KR920009099B1 - Tacho pulse generating circuit - Google Patents

Abstract

The Tacho Pulse generating circuit for compensating the phase difference among the head, the magnet and the pulse generator comprises: a first means logic signaling the analog pulse signal (DTP) generated at the time of detecting the magnet from the drum motor pulse generator; a second means controlling the head switching signal generation; a third means controlling the tacho pulse width. The first means includes the amplifier outputting the analog pulse signal, a first comparator generating the logic signal (DTPL) by comparing the output of amplification section with the standard voltage, and a first invertor reverse outputting the output of the first comparator.

Description

Taco Pulse Generator Circuit

1 is a relationship between the head drum and the tape start and end points.

2 is a circuit diagram of the present invention.

3 to 5 are operational waveform diagrams according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: pulse generator 2: amplifier

3: first comparator 4: first inverter

6: second comparator 7: second inverter

8: S / R flip flop 10: RC circuit

11: head switching control SW: switch

R: Variable resistor C: Capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drum phase servo in a data recording and reproducing apparatus using a head drum. In particular, a taco (TACHO) pulse is generated to set a reference point of a recording position of a head, and to correct a phaser between the head, a magnet and a pulse generator. It is about a circuit.

In general, in all recording and reproducing apparatus using a head drum, such as a rotary digital audio tape recorder or a video tape recorder, the recording signals formed on the tracks of the tape are recorded in sections cut by the helical scanning method rather than in the form of continuous signals. The temporal position of the head and signal must match.

For this reason, the following drum phase servos are required. That is, in order to make the trace starting point of the head with respect to the signal equal, as shown in FIG. 1, a magnet is attached to the head drum to detect its position with the pulse generator PG. At the moment when the magnet is detected by the pulse generator PG, the head is positioned at the start point of the trace, and the pulse generator PG serves as a reference for track formation during recording.

In the standard format of digital audio tape recorders, the trace start point is about 0.6 mm above the bottom of the tape. If the standard is not set, the track is not formed at the center of the tape, even if the drum rotates at constant speed. It may be driven or cut out of the tape.

It is therefore an object of the present invention to provide a circuit for generating ride pulses to set the reference of the recording position of the head relative to the tape and to compensate for the phase difference between the head, magnet and pulse generator.

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

)하는 제1인버터(4)와, 입력단자(S)로 공급되는 상기 제1인버터(4) 출력과 다른 입력단자(R)로 인가되는 소정 신호의 상태에 따라 타코펄스 (

)를 발생하는 S/R플립플롭(8)과, 상기 타코펄스(TP)를 입력하여 반전 출력하는 제2인버터(7)와, 상기 제2인버터(7)로부터 출력되는 반전 타코펄스(TP)의 상태에 따라 온/오프 되는 스위치(SW)와, 가변저항(R)과 콘덴서(C)의 접속점이 상기 스위치(SW)의 일단에 접속되어 상기 스위치(SW)의 온/오프 상태에 따라 상기 타코펄스(TP)폭을 보정하는 RC회로(10)와, 반전단자(-)로 입력되는 상기 펄스폭 조절부(10) 출력을 비반전 입력단자(+)로 입력되는 소정의 기준 전압과 비교하여 그 결과를 상기 S/R플립플롭(8)의 다른 입력단자(R)로 출력하는 제2비교기(6)로 구성한다.Figure 1 shows the trace start and end of the head drum and tape, Figure 2 is a circuit diagram of an embodiment of the present invention, by detecting the position of the magnet attached to the head drum to detect the analog pulse signal (DTP) of a predetermined state The generated pulse generator 1, the amplifier 2 for amplifying and outputting the analog pulse signal DTP to a predetermined level, and the output of the amplifier 2 supplied to the non-inverting terminal are compared with a predetermined reference voltage. The first comparator 2 generating the logic signal DTPL and the first comparator 2 output and

According to the state of the predetermined signal applied to the first inverter 4 and the input terminal (R) different from the output of the first inverter (4) supplied to the input terminal (S) tacopulse (

) S / R flip-flop (8) generating the second, the second inverter 7 for inputting and inverting the taco pulse (TP), and the inverted taco pulse (TP) output from the second inverter (7) The connection point of the switch SW which is turned on / off according to the state of the switch, the variable resistor R and the condenser C is connected to one end of the switch SW, and according to the on / off state of the switch SW. The RC circuit 10 for correcting the taco pulse (TP) width and the output of the pulse width adjusting unit 10 inputted to the inverting terminal (-) are compared with a predetermined reference voltage inputted to the non-inverting input terminal (+). The second comparator 6 outputs the result to the other input terminal R of the S / R flip-flop 8.

)파형이며, (3c)는 제1인버터(4) 출력(DTPL)파형이고, (3d)는 스위치(SW) 온/오프 파형이며, (3e)는 펄스폭 조절부(10) 출력 파형이고, (3f)는 제2비교기(6) 출력 파형이며, (3g)는 타코 펄스(TP) 파형이다.3 is an operation waveform diagram of each part of FIG. 2, where 3a is a pulse generator output (DTP) waveform, and 3b is a logic signal output from the first comparator 2.

Waveform 3c is the first inverter 4 output (DTPL) waveform, 3d is the switch (SW) on / off waveform, (3e) is the pulse width control unit 10 output waveform, (3f) is the output waveform of the second comparator 6, and (3g) is the taco pulse (TP) waveform.

4 and 5 are timing diagrams for generating a head switching pulse (SWH) according to the present invention, and FIG. 4 is a case in the normal mode, where (4a) is a pulse generator output (DTP) waveform, and (4b ) Is a taco pulse (TP) waveform, (4c) is a head switching pulse (SWH), (4d) is a recording signal waveform, and FIG. 5 shows a case in the FF / REW (fast forward / rewind) search mode. (5a) is a pulse generator output (DTP) waveform, (5b) is a taco pulse (TP) waveform, and (5c) is a reproduction signal waveform.

The present invention by the above-described configuration will be described in detail. The detection signal DTP as shown in FIG. 3A of FIG. 3 is generated from the pulse generator 1 when the magnet is detected by the rotation of the drum motor.

The detection signal DTP is amplified by the amplifier 2 and then applied to the non-inverting terminal of the first comparator 3.

In this case, the first comparator 3 generates a logic signal DTPL equal to a result 3b of comparing the amplified signal applied to the non-inverting terminal with a predetermined reference voltage. In other words, the above function can be regarded as a configuration of a monostable multivibrator for controlling taco pulse generation.

The logic signal DTPL is inverted via the first inverter 4 (3c) and then applied to the input terminal S of the S / R flip-flop 8.

)을 입력한 S/R플립플롭(8)으로부터 발생되는 타코 펄스(TP)는 제2인버터(7)를 거쳐 반전된 결과 스위치(SW)를 오프 상태로 절환한다.Therefore, when the rising edge of the logic signal DTPL is detected (T1), the inverted output of the logic signal DTPL is input from the first inverter 4 through the input terminal S.

), The taco pulse TP generated from the S / R flip-flop 8 is switched through the second inverter 7 and the switch SW is turned off.

As a result, the voltage applied to the inverting terminal of the second comparator 6 by the RC time constant gradually increases as shown in FIG. 3E, so that the inverting terminal applying voltage becomes a predetermined reference voltage Vref. When exceeded, the output of the second comparator 6 applied to the other input terminal R of the S / R flip-flop 8 is inverted.

Therefore, the state of the taco pulse TP generated from the S / R flip-flop 8 is also switched to the reset state to switch the switch SW to the on state.

The switch SW switched to the ON state serves to bypass the other end when the charge charged in the capacitor C is discharged.

As a result, the voltage applied to the inverting terminal of the second comparator 6 drops sharply as shown in (3e) at the time T2 of FIG. 3 so that the output of the second comparator 6 is inverted again and the above-described process is repeated. Will be performed.

The head switching signal is generated by the head switching control unit 11 based on the taco pulse TP. For example, a process of generating the head switching pulse signal SWH in a rotary digital audio tape recorder will be described below. Same as

First, in the normal mode, as shown in FIG. 4, the timing at which the falling edge of the taco pulse TP coincides with the falling edge of the head switching pulse signal SWH at 2000 rpm of the drum motor is the recording signal during signal processing. It is the starting standard for.

On the other hand, in the case of the FF / REW search mode, as shown in FIG. 5, the variable rotation head switching signal of the drum rotation speed 700-3300 rpm is output. In this case, the rising edge of the taco pulse TP and the head switching signal SWH. Match the falling edge of.

In this case, the head switching signal SWH is increased by counting the FG number (24 ± ∞) of the motor and causing the head switching signal SWH to rise when the head switching signal SWH is full counted.

At this time, since the number of FG may be different for each motor, the number of full counted FGs is arbitrarily determined according to the type of motor. On the other hand, in the process of synchronizing the pulse generator output of the drum with the servo reference frequency (33.3HZ) in which the master clock is divided and matching the starting point of the trace with the point at which the signal is recorded and reproduced, the magnet attachment position (head and This should be taken into account as there is a difference in the distance between the magnets).

In addition, even when there is a limit in matching the phase due to mechanical precision, such as the digital audio tape recorder described above, the width of the pulse generator output is electrically converted to freely correct the position between the head, the pulse generator, and the magnet.

As described above, by setting the recording position of the head with respect to the tape and correcting the phase difference between the head, the magnet, and the pulse generation period, the accuracy of the drum phase servo can be ensured, thereby providing an excellent effect on the recording and playback of audio and video. There is an advantage to reap.

Claims (4)

A data recording and reproducing apparatus having a head switching control section (11) and a drum motor pulse generator (1), wherein the analog pulse signal (DTP) generated when a magnet is detected from the drum motor pulse generator (1) is logic signalized. And a taco pulse (TP) according to the state of the logic signal and the predetermined control signal generated from the first means to control the head switching signal (SWH) generation of the head switching control unit (11). And second means for controlling said second means in accordance with the state of said taco pulse (TP) being fed back and said third means for arbitrarily adjusting the taco pulse width. 2. The amplifier according to claim 1, wherein the first means amplifies the analog pulse signal DTP to a predetermined level and outputs the amplifier 2, and an output of the amplifier 2 supplied to the non-inverting terminal. Taco pulses comprising a first comparator 2 for generating a logic signal DTPL and a first inverter 4 for inputting the output of the first comparator 2 and inverting the output DTPL. Generation circuit. 2. The second means is composed of an S / R flip-flop (8) in which one input terminal (S) is connected to the first means and the other input terminal (R) is connected to the third means. Taco pulse generator circuit. 2. A second inverter (7) according to claim 1, wherein said third means inputs said taco pulse (TP) and inverts and outputs the inverted taco pulse (TP) output from said second inverter (7). The connection point of the switch SW which is turned on / off along with the variable resistor R and the condenser C is connected to one end of the switch SW so that the taco pulse is changed according to the on / off state of the switch SW. TP) by comparing the RC circuit 10 for correcting the width and the output of the pulse width adjusting unit 10 input to the inverting terminal (-) with a predetermined reference voltage input to the non-inverting input terminal (+). Taco pulse generating circuit, characterized in that consisting of a second comparator (6) for outputting to the second means.

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