KR100396525B1 - Current limit circuit for trunk in private exchager switching system - Google Patents

Abstract

The present invention is to limit the current in the trunk current limiting circuit of the switchboard, in particular, DC -48V supplied from the network conforms to the specification of the trunk interfacing according to the internal DC resistance of the private exchange and the keyphone switch and the change of the line. It is. The -48V loop current through the call feeder circuit of the private exchange is rectified in the rectifier, and the hook-on / off state from the output of the rectifier is full-wave rectified in the full-wave rectifier in accordance with the detection, and the full-wave rectified. The current flowing in the circuit is limited in the current limiting circuit so as not to adversely affect the network exchanger. As a result, the current limited in the current limiting circuit is limited within a range that does not adversely affect the network switch, thereby achieving stable interfacing.

Description

Trunk current limiting circuit in a private exchange {CURRENT LIMIT CIRCUIT FOR TRUNK IN PRIVATE EXCHAGER SWITCHING SYSTEM}

The present invention relates to a current limiting circuit of a trunk in an exchange, and in particular, stable interfacing by limiting the current given to the network exchange by a non-private loop trunk to a network exchange (Regular European Standard: CTR21). The current limiting circuit of the trunk of a private switch which provides a general-purpose network switching current may affect the quality of a voice call according to the biasing operation driven by the transistors Q1 and Q2 as shown in FIG. It was limited to the extent possible. When the current flowing through the base of the transistor Q1 becomes above a certain level, the transistor Q1 is turned on. When the current exceeds a predetermined level through the resistors R3 and R8, the transistor Q2 is turned on to make the transistor Q1. Since the level applied to the base of the transistor is lowered, the current flowing through the transistor Q1 can be limited, so that the current flow can be controlled. However, the conventional method described above has a low input impedance inside the transistors Q1 and Q2, so that the dial pulse is reduced. When the voltage applied to the system at the time of on-off is about 35V, the operation of the dial pulse cannot be performed normally, and the AC impedance is lowered, which adversely affects the voice call quality.

Therefore, an object of the present invention is to limit the current according to the specification even if the supplied DC -48V current changes depending on the internal resistance or the situation of the current to improve the quality of the voice call and to implement a stable infacing current limit In providing a circuit.

The present invention for performing the above object is a trunk current limiting circuit of a private exchange having a tip feed and a call feed circuit connected to a ring (Ring), the tip of the private exchange (Tip), ring (Ring) of Rectifier connected to the tip (Tip) to rectify the loop DC current of the feed voltage (-48V) by forming a light emitting diode (P1) of the diode (D3) and the photocoupler (U2) in the forward direction with the reverse diode (D1 ~ D2) And driving the phototransistor according to the voltage drop of the light emitting diode P1 of the photocoupler U2. A forward / reverse voltage detection unit for detecting a reverse (/FOR./REV) voltage, a photocoupler for generating a state of a hook on / off signal according to the state of the positive / reverse voltage detection unit, and a photocoupler (U1) A full-wave rectification circuit for hook-on / off detection (HOS) according to the output and full-wave rectifying the current rectified in the rectifying unit, and limiting the output current of the full-wave rectifying circuit to a current value within a range defined by the trunk interfacing standard. It consists of providing current limiting circuit.

1 is a current limiting circuit diagram of a trunk of a conventional private exchange.

2 is a current limiting circuit diagram according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing the present invention through the reference numerals added to the components of each drawing, it should be noted that the same reference numerals are used even when the same reference numerals are shown on the other drawings to indicate the same components.

In addition, in the following description, many specific details such as components of specific circuits are shown, which are provided to help a more general understanding of the present invention, and the present invention may be practiced without these specific details. It will be obvious to those of ordinary skill in the field. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a current limiting circuit diagram according to an embodiment of the present invention.

Connect the diodes D1 to D2 and the diode D3 in the forward direction from the ring end and the tip of the communication path, and the light emitting diode P1 of the photocoupler U2 to the tip. Rectifying unit 10 for rectifying the DC loop current of the feed voltage (-48V), and

According to the voltage drop of the light emitting diode P1 of the photocoupler U2, the phototransistor is driven. A positive / reverse voltage detector 20 detecting a reverse (/FOR./REV) voltage and a hook on / off signal according to a state of the positive / reverse voltage detector 20 is generated. A photocoupler U1 and a full wave rectification circuit for performing hook on / off sensing (HOS) according to the output of the photocoupler U1 and full-wave rectifying the current rectified by the rectifier 10. 30 and a current limiting circuit 40 for limiting and outputting the output current of the full-wave rectifying circuit 30 to a current value within a range defined by the trunk interfacing standard (European Integration Standard: CTR21).

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIG.

When the loop relay is activated, a -48V DC loop current begins to flow through the tip and ring. The loop current is rectified through the rectifying unit 10 composed of diodes D1, D2, and D3, while driving the light emitting diode P1. The check of the electrostatic source (+) and the reverse power source (-) is performed to drive the light emitting diode P1 of the photocoupler U2 of the forward and reverse voltage detector 20 according to the voltage drop of the diodes D1, D2, and D3. Followed by That is, in the forward direction, since the light emitting diode P1 of the photocoupler U2 is turned off, the emitter of the phototransistor becomes 0 (V). The output signal of the photocoupler U2 is inverted twice through the AND gate AN4 and the inverters N3 and N4, where the / FOR signal is " low ". On the other hand, / REV inverted through the end gates AN2 and AN3 and the inverter N5 becomes "high". At this time, the voltage terminal Vbat + of the full-wave rectifying circuit 30 becomes “high” by the output of the rectifying unit 10 as the output of the positive / reverse voltage detecting unit 20, so that the light emitting diode of the photocoupler U1 ( Since P2) is turned on, the phototransistor is driven, and the Hook On / Off Sensing (HOS) stage (HOS) of the full-wave rectifier circuit 30 is made high. Since the light emitting diode P2 of the photocoupler U1 is "on" and the phototransistor is "on", the output of the inverter N1 becomes "low", and the output of the inverter N2 becomes "high". The FOR signal is set to "low" and the / REV is set to "high". However, when the DC loop current does not flow, since the voltage terminal Vbat of the full-wave rectifying circuit 30 becomes "low", the hook on / off sensing stage (HOS) of the full-wave rectifying circuit 30 is turned off by the photocoupler U1. ) Becomes "low" and the photocoupler U1 is turned off so that the output of inverter N1 becomes "high", so the output of inverter N2 becomes "low" so that both / FOR and / REV are "high". do. Therefore, by limiting the current output from the full-wave rectification circuit 30 in accordance with the interfacing standard in the current limiting circuit 40, the loop current flows stably to the DCT stage 50, the full-wave rectifying circuit 30 is "L3845" And the current limiting circuit 40 uses " LM317S ". Here, the current limit value is calculated as follows.

Iloop = 1.2 / 27 = 44.4 (mA) ..... (1)

However, since there is a current consumed by the additional circuit as a result of the actual test, it exceeds 44.4 (mA) as in the example of Equation (1), and trims the resistance of 27Ohm / 2W in consideration of the relative error generated from various devices to loop. You can adjust the current to 55 (mA) +/- 2 (mA).

As described above, the problems caused by using the transistor have been improved by using the current limiting circuit (LM317S), and there is an advantage of implementing a stable interface by limiting the influence of the current to the network exchanger.

Claims (1)

In the trunk current limiting circuit of a private exchange having a call feeder circuit connected to a tip end (TIP) and a ring end (Ring), A light emitting diode of the diode D3 and the photocoupler U2 in the forward direction of the diode D3 and the photocoupler U2 is connected to the tip end of the call feeder circuit of the private exchange and the tip end of the ring. A rectifier 10 for rectifying a loop DC current of a feed voltage (-48V) by configuring P1), According to the voltage drop of the light emitting diode P1 of the photocoupler U2, the phototransistor is driven. A forward and reverse voltage detection unit 20 for detecting a reverse (/FOR./REV) voltage; A photocoupler U1 generating a state of a hook on / off signal according to the state of the positive and reverse voltage detection unit 20; A full-wave rectifier circuit 30 performing hook-on / off-sensing (HOS) according to the output of the photocoupler U1 and full-wave rectifying the current rectified by the rectifier 10; Trunk current limiting circuit in a private exchange comprising a current limiting circuit (40) for providing an output current of the full-wave rectifying circuit (30) by limiting the output current to a current value within a range defined by the trunk interfacing standard.