ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 SPECIFICS ON FM BROADCAST INTERFERENCE presentation by Steve Mitchell, UK ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 A LITTLE BIT OF HISTORY Changes to ITU Radio Regulations recognition of potential interference to aeronautical systems studies within the ITU initial studies further enhanced studies final ITU recommendations 1979 - ITU World Administrative Radio Conference (WARC) agreed to extend the allocation for broadcasting in the frequency band 100 - 108 MHz. The allocation was intended for FM sound broadcasting applications and it was recognised that this new allocation had the potential to interfere with aeronautical systems (ILS, VOR and Com.) operating in the frequency band 108 - 136 MHz. 1984 - ITU Regional Administrative Conference for the Planning of VHF Sound Broadcasting (Region 1 and part of Region 3) took into account some initial compatibility with aeronautical systems. The Final Acts of this planning conference are generally known as the Geneva 84 agreement. 1995 - Work continued within the ITU to study compatibility between FM broadcasting and aeronautical systems with further refined models to those used under the Geneva 84 plan. This work resulted in 2 new ITU recommendations now numbered as ITU-R SM.1009 & SM.1140. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

GENERAL TYPES OF INTERFERENCE Four types of interference to consider Type A A1 A2 Type B B1 2 signal 3signal B2 Type A interference - This is generated within the FM broadcast station. A1 can occur when a number of broadcast frequencies are being transmitted from the same antenna or closely located antennas and an intermodulation product is produced on an aeronautical frequency, and transmitted from the broadcast site. A2 can occur when a broadcast frequency is operating very close to the band edge of 108 MHz and some of the energy from it’s transmission “splashes” over into the aeronautical band. Type B interference - This is generated within the aeronautical receiver. B1 can occur when a two or more broadcast signals are received by the aeronautical receiver and generate an intermodulation product within the receiver on the same frequency as that selected on the receiver. B2 occurs when a high level broadcast signal is received by the aeronautical receiver causing it to saturate. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

DIFFICULTIES WITH ILS/VOR/COM Extensive testing ILS/VOR receivers 3rd order intermodulation saturation Com receivers ICAO Annex 10 SARPs requirements 3rd order 2 signal Desensitisation Testing on ILS/VOR receivers and discussion with avionics manufacturers showed how susceptible these receivers were to Type A and Type B interference. Due to planning constraints within the FM broadcast band itself, it has been considered only necessary to address 3rd order intermodulation for both Type A1 & B1. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

DIFFICULTIES WITH GBAS AND VDL 4 Testing of GBAS and VDL 4 receivers same mechanisms apply as for ILS/VOR/COM avionics manufacturers tests above 112 MHz split in desensitisation requirements similar A1and B1 criteria as ILS/VOR ICAO Annex 10 SARPs requirements 3rd order 2 signal Desensitisation Bench testing of both GBAS and VDL 4 receivers have shown that the same Type A and Type B interference mechanisms that are valid for ILS/VOR receivers are also valid for GBAS and VDL 4. This is because the Type B1 and B2 interference are generated within the RF stage of the aeronautical receiver and this stage is similar for all VHF aeronautical receivers. Tests on desensitisation showed that it was possible to produce “tighter” requirements for aeronautical operation above 112 MHz and this is being reflected in the SARPs FM immunity requirements for GBAS and VDL 4. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 Co-ordination Why co-ordination? Between FM broadcasters mutual sharing Between FM broadcasters and aeronautical avoid interference to aeronautical services Between aeronautical and FM broadcasters avoid potential problems As should happen with any legal user of spectrum, co-ordination needs to take place between broadcasters in order to avoid mutual interference between their services. In general this is carried out through the radio administration in a State who is then able to keep an up to date database of FM broadcast stations. Given that a database exists for aeronautical services, it is then possible to plan in most cases either FM broadcast frequencies to avoid interference to aeronautical systems or for aeronautical frequencies to be selected that avoid the interference mechanisms highlighted on the previous slides. In Europe, given the relatively small size of some States, co-ordination is important and an international agreement known as LEGBAC has been signed by a number of States. This agreement is based upon the material contained in ITU-R Recommendation SM.1009 and is important in allowing both services to live successfully side by side. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

Example of co-ordination process Example of an approach to co-ordination European example inside a State databases computer tools agreement mechanism between States LEGBAC/EBU Internally, the approach taken in different European States varies. In all States however it is the radio administration that carries the necessary international co-ordination relating to FM compatibility. In the UK as an example, the FM broadcast planners, the CAA and the radio administration all have access to common database information regarding FM broadcast and aeronautical sites but all three use independently developed software tools based upon the ITU-R Recommendation SM.1009. From an aeronautical perspective, if a new FM broadcast station is required an assessment would be undertaken by the FM planners to check its compatibility with existing ILS/VOR. If no problem is identified then the proposal is submitted to both the CAA and the radio administration to confirm all is OK. If both these agree then the proposal goes forward for international co-ordination. If a problem is identified by the FM planner then the proposal can still be forwarded to the respective parties and the CAA will then have to make a decision on what it requires the broadcaster to do to avoid interference or whether it is acceptable operationally. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 TYPE A1 CALCULATION ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 TYPE A2 CALCULATION ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

TYPE B1 CALCULATION 2 SIGNAL ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

TYPE B1 CALCULATION 3 SIGNAL ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 TYPE B2 CALCULATION ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

TRIGGER AND CUT-OFF CALCULATIONS ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 ILS PROTECTION Fixed ILS test points are at set heights (max 600m) and angle from the localiser within the diagram shown. Additional test points are generated directly above a broadcast station when it falls within the ILS coverage diagram. It needs to be remembered when making calculations on potential interference that it will not only be broadcast transmitters close to the ILS service but may also include stations some distance away e.g. 100 km if these distant stations are above the cut-off threshold. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006 VOR PROTECTION Additional test points will be generated even if the broadcast transmitter falls outside of the DOC. If the broadcast transmitter is outside the DOC but within 3km of it’s edge, the information on the slide applies. If the broadcast transmitter is outside the DOC and greater than 3km from it’s edge then either the line of sight rule (B1 cut-off) applies or 125 km (A1 and B2) depending on the calculation being made. If the VOR is used say as an approach aid then additional test points can be added to check in a certain geographic location. ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006

WITH AUDIENCE PARTICIPATION PRACTICAL SOLUTIONS WITH AUDIENCE PARTICIPATION ICAO Regional Spectrum Seminar, Cairo, Egypt June 2006