ground specified in Column 1 of Table 2 of the Schedule, exceed the relevant value specified in Column 2 of that Table;
(c) the relevant network must operate such that the total e.i.r.p. of the aircraft BTS outside the aircraft for the frequency band 1805β1880 MHz does not, at each height above ground specified in Column 1 of Table 2 of the Schedule, exceed the relevant value specified in Column 3 of that Table;
(d) the relevant network must operate such that the total e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 2110β2170 MHz does not, at each height above ground specified in Column 1 of Table 2 of the Schedule, exceed the relevant value specified in Column 4 of that Table;
(e) if the network control unit also operates on one of the frequency bands specified in the heading of Columns 2 to 5 of Table 3 of the Schedule, the network control unit and the aircraft BTS must operate such that the total e.i.r.p. outside the aircraft does not, at each height above ground specified in Column 1 of that Table, and at each of those frequency bands, exceed the relevant value specified in Columns 2, 3, 4 or 5 of that Table;
(f) the aircraft BTS must comply with the following standards published by ETSIβ
(i) the GSM standardsβ
(aa) EN 301 502( 10 ); and
(bb) EN 302 480( 11 );
(ii) the UMTS standardsβ
(aa) EN 301 908β1; and
(bb) EN 301 908β3( 12 ) or EN 301 908β11( 13 ); or
(iii) the LTE standardsβ
(aa) EN 301 908β1; and
(bb) EN 301 908β14( 14 ) or EN 301 908β15( 15 ); and
(g) the network control unit must comply with the standard EN 302 480 published by ETSI.
Philip Marnick
Group Director, Spectrum Group
For and by the authority of the Office of Communications
25th May 2017
Regulation 5
SCHEDULE
Table 1
Column 1 Height above ground (in metres) | Column 2 Maximum e.i.r.p., outside the aircraft, from the GSM apparatus for the 1800 MHz band (in dBm per 200 kHz) | Column 3 Maximum e.i.r.p., outside the aircraft, from the LTE apparatus for the 1800 MHz band (in dBm per 5 MHz) | Column 4 Maximum e.i.r.p., outside the aircraft, from the UMTS apparatus for the 2100 MHz band (in dBm per 3.84 MHz) |
|---|---|---|---|
| 3000 | β3.3 | 1.7 | 3.1 |
| 4000 | β1.1 | 3.9 | 5.6 |
| 5000 | 0.5 | 5 | 7 |
| 6000 | 1.8 | 5 | 7 |
| 7000 | 2.9 | 5 | 7 |
| 8000 | 3.8 | 5 | 7 |
Table 2
Column 1 Height above ground (in metres) | Column 2 Maximum e.i.r.p. of the network control unit outside the aircraft for the frequency band 925β960 MHz (in dBm per 3.84 MHz) | Column 3 Maximum e.i.r.p. of the aircraft BTS outside the aircraft for the frequency band 1805β1880 MHz (in dBm per 200 kHz) | Column 4 Maximum e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 2110β2170 MHz (in dBm per 3.84 MHz) |
|---|---|---|---|
| 3000 | β6.2 | β13.0 | 1.0 |
| 4000 | β3.7 | β10.5 | 3.5 |
| 5000 | β1.7 | β8.5 | 5.4 |
| 6000 | β0.1 | β6.9 | 7.0 |
| 7000 | 1.2 | β5.6 | 8.3 |
| 8000 | 2.3 | β4.4 | 9.5 |
Table 3
Column 1 Height above ground (in metres) | Column 2 Maximum e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 460β470 MHz (in dBm per 1.25 MHz) | Column 3 Maximum e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 791β821 MHz (in dBm per 10 MHz) | Column 4 Maximum e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 1805β1880 MHz (in dBm per 200 kHz) | Column 5 Maximum e.i.r.p. of the network control unit and the aircraft BTS outside the aircraft for the frequency band 2570β2690 MHz (in dBm per 4.75 MHz) |
|---|---|---|---|---|
| 3000 | β17.0 | β0.87 | β13.0 | 1.9 |
| 4000 | β14.5 | 1.63 | β10.5 | 4.4 |
| 5000 | β12.6 | 3.57 | β8.5 | 6.3 |
| 6000 | β11.0 | 5.15 | β6.9 | 7.9 |
| 7000 | β9.6 | 6.49 | β5.6 | 9.3 |
| 8000 | β8.5 | 7.65 | β4.4 | 10.4 |
Section 8(3) and section 122(7) were extended to the Bailiwick of Guernsey by article 2 of the Wireless Telegraphy (Guernsey) Order 2006 ( S.I. 2006/3325 ); to the Bailiwick of Jersey by article 2 of the Wireless Telegraphy (Jersey) Order 2006 ( S.I. 2006/3324 ); and to the Isle of Man by article 2 of the Wireless Telegraphy (Isle of Man) Order 2007 ( S.I. 2007/278 ).
Commission Decision 2016/2317/EU , OJEU No L 345, 20.12.2016, p 67, provides that βequivalent specificationsβ to ETSIβs standards may also be used. As such equivalent standards become available, Ofcom will amend these Regulations to make reference to them.
EN 301 511 (version 9.0.2) published in OJEU No C 149, 12.5.2017, p 14.
EN 301 908β1 (version 11.1.1) published in OJEU No C 149, 12.5.2017, p 15.
EN 301 908β2 (version 11.1.1) published in OJEU No C 149, 12.5.2017, p 15.
EN 301 908β13 (version 11.1.1) published in OJEU No C 149, 12.5.2017, p 16.
EN 301 502 (version 12.5.2) published in OJEU No C 149, 12.5.2017, p 13.
EN 302 480 (version 2.1.2) published in OJEU No C 149, 12.5.2017, p 22.
EN 301 908β3 (version 11.1.3) published in OJEU No C 149, 12.5.2017, p 16.
EN 301 908β11 (version 11.1.2) published in OJEU No C 149, 12.5.2017, p 16.
EN 301 908β14 (version 11.1.2) published in OJEU No C 149, 12.5.2017, p 16.
EN 301 908β15 (version 11.1.2) published in OJEU No C 149, 12.5.2017, p 17.