KR950008032Y1 - Circuit for controlling a phase - Google Patents

Abstract

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Description

Phase control circuit

1 is a circuit diagram of the present invention.

2 is an input / output waveform diagram of each stage.

* Explanation of symbols for main parts of the drawings

1: oscillation circuit 2: comparison circuit

3: multivibrator 4: endgate

5: flip-flop 6: micom

7: Analog switch SW: Start switch

The present invention relates to a phase control circuit for outputting a periodically generated waveform at a desired phase.

In general, a situation arises in which the starting point of the signal, that is, the phase, needs to be changed in order to measure electronic and electrical devices or to impose specific measurement conditions. In this case, it is very difficult to determine the starting point of the artificially accurate phase in a conventional circuit, which causes many difficult problems in precision measurement.

Therefore, the present invention constructs a circuit in which a reference waveform output from the oscillator circuit is connected to a comparator, a multivibrator, a flip-flop, and an analog switch so that the reference signal output from the oscillator circuit extracts a signal at a phase when a waveform is desired. It is an object of the present invention to provide a phase control circuit that can give accurate measurement conditions in the measurement of specific products and components.

Hereinafter, described in detail by the accompanying drawings as follows.

1 is a circuit diagram of the present invention, the output signal of the oscillation circuit (1) that generates a sine wave at a constant period is transmitted to the analog switch (7) and the multivibrator (3) generating a pulse of 60 nsec through the comparison circuit (2) Is connected to the output terminal of the microcomb 6 and the multivibrator 3 connected to the input switch of the end gate 4 and the spat switch SW, and the output signal of the AND gate 4 is connected to the flip-flop 5. It is applied to the clock stage and its output Q is transmitted to the analog switch 7 while the output signal of the microcomputer 6 is a phase control circuit connected to the reset R stage of the flip-flop 5.

Referring to the effect of the present invention made of the configuration as described above are as follows.

First, a sine wave as shown in FIG. 2A output by the oscillation circuit 1 is applied to the inverting terminal (-) of the comparison circuit 2 and compared with a reference voltage set by the variable resistor VR1 to generate an oscillation circuit ( In the high range where the signal of 1) sees the reference voltage, a "high" signal is output to generate a square wave as shown in FIG.

Therefore, the waveform is stabilized in the zener diode ZD and then applied to the multivibrator 3 so that the output signal of the comparator 2 is changed from "low" to "time" by the time constants of the variable resistor VR ₂ and the capacitor C. At the time of rising to the high " level, a short pulse of about 60 nsec, such as (C), is output and transmitted to the AND gate 4.

At this time, when the start switch SW is in the OFF state, the "low" signal is output from the microcomputer 6 and the flip-flop 5 is reset, so that the output of the flip-flop 5 does not exist. Since the analog switch 7 cannot be driven, the sine wave of the oscillation circuit 1 is not output through the analog switch 7.

On the other hand, when the start switch SW is turned ON when the sine wave phase of the oscillation circuit 1 reaches a desired point in time, the " high " The output signal is at the "high" level, and the flip-flop 5 applies the clock so that its output signal Q is also at the "high" level so that the analog switch 7 is operated so that the sine wave signal of the oscillation circuit 1 is output. do. That is, the waveform output through the analog switch 7 becomes a phase (starting point) for imparting measurement conditions of a specific product.

The present invention, which operates as described above, compares the sine wave signal output from the oscillation circuit 1 with the comparison circuit 2, the multivibration 3, the end gate 4, the flip-flop 5, and the analog switch. By providing a phase control circuit interconnected by (7) and drawing out a signal at a desired point in time, it is a useful design to give accurate measurement conditions in measuring electrical and electronic products.

Claims (1)

The output signal of the oscillation circuit 1 is applied to the inverting terminal (-) and the analog switch 7 of the comparison circuit 2, but the output terminal of the comparison circuit 2 is connected to one side of the AND gate 4 through the multivibration 3. The microcomputer 6 signal connected to the stage and connected to the start switch SW is applied to the reset end of the flip-flop 5 and the other end of the end gate 4, while the output signal of the end gate 4 is the flip-flop 5 A phase control circuit, characterized in that the output is connected to an analog switch (7).