KR930005667Y1 - Automatic switching circuit - Google Patents

Abstract

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Description

Automatic switching circuit

1 is a configuration diagram of a conventional switching circuit.

2 is a block diagram of an automatic switching circuit according to the present invention.

3 is a waveform diagram of respective waveforms at points A to G of FIG.

* Explanation of symbols for main parts of the drawings

TR1, TR2, TR3: transistors C1, C2: capacitors

D1, D2: Diode

The present invention relates to a switching circuit of a TV monitor, and more particularly, to an automatic switch circuit configured to obtain a constant deflection output by always outputting only the subfils to the output when the synchronization signal from the deflection stage is input to the positive or subfiles. .

In the conventional switching circuit, as shown in FIG. 1, the terminal ① of the integrated circuit IC (Hex inverter) is connected to the synchronous input signal part, comes out to the terminal ② through the inverter, and is applied to the terminal ①. Is applied to the deflection through terminal ③ of the switch, and is output to terminal ④ through the inverter of terminal ③ connected to terminal ② and applied to terminal ② of the switch to be applied to terminal ③ of the switch. It was configured to be applied to the deflection circuit through.

As shown in FIG. 1, when the input synchronous signal is positive (+), the conventional switching circuit is input to terminal ① of the integrated circuit IC and is connected to terminal ② of the integrated circuit IC. The first and third terminals of the switch are connected so that a constant negative pulse (-) is always applied to the unary stage, and on the other hand, when the input synchronization signal is a negative pulse, the ① of the integrated circuit (IC) The signal input to the terminal is inverted twice to the terminal ④ through terminals ② and ③ of the integrated circuit, and then operated so that the terminal ② and ③ of the switch are connected so that the negative pulse is applied to the deflection end. have.

However, this conventional switching circuit configuration has a drawback in that the operation is cumbersome and wastes time since the switching operation is performed every time the input synchronizing signal is a positive pulse or a negative pulse so that a negative pulse always appears at the output.

An object of the present invention is to solve the above-mentioned conventional drawbacks will be described in detail with reference to the accompanying drawings, a preferred embodiment of the present invention.

2 shows a configuration diagram of an automatic switch circuit according to the present invention.

3 is a view of each sub waveform at the indicated contact A to contact G of FIG.

As shown in FIG. 2, in the configuration of the automatic switching circuit according to the present invention, the input synchronization signal is applied to the transistor TR1 and the base of the transistor TR2 each having an emitter grounded through the resistor R1. , The collector of emitter grounded transistor TR1 is connected to B ⁺ power supply via resistor R2, and the emitter of emitter grounded transistor TR2 is connected to B ⁺ power supply via resistor R5, The emitter of the transistor TR1 is connected to the base of the transistor TR3 having an emitter grounded through the diode D1 via the capacitor C1 and the resistor R4 which are differential circuits, and the collector of the transistor TER2. Is connected to the base of the emitter grounded transistor TR3 via the diode D2 via the resistor R7 of the capacitor C2, which is a differential circuit, applies a base bias voltage, and the collector of the transistor is connected to the deflection stage. It is supposed to be.

Therefore, the operation of the circuit according to the present invention configured as described above will be described with reference to the waveform diagram of FIG.

3A is a waveform diagram when a positive pulse signal is input to the input, and FIG. 3B is an operation waveform diagram of each stage when the negative pulse number is input.

First, a case where a synchronous signal is input with a constant pulse is as follows.

When a positive pulse, such as the point A waveform of FIG. 3a, enters, the transistor TR1 operates and the waveform of point C of FIG. 3a is generated by the capacitor C2 and the resistor R4 which are differential circuits. FIG. 3A also becomes a waveform at point F and is applied to the base of transistor TR3. At this time, a negative pulse equal to the waveform of point G in FIG. 3A is output to the collector of transistor TR3 and applied to the deflection stage.

At this time, when the positive signal is applied to the synchronization signal input, the transistor TR2 is turned off because the transistor TR2 operates only in the negative pulse.

Next, a description will be given of the case where the sub pulse is inputted to the synchronization signal.

When the negative pulse is inputted as a synchronous signal as shown by the point A waveform of FIG. 3B, the transistor TR1 does not operate but the transistor TR2 operates. The waveform of point D of FIG. 3B appears in the collector thereof, and the capacitor C2 which is a differential circuit. ), The waveform of point F of FIG. 3b is outputted when it passes the resistor R2, and when this waveform is applied to the base of transistor TR3, transistor TR3 is operated and the collector has the same negative waveform as point G of FIG. 3b. The pulse is output and applied to the deflection stage.

As described above, even when one of the positive pulse and the negative pulse is input, the synchronous input signal always outputs only the negative pulse to be input to the deflection stage.

Therefore, the automatic switching circuit of the present invention does not require the switch switching operation for each of the positive pulse and the negative pulse as in the prior art, and can always perform a constant deflection by the automatic switching operation.

Claims (1)

In a switching circuit in which only a negative pulse is always output to a deflection stage, the switching signal is input to each base of the sync signal transistors TR1 and TR2. When the sync signal is a negative number, The emitter is applied to the base of the transistor TR3 via the diode D1 through the capacitor C1 and the resistor R4 which are differential circuits, and when the synchronous signal is a positive pulse, the collector of the transistor TR2 is a differential circuit. It is applied to the base of the transistor TR3 through the capacitor C2, the resistor R7, and through the diode D2, so that the collector of the transistor TR3 is always connected so that only a constant negative pulse is output and applied to the deflection stage. Automatic switching circuit.