KR950009007Y1 - Subscriber line current wupphying circuits - Google Patents

Abstract

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Description

Subscriber line current supply circuit of private exchange

1 is a block diagram showing the configuration of a current supply circuit and a peripheral circuit of a private exchange.

2 is a circuit diagram showing the configuration of a conventional current supply circuit and the peripheral circuit.

3 is a circuit diagram showing the configuration of the current supply circuit and the peripheral circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: current supply circuit 11: -48V power supply

20: matching transformer 30: hybrid circuit

40: combo circuit 50: relay control circuit

51, 52: relay 60: ring signal supply circuit

70: ring signal and subscriber line current control circuit 80: hook state detection circuit

The present invention relates to a current feeding circuit (power feeding circuit) provided to form a communication path of the private exchange, and more particularly to a circuit for supplying a stable DC power to the subscriber line of the private exchange and to improve the crosstalk of the voice signal will be.

1 is a block diagram showing the configuration of a current supply circuit and a peripheral circuit of a private exchange.

When the subscriber picks up the handset to make a call or picks up the handset by another subscriber's call, when the hook state detecting circuit 80 detects the off hook of the subscriber's telephone, the current supply circuit 10 relays the relay ( 51 and 52 to supply direct current to the subscriber lines La and Lb. In addition, when a call of another subscriber occurs, the relay control circuit 50 generates a control signal to operate the relays 51 and 52 to connect the subscriber line La to the ring signal supply circuit 60. When the subscriber line Lb is connected to the ring signal and the subscriber line current control circuit 70 side, the ring signal generated by the ring signal supply circuit 60 is supplied to the subscriber telephone side to inform the subscriber that the incoming call has been received. At this time, the off-hook signal is prevented by the ring signal and the subscriber line current control circuit 70.

When the voice signal of the subscriber is loaded on the subscriber signals La and Lb, the corresponding voice signal is transmitted to the matching transformer 20, processed through the hybrid circuit 30, and then processed by the combo circuit 40. The digitized voice signal is converted and output. This digitalized voice signal is transmitted to another subscriber circuit or trunk line circuit.

2 is a detailed view showing the configuration of a conventional current supply circuit and the peripheral circuit. Reference numeral '10' denotes a power feeding circuit, and the resistors Ra, Rb, Rc, and Rd in the drawing denote DC current values supplied from the -48V power source to the subscriber lines La and Lb. Determination device (Pa, Pb) is a pulse that cuts off the current flowing into the device when the resistance of the device increases as the temperature of the device itself increases when the line is shorted, that is, when excessive current flows in the communication path. The transformer Ta blocks the voice signal flowing into the current supply circuit 10 and transmits the voice signal to the matching transformer Tb. The value of the direct current supplied from the -48V power supply to the current supply circuit 10 in the circuit is determined by Equation (1).

I = -48V / {(Ra + Rb + Rc + Rd) + TR _R + line resistance + telephone resistance} ..... (Equation 1)

In Equation 1, TR _R represents the DC resistance of the transformer Ta. When such a DC current is supplied to the subscriber lines La and Lb, the user's voice signal is carried on the subscriber lines La and Lb by this current. As described above, it is blocked by the transformer Ta and is not transmitted to the current supply circuit 10 but is transmitted to the matching transformer Tb.

In the conventional current supply circuit 10, since the circuit itself is operated by a resistor and a transformer, a short circuit occurs in the subscriber lines La and Lb or when an excessive current flows due to an abnormal resistance value. Since 10 does not control the current by itself, the current is cut off only when the operating current limit value of the pulsers Pa and Pb itself is exceeded. Therefore, there is a problem that can not cope with the transient DC current that changes in the operating current limit value of the filter (Pa, Pb) can cause instability of the call, and the transformer (Ta) blocks the voice signal, so the transformer (Ta) ) There is a problem in that leakage magnetic flux is generated due to air gaps of itself, which causes crosstalk of voice signals.

The present invention has been devised to solve this problem, and by controlling the amount of DC current supplied to the subscriber line to supply a stable current to the communication path, to improve the crosstalk phenomena due to the use of transformers, the volume and weight of the circuit itself It is an object of the present invention to provide a subscriber line current supply circuit of a private exchange which can be reduced and highly integrated.

In the subscriber line current supply circuit of the private exchange according to the present invention for achieving the above object, the emitter terminal of the first transistor Q1 is connected to the passage ground terminal GND with the resistors R3 and R2. The collector terminal of the first transistor Q1 is connected to the subscriber line La through the diode D2 and the resistor R20, and is connected to one end of the resistor R1 through the resistor R10. The base end of the first transistor Q1 and the emitter end of the second transistor Q2 are connected to a connection point of the resistors R3 and R2 through a resistor R4, and the collector end of the second transistor Q2 is connected to the first end. It is connected to the collector terminal of the transistor Q1, and is connected to the subscriber line La through the diode D2 and the resistor R20, and the base terminal and the third transistor Q3 of the second transistor Q2. The collector terminal of is connected to the connection point of the resistors R3 and R2 through the resistors R6 and R5, and the third transistor Q3 The emitter terminal is connected to the collector terminal of the first transistor Q1 through the resistors R8 and R9 and the diode D1, and the base terminal of the third transistor Q3 is connected to one end of the resistor R1. At the same time, the ground terminal GND is connected to the ground terminal GND through the resistor R7, the emitter terminal of the fourth transistor Q6 is connected to the power supply (-48V) through the resistors R17 and R18, and the fourth transistor The collector terminal of Q6) is connected to the subscriber line Lb through the diode D4 and the resistor R19, and is connected to one end of the resistor R1 through the resistor R11 and the fourth transistor Q6. ) And the emitter terminal of the fifth transistor Q5 are connected to the connection point of the resistors R17 and R18 through the resistor R21, and the collector terminal of the fifth transistor Q5 is connected to the fourth transistor Q6. Is connected to the subscriber line (Lb) through the diode (D4) and the resistor (R19) and connected to the collector terminal of the The collector terminal of the sixth transistor and the fourth transistor Q4 is connected to the connection point of the resistors R17 and R18 through the resistors R15 and R16, and the emitter terminal of the sixth transistor Q4 is connected to the resistors R13 and R12. The diode terminal D3 is connected to the collector terminal of the fourth transistor Q6, the base terminal of the sixth transistor Q4 is connected to one end of the resistor R1, and at the same time, the power source is connected through the resistor R14. (-48V), the capacitor C1 is connected in parallel to the resistor R1, and the capacitor C2 is connected between the connection point of the resistors R5 and R6 and the connection point of the resistors R15 and R16. The resistor R8 and the resistor R13 are connected in series.

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

3 is a detailed view showing the configuration of the current supply circuit and the peripheral circuit in the private exchange according to the present invention. In the drawing, reference numeral 100 denotes a current supply circuit, and circuits are formed of elements such as resistors R1 to R21, transistors Q1 to Q6, diodes D1 to D4, and capacitors C1 to C2. Configured. The resistor R1 and the capacitor C1 adjust the amount of current flowing into the subscriber lines La and Lb, and the transistors Q1 and Q2 and the transistors Q5 and Q6 are connected to the Darlington. Circuit, which blocks the audio signal flowing into the current supply circuit due to the high output impedance of the Darlington circuit itself. Transistors Q3 and Q4 adjust the amount of current flowing through transistors Q1 and Q6.

Other resistors R2 to R21, capacitors C2, and diodes D1 to D4 are used for noise cancellation and reverse flow of currents supplied to subscriber lines La and Lb, and for determining current values. .

The current supply circuit 100 composed of these elements is configured as a complementary symmetrical circuit (complemental circuit) in the form of looking into a mirror as the same element around the resistor R1.

Hereinafter, an operation process of the current supply circuit 100 according to the present invention will be described in detail. In the state where the subscriber does not pick up the receiver, i.e., the on-hook state, the transistor is turned off, so in the -48V power supply, current flows through the resistors R7, R1, and R14. In fact, since the resistances of R7, R1, and R14 are very large, almost no current flows through this resistance. When the subscriber picks up the receiver, i.e. in the Off Hook state, transistor Q3 is turned on and the current supplied from the -48V supply passes through resistors R2 and R3 and transistors Q1 and Q2. Through the diode D2 and the resistor R20 to the subscriber line La, and through the subscriber telephone ST, the pulser P1, the resistor R19, the diode D4, the transistor Q6, and the resistor. It flows through (R17) and (R18).

When the ambient temperature increases or the current increases, the transistor Q1 becomes a saturation region, and the current flowing into the subscriber line increases. As the transistor Q1 is shorted, the voltage across the resistor R11 gradually approaches the ground level. Since this voltage value is fed back to transistor Q3, the base current value of transistor Q3 decreases and eventually the base current value of transistor Q1 decreases, so transistor Q1 is active in the saturation region. By converting into an active region, the current flowing into the subscriber line flows in a stable state. The complementary symmetrical circuit area around the resistor R1 is similarly converted into the active area by the voltage across the resistor R10 and flows into the subscriber line when the transistor Q6 is saturated. Supply the current in a stable state.

As described above, two circuits facing each other around the resistor R1 are composed of complementary symmetrical circuits to supply stable current to the subscriber lines La and Lb, and the subscriber lines La and Lb. By blocking the existing voice signal flowing from the circuit using the high output impedance characteristics of the transistors Q1 and Q6, the voice signal is prevented from entering the current supply circuit 100 and the voice signal is matched with a transistor. If all transmissions are performed in the < RTI ID = 0.0 >

As such, the present invention provides a stable direct current to the communication path as compared to the conventional current supply circuit, and also prevents the crosstalk phenomenon occurring in the air gap of the transformer since the transformer is not used in the circuit, thereby improving the efficiency of the call. The circuit can be increased and the circuit can be highly integrated due to the absence of a transformer, thereby reducing the volume and weight of the exchanger itself, and reducing the cost of the private exchanger itself.

Claims (1)

In the subscriber line current supply circuit of the private exchange, the emitter terminal of the first transistor Q1 is connected to the ground terminal GND through the resistors R3 and R2, and the collector terminal of the first transistor Q1 is connected to the diode. At the same time as connecting to the subscriber line La through the (D2) and the resistor (R20), and connected to one end of the resistor (R1) through the resistor (R10), and the base terminal and the second transistor of the first transistor (Q1) The emitter terminal of Q2 is connected to the connection point of the resistors R3 and R2 through the resistor R4, and the collector terminal of the second transistor Q2 is connected to the collector terminal of the first transistor Q1. At the same time, the resistor R20 of the diode D2 is connected to the subscriber line La, and the base terminal of the second transistor Q2 and the collector terminal of the third transistor Q3 are connected to the resistors R6 and R5. Is connected to the connection points of the resistors R3 and R2, and the emitter terminals of the third transistor Q3 are connected to the resistors R8 and R9 and the diode D1. It is connected to the collector terminal of the first transistor Q1, and the base terminal of the third transistor Q3 is connected to one end of the resistor R1 and simultaneously connected to the ground terminal GND through the resistor R7. The emitter terminal of the fourth transistor Q6 is connected to the power supply (-48V) through the resistors R17 and R18, and the collector terminal of the fourth transistor Q6 is connected to the diode D4 and the resistor R19. While connected to the subscriber line (Lb) through the resistor (R11) and connected to one end of the resistor (R1), the base end of the fourth transistor (Q6) and the emitter end of the fifth transistor (Q5) resistor ( R21 is connected to the connection points of the resistors R17 and R18, the collector terminal of the fifth transistor Q5 is connected to the collector terminal of the fourth transistor Q6, and at the same time, the diode D4 and the resistor The base terminal of the fifth transistor Q5 and the collector terminal of the sixth transistor Q4 are connected to the subscriber line Lb through R19. The fourth transistor Q6 is connected to the connection points of the resistors R17 and R18 through R15 and R16 and the emitter terminal of the sixth transistor Q4 is connected to the resistors R13 and R12 and the diode D3 through the fourth transistor Q6. Of the sixth transistor Q4 is connected to one end of the resistor R1, and is connected to the power source (-48V) through a resistor Q14, and the resistor R1 is connected to the collector terminal of the sixth transistor Q4. Is connected in parallel to the capacitor C1, and the capacitor C2 is connected between the connection point of the resistors R5 and R6 and the connection point of the resistors R15 and R16. The resistor R8 and the resistor R13 are connected to each other. A subscriber line current supply circuit for a private exchange comprising: a serial connection.