KR100200649B1 - Low consumption power circuit - Google Patents

Abstract

The present invention relates to a circuit for reducing power consumption in a power-off mode of a television or video tape recorder (hereinafter referred to as a VCR), and an object of the present invention is to generate a main voltage at power-on in a power supply using an SMPS. Main power supply means for supplying a voltage to the system, sub power supply means for generating a standby voltage when the power is off, operated by the sub power supply means when the power is off, turn off the main power, turn off the sub power supply means when the power on Control means operated by the power supply means. According to the present invention, there is an advantage that the power can be reduced by shutting off the main power supply when the electronic product is turned off, that is, when not used for a long time.

Description

Low power circuit

The present invention relates to a circuit for reducing power consumption in a power off mode of a television or video tape recorder (hereinafter referred to as a VCR).

Conventionally, in order to control a power supply circuit in a standby (Stand By) mode, a separate micom is configured to control the power supply circuit and the main micom, and a standby dedicated power supply circuit is separately configured and used for a separate control micom. Conventional circuits can be applied to televisions, but conventional circuits are not applied because VCRs have an operation function when power is turned off such as reserved recording. In standby mode of the TV, the secondary circuit of main switching mode power supply (SMPS) is cut off and only the standby dedicated microcomputer remote control receiver circuit and button are operated.If the power-on key is input in standby mode, the dedicated circuit is cut off and the main power circuit Will work. In the prior art, a separate control microcomputer must be added in addition to the main microcomputer, and there is a problem in that it is impossible to cope with a product using a power off mode such as a VCR.

The present invention is to provide a circuit for controlling the main power supply using the control circuit of the auxiliary SMPS power supply in the power off mode of the electronic device.

1 is a SMPS circuit showing an embodiment of a low power consumption circuit according to the present invention.

In order to solve the above technical problem, the present invention provides a power supply apparatus using an SMPS, comprising: main power supply means for supplying a voltage to a system by generating a main voltage at power-on; Secondary power supply means for generating a standby voltage when the power is turned off; And a control means which is operated by the sub power supply means when the power is off and the main power is turned off, and when the power is turned on, the control means is turned off and operated by the main power supply means.

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

The present invention is applicable to a power supply using an SMPS, and includes a main power supply for supplying power to the entire system at power-on and an auxiliary power supply for supplying auxiliary power to set the standby mode at power-off.

1 is a SMPS circuit showing an embodiment of a low power consumption circuit according to the present invention, the filter circuit 112, the rectifier circuit 114, the first switching circuit 116, A first power supply transformer (PT1) 118, a first high frequency smoothing circuit 120, a first control circuit 122 for controlling the first switching circuit 116, a first photo coupler, a constant voltage control 124 A main power supply for supplying a main power supply, a second switching circuit 126 for switching the first control circuit 122, a second power supply transformer (PT1) 128, and a second high frequency smoothing circuit (130). And an auxiliary power supply having a second control circuit 132, a second photocoupler, and a constant voltage control 136 which mutually control the second switching circuit 126 to supply a negative power, and the first high frequency smoothing. A main micom 138 that receives the power supply VCC of the circuit 120 and the second high frequency smoothing circuit 130 and controls the third control circuit 134, and the main micom 13. 8) the auxiliary FLT 140, the main FLT 142, and the function key, which receive FLT power according to the control signal, are configured by the remote control receiver 144.

As shown in FIG. 1, the AC input is converted into direct current (DC) in the rectifier circuit 114 after filtering power supply noise in the filter circuit 112. The first switching circuit 116 of the main power supply unit switches an input DC to a voltage, and does not operate because a signal of the first control circuit 122 is not applied. At this time, the second switching circuit 126 of the auxiliary power supply unit starts operation by the direct current output from the rectifier circuit 114 so that a current flows through the primary side Np2 of the second power supply transformer 128. The energy accumulated on the primary side Np2 of the second power supply transformer 128 is transferred to the secondary side, rectified and smoothed by the second high frequency smoothing circuit 130, and applied to the main microcomputer 138. In addition, the first constant voltage control circuit 124 generates a constant voltage control signal by an error voltage generated by the first smoothing circuit 120. At this time, if there is no sensing signal from the function key and the remote control receiver 144, the main micom 138 operates the output of the main power supply only in standby mode, so that the power-on and remote control of the standby dedicated auxiliary FLT 140 and function keys are performed. Only the receiver 144 will operate.

When there is a remote controller input for the next power-on key or power-on, the main microcomputer 138 operates the third control circuit 134 of the auxiliary power supply unit, and the second photocoupler is operated by the third control circuit 134. The second control circuit 132 is operated. The second switching circuit 126 is stopped by the second control circuit 132. The second switching circuit 126 applies a control signal to the first control circuit 122 at the same time as the start stop to start the first switching circuit 116 of the main power supply unit. Accordingly, when the first switching circuit 116 is started, current flows to the primary side LP1 of the first power supply transformer 118, and energy is accumulated, and the accumulated energy is transferred to the secondary side. In addition, the first high frequency smoothing circuit 120 applies the rectified and smoothed voltage to the main microcomputer 138 to operate in the restart power-on mode. When the main micom 138 is in normal operation, that is, the main micom 138 applies a control signal to turn off the auxiliary FLT 140 by operating the main FLT 142. Here, the FLT (fluorescent light tube) is a type of character indicator, and displays the operation of various devices in letters and figures in fluorescence. When the power is turned off again, the main microcomputer 144 operates the third control circuit 134 by the control pulse to start the auxiliary power supply, and the first control circuit 122 supplies the third control circuit 134 to the third control circuit 134. The first control circuit 116 of the main power supply unit is turned off by the second control circuit 132 controlled by the controller. In addition, the main microcomputer 138 applies a control signal when the power is off to operate the auxiliary FLT 140, and turns off the main FLT 142.

As described above, according to the present invention, there is an advantage that power can be saved by shutting off the main power supply when the electronic product is turned off, that is, when not used for a long time.

Claims (4)

In a power supply using SMPS, Main power supply means for supplying a voltage to the system by generating a main voltage when the power is turned on; Secondary power supply means for generating a standby voltage when the power is turned off; And a control means which is operated by the sub power supply means when the power is off, and turns off the main power supply, and turns off the sub power supply means when the power is on, and is operated by the main power supply means. According to claim 1, wherein said main power source means Filter section for filtering the noise of the AC input; A rectifier for converting alternating current output from the filter unit into direct current; A first switching unit generating a voltage by switching a DC output from the rectifying unit; A first power transformer converting the switching voltage output from the switching unit; A first smoothing unit supplying a voltage to the control means by smoothing the voltage output from the power transformer unit; A first constant voltage controller configured to generate a constant voltage control signal based on an error voltage generated by the first smoothing unit; A photo coupler unit for converting a control signal generated by the first constant voltage controller into an optical signal; And a first controller configured to control the switch of the first switching by a control signal generated by the photo coupler. The apparatus of claim 1, wherein the sub power supply unit comprises: a second switching unit configured to generate a voltage by switching a direct current output from the rectifying unit, and apply a control signal according to power on / off to the first control unit; A second power transformer for transforming a switching voltage output from the second switching unit; A second smoothing unit supplying a voltage to the control means by smoothing a voltage output from the power supply second transformer; A second constant voltage controller configured to generate a constant voltage control signal based on an error voltage generated by the second smoothing unit; A second photo coupler unit for converting a control signal generated by the second constant voltage controller into an optical signal; And a second control unit for controlling the switch of the second switching in accordance with a control signal generated from the photo coupler unit and power control generated from the control means. The low power consumption circuit according to claim 1, further comprising selecting means for applying a signal for selecting power on / off to said control means.

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