JPH0583155A - Communication equipment - Google Patents

Abstract

PURPOSE:To provide only one variable gain amplifier to compensate a loss of a transmission cable and a reception cable. CONSTITUTION:Upon the receipt of a transmission mode signal, a switch 37 connects an output terminal of a variable gain amplifier 36 to an input terminal 32T of a transmission cable 32 and upon the receipt of a reception mode signal, the switch 37 connect an output terminal of the variable gain amplifier 36 to an input terminal 22T of a receiver 22. Upon the receipt of the transmission mode signal, a switch 38 connects an output terminal 26T of a transmitter 26 to an input terminal of a variable gain amplifier 36 and upon the receipt of the reception mode signal, the switch 38 connects an output terminal 34T of a reception cable 34 to an input terminal of the variable gain amplifier 36. An automatic gain control circuit 24 provided to the receiver 22 outputs an AGC signal to the variable gain amplifier 36 in response to the level of the signal fed to the receiver 22.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention supplies a signal received by an antenna to a receiver via a receiving cable, and outputs an output signal of the transmitter to the antenna via a transmitting cable having the same length as the receiving cable. It relates to a communication device for supplying.

[0002]

2. Description of the Related Art Japanese Unexamined Patent Publication (Kokai) No. 3-55924 discloses a communication device in which a transmission / reception section and a modulation / demodulation section are connected by two IF cables of equal length, in order to compensate for the loss of the two IF cables. , A first variable gain amplifier is provided between one IF cable and the transmitter, and a second variable gain amplifier is provided between the receiver and the other IF cable. It is disclosed to provide one automatic gain control circuit that commonly controls the amplifiers.

[0003]

SUMMARY OF THE INVENTION The above-mentioned prior art has two problems.
Since two variable gain amplifiers must be provided, there are problems that the device becomes large and the cost becomes high.

The present invention has been made in order to solve the above-mentioned conventional problems, and provides a communication device which requires only one variable gain amplifier to compensate for the loss of the transmission cable and the reception cable. The purpose is to provide.

[0005]

A communication device of the present invention supplies a signal received by an antenna to a receiver via a receiving cable, and outputs an output signal of the transmitter via a transmitting cable having a length equal to that of the receiving cable. A communication device for supplying to an antenna via a transmission / reception control circuit for selectively outputting a transmission mode signal and a reception mode signal for switching between transmission and reception, a variable gain amplifier, and a transmission mode signal. When the output terminal of the transmitter is connected to the input terminal of the variable gain amplifier and receives the reception mode signal, the first switch connecting the output terminal of the reception cable to the input terminal of the variable gain amplifier and the transmission mode signal are received. , A second switch connecting the output end of the variable gain amplifier to the input end of the transmission cable and receiving the reception mode signal, connecting the output end of the variable gain amplifier to the input end of the receiver. When, characterized in that it comprises a gain control circuit for supplying a gain control signal to the variable gain amplifier according to the level of the signal receiver receives through the receiving cable.

[0006]

In the communication device of the present invention having the above structure, when the transmission / reception control circuit outputs the reception mode signal, the signal received by the antenna passes through the reception cable, the first switch, the variable gain amplifier and the second switch. Supplied to the receiver. The gain control circuit outputs a gain control signal for increasing the gain to the variable gain amplifier when the level of the signal supplied to the receiver is lowered according to the level of the signal supplied to the receiver, and lowers the gain when the level is high. The gain control signal is output to the variable gain amplifier. Thereby, the variable gain amplifier changes its gain so that the input signal level to the receiver becomes constant, and compensates for the loss of the receiving cable.

When the transmission / reception control circuit outputs the transmission mode signal, the output signal of the transmitter is supplied to the antenna via the first switch, the variable gain amplifier, the second switch and the transmission cable. At this time, the gain control signal supplied to the variable gain amplifier is the same signal as the gain control signal output by the gain control circuit according to the level of the signal supplied to the receiver in the reception mode. Since the length of the transmission cable is equal to the length of the reception cable, the variable gain amplifier can properly compensate the loss of the transmission cable by the gain set in the reception mode.

[0008]

1 is a block diagram showing the configuration of an embodiment of a communication apparatus of the present invention. The communication device shown in FIG.
It is installed in a moving body and includes an antenna unit 10 and a transceiver unit 20. The antenna unit 10 includes a transmission / reception switching circuit 14, a low noise amplifier 16 and a high output amplifier 18. The transceiver unit 26 includes a receiver 22 and a transmitter 26. Antenna unit 10 and transceiver unit 20
And are connected by a transmission cable 32 and a reception cable 34 having the same length. A variable gain amplifier 36 and switches 37 and 38 are provided between the transmission cable 32 and the reception cable 34 and the transceiver unit 20. The transmission / reception control circuit 40 selectively outputs a transmission mode signal and a reception mode signal in order to switch between transmission and reception.

The antenna 12 of the antenna unit 10 is installed outside the moving body and wirelessly transmits and receives signals.
The signal received by the antenna 12 is supplied to the low noise amplifier 16 while the transmission / reception switching circuit 14 is receiving the reception mode signal from the transmission / reception control circuit 40, where it is amplified with a high S / N ratio, Input to the receiving cable 34. The signal sent through the transmission cable 32 is amplified by the high-power amplifier 18 with a high amplification degree, and then supplied to the antenna 12 when the transmission / reception switching circuit 14 receives the transmission mode signal from the transmission / reception control circuit 40. To be done.

Upon receiving the transmission mode signal from the transmission / reception control circuit 40, the switch 37 connects the output end of the variable gain amplifier 36 to the input end 32T of the transmission cable 32, and receives the reception mode signal from the transmission / reception control circuit 40. The output terminal of the variable gain amplifier 36 is connected to the input terminal 22T of the receiver 22. Upon receiving the transmission mode signal from the transmission control circuit 40, the switch 38 connects the output end 26T of the transmitter 26 to the input end of the variable gain amplifier 36, and the transmission / reception control circuit 40
Upon receiving the receive mode signal from the receiver, the output 34T of the receiver cable 34 is connected to the input of the variable gain amplifier.

The automatic gain control circuit 24 provided in the receiver 22 outputs an AGC (automatic gain control) signal to the variable gain amplifier 36 according to the level of the signal supplied to the receiver 22. As a result, the variable gain amplifier 24 operates in the receiver 2
The gain is changed so that the input signal level to 2 becomes constant, and the loss of the receiving cable 34 is compensated. For example, if the lengths of the transmission and reception cables 32 and 34 are increased, the loss of the cables is increased and the input signal level of the receiver 22 is lowered, so that the automatic gain control circuit 24
Outputs an AGC signal for increasing the gain of the variable gain amplifier 36.

The AGC (automatic gain control) signal supplied to the variable gain amplifier 36 by the automatic gain control circuit 24 according to the level of the signal supplied to the receiver 22 is supplied to the variable gain amplifier 36 as it is even in the transmission mode. It Since the length of the transmission cable 32 and the length 34 of the reception cable are equal, the variable gain amplifier 36 can properly compensate the loss of the transmission cable 32 by the gain set in the reception mode.

Next, the operation of the embodiment of FIG. 1 configured as described above will be described. When the transmission / reception control circuit 40 outputs the reception mode signal, the signal received by the antenna 12 is received via the transmission / reception switching circuit 14, the low noise amplifier 16, the reception cable 34, the switch 38, the variable gain amplifier 36 and the switch 37. Machine 22. The automatic gain control circuit 24 outputs an AGC signal for increasing the gain to the variable gain amplifier 36 when the level is lowered according to the level of the signal supplied to the receiver 22,
When the level is high, the AGC signal for lowering the gain is output to the variable gain amplifier 36. As a result, the variable gain amplifier 36 changes its gain so that the input signal level to the receiver 22 becomes constant, and compensates for the loss of the receiving cable.

When the transmission / reception control circuit 40 outputs the transmission mode signal, the output signal of the transmitter 26 changes to the switch 38,
Variable gain amplifier 36, switch 37, transmission cable 3
2, supplied to the antenna 12 via the high-power amplifier 18 and the transmission / reception switching circuit 14. At this time, the AGC signal supplied to the variable gain amplifier 36 is the same signal as the AGC signal output by the automatic gain control circuit 24 according to the level of the signal supplied to the receiver 22 in the reception mode. Since the length of the transmission cable 32 and the length of the reception cable 34 are equal, the variable gain amplifier 36 can properly compensate the loss of the transmission cable by the gain set in the reception mode.

For example, assuming that the lengths of the transmission and reception cables 32 and 34 are both increased by the same length, the variable gain amplifier 36 gains by the AGC signal in the reception mode by the length of the reception cable 32. Will increase. Since the variable gain amplifier 36 amplifies the transmission signal with the gain even in the transmission mode, the input signal to the high power amplifier 18 becomes the same as before the length of the transmission cable 32 becomes long. Therefore, the high power amplifier 18 can always operate in an optimum state.

In the above embodiment, the communication device is installed in the moving body, but it can be installed in various places such as a stationary station.

Also, in FIG. 1, switches 37 and 38 are shown as having a mechanical construction, but of course electronic switches can be used.

[0018]

As apparent from the above description, according to the communication apparatus of the present invention, the variable gain amplifier is switched by the switch so that it can be used for both reception and transmission. Since it is not necessary to provide a variable gain amplifier, the cost can be reduced.

Further, once the gain of the variable gain amplifier is set according to the input signal level to the receiver, the variable gain amplifier appropriately adjusts the transmission signal level with the gain, so that the gain is adjusted during transmission. There is no need to do it.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a communication device of the present invention.

[Explanation of symbols]

 12 antenna 22 receiver 26 transmitter 32 transmission cable 34 reception cable 36 variable gain amplifier 37, 38 switch

Claims (1)

[Claims] 1. A communication device for supplying a signal received by an antenna to a receiver via a receiving cable and supplying an output signal of the transmitter to the antenna via a transmitting cable having a length equal to the receiving cable. A transmission / reception control circuit that selectively outputs a transmission mode signal and a reception mode signal for switching between transmission and reception, a variable gain amplifier, and an output end of the transmitter that receives the transmission mode signal. A first switch connected to the input end of the variable gain amplifier and receiving the reception mode signal, connecting the output end of the reception cable to the input end of the variable gain amplifier; When the output end of the gain amplifier is connected to the input end of the transmission cable and receives the reception mode signal, the output end of the variable gain amplifier is connected to the input end of the receiver. Communication device comprising a second switch for connecting, said receiver comprising a gain control circuit for supplying a gain gain control signal according to the level of the signal received through the reception cable to the variable gain amplifier.