KR910002624B1 - Trunk signal detecting circuit in pabx - Google Patents

Abstract

The sensing circuits are integrated in on hybrid device to simplify the station line interface. The circuit charges the telephone fees exactly with a detection circuit detecting the inverted polarity of the station line, and prevents the collision of ring signal with a GND level detection circuit. The circuit includes a trunk matching unit (200) connected between the tip of the station line and ring terminal to transmit tone signals, a voltage detectors (201,202) for detecting the positive and negative voltage signal provided from the trunk matching unit (200), for filtering the voltage detected by a photo coupler, and transmitting to a latch and a multiplexer unit, and detection circuits (204,205) for detecting the busy and ring signals.

Description

Trunk Line Signal Detection Circuit in Private Electronic Exchange

1 is a block diagram of a conventional private exchange system.

2 is a detailed circuit diagram of the forward voltage and ring detection circuit 20 of FIG.

3 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10 transfer unit 20 forward voltage and ring detection circuit

24: Forward voltage check circuit 25: Level change and waveform shaping circuit

26 latch and multiplexer 27 ring detection circuit,

200: trunk type matching part

The present invention relates to a signal detection circuit in a trunk line interface with a local exchange system in a private electronic exchange. Particularly, it is possible to detect all signals of the trunk line interface of a private exchange system in one hybrid integrated circuit so that accurate charging and automatic The present invention relates to a trunk line signal detection circuit in a private exchange that enables a path selection and improves the reliability of a system by placing various discrete elements in one hybrid.

In general, private and premises switching systems pass through -48V loop power supplied from the counterpart's local exchange as in the first diagram and form DC loop passage by power feeding that can operate signal detection circuit using the power. And a transfer unit for passing the AC component of the voice as a separate function from the above-described DC loop circuit, matching the voice signal to the rear stage, and transferring and matching various characteristics according to the impedance connected to the front end as an impedance matching circuit. 10), the constant voltage signal is detected by the normal loop circuit, and the polarity is reversed, and the reverse voltage signal is detected when talking with the other party to calculate the correct talk time and detect the change according to the polarity of the feeding voltage, Detects this ring and checks for a call. It detects this ring and notifies the operator of the occurrence of a call, or generates a constant signal on the line is composed of a constant voltage ring detection circuit 20 so that the internal subscriber can receive the call.

)에 데이타 리드단(

)으로 읽어들이는 래치 및 멀티플렉서(26)로 구성된다. 트랜스포머(10)의 기능을 제 1 도와 동일하므로 같은 부호를 부여하였다.FIG. 2 is a diagram showing specifically the first diagram, and is an example of a trunk line signal detection using a discrete element. A ring detection circuit 27 for detecting a ring signal sent from the trunk line exchange side to the trunk line interface side, and a voltage checking circuit 24 for checking the polarity of the fed signal according to the start and end of a call and a call at the local exchange side. Latching and multiplexing the level conversion and waveform shaping circuit 25 for converting the level of the output signal of the voltage checking circuit 24 and balancing the waveform, and the output signal of the level converting and waveform shaping circuit 25. In the central processing unit (not shown), as in the ring detection circuit 27, the address signal ADRS and the read control signal (

) To the data read stage (

) And a latch and multiplexer 26 to read. Since the function of the transformer 10 is the same as that of 1st, the same code | symbol was attached | subjected.

As the conventional signal detection circuit uses a discrete device as described above, since the circuit is complicated and requires a lot of change depending on the use, there is a problem of inferior reliability, and charging was possible only by adding a separate circuit for charging.

Accordingly, an object of the present invention is to provide a circuit that can accommodate various detection circuits in one hybrid to simplify various trunk line interfaces.

Another object of the present invention is to provide a circuit capable of accurately charging by adding a polarity inversion signal detection circuit of the trunk line side.

It is still another object of the present invention to provide a circuit that can increase the reliability of the system by preventing the collision phenomenon of the trunk line incoming and outgoing call occurred in the conventional signal detection method by adding the GND detection circuit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

)이 연결되도록 구성된 부분이 순방향 전압 검출수단(202)이며, 상기 트렁크형 매칭부(200)의 -48V단에 다이오드(D5)의 케소드를 연결하고 상기 노드(401)에 저항(R3)을 연결하며 상기 저항 (R3)으로 부터 상기 다이오드(D5)의 에노드에 포토카풀러(PC3)와 결합된 노드(304)에 연결하며 상기 노드(305)와 노드(304)을 연결하고 상기 포토카풀러(PC3) 출력단에 저항(R10, R11)을 연결하고 저항(R11)을 접지시키며 상기 저항(R10)을 캐패시터(C3)와 인버터(N3)와 결합된 노드(312)에 연결하고 상기 캐패시터(C3)을 접지시키고 인버터(N3)의 출력단으로부터 -48V를 검출하도록 구성된 부분이 -48V 검출수단(203)이고, 상기 인버터(N1, N2) 출력단을 앤드게이트(AN1)의 입력단에 연결하고 상기 인버터(N3)의 출력을 앤드게이트(AN3)의 입력단에 연결하고 보드 프리테스트단(Bd, PST)을 앤드게이트(AN3)의 입력단에 연결하며 상기 앤드게이트(AN1, AN3)의 출력단을 앤드게이트(AN2)를 연결하고 상기 앤드게이트(AN2)의 출력단을 화중음 감지단(BUSY)에 연결되도록 구성된 부분이 통화중검출수단(204)이고, 상기 트렁크형 매칭부(200)의 링출력단(Ring⁺, Ring^-)에 저항(R4)과 포토카풀러(PC4)를 병렬로 연결하고 상기 포토카풀러(PC4)의 출력단에 저항(R12)을 연결하며 상기 저항(R12)을 저항(R13, R14)을 결합한 노드(314)에 연결하고 상기 노드(314)에 다이오드(D6)을 연결하여 노드(313)에 연결하고 상기 노드(313)에 캐패시터(C4)를 연결하여 접지시키며 상기 노드(313)로 부터 인버터(N4)를 연결하여 링검출수단이 (

) 연결되도록 구성된 부분이 링신호 검출수단(205)이다.3 is a circuit diagram according to the present invention, which is connected to a tip end and a ring end of a trunk line by forward / reverse voltage signals REV and FOR according to a call and a call originating and ending from the trunk line. A trunk type matching unit 200 generating a data signal having a predetermined shape and outputting a predetermined voltage through ring signal terminals Ring ⁺ and Ring ⁻ , and a reverse voltage terminal REV of the trunk type matching unit 20. Connect the anode of diode D1 and the cathode of diode D2 to the common input / output terminals COM IN and COM OUT of the anode of diode D2 and resistor R1 of photocoupler PC1. The emitter of the phototransistor which is the output terminal of the photocoupler RC1 by coupling the light emitting diode cased terminal to the node 302 and connecting the cathode side node 301 of the diode D1 to the photocoupler PC1. Connect resistors R6 and R7 to the ground, ground the resistor R6, and capacitor R7 through node 310; The reverse voltage checking means 201 is a part configured to connect the inverter C1 and the inverter N1, to ground the capacitor C1, and to connect the output terminal reverse voltage signal detection terminal REV BAT of the inverter N1. The resistor R2 and the cathode of the light emitting diode of the photocoupler R (2) are connected to the common input terminal COM IN of the trunk type matching unit 200, and the diode D3 is connected to the forward voltage terminal FOR. The node of the cathode and the diode D4 is coupled to the node 401, and the resistor R2 and the photocoupler PC2 are connected to the cathode lock node 303 of the diode D4. Connect a resistor R2 between the resistors 302 and the resistors R8 and R9 at the output terminal of the photocoupler PC2, the resistor R9 is grounded and the capacitor C2 from the resistor R8. And an in-buffer N2, and a forward voltage detection terminal (

) Is a forward voltage detecting means 202, and connects the cathode of the diode D5 to the -48V terminal of the trunk type matching unit 200, and connects the resistor R3 to the node 401. And a node 304 coupled with a photocapillar PC3 to an anode of the diode D5 from the resistor R3, and connecting the node 305 and the node 304 to the photocar Connect the resistors R10 and R11 to the output terminal of the puller PC3, ground the resistor R11, connect the resistor R10 to the node 312 coupled with the capacitor C3 and the inverter N3, and the capacitor The part configured to ground C3) and detect -48V from the output terminal of the inverter N3 is -48V detecting means 203, and connects the output terminals of the inverters N1 and N2 to the input terminal of the AND gate AN1 and Connect the output of (N3) to the input of the AND gate (AN3), and connect the board pretest terminals (Bd, PST) to the AND gate (AN3). A part connected to an input terminal and configured to connect an output terminal of the AND gates AN1 and AN3 to an AND gate AN2 and an output terminal of the AND gate AN2 to a call tone detecting terminal BUSY is provided. 204), and the ring output (ring ^+, ring of the trunks-type matching unit ⁽²⁰⁰⁾ connected to the resistance (R4) with the picture car pullers (PC4) in) in parallel, and the resistance to the output of the photo-car pullers (PC4) (R12) and the resistor (R12) is connected to the node 314 combined with the resistors (R13, R14) and a diode (D6) connected to the node 314 to the node 313 and the node ( 313 connects the capacitor C4 to ground, and connects the inverter N4 from the node 313 to ring detection means (

The ring signal detecting means 205 is configured to be connected.

)으로 역전압이 출력되면 다이오드(D1)를 통해 검파되어 포토카풀러(PC1)의 발광다이오드를 구동하고 노드(302)를 통해 공통입력단(COM IN)을 지나 트렁크형 매칭부(200)에 입력된다. 트렁크형 매칭부(200)내의 소정 패스를 통해 공통 출력단(COM OUT)으로 출력되어 다이오드(D3)에서 검파되며 순방향 전압 입력단(FOR)으로 빠져 나간다. 이때 상기 포토카풀러(PC1)의 출력이 저항(R7)과 캐패시터(C1)로 구성된 저역통과필터에서 필터링 되고 인버터(N1)에서 반전되어 역전압 신호검출단(

)을 통해 역전압이 검출된다.Referring to the specific embodiment of the present invention based on the above configuration in detail, the reverse voltage terminal (

When the reverse voltage is outputted through the diode D1, the reverse voltage is detected to drive the light emitting diode of the photocoupler PC1, and passes through the common input terminal COM IN through the node 302 to the trunk matching unit 200. do. It is output to the common output terminal COM OUT through a predetermined pass in the trunk-type matching unit 200, detected by the diode D3, and exits to the forward voltage input terminal FOR. At this time, the output of the photocoupler PC1 is filtered in the low pass filter composed of the resistor R7 and the capacitor C1 and inverted in the inverter N1 to detect the reverse voltage signal.

The reverse voltage is detected by

)으로 검출된다.The resistor R1 is an adjusting resistor for adjusting the level of the detection signal according to the transmission distance. When the forward voltage is output through the forward voltage terminal FOR, detected by the diode D4, and input to the photocoupler PC2, the photocoupler PC2 is driven by driving the photocoupler PC2 according to the state of the common input terminal COM IN. The output signal of the coupler PC2 is filtered by the low pass filter through the resistor R8 and the capacitor C2 and inverted in the inverter N2 to forward the voltage detection stage (

) Is detected.

)을 통해 소정 출력된 값이 저항(R3)을 통해 포토카풀러(PC3)을 구동하여 포토카풀러(PC3)의 출력이 저항(R10)과 캐패시터(C3)를 지나 저역통과필터링되고 인버터(N3)에서 반전되어 앤드게이트(AN3)에 입력되면 보드 프리테스트단(

,

)의 상태가 "하이"일 때 앤드게이트(AN3)의 출력이 인버터(N3) 출력이 되며 상기 인버너(N1, N2)의 출력을 앤드게이트(AN1)를 통하고 상기 앤득게이트(AN1, AN3)의 출력을 앤드게이트(AN2)를 통하면 화중음 검출단(

)에서 화중음 신호를 검출한다. 즉 상기 앤드게이트(AN1-AN3)의 구성이 OR 게이트 구성이므로 순/역방향 전입이 있으며 무조건 통화중으로 검출된다.The forward voltage terminal (

A predetermined output value is driven through the resistor R3 to drive the photocoupler PC3 so that the output of the photocoupler PC3 is low-pass filtered through the resistor R10 and the capacitor C3 and the inverter N3. Inverted at) and input to AND gate (AN3), the board pretest stage (

,

), The output of the AND gate (AN3) becomes the output of the inverter (N3) and the output of the inverters (N1, N2) through the AND gate (AN1) and the gain gate (AN1, AN3) ) Output through the AND gate (AN2)

) Detects a chord signal. That is, since the AND gates AN1-AN3 have an OR gate configuration, there is forward / reverse transfer, and unconditionally detected during a call.

A ring signal drives the photocoupler PC4 to the ring output terminals Ring ⁺ and Ring ^{+ of} the trunk type matching unit 200 so that the output signal is operated at 16-20HZ by the diode D6. The signal is lowpass filtered by resistor R14 and capacitor C4 and inverted at inverter N4. The signal inverted by the inverter N4 is detected by the ring detection terminal Ring.

The signals detected through the detection stages are processed by the latch and the multiplexer and read by the central processing unit.

In other words, forward voltage check checks -48V fed from C. O side. Since there is built-in overcurrent, overvoltage prevention circuit and bell converter, it operates loop relay to send to C. O side in private exchange. In case of a caustic line or a loop relay in response after ring incoming, current flows to check the forward voltage.

The reverse voltage is configured to detect when the polarity inversion signal is generated and the loop current path flows in the opposite direction. Thus, an OR circuit is formed at the end of the circuit where the two signals are detected to obtain a busy bit even when only one of the two signals is detected. I can make it.

In order to solve the problem of the existing charging method, the reverse voltage check checks the polarity reversal signal given by the C.O side and uses it. That is, when the private exchange sends the C.O side, the reverse voltage bit is checked because the voltage feeding polarity of the called party C.O subscriber changes in response. Of course, the counterpart C.O subscriber is configured to be the bit and polarity inversion signals at the time of rowing. Therefore, since the C.O side is configured to change the polarity reversal at the end of the call when the calling party or the subscriber hangs up after the call, the forward voltage bit is checked again. This allows you to check the exact time from when the call is made to the end of the call, allowing private billing to be accurate.

As a specific example of FIG. 3, a detection example of a forward voltage, a ring, and a bell sound has been described, but a person having ordinary knowledge in the art may detect GND in the trunk type matching unit 200 without departing from the definition of the present invention. The circuit may connect the tone detection circuits in parallel to provide a corresponding service. That is, the GND detection circuit can solve various problems that may occur between the conventional private exchange and the CO interfacing circuit, namely incoming / outgoing collision, accurate billing problem, call recovery, and recovery during a call. In order to improve the conventional signaling method for automatic path selection, it is possible to charge as a tone as an auxiliary role of the conventional polarity reversal signal, and the automatic path selection method uses various CO lines (WAT, CO, RIW, DZ, OPZ, Other Common Carriers) When the TANDEM station is busy or the other party is busy, it detects busy tone and various tones and connects the desired CO counterpart subscriber in the shortest time. Perform

As described above, accurate charging can be performed by the forward / reverse voltage detection circuit, the busy signal can be easily detected, the GND and tone detection circuit can be additionally used for the GND start trunk, and various trunk lines are automatically routed. The choice is made and the reliability can be improved by placing various discrete devices in a hybrid, which can be used as a trunk interface circuit.

Claims (1)

Tone having a trunk-type matching unit 200 connected to the tip of the trunk line and the ring end and outputting each tone signal to be fed, and a latch and multiplexing latch and multiplexer for the central processing unit to read each tone signal. In the signal detection circuit, a forward / reverse voltage signal output from the trunk type matching unit 200 is detected, and a signal is converted and filtered through an optical coupler to detect a forward signal and input the latch and multiplexer. Reverse voltage detecting means (201, 202), -48V detecting means (203) for detecting -48V by detecting and forward coupling a -48V forward voltage of the trunk type matching part (200), and detecting the forward / reverse direction The outputs of the means 201 and 202 and the -48V detection means 203 and the busy detection means 204 for detecting the busy signal and inputting the signal to the latch and the multiplexer and the trunk type matching part 200.And a ring signal detecting means (205) for detecting a ring signal and converting it through an optical coupler, filtering in a predetermined frequency operating band, detecting a ring signal, and inputting the ring signal to the latch and the multiplexer. Trunk line signal detection signal.

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