EP1759464A1 - Radio for a motor vehicle - Google Patents

Abstract

The invention relates to a radio (1,61,121) for a motor vehicle (120), wherein the radio (1,61,121) comprises a housing in which a radio module (20,70) and a digital radio decoder (30, 80, 123) are arranged. The radio module (20,70) comprises a radio-module low-frequency input (22,72) and a radio-module low-frequency output (28,78,183) for the emission of a low-frequency signal which is inputted via the radio-module low-frequency input (22,72). The digital radio decoder (30, 80, 123) comprises a decoder high-frequency input (34,84), a decoder high-frequency output (32,82) which is connected to the radio-module low-frequency input (22,72) and a digital radio receiver (35,85) for converting a digital radio signal inputted into the decoder high-frequency input (34,84) into a low-frequency signal and for emitting the low-frequency signal via the decoder low-frequency output (32,82).

Description

 description

Radio for a motor vehicle

The invention relates to a radio for a motor vehicle with a digital radio decoder. It is known to install radios with an AM / FM receiver and a digital radio decoder in motor vehicles.

The object of the invention is to reduce the costs for motor vehicles with such radios, in particular the costs for motor vehicles with a digital radio decoder.

The aforementioned object is achieved by a radio for a motor vehicle, the radio comprising a housing in which a radio module and a digital radio decoder are arranged, the radio module having a radio module low-frequency input and a radio module low-frequency output for outputting an in the radio module low frequency input incoming low frequency signal, and wherein the digital radio decoder has a decoder high frequency input, a decoder low frequency output connected to the radio module low frequency input and a digital radio receiver for converting a via the decoder -High frequency input incoming digital radio signal into a low frequency signal and for outputting the low frequency signal via the decoder- low frequency output. Such a digital radio decoder can e.g. a DAB decoder, an SDARS decoder or a DVB-T decoder. The radio is advantageously designed such that a digital radio decoder of one standard can be replaced by a digital radio decoder of another standard and / or a digital radio decoder of a standard can be installed as an alternative to a digital radio decoder of another standard. So it can be provided that e.g. a DAB decoder can be replaced by an SDARS decoder and / or a DAB decoder can be installed as an alternative to an SDARS decoder.

In an advantageous embodiment of the invention, the radio module comprises at least one radio module high-frequency input. In a further advantageous embodiment of the invention, the radio module comprises an FM receiver for receiving an FM signal and / or an AM receiver for receiving an AM signal via the at least one radio module. High frequency input and for outputting a low frequency signal via the radio module low frequency output.

In a further advantageous embodiment of the invention, the radio module low frequency input and the decoder low frequency output are directly connected to one another. The decoder low-frequency output and the radio module low-frequency input advantageously form a plug connection. The decoder low-frequency output and the radio module low-frequency input or their electrical contacts are advantageously soldered to one another.

In a further advantageous embodiment of the invention, the decoder is inserted into the housing.

In a further advantageous embodiment of the invention, the radio module has a radio module power supply output which is matched to a decoder power supply input of the decoder. In a further advantageous embodiment of the invention, the radio module has a radio module power supply output connected to a decoder power supply input of the decoder, the decoder power supply input and the radio module power supply output advantageously forming a plug connection. The decoder power supply input and the radio module power supply output or their electrical contacts are advantageously soldered to one another.

In a further advantageous embodiment of the invention, the radio module has a radio module control signal interface connected to a decoder control signal interface of the decoder, the decoder control signal interface and the radio module control signal interface advantageously forming a plug connection. The decoder control signal interface and the radio module control signal interface or their electrical contacts are advantageously soldered to one another.

In a further advantageous embodiment of the invention, the radio module has an interface to a CD drive, an interface to a telephone module and / or an interface to a TV tuner.

In a further advantageous embodiment of the invention, the radio module is implemented as a circuit board, advantageously the radio module low-frequency input Radio module power supply output and / or the radio module control signal interface is implemented as a connector on the board.

The above-mentioned object is also achieved, in particular in connection with the aforementioned features, by a method for producing a radio for a motor vehicle, a radio module having a radio module low-frequency input and a radio module low-frequency output for outputting a radio module low-frequency Input incoming low-frequency signal is arranged in a housing, and wherein a digital radio decoder with a decoder high-frequency input, a decoder low-frequency output and a digital radio receiver for converting an incoming digital radio signal via the decoder high-frequency input is arranged or inserted into a low-frequency signal and for outputting the low-frequency signal via the decoder low-frequency output in such a way that the decoder low-frequency output is connected to the radio module low-frequency input.

In a further advantageous embodiment of the invention, the decoder low frequency output is plugged together with the radio module low frequency input.

The above-mentioned object is also achieved, in particular in connection with the aforementioned features, by a method for producing a radio for a motor vehicle, a radio module having a radio module low-frequency input and a radio module low-frequency output for outputting a radio module low-frequency Input incoming low frequency signal, with a radio module power supply output and with a radio module control signal interface is arranged in a housing, and wherein a digital radio decoder with a decoder high frequency input, a decoder low frequency output, with decoder power supply -Input, with a decoder control signal interface and with a digital radio receiver for converting an incoming digital radio signal via the decoder high-frequency input into a low-frequency signal and for outputting the low-frequency signal via the decoder low-frequency output in such a way Housing arranged or inserted The decoder low frequency output is connected to the radio module low frequency input, the decoder power supply input is connected to the radio module power supply output and / or the decoder control signal interface is connected to the radio module control signal interface.

A low-frequency signal in the sense of the invention is in particular an audio signal, that is to say in particular a signal in an audible frequency range. A low frequency signal in the The sense of the invention is in particular a signal for controlling a loudspeaker, that is to say in particular a signal which can be converted directly into an acoustic signal, for example by means of a membrane or an equivalent element.

A high-frequency signal in the sense of the invention can e.g. an FM signal or an AM signal. A high-frequency signal in the sense of the invention can e.g. also be a signal from a digital radio station. A high-frequency signal in the sense of the invention can be a signal in the MHz range and / or in the GHz range.

A motor vehicle in the sense of the invention is in particular a land vehicle that can be used individually in road traffic. Motor vehicles in the sense of the invention are in particular not limited to land vehicles with an internal combustion engine.

Further advantages and details emerge from the following description of exemplary embodiments. Show:

-Fig— 1 a-embodiment-for-eifl-RadiOr-

2 shows an embodiment for a radio module,

3 shows a further exemplary embodiment of a radio,

4 shows a further exemplary embodiment for a radio module,

Fig. 5 shows a method for producing a radio for a motor vehicle and

Fig. 6 shows another embodiment of a radio.

Fig. 1 shows a highly simplified and schematically illustrated embodiment for a radio 1 for a motor vehicle. The radio 1 comprises a housing 2, in which a radio module 20 and a digital radio decoder 30 (e.g., which can be inserted or inserted into the housing 2) are arranged. Such a digital radio decoder 30 can e.g. a DAB decoder, an SDARS decoder or a DVB-T decoder.

The radio module 20 has a radio module low-frequency input 22 and a radio module low-frequency output 28 for outputting a low-frequency signal entering the radio module low-frequency input 22. The radio module 20 comprises two radio module high-frequency inputs 24 and 25 which can be connected to antennas 40 and 41 and an AM / FM receiver 26 for receiving an AM signal or an FM signal by means of the radio module high-frequency inputs 24 and 25 and for outputting a (demodulated) low-frequency signal via the radio module low-frequency output 28. Between the radio module low-frequency input 22 and the radio module low-frequency output 28 or between the AM / FM receiver 26 and the radio module low-frequency output 28, the radio module 20 comprises a switching module 27 which can be controlled by means of a control module 29 for the optional output of a in the radio module low-frequency input 22 incoming low-frequency signal or a low-frequency signal that can be output by the AM / FM receiver 26. The control module 29 can be operated by means of an operating element, not shown, which can be connected, for example, to the housing 2 or can be arranged separately from the latter.

ßerDigitalradio = Deeoder- 0-has-a-with-an-antenna-43-connectable-decoder-high-frequency input 34, a decoder-low frequency output 32 connected to the radio module low-frequency input 22 and a digital radio receiver 35 Conversion of a digital radio signal coming in via the decoder high-frequency input 34 into a (decoded / demodulated) low-frequency signal and for outputting the low-frequency signal via the decoder low-frequency output 32.

Da ^~ s ^~ adto ^ i5tτd rart ^ sgestalten ^^ standards by one

Digital radio decoder of another standard can be replaced and / or a digital radio decoder of one standard can be installed as an alternative to a digital radio decoder of another standard. So it can be provided that e.g. a DAB decoder can be replaced by an SDARS decoder and / or a DAB decoder can be installed as an alternative to an SDARS decoder.

The digital radio decoder 30 has a decoder power supply input 31. The radio module 20 includes a radio module power supply output 21 which is matched to the decoder power supply input 31 of the digital radio decoder 30 and is connected to the decoder power supply input 31. In addition, the digital radio decoder 30 comprises a decoder control signal interface 33 and the like Radio module 20 comprises a radio module control signal interface 23 connected to decoder control signal interface 33 of digital radio decoder 30. Control signals can be exchanged between digital radio decoder 30 and radio module 20 via the connection of decoder control signal interface 33 and radio module control signal interface 23.

The radio module low frequency input 22 and the decoder low frequency output 32, the radio module power supply output 21 and the decoder power supply input 31 and the radio module control signal interface 23 and the decoder control signal interface 33 are plugged together and / or soldered to one another.

Fig. 2 shows a simplified embodiment of the radio module 20. The radio module 20 is implemented on a circuit board 48, reference numeral 45 designating an area on the circuit board 48 in which e.g. Elements such as the AM / FM receiver 26 and possibly a DRM decoder and / or an IBOC decoder are arranged. Plugs 50, 51 and 52, which are oriented orthogonally to the board 48, are also arranged on the board 48 with respect to their direction of insertion.

The connector 50 includes the radio module low frequency input 22, the Kaαiomoαui power supply output 21 and the radio module control signal interface 23. The radio module low frequency input 22 has two electrical contacts 22A and 22B, the radio module power supply output 21 has two electrical contacts 21 A and 21 B, and the radio module control signal interface 23 has two electrical contacts 23A and 23B.

The plugs 51 and 52 are designed in accordance with the plug 50. By means of the plug 51, the board 48 can e.g. with a memory card reading device and by means of the plug 52 with a CD and / or DVD drive.

3 shows a greatly simplified and schematically illustrated further exemplary embodiment of a radio 61 for a motor vehicle. The radio 61 comprises a housing 62 in which a radio module 70 and a digital radio decoder 80 (for example insertable or insertable into the housing 62) are arranged. Such a digital radio decoder can also e.g. a DAB decoder, an SDARS decoder or a DVB-T decoder.

The radio module 70 has a radio module low-frequency input 72 and a radio module low-frequency output 78 for outputting a low-frequency signal entering the radio module low-frequency input 72. The radio module 70 also includes a radio module high-frequency input 99 that can be connected to an antenna 93 and a radio module high-frequency output 94 for outputting a high-frequency signal that is input into the radio module high-frequency input 99. The radio module 70 further comprises two radio module high-frequency inputs 74 and 75 that can be connected to antennas 90 and 91, and an AM / FM receiver 76 for receiving an AM signal or an FM signal by means of the radio module high-frequency inputs 74 and 75 and to issue a (Demodulated) low frequency signal via the radio module low frequency output 78. The radio module 70 comprises between the radio module low frequency input 72 and the radio module low frequency output 78 or between the AM / FM receiver 76 and the radio module low frequency Output 78, a switching module 77 which can be controlled by means of a control module 79, for selectively outputting a low-frequency signal coming into the radio module low-frequency input 72 or a low-frequency signal which can be output by the AM / FM receiver 76. The control module 79 can be operated by means of an operating element, not shown, which can be connected, for example, to the housing 62 or can be arranged separately from the latter.

The digital radio decoder 80 has a decoder high-frequency input 84 connected to the radio module high-frequency output 94, a decoder low-frequency output 82 connected to the radio module low-frequency input 72 and a digital radio receiver 85 for converting one via the Decoder high-frequency input 84 incoming digital radio signal into a (decoded / demodulated) low-frequency signal and for outputting the low-frequency signal via the decoder low-frequency output 82.

The radio 61 is designed such that a digital radio decoder of one standard can be replaced by a digital radio decoder of another standard and / or a digital radio decoder of a standard can be installed as an alternative to a digital radio decoder of another standard. So it can be provided that e.g. a DAB decoder can be replaced by an SDARS decoder and / or a DAB decoder can be installed as an alternative to an SDARS decoder.

The digital radio decoder 80 has a decoder power supply input 81. The radio module 70 comprises a radio module power supply output 71 which is matched to the decoder power supply input 81 of the digital radio decoder 80 and is connected to the decoder power supply input 81. In addition, the digital radio decoder 80 comprises a decoder control signal interface 83 and the like Radio module a radio module control signal interface 73 connected to the decoder control signal interface 83 of the digital radio decoder 80. Control signals can be exchanged between the digital radio decoder 80 and the radio module 70 via the connection of the decoder control signal interface 83 and the radio module control signal interface 73.

The radio module low frequency input 72 and the decoder low frequency output 82, the radio module power supply output 71 and the decoder power supply input 81, the radio module control signal interface 73 and the decoder control signal interface 83 as well as the radio module high-frequency output 94 and the decoder high-frequency input 84 are connected to one another and / or soldered to one another.

Fig. 4 shows a simplified embodiment of the radio module 70. The radio module 70 is implemented on a circuit board 98, reference numeral 95 designating an area on the circuit board 98 in which e.g. Elements such as the AM / FM receiver 76 and possibly a DRM decoder and / or an IBOC decoder are arranged. Plugs 100, 101 and 102 which are oriented orthogonally to the board 98 are also arranged on the board 98 with respect to their plug-in direction.

The connector 100 includes the radio module low frequency input 72, the radio module power supply output 71, the radio module control signal interface and 73 and the radio module high frequency output 94. The radio module low frequency input 72 has two electrical contacts 72A and 72B , the radio module power supply output 71 has two electrical contacts 71 A and 71 B, and the radio module control signal interface 73 has two electrical contacts 73A and 73B. The radio module high-frequency output 94 has two electrical contacts 103 and 104 arranged coaxially within a shield 105.

The connectors 101 and 102 are designed like the connector 100 but without the radio module high-frequency output 94. By means of the connector 101, the board 98 can e.g. with a memory card reading device and by means of the plug 102 with a CD and / or DVD drive.

5 shows a method for producing the radio 1 or 61. The radio module 20 or 70 is arranged in a step 111 in the housing 2 or 62. Step 111 is followed by a step 112 in which the digital radio decoder 30 or 80 is arranged in the housing 2 or 62 or inserted or inserted into the housing 2 or 62 in such a way that the decoder low-frequency output 32 is connected to the Radio module low-frequency input 22, the decoder power supply input 31 to the radio module power supply output 21 and the decoder control signal interface 33 are connected to the radio module control signal interface 23 in the sense of a plug connection or that the decoder low-frequency output 82 with the radio module low frequency input 72, the decoder power supply input 81 with the radio module power supply output 71, the decoder control signal interface 83 with the radio module control signal interface 73 and the High-frequency decoder input 84 is connected to the radio module high-frequency output 94 in the sense of a plug connection.

6 shows a motor vehicle 120, which is shown in a highly simplified and purely schematic manner, with a radio 121 which is also illustrated in a highly simplified and purely schematic manner. The radio 121 comprises a digital radio decoder 123 inserted in a connector corresponding to the connector 50 or 100, one in a connector 51 or 101 corresponding plug inserted memory card reader 124 and a CD and / or DVD drive 125 (or CD changer) inserted into a plug corresponding to the plug 52 or 102. The digital radio decoder 123 is connected to an antenna 160 by means of a high-frequency input 180 of the radio 121. The radio 121 also comprises an AM / FM receiver 126 (possibly comprising a DRM decoder and / or an IBOC decoder), which is connected to antennas 161 and 162 by means of radio-frequency inputs 181 and 182 of the radio 121. Low frequency signals that can be generated by the digital radio decoder 123, the memory card reader 124, the inserted CD and / or DVD drive 125 and the AM / FM receiver 126 are amplified and filtered by means of an output stage 127 and via a low frequency output 183 can be output to a low-frequency line 200 or a loudspeaker 145. An external amplifier 144, e.g. be provided as a volume control.

The radio 121 further comprises a memory 128 with a human-machine interface stored as a program code, a human-machine interface for operating the radio 121 being represented on a combination instrument 146 connected to the radio 121 via a CAN bus 201 by means of the program code becomes. For this purpose, radio 121 has a corresponding CAN bus interface 187 connected to CAN bus 201. Of course, as an alternative or in addition, further displays or remote control elements can also be connected to the radio 121 via the CAN bus 201.

The radio 121 can also include a diagnostic system 129, a voice control system 130 and / or components 131 for a navigation system. The radio 121 also includes a low frequency input 189 connected to a microphone 150 and a telephone interface 188 connected to a telephone module 140, which comprises a low frequency input, a low frequency output and a telephone control signal interface. The radio 121 further comprises a CD changer interface 186 connected to a CD changer 141, which comprises a low-frequency input and a CD changer control signal interface, optionally a TV interface 185 which can be connected to a TV tuner 142 and which is one Low frequency input and a video input, and also optionally a rear seat entertainment interface 184 connectable to a rear seat entertainment system 143, which comprises a low frequency output and a video output. Alternatively, the CD changer 141 can also be connected to the radio 121 via the CAN bus 201. I ^ juice vehicle_120 further comprises a device 147 for providing vehicle signals, such as the speed of the motor vehicle 120 or a key position (clamp status), a diagnostic tester 148 and a multifunction steering wheel 149. The telephone module 140, the TV tuner 142, the rear seat Entertainment system 143, the external amplifier 144p, the instrument cluster 146, the device 147 for providing vehicle signals, the diagnostic tester 148 and the multifunction steering wheel 149 are connected to one another in terms of data technology by means of the CAN bus 201.

The radio module power supply output 21 or 71, the radio module low frequency input 22 or 72, the radio module control signal interface 23 or 73, the decoder power supply input 31 or 81, the decoder low frequency output 32 or . 82,

^ ιe ^~ DeτsD ^ eι ^ S eτj © τsrgτralsch ^ Outputs, the power supply inputs and outputs and the control signal interfaces of the plugs 50, 51, 52, 100, 101, 102 are in Fig. 2 and Fig. 4 for reasons of clarity with only two electrical contacts 21 A, 21 B, 22A, 22B, 23A, 23B, 71 A, 71 B, 72A, 72B, 73A and 73B, respectively. However, the low-frequency inputs and outputs, the power supply inputs and outputs and the control signal interfaces can advantageously also each comprise more than two electrical contacts. For example, the low-frequency inputs and outputs can advantageously each comprise four electrical contacts. The energy supply inputs and outputs can, for example, advantageously each comprise six or eight electrical contacts, with two electrical contacts in each case being able to be assigned to a voltage potential. For example, two 3V electrical contacts, two 3.5V electrical contacts and two 12V electrical contacts can be assigned. The control signal interfaces can, for example, advantageously each comprise four, eight or sixteen electrical contacts.

The elements, interfaces and contacts in the figures are drawn to simplicity and clarity and are not necessarily drawn to scale. For example, the orders of magnitude of some elements, interfaces or contacts are shown exaggerated compared to other elements, interfaces or contacts in order to improve the understanding of the exemplary embodiments of the present invention. LIST OF REFERENCE NUMBERS

1.61 radio

2.62 housing

20.70 radio module

21.71 radio module power supply output

21A.21B, 22A,

22B, 23A, 23B,

71A, 71 B, 72A,

72B, 73A, 73B,

103, 104 electrical contact

22.72 radio module low frequency input

23.73 radio module control signal interface

24.25.74. 75 radio module high frequency input

26.76 AM / FM receiver

27.77 switching module

28.78 radio module low frequency output

29.79 control module

30.80 digital radio decoder

31.81 decoder power supply input

32.82 decoder low frequency output

33.83 decoder control signal interface

34.84 decoder high frequency input

35.85 digital radio receiver

40,41,43,

90,91,93 antenna

45.95 range

48.98 board

50,51,52,

100, 101, '102, connector

94 Radio module high frequency output

99 radio module high frequency input

105 shielding 111, 112 step

120 motor vehicles

121 radio

123 digital radio decoder

124 memory card reader

125 CD and / or DVD drive

126 AM / FM receiver

127 output stage -

128 memories

-129- Diagnostic system no

130 voice control system

131 components for a navigation system

140 telephone module

141 TV tuners

142 CD changer

143 Back seat entertainment system

T44- external amplifier

145 speakers

146 instrument cluster

147 Device for providing vehicle signals

148 diagnostic testers

149 multifunction steering wheel

150 microphone

160, 161, 162 antenna

180, 181, 182 high frequency input

183 low frequency output

184 Rear seat entertainment interface

185 TV interface 186 CD changer interface 187 CAN bus interface 188 Telephone interface 189 Low frequency input

200 low frequency line

201 CAN bus

Claims

claims

1. Radio (1, 61, 121) for a motor vehicle (120), the radio (1, 61, 121) comprising a housing (2, 62) in which a radio module (20, 70) and a digital radio decoder (30, 80, 123) are arranged, the radio module (20, 70) having a radio module low frequency input (22, 72) and a radio module low frequency output (28, 78, 183) for outputting a radio module Low-frequency input (22, 72) incoming low-frequency signal, and wherein the digital radio decoder (30, 80, 123) has a decoder high-frequency input (34, 84), one with the radio module low-frequency input (22, 72) connected decoder low frequency output (32, 82) and a digital radio receiver (35, 85) for converting an incoming digital radio signal via the decoder high frequency input (34, 84) into a low frequency signal and for output of the low frequency signal via the decoder low frequency output (32, 82).

2. Radio (1, 61, 121) according to claim 1, characterized in that the radio module (20, 70) comprises at least one radio module high-frequency input (24, 25, 74, 75).

3. Radio (1, 61, 121) according to claim 2, characterized in that the radio module (20, 70) an FM receiver (26, 76, 126) for receiving an FM signal via the at least one radio module radio frequency Input (24, 25, 74, 75) and for outputting a low-frequency signal via the radio module low-frequency output (28, 78, 183).

4. Radio (1, 61, 121) according to claim 2 or 3, characterized in that the radio module (20, 70) has an AM receiver (26, 76, 126) for receiving an AM signal via the radio module radio frequency Input (24, 25, 74, 75) and for outputting a low-frequency signal via the radio module low-frequency output (28, 78, 183).

5. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module low-frequency input (22, 72) and the decoder low-frequency output (32, 82) are connected directly to one another.

6. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the digital radio decoder (30, 80, 123) is inserted into the housing (2, 62).

7. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the decoder low-frequency output (32, 82) is soldered to the radio module low-frequency input (22, 72).

8. Radio (1, 61, 12.1) according to one of the preceding claims, characterized in that the decoder low-frequency output (32, 82) and the radio module low-frequency input (22, 72) form a plug connection.

9. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) on a decoder power supply input (31, 81) of the digital radio decoder (30, 80, 123 ) tuned radio module power supply output (21, 71).

10. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) with a decoder power supply input (31, 81) of the digital radio decoder (30, 80, 123 ) connected radio module power supply output (21, 71).

11. Radio (1, 61, 121) according to claim 10, characterized in that the decoder power supply input (31, 81) is soldered to the radio module power supply output (21, 71).

12. Radio (1, 61, 121) according to claim 10 or 11, characterized in that the decoder power supply input (31, 81) and the radio module power supply output (21, 71) form a plug connection.

13. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) is connected to a decoder control signal interface (33, 83) of the digital radio decoder (30, 80, 123) Has radio module control signal interface (23, 73).

14. Radio (1, 61, 121) according to claim 14, characterized in that the decoder control signal interface (33, 83) is soldered to the radio module control signal interface (23, 73).

15. Radio (1, 61, 121) according to claim 14 or 15, characterized in that the decoder control signal interface (33, 83) and the radio module control signal interface (23, 73) form a plug connection.

16. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) has an interface to a CD drive (141).

17. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) has an interface to a telephone module (140).

18. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) has an interface to a TV tuner (140).

19. Radio (1, 61, 121) according to one of the preceding claims, characterized in that the radio module (20, 70) is implemented as a circuit board (48, 98).

20. Radio (1, 61, 121) according to claim 19, characterized in that the radio module low-frequency input (22, 72) is implemented as a connector on the circuit board (48, 98).

21. Radio (1, 61, 121) according to claim 19 or 20, characterized in that the radio module power supply output (21, 71) is implemented as a connector on the circuit board (48, 98).

22. Radio (1, 61, 121) according to claim 19, 20 or 21, characterized in that the radio module control signal interface (23, 73) is implemented as a connector on the circuit board (48, 98).

23. A method for producing a radio (1, 61, 121) for a motor vehicle (120), a radio module (20, 70) having a radio module low-frequency input (22, 72) and a radio module low-frequency output (28 , 78, 183) for outputting a low frequency signal entering the radio module low frequency input (22, 72) is arranged in a housing (2, 62), and wherein a digital radio decoder (30, 80, 123) with a High-frequency decoder input (34, 84), a low-frequency decoder output (32, 82) and a digital radio receiver (35, 85) for converting a digital radio input via the high-frequency decoder input (34, 84) Signal in a low frequency signal and for outputting the low frequency signal via the decoder low frequency output (32, 82) is arranged or inserted in the housing (2, 62) such that the decoder low frequency output (32 , 82) is connected to the radio module low frequency input (22, 72).

24. The method (1, 61, 121) according to claim 23, characterized in that the decoder low-frequency output (32, 82) is plugged together with the radio module low-frequency input (22, 72).

25. A method for producing a radio (1, 61, 121) for a motor vehicle (120), wherein a radio module (20, 70) with a radio module low frequency input (22, 72) and a radio module low frequency output (28 , 78, 183) for outputting a low frequency signal entering the radio module low frequency input (22, 72), with a radio module energy supply output (21, 71) and with a radio module control signal interface (23, 73) in one Housing (2, 62) is arranged, and wherein a digital radio decoder (30, 80, 123) with a decoder high-frequency input (34, 84), a decoder low-frequency output (32, 82), with a decoder - Power supply input (31, 81), with a decoder control signal interface (33, 83) and with a digital radio receiver (35, 85) for converting an incoming digital radio signal via the decoder radio frequency input (34, 84) into a low frequency signal and for outputting the low frequency signal via the decoder low frequency - Output (32, 82) is arranged or inserted in the housing (2, 62) in such a way that the decoder low-frequency output (32, 82) with the radio module low-frequency input (22, 72), the decoder power supply - Input (31, 81) with the radio module power supply output (21, 71) and / or the decoder control signal interface (33, 83) with the radio module control signal interface (23, 73) is connected.