KR890005909Y1 - Switching power supply - Google Patents

Abstract

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Description

Protection circuit of switching power supply

1 is a start circuit of a conventional switching power supply.

2 is a protection circuit of a switching power supply according to the present invention.

* Explanation of symbols for main parts of the drawings

1,4: rectifier 2,5: switching controller

3,6: secondary rectifier Q ₁ to Q ₅ : transistor

R ₁ to R ₇ : resistance C ₁ to C ₄ : condenser

D ₁ to D ₄ : Diode ZD ₁ to ZD ₂ : Zener Diode

T ₁ ~ T ₂ : switching transformer

The present invention relates to a starting circuit of a switching power supply. In particular, the starting circuit continues to operate even at the load side short of the power supply circuit, so as to prevent the risk of fire and damage to the device caused by overheating. It's about a circuit.

In the starter circuit of the conventional switching power supply, there is no problem during start-up, but after starting, the starter circuit continues to operate even if the load side of the switching power supply circuit is overloaded or shorted. Was caused.

Accordingly, the present invention has a purpose to prevent the risk of damage and fire of the device caused by overheating by configuring a simple circuit at the base end of the starting transistor to improve the above problems.

A conventional circuit configuration will be described as shown in FIG. 1 as follows. The output terminal of the rectifier 1 to which AC power is applied is grounded through the electrolytic capacitor C ₁ , and is connected to the ground terminal through the connection of the resistor R ₁ and the zener diode ZD ₁ and the zener diode ZD _1. ) of cache sew lifting is connected to the base of startup transistor (Q ₁₎ for the collector terminal of the start-up transistor (Q ₁₎ for being connected to an output terminal of the rectifying section (1) via a resistor (R ₂₎ in addition, the switching transformer (T ₁ ) is connected to _one end of the primary coil (n ₁ ) and its emitter end is grounded through the diode (D ₁ ) and the electrolytic capacitor (C ₂ ), the cathode of the diode (D ₁ ) is the switching control unit It is connected to the power supply (VCC) of (2) and is connected to _one end of the secondary side coil (n ₂ ) of the switching transformer (T ₁ ) via the diode (D ₂ ), the output terminal of the switching control unit (2) is a switching transistor ( connected to the base of Q ₂₎ and the ground contact teodan emitter of the switching transistor (Q ₂₎ The collector end thereof is connected to the other end of the primary coil n ₁ of the switching transformer T ₁ , and both ends of the secondary side coil n are connected to the DC output terminal via the secondary side rectifier 3.

Referring to the description of the operation of the circuit configuration as shown in FIG. 1, the rectifier 1 to which AC power is applied rectifies it and filters the switching transformer by filtering it with an electrolytic capacitor C ₁ connected to its output terminal. It is applied to the collector terminal of the switching transistor Q ₂ via the primary coil n ₁ of (T ₁ ).

By setting the voltage to be supplied to the power supply (VCC) of the rectifying the filtered voltage (B ⁺⁾ in accordance with the resistance (R ₁₎ and the zener diode switching controller (2) to (ZD ₁₎ for power-transistor (Q ₁₎ for When applied to the base terminal, the starter transistor Q ₁ is driven to supply the rectified filtered voltage B ⁺ to the power supply VCC of the switching controller 2 via the resistor R ₂ and the diode D ₁ . do.

At this time, when the switching control unit 2 receives the applied voltage and applies a switching pulse to the base terminal of the switching transistor Q ₂ on / off, the voltage is applied to the secondary coils n ₂ and n _{3 of} the switching transformer T ₁ . The voltage induced and induced in the secondary coil n ₃ is supplied to the load side via the secondary rectifier 3, and the voltage induced in the secondary coil n ₂ is passed through the diode D ₂ to the electrolytic capacitor C. ₂ ) to cut off the voltage supplied from the starter circuit, and the above voltage is supplied to the power supply VCC of the switching control unit 2 to turn on / off the switching transistor Q ₂ . You will get However, if any abnormality occurs on the load side of the circuit and the short state occurs, the voltage is not induced to the secondary coil n ₂ of the switching transformer T ₁ , so that the start-up circuit continues to operate, and the component is damaged due to continuous heat. Of course, there was a problem causing fire.

Therefore, the circuit configuration of the present invention that improves the above problems will be described as shown in FIG.

The output terminal of the rectifier 4 to which AC power is applied is grounded through an electrolytic capacitor C ₃ , and is connected to the ground terminal through a resistor R ₃ and a zener diode ZD ₂ , and the resistor R ₃ . The connection point of the zener diode ZD ₂ is connected to the collector terminal of the blocking transistor Q ₄ via the diode D ₃ , and is connected to the base terminal of the starting transistor Q ₃ . The base end of Q ₄ ) and the starting transistor Q ₃ are connected to the output end of the rectifying unit 4 via resistors R ₄ and R _5, respectively, and the primary coil n ₁ of the switching transformer T ₂ . Is connected to one end, and the emitter terminal of the starting transistor Q ₃ is connected to the base terminal of the blocking transistor Q ₄ via a resistor R ₆ , and is also connected to the base terminal of the switching transistor 5 through a resistor R ₇ . is connected to the power supply (VCC), the emitter of the cut-off teodan transistor (Q ₄₎ is for connection to one end of the resistor (R ₇₎ die Wood is connected (D ₄₎ for through switching transformer (T ₂₎ is connected to one end of a secondary side coil (n ₂₎ of the ground through the cavity-and-sew lifting capacitor (C ₄₎ of the diode (D _4), the switching transformer ( The other end of the primary coil n ₁ of T ₂ ) is connected to the collector end of the switching transistor Q ₅ , the emitter end of the switching transistor Q ₅ is connected to the ground end, and the base end thereof is an output end of the switching controller 5. And both ends of the secondary coil n ₃ are connected to the DC output terminal via the secondary rectifier 6.

The operation description according to the above-described circuit configuration will be described in detail as shown in FIG. 2 as follows.

The rectifier 4 to which AC power is applied is rectified and smoothed by an electrolytic capacitor C ₃ connected to the output terminal thereof so that the smoothed voltage B ⁺ is applied to the primary coil n ₁ of the switching transformer T ₂ . The smoothed voltage B ⁺ is applied to the starting transistor Q by setting a reference voltage to be supplied to the power supply VCC of the switching control unit 5 by the resistor R ₃ and the zener diode ZD ₂ . _When applied to the base end of ₃ ), the starting transistor Q ₃ is driven to be supplied to the power supply VCC of the switching controller 5 via the resistor R ₅ and the resistor R ₇ .

The switching controller 5 applies a switching pulse to the base terminal of the switching transistor Q ₅ by the supplied voltage to turn on / off the switching transistor Q ₅ so that the secondary coil n ₂ of the switching transformer T ₂ is applied. voltage is induced at (n ₃ ). The voltage induced in the secondary coil n ₂ of the switching transformer T ₂ is rectified by the diode D ₄ and smoothed by the electrolytic capacitor C ₄ so that the emitter voltage of the starting transistor Q ₃ is increased so that the starting The transistor Q ₃ is turned off and the voltage supplied is cut off and continues to be supplied by the induced voltage to the secondary coil n ₂ . If an overload occurs due to an abnormality in the load side connected to the secondary coil n ₃ of the switching transformer T ₂ , or the short circuit occurs, no voltage is induced in the secondary coil n ₂ . The circuit becomes overheated and the on time of the switching pulse becomes large in the controller ₅ , and as the base drive current of the switching transistor Q ₅ increases, the current of the starter circuit also increases, so that the circuit becomes more heated. do. However, the current supplied through the power-transistor (Q ₃₎ for a start-up circuit is the voltage across when the potential difference between the current flows and over which blossomed by a current proportional to flow to both ends of the resistor (R ₇₎ is a transistor block (Q ₄₎ The potential difference occurs over the base of the emitter and the voltage of the emitter (V _BE ), thereby driving the blocking transistor Q ₄ to cut off the base drive current of the starting transistor Q ₃ , so the starting transistor Q ₃ is turned off. To prevent the circuit from overheating.

Therefore, the present invention constitutes a simple circuit at the base end of the starter transistor Q ₃ to cut off the starter circuit which is overloaded at the load side or is driven at short circuit, thereby preventing heat generation of the circuit and preventing damage to components and generation of fire. It provides the stability and reliability by the smooth operation.

Claims (1)

Through the rectifying unit 4, the voltage B ⁺ smoothed by the electrolytic capacitor C ₃ is set to the resistor R ₃ and the zener diode ZD ₂ , and the switching control unit 5 is controlled through the starting transistor Q ₃ . ) And a DC output via the secondary rectifier 6 connected to the secondary coil n ₃ of the switching transformer T ₂ , in which a resistor is applied to the emitter terminal of the starting transistor Q ₃ . It connects the R ₇₎ drives the blocking transistor (Q ₄₎ for detecting a current is connected to the base of startup transistor (Q ₃₎ for which is supplied via the power-transistor (Q ₃₎ for the transistor for the power (Q ₃₎ The protection circuit of the switching power supply, characterized in that configured to protect the circuit when the load is short by preventing the current supplied through.