JPH11205161A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system capable of adjusting the output level of an amplifier corresponding to the transmission speed of data signals within the linear range of its input/output characteristics. SOLUTION: This system is constituted of communication equipment 7 and a control circuit 1, where the communication equipment 7 is further constituted of a synthesizer 8, a transmitter 9 and an amplifier 10, or the like. The control circuit 1 is constituted of a data channel detection part 2 for detecting the transmission speed of data signals outputted from the amplifier, a linearity storage control part 3 for storing the input/output characteristics of the amplifier and a data decision part 4 for determining stipulated output equivalent to the transmission speed detected within the linear range of the input/output characteristics, etc. Then, the input level of the data signals to the amplifier 10 is adjusted so as to be the stipulated output thus determined.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system, and more particularly to a communication system using a plurality of data signals having different transmission speeds.

[0002]

2. Description of the Related Art For example, in satellite communication, a plurality of data signals having different transmission speeds are utilized from a small earth station by time division multiple access. FIG. 2 shows an example of a communication system used in such a case.

In FIG. 2, a low-speed data signal (64 KBPS) and a high-speed data signal (128 KBPS) input from a terminal device (not shown) are switched by switches 231 to 233.
Are input to the active communication devices 241 and 244 or the standby communication devices 242 and 243 via the
Output from the antenna 25 via 34 to 237. Each of the communication devices 241 to 244 includes a transmitter 241a to 241a.
44a and amplifiers 241b to 244b. After the outputs of the transmitters 241a to 244a are amplified by the amplifiers 241b to 244b,
4 to 236 are output to the antenna 25.

The switches 231 to 233 are connected to the driving circuit 2
1, the switches 234 to 237 are respectively operated by the drive circuit 22. And these switching devices 2
34 to 237, communication devices 241 to 241 for each data signal.
Switch the signal path to H.244 and the communication device 241
The switching of the signal path from .about.244 to the antenna 25 is performed.

[0005] In the conventional communication system having the above-described configuration, the working and standby communication devices are provided for each transmission speed as described above. By switching the signal path to the standby communication device by 231 to 236, the reliability of the communication line is improved. In the conventional system, in a normal setting, the standby communication device 242 is used for transmitting low-speed data signals, and the standby communication device 243 is used for transmitting high-speed data signals. Further, in this system, as shown in the figure, the communication devices 242 and 243 of the standby system can be shared for low-speed data signal transmission and high-speed data signal transmission, thereby further improving the reliability of the communication line. I have.

Further, the input / output characteristics of the amplifier constituting the communication apparatus have a linear region where the input and the output after amplification are in a linear relationship, and a nonlinear region where the input and the amplified output are also in a nonlinear relationship. . When the amplifier is operated in the non-linear region, the phase distortion increases, and when the output having the large phase distortion is demodulated by, for example, a four-phase demodulator, the data signal cannot be correctly demodulated. There are drawbacks. For this reason, in the above communication device, the amplifier needs to operate in a linear region where the phase distortion is small.

[0007]

By the way, in the above-mentioned conventional communication system, the output level of the data signal output from the communication device increases or decreases according to the transmission speed of the input data signal. For example, when a high-speed data signal is input to a communication device for low-speed transmission, the input level of the communication device increases as compared with the low-speed data signal. For this reason, in the above-described communication device, for example, when a data signal other than the transmission speed of the normal setting is input to the standby communication device, the amplifier may operate in the non-linear region of the input / output characteristics. In such a case, in the conventional communication device, it is necessary to adjust the output level of the amplifier manually in accordance with the input level difference each time.

In the case of the above-mentioned conventional communication system,
For example, since the configuration is such that the output of the communication device is transmitted to the antenna via up to three switches, signal loss from the amplifier to the antenna is large. For this reason, it is necessary to increase the output of the amplifier in order to output a sufficiently large signal to the antenna. In this case, the amplifier may operate in a non-linear region. For this reason, it was difficult to output a sufficiently large signal to the antenna. In addition, since the conventional communication system has many components and a complicated system configuration, there is a disadvantage that the operation and repair of the system are complicated, and this causes a reduction in the reliability of the communication line.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a communication system capable of adjusting the output level of an amplifier within a linear region of its input / output characteristics according to the transmission speed of a data signal.

[0010]

SUMMARY OF THE INVENTION A communication system according to the present invention is a communication system having a communication device for amplifying and transmitting a plurality of data signals having different transmission speeds, and detects a transmission speed of a data signal output from the amplifier. Transmission speed detecting means, input / output characteristic storing means in which input / output characteristics of the amplifier are stored, and output determining means for determining a specified output corresponding to the detected transmission speed in a linear region of the input / output characteristics. And level adjusting means for adjusting the input level of the data signal to the amplifier so as to obtain the prescribed output.

Further, in the communication system according to the present invention, the level adjusting means may include an attenuator for attenuating the data signal input to the amplifier, and a level for adjusting the amount of attenuation of the attenuator based on the specified output. And control means. Further, the transmission rate detecting means includes, for example,
It is provided with a counter for counting the number of transmission bits per unit time in the data signal.

In the communication system of the present invention configured as described above, even when data signals having different transmission speeds are input, the output of the amplifier is immediately changed to the specified output of the data signal within the linear region of the input / output characteristics. Can be adjusted.

[0013]

Next, an embodiment of a communication system according to the present invention will be described. FIG. 1 is a configuration diagram of the communication system of the present embodiment. This communication system is, for example, a communication system used in a satellite communication earth station.
This communication system includes a control circuit 1 and a communication device 7. The control circuit 1 includes a data channel detector 2,
It includes a linearity accumulation control unit 3, a data determination unit 4, an automatic output setting unit 5, and a level control unit 6. Also,
The communication device 7 includes a synthesizer 8, a transmitter 9, and an amplifier 10
Consists of

The data channel detector 2 comprises a reference clock generator 21 and a counter 22. The counter 22 includes a flip-flop that operates based on the reference clock output from the reference clock generation unit 21 and the like. The data channel detection unit 2 counts the number of transmission bits per unit time in the output data signal from the amplifier 10 input via the linearity accumulation control unit 3 by the counter 22, and outputs the output from the amplifier 10. It detects the signal transmission speed and outputs a detection signal.

The linearity accumulation control unit 3 includes an amplifier 1
0 input / output characteristics are stored and accumulated in a memory or the like.
Then, the linearity accumulation control unit 3 outputs the accumulated data to the data determination unit 4 as an accumulation control signal.

The data decision section 4 receives the accumulation control signal from the linearity accumulation control section 3 and the detection signal from the data channel detection section 2. Then, the data decision unit 4 determines the amplifier 10 based on the input / output characteristics by the accumulation control signal.
Is determined. In addition, the data determination unit 4 determines a specified output according to the detected transmission speed in the linear region, and outputs a determination signal. That is, an amplification point corresponding to the detected transmission speed is determined in the linear region, and an output level corresponding to the amplification point is output to the level control unit 6 as a determination signal.

The automatic output setting section 5 has a predetermined output level of the amplifier 10 set in advance, and outputs this output level to the level control section 6. Note that the automatic output setting unit 5
A signal for determining the upper limit of the linear region is output to the linearity accumulation controller 3.

The level controller 6 adjusts the input variable attenuator 91 based on the determination signal. More specifically,
The level control unit 6 receives the determination signal and the output level from the automatic output setting unit 5, compares the output level with the specified output level, and inputs a control signal such that the output from the amplifier 10 becomes the specified output. Output to the variable attenuator 91.

On the other hand, the combiner 8 inputs a plurality of data signals having different transmission speeds, for example, two data signals of 64 KBPS and 128 KBPS as shown in FIG. Output to After encoding these data signals, the transmitter 9 outputs the data signals directly or by modulating them. Further, the amplifier 10
Amplifies the output from the transmitter 9 and outputs it to the antenna 11, and this output is output, for example, in a time-division manner. Here, the transmitter 9 is provided with an input attenuator 91. The input attenuator 91 has a function of attenuating the input from the combiner 8 by an appropriate amount.

Next, the operation of the communication system according to the present embodiment will be described. Here, the case where the transmission speed of the data signal input to the communication device 7 changes from a low speed (for example, 64 KBPS) to a high speed (for example, 128 KBPS) will be described.

In this case, the amplified data signal output from the amplifier 10 is input to the data channel detector 2 via the linearity accumulation controller 3. Then, the data channel detection unit 2 samples the data signal with the reference clock from the reference clock generation unit 21 and then counts the number of transmission bits (bits / second) with the counter 22 so as to reduce the transmission speed of the data signal. And outputs a detection signal to the data determination unit 4.

The data determination unit 4 receives the above-mentioned detection signal and the accumulation control signal from the linearity accumulation control unit 3 and searches for output data on the input / output characteristics of the amplifier 10. An amplification point or a specified output corresponding to the transmission rate detected in the area is determined or determined.

Further, the level control section 6 controls the output level signal from the automatic output setting section 5 based on the above-mentioned specified output, and changes the output level from the amplifier 10 to a specified output value determined by the determination signal. Thus, the input variable attenuator 91 is controlled.

As described above, in the communication system of the present embodiment, signals having different data transmission rates are instantaneously determined and operated within the linear region of the amplifier, and the output level can be automatically adjusted to the specified value. Deterioration can be prevented, and the output level can be automatically set to a specified value. Thereby, the reliability of the communication line can be improved. Further, the system configuration is simplified, and economical communication can be easily performed.

[0025]

As is apparent from the above description, according to the communication system of the present invention, the transmission rate of the data signal output from the amplifier is detected, and the amplifier is placed in the linear region based on the detected signal. It can be adjusted so as to output the specified value.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a communication system according to the present invention.

FIG. 2 is a block diagram showing a conventional example of a communication system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Control circuit 2 Data channel detection part 3 Linearity accumulation control part 4 Data determination part 5 Output automatic setting part 6 Level control part 7 Communication device 9 Transmitter 10 Amplifier 21 Reference clock generation part 22 Counter 91 Input variable attenuator

Claims (3)

[Claims] 1. A communication system having a communication device for amplifying and transmitting a plurality of data signals having different transmission speeds, comprising: a transmission speed detecting means for detecting a transmission speed of a data signal output from an amplifier; Input / output characteristic storage means in which output characteristics are stored; output determination means for determining a specified output corresponding to the detected transmission speed within a linear region of the input / output characteristics; and And a level adjusting means for adjusting an input level of the data signal. 2. The level adjusting means includes an attenuator for attenuating a data signal input to the amplifier, and a level control means for adjusting an amount of attenuation of the attenuator based on the specified output. The communication system according to claim 1, wherein 3. The communication system according to claim 1, wherein said transmission rate detecting means includes a counter for counting the number of transmission bits per unit time in the data signal.