KR910003493B1 - Dc by-passing circuit in analog interface - Google Patents

Abstract

An analog interface circuit for the trunk or MODEM system has a DC bypass circuit to pass only the voice signal by removing the DC component. The DC bypass circuit comprises a miniaturized transformer (30) connected with a balancing network (20) and a CODEC (10), a relay switch (SW1) connected with terminals of a ring detector (40) and a relay driver (50), a bridge diode (B1) and a switching regulator (60). The circuit reduces the size of the transformer.

Description

DC bypass circuit in analog interface circuit

1 is a conventional circuit diagram.

2 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: Codec 20: Balancing Network

30: transformer 40: ring detection circuit

50: relay driver 60: switching regulator

R1-R3, R11: Resistor B1: Bridge Diode

SW1: relay switch 100: controller

The present invention relates to an analog interface circuit of a trunk or modem system. Particularly, the present invention relates to analog circuits of a trunk or modem system. At the same time, it relates to a DC bypass circuit that can reduce the size of the transformer.

In general, in order to operate the phone from the analog interface circuit of a trunk or modem system, a -48V direct current (DC) must be fed to the transformer.

1 is a trunk circuit diagram using a conventional transformer, a codec 10 is connected from a transceiving highway (Tx, Rx), a balancing network 20 is connected from the codec 10, and the balancing network 20 is a transformer. It is connected to the secondary coil n1 of 30. A ring sensing circuit 40 is connected by connecting a capacitor C1 to each one end of the first and second coils n2 and n3 of the transformer 30 so that the ring sensing signal is recognized by the controller 100. Do it. The switch SW1 is driven by the control of the relay driver 50 by the output of the controller 100, and is configured to make a call through the tip and ring. Here, the 80Vrms ring signal superimposed on the -48V enters the tip, and the spike is removed through the capacitor C11 and the resistor Rll, and the ring sensing circuit is passed through the primary side of the transformer 30. The ring is sensed through 40 and is input to the controller 100 and is input to the ring end. At this time, the ring signal is changed into a digital signal so that the central processing unit, which is the controller 100, can recognize the ring signal 40. When the controller 100 recognizes the ring signal through the ring sensing circuit 40, the controller 100 switches the relay switch SW1 by driving the relay driver 50 to form a communication path.

When the communication path is formed as described above, the voice signal superimposed on -48V flows to the primary side of the transformer 30, and if the transformer is a small transformer, it can be saturated.

Briefly describing the saturation of the transformer 30, the transformer 30 has a core, cross-sectional area, and the number of windings in relation to each other, so that a flux change does not occur when a current flows in the transformer more and more. At this time, the transformer 30 does not operate normally and the signal passing through the transformer 30 is distorted. Even though the transformer 30 is the same, the flow of DC flows in the flow of DC (-48V) or not. Happens fast. The codec 10 combines the functions of a coder / decoder, converts an analog input signal into a digital signal, and converts a digital signal into an analog signal. The balancing network 20 functions to separate the handset. As described above, the DC component and the audio signal components all pass to the secondary side n1 of the transformer 30, and the DC component flows through the primary sides n2 and n3 of the transformer 30. In order to transmit a desired voice signal, the size of the transformer is increased so that the size of the system is increased and the weight is heavy.

Accordingly, an object of the present invention is to provide a circuit which bypasses a direct current of -48V to prevent saturation of a transformer and obtain desired characteristics even with a small transformer.

Another object of the present invention is to provide a circuit that can reduce the size and weight of the system because it can reduce the size of the transformer.

In order to achieve the above object, the present invention provides a first means for allowing a -48V DC input from a tip wire and a ring wire to flow in a constant direction even if the polarity of the tip wire and the ring wire changes, and a voice signal passes through And a DC means for blocking the DC component, a third means for bypassing the DC component and allowing a constant current to flow, and a fourth means for impedance matching.

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

FIG. 2 is a circuit diagram according to the present invention, in which a small transformer 30 is connected to the balancing network 20 from the codec 10 and the balancing network 20 assigned with the same reference numeral as the first diagram, and the same ring as the first diagram. The relay switch SW1 is connected to the node 41 and the relay driver 50 of the sensing circuit 40 to be connected to the tip, and the resistor R11 and the capacitor coupled to the relay switch SW1 are connected to each other. From C11, the anode and the cathode sides of the diodes a and d of the bridge diode B1 composed of the diodes ad are connected to the node 42 and connected to the node 44 of the bridge diode B1. An output terminal of the ring sensing circuit 40 and a ring terminal (Ring) are connected, and a resistor R1, a switching regulator 60, and a resistor R3 are directly connected to the nodes 43 and 46 of the bridge diode B1 in order. By coupling the resistor R2 from the switching regulator 60 to the resistor R3 and the switching regulator. The node 61 coupled with the regulator 60 is connected.

A capacitor C11 is connected to the resistor R1 and the node 62 coupled to the node 46 to the primary side of the transformer 30.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIG. 2, which shows a trunk circuit diagram using a transformer 30 to which a DC-by-pass circuit is added. When input and detected by the ring sensing circuit 40, the (1) and (3) stages of the relay switch SW1 are connected by the control of the relay driver 50 of the controller 100. In this case, when the tip becomes the ground and the ring end becomes -48V, the DC overlapping voice signal is input through the tip end, and the contact point 1 of the relay switch SW1 and the contact point of the relay switch SW1. (3) flows to the diode (a) of the bridge diode (B1), the DC component is input to the switching regulator 60 through the resistor (R1), the output of the switching regulator 60 is the resistor (R3) ) Through the diode (c) of the bridge diode (B1) flows out to the ring (Ring), the audio signal overlaps with -48V to the diode (a) of the bridge diode (B1) flows through the capacitor (C11) While passing, the DC component is cut off, and only the audio signal passes through the primary side of the transformer 30 to the secondary side of the transformer 30. In addition, when the tip becomes -48V and the ring becomes ground, the DC overlapping voice signal flows to the diode b of the bridge diode B1 through the ring. Is passed through the resistor (R1) to the switching regulator 30, the output of the switching regulator 30 flows through the resistor (R3) through the diode (d) of the bridge diode (B1) to the tip (Tip), The signal flows superimposed with -48V to the diode (a) of the bridge diode (B1), the DC component is blocked while passing through the capacitor (C21), and only the audio signal passes through the primary side of the transformer (30). It goes to the secondary side of. In this circuit, the resistor (R2) has an adjustment function to limit the current of the bypassed DC. The calculations are made so that I = 1.2 / R2, 0.8Ω ≤ R2 ≤ 120Ω flows about 23.5mA in this circuit.

As described above, in order to operate the transformer without saturation because the DC component is flowed through the transformer in the related art, the size of the transformer is large. However, a small transformer can be used by using a circuit in which a DC-bypass circuit is added. This can reduce the area occupied when mounting on a board, and the weight of the board can be reduced.

Claims (1)

In the analog interface circuit having a codec (10), a balancing network (20), a transformer (30), a ring sensing circuit (40) and a relay driver (50) and connected to a tip and a ring end (Tip, Ring), A small transformer 30 is connected to the balancing network 20 from the codec 10 and the balancing network 20, and a relay switch is connected to one node 41 and the relay driver 50 of the ring sensing circuit 40. Diodes (a, d) of bridge diode (B1) connected to tip (tip) by connecting (SW1) and composed of diode (ad) from resistor (R11) and capacitor (C11) coupled to relay switch (SW1). The anode and the cathode side of the () is connected to the node 42, the output terminal of the ring sensing circuit 40 and the ring (Ring) is connected to the node 44 of the bridge diode (B1), the bridge diode ( The resistor R1, the switching regulator 60, and the resistor R3 are sequentially connected to the nodes 43 and 46 at the node B1) in series, and coupled in parallel. DC bypass circuit, characterized in that consisting of a node (61) coupled to the resistor (R3) and the switching regulator (60) by connecting a resistor (R2) from the switching regulator (60).

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