KR20050035376A - Circuit for stabilizing power in switched mode power supply - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power stabilization circuit in a switched mode power supply, comprising: a switching mode power supply circuit having a switching section for changing a duty cycle, the secondary output voltage of the transformer being detected and detected by the switching section; An output voltage detector feeding back a signal; A regulator unit for converting the secondary output voltage and maintaining the same; And an overvoltage blocking unit supplying only a rated voltage level to the connection terminal of the output voltage detecting unit and the regulator unit, thereby preventing a high voltage from being applied to the regulator according to a load change and applying a stable constant voltage to the overvoltage blocking unit. It is a very useful invention to protect the regulator.

Description

 Circuit stabilizing power in switched mode power supply

The present invention relates to a power stabilization circuit of a switched mode power supply (hereinafter referred to as 'SMPS'), in particular. The present invention relates to a power stabilization circuit in a switched mode power supply for preventing a high voltage from being applied to a regulator used in a feedback stage to control a secondary output voltage of an SMPS.

In general, SMPS is a switching power supply, which is smaller and lighter than a linear power supply due to the development of related technologies.

FIG. 1 is a circuit diagram showing a configuration of a general switching mode power supply device. A switching mode power supply circuit for supplying predetermined DC power to each device by receiving input power includes a transformer 10 and a rectification smoothing unit 20. And a feedback unit 30 and a switching unit 40.

The transformer 10 induces an output voltage Vout proportional to the winding ratio to the secondary side according to the input power Vin of the primary winding, and the rectification smoothing unit 20 is configured as a secondary side of the transformer. And a capacitor (C1) connected in parallel with the output terminal of the diode (D1) in series, and rectifies and smoothes the output voltage induced on the secondary side of the transformer to output a predetermined level of the induced voltage.

In addition, the feedback unit 30 includes a regulator unit 32 connected in parallel with the output voltage detection unit 31 connected in series with the secondary output terminal of the transformer.

The feedback unit 30 detects an error of the rectified and smoothed output voltage through the detection resistor R1 and the photo coupler 31 of the output voltage detector and feeds it back to the switching unit 40. In addition, the output voltage is applied to the relicator.

Accordingly, the switching unit 40 includes a PWM IC for converting the duty ratio of the primary side on / off of the transformer according to the voltage level of the detection signal, so that one of the transformers not shown in FIG. By sending a control signal to the internal switching device connected to the vehicle side according to the pulse width oscillation of the PWM IC, the switching device is repeatedly turned on and off. The secondary induced voltage of the transformer is applied to the regulator unit 32. Through this, the output voltage is kept constant.

therefore. The error of the rectified and smoothed output voltage is detected by the resistor R3 and fed back to the PWM IC through the photocoupler 31 of the feedback unit, whereby the PWM IC is the drive pulse width of the switching element connected to the transformer primary side. The on / off of the switch element is changed by modulation control to keep the output voltage of the SMPS constant through the regulator unit 32.

That is, when the voltage output from the SMPS is greater than during normal operation, the overvoltage is sensed by the resistor R3 so that the light emitting unit of the photo coupler 31 flows more current than that during normal operation. Emits light, receives the light through the light receiving unit of the photo coupler, converts the optical signal into an electrical signal, and outputs the signal to the feedback terminal of the PWM IC, whereby the PWM IC generates a PWM control signal and generates the PWM control signal. By shortening the on-time of the switching element of the transformer, the regulator unit 32 to maintain a constant output voltage in accordance with the on / off change of the switching element.

However, when the voltage output from the SMPS becomes larger in load variation than in normal operation, the secondary output voltage of the transformer is directly applied to the resistor R3 and becomes higher than the breakdown voltage of the cathode of the regulator. The regulator may be damaged or may react with the output voltage and adversely affect the control characteristics.

In addition, in order to prevent this, in order to lower the constant voltage applied to the cathode of the regulator below the breakdown voltage of the regulator, if a voltage is supplied to a separate constant voltage IC or a circuit such as a transformer tap is added, the size or cost of the circuit is increased. In addition, there is a problem that can not be reduced in size and weight.

Accordingly, the present invention was created to solve the above problems, and in order to apply the constant voltage applied to the cathode of the regulator lower than the withstand voltage of the regulator, a voltage to be controlled without adding a separate constant voltage application circuit is added to the resistor and the capacitor. SUMMARY OF THE INVENTION An object of the present invention is to provide a power stabilization circuit in a switching mode power supply unit having an overvoltage interruption unit configured to distribute the output voltage and then apply it to the cathode of the regulator.

In the switching mode power supply apparatus according to the present invention for achieving the above object, the power stabilization circuit, the switching unit for changing the duty cycle of the transformer, and detects the output voltage of the secondary side of the transformer when the feedback to the switching unit The switching mode power supply circuit including an output voltage detector and a regulator for receiving a constant voltage level through the output voltage detector, includes: an overvoltage breaker for dividing the secondary output voltage of the transformer and supplying the voltage to the regulator; Characterized in that the configuration.

Hereinafter, a preferred embodiment of a power stabilization circuit in a switched mode power supply according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of a switching mode power supply to which a voltage stabilization circuit according to the present invention is applied. The switching mode power supply circuit for supplying predetermined DC power to each device by receiving input power includes a transformer 10 and rectification. It is comprised including the smoothing part 20, the feedback part 30, and the switching part 40. FIG.

The transformer 10 induces an output voltage Vout proportional to the winding ratio to the secondary side according to the input power Vin of the primary winding, and the rectification smoothing unit 20 is configured as a secondary side of the transformer. And a capacitor (C1) connected in parallel with the output terminal of the diode (D1) in series, and rectifies and smoothes the output voltage induced on the secondary side of the transformer to output a predetermined level of the induced voltage.

In addition, the feedback unit 30 includes a regulator 32 connected in parallel with an output voltage detector connected in series with the secondary output terminal of the transformer and an overvoltage blocking unit 33 connected in parallel with the regulator.

The feedback unit 30 detects an error of the rectified and smoothed output voltage through the detection resistor R1 and the photo coupler 31 of the output voltage detector and feeds it back to the switching unit 40. In addition, the output voltage is applied to the regulator.

Meanwhile, the regulator maintains the output voltage constant compared to the voltage applied through the photo coupler and a breakdown voltage corresponding to a reference voltage.

Accordingly, the switching unit 40 includes a PWM IC for converting the duty ratio of the primary side on / off of the transformer according to the voltage level of the detection signal, so that one of the transformers not shown in FIG. By sending a control signal to the internal switching element connected to the vehicle side according to the pulse width oscillation of the PWM IC, the switching element is repeatedly turned on and off, and the secondary side induced voltage of the transformer is transferred through the regulator unit 32. The output voltage is kept constant.

On the other hand, the over-voltage blocking unit 33 of the feedback unit (30). A first capacitor C2 and a second capacitor C3 are connected in series between the transformer secondary output terminal and ground, and a common terminal of the first capacitor and the second capacitor is serially connected to the detection resistor R1 of the output voltage detector. To connect.

therefore. The voltage divided by the first capacitor C2 and the second capacitor C3 of the overvoltage cutoff unit 33 is applied to the detection resistor R1 to apply a voltage smaller than the breakdown voltage of the regulator.

In addition, when the load on the output side Vout fluctuates due to the secondary output voltage of the transformer, the overvoltage cut-off unit 33 may include the first capacitor C2, the second capacitor C3, and the first resistor. (R2) and the second resistor (R3) are respectively connected in parallel, and the common terminal is configured in series with the output voltage detector.

Accordingly, the common terminal receives the distribution voltage by the device and is applied to the cathode terminal of the regulator, thereby lowering the voltage applied to the cathode of the regulator 22 to the overvoltage cutout portion more stably than the voltage applied to the regulator. Maintain constant output voltage of SMPS.

As mentioned above, preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art can improve other various embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. Changes, substitutions or additions will be possible.

The power stabilization circuit in the switching mode power supply apparatus according to the present invention constructed and operated as described above, in the switching mode power supply circuit having a switching unit for changing the duty cycle, detects the secondary output voltage of the transformer. An output voltage detector feeding back a detection signal to the switching unit; A regulator unit for converting the secondary output voltage and maintaining the same; And an overvoltage blocking unit supplying only a rated voltage level to the connection terminal of the output voltage detecting unit and the regulator unit, thereby preventing a high voltage from being applied to the regulator according to a load change and applying a stable constant voltage to the overvoltage blocking unit. It is a very useful invention to protect the regulator.

1 is a circuit diagram showing the configuration of a general switching mode power supply,

2 is a circuit diagram of a switching mode power supply to which a voltage stabilization circuit according to the present invention is applied.

※ Explanation of code for main part of drawing

30: feedback unit 31: photo coupler

32: regulator 40: PWM IC

Claims (3)

A switching unit for changing the duty cycle of the transformer, an output voltage detector for detecting the secondary output voltage of the transformer and feeding it back to the switching unit, and a regulator unit for applying a constant voltage level through the output voltage detector; In the mode power supply circuit, And an overvoltage interrupter for dividing the secondary output voltage of the transformer to supply the regulator to the regulator. The method of claim 1, The overvoltage cut-off unit is configured to connect a first capacitor and a second capacitor in series between the transformer secondary side output terminal and the ground, and the common terminal of the first and second capacitors is connected in series with the output voltage detector. Power stabilization circuit in mode power supply. The method of claim 2, The over-voltage cut-off unit is connected to the first capacitor and the second capacitor, the first resistor and the second resistor in parallel, and the common terminal is configured in series connection with the output voltage detector, in the switching mode power supply Power stabilization circuit.