KR0133866Y1 - Circuit for reproducing speed detector using drop-out pulse - Google Patents

Abstract

This invention relates to a tape play speed detection circuit using drop out pulses. The present invention considers that the DC voltage value that determines the tape playback speed is always constant when detecting the tape playback speed, and the video signal is enveloped in an envelope form to detect the tape playback speed by using the variation of the dropout pulse. Tape reproducing speed is achieved by configuring a preamplifier for outputting, a dropout pulse detector for detecting a dropout pulse, a lowpass filter for filtering a dropout pulse signal, and a comparator for comparing the output of the lowpass filter with a reference voltage. It is configured to determine. Therefore, the tape reproduction speed detection circuit using the drop out pulse has an advantage that it can be applied to all the general video tape recorders.

Description

Tape Playback Speed Detection Circuit Using Dropout Pulse

1 is a block diagram showing an embodiment of a tape reproduction speed detection circuit using a drop out pulse according to the present invention.

2 is a waveform characteristic diagram of an envelope waveform and a dropout pulse according to FIG.

3 is a waveform characteristic diagram of a dropout pulse according to the tape reproduction speed change according to FIG.

4 is a partial detailed circuit diagram of FIG.

* Explanation of symbols for main parts of the drawings

10: video head 20: preamp

30: dropout pulse detector 40: low pass filter

50: comparator 51: comparator

VREF: reference voltage source

The present invention relates to a tape reproducing speed detection circuit using a drop out pulse, and more particularly, a change amount of a drop out pulse by escaping from a method of detecting a tape speed by determining an amount of change of an envelope. The present invention relates to a tape reproducing speed detection circuit using a dropout pulse for detecting a tape speed.

In general, in order to detect the playback speed of a tape, a tape playback speed detection circuit must be separately configured. In addition, in the related art, a tape pass rate is detected by inputting an envelope together with a video and audio signal during variable speed reproduction, and configuring a low pass filter for filtering the input envelope into a DC value to determine the play rate.

However, there is a problem that it is very difficult to maintain a constant envelope at all times because of errors in the structure of the current video head and errors due to aging of the tape. Therefore, there is a case where the tape playback speed is confusing.

The present invention is to solve the above problems, and the object of the present invention is to take into consideration that the DC voltage value for determining the tape play speed is always constant when detecting the play speed of the tape. A tape reproducing speed detecting circuit using a drop out pulse for detecting a tape reproducing speed by using a change amount of a dropout pulse is provided.

The tape reproducing speed detection circuit using a dropout pulse according to the present invention for achieving the above object is connected to the video head to amplify the video signal input through the video head and output in the form of an envelope. A drop out pulse detector connected to the preamplifier, a drop out pulse detector connected to the preamplifier to detect a drop out pulse of the audio signal amplified by the preamplifier, and a drop out pulse connected to the drop out pulse detector and detected by the drop out pulse detector; A low pass filter for filtering a signal and converting the signal into a direct current component; and a voltage of the direct current component connected to the low pass filter and output from the low pass filter to the non-inverting stage and applying a reference voltage applied from a reference voltage source to the inverting stage. By taking a comparison to the back end of the microcomputer It has a point by comprising a comparison with a comparator which outputs a control signal.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a tape playback speed detection circuit using a drop out pulse according to the present invention will be described in detail.

FIG. 1 is a block diagram showing an embodiment of a tape reproducing speed detecting circuit using a dropout pulse according to the present invention. FIG. 2 is a waveform characteristic diagram of an envelope waveform and a dropout pulse according to FIG. Fig. 1 is a waveform characteristic diagram of a dropout pulse according to the tape reproduction speed change according to Fig. 1.

Referring to FIG. 1, the video head 10 is connected to the preamplifier 20, the preamplifier 20 is connected to the dropout pulse detector 30, and the dropout pulse detector 30 is low pass. It is connected to the filter 40. The low pass filter 40 is connected to the comparator 50, and the comparator 50 is connected to a microcomputer (not shown).

The operation state will be described with reference to the above configuration. The video signal reproduced by the video head 10 is amplified and output through the preamplifier 20. The output at this time has an envelope shape.

In addition, the video signal in the form of an amplifier output through the preamplifier 20 is input to the drop-out pulse detector 30. At this time, the drop-out pulse detector 30 detects a pulse according to the variation amount of the envelope. Output The output pulses show different waveform characteristics depending on the tape playback speed (see FIG. 2).

In addition, the pulse output from the dropout pulse detector 30 is applied to the low pass filter 40 to be filtered. At this time, the pulse passing through the low pass filter 40 represents a direct current component. The pulses exhibit different waveform characteristics depending on the tape playback speed (see Figure 3).

Thereafter, the direct current component of the pulse signal is applied to the comparator 50, and after a comparison process through the comparator 50, a logic signal is output and applied to a microcomputer (not shown).

4 is a partial detailed circuit diagram of FIG. In FIG. 4, components identical to those of FIG. 1 will be omitted, and like reference numerals denote like elements.

4, the low pass filter 40 is connected to the non-inverting terminal (+) of the comparator 51 configured in the comparator 50, and the inverting terminal (-) of the comparator 51 is the reference voltage source VREF. Ground), and the output of the comparator 51 is connected to a microcomputer (not shown).

The operation state will be described with reference to the above configuration. The pulse filtered through the low pass filter 40 represents a DC component, and the DC voltage value of this pulse signal is applied to the non-inverting stage (+) of the comparator 51 configured in the comparator 50. The reference voltage output from the reference voltage source VREF is applied to the inverting terminal (-) of the comparator 51. The comparator 51 compares two voltage values and outputs a high signal when the voltage value of the pulse signal output from the low pass filter 40 is higher than the reference voltage value, and outputs a high signal from the low pass filter 40. When the voltage value of the signal is lower than the reference voltage value, a low signal is output and applied to a microcomputer (not shown).

Therefore, the microcomputer (not shown) can control the playback speed of the tape by receiving a logic signal and outputting a control signal for controlling the video drive motor connected to the video head.

As described above, according to the tape reproducing speed detection circuit using the dropout pulse according to the present invention, the reproducing speed detecting circuit does not need to be separately configured, so that the cost can be reduced, and the tape reproducing speed can be utilized by using the change amount of the dropout pulse. By detecting, there is an effect that can always determine the correct tape playback speed.

Claims (1)

A preamplifier 20 connected to the video head 10 to amplify the video signal input through the video head 10 and outputting the amplified video signal in the form of an envelope; and a preamplifier 20 connected to the preamplifier 20. A dropout pulse detector 30 for detecting a dropout pulse of the audio signal amplified by 20), and a dropout pulse signal detected by the dropout pulse detector 30 connected to the dropout pulse detector 30; A low pass filter 40 for filtering and converting into a DC component, and a voltage of a DC component connected to the low pass filter 40 and outputted from the low pass filter 40 to the non-inverting stage (+) and receiving a reference voltage source. And a comparator 50 having a comparator 51 for outputting a control signal to a microcomputer in the rear stage by receiving and comparing the reference voltage applied from VREF to the inverting stage (-). A drop-out pulse tape reproduction speed detecting circuit using as.