KR900009752Y1 - Recording noise reduction circuit - Google Patents

Abstract

No content.

Description

Recording Noise Reduction Circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10, 30: drive unit 20: magnetic bias operation unit

40: micom 1: input terminal

2: oscillation part 3: erase head

4 video signal head 5 preamplifier

6: The amplifier Q _1, Q _2: transistor

D ₁ , D ₂ : Diodes ND ₁ , ND ₂ : NAND Gate

OR ₁ : Oagate S ₁ -S ₃ : Switch

X ₁ : Relay Vcc: Power

The present invention relates to a recording noise canceling circuit that removes noise generated at a portion that is not erased in an erase head during a recording operation of a video tape record (VTR).

In the video tape recorder, recording is performed by erasing the signal recorded on the tape in the erasing head and then in the video signal head. However, the recording is made with a slight distance between the erasing head and the video signal head. The distance between the video muting head and the video signal head was recorded on the already recorded signal as it was, and noise was generated in this part during playback.

That is, during recording, the video recording head cannot erase the portion recorded on the tape by the length from the erasing head to the video signal head, and the video signal head duplicates the new video signal on the already recorded tape by the length between the erasing head video signal head. Since the recording is performed, there is a problem that noise is reproduced on the screen by the length of the overlapped recording (that is, the distance from the erasing head to the video signal head) during playback.

In consideration of the above, the present invention is to remove the noise generated during playback by allowing the recording operation to be performed from the moment when the tape erased from the soge head is located on the video signal head. As follows.

After the logical sum to the recording switch (S ₁₎ and the playback switch (S ₂₎ Iowa gate (OR ₁₎ the input to control the drive of the transistor (Q ₄₎ with an output of the Iowa gate (OR ₁₎ a transistor (Q ₄₎ The driving unit 10 is configured to control the voltage level applied to the input terminal KEY ₂ of the microcomputer 40 through the diode D _{2 on the} emitter side of the input, and the input of the recording switch S ₁ is for reverse blocking. connecting the diode (D _1), transistor transistor (Q ₁₎ is to be configured to the base of (Q _2), and through the relay (X ₁₎ side of the collector of the transistor (Q ₂₎ of the self-bias operating unit 20 through the The relay switch S ₃ switched by the relay X ₁ is connected to the base of the transistor Q ₂ .

At this time, "H level" is applied to the base of the transistor Q ₁ during the stop mode, and the relay switch S ₃ is switched from the terminal a to the terminal b when the relay X ₁ is driven.

The output of the transistor Q ₂ of the self-biasing operation unit 20 is applied to the NAND gate ND ₂ and simultaneously applied to the oscillation unit 2 to operate the oscillation unit 2 so that the tape is passed through the erase head 3. And a signal detected by the video signal head 4 and amplified by the preamplifier 5 are converted to a logic level by the amplifier 6 and then through a signal inversion NAND gate ND ₁ . It is configured to be applied to the input side of the NAND gate ND ₂ .

The output of the transistor (Q ₂₎ the emitter output of the NAND gate (ND ₁₎ of NAND gate (ND ₂₎ whose output is applied to the control the operation of the transistor (Q _3), and the microcomputer on the collector side of the transistor (Q ₃₎ The driver 30 is configured to control the voltage level applied to the input terminal KEY ₁ of 40.

At this time, the microcomputer 40 controls the driving of the set according to the voltage level of the input terminal KEY ₁ and KEY ₂ .

Referring to the effects of the present invention configured as described above are as follows.

In order for the user to record the recording switch (S ₁₎ the so "on" thereby when the switch (S ₁₎ Iowa gate is (OR ₁₎ is "H level" signal to the input side from the Iowa gate (OR ₁₎ is driving (10 By applying the "H level" to the base side of the transistor (Q ₄ ) of the transistor Q ₄ "turns on" the transistor (Q ₄ ), the "H level" signal output from the emitter side of the transistor (Q ₄ ) is applied to the diode (D ₂ ) Since it is input to the input terminal KEY _{2 of the} microcomputer 40, the microcomputer 40 performs the playback mode.

That is, when the recording switch S ₁ is "on", the transistor Q ₄ of the driving unit 10 is "turned on" through the ora gate OR ₁ to "H" at the input terminal KEY ₂ of the microcomputer 40. Level "will be applied to play the playback mode.

When the recording switch S ₁ is "on", the transistor Q is applied to the base side of the transistor Q ₂ of the magnetic bias operation unit 20 through the reverse blocking diode D ₁ . ₂ ) "turns on".

At this time, the "H level" is applied to the input terminal 1 only in the stop mode to "turn off" the transistor Q ₁ , and the "H level" is applied to the other modes to "turn off" the transistor Q ₁ . "Let's go.

Therefore screen when the switch (S ₁₎ to "on" by the transistor (Q ₂₎ thereby "turning on" the power (Vcc) to the relay (X ₁₎ is to flow, so that the relay (X ₁₎ to operate the relay switch (S ₃ ) Is switched from terminal (a) to terminal (b). When relay switch (S ₃ ) is switched to terminal (b), power supply (Vcc) through resistor (R ₄ ) is applied to the base of transistor (Q ₂ ). Transistor Q ₂ remains in the " turned on " state.

That is, if when "on" the recording switch (S ₁₎ and the transistor (Q ₂₎ is "turned on" drive the relay (X ₁₎ and the relay (X ₁₎ driving terminal of the relay switch (S ₃₎ (b) is selected so keep power (Vcc) is supplied to the base of the transistor (Q ₂₎ transistors (Q ₂₎ which is to remain on the "turn-on" state.

In this way, when the recording switch S ₁ is turned "on" and the transistor Q ₂ of the self bias supply unit 20 is "turned on", the "H level" signal output from the emitter of the transistor Q ₂ becomes the NAND gate ND. _The oscillation unit 2 operates by being applied to one side of 2) and the oscillation unit 2 to erase the rust signal recorded on the tape in the erasing head 3.

That is, when the recording switch S ₁ is turned "on", the erasing head 3 is operated to erase the green ash signal recorded in the tape, while the transistor Q ₄ of the driving unit 10 is "turned on" and the microcomputer 40 is turned on. To let the playback mode run.

Therefore, when the green signal is detected from the video signal head 4 by the reproduction mode, the signal is amplified by the preamplifier 5 and output through the amplifier 6 at " H level " The level "signal" is converted to the "L level" through the NAND gate ND ₁ and then applied to the input side of the NAND gate ND ₂ .

NAND gate ND ₂ outputs "H level" when either input is applied to "L level". Therefore, even when "H level" is applied to the emitter of transistor Q, "N level" is applied to NAND gate ND ₁ . Since the level "is applied, the output of the NAND gate ND ₂ becomes" H level ", and the" H level "output of the NAND gate ND ₂ " turns on "the transistor Q ₃ of the driver 30 so that the microcomputer ( Since the "H level" is applied to the input terminal KEY ₁ of 40), the microcomputer 40 does not perform the recording operation.

That is, when the recording switch S ₁ is turned "on", the signal already recorded on the tape exists until the tape erased from the erasing head 3 reaches the position of the video signal head 4, so that the recording switch S ₁ Even if you turn on the "), if there is a signal already recorded on the tape, it will perform the playback operation without performing the recording operation.

However, when the tape erased by the erasing head 3 reaches the position of the video signal head 4 by turning on the recording switch S ₁ , the normal recording operation is performed from this time.

In other words, when the tape erased from the erasing head 3 reaches the position of the video signal head 4, the video signal head 4 does not detect any signal. The L level "signal" is output, and the "L level" signal is inverted at the NAND gate ND ₁ and applied to the input side of the NAND gate ND ₂ as the "H level" signal.

Therefore, since the NAND gate (ND ₂₎ the emitter output of "H level" signal of the input side of the NAND gate (ND ₁₎ outputs the "H level" signal and a transistor (Q ₂₎ of the application of the NAND gate (ND ₂₎ output will be the "L level" transistor (Q ₃₎ of the NAND gate (ND _2), "L-level" drive unit 30 by a signal output is to be "turned off".

When the transistor Q ₃ is "turned off", since the "H level" signal is input from the collector side of the transistor Q _{3 to} the input terminal KEY _{1 of the} microcomputer 40, the microcomputer 40 starts recording mode from this time. Will be performed.

In this manner, after the recording switch S ₁ is turned "on", the recording operation is not performed until the tape which erased the green ash signal from the erasing head 3 reaches the position of the video signal head 4, and the erasing head 3 is removed. The recording operation is performed before the tape erased from the erasing head 3 reaches the video signal head 4 during the recording operation by performing the recording operation when the tape erased at the video signal head 4 is positioned. Since the video signal is duplicated and recorded on the existing recorded signal, it is possible to solve the problem of noise generated during playback.

When the stop switch is pressed during the recording operation as described above, a "H level" signal is input to the input terminal ₁ to turn the transistor Q ₁ "turned off", and when the transistor Q ₁ is "turned off", the relay is relayed. When the mothayeo is applied power (Vcc) to (X ₁₎ a relay (X ₁₎ is "off" to be relayed (X ₁₎ is "off" is switched to the relay switch (S ₃₎ terminal (a) transistor ( Q ₂₎ is "off" so is the transistor (Q ₂₎ is "off" when the "L level", the output is "H level" of the NAND gate (ND ₂₎ applied to the input side of the NAND gate (ND ₂₎ This causes transistor Q ₃ to be " turned on ".

When the transistor Q ₃ is "turned on", the "L level" is applied to the input terminal KEY _{1 of the} microcomputer 40, and the microcomputer 40 stops the recording operation.

In order to reproduce a user-recorded tape playback switch (S ₂₎ for when "on", so the "H level" to the gate Iowa from a switch (S ₂₎ (OR ₁₎ Iowa output of the gate (OR ₁₎ Is applied to the base side of transistor Q ₄ via resistor R ₅ to " turn on " transistor Q ₄ to " H " through diode D ₂ to input terminal KEY ₂ of micom 40. Level ”, the microcomputer 40 plays the play mode and plays the tape.

As described above, the present invention starts recording before the tape erased by the erasing head is applied to the video signal head during recording, so that the video signal is recorded on the existing recorded signal to prevent noise from being generated. Even if the recording switch is turned “on”, the tape erased from the erasing head will be recorded from the moment it is located on the video signal head without performing a recording operation immediately, thereby preventing noise from being generated by the length between the erasing head and the video signal head during recording. It is done.

However, when recording with a tape on which no signal is recorded, the recording operation starts from the moment the recording switch is "on".

As described above, according to the present invention, the tape erased from the erasing head during recording of the video tape recorder erases the noise generated during playback by recording the overlapped signal as long as the distance between the erasing head and the video signal head. By recording from the position of the signal head, the effect is that you can watch the screen without noise during playback.

Claims (1)

OA gate OR ₁ which logically combines the inputs of the recording switch S ₁ and the reproduction switch S ₂ , and the transistor Q ₄ is driven by the output of the OA gate OR ₁ to input the terminal of the microcomputer 40. (KEY ₂ ) The driving unit 10 for controlling the input level, the transistor Q ₂ and the relay (X ₁ ) is driven by the input of the recording switch (S ₁ ) and the transistor (Q ₁ ) by the operation of the relay (X ₁ ) ₂ ) is self-biased and is driven by the output of the self bias operation unit 20 and the self bias operation unit 20 to stop driving of the transistor Q ₂ and the relay X ₁ by the stop signal input. An oscillator 2 for applying an oscillation signal to the head 3, an amplifier 6 for converting the signal detected by the video signal head 4 and amplified by the preamplifier 5 to a logic level, and the amplifier 6 ) wherein the NAND gate (ND ₁₎ inversion in which the output signal from the self-bias the output of the Cropping 20 outputs the logical combination of NAND gates (ND ₂₎ to and drives the transistor (Q ₃₎ to the output of the NAND gate (ND ₂₎ an input terminal (KEY ₁₎ input level of the microcomputer 40 of the Recording noise canceling circuit comprising a driving unit 30 for controlling and a microcomputer 40 for controlling the driving of the set by a voltage level input from the driving units 10 and 30 to the input terminals KEY ₁ and KEY ₂ . .