KR950010381Y1 - Ring signal generating circuit - Google Patents

Abstract

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Description

Output Efficiency Enhancement Circuit of Ring Signal Generator

1 is a block diagram showing an output efficiency increasing circuit of a ring signal generator according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Ring signal reference wave generator 2: DC boost and D / A converter

3: sine wave conversion circuit 4: ring signal detector

5: optical coupling triac driving circuit 6: optical coupling triac

A1, A2: comparator

The present invention relates to a circuit for increasing the output efficiency of a ring signal generator.

In general, the ring signal generator has a problem of heat generation due to a large amount of current consumed in the load of the discharge circuit during ring signal discharge, and it is difficult to increase the output efficiency of the ring signal.

Therefore, an object of the present invention is to not only increase the efficiency of the ring signal generator by flowing a current through the load provided in the discharge circuit during the time for discharging the ring signal in the discharge circuit of the ring signal generator, but also consume current from the load. It is to provide a circuit for increasing the output efficiency of a ring signal generator that can easily solve the problem of heat generation.

In order to achieve the above object, the present invention is a ring signal generator having a signal reference wave generator, a DC boost and D / A converter, and a sinusoidal conversion circuit, the ring signal reference wave output from the ring signal reference wave generator A ring signal detector for detecting the highest voltage of the optical signal; an optical coupling triac driving circuit for outputting a driving control signal in accordance with a detection signal from the ring signal detecting unit; and the sine wave in accordance with a driving control signal from the optical coupling triac driving circuit. And an optical coupling triac for discharging the current charged in the discharge circuit connected in parallel to the output terminal of the sine wave conversion circuit by allowing current to flow through the resistor connected in parallel to the output terminal of the conversion circuit. Provide an efficiency increasing circuit.

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

1 is a circuit diagram showing an output efficiency increasing circuit of a ring signal generator according to the present invention. This circuit resists the ring signal generator which performs the basic operation of generating a ring signal by passing the output of the ring signal reference wave generator 1 through the DC boost and D / A converter 2 and passing through the sine wave conversion circuit 3. (R1) There is a ring signal detector (4) consisting of (R2), a diode (D2), a capacitor (C3), and a comparator (A1) to detect the highest value of the output from the ring signal reference wave generator (1). There is a driving circuit 5 consisting of a transistor TR1 and a resistor R3 and R4 for driving the coupled triac 6, and the resistor R5 connected to the photocoupled triac 6 is a sinusoidal conversion. It is connected to the output terminal of the circuit 3.

The operation of such a circuit is described below.

When the ring signal is generated by the ring signal reference wave generator 1, the DC boost and the D / A converter 2 form a constant signal supply loop, which is applied across the capacitor C1 after passing through the diode D1. The ring signal voltage is distributed through the distribution resistors R6 and R7 and then input to the inverting terminal (-) of the comparator A2. The non-inverting terminal (+) of the comparator A2 is the ring signal reference wave generator (1). By comparing the ring signal output and the reference signal converted by using the ring signal reference wave voltage outputted from the input signal, the output of the ring signal is made into the same sine wave as the reference signal, and the DC boost and D / A converter 2 is inputted to the loop. Form.

The ring signal detector 4 applies a ring signal voltage applied from the ring signal reference wave generator 1 across the resistor R1 to the inverting terminal (-) of the comparator A1 and parallels the resistor R1. (D2) to rectify the output voltage from the ring signal reference wave generator (1) and apply the rectified reference wave to the resistor (R2) connected in parallel with the capacitor (C3) to the non-inverting of the comparator (A1). The input of the terminal (+) is used to compare these two signals to detect the highest value of the ring signal reference wave.

The detected maximum voltage is applied to the base resistor R3 of the optical coupling triac driving unit 5, and the optical coupling triac driving unit 5 is a transistor TR1 and a collector resistance R4 of the transistor TR1. And a photocoupling triac (6) optically coupled to a photodiode connected to the diac connected to the output of the sinusoidal conversion circuit (3). When the ring signal detector 4 detects the maximum value of the output of the ring signal reference wave generator 1, the optical coupling triac 6 is turned on to flow a current through the resistor R5, thereby outputting the output terminal of the sine wave conversion circuit 3. The capacitor (C2) connected to the discharge discharges the ring signal of a complete sine wave. Therefore, since only the current after the ring signal maximum flows through the resistor R5, the current flowing through the resistor R5 can be cut in half, thereby improving the ring signal output efficiency from the sine wave conversion circuit 3.

As described above, the present invention provides a ring signal generator by flowing a current through the resistor R5 connected to the optical coupling triac 6 only during the discharge time of the inverting circuit C2, which is essentially provided in the ring signal generator of FIG. It is possible to increase the efficiency of.

Claims (1)

In a ring signal generator having a ring signal reference wave generator (1), a DC boost and D / A converter (2), and a sinusoidal wave conversion circuit (3), a ring signal output from the ring signal reference wave generator (1) A ring signal detector 4 for detecting the highest voltage of the reference wave, an optical coupling triac driving circuit 5 for outputting a driving control signal in accordance with the detection signal from the ring signal detecting unit 4, and the optical coupling triac A discharge circuit connected in parallel to the output terminal of the sine wave conversion circuit 3 by causing a current to flow through the resistor R5 connected in parallel to the output terminal of the sine wave conversion circuit 3 in accordance with a drive control signal from the drive circuit 5. And an optical coupling triac (6) for discharging the current charged in (C2).