KR200143762Y1 - Compensation circuit of signal loss in a cable - Google Patents

Abstract

The present invention compensates the loss of other received signals in the length of the cable when the received signal of the terminal station is applied to the receiving device via a cable in a paging system using satellites and improves the flatness of the frequency according to the gain. A cable signal loss compensation circuit having an improved frequency flatness for improving, comprising: a first general purpose amplifier for amplifying a high frequency input signal; a second general purpose amplifier for amplifying a signal amplified by the first general amplifier; A microwave stub connected between the first universal amplifier and the second universal amplifier to compensate for frequency characteristics generated by all general amplifiers, and connected to an output terminal of the second universal amplifier to reduce signal loss according to a cable length. A digital variable attenuator to compensate and a switch signal for setting the attenuation amount of the digital variable attenuator A dip switch, a third general amplifier for amplifying an output signal according to the digital variable attenuator, and an impedance matching circuit for impedance matching the output signal amplified through the third universal amplifier, It is possible to compensate for the loss of the received signal and improve the frequency flatness, thereby improving the reliability of the system and minimizing the cost of the communication system.

Description

Cable Signal Loss Compensation Circuit

1 is a block diagram of a conventional cable signal loss compensation circuit.

2 is a block diagram of an improved cable signal loss compensation circuit of the present invention.

3 is a cable signal loss compensation circuit of the present invention.

4 is a graph of frequency gain characteristics according to a conventional cable loss compensation circuit.

5 is a graph of frequency gain characteristics according to the present invention.

* Explanation of symbols for main parts of the drawings

10: first general purpose amplifier 20: microwave stub

30: second universal amplifier 40: digital variable attenuator

50: dip switch 60: third general purpose amplifier

C ₂ : coupling capacitor R ₁ ~ R ₄ : resistance

The present invention compensates the loss of the received signal according to the length of the cable when the received signal of the terminal station is applied to the receiving device via a cable in a paging system using satellites and improves the flatness of the frequency according to the gain. The present invention relates to a cable signal loss compensation circuit having improved frequency flatness for improvement.

In general, in a paging system using a satellite, a received signal of each terminal station is supplied to an indoor receiving device consisting of a demodulator and a data processing device through a cable after passing through outdoor equipment consisting of an antenna and a low noise frequency lowering device.

In this case, as the received signal is transmitted through a cable, a signal leaks due to various factors such as the length and state of the cable, which causes a problem.

Therefore, conventionally, two variable gain amplifiers for amplifying a received signal according to a gain value set by the dip switch 5, as shown in FIG. 1, to compensate for the loss of the signal by the cable. Implemented as (1,3) and one general purpose Microwave Monolithic Integrated Circuit (MMIC) amplifier (4), to finely adjust the control voltage of the variable gain amplifiers (1,3) to compensate for signal loss along cable length It was.

However, although the signal loss by the cable is compensated to some extent through the signal loss compensation circuit as described above, as shown in FIG. 4 as the gain of the variable gain amplifiers 1 and 3 is sensitively reacted by the control voltage. Likewise, there is a problem that the gain of the signal is not constant and the frequency flatness in the 950-1450 MHz band is also poor. In addition, the use of expensive variable gain amplifiers (1, 3) has led to costly drawbacks in the system.

Therefore, the present invention was devised to solve the above problems, and its purpose is to implement a compensation circuit using a low cost general purpose amplifier and a digital variable attenuator, and add a microwave stub to the line to achieve a 950-1450 MHz by cable. In addition, the present invention provides a cable signal loss compensation circuit capable of compensating for the loss of the received signal and of improving the frequency flatness of the broadband signal of 500 MHz.

The present invention for achieving the above object compensates the signal lost by the attenuation amount of the digital variable attenuator set according to the output of the dip switch up to 20dB at 2dB interval while amplifying the received signal through three general purpose amplifier, In addition, the microwave Steve is used to compensate for the frequency characteristics generated by the three general-purpose amplifiers to improve frequency flatness.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the cable signal loss compensation circuit of the present invention.

2 is a block diagram of the cable signal loss compensation circuit of the present invention, as shown therein, in order to compensate the leakage component of the high frequency signal of 950 ~ 1450MHz passing through a low noise frequency dropper (not shown) A first universal amplifier 10 for predetermined amplification, a second universal amplifier 30 for amplifying the signal amplified by the first universal amplifier 10 again, the first universal amplifier 10 and a second spot It is connected between the amplifier 30 and the microwave stub 20 for compensating for the frequency characteristics generated by all general-purpose amplifiers, and the output terminal of the second general-purpose amplifier 30, the signal loss according to the cable length 2dB A digital variable attenuator 40 compensated at intervals, a dip switch 50 for outputting a switch signal for setting the amount of attenuation of the digital variable attenuator 40, and output according to the digital variable attenuator 40 A third general-purpose amplifier 60, and the first impedance matching circuit 70 and a plurality of coupling capacitors (C ₂₎ to three output signals are amplified via a universal amplifier 60, impedance matching with an output for amplifying a signal It is composed.

The first to third general purpose amplifiers 10, 30, and 60 may amplify a signal to compensate for the loss caused by the insertion of the digital variable attenuator 40 and the loss caused by the impedance matching circuit 70.

The third turn, the first to third output terminals of each of the general-purpose amplifier (10,30,60) has a resistance (R _1, R ₂ to determine the bias voltage as shown In a detailed circuit diagram of a loss signal, the compensation circuit of the subject innovation Decoupling capacitor (C ₂ ) and RF choke coil (L ₁ ) connected in parallel to each other are connected in series. Dip switch (50) 5-bit output terminals 1, 2, 3, 4, and 5 are connected.

The impedance matching circuit 70 is composed of resistors R ₃ and R ₄ connected in parallel.

Referring to the operation of the cable loss compensation circuit of the present invention configured as described above are as follows.

The first general-purpose amplifier 10 amplifies the input signal by a predetermined amount to compensate for the signal component leaked by the cable among the high-frequency signals of 950-1450 MHz input through the cable, and then through the second general-purpose amplifier 30 The amplified signal is once again amplified.

Subsequently, the digital variable attenuator 40 sets an attenuation amount according to the digital logic output from the deep switch 50. Accordingly, the digital variable attenuator 40 attenuates the amplified signal of the second universal amplifier 30 by the set attenuation amount. Output to three general-purpose amplifier (60).

Finally, the signal passing through the digital variable attenuator 40 is amplified by the third general purpose amplifier 60 and then the impedances of the output signal are matched by the resistors R ₃ and R ₄ of the impedance matching circuit 70. To print.

On the other hand, the microwave stub 20 is to compensate for the frequency characteristics generated by the first to third general-purpose amplifier (10, 30, 60) through the impedance matching action.

As described above, the present invention can compensate the loss of the received signal by the cable and improve the frequency flatness by using the low cost general purpose amplifier, the digital variable attenuator, and the microwave stub to improve the reliability of the communication system. Of course, the cost of the system can be minimized.

Claims (1)

A first universal amplifier 10 for amplifying a high frequency input signal, a second universal amplifier 30 for re-amplifying the signal amplified by the first universal amplifier 10, and the first universal amplifier 10 And a microwave stub 20 connected between the second point amplifier 30 and a second frequency amplifier 30 to compensate for the frequency characteristics generated by all general-purpose amplifiers, and connected to an output terminal of the second universal amplifier 30 according to a cable length. The digital variable attenuator 40 compensating for signal loss, a dip switch 50 for outputting a switch signal for setting the amount of attenuation of the digital variable attenuator 40, and the digital variable attenuator 40 Cable signal loss compensation, characterized in that consisting of a third general-purpose amplifier (60) for amplifying the output signal, and an impedance matching circuit (70) for outputting the impedance matched output signal amplified by the third general-purpose amplifier (60) Circuit.