KR200365406Y1 - Device of Standby Power Saving for Switching Mode Power Supply - Google Patents

Abstract

The present invention relates to a power supply device for reducing standby power, and more particularly, in a standby power saving device for a switching mode power supply device of an electric / electronic device driven using electricity, receiving a commercial power and rectifying the power supply. And a pulse width modulation (PWM) control circuit which is operated by a power supply rectified by the rectifier and outputs a switching signal for transformer control, and an overvoltage and overcurrent detection circuit. And a power cut-off switch having an on / off function for blocking / applying input of commercial power at no load, the rectifier, the power output unit, and the PWM control circuit. Power cutoff switch to control on / off of power cutoff switch It characterized in that it comprises a fish circuit.

Therefore, according to the present invention configured as described above, by controlling the power cut-off switch configured at the power input stage in the no-load operation state without load, the commercial power is periodically cut off / applied, and the energy stored in the smoothing capacitor of the rectifier when the commercial power is cut off By using this function, the circuit can be operated normally for a certain time, and at this time, the power consumption can be cut off by cutting off the power consumed at no load.

Description

Standby power saving device for switching mode power supply {Device of Standby Power Saving for Switching Mode Power Supply}

The present invention relates to a standby power saving technology, and in particular, by controlling the input power of electrical and electronic devices that use electricity as a power source, minimizing no-load power consumption (standby power) consumed by a certain amount even in a no-load operation state without a load. It relates to a switching mode power supply for.

In general, technologies used to reduce standby power are rectified by receiving AC power and modulating the pulse width of the feedback signal according to the load operation and no-load operation at the output side according to the internal algorithm of the control circuit. The standby power is reduced by controlling the switching operation of the transformer.

However, such a conventional switching mode power supply has a problem that the power required for circuit operation is continuously consumed because the operating state of the circuit for the standby power state must be maintained even during a no-load operation without a load on the output side of the power source.

Accordingly, an object of the present invention for solving the above problems is to cut off / apply the commercial power input during no load operation, and supply the control circuit with a predetermined time using energy charged in the smoothing capacitor included in the rectifier. To develop a switching mode power supply that minimizes standby power consumption.

1 is a block circuit diagram schematically showing the configuration of a standby power saving device for a switching mode power supply according to the present invention;

2 is a main waveform diagram schematically showing an operating state of a standby power saving device for a switching mode power supply according to the present invention;

Figure 3 is a flow chart schematically showing the internal operation of the power cutoff switch control circuit of the standby power saving device for a switching mode power supply according to the present invention.

<Description of the symbols for the main parts of the drawings>

110: AC power input unit 113: rectifier

114: smoothing capacitor 115: transformer

117: PWM control circuit 118: switching transistor

320: power disconnect switch 321: power disconnect switch control circuit

Features of the present invention for achieving the above object,

In the switching mode power supply for reducing standby power of electrical and electronic equipment driven by using electricity,

A rectifier unit for receiving commercial power and rectifying and outputting the same; a PWM control circuit operated by the power rectified in the rectifier unit to output a switching signal for transformer control; and an overvoltage and overcurrent detection circuit. In the rectifier, the power output unit and the PWM control circuit, a power cut-off switch having a power output unit for feeding back a signal, an on / off function to cut off the input of commercial power at no load, And a power cutoff switch control circuit for controlling the on / off switch of the power cutoff switch by analyzing the load state by receiving the feedback signal.

Here, between the commercial power supply and the rectifier,

An input filter unit and a choke coil are further provided to remove electromagnetic noise and high frequency noise included in an input commercial power source.

Here, the smoothing capacitor of the rectifying part is

The smoothing capacitor for removing ripple and stable output of the rectified DC power has a large charge capacity. The control circuit at no load consumes a small amount of power for operation. Therefore, a small amount of power consumed for the operation of the control circuit can be replaced with the power stored in the smoothing capacitor to supply the control circuit for a predetermined time.

Here, the power cutoff switch control circuit,

The signal fed back from the power output unit, the PWM control circuit, and the rectifying unit is input to determine whether there is a load in the device, and is input by controlling the power cutoff switch in comparison with a preset reference level according to the presence or absence of a load. Cut off / on commercial power.

Hereinafter, a configuration of a standby power saving device for a switching mode power supply according to the present invention will be described in detail with reference to FIGS. 1 to 3.

Referring to FIG. 1, the switching mode power supply device for reducing standby power according to the present invention includes an input power supply unit 110, an input filter unit 111, a choke coil 112, a rectifying unit 113, and a smoothing capacitor 114. ), A transformer 115, a power output unit 116, a PWM control circuit 117, a switching transistor 118, a power cutoff switch 320, and a power cutoff switch control circuit 321.

First, the input power supply unit 110 receives commercial power (110 / 220V), and the RC filter and the choke coil 112 of the resistor and the capacitor of the input filter unit 111 are included in the AC power input from the input power unit 110. Remove the noise.

The rectifier 113 rectifies and outputs a bridge diode capable of full-wave rectification for conversion into a DC power source and stabilizes the smoothing capacitor 114.

The transformer 115 transmits a high voltage switching energy to the secondary coil through the core, and the switching transistor 118 serves as a switch to generate energy in the primary coil of the transformer 115.

In addition, the PWM control circuit 117 generates a pulse to operate the switching transistor 118, the output power supply unit 116 includes a safety circuit according to the feedback and overload of the signal according to the load, the secondary side of the transformer 115 It has an output filter consisting of a diode and a capacitor to stabilize the power input from the.

The power cutoff switch 320 is a switching element for cutting off / applying an input power source to use the charging voltage of the smoothing capacitor at no load, and a triac, phototriac, transistors, diodes, relays, and the like are used. The switch control circuit 321 determines the amount of load according to the feedback signal to control the power cutoff switch 320, and cuts or applies the switch according to a predetermined reference level to reduce standby power at no load.

Hereinafter, the operation of the switching mode power supply for reducing standby power according to the present invention with reference to the waveform diagram of Figure 2 and the flow chart of Figure 3 according to the operation state of the load / no load determination operation according to the main power switch connection, in the load state The operation will be described in detail by dividing into a no-load judging operation, a no-load state operation, and an operation of judging whether a load is applied in a no-load state.

First, in the load / no load determination operation according to the main power switch connection, when the main switch of the power supply is connected, the circuit is operated by the application of the power cutoff switch 320 and the current feedback signal is input to the power cutoff switch control circuit 321. do. According to the internal operation of the control circuit shown in FIG. 3, if the current feedback signal of FIG. 2 is lower than the no-load reference level, the PWM feedback signal or the voltage feedback signal is input to operate in the no-load state, and if it is higher than the reference level, it is determined that there is a load. Thus, the power cutoff switch 320 is applied. The AC power of the power input unit 110 is applied to the input filter unit 111 by the application of the power cutoff switch 320 to be included in the input power through the resistor and the condenser and the choke coil 112 configured in the input filter unit 111. Remove the noise.

The noise-free AC power is applied to the rectifying unit 113 to obtain a full-wave rectified DC power, and to obtain a stable DC power through the smoothing capacitor 114 to remove the ripple component.

The stable DC power is used to drive the circuit, and the energy stored in the primary coil is transferred to the secondary coil of the transformer 115 to drive the secondary load. The energy transfer of the transformer 115 is performed by the on / off operation of the switching transistor 118. When the on state is turned on, the switching transistor 118 is turned on so that energy is stored in the coil. Energy is transmitted to the secondary side to supply stable power to the load through an output filter composed of a rectifying diode and a capacitor of the power output unit 116.

In addition, a pulse waveform is applied from the PWM control circuit 117 to control the switching transistor 118, and a signal fed back from the output power source 116 is modulated to modulate the pulse waveform to control the amount of power according to the load.

Next, in the operation of determining the no load in the load state, if the current feedback signal input to the power cutoff switch control circuit 321 is lower than the reference level at no load, it is determined that there is no load, and the power is supplied according to the PWM feedback signal and the voltage feedback signal. The cutoff switch 320 is operated.

Next, the operation in the no-load state is controlled by blocking / applying the power cutoff switch 320 according to the operation of the power cutoff switch control circuit 321 according to the input of the PWM feedback signal and the voltage feedback signal. When the pulse operation of the input PWM feedback signal is measured to turn on / off the power cutoff switch 320 according to the operation of the pulse, and the minute voltage drop of the voltage feedback signal is measured to be lower than the reference level due to the smooth capacitor discharge. When it is determined that the energy stored in the smoothing capacitor 114 is discharged, the power cutoff switch 320 is turned on, and when the level is higher than the reference level due to the smoothing capacitor discharge, the power cutoff switch 320 is turned off, Shut off / apply the utility power. When the commercial power is cut off, power consumption can be reduced at no load by operating the control circuit using the charging energy of the smoothing capacitor 114.

Next, when the load is applied to the power output unit 116 by the operation of determining whether the load is applied in the no-load state, the instantaneous voltage feedback signal drops to the reference level or less according to the load due to a lot of power consumption. In operation 321, it is determined that the load is applied, and if the power cutoff switch 320 is turned on, the power cutoff switch 320 is kept on, and if turned off, the power is turned on to apply commercial power to supply the commercial power to the circuit.

Therefore, the on / off control of the power cutoff switch 320 according to the operation state inside the power cutoff switch control circuit 321 controls the commercial power supplied to the circuit during the no-load operation to cut off the commercial power during the off operation and smooth the condenser of the rectifier ( By operating the control circuit using the charging voltage stored in the 114) the standby power at this time is close to zero, it is possible to bring more standby power savings compared to the power supply device for reducing the conventional standby power.

As described above, according to the standby power saving device for the switching mode power supply apparatus according to the present invention, by controlling the power disconnect switch configured at the power input terminal in the no-load operation state without a load to periodically cut off / apply the commercial power, When the commercial power is cut off, the circuit can be operated for a certain period of time using energy stored in the smoothing capacitor of the rectifier. At this time, standby power can be reduced by cutting off the power consumed during no load.

In addition, preferred embodiments of the present invention is disclosed for the purpose of illustration, those skilled in the art will be possible to various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications, changes, etc. belong to the following claims You will have to look.

Claims (3)

In the development of a device for reducing standby power of electric and electronic devices driven by electricity, a switching signal for operating a transformer is controlled by a rectifying unit for receiving and rectifying and outputting commercial power, and a power source rectified by the rectifying unit. Power cut-off switch including PWM control circuit for outputting the output, over-voltage and over-current detection circuit, and a power output unit for feeding back a signal according to the load of the output stage, and an on / off function for cutting off the input of commercial power at no load. And a power cut-off switch control circuit for receiving the signals fed back from the rectifier, the power output unit, and the PWM control circuit to compare and analyze the load state to control the power cut-off switch on / off. Standby power savings for switched mode power supplies. The method of claim 1, The power disconnect switch control circuit, Determining the load and no load by receiving the current feedback signal of the output power unit and the output waveform of the PWM control circuit, and cutting off / applying commercial power by on / off control of the power cutoff switch according to the input of the no load signal. Standby power saving device for switching mode power supply. The method of claim 1, The power cut off switching control circuit, Standby power saving device for a switching mode power supply, characterized in that when the load is applied in the state when the commercial power is cut off when no load is detected by detecting the low voltage drop of the smoothing capacitor.