JPH0541393U - Abnormal low voltage detection circuit for switching power supply - Google Patents

Abstract

(57) [Abstract] [Purpose] It is not necessary to use a delay IC, and the cost can be reduced, the reliability is improved, and the inspection can be performed efficiently. [Structure] The low voltage detection unit 22 includes a first constant voltage diode ZD ₁ that detects an abnormally low voltage between the output terminals of the switching power supply, and a transistor Q that turns on and off in response to the first constant voltage diode ZD ₁ . The power feeding unit 25 is a diode D for rectifying and smoothing.
And a capacitor C ₁ . The delay unit 24 includes the power feeding unit 2
It is composed of a series circuit of a resistor R ₃ connected to 5 and a capacitor C _2, and the capacitor C ₂ is connected to the collector / emitter of the transistor Q of the low voltage detector 22. The protection signal generating section 23 is composed of a series circuit of a _second constant voltage diode ZD ₂ and a light emitting section LED of a photocoupler, and is connected in parallel with the capacitor C _{2 of the} delay section.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a low voltage detection circuit that detects an abnormal decrease in output voltage of a switching power supply device and sends a protection signal. More specifically, power is supplied from the switching transformer to the delay part of the resistor and the capacitor via a route different from the normal output side rectifying / smoothing circuit, and the time constant of the delay part is used to increase the power supply at the time of power-up. Relates to the abnormal low voltage detection circuit of the switching power supply that prevents the protection signal from being transmitted.

[0002]

[Prior Art]

 If the output voltage of the power supply unit falls below the rated value for some reason, the load may malfunction. Therefore, in a system that supplies power to a precise load device where this kind of malfunction causes an obstacle, a protection function is installed on the power supply side that shuts off the output of the power supply when an abnormally low voltage occurs. The abnormal low voltage protection circuit detects the abnormal decrease in the output voltage of the switching power supply and sends out a protection signal.The low voltage detection circuit receives the protection signal and stops the oscillation of the switching power supply to shut off the power supply output. It is composed of a control circuit. The problem here is that the output voltage always rises to the rated voltage through an abnormally low voltage state when the power supply rises. As a result, if only the abnormal low voltage state of the power supply output is detected, the abnormal low voltage detection circuit will operate when the power supply starts up, and the protection function will work to cut off the output. It will not come off. Therefore, when the power is turned on, the generation of an abnormally low voltage protection signal is intentionally delayed, and the output voltage is raised to the rated value during that time so that the output of the power supply is not interrupted.

An example of the conventional technique is shown in FIG. The switching power supply main body includes a switching transformer T, a main switching unit 10 provided on the primary side thereof, and a rectifying / smoothing circuit 12 provided on the secondary side. The abnormal low voltage detection circuit 30 connected to the output terminal of the power supply includes a low voltage detection unit 32, a protection signal generation unit 33, and a delay unit 34. The low voltage detector 32 includes a current limiting resistance resistor R_FourAnd constant voltage diode ZD₃And bias resistance R_FiveAre arranged in series in this order, and the bias resistor R_FiveNPN transistor Q between both ends of₁ The base and emitter of are connected. The protection signal generation unit 33 is configured with a transistor Q₁It consists of the light emitting part LED of the photocoupler inserted between the collector and the emitter of. The delay unit 34 includes a delay IC 36 and a PNP transistor Q.₂And resistance R₈, R₉ And capacitor C₃Have. The delay IC 36 has a function of outputting a signal input after a certain delay time.₈, R₉, Capacitor C ₃ Can be set arbitrarily. The delay time is generally set to several hundred milliseconds to several seconds. PNP transistor Q₂Is a transistor Q that receives the output signal from the delay IC 36.₂Also, it controls the current to the photocoupler LED.

When the output voltage of the switching power supply starts to rise, the constant voltage diode ZD ₃ is in the off state, and no current flows through the base of the transistor Q ₁ , so the transistor Q ₁ is also in the off state. On the other hand, the delay IC 36 of the delay unit detects the rise of the output voltage. At this time, the current is not immediately drawn from the base of the transistor Q ₂ , but the current is delayed until the output voltage reaches the rated value. Therefore, the base current does not flow within the delay time set by the delay unit 34, the transistor Q ₂ is in the OFF state, and the light emitting unit LED of the photocoupler does not emit light. During this time, the output voltage of the power supply rises and exceeds the rated voltage, the constant voltage diode ZD ₃ is turned on, and the base current starts to flow in the transistor Q ₁ . Exit delay time, current starts flowing from the delay IC36 to the base of the transistor Q _2, the transistor Q ₂ and the transistors Q ₁ is turned on, a current flows. Therefore, no current flows through the light emitting section LED, and the light emitting section LED does not light up. In this way, the low voltage detection circuit prevents the switching power supply from stopping its operation when the power supply rises.

After the switching power supply is turned on, the operation of the low voltage detection circuit is as follows. If the output voltage of the power source is above the rated value, the constant voltage diode ZD ₃ is turned on and Do Ri, transistor Q ₁ a current flows to the base of the transistor Q ₁ is turned on. The current from the transistor Q ₂ flows to the transistor Q ₁ , does not flow to the light emitting section LED, and does not emit light. When the output voltage of the power supply falls below the rated value for some reason, the constant voltage diode ZD ₃ is turned off and the transistor Q ₁ is also turned off. On the other hand, the transistor Q ₂ remains in the ON state, no current flows through the transistor Q ₁ , and the light emitting section LED immediately receives current and emits light. This light is input to the light receiving portion PT of the photocoupler of the control circuit 28 connected to the input side of the switching power supply. In response to this, the control circuit 28 stops the oscillation of the main switching unit 10.

[0006]

[Problems to be solved by the device]

 However, in the case of the conventional technique as described above, since the power is supplied from the output end of the power supply to the abnormal low voltage detection circuit, it is necessary to use the delay IC that operates normally even in the abnormal low voltage state. In addition, the power supply voltage to the abnormal low voltage detection circuit is affected by the output voltage of the power supply. Therefore, if the output voltage suddenly becomes a short circuit, the lighting time of the LED of the light emitting part becomes extremely short, and therefore the severe circuit Conditions are imposed, and there is a problem in terms of operation reliability. It is hard to say that the abnormal low-voltage detection circuit with the above configuration is sufficiently compatible with the demands for low cost, simplification, and high reliability of the power supply device. Are expensive and this is an obstacle.

Further, if an output short circuit occurs momentarily due to a human error or the like at the time of inspection, it immediately reacts and the oscillation of the power supply stops. Then, the power must be turned on again, which causes a problem that the inspection work takes time.

The purpose of the present invention is that the power supply voltage is established early and is stable, so there is no need to use a delay IC, the cost can be reduced, the reliability is improved, and the inspection can be performed efficiently. An abnormal low voltage detection circuit for a switching power supply is provided.

[0009]

[Means for Solving the Problems]

 The present invention is an abnormal low voltage detection circuit for a switching power supply, which includes a low voltage detection unit, a power supply unit, a delay unit, and a protection signal generation unit. The low voltage detection unit has a first constant voltage diode that detects an abnormally low voltage between the output terminals of the switching power supply, and a transistor that turns on / off in response to the first constant voltage diode. The power supply section rectifies and smoothes the AC output of the switching transformer through a path different from the rectification smoothing circuit on the power output side. The delay unit is composed of a series circuit of a resistor and a capacitor connected to the power feeding unit, and the capacitor is connected in parallel with the transistor of the low voltage detection unit, and the charge / discharge thereof is controlled. The protection signal generation section has a second constant voltage diode and a signal transmission element, and is connected in parallel with the capacitor of the delay section.

It is preferable that the abnormal low voltage detection circuit has a configuration in which the low voltage detection unit, the delay unit, and the protection signal generation unit have the relationship described below. The low-voltage detector consists of a series circuit consisting of a current-limiting resistor provided between the output terminals of the switching power supply, a first constant-voltage diode and a bias resistor, and a transistor with a base-emitter connected across the bias resistor. Become. A capacitor in the delay section is connected to the collector / emitter of the transistor, and the signal transmission element in the protection signal generating section is the light emitting section of the photocoupler, which is connected in series with the second constant voltage diode. .

[0011]

[Action]

 Immediately after the switching power supply is turned on, the power supply unit starts up first. Next, when the output voltage starts to rise, the first constant voltage diode is turned off, and the transistor is turned off because the base current does not flow. The current from the power supply section flows to the capacitor through the resistance of the delay section. Therefore, the voltage between the terminals of the capacitor rises according to the time constant of the resistor and the capacitor. Since the second voltage diode is off, the signal transmission element does not transmit the protection signal to the control circuit on the input side. The time constant of the delay unit is set so that the output voltage of the power supply rises to turn on the first constant voltage diode before the second constant voltage diode turns on. That is, until the transistor is turned on, a delay time for delaying the power supply to the protection signal generation unit is set, and the generation of the protection signal is blocked during that time. When the transistor turns on, the discharge current of the capacitor flows, the voltage between the terminals of the signal generator drops, and the signal transmission element does not generate a protection signal.

[0012]

【Example】

 FIG. 1 is a circuit diagram showing an embodiment of a switching power supply incorporating a low voltage detection circuit according to the present invention. Except for the low voltage detection circuit, the basic configuration is the same as the conventional technique shown in FIG. The main switching unit 10 switches to convert direct current into alternating current, and the switching transformer T transforms it to a predetermined voltage, and then the rectifying and smoothing circuit 12 obtains another direct current output. Here, the rectifying / smoothing circuit 12 is composed of two rectifying diodes, a coil and a capacitor.

The abnormal low voltage detection circuit 20 is incorporated in the secondary side of the switching transformer T and includes a low voltage detection unit 22, a power supply unit 25, a delay unit 24, and a protection signal generation unit 23. The low voltage detection unit 22 includes a series circuit of a current limiting resistor R ₁ , a first constant voltage diode ZD ₁ and a bias resistor R ₂ provided between output terminals of a switching power supply, and between both ends of the bias resistor R _2. It consists of a transistor Q with the base and emitter connected, and detects an abnormally low voltage between the output terminals of the switching power supply. The power feeding section 25 is composed of a rectifying / smoothing diode D and a capacitor C ₁ connected between the switching transformer T and the rectifying / smoothing circuit 12, and is connected to a switching transformer in a path different from the rectifying / smoothing circuit 12 on the power output side. AC output is rectified and smoothed. The delay unit 24 is composed of a series circuit of a resistor R ₃ and a capacitor C ₂ connected to the power feeding unit 25, and the capacitor C ₂ is connected to the collector / emitter of the transistor Q of the low voltage detection unit 22 so that the capacitor C ₂ is connected. Is controlled to delay the power supply to the protection signal generator 23. The protection signal generating section 23 is composed of a series circuit of a _second constant voltage diode ZD ₂ and a light emitting section LED of the photocoupler, is connected in parallel with the capacitor C ₂ of the delay section 24, and detects an abnormal low voltage. At the same time, a protection signal is sent to the control circuit 28 on the input side.

Immediately after the switching power supply is turned on, the power supply unit 25 first rises and the inter-terminal voltage V _A of the capacitor C ₁ rises. Next, the output voltage V _out begins to rise, the first constant voltage diode ZD ₁ is turned off until the rated voltage is reached after passing through the abnormally low voltage state, and the transistor Q is turned off because the base voltage does not flow. .. The current from the power supply section 25 flows through the resistor R ₃ to the capacitor C ₂ . Therefore, the voltage across the delay capacitor C ₂ rises according to the time constant of the resistor R ₃ and the capacitor C ₂ . Next, the voltage V _B between the terminals of the capacitor C ₂ rises. Since the second constant voltage diode ZD ₂ is in the off state, the light emitting portion LED of the photocoupler does not emit light and the protection signal is not transmitted to the control circuit 28. The time constant of the delay unit 25 is set so that the output voltage of the power supply rises and the first constant voltage diode ZD ₁ is turned on before the second constant voltage diode ZD ₂ is turned on. That is, a delay time for delaying the power supply to the protection signal generation unit 23 is set until the transistor Q ₁ is turned on, and the protection signal generation is blocked during that time. If the transistor Q is turned on, the flow discharge current of the capacitor C _2, decreases the terminal voltage V _B of the capacitor C _2, the light emitting unit LED is not be issued light.

After the output voltage of the switching power supply rises, the abnormal low voltage detection circuit 20 operates as follows. When the output voltage V _{out of the} power supply reaches the rated voltage, the first constant voltage diode ZD ₁ is turned on, and the base current flows through the transistor Q. The transistor Q is turned on, and the voltage V _B between the terminals of the capacitor C ₂ is lowered to a value close to about 0V. Therefore, the second constant voltage diode ZD ₂ of the protection signal generating section 23 is turned off, and no current flows in the light emitting section LED, which naturally does not emit light. When the output voltage V _{out of the} power supply drops and falls below the rated value, the constant voltage diode ZD ₁ turns off, the base current does not flow, and the transistor Q ₁ also turns off. Therefore current flows into the capacitor C _2, the inter-terminal voltage V _B of the capacitor C ₂ reaches the elevated second rated voltage of the constant voltage diode ZD ₂ according time constant. The constant voltage diode ZD ₂ is turned on, and the light emitting part LED of the photocoupler emits light. This protection signal is input to the light receiving unit PT of the photocoupler of the control circuit 28, and the control circuit 28 is operated to stop the oscillation of the main switching unit 10.

There is a case where the output side is momentarily short-circuited due to a human error or the like during the inspection. At this time, it is desirable not to stop the power supply, and it is not necessary to restart the power supply, so that the inspection time can be shortened. When the output voltage drops, the transistor Q is turned off as described above, but the current once flows to the delay capacitor C ₂ and does not flow to the signal generator. In this way, if the output voltage recovers within the delay time during which the delay section is operating, it is not necessary to stop the operation of the power supply.

[0017]

[Effect of the device]

 As described above, the present invention has the power feeding section for rectifying and smoothing the AC output of the switching transformer through a path different from the rectifying and smoothing circuit on the power output side, so that the power feeding voltage is established early and stable. Therefore, by using the time constant of the resistor and the capacitor, it is not necessary to use the delay IC, and the cost can be reduced and the reliability can be improved. Also, if an output short-circuit occurs momentarily due to human error during inspection, the power will not be stopped within the delay time, and it is not necessary to restart the power supply. Can be shortened and work efficiency is improved.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of a switching power supply incorporating a low voltage detection circuit according to the present invention.

FIG. 2 is a circuit diagram showing an example of a switching power supply incorporating a conventional low voltage detection circuit.

[Explanation of symbols]

20 Abnormal Low Voltage Detection Circuit 22 Low Voltage Detection Section 23 Protection Signal Generation Section 24 Delay Section 25 Power Supply Section R ₁ Current Limiting Resistance ZD ₁ First Constant Voltage Diode R ₂ Bias Resistance Q Transistor ZD ₂ Second Constant Voltage Diode LED Light emitting part C ₂ capacitor R ₃ resistor

Claims (2)

[Scope of utility model registration request] 1. A low voltage detector having a first constant voltage diode for detecting an abnormally low voltage between output terminals of a switching power supply and a transistor for turning on / off in response thereto, and a rectifying / smoothing circuit on the power output side. Is composed of a power feeding unit for rectifying and smoothing the AC output of the switching transformer through another path, and a series circuit of a resistor and a capacitor connected to the power feeding unit, the capacitor being connected in parallel with the transistor of the low voltage detecting unit. A delay unit whose charging and discharging is controlled,
An abnormal low voltage detection circuit for a switching power supply, comprising a second constant voltage diode, a signal transmission element, and a protection signal generation section connected in parallel with the capacitor of the delay section. 2. The low voltage detector connects a current limiting resistor provided between output terminals of a switching power supply, a series circuit of a first constant voltage diode and a bias resistor, and a base / emitter connected between both ends of the bias resistor. It consists of a transistor
A capacitor of a delay unit is connected to the collector / emitter of the transistor, and a signal transmission element of the protection signal generation unit is a light emitting unit of a photocoupler, which is connected in series with a second constant voltage diode. The abnormal low voltage detection circuit according to item 1.