KR940001796B1 - Micro-frequency detecting apparatus - Google Patents

Abstract

The apparatus displays faults of outdoor equipment when a signal generated by an outdoor equipment is received through the air. The apparatus includes discriminators (201-20n) for detecting faults of outdoor equipments, relays (RY1-RYn) driven when faults are detected, a power supply (HPS) for providing power to outdoor equipments, tone generators (301-30n) for generating different frequencies (f1-fn) corresponding to the outdoor equipments, a coupler (D1) for coupling frequencies (f1-fn) generated by the tone generators and high frequency signal input from the main line, a frequency divider (D2) for dividing a high frequency and a low frequency signal, filters (401-40n) for filtering a low frequency signal, and displays (501-50n) for displaying output signal of the filters (401-40n).

Description

Fault diagnosis device for microwave outdoor equipment

1 is a block diagram of microwave outdoor equipment.

2 is a conventional outdoor equipment failure diagnosis apparatus.

3 is a block diagram of a troubleshooting apparatus according to the present invention.

4 is a specific circuit diagram of one embodiment of a third diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

201-20n: Detector and Judgment Machine 301-30n: Tone Generator

401-40n: Tone detector 501-50n: Indicator

HPS: Power Drive D1: Combiner

D2: Shunt

The present invention relates to a satellite communication transmitting and receiving device for data communication, and more particularly to an outdoor equipment failure diagnosis device for transmitting the display of the failure status of each part of the outdoor equipment used in satellite communication or satellite communication to the indoor device.

In general, an outdoor facility of a terrestrial microwave transmission / reception facility or a satellite communication facility includes a transmission signal input through a first cable connected to a transmission terminal C1 of an indoor facility and an oscillation frequency generated from the high-definition oscillator 10 as shown in FIG. The input up-converter 20 up-converts the frequency and outputs it. The frequency up-converted by the up-converter 20 is amplified and output by the high output amplifier 30. The signal amplified by the high output amplifier 30 is transmitted and received by the orthogonal mode converter 40 and transmitted through the antenna ANT1. On the other hand, the quadrature mode converter 40 for inputting the signal received from the antenna ANT1 separates the transmission and reception signal and outputs the received signal to the band pass filter 50.

The band pass filter 50, which receives the received signal from the quadrature mode converter 40, filters and outputs the received signal. The low noise block converter 70 for inputting the signal filtered by the band pass filter 50 and the oscillation frequency generated by the high oscillator oscillator 60 downs the frequency to the receiver C2 of the outdoor equipment through the second cable. Will print.

The components configured as shown in FIG. 1 are very expensive and consist of potassium arsenide MESFET which is very weak against static electricity. In particular, a high output amplifier, which is a transmission facility, generates a lot of heat, so a circuit capable of detecting and protecting an abnormal state is needed. .

2 is a block diagram of a conventional outdoor equipment failure diagnosis apparatus. An abnormal state signal is generated from the detector and the determiner 1 installed in each part of the microwave outdoor equipment and inputted to the encoder 2. When the encoder (2) is encoded and output. The modulator 3 for inputting the signal encoded by the encoder 2 is modulated and output. The signal modulated by the modulator 3 is amplified and output by the amplifier 4. The signal amplified by the amplifier 4 is input to the modulator 5 of the indoor equipment via a cable. As a result, the demodulator 5 demodulates the output. The decoder 6, which inputs the demodulated signal from the demodulator 5, decodes and outputs it to the display 7 so that an abnormal state can be indicated. However, the outdoor equipment failure diagnosis apparatus as shown in FIG. 2 is an uneconomical system due to the complexity of the circuit by demodulating again to restore the modulated signal, and the reliability of the fixed diagnosis apparatus is inferior.

Therefore, an object of the present invention is to display the abnormal state by extracting the frequency tuned to each frequency in the indoor equipment when the outdoor equipment required to detect and determine the abnormal function for each component to transmit the oscillation signal having a unique frequency It is to provide an outdoor equipment failure diagnosis device that can immediately transmit the status of equipment specific parts to indoor equipment as a simple circuit.

3 is a block diagram according to the present invention, which is composed of an outdoor facility (A) and an indoor facility (B). In the above-described configuration, the outdoor facility A includes a first detector and determiner 201 that detects a signal from the high output amplifier 101 and determines an abnormal state, and an abnormal state signal is output from the first detector and determiner 20. A relay RY1 driven as output, a first tone generator 301 for generating and outputting a predetermined oscillation frequency f1 by driving the relay RY1, and a signal of the high oscillator 102 A second detector and determiner 202 that senses and determines an abnormal state signal, a relay RY2 driven as an abnormal state signal is output from the second detector and determiner 202, and the relay RY2; The second tone generator 302 generates and outputs a predetermined oscillation frequency f2 as it is driven, and the n-th detector and determiner 20n which detects a signal of the power supply device 10n and determines an abnormal state signal. And driven as an abnormal state signal is output from the n-th detector and determiner 20n. A power drive device HPS connected to the relay RYn, the plurality of relays RY1-RYn to supply power to each component of the outdoor equipment, and a predetermined oscillation frequency as the relay RYn is driven. an n-th tone generator 30n for generating and outputting fn), a predetermined oscillation frequency f1-fn output from the plurality of tone generators 301-30n, and a high frequency signal P1 input from the main line. It is composed of a combiner (D1) for coupling and outputting the input and the indoor equipment (B) is separated from the high frequency signal (P2) and low frequency signal by inputting the coupling frequency output from the combiner (D1) of the outdoor equipment (A) A first tone detector 401 for detecting a signal tuned to a predetermined oscillation frequency f1 by inputting a splitter D2 and a low frequency separated from the splitter D2, and the first tone A first indicator 501 for inputting and displaying a signal detected by the detector 401 and a low signal separated by the splitter D2 A second tone detector 40n for inputting a wave number to detect a signal tuned to a predetermined oscillation frequency f2, and a second indicator 502 for inputting and displaying a signal detected by the second tone detector 402. And an n-th tone detector 403 for detecting a signal tuned to a predetermined oscillation frequency fn by inputting a low frequency from the divider D2, and a signal detected by the n-th tone detector 40n. And n-th display unit 50n for display.

Based on the above configuration, an embodiment according to the present invention will be described with reference to FIG.

When an abnormal state occurs in the high output amplifier 101 of the microwave outdoor equipment, the first detector and the determiner 201 detect the temperature of the high output amplifier 101 and determine that the abnormal state is higher than a predetermined threshold. To output the abnormal status signal. When the abnormal signal is output from the first detector and determiner 201, the relay RY1 is driven. When the relay RY1 is driven, the oscillation frequency f1 generated by the first tone generator 301 is output and input to the combiner D1. At this time, the oscillation frequency is a low frequency of 100 kHz-100 kHz and may be generated by changing the time constant of the resistor and the capacitor in which the first tone generator 301 is built. The combiner (D1) for inputting the oscillation frequency (f1) and the high frequency input from the main line through the terminal (P1) combines the two signals to the splitter (D2) of the indoor equipment (B) through the cable Will print. The splitter D2 for inputting the combined frequency in the combiner D1 separates the high frequency and the low frequency and outputs the high frequency to the terminal P2. The first tone detector 401 for inputting the low frequency separated from the splitter D2 detects a signal tuned to a predetermined oscillation frequency f1 and displays it on the first display 501. In addition, when an abnormal state occurs in each component of the outdoor equipment A such as the high power oscillator 102, the power supply 103, or the like, a predetermined oscillation frequency is assigned to each component of the component and the high power amplifier 101 described above. ) Can be displayed in the same operation as when an abnormal state of a) occurs.

4 is a detailed circuit diagram of an embodiment of FIG. 3 according to the present invention, which detects a temperature of the high power amplifier 101 of the outdoor equipment A and outputs an abnormal state signal when a threshold value is detected. ), The relay RY1 in which the switch S11 and the switch S21 are driven oppositely by the output signals of the detector and the determiner 201, and the high output amplifier 101 according to the driving of the relay RY1. From the power generator HPS for supplying power to the power generator, the tone generator 301 for generating a predetermined oscillation frequency by driving the relay RY1, the oscillation frequency of the tone generator 301, and the water line. A combiner (D1) for inputting and outputting the input high frequency signal, a splitter (D2) for separating and outputting a low frequency signal from the high frequency signal by inputting the combined frequency output from the combiner (D1), and the splitter ( Input the low frequency signal separated in D2). It consists of the indicator 501 indicating the type and tone detector 401 for detecting a signal tuned to the predetermined oscillation frequency, a signal detected by the tone detector 401. In the above configuration, the first detector and the determiner 201 may include resistors R11 and R21 connected in series between a power supply terminal V _B and a ground, a connection node of the resistors R11 and R21, The thermistor R _T connected between the ground, the variable resistor VR1 connected between the reference power supply terminal Vr and the ground, and the inverting terminal (-) of the variable resistor VR1 and connected to the non-inverting terminal (+). The comparator OP1 to which the thermistor R _T is connected, and the output terminal of the comparator OP1 are connected to the base through the resistor R31, and the collector and emitter are connected between the power supply terminal Vc and the ground. The output signal of the first sensor and the determiner 201 is switched between the transistor Q1, the resistor R41 connected between the collector of the transistor Q1 and the power supply terminal Vc, and the relay RY1. (S11) is connected to drive and the drive input signal of the switch (S11) is connected to drive the switch (S21) through the inverter IN1 and one terminal of the switch (S11) Connected to the power supply terminal VF of the high output amplifier, the other terminal of the switch S11 is connected to the power driver HPS, and one terminal of the switch S21 is connected to the power terminal Vs, and the switch The other terminal of (S21) is connected to the tone generator 301, the tone generator 301 is a resistor (R51) and capacitor (C1) between the input terminal ground connected to the switch (S21) of the relay (RY1) In parallel connection, a timer IC T1 is connected to the connection node, and the indicator 501 has a resistor R61 and a light emitting diode LED1 connected in series between the output terminal of the tone detector 401 and ground.

Based on the above configuration, a specific embodiment of the present invention will be described with reference to FIG.

The thermistor R _T senses the voltage divided by the resistors R11-R12 and inputs it to the non-inverting stage (+) of the comparator OP1, and the reference threshold value of the variable resistor VR1 is the inverting stage. Will be entered as (-). At this time, when the temperature sensed by the thermistor R _T is higher than the reference threshold value, the comparator OP1 outputs a high signal.

When the high signal output from the comparator OP1 is applied to the base through the resistor R31, the transistor Q1 is turned on.

The transistor Q1 is turned on and a low signal is applied to the line a so that the switch S11 of the relay RY1 is turned off and the low signal is inverted through the inverter IN1 to switch S21 of the relay RY1. ) Will come on. When the switch S11 of the relay RY1 is turned off, the power supply of the power driving circuit HPS is cut off, so that the operation of the high output amplifier is stopped and the temperature drops. In addition, when the switch S21 of the relay RY1 is turned on, the tone generator 301 composed of the capacitor C1 and the resistor R51 and the timer IC T1 generates a predetermined oscillation frequency f1 according to the time constant value. Will print. The combiner (D1) for inputting the high frequency input from the main line through the oscillation frequency (f1) and the terminal (P1) generated in the tone generator 301 combines the two signals of the indoor equipment (B) through the cable Output to the splitter D2. The splitter D2 for inputting the frequency coupled to the combiner D1 separates the high frequency signal and the low frequency signal and outputs the high frequency signal to the terminal P2. The first tone detector 401 for inputting the low frequency signal separated by the divider D2 is output to detect a signal tuned to a predetermined oscillation frequency f1. The output signal of the first tone detector 401 causes the light emitting diode LED1 to be turned on through the resistor R61 to indicate an abnormal state of each component of the outdoor equipment.

As described above, when a fault is to be diagnosed for a specific component of the outdoor equipment, an abnormal state is indicated by assigning a natural frequency to the component, installing a tone generator generating the frequency in the outdoor equipment, and installing a tone detector in the indoor equipment. With the simple configuration of the circuit, there is an advantage in that it is possible to display an economical and reliable outdoor equipment failure diagnosis device in the indoor equipment.

Claims (1)

A microwave outdoor equipment failure diagnosis apparatus comprising: a plurality of detectors and determiners 201-20n for determining an abnormal state for each component of the outdoor equipment, and an abnormal state in the plurality of detectors and determiners 201-20n. A plurality of relays (RY1-RYn) driven as the signal is output, a power drive device (HPS) for supplying power to each component of the outdoor equipment by driving the plurality of relays, and the relay (RY1-RYn) A plurality of tone generators 301-30n for generating and outputting a predetermined oscillation frequency f1-fn corresponding to each component by driving of < RTI ID = 0.0 > and < / RTI > A coupler (D1) for inputting and combining the frequency (f1-fn), the high frequency signal input from the main line, and the output signal of the combiner (D1) to separate and output the high frequency signal and the low frequency signal Digging (D2) and the splitter (D2) separated A plurality of detectors 401-40n for inputting low frequency signals to detect a signal tuned to a predetermined oscillation frequency f1-fn, and a plurality of signals for inputting and displaying signals detected by the plurality of detectors 401-40n. Microwave outdoor equipment failure diagnosis apparatus, characterized in that consisting of the indicator (501-50n).

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