KR20000033418A - Method for automatically converting record speed of vcr - Google Patents

Abstract

PURPOSE: A method for automatically converting a record speed of a VCR is provided to solve a problem that a tape which in a record mode is short of length by making the speed of the tape being in record mode to be identical to that of a tape being in the playback mode. CONSTITUTION: In a method for automatically converting a record speed of a VCR, it is first determined if a first deck is in a playback mode(101), and, when the first deck is in the playback mode(101), a tape speed mode of the first deck is detected(102), and it is determined if the tape speed mode is in a normal mode(103). When the tape speed mode is in the normal mode, a tape speed mode of a second deck is set at the normal mode(104), and the record operation in the second deck is performed at the normal mode(105). When the tape speed mode of the first deck is not in the normal mode, it is determined if the tape speed mode is in an EP mode. When in the EP mode, the tape speed mode of the second deck is set at the EP mode(107) and the record operation of the second deck is performed at the EP mode(108).

Description

Automatic switching of recording speed in VSI

The present invention relates to a tape speed mode switching method of a double-deck VSI, and more particularly, to a tape speed playback mode and a second deck side of the first deck side automatically when tape copying is performed from the first deck to the second deck. The present invention relates to a method for automatically switching the recording speed in VSI so that the tape speed recording modes of the cameras are matched with each other.

The VSI system employing the double deck is typically made in the form of the video signal reproduction / recording circuit of FIG. 1A and the audio signal reproduction / recording circuit of FIG. 1B.

That is, as shown in Fig. 1A, the video signal reproducing system on the first deck (playback deck) has a reproduction video head 51a for reading a video signal recorded on a tape, and a signal read from the video head to a predetermined level. A preamplifier 52a for amplifying, an AGC circuit 53a for gain control of the preamplified video signal at a constant level, a Y / C separator 54a for separating the video signal into a luminance signal and a color signal, etc. It includes.

The signal of the Y / C separation unit 54a generated from the reproduction system includes an FM demodulation unit 55a for demodulating the luminance signal Y of the FM-modulated video signal, and a high frequency band of the color signal separated from the luminance signal. A converter 57a for converting, a color band filter 58a for detecting a color signal from the high-converted signal, and combining the luminance signal and the color signal into an original video signal and outputting the video signal to a video signal output terminal. It consists of the Y / C combining part 56a.

The video signal recording circuit for recording the video signal output through the reproduction system as described above includes a Y / C separator 66a for separating the video signal applied to the video input terminal into a luminance signal and a color signal, and the Y / C separation. And an FM modulator 65a for FM-modulating the luminance signal of the video signal separated in the unit, and a luminance band filter unit 64a for filtering the luminance signal modulated with the FM signal.

A color band filter 68a and amplifying section 67a for detecting and amplifying color signals separated from the luminance signal, a Y / C combining section 63a for synthesizing the luminance signals and color signals, and the Y / C; A recording amplifier 62a for a predetermined level amplification of the composite signal synthesized by the C combining section, and a recording video head 61a for recording the composite video signal.

On the other hand, Fig. 1A shows a video signal reproduction / recording processing system. However, in the case of an audio signal, as shown in Fig. 1B, the audio signal reproducing circuit in the first deck (playback deck) uses the audio for reproducing the audio signal recorded on the tape. A head 51b, a reproduction equalization amplifier 52b for equalizing and amplifying a predetermined level of the audio signal read out from the audio head, and a predetermined level amplification of the reproduction equalized amplified audio signal for output to an audio output terminal. It consists of a line amplifier 53b.

The audio signal recording circuit in the second deck (recording deck) has an AGC circuit section 63b for gain control of the audio signal coming from the audio input terminal to a predetermined level, and the AGC adjusted audio signal at a predetermined level for tape recording. A recording amplifier 62b for amplifying the audio signal; and a recording audio head 61b for recording the recorded amplified audio signal on a tape.

The operation of the video signal or audio signal reproduction / recording circuit of this configuration is as follows.

First, in the video signal processing flow, the playback deck amplifies the video signal read from the video head 51a to a predetermined level via the preamplifier 52a, and the AGC circuit 53a amplifies the video signal to a predetermined level. The gain is controlled and output to the Y / C separation unit 54a.

At this time, the Y / C separation unit 54a separates the video signal into the luminance signal Y and the color signal C, and outputs them to the FM demodulation unit 55a and the converter unit 57a, respectively. The FM signal is demodulated to the original luminance signal and demodulated to the Y / C combining section 56a, and the color signal passing through the converter section 57a and the color band filter section 58a is converted to the Y / C combining section ( Since it is applied to 56a), the Y / C combining unit 56a synthesizes the luminance signal and the color signal, converts the luminance signal and the color signal into an original video signal, and outputs it to the video signal output terminal, thereby performing the video signal reproduction operation on the reproduction deck.

The video signal output through the above processing is applied to the video input terminal of the recording deck, and is separated into the luminance signal and the color signal by the Y / C separation unit 66a. Here, the luminance signal of the separated video signal is modulated into an FM signal again through the FM modulator 65a, filtered through the luminance band filter unit 64a, and then applied to the Y / C combining unit 63a. The color signal of the video signal separated by the Y / C separator 66a is applied to the Y / C synthesizer 63a through the color band filter 68a and the amplifier 67a. Therefore, the Y / C combining unit 63a synthesizes the FM modulated luminance signal and the color signal into a composite video signal, amplifies the predetermined level through the recording amplifier 62a, and applies the recording signal to the recording video head 61a. Video signals can be copied to tape inserted in the deck.

On the other hand, in the audio signal processing flow, the reproduction deck amplifies the audio signal read from the audio head 51b to a predetermined level through the reproduction equalization amplifier 52b, and again amplifies the audio signal by the line amplifier 53b. Gain control to the level and output to the audio output terminal.

The audio signal output through the above process is applied to the audio input terminal of the recording deck, the AGC circuit 63b gain-controls the audio signal to a predetermined level, and is then amplified by a predetermined level through the recording amplifier 62b. By being applied to the recording audio head 61b, the audio signal can be copied onto the tape inserted in the recording deck.

However, when the tape speed mode is set to the standard mode when playing on the first deck, which is the playback deck, in the above-mentioned double-deck VSI system, when the tape speed mode is set to the EP mode when the copy speed is set on the second deck, These tape speed modes do not match, which causes recording failure of the copy program copied from the original program.

Or, when copying all kinds of programs recorded in various tape speed modes on one video tape, it was inconvenient because the user had to match the tape speed mode for each program on the second deck.

An object of the present invention is to reproduce the tape speed for the video recording of the second deck when recording the video and audio signal of the video tape played on the first deck of the double deck on the tape mounted on the second deck By automatically matching the tape speed, the video on the playback tape mounted on the first deck is recorded in the standard mode and the long time mode to prevent the second tape's recording tape from running short. It is to provide automatic switching method of recording speed.

1A is a block diagram of a video signal reproducing circuit and a recording circuit of a conventional double deck VSI.

Fig. 1B is a block diagram of a conventional double deck VSI audio signal reproducing circuit and a recording circuit.

2 is a block diagram of a double deck VSI circuit for implementation of the present invention.

3 is a flowchart illustrating a recording speed automatic switching process according to the present invention.

※ Explanation of code for main part of drawing ※

10. 2nd deck part 11. Micom

12. Signal input circuit 13. Video circuit

14. Video Head 15. Synchronous Detection Circuit

16. Audio circuitry 17. Audio head

18. 2nd deck 20. 1st deck

A feature of the present invention for achieving the above object is that when the tape playback-recording using a double deck, the playback speed of the first deck is repeatedly checked from time to time, if the playback speed of the corresponding tape is changed, the second speed is changed according to the changed playback speed. To match the speed of the tape on the deck.

This will be described in more detail with reference to the accompanying drawings.

Figure 2 shows an excerpt of the main circuit block of the double deck VSI associated with the present invention.

In this case, the system is divided into a first deck unit 20 and a second deck unit 10, and a signal input circuit into which the audio / video signal of the first deck unit 20 is input to the second deck unit 10. (12) is connected.

The rear end of the signal input circuit 12 is connected with a video circuit 13 and an audio circuit 16 for modulating and amplifying a video signal to be recorded, and the rear end of the video circuit 13 and the audio circuit 16. The video head 14 and the audio head 17 are respectively connected.

The synchronous detection circuit 15 is connected to another output system of the video circuit 13, and the microcomputer 11 is connected to the output of the synchronous detection circuit 15.

The video head 14 and the audio head 16 are provided in the second deck 18, and the second deck 18 is provided with a driving mechanism for driving the tape.

The other input port of the microcomputer 11 is connected to the first dev unit 20 so that the tape speed information generated from the first deck unit 20 is provided.

On the other hand, the microcomputer 11 is provided with a tape speed mode switching control program 100 for implementing the tape speed mode switching method as shown in FIG.

The tape speed mode switching control program 100 determines whether the system microcomputer 11 determines whether the first deck is in the regeneration mode, and goes to the initial state if the first deck is not in the regeneration mode. Detecting the tape speed mode (steps 101 and 102).

When the tape speed mode is detected in the first deck, it is determined whether the playback tape speed mode is the standard mode. Otherwise, it is determined whether the playback tape speed mode is the EP mode, and in the standard mode, the second deck tape speed mode is set as the standard. Steps 103, 104 and 106 are included.

And if the second deck tape speed mode is set to the standard mode, recording is performed with the system in the standard mode (step 105).

When the tape speed mode is the EP mode, the step of setting the tape speed mode of the second deck to the EP mode and performing the recording with the second deck to the EP mode (steps 107 and 108) is included.

According to the present invention having the above configuration, as shown in FIG. 2, the reproduction audio / video signal generated by the first deck unit 20 is converted into a signal input circuit when copying is performed from the first deck unit 20 to the second deck unit 10. 12, a reproduction audio / video signal is input to the video circuit 13 and the audio circuit 16 of the second deck unit 10, respectively.

In addition, the control signal / tape speed mode signal generated by the first deck unit 20 is provided to the microcomputer 11.

The reproduced audio / video signal provided to the video circuit 13 and the audio circuit 16 is modulated separately and applied to the video head 14 and the audio head 17 so that the running video tape mounted on the second deck 18 is provided. To record audio / video signals.

Then, the microcomputer 11 receives the synchronization signal information from the video circuit 13 through the synchronization detection circuit 15 to match the vertical synchronization and horizontal synchronization of the video signal recorded on the tape of the second deck unit 18. It is to be made.

At this time, the microcomputer 11 receives the tape speed mode information provided from the first deck unit 20, and the tape speed mode of the second deck unit 20 is changed to the standard mode when the tape speed mode at the time of reproducing is standard. When the recording program is set and the playback program is converted to the EP mode, the microcomputer 11 receives this information from the first deck 20 and sets the tape speed mode of the second deck 10 to EP. Will be converted to.

Meanwhile, the above operation is performed by the microcomputer 11 in conjunction with the tape speed mode switching control program 100 as shown in FIG. 3, which is determined by the system microcomputer 11 to determine whether the first deck is in the playback mode. If it is not the deck regeneration mode, the process proceeds to the initial state, and if the first deck is the regeneration mode, the tape speed mode is detected by the first deck (steps 101 and 102).

When the tape speed mode is detected in the first deck, it is determined whether the playback tape speed mode is the standard mode. Otherwise, it is determined whether the playback tape speed mode is the EP mode, and in the standard mode, the second deck tape speed mode is set as the standard. (Steps 103,104,106).

When the second deck tape speed mode is set to the standard mode, recording is performed using the system as the standard mode. When the tape speed mode is the EP mode, the tape speed mode of the second deck is set to the EP mode, and the second deck tape speed mode is set to the EP mode. Recording is performed with the deck in EP mode (steps 107, 108).

As described above, when the tape played on the first deck is copied from the second deck using the double deck VSI, the tape playback speed of the first deck and the tape recording speed of the second deck do not match automatically. By matching these tape speeds, the length of the recording tape mounted on the second deck is insufficient when the double deck playback-recording is extended due to the extension of the playback time as the playback tape is overwritten in SP mode and EP mode. The unique effects that can solve the disadvantages that appear.

Claims (1)

The first step of determining the tape playback speed of the first deck when copying the tape using a double deck, and if the tape playback speed of the first deck is the SP mode in the first step, the tape recording speed of the second deck is maintained in the SP mode And if the tape playback speed of the first deck is not the SP mode, it is determined that the EP playback mode is used, and the second step of automatically switching the tape recording speed of the second deck to the EP mode; and repeating the first and second steps for the tape copying time. Automatic switching method of the recording speed in VSI, characterized in that it comprises a third step of performing.