JPH02237429A - Overvoltage protector - Google Patents

Abstract

PURPOSE:To prevent overvoltage from being generated for a long time by stopping a switching drive circuit with an overvoltage detecting circuit provided at the output terminals of a switching direct current power unit. CONSTITUTION:A direct current power source is changed into an alternating current with a switching transistor 5, transformed with a transformer 3, rectified, and supplied to leads 16, 17, 18. If the output voltage is higher than regulated, Zener diodes 19, 21, 23 provided at the output terminals turn on, and a transistor 27 turns on. Accordingly, a photocoupler 29 operates, sends a signal to an oscillating drive circuit 4, and stops the oscillation.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an overvoltage protection device such as a DC voltage generator using a switching method or the like. 2. Description of the Related Art An example of a circuit of a DC power supply device using a conventional switching method is shown in FIG.

In FIG. 2, a DC voltage 2 is input to a power input terminal l, and is input to the primary winding of a switching transformer 3, and the collector of a switching output transistor 5 is connected to the other end of the primary winding. , a drive signal is supplied to the base from an oscillation/drive circuit 4. A rectifier diode 7 is connected to the secondary terminal of the switching transformer 3, respectively.
, 9.11 and smoothing capacitor 8. 10. 12 are connected, each rectifying and smoothing the voltage generated in the transformer and outputting multiple DC voltages. This DC voltage is also applied to each output terminal 13, 14. 15 and the respective loads 16, 17. 18 is being driven.

Problems to be Solved by the Invention In the conventional multi-output switching DC power supply device described above,
Depending on the load condition (full load open or any load open), overvoltage may occur in the output voltage and parts may be destroyed (withstand voltage exceeded). The present invention solves the above-mentioned problems, and aims to prevent overvoltage from occurring for a long time.

Means for Solving the Problems In order to achieve the above object, the present invention provides a switching direct iJ.
A Zener diode is connected to the DC voltage output terminal of the Titia device. resistance. An overvoltage detection circuit is constructed by combining diodes, and the overvoltage detection signal of this circuit is used to generate switching oscillation.
This prevents overvoltage from occurring for a long time by stopping the drive signal of the drive circuit and stopping oscillation.

Effect of the present invention With the above configuration, an overvoltage detection circuit is provided at the output terminal of the switching DC power supply, and when the output voltage becomes higher than the normal voltage, the overvoltage detection circuit operates and stops the generated voltage. It protects parts from destruction.

Example FIG. 1 shows a circuit diagram of an embodiment of the present invention.

In the figure, a DC voltage 2 is input to a DC voltage input terminal 1 of a multi-output type (three outputs in the illustrated example) switching DC power supply device, and is manually applied to the primary winding of a switching transformer 3. The collector of the switching output transistor 5 is connected to the other end of the t-order winding of the switching transformer 3. A drive signal is supplied from the oscillation/drive circuit 4 to the base of the switching output transistor 5, and its emitter is grounded. A diode 7 and a capacitor 8 for rectifying and smoothing the voltage generated in the switching transformer 3 are connected to one of the plurality of secondary winding terminals of the switching transformer 3, and the voltage is converted into a DC voltage and output terminal. 13 and load l
DC voltage is supplied to 6. The other secondary winding terminals are configured in the same way, and are converted into DC voltage by rectifier diodes 9, 11 and smoothing capacitors 10, 12, and output from the output terminal 1415 to the load 17. DC voltage is supplied to 18.

Each of the above output terminals 13, 14. A Zener diode 19.15 is used as a circuit for detecting overvoltage. 21. 2
3 and resistance 20. 22. 24 are combined in series, respectively, and 20. 22. The terminals not connected to the Zener diodes 1921 and 23 of 24 are connected in common, and the diodes 25. 26 are connected in series in the forward direction and grounded.

The voltage detected by the overvoltage detection circuit is transferred to the transistor 27.
The signal is supplied to the base of the transistor 27 through a resistor and amplified by the transistor 27. The output terminal 15 is connected to the anode of a photocoupler 29 on the diode side via a resistor 28, and the cathode of this diode is connected to the collector of the transistor 27. Further, the emitter on the transistor side of the photocoupler 29 is grounded, and the collector is connected to the oscillation/drive circuit.

This photocoupler 29 allows the operation of the oscillation/drive circuit 4 to be controlled.

In the above configuration, the voltage of the output terminal 13 is
．． Zener voltage of Zener diode l9■. 4. The voltage at point A is ■. If (Zener voltage vna≧■2;
The Zener voltage is set to a value equal to or close to each output voltage (slightly larger voltage), and each output terminal 13. 14. When a normal voltage is output to the photocoupler 15, no voltage is generated at the point A, the transistor 27 is in a cant-off state, and no current flows through the photocoupler 29. Next, when the voltage at the output terminal 13 increases (VD4<VZ) due to, for example, the load 16 being open, current flows through the Tuner diode 19 and a voltage is generated at point A. When this voltage is amplified by the transistor 27, a current flows through the photocoupler 29, controlling the oscillation/drive circuit 4, stopping oscillation, and stopping voltage generation. This prevents overvoltage from occurring for a long time, which prevents parts such as capacitors from being destroyed due to withstand voltage.

Other output terminals 14. The same holds true when the output voltage of No. 15 increases.

Effects of the Invention As described above, according to the present invention, a Zener diode is connected to the output terminal of a switching power supply, and when an overvoltage occurs in a no-load state, the current voltage is detected and the switching drive circuit section is It is possible to prevent damage to components due to abnormal voltage by feeding the power bank to the motor, stopping its oscillation, and preventing the generation of output voltage.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of an overvoltage protection device according to an embodiment of the present invention, and FIG. 2 is a conventional circuit diagram. ■...Power supply terminal, 2...DC power supply, 3...Switching transformer, 4...
・Oscillation/drive circuit, 5...Sinoting output transistor, 7, 9, 1... Rectifier diode,
8. 10. 12... Capacitor, 13.
14. 15...Output terminal, 16, 17.
18...Load, 19, 21. 23...
...Zener diode, 25. 26...Diode, 27...Transistor, 29...
...Photo coupler.

Claims (1)

[Claims] DC-DC that inputs DC voltage and generates multiple voltages
In a converter type switching DC power supply,
A series circuit consisting of a Zener diode that operates at a voltage equal to or close to each output voltage value and a resistor that limits the current is connected to each output terminal, and the other ends of each resistor are connected in common and connected through the diode. At the same time, the connection point between the resistor group and the diode is connected to the base of the transistor via a second resistor, and one terminal among the plurality of output terminals is connected to the anode of the diode of the photocoupler via the resistor. and connect the cathode to the collector of the above transistor,
The emitter of the transistor side of the above photocoupler is grounded, and the collector side is connected to the oscillation of the above switching DC power supply.
When the output voltage of the switching DC power supply becomes higher than a certain value, the Zener diode, transistor, and photocoupler are activated to control the oscillation/drive circuit and stop its output. overvoltage protection device.