JPS59148525A - Switching power source - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a switching power supply IT in which a switch connected to the input side is tripped by an output voltage detection circuit signal to stop the device.

Conventionally, when a current exceeding a rated value flows in a switching power supply device, the current signal is detected and the current is controlled by a control circuit. If a sudden overcurrent flows due to a load short circuit, etc., a current is forced to flow through the 1/- force on the AC input side of the device to cause a trip, but in this case, the circuit configuration However, it has the drawbacks of being complicated and making the device larger.

The present invention aims to eliminate these conventional drawbacks and provide a power supply device that quickly responds to overcurrent with a simple circuit. In a switching power supply device, an overcurrent detection circuit operated by a signal from an input current detection circuit is connected to the control circuit together with a control power supply voltage circuit through a diode, and the switching element is activated by a signal from the overcurrent detection circuit. The device is characterized by being turned off to stop the device.

Embodiments of the present invention will be described below based on the drawings. 1st
The figure is a configuration diagram of the device, where l is an AC input switch,
2 is a rectifier, 3 is a smoothing circuit, 4 is an input current detection circuit for current limiting, 5 is a transformer, 6 is a rectifier/flywheel diode, 7 is a smoothing circuit, 8 is a load, 9 is an overcurrent detection circuit,
10 is a timer circuit, 11 is a control circuit, 12 is a switching element, 13 is a control power supply voltage circuit, 14 is an output voltage detection circuit, and 15 is an AC input terminal.

In this device, when the AC input switch 1 is closed, the AC current applied to the AC input terminal 15 is rectified by the rectifier 2, and then turned on by the control circuit 11.

By the switching element 12 which is repeatedly turned off,
An alternating current flows through the primary side of the transformer 5, is induced to the secondary side, is rectified again by the rectifier/flywheel diode 6, and is supplied to the load 8. During this time, the input current is detected. A circuit 4 monitors the input current and provides droop characteristics to the device. For example, when a load is short-circuited, an overcurrent flows through the switching element, and the overcurrent detection circuit 9 connected to the input current detection circuit 4 operates, operating the timer circuit 10, and controlling the control circuit 11 for the set time. Then, a signal is sent to turn off the switching element 12, and the device is stopped. During this time, the output voltage detection circuit 14 trips the AC input switch to completely stop the device.

FIG. 2 shows a circuit diagram of a main part of an embodiment. The input current detection circuit 4 detects the current flowing through the transistor 12, which is a switching element, using an alternator, rectifies it, and converts it into a DC voltage signal. Its output is the current control terminal 11- of the switching regulator control ICII which is the control circuit.
an overcurrent detection circuit 9 consisting of a comparator and sent to
sent to. The overcurrent detection circuit 9 is connected to the timer io, and is connected to the switching regulator control IC1l.
It is connected to the soft start-dead time adjustment terminal 11-b. This connection is connected via DIXDz with the control power supply voltage circuit 13 that detects a decrease in the control power supply voltage, thereby forming a diode OR circuit.

When an overcurrent flows through the transistor 12, the overcurrent detection circuit 9 is activated by the output of the input current detection circuit 4, turns off the transistor 12 for the time set by the timer 10, and trips the AC input switch during that time. , which stops the device.

Figure 3 is a graph showing the IA ratio of load current and input current.
The current limit setting value corresponds to M at the N1 overcurrent setting point. When the load current increases and reaches point a, the current is limited.

Furthermore, when the load current increases, the input current changes as shown by the solid line, and when the load current reaches point C and the input current reaches point M, the switching element is turned off by the overcurrent detection circuit.

When the input current increases faster than the response speed of the control circuit, such as due to a load short circuit, the load current reaches point B as shown by the dashed line, and when the input current reaches point M, the switching element Turn off.

In the above embodiment, the timer is used to ensure that the switching element is turned off even if there is an instantaneous load short circuit.

As described above, in the present invention, the signal of the input current detection circuit for current control is also used as an overcurrent detection signal, and the switching element can be turned off simply by using the signal as an existing control power supply voltage drop signal and a diode OR circuit. , the circuit is simple,
Moreover, it has the effect of speeding up the response to overcurrent.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention, FIG. 2 is a main circuit diagram, and the third section is a graph showing the relationship between load current and input current. 1... AC input switch, 4... Input current detection circuit,
9... Overcurrent detection circuit, 10... Timer circuit (timer), 11... Control circuit (ICI for switching regulator control, 12... Switching element, (transistor), 13
...Control power supply voltage circuit, 14...Output voltage detection circuit, Di, D2...Diode. Patent applicant: Furukawa Battery Co., Ltd. Representative Patent attorney: Hideaki Sato

Claims (1)

[Claims] In a switching power supply device that can stop the device using an output voltage detection circuit signal, an overcurrent detection circuit that operates based on an input current detection circuit signal is connected to the control circuit together with a control power supply voltage circuit through a diode. hand,
A switching power supply device characterized in that a signal from an overcurrent detection circuit turns off a switching element to stop the device.