KR0141728B1 - Tape speed compensation method device of vcr - Google Patents

Abstract

The present invention relates to a tape speed compensation method and apparatus of V-Cal. In the related art, a high frequency envelope signal is detected during standard mode (SP) or 1/2 mode (LP) shifting, and then averaged and compared with a reference value. It is a method of discriminating the speed mode according to big and small.If the high frequency value is small in the standard mode (SP) or the high frequency value is large in the 1/2 mode (LP), an error occurs in the shift mode discrimination by comparing with the reference value. Further, even if the recording high frequency amount of the tape is a proper value, an error occurs in mode discrimination when the variation of the reference voltage is large. In order to solve this problem, the present invention solves the conventional problem by counting the high frequency pulse during the head-switching period during shift regeneration such as fast forward regeneration (CUE) or fast reverse regeneration (REV). The present invention is to determine the shift mode by comparing with and to drive the deck in the determination mode. The present invention determines the correct speed mode by counting the number of capstan pulses for a predetermined period of time during the 8 mm playback at the shift rate and comparing it with a reference value. By operating at the speed of the mode, a malfunction can be prevented and a good screen can be provided.

Description

Tape speed compensation method and device

1 is a block diagram of a conventional VAL tape speed detection device.

2 is a device block diagram of the present invention.

3 is a waveform diagram according to the capstan signal in the standard mode (SP) in FIG.

4 is a waveform diagram according to the capstan signal in the 1/2 mode (LP) in FIG.

5 is a signal flow diagram for determining the tape speed of the present invention.

* Explanation of symbols for main parts of the drawings

11: envelope detection unit 12: square wave generating unit

13: Comparative 14: Error discrimination

15: microprocessor 16: capstan mote drive

The present invention relates to the compensation of tape speed during the playback of V-Cal. In particular, in the 8 mm V-Cal shift mode, the error rate is detected by detecting the variation of high-frequency spherical and CFG pulses during the head-switching period and comparing with the reference pulse number. The present invention relates to a tape speed compensation method and apparatus of V-Cal for a rapid return to a normal state.

In the conventional tape speed detecting apparatus of VRT, as shown in FIG. 1, the microprocessor 1 generates a control signal by setting the playback mode, and generates a drive signal according to the control of the microprocessor 1. The motor driving part 2, the tech 3 which drives a tape at a constant speed or a shift by the drum and capstan motor which rotates by the drive signal of this motor drive part 2, and the high frequency signal generated by this deck 3, The speed detection unit 4 is configured to determine the current speed mode by comparing the magnitude average value with a reference value and output the determined speed mode signal to the microprocessor 1.

Referring to the operation of the conventional device configured as described above are as follows.

First, when the regeneration mode is set and the microprocessor 1 generates a control signal for pulse width modulation and motor driving according to the mode, the motor driving unit 2 outputs a driving signal to the deck 3.

As a result, the deck 3 rotates the drum motor and the capstan motor to rotate the tape to reproduce recorded data and display an image on the screen.

At this time, the deck 3 generates a high frequency signal according to the constant speed or shift, and the speed detector 4 detects the high frequency signal, calculates an average value of the magnitude, and compares the calculated average value to determine the constant speed or shift. Done.

Therefore, when the speed detector 4 outputs the speed detection signal according to the constant speed or the shift speed determination, the microprocessor 1 determines the operation state of the deck 3 and outputs a control signal according to the operation state of the motor driver 2. By controlling the drive signal at the output) it is possible to stably control the operating state of the deck (3).

For example, in the case of shifting, the AFM signal level detected from the head on the drum is converted into a high frequency envelope signal as it is input to the speed detector 4, and the DC value is accumulated for a predetermined period, averaged, and the average value is compared with the reference value. As the average value is larger and smaller than the reference value, it is determined whether the speed mode is the standard mode (SP) or the 1/2 mode (LP).

At this time, when the speed detector 4 traces the detection signal according to the speed mode to the microprocessor 1, the state of the deck 3 is determined. Accordingly, the microprocessor 1 outputs a control signal according to the state of the deck 3 to adjust the drive signal of the motor driver 2 so that the deck 3 performs a stable operation according to the speed mode.

However, unlike VHS, the CTL signal is not recorded unlike VHS. Therefore, the track position can be found by ATF signal when shifting, but in standard mode (SP) or 1/2 mode (LP). Determining the speed mode of a tape is not easy.

That is, conventionally, the standard mode (SP) or 1/2 mode (LP) in the high-speed envelope signal is detected when the average speed and then compared with the reference value to determine the speed mode according to the large and small, the standard mode, In the case of (SP), when the high frequency value is small or in the 1/2 mode (LP), when the high frequency value is large, an error occurs in the shift mode discrimination by comparing with the reference value. If the variation is large, an error occurs in mode determination.

Therefore, there is a problem that an unstable screen continues because an error occurs in mode determination and maintains the state once the malfunction state progresses.

Therefore, in order to solve the conventional problem, the present invention shifts the frequency by counting the high frequency pulses during the head-switching period during the shift playback such as the fast forward regeneration (CUE) or the fast reverse regeneration (REV). It is an object of the present invention to provide a method and apparatus for compensating tape speed of V-Cal which is designed to determine a mode and drive a deck in the judgment mode.

In order to achieve the above object, the present invention counts the number of capstan pulses during the head switching section during shift regeneration, sets the reference value to compare the number of capstan pulses during the next section, and counts the high frequency spherical pulses during the head switching section. By comparing the step with the reference value, and if there is an error in each of the steps to determine the mode error to perform the step of adjusting the capstan speed.

In addition, the present invention is a means for comparing the high-frequency square pulse with the reference value and the number of capstan pulses with the reference value during the head switching interval to perform the above steps, and by checking the signal by the comparison operation to determine whether there is an error Means for adjusting the speed of the capstan in accordance with the determination of the presence or absence of the error.

Hereinafter, with reference to the accompanying drawings of the present invention will be described.

2 is a block diagram showing an embodiment of the zone invention, which includes an envelope detector 11 for detecting an envelope of a variable frequency high frequency signal RF and a square wave generator for converting an output of the envelope detector 11 into a square pulse. (12) and the number (A) of capstan pulses CFG based on the head switching signal H / SW by comparing the square pulses of the square wave generator 12 with a reference value during the head switching period H / SW. A comparison unit 13 for comparing the number B of input capstan pulses CFG at the time of shifting with reference value Cref and a comparison value of the comparison unit 13 to determine an error in the shift mode. The microprocessor 15 which determines the capstan operation state according to the error discriminating unit 14 and the error discrimination of the error discriminating unit 14, and generates a control signal for adjusting the capstan driving mode and the driving pulse width PWM. And a caps for outputting capstan driving signals to the tech by the control of the microprocessor 15. And a motor drive section (16).

The square wave generator 12 is constituted by a Schmitt trigger circuit.

Referring to the embodiment of the present invention as follows.

First, the comparator 13 sets the number A of the capstan pulses CFG based on the head switching pulses H / SW so as to allow A + ΔA to operate at a reference value.

At this time, when shifting reproduction such as fast forward regeneration (CUE) or fast reverse regeneration (REV) is performed, the comparison unit 3 compares the number B of capstan pulses CFG input with the set reference value A and the allowable value. It is determined whether an error of (ΔA) or more occurs.

In addition, when the envelope detecting unit 11 detects an envelope of the variable frequency high frequency signal RF, a rectangular pulse is generated by the square wave generator 12, and the comparator 13 converts the square pulse into the head switching signal (H / SW) section. It counts for a while and compares this count value Q + ΔQ with the reference value which is the pulse value P + ΔP at the normal speed to determine whether an error more than the tolerance occurs.

Therefore, when the two values are larger than the allowable error in the comparison operation and the error discriminating unit 14 determines that the capstan speed due to the shift mode is in the error state, the microprocessor 15 receiving the determination signal receives the capstan braking signal. (CBRK) or capstan acceleration signal (CEXE) is output, and a control signal for adjusting the capstan driving pulse width (PWM) is output.

Accordingly, the capstan mote driver 16 changes the capstan speed to the corresponding mode speed under the control of the microprocessor 15.

That is, when operating in the standard mode SP in the above, FIG. 3 (b) or the same high frequency signal (RF) as the input of the high frequency signal (RF) during the head switching signal (H / SW) section as shown in FIG. It is assumed that a case in which a pulse such as (c) occurs is normal.

At this time, if the capstan motor rotates slowly at the speed of 1/2 mode LP and a pulse like FIG. 3E is generated by the input of the high frequency signal RF as shown in FIG. It is judged that it occurred.

Accordingly, the tape is driven at the normal speed by outputting the capstan acceleration signal CEXE to rotate the slowly rotating capstan motor at the standard mode SP speed.

In addition, when operating in the 1/2 mode (LP), the input of the high frequency signal (RF) as shown in FIG. 4 (b) during the head switching signal (H / SW) section as shown in FIG. It is assumed that a case in which a pulse as shown in FIG.

At this time, when the capstan motor rotates slowly and the tape runs at the standard mode (SP) speed, if a pulse as shown in FIG. 4 (e) is generated by the input of the high frequency signal RF as shown in FIG. It is determined that an error has occurred.

Accordingly, the tape is driven at the normal speed by outputting the capstan acceleration signal CEXE in order to rotate the fast rotating capstan motor at the 1/2 mode LP speed.

On the other hand, when adjusting the speed of the capstan motor as described above, the microprocessor 15 adjusts the pulse width modulation waveform to quickly maintain the drum motor from the transient state to a safe state.

The above operation is performed with the signal flow as shown in FIG.

That is, if a speed change play such as fast forward play (CUE) or fast reverse play (REV) is performed while the tape is playing, the tape speed is driven in either standard mode (SP) or 1/2 mode (LP). It is done.

At this time, the number B of capstan pulses CFG input at the time of shifting is compared with a reference value in which the margin A is given to the number A of capstan pulses CFG based on the head switching signal H / SW. It is determined whether an error of more than the allowable value occurs, and it is determined whether an error of more than the allowable value is compared with a reference value when the value of the pulse of the high frequency (RF) counted during the head switching (H / SW) period is normal speed.

Accordingly, when an error exceeding the allowable value occurs in the two comparison operations, it is determined that the speed mode of driving the tape is in an error state.

Therefore, if the current speed mode is determined as the standard mode (SP), the tape travels faster than the normal speed. Therefore, the capstan speed is reduced by outputting the capstan brake signal (CBRK) to reduce the capstan speed. Will be activated.

If the current speed mode is determined as 1/2 mode (LP), the normal driving speed is increased by outputting the capstan acceleration signal (CEXE) and increasing the capstan speed since the cape travels at a normal speed. Will be activated.

As described in detail above, the present invention counts the number of capstan pulses for a predetermined period of time during the 8mm reproduction at a shift, and compares them with the reference value to determine the correct speed mode and operate at the speed of the corresponding mode to prevent malfunction. It can also provide an effect, and can improve the reliability of the product.

Claims (5)

A first step of comparing the number of capstan pulses input during shift reproduction by setting the number of capstan pulses counted on the basis of the head switching signal as a reference value; And a second step of comparing and a third step of adjusting a capstan speed by determining a mode error when an error of more than a tolerance occurs in the first and second steps. The method of claim 1, wherein if it is determined that the number of pulses counted during the head switching period is less than the reference value for a predetermined time, the capstan speed is increased by judging by an error of the standard mode (SP). [2] The tape speed compensation of V-Cal according to claim 1, wherein if the number of pulses counted during the head switching period is greater than the reference value for a predetermined time, the capstan speed is reduced by determining the error in the 1/2 mode LP. Way. Means for comparing the high frequency square pulse with the reference value according to the mode speed during the head switching period, and comparing the number of input capstan pulses with the number of capstan pulses counted based on the head switching signal, and the signal by the comparing operation And a means for determining the presence or absence of an error and a means for adjusting the speed of the capstan in accordance with the determination of the presence or absence of the error. 8. The comparison means comprises: an envelope detector for detecting an envelope signal of an input high frequency, a square wave generator for converting an output of the envelope detector into a square pulse, and the number of input capstan pulses based on the head switching signal. Vr comparing the number of capstan pulses counted and the number of high frequency pulses counted during the head switching pulse period with the reference value according to the mode speed to determine whether an error of more than a tolerance occurs in the comparison operation. Tape speed compensation device.