JPH0227553A - Control signal regeneration circuit - Google Patents

Abstract

PURPOSE:To accurately detect the duty of a regenerating control signal by detecting the frequency of the regenerating control signal, deciding the negative feedback quantity of a negative feedback type amplifier corresponding to the frequency, and switching a circuit constant. CONSTITUTION:A control(CTL) head 1 to regenerate a control signal recorded on a tape regenerates the control signal according to the feed of the tape, and outputs it to the non-inversion input terminal of an operational amplifier 2. A frequency detecting means detects the frequency of the regenerating control signal, and outputs it to a feedback quantity decision means. The feedback quantity decision means decides the negative feedback quantity corresponding to the frequency of an inputted regenerating control signal, and outputs it to switching means. The switching means (6-9) switch the circuit constant so as to adopt an inputted negative feedback quantity by an amplifier to amplify the regenerating control signal. In such a way, it is possible to detect the duty of the regenerating control signal accurately without suppressing the feed speed of the tape and by using an ordinary operational amplifier.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a control signal reproducing circuit for reproducing control signals of a video tape recorder (TR).

(Prior art) In recent years, home VTRs, etc., VISS (VH3INDE)
XSEARCH5YSTE)l) and VASS
(VH3ADDRES 5EARCH3YSTE
H) [Something with this ability has been developed. -Generally, V
In the TR control signal reproducing circuit, the frequency of the input signal varies from the fundamental frequency during normal playback (-x speed) to the high frequency (100-odd times faster) during fast forward (FF)/rewinding (REW). It is required that reproduction be performed covering a wide range of frequency bands (up to 100 times or more). Moreover, the above VXSS/VASS compatible (7)' VTR has FF
/REW The duty of the control signal must be accurately detected.

Here, the conventional control signal reproducing circuit described above has a configuration in which a control signal reproduced from a control signal reproducing head is amplified by an operational amplifier, and then waveform-shaped by a Schmitt circuit and output. but,
The operational amplifier described above has a characteristic that the voltage gain thereof gradually decreases as the frequency of the input signal becomes higher. Therefore, as the frequency of the reproduction control signal input to the control signal reproduction circuit becomes higher, such as during FF/REW, the frequency characteristics of the operational amplifier at that time become less flat, and the resulting amplified output signal becomes distorted. occurs, making it difficult to detect the duty of the playback control signal. Therefore, in a set compatible with VISS/VASS, there is a problem in that it is necessary to use an operational amplifier (even if it has good frequency characteristics but is expensive) or to suppress the tape running speed during FF/REW.

(Problem to be Solved by the Invention) In the VISS/VASS compatible (7) VTR control signal reproducing circuit described above, the frequency characteristics of the operational amplifier used become worse as the frequency characteristics of the input signal become higher. Therefore, in order to accurately detect the duty of the control signal, it is necessary to use an operational amplifier with flat frequency characteristics (which is expensive), or to reduce the tape running speed during FF/REW at the expense of operability. There was a problem that it would not work.

Therefore, the present invention aims to eliminate the above-mentioned drawbacks.
without suppressing the tape running speed during EW, and
It is an object of the present invention to provide a control signal reproducing circuit that can accurately detect the duty of a reproduction control signal using an inexpensive ordinary operational amplifier.

[Structure of the Invention] (Means for Solving the Problems) The present invention provides a control signal reproducing circuit having a negative feedback amplifier that amplifies a reproduced control signal reproduced by a control head, in which the frequency of the reproduced control signal is detected. a feedback amount determining means for determining a negative feedback amount of the negative feedback amplifier in accordance with the frequency of the reproduction control signal detected by the frequency detecting means; and switching means for switching circuit constants so that the negative feedback amplifier adopts the negative feedback amount.

(Function) In the control signal reproducing circuit of the present invention, the frequency detecting means detects the frequency of the reproduced control signal reproduced by the control head and outputs it to the feedback amount determining means. The feedback amount determining means determines the negative feedback amount according to the frequency of the input reproduction control signal, and outputs it to the switching means. The switching means switches circuit constants so that the amplifier that amplifies the reproduction control signal adopts the input negative feedback amount.

(Example) Hereinafter, an example of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing one embodiment of the present invention. 1
is a control (CTL) head that plays back the control signal recorded on the tape, 2 is an operational amplifier that amplifies the playback control signal, 3 is a Schmitt circuit that shapes the waveform of the playback control signal, and 4 and 5 are input signal pulses. A decimal counter that counts 6~
9 is a switch that changes the frequency characteristics of the operational amplifier 2; 10 is a voltage source that supplies a bias voltage to the operational amplifier 2; 11 is an output terminal that outputs a playback control signal; and 12 is a reference signal that operates the decimal counters 4 and 5. , C1 is the coupling capacitor, C2 is the input capacitor, R1 is the input resistor, and R6 is connected to the input terminal.
9 is a feedback resistor of the operational amplifier 2.

Next, the operation of this embodiment will be explained. As the tape (not shown) runs, the CTL head 1 reproduces a control signal and outputs it to the non-inverting input terminal of the operational amplifier 2. During normal playback, the switch 6 is turned on, and the operational amplifier 2 feeds back only the signal on the output side to the input side determined by the resistor R6. Therefore, the operational amplifier 2 amplifies the input reproduction control signal with the gain and frequency characteristics determined by the amount of feedback, and outputs it to the Schmitt circuit 3 via the capacitor C1. The Schmitt circuit 3 shapes the waveform of the input reproduction control signal and outputs it from the output terminal 11 to the next stage. On the other hand, the reproduction control signal 100 output from the Schmitt circuit 3 is input to the CK terminal of the decimal counter 4.

Further, a reference signal 200 obtained by differentiating a video switching pulse, for example, is input to a CLR (clear) terminal of the decimal counter 4. When a pulse is input to the CK terminal, the decimal counter 4 turns on its OUT terminal, and when a pulse is input to the CLRtW child in this state, the decimal counter 5 turns off the OUT terminal. Input the output of the OUT terminal of counter 4 to the GK terminal, and
A reference signal 200 is input to the LR terminal. by this,
The decimal counter 5 counts how many pulses of the control signal are input within one period of the reference signal 200, and calculates Q according to the count value. Control is performed to turn on one of the output terminals indicated by -09. During normal reproduction, the periods of the reference signal 200 and the reproduction control signal are the same, and at this time the decimal counter 5 is Q.

The output terminal is turned on and the switch 6 is turned on.

However, when the frequency of the reproduction control signal increases during FF/REW, the count counted by the decimal counter 5 increases, and as the count value increases, the output terminal to be turned on changes from Qo to Ql. , Q2・
...Change it to Q9. For this reason, the switch is also 6.7・
. Here, the values of the feedback resistors are selected as R6>R5>...>R9, and the higher the frequency of the reproduction control signal, the lower the feedback resistance value, and the lower the gain of the operational amplifier 2. However, its frequency characteristics improve (become flat).

However, as the tape running speed becomes faster, the level of the playback control signal played by control head 1 becomes higher, so even if the gain of the operational amplifier becomes smaller, the output level will hardly change and the frequency characteristics will change. Since it is flat, high frequency control signals can be amplified and output without distortion.

According to this embodiment, when the tape running speed increases during FF/REW and the frequency of the playback control signal increases, the high frequency playback control signal is used to flatten the frequency characteristics of the operational amplifier 2. It can be amplified and output without distortion. Therefore,
The duty of the playback control signal can be accurately detected without reducing the tape running speed during the VISS/VASS function, and since the operational amplifier 2 used is a normal one, the circuit cost does not increase. .

FIG. 2 is a block diagram showing another embodiment of the present invention. In this example, the reel speed on the supply side is detected as a reel pulse by the detector 13, and the reel speed on the pick-up side is detected as a reel pulse by the detector 14. These detected reel pulses are input to the microcomputer 17 via amplifiers 15 and 16, respectively. The microcomputer 17 calculates the tape running speed from the input reel pulse, selects and turns on one of the switches 6 to 9 in accordance with the calculated tape running speed, and controls the feedback amount of the operational amplifier 2.

Other operations are similar to those in the previous embodiment, and similar effects are obtained.

[Effects of the Invention] As described above, according to the control signal reproducing circuit of the present invention, the reproduction control signal can be reproduced without suppressing the tape running speed during FF/REW and using an inexpensive ordinary operational amplifier. Duty can be detected accurately.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the control signal reproducing circuit of the present invention, and FIG. 2 is a block diagram showing another embodiment of the control signal reproducing circuit of the present invention. 1...Control head 2...Operation amplifier 3...Schmitt circuit 4.5...Decimal counter 6-9...Switch C1, C2...Capacitor R1, R6-R9...Resistance 13, 14...Detector 17...Microcomputer

Claims (1)

[Claims] In a control signal reproducing circuit having a negative feedback amplifier for amplifying a reproduction control signal reproduced by a control head, a frequency detection means for detecting the frequency of the reproduction control signal, and the reproduction detected by the frequency detection means. feedback amount determining means for determining the amount of negative feedback of the negative feedback amplifier in accordance with the frequency of the control signal; A control signal reproducing circuit comprising a switching means for switching.