KR19990012253U - Switching Mode Power Supplies - Google Patents

Abstract

The present invention relates to a switching mode power supply, and includes a rectifying unit (11), a first, a second, a third coil (L1,) for receiving an AC voltage (Vin) and rectifying the same to output a first DC voltage (Vdc1). Receives the voltage induced in the switching transformer 12 composed of L2 and L3 and the secondary and tertiary coils L2 and L3, rectifies and smoothes the voltages, respectively, to the second and third DC voltages Vdc2 and Vdc3. The DC voltage output unit 13 for outputting the signal and the second DC voltage Vdc2 detect an error according to the voltage value of the second DC voltage Vdc2 and output an error voltage Ver. When the first switching unit Q1 and the first switching unit Q1 are on, the first coil L1 is turned on or off according to the pulse width modulation signal PWM to control the current flowing through the first coil L1. The current sensing unit 15 which senses a current flowing in the output unit and outputs a current sensing voltage VA which is varied according to the sensed current, and is driven by the supply of the third DC voltage Vdc3. An overvoltage is generated in the pulse width control unit 16 and the second DC voltage Vdc2 which output a pulse width modulation signal PWM in which the duty ratio of the pulse is varied according to the high error voltage Ver and the current sense voltage VA. When the third DC voltage Vdc3 rises to the reference voltage Vzd, the overvoltage protection unit 17 to make the third DC voltage Vdc3 have the first voltage V1 which cannot drive the pulse width control unit 16. It consists of.

Description

Switching Mode Power Supplies

The present invention relates to a switching mode power supply, and more particularly to a switching mode power supply that can protect the switching mode power supply by stopping the operation of the switching mode power supply in the event of an overvoltage.

Switching Mode Power Supply (Swiching Mode Power Supply) is a power supply that outputs a plurality of DC voltages used in the monitor using a pulse width modulation method.

1 is a block diagram of a conventional switching mode power supply. The conventional switching mode power supply 1 of FIG. 1 includes a rectifying unit 2 for receiving an AC voltage Vin and rectifying the same, and outputting a first DC voltage Vdc1. Different voltages are induced in the secondary and tertiary coils L2 and L3 by the primary DC voltage Vdc1 composed of the tertiary coils L1, L2 and L3 and induced in the primary coil L1. Receives the voltage induced in the switching transformer (3), the second and third coils (L2, L3) of the switching transformer (3) and rectify and smooth them, respectively, the second and third DC voltage (Vdc2) different from each other The DC voltage output unit 4 outputting Vdc3 and the second DC voltage Vdc2 having the highest DC voltage among the outputs of the DC voltage output unit 4 receive the voltage of the second DC voltage Vdc2. The error detection unit 5 which detects an error according to a value and outputs an error voltage Ver, which is turned on or off in accordance with the pulse width modulation signal PWM to control the current flowing through the primary coil L1. When the switching unit Q1 is turned on by the first resistor R1 connected in series to the switching unit Q1 and the switching unit Q1, the current flowing through the first coil L1 is sensed and changed according to the detected current. It is driven by the supply of the current sensing unit 6 and the third direct current voltage Vdc3 of the DC voltage output unit 4, which outputs the current sensing voltage VA, and the error voltage Ver and the current sensing voltage VA. And a pulse width control unit 7 for outputting a pulse width modulated signal PWM whose variable duty ratio of the pulse is varied.

In the conventional switching mode power supply 1 of FIG. 1, when the output voltage of the second DC voltage Vdc2 increases, the duty ratio of the pulses of the pulse width modulation signal PWM of the pulse width control unit 7 is reduced. By shortening the on time of the negative (Q1) to reduce the voltage induced in the secondary coil (L2), thereby reducing the output voltage of the second direct current voltage (Vdc2) of the output of the DC voltage output unit (4) The output voltage of the second DC voltage Vdc2 is a desired voltage. On the contrary, when the output voltage of the second DC voltage Vdc2 decreases, the duty ratio of the pulse of the pulse width modulation signal PWM is increased to increase the switching unit ( The on-time of Q1) is extended and the voltage induced in the secondary coil L2 outputs a large voltage, whereby the output voltage of the second DC voltage Vdc2 has a high voltage.

In the conventional switching mode power supply, when an overvoltage is generated in the second DC voltage, the circuit of the error detector is destroyed by the second DC voltage of the overvoltage, but the pulse width control unit is operated so that the switching unit is continuously turned on. As the current rises sharply, the DC voltage of the DC voltage output unit connected to the switching transformer is rapidly increased so that all circuits operated by the supply of the DC voltage of the DC voltage output unit are destroyed.

The purpose of the present invention is to control the operation of the switching part by stopping the operation of the pulse width control part by the overvoltage protection part even if the overvoltage occurs in the DC voltage of the DC voltage output part, so that the DC voltage of the DC voltage output part is not output. The present invention provides a switching mode voltage supply device capable of protecting circuits operating by using a voltage as a power supply.

1 is a block diagram of a conventional switching mode power supply,

2 is a block diagram of a switching mode power supply of the present invention.

In order to achieve the above objects, the switching mode power supply of the present invention includes a rectifying unit, a first, a second, and a third coil, which receive an AC voltage and rectify it to output a first DC voltage. A switching transformer in which voltage is induced in the secondary and tertiary coils by the primary DC voltage induced in the receiver, and the voltages induced in the secondary and tertiary coils are received, rectified and smoothed, respectively, so that the second and third coils An error detection unit for outputting an error voltage by receiving a DC voltage output unit for outputting a DC voltage, a second DC voltage having the highest DC voltage among the outputs of the DC voltage output unit to detect an error according to the voltage value of the second DC voltage. When the first switching unit is turned on by a first resistor connected in series with the first switching unit, the first switching unit is turned on or off according to the pulse width modulation signal and the current flows through the first coil. Current A current sensing unit for outputting a current sensing voltage which is varied according to the sensed current, and a pulse width modulated signal which is driven by supply of a third DC voltage and whose duty ratio of the pulse is varied according to the error voltage and the current sensing voltage. And an overvoltage protection unit for causing the third DC voltage to have a first voltage that cannot drive the pulse width control unit when the third DC voltage rises to the reference voltage when the overvoltage occurs in the pulse width control unit and the second DC voltage. It is done.

The overvoltage protection part has an anode and a cathode, a zener diode having a cathode connected to a third direct current voltage, a second resistor and a third DC voltage having one terminal connected to the anode of the zener diode and the other terminal connected to the ground voltage, the breakdown of the zener diode And a second switching unit configured to have a first voltage that is turned on when the voltage is equal to or greater than the voltage, so that the third DC voltage cannot drive the pulse width control unit.

Hereinafter, with reference to the accompanying drawings will be described in detail the switching mode power supply of the present invention.

2 is a block diagram of a switching mode power supply of the present invention. The switching mode power supply device 10 according to the present invention receives a rectified voltage (Vin) and rectifies it to output a first DC voltage (Vdc1), the first, second, third coil (L1) Switching transformer 12 composed of L2 and L3 and induced with voltages in the second and third coils L2 and L3 by the first DC voltage Vdc1 induced in the first coil L1 The DC voltage output unit 13 receives the voltage induced in the second and third coils L2 and L3, rectifies and smoothes them, respectively, and outputs the second and third DC voltages Vdc2 and Vdc3. Receives the second DC voltage Vdc2 having the highest DC voltage among the outputs of the DC voltage output unit 13, detects an error according to the voltage value of the second DC voltage Vdc2, and outputs an error voltage Ver. In series with the first switching unit Q1 and the first switching unit Q1 which are turned on or off according to the error detection unit 14 and the pulse width modulation signal PWM to control the current flowing in the first coil L1. Connected by The current sensing unit senses a current flowing in the first coil L1 when the first switching unit Q1 is turned on by the first resistor R1 and outputs a current sensing voltage VA that is changed according to the sensed current. 15) a pulse width control unit which is driven by the supply of the third DC voltage Vdc3 and outputs a pulse width modulation signal PWM in which the duty ratio of the pulse is varied according to the error voltage Ver and the current sensing voltage VA. 16) and when the third DC voltage Vdc3 rises to the reference voltage Vzd because an overvoltage occurs in the second DC voltage Vdc2, the pulse width control unit 16 cannot drive the third DC voltage Vdc3. It consists of an overvoltage protection part 17 which has a 1st voltage V1.

The overvoltage protection unit 17 has an anode A and a cathode C, a zener diode ZD having a cathode C connected to a third DC voltage Vdc3, and one terminal of the anode of the zener diode ZD ( When the second resistor R2 and the third direct current voltage Vdc3 connected to A) and the other terminal connected to the ground voltage Vss have a voltage Vzd equal to or higher than the breakdown voltage of the zener diode ZD, the third direct current is turned on. The second switching unit Q2 is configured such that the voltage Vdc3 has the first voltage V1 which cannot drive the pulse width control unit 16.

The second switching unit Q2 is composed of a transistor having an emitter, a base, and a collector, the emitter is connected to a ground voltage Vss, the collector is connected to a third direct current voltage Vdc3, and the base is a zener diode ( Is connected to the anode A of ZD).

Operation of the switching mode power supply of the present invention according to the above configuration is as follows.

When the switching mode power supply 10 of the present invention operates normally, that is, when no overvoltage is generated in the second DC voltage Vdc2, the operation of the switching mode power supply 1 is the same as that of the conventional switching mode power supply 1. For example, when the output voltage of the second DC voltage Vdc2 increases, the duty ratio of the pulses of the pulse width modulation signal PWM of the pulse width control unit 16 decreases, so that the on time of the switching unit Q1 is shortened. The voltage induced in the secondary coil L2 is reduced, thereby lowering the output voltage of the second DC voltage Vdc2, which is the output of the DC voltage output unit 13, thereby reducing the output voltage of the second DC voltage Vdc2. On the contrary, when the output voltage of the second DC voltage Vdc2 is lowered, the duty ratio of the pulse of the pulse width modulation signal PWM is increased to lengthen the on time of the switching unit Q1, thereby increasing the second time. The voltage induced in the coil L2 outputs a large voltage, whereby the output voltage of the second DC voltage Vdc2 has a high voltage. Therefore, in the normal operation of the switching mode power supply 10, the error detection unit 14 detects an error according to the voltage value according to the second DC voltage Vdc2, which is the output of the DC voltage output unit 13, so that the error voltage ( Ver), and the pulse width control unit 16 varies the duty ratio of the pulse according to the error voltage Ver and the current sensing voltage VA to control the on time of the first switching unit Q1 to control the first time. The current flowing through the coil L1 is controlled, whereby the DC voltage output from the DC voltage output unit 13 maintains a stable voltage.

If an unwanted overvoltage occurs in the second DC voltage Vdc2, the pulse width modulated signal PWM, which is an output of the pulse width control unit 16, is first switched by the second DC voltage Vdc2 of the overvoltage. The current flowing in the first coil L1 is increased by the first DC voltage Vdc1 connected to the first coil L1 by continuously turning on the unit Q1, and the second and third coils L2 are increased. The current flowing through L3 also increases to increase the second and third DC voltages Vdc2 and Vdc3 induced in the second and third coils L2 and L3. When the third direct current voltage Vdc3 continues to increase and reaches a reference voltage equal to a voltage Vzd equal to or higher than the breakdown voltage of the zener diode ZD of the overvoltage protection unit 17, the zener diode ZD is turned on and the third direct current voltage Vdc3. ), The current flows to the base of the second switching unit Q2 including the second resistor R2 and the transistor, so that the second switching unit Q1 is turned on. Since the third DC voltage Vdc3 becomes the first voltage V1 which is the ground voltage Vss by turning on the second switching unit Q1, the pulse width control unit 16 is not driven. The output pulse width modulated signal PWM is not output and the first switching unit Q1 is turned off. Therefore, the second and third DC voltages Vdc2 and Vdc3 output from the DC voltage output unit 13 also increase the third DC voltage Vdc3 by the second DC voltage Vdc2 having an instantaneous overvoltage. By the operation of the unit 17, the third DC voltage Vdc3 has the ground voltage Vss, and the second DC voltage Vdc2 also has the ground voltage Vss, thereby outputting the DC voltage output unit 13. All circuits operated by the supply of the direct current DC voltage are not destroyed and operate normally.

The present invention is a switching mode power supply device, even if an overvoltage occurs in the DC voltage of the DC voltage output unit. It is possible to protect circuits that operate by using the DC voltage of the voltage output unit as the power supply.

Claims (5)

Rectifying means for receiving an AC voltage and rectifying it to output a first DC voltage; A switching transformer composed of first, second and third coils, the voltage of which is induced in the second and third coils by the first DC voltage induced in the first coil; DC voltage output means for receiving the voltage induced in the second and third coils, rectifying and smoothing them respectively to output second and third DC voltages; Error detecting means for receiving a second DC voltage having the highest DC voltage among the outputs of the DC voltage output means, detecting an error according to the voltage value of the second DC voltage, and outputting an error voltage; First switching means for controlling the current flowing in the primary coil on or off in response to a pulse width modulation signal; A current which senses a current flowing in the first coil when the first switching means is turned on by a first resistor connected in series with the first switching means and outputs a current sensing voltage which is varied according to the sensed current Sensing means; Pulse width control means which is driven by the supply of the third direct current voltage and outputs a pulse width modulated signal whose duty ratio of the pulse is varied in accordance with the error voltage and current sense voltage; And Overvoltage protection means for causing the third direct current voltage to have a first voltage that cannot drive the pulse width control means when an overvoltage occurs in the second direct current voltage and the third direct current voltage rises to a reference voltage Switching mode power supply characterized in that it comprises a. The method of claim 1, The reference voltage is a switching mode power supply, characterized in that the breakdown voltage of the zener diode. The method of claim 1, Overvoltage protection measures A zener diode having an anode and a cathode, wherein the cathode is connected to the third DC voltage; A second resistor having one terminal connected to the anode of the zener diode and the other terminal connected to the ground voltage; And And a second switching means for turning on the third DC voltage when the third DC voltage has a voltage equal to or higher than the breakdown voltage of the zener diode so that the third DC voltage has a first voltage which cannot drive the pulse width control means. Switched mode power supply, characterized in that. The method according to claim 1 or 3, Switching mode power supply, characterized in that the first voltage is a ground voltage. The method of claim 3, wherein The second switching means is composed of a transistor having an emitter, a base, and a collector, wherein the emitter is connected to a ground voltage, the collector is connected to the third DC voltage, and the base is Switched mode power supply, characterized in that connected to the anode of the zener diode.