KR900004186Y1 - Power switching circuit of vcr - Google Patents

Abstract

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Description

VCR Power Switching Circuit

1 is a configuration diagram of a power switching circuit of a VCR according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Seafly sensor terminal 2: Dakup sensor terminal

3: F / R signal input terminal 4: Switching circuit

A1: NAND gate A2: AND gate

PC: Power control terminal M1, M2: Monomulti vibrator

Q1 to Q4: Transistors R1 to R10: Resistance

C1, C2: condenser

The present invention relates to a VCR and a cassette device, and more particularly, to a power consumption reduction device of a VCR, which is configured to automatically turn off a set of powders after completion of revinding of a tape.

In a conventional VCR or cassette, when the user is away from the play state, the tape of the set proceeds to the end and then rewinds, so that the power of the set is kept on.

In general, when VCR or cassette is played, the tape is automatically rewound to return to the beginning of the tape. When the tape is returned to the lead tape, the take-up sensor is activated to generate a stop “high” signal. The signal is wound back out of the lead tape in the forward direction by the signal and kept in the stop state. However, in the past, the power is kept in the "on" state even in the stop state, causing unnecessary waste of power.

Therefore, the present invention aims to automatically turn off the powder of the set after completion of the rewind after the tape of the set has advanced to remedy the defect described above.

In conventional VCRs or cassettes, the Micom program is designed to generate all signals from Micom after the rewinding of the tape is completed, so that the power is always on.

In other words, if the power key is turned on once, the power cannot be turned off by applying a different signal, so even after the rewinding of the tape, the set is always in the on state, causing unnecessary waste of power.

Therefore, the present invention is as described in detail as shown in Figure 1 to improve the above-described defects as follows.

The Seafly sensor terminal 1 is connected to the one input of the NAND gate A1 through the mono-multi vibrator M1, and the take-up sensor terminal 2 is connected to the base of the transistor Q1 having the emitter grounded. The collector of transistor Q1 is connected to power supply Vcc through resistor R1 and at the same time to the input of NAND gate A1 and the output of NAND gate A1 is resistor R2 through monomultivibrator M2. R5 is connected to resistor R2 of switching circuit portion 4 consisting of transistor Q2 and capacitor C1, resistor R2 is grounded through resistor R4 and transistor Q2 through resistor R3. Is commonly connected to the base of the capacitor and the capacitor C1, one side of the capacitor C1 and the emitter of the transistor Q1 are grounded, the collector of the transistor Q2 is connected to the power supply through the resistor R5, and the AND gate A1. ) Is connected to one side input of F / R signal input terminal (3) through resistor (R9). The base of transistor Q4 and resistor R10 are simultaneously connected, the collector of transistor Q4 and the other side of resistor R10 are grounded, and the emitter of transistor Q4 is one side of resistors R7 and R8 and the transistor. Is connected to the base of Q3, resistor R7 is connected to power supply Vcc, resistor R8 is grounded via capacitor C2, the emitter of transistor Q3 is grounded and its collector is connected to resistor R6. It is connected to the power supply (Vcc) and at the same time the other side input of the AND gate (A2) and the output of the AND gate (A2) is connected to the power control terminal (PC).

Operation of the above described technical configuration will be described in detail as shown in FIG. 1 as follows. When the initial state of the tape is not detected and the supply sensor terminal 1 becomes 'low', the output of the monovibration vibrator M1 remains 'high' and is applied to the input terminal of the NAND gate A1, and the take-up sensor When the terminal 2 is not detected because the end of the tape is detected, the transistor Q1 is 'off' and its collector output is 'high' and is applied to the input of the other side of the NAND gate A1. The output of A1) becomes 'low' and is applied to the mono-multivibrator M2 and is applied to the mono-multivibrator M2, so that the output of the mono-multivibrator M2 is 'high'. This 'high' signal is delayed by the time it is charged in the resistors R2 and R3 capacitor C1 and applied to the base of the transistor Q2 so that the collector output of the transistor Q1 is 'low' and the gate of the AND gate A2 is low. As it is connected to one side input, regardless of F / R signal input, the output of AND gate (A2) becomes 'low', which continuously supplies power to the set, and automatically rewinds after the tape is completed to detect the initial tape state. A high (M) signal is detected on the supply supply terminal (1) and applied as a clock signal to the mono multi vibrator (M1). At this time, the mono multi vibrator (M1) changes its output signal at the rising edge of the clock signal. When the clock signal input to the vibrator (M1) enters the 'high', the output of the 'high' state is converted to the low (L) signal and applied to the input terminal of the NAND gate A1. At this time (when rewinding to the lead tape part when auto rewinding after completion of play), the take-up sensor terminal (2) detecting the tape becomes 'high' (H) state and the 'high' of the take-up sensor terminal (2) Since the signal 'drives the transistor Q1, the collector terminal of the transistor Q1 becomes the' low 'signal state and is applied to the other input terminal of the NAND gate A1.

Therefore, the 'high' (H) signal is output from the output terminal of the NAND gate (A1), and the 'high' signal is converted to the 'low' state through the monomulti vibrator (M2), which also converts the output signal at the rising edge. Is maintained.

The 'low' signal output from the multiplier vibrator M2 is newly delayed by a time charged to the capacitor C1 through the resistors R2 and R3 and then applied to the base of the transistor Q2 to supply the transistor Q2. Since the power supply Vcc is applied with the resistor R5, the collector terminal of the transistor Q2 is in a 'high' state.

The collector terminal high (H) signal of the transistor Q2 is applied to the input terminal of one input terminal of the AND gate A2.

Here, when the F / R signal input terminal 3 is 'high', ie, during play or rewind, the PNP type transistor Q4 is turned off and the NPN type transistor Q3 is turned on. Since the collector output of the transistor Q3 of the 'low' is applied to one input terminal of the AND gate regardless of the detection signal of the supply sensor terminal 1 and the take-up sensor terminal 2 applied through the switching circuit (4) The output of (A2) is 'low' and is connected to the power control terminal (PC), so power is supplied.

And when the take-up sensor (2) terminal is 'high' state after the play is automatically rewinded to the lead tape part, the F / R signal input terminal (3) becomes 'high' and the transistor (Q4) is operated. Since the output of the AND gate A2 becomes 'low' regardless of the detection signal of the supply sensor terminal 1 and the take-up sensor terminal 2, the powder is continuously supplied and the part which escapes the lead tape becomes the positive direction. It is wound.

When the part out of the lead tape is rewound in the forward direction, the F / R signal input terminal (3) becomes 'low', and when the F / R signal input terminal (3) is 'low', the PNP transistor Q4 is turned on. Power supply (Vcc) is grounded via resistor (R7) and transistor (Q4), and at this time, after the delay between the charger of resistor (R8) and capacitor (C2), the base of transistor (Q3) Since the low 'potential is applied, the transistor Q3 is' off' so that the 'high' (H) signal of the collector terminal of the transistor Q3 is applied to the input terminal of the AND gate A2, so that at the output terminal of the AND gate A2, High signal (H) is output.

The 'high' (H) signal is applied to the power control terminal PC to adjust the power.

The reason for the time delay is to allow the user to accept the key when the key is operated immediately after the rewind is completed, and to adjust the power by the above operation when there is no key input for a predetermined time. Therefore, the present invention automatically rewinds the tape after the play is completed or the user goes to bed while watching the VCR. When the tape is rewound, the power of the set is automatically turned off to waste unnecessary power. It provides the advantage of preventing.

Claims (1)

The Seafly sensor terminal 1 is connected to the input terminal of the NAND gate A1 through the mono-multi vibrator M1, and the take-up sensor terminal 2 is connected to the base terminal of the transistor Q1 having the emitter terminal grounded. The collector terminal of the transistor Q1 is connected to the power supply Vcc through the resistor R1, and is also connected to the input terminal of the NAND gate A1, and the output terminal of the NAND gate A1 is connected through the monomultivibrator M2. (R2 to R5), a capacitor (C1) and a transistor (Q1) is connected to the switching circuit portion 4, the switching circuit portion 4 is connected to the input terminal of the end gate (A2), F / R signal input terminal ( 3) is connected to the base end of the transistor Q4 via a resistor R9, and the base end of the transistor Q4 is grounded through a resistor R10, and the collector end of the transistor Q4 is grounded. The emitter stage is connected to the base stage of the switching transistor Q3, and also the resistor R7. It is connected to the supply power supply (Vc) through, and is grounded through the resistor (R8) and the capacitor (C2), the collector terminal of the transistor (FQ3) is connected to the input terminal of the AND gate (A2), and the AND gate (A2) The output terminal of the power switching circuit of the VCR, characterized in that configured to be connected to the power control terminal (PC).