KR960009888B1 - Recording speed change device - Google Patents

Abstract

an initializing controller for controlling initilizing of a microcomputer(10) in case of reservation recording; a counter for counting a capstan frequency generation signal and up-counting the count outputs; a relay for controlling input of the capstan frequency generation signal to the counter according to SP or LP mode of the microcomputer(10); a latch for receiving the output of the counter to generate a signal according to a second vibrator output signal when a tape ends; a reset controller for resetting the counter when the power is off or tape ends; and a mode controller for controlling a mode change terminal and record normal mode terminal of the microcomputer(10).

Description

Recorder Speed Conversion Circuit and Method According to Remaining Tape Length in Scheduled Recording

1 is a circuit diagram according to the present invention.

2 is a flow chart in accordance with the present invention.

3 is a waveform diagram of each part according to the present invention.

* Explanation of symbols for main parts of the drawings

10: Micom 11, 21: 1st, 2 flip flop

12: servo 13: frequency generating amplifier

14: Schmitt trigger 15-17: N 'jin, N jin, up counter

18: latch portion 19, 20: first and second vibrator

G1, G2, G4, G5: AND gate G3, G6, G7: OA gate

G8: Exclusive logic gate G9, G10: Inverter

Q1, Q2: transistors RS1, RS2: first and second relays

SW1: Mode selector switch M: Captain motor

D1, D2: Diode CFG: Capstan Frequency Generator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video cassette recorder, and more particularly, to a recorder speed conversion circuit and a method according to the remaining amount of tape during reservation recording.

In general, when a scheduled recording is attempted in a state in which the amount of the remaining tape is not clearly known when the scheduled recording is to be performed, the entire recording cannot be recorded when the remaining tape amount is small. So there were problems with some not being taped to tape.

Accordingly, an object of the present invention is to compare the recording period and the remaining amount of the tape to provide a circuit that can prevent the part to be recorded because the recording speed is switched to the EP mode when the remaining amount of the tape is insufficient.

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

1 is a circuit diagram according to the present invention, which includes a microcomputer 10, a servo 12, a capstan frequency generator CFG, a frequency generating amplifier 13, a Schmitt trigger 14, and a scheduled recording. Initialization control means for controlling the initialization of the microcomputer 10 by the first flip-flop output and the mode selection switch, and counting the capstan frequency generation signal generated by the capstan frequency generator CFG to N or N ', and counting them. A count means for up-counting the output, a relay means for controlling the capstan frequency generation signal to be input to the count means according to the SP or LP mode of the microcomputer 10, a tape-and- a latch means for outputting a signal stored by the second multi-vibrator exit signal at the end), reset control means for resetting the count means at power-off or tape end-sensing, and the tape remaining. Incorrect, by comparing the time (RT) and off (OT), and outputs a high signal, and consists of a mode control means for controlling a mode change terminal and records the normal mode terminals of the microcomputer 10.

FIG. 2 is a flow chart according to the present invention. In the first step and the first step of performing a normal recording mode if the mode selection switch is auto at the time of power-off by setting the reservation recording on / off time, If it is auto, the mode selection is searched for whether it is SP (Standard Play) or LP (Long Play) mode by the microcomputer 10. If the search result is not SP or LP mode, the record normal mode is executed. Setting a memory and resetting the count to perform fast forward; and after performing the second process, the microcom 10 searches for the tape end state, and if the tape end is not the tape end, performs fast forward again. After rewinding by memorizing the remaining amount of tape, if it is not the stop, the third process of rewinding again, and if the stop in the third process Remember that the time minus the on-time and the on-time is offset (OT), and after comparing this offset (OT) with the remaining tape time (RT), the record normal mode is performed for RTOT, and the speed is changed to EP mode for RT OT. The fourth process is to do.

3 is an angle waveform diagram according to the present invention.

Hereinafter, the present invention will be described in detail based on the above-described configuration.

First of all, the present invention is directed to an apparatus and method for finishing reservation recording by switching to EP (Economic play) mode when the remaining amount of tape is less than the time to reserve recording in the case of SP or LP mode. will be.

First, the reserved recording time is set, and when the power is turned off at the power control terminal PWR CON, the recording reservation terminal RR of the microcomputer 10 becomes high, and the clock terminal CLK of the first flip-flop 11 is set. ) Is applied high. The record reservation terminal RR is connected to the set terminal S of the first flop flop 11, and the reset terminal R is connected to ground to output high to the output terminal Q1.

At this time, if the mode selection switch SW1 is placed in the manual (manual), that is, if the record speed is to be maintained, the power supply Vcc is applied to the transistor Q1 base through the resistors R3 and R4 to the power supply Vcc terminal. The low signal is output to the collector connected to (R5).

The low signal is input to the first input terminal of the AND gate G5, and the output of the AND gate G5 becomes the low signal, and thus is input to the first input terminal of the AND gate G4.

Since the low signal input to the AND gate G4 and the output time of the first flip-flop 11 are logically operated, the low signal is applied to the initial terminal INT of the microcomputer 10, and thus initialization is not performed. When the selection switch SW1 is in the auto position, the output of the transistor Q10 becomes high to be input to the first input terminal of the AND gate G5, and the output of the or gate G6 when the mode is SP or LP. This becomes high and is input to the second input terminal of the AND gate G5. The offset output at SP is equal to the (bar) waveform, and the offset output at LP is equal to the (e) waveform. Since the output of the AND gate G5 is high and the output of the AND gate G4 becomes high, the AND gate G5 output is applied to the initial terminal INT of the microcomputer 10.

The microcomputer 10 recognizes the initialization and sends fast forward data to the servo terminals S10, S11, and S12 of the servo unit 12 through the servo terminals S0, S1, and S2 to perform fast forward. do.

When the fast forward is performed, a pulse is generated through the capstan frequency generator CFG while driving the capstan motor M through the capstan control and the forward reverse terminals CAP, COM, CAP, and F / R. The pulse signal is output through the frequency generator amplifier 13 to the fourth wave (A) waveform, and generates a square wave like the third wave (B) waveform through the Schmit Trigger (14). The square wave signal is applied to the first and second relays RS1 and RS2. Then, if the mode is SP or LP, the pulse signal is applied to the N-counter counter 16 through the first relay RS1, and outputs a pulse equal to the third degree (d) waveform every Nth. . Where N is the frequency of the capstan frequency generator (CFG) at SP, typically 1080. The reason why the N-counter counter is used is that if you count the tape from the beginning to the end of the tape with 120 minutes, 1080 × 2 (Hr) × 60 (Min) × 60 (Sec) = 7,776,000 To count a large number is added because it is not feasible.

In the case of LP, a pulse is input to the N 'counter counter 15 through the second relay RS2, and outputs a pulse such as a third degree (multi) waveform every N'th time.

Where N 'is the frequency of the capstan frequency generator (CFG) at LP, typically 540. The N 'binary and N binary counters 15 and 16 can be changed to match the frequency specifications of each set of capstan frequency generator CFG.

In the EP, the initialization does not occur by the AND gate G4, so it is not necessary to consider it. The pulses output from the N 'binary N' binary counters 15 and 16 are input to the up counter 17 through diodes D1 and D2, respectively. The up counter 17 counts the number of input pulses and stores the number of pulses in the latch unit (Latch 18). The pulse portion of the up counter 17 converts the tape amount into seconds. When the fast forward FF continues and the tape end is sensed, the tape and sense pulse is generated to output a pulse through the second vibrator 20.

The pulse is input to the enable terminal EN of the latch unit 18 to enable the latch unit 18. The output pulse of the latch unit 18 is input to the first input terminal of the exclusive logic sum gate G8, and is turned off from the offset terminal of the microcomputer 10 generating a third degree (four) waveform. The set signal is input to the second input terminal of the exclusive logical sum gate GB. At this time, if the remaining tape time is less than or equal to the offset (reservation time offset reservation time on), the output waveform of the up count 17 is the same as the waveform of FIG. 3 (h), and the output of the exclusive OR gate G8 is high. Occurs. The high signal is applied to the set terminal S of the first flip-flop 21. The output terminal of the second flip-flop 21 only when the RT is smaller than the offset, as shown in the waveform of FIG. High outputs to Q).

The high signal is applied to the mode change terminal MC of the microcomputer 10 to convert the mode to EP, and is applied to the AND gate G2 to output the two AND gates G1 and G2 output signals to the oragate G3. High signal is output. The high signal is input to the record normal mode terminal (RSM) of the microcomputer 10 to enter the record normal mode. In addition, when the third degree (a) waveform is greater than or equal to the RT offset, the output waveform of the up count 17 is the same as the third degree (difference) waveform, and the output of the second flip-flop 21 becomes low. Therefore, only the Oagate (G3) output goes high and goes to record normal mode. Here, when the tape and sensing or the power-off is turned on, the transistor Q2 is turned on to input the output of the low state to the first input terminal, and the high signal is input to the second input terminal through the inverter G10 so that the oar gate G7 is input. The output goes high.

The high signal resets the N-numbered counter 16, the N'-numbered counter 15 and the up counter 17 through the first vibrator 19.

The enable pulse is applied to the latch portion 18 through the second vibrator 20 at the time of tape end, and stops at the memory point after auto rewind to the place where the count is reset.

FIG. 2 is a flowchart for carrying out the present invention. First, in step 1a, the microcomputer 10 sets the on and off time to turn off the power in step 1b, and then the selection switch SW1 in step 1c. Determine whether to put in the auto position.

In step (1c), if it is not automatic, the normal operation of the record in step (4d) is performed. If it is automatic, the mode is sensed in step (2a), and in step (2b), the microcomputer 10 determines whether the SP mode or the LP mode is present. do.

In step (2b), if the SP or LP mode is not performed (4d), and if the SP or LP mode (2c). In step (2c), the count memory is set and count reset is performed. In step (2d), fast forward is performed to perform step (3a).

In step (3a), the microcomputer 10 determines whether the tape end is applied, and if it is not the end, performs step (2d) again, and if it is the end, step (3b). In step (3b), the remaining amount of tape is stored, and rewinding is performed in step (3c) to determine whether to stop in step (3d), and step (3c) is performed if it is not a stop. .

In step (4a), the time offset from the off time at the time of the reservation recording is offset (OT). In step (4b), the tape remaining time (RT) and the offset (OT) are judged. In step (4b), if the RTOT is performed (4d), and if it is RTOT, the record speed is switched to the EP mode in (4c).

As described above, the present invention compares the recording period with the remaining tape time, and when the remaining tape is insufficient, the record speed is switched to the EP mode, whereby the portion to be recorded can be prevented from being cut off.

Claims (2)

A video cassette recorder having a reserved recording having a microcomputer (10), a servo (12), a frequency generator (CFG), a frequency generating amplifier (13), and a Schmitt trigger (14), wherein the first recording at the time of the reserved recording is performed. Initialization control means for controlling the initialization of the microcomputer 10 by the flip-flop output and the mode selection switch, and the count output after counting the capstan frequency generation signal generated by the capstan frequency generator CFG to N or N '. A counting means for counting up counts, a relay means for controlling the capstan frequency generation signal input to the counting means in accordance with the SP or LP mode of the microcomputer 10, and an output of the counting means. Latch means for outputting a signal by a multivibrator output signal, reset control means for resetting the counting means at power-off or tape end-sensing, and the remaining amount of tape It is configured as a mode control means for controlling the mode change terminal and the record normal mode terminal of the microcomputer 10 by this signal because the output is high when the time RT and the offset OT are different from each other. Record speed conversion circuit according to the remaining tape in recording. 1. A method of performing a video cassette recorder during reservation recording, the method comprising: setting a reservation recording on / off time to determine whether the mode selection switch is auto at power off, and then performing record normal mode if not auto; In the first process, if the auto mode is sensed, the microcomputer 10 determines whether it is SP or LP, and if it is not SP or LP, the record normal mode is performed, and if the SP or LP is set, the count memory is set and reset. After the second process, and after performing the second process, the microcomputer 10 determines whether it is tape end or else performs fast forward again, and if it is tape end, after rewinding by storing the remaining tape, it is determined whether to stop. The third process of performing rewind again if it is not a stop, and the time minus the off time and the on time if the stop is performed in the third process. And a fourth process of comparing the offset (OT) with the remaining tape time (RT), and performing a record normal mode for RTOT and for speed switching to EP mode for RTOT. How to record speed according to the remaining tape.

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