KR910007428Y1 - Multi-stage Bias Supply Circuit - Google Patents

Abstract

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Description

Multi-stage Bias Supply Circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1,2: constant voltage regulator 3: micom

4: standby rectifier 5: constant voltage circuit

6: main rectifier 7: load current selector

8: selection control unit RY1: relay

Q1-Q5: transistor D1-D6: diode

ZD1: Zener Diode C1-C5: Capacitor

R1-R11

The present invention relates to a multi-stage bias supply circuit that can supply the power supply bias of the remote control multi-function television in multiple stages.

In the conventional remote control type multi-function television, the power bias supply of a circuit equipped with a sub power supply and a surround board is applied through a constant voltage regulator after the voltage drop and rectification are smoothed, thereby preventing the effective power supply due to the bias and providing a constant bias. Only voltage was supplied.

In other words, it is not necessary to supply sufficient bias to the sub power supply and the surround board in the standby state of the remote controller. However, in this case, the power supply cannot be effectively used by providing a bias voltage for normal operation even in such a case.

In this invention, the bias voltages of the sub power supply and the surround board of the remote control type multi-function television are divided into picture "on" and picture "off" so that they are supplied by a power supply bias in two stages. It is configured to control the selection controller by using a power pulse output when the packer is “on-off” from the microcomputer and selectively apply a bias voltage to the surround board in the load current selection unit according to the operation of the selection controller.

As described above, the present invention for supplying the bias voltage of the sub power supply and the surround board in two stages according to picture on / off in a remote control type multifunctional television will be described in detail with reference to the accompanying drawings.

The present invention rectifies and smoothes the AC power supply AC dropped from the transformer T1 in the standby rectifying unit 4, and then supplies the power to the remote control standby power supply through the constant voltage circuit 5 and the constant voltage regulator 1. In the remote control type multifunctional television configured to be supplied to the main power supply from the relay RY driven by the microcomputer 3 through the constant voltage regulator 2 after rectifying and smoothing AC) in the main rectifying unit 6, the microcomb 3 A load controller for driving the relay RY in accordance with the power pulse output level of the load current selector, which is driven by the operation of the selector controller 8 and selects a power bias supply for the sub power source and the surround board; It was provided with (7).

That is, in the present invention, the AC power source AC applied through the master switch SW1 is dropped in the transformer T1 and then in the standby rectifying unit 4 composed of the capacitors C1 of the diodes D1 and D2. After rectifying and smoothing, it is applied to the constant voltage circuit (5) and the output of the constant voltage circuit (5) with the transistor (Q1), the zener diode (ZD1) and the resistors (R1-R3) is the constant voltage regulator after the noise is removed from the capacitor (C2). It is configured to be supplied to the remote control standby power through the regulator (1) and the AC power (AC) is rectified smoothed in the main rectifier (6) consisting of the bridge diode (BD1) and the capacitor (C5) and then the constant voltage regulator (2) The main power supply is configured to be supplied to the main power supply through the relay RY driven by the power pulse of the microcomputer 3, and the present invention is the same as the power pulse output of the microcomputer 3. Control the driving of (Q4) And the transistor Q5 is connected to the transistor Q4 to operate the relay RY in reverse driving to form the selection controller 8, and the transistor Q3 is driven according to the driving of the transistor Q5 of the selection controller 8. Is controlled according to the driving of the transistor Q3, and the resistor R4 and the diode D3 are connected in parallel so that the output of the constant voltage circuit 5 is applied to the sub power and the surround board to select the load current. The part 7 was comprised.

Looking at the effect of the present invention configured as described above.

First, when the master switch SW1 is turned "on", the AC power source AC is first voltage-dropped by the transformer T1, and then full-wave rectified by the standby rectifying unit 4 composed of the diodes D1 (D2) and the capacitor C1. And after smoothing, the first constant voltage circuit is performed in the constant voltage circuit 5 including the resistors R1-R3, the transistor Q1, and the zener diode ZD1, and the constant voltage output of the constant voltage circuit 5 is noisy by the capacitor C2. After is removed is supplied to the remote control standby power through the constant voltage regulator (1).

The input AC power source AC is rectified and smoothed in the main rectifying unit 6 composed of the bridge diode BD1 and the capacitor C5, and then energized in the constant voltage regulator 2, followed by a power pulse of the microcomputer 3. Is supplied from the relay RY driven by the main power source, but at this time, since the picture is not "on", the relay RY is "off" so that the main power supply is not supplied.

Therefore, the output voltage (standby power supply) of the constant voltage circuit 5 is supplied to the surround board and the other sub power supply via the resistor R4 and the unidirectional diode D3. Rather, the standby bias voltage is supplied.

That is, when the picture is "off", since the power pulse output from the terminal P1 of the microcomputer 3 is high level, the transistor Q4 of the selection control unit 8 is "turned on", but the transistor Q5 is "turned off". When the transistor Q5 is " turned off ", the relay RY is not driven so that the main power is not supplied and at the same time, the transistor Q3 of the load current selector 7 is " turned off " In the picture " off " state, the output of the constant voltage circuit 5 is supplied only to the standby bias voltage through the resistor R4 and the diode D3 in the picture " off " state.

However, when the picture "on" signal is detected by the microcomputer 3 that detects the status signal of the remote controller, the low-power powder pulse is output from the microcomputer 3 terminal p1 so that the transistor Q4 of the selection controller 8 It is " turned off " and transistor Q5 is " turned on ".

Therefore, when the transistor Q5 is "turned on" when the picture is "on", the relay RY is operated so that the output voltage of the constant voltage regulator 2 is supplied to the main power supply through the relay RY.

When the transistor Q5 is "turned on", the transistor Q3 connected to the bias resistors R6 and R7 is "turned on", and when the transistor Q3 is "turned on", the resistor R4 and the unidirectional diode D3 are turned on. The transistor Q2 connected in parallel is also " turned on " so that the output voltage of the constant voltage circuit 5 is applied to the surround board and other sub power supplies through the transistor Q2, so that a sufficient bias voltage is supplied to enable a normal operation. Give it.

In other words, only the bias voltage in the standby state is supplied to the surround board or other sub power supply through the resistor R4 and the diode D3 when the picture is “off”, and the transistor Q2 of the load current selector 7 when the picture is “on”. By supplying enough bias voltage through), it enables full normal operation.

However, in remote control multifunction TVs, surround boards or other sub-power sources (such as A / V stage power supplies, power supplies for other functions, etc.) may require virtually no bias power in standby mode. When not in the buy state, the diode D3 and the resistor R4 are removed to cut off the bias voltage supply in the standby state of the remote controller and to supply sufficient bias voltage through the transistor Q2 only when the picture is “on”.

As described above, the present invention supplies only the standby bias voltage to the surround board and other sub power supplies when the picture is “off”, and when the picture is “on”, the load current selector is driven by the selection controller to provide sufficient bias voltage for the surround board and the other sub power supplies. This product provides full normal operation by supplying a bias voltage to the surround board and other sub power supplies in two stages depending on the picture on / off. There is an effect that can supply a bias to the other power supply means in multiple stages.

Claims (3)

The AC power supply AC dropped from the transformer T1 is rectified in the standby rectifier 4, and then supplied to the standby power supply through the constant voltage circuit 5 and the constant voltage regulator 1, and the AC power supply AC In the remote control type multifunctional television configured to be rectified by the rectifying unit 6 and passed through the constant voltage regulator 2, and then the microcomputer 3 is supplied to the main power supply through a relay RY driven by a power pulse. A load current selector having a selection control unit 8 driven by a power pulse output to drive the relay RY and driven by the operation of the selection control unit 8 and selecting a power bias supply for the sub power supply and the surround board. (7) comprising a multi-stage bias supply circuit. The transistor according to claim 1, wherein the selection control unit (8) is a transistor (Q4) driven according to the power pulse output level of the microcomputer (3), and a transistor which is driven back to the operation of the transistor (Q4) and drives the relay (RY). A multistage bias supply circuit comprising (Q5). 2. The load current selection unit (7) according to claim 1, wherein the load current selection unit (7) operates in response to the transistor Q5 of the selection control unit (8) and the transistor Q5 operates in accordance with the driving of the transistor (Q5) or the constant voltage circuit (5). And a transistor (Q2) for applying the output of the power supply to the sub power supply and the surround board, and a resistor (R4) and a diode (D3) connected in parallel to the transistor (Q2) to limit the supply bias supply. .