soareremvaudioconversionkit
Soarer EMV audio conversion kit
Copyright 2005 Unique Design Concepts
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Soarer EMV audio conversion kit
author: Vladimir Apostolov
email: udc.aus@gmail.com
Melbourne, Australia 2005
Version 1.1
Disclaimer
The installation of this kit is complex and carries a potential risk of damaging your car as well as the components comprising this kit. Unique Design Concepts does not assume any responsibility if the kit does not function as anticipated in your car. Prior to being advertised for selling, the kit was successfully implemented in Soarer model 1991.
It is the responsibility of the person installing the kit to ensure that all steps of the installation process are carried with utmost care and all necessary precautions are taken to ensure that the car, the audio unit, and the kit components are not damaged. Unique Design Concepts does not assume any responsibilities for damages caused as a result of improper installation. Unique Design Concepts does not assume any responsibilities and liabilities for damages and side effects to the car or personal injuries in the process of installing and using the audio conversion kit.
Unique Design Concepts reserves the rights to change the kit and the installation instructions document at any time without prior notification. The document is prepared with every intention to be correct, but it is not guaranteed to be free of errors.
The quality of the radio reception could vary from perfect to poor depending on the strength and the quality of the radio signal. This is not a limitation of the conversion but a limitation of the radio unit capabilities and its antennas. The Soarer FM radio antennas are optimized for horizontal polarization (horizontal wires on the back window) while the antennas of most other cars are optimized for vertical polarization (vertical telescopic antennas). Some FM radio stations in Australia transmit only vertical polarization considered most optimal for mobile FM receivers. The Soarer FM radio will receive such channels with poorer quality compared to other cars. The horizontal polarization antennas are direction sensitive. The strongest signal is received when the antenna dipoles are perpendicular to the direction towards the transmitter and lowest when the dipoles are aligned to the direction towards the transmitter. This is another disadvantage of the Soarer FM antennas compared to other cars, which are less sensitive to the transmitter location.
All considerations have been taken in the kit hardware and software design to ensure minimum power consumption. The current consumption is less than 5ma, typical 2 to 3ma.
Sales inquiries and technical support
For sales inquiries and technical support please email to udc.aus@gmail.com
Getting started
Please read this document thoroughly before starting any work. Some parts of it will make more sense after reading the document for a second time.
The audio conversion is done in five steps, each of them implementing a particular modification function. After each step a test is performed to verify that the implemented functions work as expected. Do not continue to the next step if the test fails. The audio conversion steps are:
- EMV audio display conversion. At completion of this step all EMV audio screen texts will be translated from Japanese to English. The FM frequency numbers will be displayed correctly. The radio station names will be displayed for the known AM/FM transmitters in the area.
- Sound processor conversion. At completion of this step the TV/DVD audio signal will inherit the BASS, MID, TREB and FADER settings done in the DSP/equalizer EMV menu.
- DSP surround sound processor conversion. At completion of this step the TV/DVD audio signal will inherit the surround sound settings done in the DSP/equalizer EMV menu.
- FM frequency synthesiser conversion. At completion of this step nothing should change and the AM and FM radio should work as before. This is done in preparation for the last step.
- FM tuner retuning. At completion of this step the external FM expander can be removed and the FM radio will be capable to natively receive frequencies between 87MHz-109MHz.
Figure 1 shows the contents of the kit.
Figure 1
The bag on the left contains a ribbon cable to one side of which the black IDC socket is connected and the other side will connect to 16 points on the top radio unit PCB. The bag in the top right corner contains three resistors and eight surface mount varicaps, which will be directly soldered to the top radio PCB. The bag in the bottom right corner contains a PCB and components to be assembled together. The ribbon cable terminated with the black IDC socket plugs onto this PCB.
Figure 2 shows the kit PCB and its components. The PCB on the left illustrates the finished product with all components loaded (the PCB and components it comprises of are shown next to it; they are to be assembled by the user).
Figure 2
Dismounting and opening the radio unit
The radio unit is located under the left back seat. Please obtain a copy of the TV tuner conversion kit document for the full details of how to access the modules under the back seat. That document is accessible at the following link:
Figure 3 shows the dismounted radio unit.
Figure 3
To remove the radio unit cover, undo the screw circled in red on Figure 4 below and a second one located symmetrically on the other side of the unit.
Figure 4
Figure 5 shows the insides of the radio unit.
Figure 5
EMV audio display conversion
This step makes the EMV audio screens to display all Japanese text in English. It also corrects the FM frequency numbers and displays AM/FM station names for the known radio transmitters in the area of reception.
Assemble the black IDC connector to one end of the ribbon cable as shown on Figure 6. Please note the orientation of the cable – the blue wire marked with the red circle should be on the left. Note also the orientation of the black connector. The polarization tab marked with the yellow ellipse should point up. Insert and adjust the ribbon cable in the two connector slots and apply even pressure on both sides of the connector until a click is heard. If the pressure is applied only on a part of the connector it can easily break.
Figure 6
Solder the components on the PCB as shown on Figure 7.
Figure 7
The eight pads surrounded with a purple square are used to select the radio station names according to the area where the car is located in. Each location is coded via the four vertical links labelled from left to right as A, B, C and D. The table below maps the geographical locations to the links that need to be connected.
Table 1
The six pads surrounded with a cyan square are used to select the expander type fitted to the radio. Each expander frequency is coded via the three vertical links labelled from left to right as E, F and G. The table below maps the expander frequency to the links that need to be connected.
Table 2
The “No Expander” setting should be done after the last installation step when the expander is disconnected and the radio is ready to receive native frequencies from 87.0MHz to 109.0MHz.
Other things to note:
- Use the three ICs that are not marked with sticker labels on top.
- Note the IC’s orientation marks circled in white.
- The values of the three resistors circled in red are 100k.
- The value of the resistor circled in yellow is 2k2. Note the orientation of the orange diode on the left.
- The value of the resistor circled in blue is 7k5.
Figure 8 shows the 16-pin header (circled in red) assembled on the back of the PCB.
Figure 8
This header connects to the black IDC socket with the ribbon cable. Note the PCB version number circled in yellow. Version 1.0 will require some additional jumpers as explained later.
Next the two nylon spacers have to be inserted in the radio unit wall. To make it easier, squeeze them first as shown on Figure 9.
Figure 9
Then insert them in the radio unit wall with the help of pliers as shown on Figure 10.
Figure 10
Cut the two tracks circled in yellow on Figure 11.
Figure 11
Figure 12 gives a closer view of the cut circled in yellow. The areas circled in red have to be cleaned from the protective lacquer to allow two wires from the ribbon cable to be soldered as described in the next step.
Figure 12
Attach the PCB to the nylon spacers and connect the IDC socket with the ribbon cable as shown on Figure 13.
Figure 13
Trim the length of the seven left side wires of the ribbon cable (blue, green, yellow, orange, red, brown and black) and solder them to the main radio unit PCB. Figure 14 and Figure 15 give a different and closer view of the seven connections.
Figure 14
Figure 15
Next step is to test this mod. Plug the radio unit in the car as shown on Figure 16.
Figure 16
Turn the car audio on, tune the AM and FM channels and check if the EMV user screens look similarly to the following pictures.
Figure 17
Figure 18
Figure 19
Figure 20
Figure 21
Figure 22
Figure 23
Sound processor conversion.
After the sound processor conversion is completed the TV/DVD audio signal will inherit the BASS, MID, TREB and FADER settings done in the DSP/equalizer EMV menu.
Solder the 56R resistor (circled in red), the IC labelled with number 2 and the capacitor (circled in yellow) as shown on Figure 24.
Figure 24
Figure 25 shows the bottom view of the PCB. If the version number (circled in purple) is 1.0 connect the links circled in red and yellow (use a wire from a resistor lead for the yellow link).
Figure 25
Cut the two tracks circled in yellow and going to the two resistors circled in red as shown on Figure 26.
Figure 26
Solder the two resistors (560R) circled in yellow as shown on Figure 27 over the tracks cut in the previous step (use the IC601 and the surface mount resistor pads).
Figure 27
Solder the white and grey ribbon cable wires onto the two vias circled in yellow as shown on Figure 28
Figure 28
Plug the radio unit in the car, turn the radio on and adjust the equalizer settings circled in red as shown on Figure 29 and Figure 30.
Figure 29
Figure 30
Turn the TV/DVD on and ensure that the sound maintains the equalizer settings shown above.
DSP surround sound processor conversion.
After the DSP surround sound conversion is completed the TV/DVD audio signal will inherit the surround sound settings done in the DSP/equalizer EMV menu.
Solder the IC with the label 3 and the capacitor circled in red as shown on Figure 31.
Figure 31
Check the PCB version circled in yellow on Figure 32. If version 1.0, solder the link circled in red (use a wire from a resistor lead for the link).
Figure 32
Cut the track circled in red and clean the tracks circled in yellow from the protective lacquer - Figure 33.
Figure 33
Solder the 180R resistor circled in yellow to the two tracks cleaned in the previous step as shown on Figure 34.
Figure 34
Solder the blue and purple ribbon cable wires to the bottom legs of the two capacitors circled in yellow on Figure 35.
Figure 35
Plug the radio unit in the car, turn the radio on and select the DSP surround sound mode circled in red on Figure 36.
Figure 36
Turn the TV/DVD on and verify the sound maintains the DSP surround sound mode selected above.
FM frequency synthesiser conversion
After this step nothing should change and the AM and FM radio should work as before. This is done in preparation for the last step.
Solder the IC with the label 1 and the capacitor circled in red on Figure 37.
Figure 37
Cut the three tracks circled in red on Figure 38. Clean the two vias circled in yellow from the protective lacquer.
Figure 38
Solder the last five wires of the ribbon cable as shown on Figure 39; the yellow and green wires to the two vias cleaned in the previous step (circled in red); the orange, red and brown wires to pin two, three and four of IC602 (circled in yellow).
Figure 39
Figure 40 and Figure 41 give a closer view of those five connections.
Figure 40
Figure 41
At this point all ribbon cable wires are soldered and the radio unit resembles Figure 42.
Figure 42
Plug the radio unit in the car, tune the FM and AM channels and verify that all works as before.
FM tuner retuning.
After this step is completed the external FM expander can be removed and the FM radio will be capable to natively receive frequencies between 87MHz-109MHz.
Extract out (about 2 centimetres upwards) the six pin-through connectors, of various sizes, circled in red on Figure 43. Undo the six screws circled in yellow. Undo the screw circled in blue.
Figure 43
Take out the top PCB from the radio box. Unsolder and bend out the two FM tuner tabs circled in yellow on Figure 44. Now slide up the FM tuner cover.
Figure 44
Unsolder the four varicaps circled in red from the FM tuner board as shown on Figure 45.
Figure 45
Solder the eight varicaps provided with the kit, two for one replacement as shown on Figure 46.
Figure 46
The varicaps are connected common cathode as shown on Figure 47.
Figure 47
The cathode is marked with a band on the varicap package.
Remove all links, done in the previous steps, between the six holes circled in red on Figure 48.
Figure 48
Put back the FM tuner cover and fully assemble the radio unit. The pin-through connectors can be easily inserted back if the bottom radio unit cover is removed and strong light applied under the bottom PCB board. This improves the visibility of where the pin-through connectors have to be inserted.
Plug the radio unit in the car, connect the antenna plugs without the expander, tune the FM and AM channels and verify that all works OK. Now the FM1 channel selection screen will tune from 87.0MHz to101.0MHz and FM2 channel selection screen from 95.0MHz to109.0MHz as shown on Figure 49 and Figure 50.
Figure 49
Figure 50
Programming new radio station names
The kit is shipped with pre-programmed radio station names listed in “List of the pre-programmed station names” chapter. Lists of the current FM and AM station names for UK, Australia and New Zealand could be found on the following links:
http://www.ofcom.org.uk/static/radiolicensing/amfm/analogue-main.htm
http://www.aba.gov.au/broadcasters/radio.htm
http://spectrumonline.med.govt.nz/other-reports.html
To change, add or erase radio station names, a serial cable needs to be built. The schematic diagram of the cable is shown on Figure 51.
Figure 51
The cable components are not part of the kit and should be purchased separately. They are freely available from electronic parts shops such as Jaycar. The A9 SOCKET 16 is the same as the one shown on Figure 6. The colour-filled circles on Figure 51 match the colours of the ribbon cable wires. Once the cable is built, connect the audio converter board jumpers as specified in Table 1. Next, connect the cable to the audio converter board (A9 SOCKET 16) and to a PC serial port (A1 DB9 FEMALE). Apply +5V power to the cable (A2 CON2) and run Windows HyperTerminal on the PC. Configure the terminal serial port to 1200 bits per seconds, 8 data bits, no parity, 1 stop bit, no flow control. Check terminal ASCII setup “Send line ends with line feeds” and uncheck “Echo typed characters locally”. Finally click on Call button to connect. Type a single character “@” and the following text will be printed on the terminal window:
B0
(
F0887SPORTS
F08951VFM
F09111CMS
F10152JJJ
F10472ROC
F10552SBS
F1063MIX
A0936ABC
A10532CA
A12062CC
A1440ABC
)
These are the station name definitions for bank 0 – Canberra (ACT) as specified in Table 1. The first line “B0” indicates that these are station names for bank 0. Here is a dissection of F0887SPORTS line (F-0887-SPORTS):
F – this is a FM station (substitute “F” with “A” for AM station)
0887 – the frequency is 88.7 MHz (frequency is in KHz for AM station)
SPORTS – this is the station name (maximum length 6 characters).
There are 15 station name banks (B0, B1, B2 … B14), which are pre-programmed for Australia as shown in Table 1.
The following table defines the commands that could be sent via the terminal to the audio conversion board:
Examples:
To print out the contents of bank 7 - Darwin (NT) do the following steps:
Type “B7” (type only the characters between the semicolons).
Press enter.
Type “@”.
The following will be output to the terminal:
B7
(
F09158KIK
F09698SUN
F1001HOT
F1005CAAMA
F1025ABC
F10338JJJ
F1041TOP
F1049MIX
F10578DDD
A0657RADNAT
A08288SUN
A09008HA
)
Note that the second line is left bracket “(“ and the last line is right bracket “)”.
To erase the second station name in the above list (F09698SUN) and add a new station name F0970Test1:
1. Create a text file foo.txt with the following five lines:
B7
(
F0969
F0970Test1
)
Use Notepad or another text editor that doesn’t format the text. Make sure there are no spaces or tabs at the end of each line.
2. Click on the Windows terminal “Transfer->Send Text File…” and select the foo.txt file created above.
3. Verify that “OK” is printed on the Windows terminal.
4. Type “@” and check that this is printed out:
B7
(
F09158KIK
F0969
F0970Test1
F1001HOT
F1005CAAMA
F1025ABC
F10338JJJ
F1041TOP
F1049MIX
F10578DDD
A0657RADNAT
A08288SUN
A09008HA
)
When the FM radio is tuned to 96.9MHz, no name will be displayed on the EMV for that frequency. When the FM radio is tuned to 97.0MHz, “Test1” will be displayed on the EMV for that frequency.
To verify the station names in bank 7 - Darwin (NT):
1. Create a file foo_v.txt with the following contents:
B7
?
F09158KIK
F0969
F0970Test1
F1001HOT
F1005CAAMA
F1025ABC
F10338JJJ
F1041TOP
F1049MIX
F10578DDD
A0657RADNAT
A08288SUN
A09008HA
)
Note that the text above is exactly the same as the output of “@” command for bank B7 except the second line which is “?” instead of “(“.
2. Click on the Windows terminal “Transfer->Send Text File…” and select the foo_v.txt file created above.
3. Verify that “OK” is printed on the Windows terminal.
To erase all names in all banks:
Type “E” and wait a few seconds.
Verify that “OK” is printed out.
The built-in monitor, which processes the commands and station names, has limited error reporting capabilities. If a syntax error is detected, it prints out an error number, line number and bank number. For example the following block defines a station name “TooLongName” in the fourth line, which is 11 characters while the maximum allowable is 6 characters.
B12
(
F10578DDD
A0657TooLongName
A08288SUN
A09008HA
)
Sending the above text will result in the following error printed on the Windows terminal:
4E0002B12
The first character is the error number “4”. The second letter is always “E” (for error). The following four digits “0002” specify the line number in bank 12 (B12) where the error occurred. Note that only station name lines are counted. The following table defines the error codes reported by the first character of the error string.
Table 3
Known limitations of the audio conversion
Switching between FM1 and FM2 screens may not update certain preset tags.
The result of the last conversion step - FM frequency synthesiser conversion, are the two FM screens, shown on Figure 49 and Figure 50. Each screen shows 6 preset FM frequency tags and their station names. There is a case when switching between FM1 and FM2 screens will not update the station name and frequency for a particular preset tag. This limitation appears if two tags (one in FM1 and the second one in FM2 screen) are at the same number (for example tag 6) and the difference between the frequencies is exactly 8MHz.
For example:
Tag 6 in FM1 screen is tuned to 92.3MHz and has a station name 3ZZZ.
Tag 6 in FM2 screen is tuned to 100.3MHz and has a station name NOVA.
After the radio is powered up FM1 screen is selected and tag 6 shows “92.3 3ZZZ“.
Switch to FM2 screen is performed. Tag 6 doesn’t get updated and shows “92.3 3ZZZ“ while it should show “100.3 NOVA”.
The likelihood of this to occur in practice is negligible and has a simple work around.
Work around:
Select different tag numbers in FM1 and FM2 for frequency stations with 8MHz offset.
Possible incorrect display of frequency and radio station names.
Some Soarer owners have reported a sporadic change in the font size of the frequency digits (this behaviour has been observed on an unmodified radio unit). It is not known what causes this font change and how to reproduce it. The audio conversion kit has not been tested in such scenario and may not be able to properly handle such font change.
Work around:
Disconnect the car battery for about five minutes and then connect it back. This will reset the radio unit to the default bigger font.
List of the pre-programmed station names
B0
(
F0887SPORTS
F08951VFM
F09111CMS
F10152JJJ
F1023ABC
F10472ROC
F10552SBS
F1063MIX
A0936ABC
A10532CA
A12062CC
A1440ABC
)
B1
(
F0876RHYTHM
F0878INFO
F0880COOL
F08852RRR
F0899HAWKES
F0907HOT_FM
F0913CMPBLL
F09272ZOO
F0929ABC_CL
F0931STAR
F09352DBO
F09392LFF
F0940PORTUG
F0941HITS_N
F0945WILD
F0949POWER
F09512GEM
F0953CHINA
F09552ROK
F0961EDGE
F0965WAVE
F0969NOVA
F09752GGG
F0977SNOW
F09812VLY
F09832NOW
F09932BXS
F09972RGF
F1001NORTH
F10032NEB
F10092ZZZ
F1013SEA_FM
F1015GREAT
F1017WS_FM
F1019LIFE
F1021JJJ
F10252MBS
F1029KO_FM
F10372NUR
F10412DAY
F1045STAR
F10472CLR
F1049TRPL_M
F10512ROX
F1053C_LITE
F10552CSF
F1057TRPL_J
F10592GZF
F10632CFS
F1065MIX
F10672PQQ
F1069TUNE
F10712AAA
F10732SER
F10772GGO
A05312PM
A05672BH
A05762RN
A0630NEWS
A0639EASY
A07022BL
A07652EC
A08732GB
A09002LM
A09182XL
A09542UE
A09632RG
A09722MW
A09812NM
A09992ST
A10172KY
A10802MO
A10892EL
A11342AD
A11432HD
A11522WG
A11702CH
A11882NZ
A12062GF
A12512DU
A12692SM
A12872TM
A13502LF
A13682GN
A14042PK
A14492MG
A14942AY
A15032BS
A15212QN
A15302VM
A15572RE
A16652MM
)
B2
(
F0876KGB_FM
F0883SOUTH
F0886PLENTY
F0889WIN_FM
F0893CNTRY
F0899LIGHT
F0907SYN_FM
F0915CITY
F09193BDG
F09233ZZZ
F09313SBS
F09353BBO
F0939BAY_FM
F09413_WBC
F0943SEA_FM
F0947PULSE
F0949JOY_FM
F09533SRR
F0955K_ROCK
F0965INNER
F09693SUN
F097197_FM
F0974STEREO
F0977SER
F0979MELTON
F0981EASTER
F09833RPP
F09873RPP
F0989NORTHW
F0991VYV_FM
F0993NRG_FM
F09953MDA
F1003NOVA
F1011MIX_FM
F10133WWM
F1015MMM
F1019FOX_FM
F1021EDGE
F10233RBA
F10273RRR
F10313BBA
F10353MBS
F1043GOLD
F1051TRPL_M
F1059ABC
F10633CCS
F10673_PBS
F10753_JJJ
F10773SHI
A05313GG
A0621AR
A0693MAGIC
A0774ABC
A08553CR
A08823YB
A0927SPORT
A09813HA
A1026NEWS
A10713EL
A10893WM
A11163AK
A11343CS
A11793RPH
A1224SBS_AM
A12423GV
A12603SR
A12783AW
A13143BT
A13323SH
A13413CW
A13773MP
A14223XY
A14673ML
A15033AK
A15663NE
A1593ITALIA
A1611XX
A1629RADIO2
)
B3
(
F08764TAB
F0878RHYTHM
F08804AY
F0891LIVE
F0903ABC
F0909SEA_FM
F0911HOT91
F09194SEE
F0915TC_FM
F0921BREEZE
F0925GOLD
F09274SSS
F0929LIGHT
F09314RGB
F09394WOW
F09474HIT
F0949RIVER
F09514ROM
F09594CHT
F09614NNN
F096596FIVE
F0973SWITCH
F0975CFM
F09794AMM
F0983KOOL
F09874RGM
F0991KIDSFM
F09954RGC
F10034BAY
F1007CFM
F10114CBL
F1015SEA_FM
F1017ABC_CL
F10194MMK
F10214ZZZ
F10234TOO
F10254MIC
F10274DDB
F1029TOMATO
F10314RAM
F1033JJJ
F10354HOT
F10374MBS
F10404MMM
F1041TRPL_M
F10454LRE
F1049ABC_LR
F10534BBB
F1057ABC_RN
F10634RGT
F1065ABC_RN
F1069NOVA
F1073ABC_CL
F10774JJJ
F1079ROCK
A05314KZ
A05584AM
A0612ABC
A06664LM
A06934KQ
A0747ABC_LR
A07834VL
A07924RN
A08284GC
A08464EL
A08644GR
A08824BH
A09274CC
A0936ABC
A09634WK
A09904RO
A10084TAB
A10264AA
A10534EB
A10714SB
A10984LG
A11164BC
A11434HI
A11614MB
A11974BI
A12424AK
A12964RPH
A13324BU
A13594WK
A14764ZR
A1701INDIAN
)
B4
(
F0880TAB
F0887COAST
F08995CCC
F0919NOVA
F0927FRESH
F0931STAR
F09373D_FM
F09615SEF
F0975ABC_CL
F09875EZY
F1023MIX
F10315EBI
F1039ABC_CL
F10475MMM
F10555JJJ
F1065SBS
F1071SA_FM
F1075SAFM
F10775YYY
F1079LIFE
A05315UV
A07655CC
A08015RM
A09635SE
A0972ABC
A10445CS
A11255MU
A12425AU
A13235DN
A1395FIVEAA
)
B5
(
F0880MEEKA
F08826PR
F0897TWIN
F09176HED
F0921FOLK
F09296PPM
F0937NOVA
F0945MIX
F09496KAN
F09576BUN
F096196_FM
F0965CLASS
F0973COAST
F09796KAR
F098198FM
F0985SON
F09936JJJ
F09976CAR
F10056BET
F1017GROVE
F10236SEA
F10516MER
F1065WA_FM
F1079FREMAN
A0585NEWS
A06216EL
A06666LN
A07206WF
A07476SE
A07836VA
A08646AM
A08826PR
A09006BY
A09186NA
A0963HITS
A09816KG
A10266NW
A10716WB
A10806IX
A10986MD
A11166MM
A1206RACING
A12606KA
)
B6
(
F09217AUS
F09297JJJ
F0939ABC
F0977TASMAN
F0993EDGE
F0997SEA_FM
F10097TTT
F1017SEA_FM
F1030FM103
F1033HOT_AC
F1053WAY_FM
F1065ULTRA
F10717HO
F1073MAGIC
F10777DDD
A05407SD
A05587BU
A0585RADNAT
A0729NEWS
A08377XS
A09007AD
A09367ZR
A1008SPORT
A10987LA
)
B7
(
F08698SUN
F09158KIK
F09698SUN
F1001HOT
F1005CAAMA
F1025ABC
F10338JJJ
F1041TOP
F1049MIX
F10578DDD
A0657RADNAT
A09008HA
)
B8
(
F0876RHYTHM
F0878INFO
F0880COOL
F08852RRR
F0899HAWKES
F0907HOT_FM
F0913CMPBLL
F09272ZOO
F0929ABC_CL
F0931STAR
F09352DBO
F09392LFF
F0940PORTUG
F0941HITS_N
F0945WILD
F0949POWER
F09512GEM
F0953CHINA
F09552ROK
F0961EDGE
F0965WAVE
F0969NOVA
F09752GGG
F0977SNOW
F09812VLY
F09832NOW
F09932BXS
F09972RGF
F1001NORTH
F10032NEB
F10092ZZZ
F1013SEA_FM
F1015GREAT
F1017WS_FM
F1019LIFE
F1021JJJ
F10252MBS
F1029KO_FM
F10372NUR
F10412DAY
F1045STAR
F10472CLR
F1049TRPL_M
F10512ROX
F1053NEW_FM
F10552CSF
F1057TRPL_J
F10592GZF
F10632CFS
F1065MIX
F10672PQQ
F1069NX_FM
F10712AAA
F10732SER
F10772GGO
A05312PM
A05672BH
A05762RN
A0630NEWS
A0639EASY
A07022BL
A07652EC
A08732GB
A09002LM
A09182XL
A09542UE
A09632RG
A09722MW
A09812NM
A09992ST
A10172KY
A10802MO
A10892EL
A11342AD
A11432HD
A11522WG
A11702CH
A11882NZ
A12062GF
A12512DU
A12692SM
A12872TM
A13502LF
A13682GN
A14042PK
A14492MG
A14942AY
A15032BS
A15212QN
A15302VM
A15572RE
A16652MM
)
B9
(
F0876TWB_FM
F0878RHYTHM
F088088FM
F0891CFM
F0903ABC
F0909SEA_FM
F0911HOT91
F09194SEE
F0915TC_FM
F0921BREEZE
F0925GOLD
F09274SSS
F0929LIGHT
F09314RGB
F09394WOW
F09474HIT
F0949RIVER
F09514ROM
F09594CHT
F09614NNN
F096596FIVE
F0973SWITCH
F0975CFM
F09794AMM
F0983KOOL
F09874RGM
F0991KIDSFM
F09954RGC
F10034BAY
F1007CFM
F10114CBL
F1015SEA_FM
F1017ABC_CL
F10194MMK
F10214ZZZ
F10234TOO
F10254MIC
F10274DDB
F1029TOMATO
F10314RAM
F1033JJJ
F10354HOT
F10374MBS
F10404MMM
F1041TRPL_M
F10454LRE
F1049ABC_LR
F10534BBB
F1057ABC_RN
F10634RGT
F1065ABC_RN
F1073ABC_CL
F1069NOVA
F10774JJJ
F1079ROCK
A05314KZ
A05584AM
A0612ABC
A06664LM
A06934KQ
A0747ABC_LR
A07834VL
A07924RN
A08284GC
A08464EL
A08644GR
A08824BH
A09274CC
A0936ABC
A09634WK
A09904RO
A10084TAB
A10264AA
A10534EB
A10714SB
A10984LG
A11164BC
A11434HI
A11614MB
A11974BI
A12424AK
A12964RPH
A13324BU
A13594WK
A14764ZR
A1701INDIAN
)
B10
(
F0910ZM
F0918MOREFM
F095095bFM
F0968GEORGE
F0982EASY
F0990HAURAK
A1476BBC
A1332SPORT
)
B11
(
F0881RADIO2
F0886RADIO2
F0888RADIO2
F0891RADIO2
F0895RADIO2
F0900RADIO2
F0903RADIO3
F0907RADIO3
F0910RADIO3
F0913RADIO3
F0917RADIO3
F0924RADIO3
F0925RADIO4
F0929RADIO4
F0932RADIO4
F0939RADIO4
F0944RADIO4
F0946RADIO4
F0949LONDON
F0950BBCTCR
F0951BBCNFK
F0952RADIO4
F0953BBCESS
F0955BBCSUF
F0957BBCCAM
F0959BBCSUF
F0960BBCCam
F0970_2_TEN
F0973LBC
F0974_BEACH
F0977RADIO1
F0980BBCTCR
F0982RADIO1
F0985RADIO1
F0988RADIO1
F0991RADIO1
F0995RADIO1
F1000KISS
F1002_DREAM
F1023_2CRFM
F1027MURCRY
F1029_2_TEN
F1032POWER
F1034_2_TEN
F1036BBCNOR
F1038BBCTCR
F1039BBCSUF
F1042BBCNOR
F1044BBCNFK
F1045BBCTCR
F1046BBCSUF
F1052WAVE
F1054MAGIC
F1058VIRGIN
F1062HEART
F1075ACTIVE
F1076FIRE
A0648BBC_WS
A06935_LIVE
A0828GOLD
A09095_LIVE
A1152LBCNWS
A1197VIRGIN
A1215VIRGIN
)
B12
(
F0881RADIO2
F0886RADIO2
F0888RADIO2
F0891RADIO2
F0895RADIO2
F0900RADIO2
F0903RADIO3
F0907RADIO3
F0910RADIO3
F0913RADIO3
F0917RADIO3
F0924RADIO3
F0925RADIO4
F0929RADIO4
F0932RADIO4
F0939RADIO4
F0944RADIO4
F0946RADIO4
F0949LONDON
F0950BBCTCR
F0951BBCNFK
F0952RADIO4
F0953BBCESS
F0955BBCSUF
F0957BBCCAM
F0959BBCSUF
F0960BBCCam
F0970_2_TEN
F0973LBC
F0974_BEACH
F0977RADIO1
F0980BBCTCR
F0982RADIO1
F0985RADIO1
F0988RADIO1
F0991RADIO1
F0995RADIO1
F1000KISS
F1002_DREAM
F1023JAZZFM
F1027MURCRY
F1029_2_TEN
F1032BBCESS
F1034_BEACH
F1036BBCNOR
F1038BBCTCR
F1039BBCSUF
F1042BBCNOR
F1044BBCNFK
F1045BBCTCR
F1046BBCSUF
F1052WAVE
F1054MAGIC
F1058WAVE
F1062HEART
F1075ACTIVE
F1076FIRE
A0648BBC_WS
A06935_LIVE
A0828GOLD
A09095_LIVE
A1152LBCNWS
A1197VIRGIN
A1215VIRGIN
)