JPH02108332A - Digital mobile wireless instalation - Google Patents

Abstract

PURPOSE:To simplify a constitution and to eliminate spurious generation by controlling the transmission rate of an error correcting decoder and a modulator by means of the error ratio of a transmission signal. CONSTITUTION:Error correcting codes are added, by an error correcting encoder 12, to a digital voice by a voice encoder 14 and successively to digital data from a terminal 24, modulated by a modulator 9 to be the transmission signals. When they are simultaneously transmitted/received, they are made into the received signals through an antenna sharing device 2, detected by an intermediate frequency amplifier 10 and a detector 11, decoded by an error correcting decoder 13, and errors are detected. When the error quantity reaches a prescribed value or above, the encoder 12 is controlled through a control circuit 8, and the transmission rate of the encoder 12 and the modulator 9 is controlled so as to be a suitable speed. Consequently, the error correcting encoder, the modulator, the detector and the error correcting decoder are unnecessary to be provided at every digital data, the constitution is simplified, and the spurious generation due to mutual modulation is prevented. In addition, when the other channel is received, transmission rate alteration is required on the transmission side in the same way.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a digital mobile radio device that applies a digital signal transmission method to mobile radios such as car telephones.

[Conventional technology]

Figure 3 shows, for example, the US EIA Committee's review Pi! on August 16, 1988! EIA R45,3-”WGl[-8
8, 8-, 3 is a diagram showing the configuration of the frequency multiplexing digital mobile radio device shown in FIG.
is the antenna, (2) is the antenna duplexer 1.13) is the power amplifier, (4) is the high frequency amplification lid, '(5G, (6) is the mixer, (7) synthesizer, (8) is the control circuit; (9
a) (9b) is a modulator, (10) is an intermediate amplifier, (11
a,) (41b) Detector, (12a) (12b)
l is an error correction encoder, (13a) (, 13b) - is an error correction decoder, (14) is an audio encoder, (15) is an audio decoder, (16) is a transmitter, and (17) is a receiver. . (24
) is a data input terminal, 25) is a data output terminal, (
26) is the above-mentioned synthesizer by the output of the control circuit (8).
The control terminal (3, i)' (32) of the control circuit (8)
The error correction encoder (1'2 a)'' (42b) is a control terminal, and the error correction decoding Wj (13a) (1-3b) of the control circuit (8) (33) and (34) is a control terminal.

Next, the operation will be explained. For example, data at a transmission rate of 8 kbps is input to the data input terminal (24).

On the other hand, the voice given to the transmitter (1b) is transmitted to the voice encoder (
14) into a digital signal of, for example, 8 kbps.

These data and voices are processed by an error correction encoder (12a)
An error correction code is added by (12b) and provided to modulators (9a) and (9b), respectively. The outputs of modulators (9a) and (9b) are applied to mixer (5);
It is further amplified by a power amplifier (3) and radiated into space by an antenna (1) via an antenna duplexer (2).

On the other hand, the signal received by the antenna (1) is guided to the high frequency amplifier (4) via the antenna duplexer (2), amplified, and converted to an intermediate frequency by the mixer (6). is amplified by the detector (11a) and (
1l b) and are detected by the error correction decoder (1l b) respectively.
3a) (13b) corrects errors in the digital signal. The data is taken out to the outside through the data output terminal (25).The audio digital signal is sent to the audio unit 43 (15).
The signal is converted into an analog signal and can be heard using the receiver (17).

Synthesizer (7) mixes the local frequency (5) (6)
This allows the reception and transmission frequencies to be set at regular intervals. The control circuit (8) controls the entire device and controls the frequency setting of the synthesizer (7) through the terminal (
26).

Further, the control terminals (31) and (32) of the control circuit (8) are used to stop the activation of the error correction codes 111 (12a) and (12b), that is, change v! JWI (9a) (9b) (7) Start and stop. On the other hand, the control terminal (33) of the control circuit (8) (
34) are error correction decoders (13a) and (13b)
, that is, audio decoding W (15) and data output.

The error correction encoder (12a) transmits and receives only audio while data input and data output are stopped.
and modulation! (9) is in a stopped state, so only the output of modulator (9b) is input to the mixer.

Hence power amplification! According to (3), only one frequency is amplified by the amplifier (3) and radiated from the antenna (1).

On the other hand, when transmitting data and voice simultaneously, the modulator (9a
) and (9b), and as a result, a double-layer wave number is emitted from the antenna.

Similarly, on the receiving side, when receiving data and audio at the same time, error correction decoders (13a) (13b)
) are in operation, audio signals can be heard from the handset, and data is output from the terminal (25). Although two frequencies have been described here, it is also possible to use three or more frequencies.

[Problem to be solved by the invention]

Conventional digital mobile radio equipment is configured as described above, and since multiple FJ converters operate, it is difficult to remove spurious signals due to intermodulation generated in mixers and power amplifiers, and interference to other devices is difficult. There are concerns.

This invention was made to solve the above problems, and uses a single modulator to adaptively change the transmission speed of digital signals, and to use the optimum transmission speed depending on the line situation. This makes it possible to realize a digital mobile radio device that does not generate spurious signals due to intermodulation.

[Means to solve the problem]

The digital mobile radio device according to the present invention is configured to set the transmission rate of a digital number to an optimum value depending on the line condition.

[Effect]

The transmission speed of the error correction encoder and modulator in this invention operates so as to be controlled by the error rate of the transmitted signal.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
In the figure, (1) is the aerial i, (2) is the antenna duplexer, (
3) is a power amplifier, (4) is a high frequency amplifier, (5) (6)
) is a mixer, (7) is a synthesizer, (8) is a control circuit, (9) is a modulator, (10) is an intermediate frequency amplifier, (11
) is a detector, (12) is an error correction encoder that adds a correction code to input data, (13) is an error correction decoder that corrects data errors, (14) is a voice encoder, (15)
) is a voice decoder, (16) is a transmitter, (17) is a receiver, and (21) is a control terminal of a control circuit (8), which controls an error correction encoder (12). The terminal (22) is connected to the control circuit (8
For example, a signal corresponding to the error rate detected by the error correction decoder (13) is output at the input terminal of the error correction decoder (13). (24) is a data input terminal (25) is a data output terminal. The terminal (26) is a control terminal for the synthesizer (7).

The audio signal given to the transmitter (16) is the audio signal (14
) into an 8 kbps digital signal.

When transmitting only audio, the error correction encoder (12) operates at 10 kbps by adding, for example, a 2 kbps error correction code to this 8 khps.

If data of 8 kbps is to be sent in addition to voice, the error correction encoder (12) operates at 18 kbps according to instructions from the control circuit (8). This signal is modulated by a modulator (9), converted to a transmission frequency by a mixer (5), amplified by an amplifier (3), and radiated to the antenna (1) via an antenna duplexer (2).

On the other hand, the radio waves from the base station are received by the antenna (1) and the intermediate frequency is amplified! (4), converted to an intermediate frequency by a mixer (6), detected and demodulated by a detector (11), and subjected to error detection and error correction by an error correction decoder (13).

At this time, if the error rate due to error detection exceeds a certain value, the control circuit (8) controls the error encoder (12) to slow down the transmission speed of the digital signal so that the error rate is lowered, and this state continues signal transmission. The output from the error correction encoder (13) is an audio signal! It is converted into an analog signal at (15) and can be outputted by a signal generator (17).Meanwhile, data is output from a terminal (25).

In this invention, when transmitting or receiving a digital signal modulated to a radio frequency, the signal is always waited for in the receiving state (when transmitting No. When using , when the device is in standby mode, it is set to receive a low-speed signal, and when transmitting a signal, that is, in simultaneous transmission and reception mode, the signal transmission speed is set based on the result of error detection of the received signal. In this case, when the error rate exceeds a certain value, the other station is requested to use a lower transmission speed, and the station that receives this request changes its transmission speed in response to the request, and the error rate also increases. When the value falls below a certain value, a higher transmission speed is requested.

Also, among the error rate values that serve as the basis for changing the transmission speed,
It is preferable to provide a so-called hysteresis characteristic by setting a difference between the value when changing to a higher transmission speed and the value when changing to a lower transmission speed.

Furthermore, during simultaneous transmission and reception, even if a request to reduce the transmission speed is sent when the error rate falls below a certain value, a certain amount of time may elapse without it being transmitted to the other station, or the other station may wait until the error rate falls below a certain value. It is preferable to automatically select and set a lower transmission speed when a certain period of time elapses without a request to lower the transmission speed being transmitted.

In addition, it is convenient to configure the system so that the transmission speed can be changed manually.

In the above embodiment, the case of voice and data was described, but the case of voice and multiple data or only multiple data, etc.
authorized devices can connect.

Further, although the transmission rate conversion is performed by the error correction encoder/decoder, similar changes can be made by the modulator, etc.

〔Effect of the invention〕

As described above, according to the present invention, since the required amount of data transmission or the transmission speed of the transmission signal is changed, the apparatus is simplified, and there is an effect that the generation of spurious noise due to intermodulation can be eliminated.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a digital mobile radio device according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a conventional digital mobile radio device. In the figure, (1) is the antenna, (2) is the antenna common interest, (
8) is a control circuit, (9) is a modulator, (11) is a detector,
(12) is an error correction encoder, and (13) is an error correction decoder. In addition, in the figures, the same reference numerals indicate the same or equivalent parts. Agent: Masuo Oiwa, patent attorney (2 others)

Claims (1)

[Claims] An error correction code means for encoding a digital signal into an error correction code, a modulation means for modulating the error correction code into a radio frequency signal to be transmitted by an antenna, and a demodulation unit for demodulating the radio frequency received by the antenna into the error correction code. and error correction decoding means for decoding the demodulated error correction code into the original digital signal, the error correction decoding means detects the degree of error, and the error correction code is detected according to the degree of error. A digital mobile radio device characterized by changing the transmission speed of digital signals.