JPS644311Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a ringing chiyoke converter, and more particularly to a smoke and ignition protection circuit for a ringing chiyoke converter that prevents smoke and ignition in abnormal situations.

Since the ringing chain yoke converter is self-excited, even in abnormal conditions such as damage to the elements that make up the control system to obtain the specified power, oscillation may occur unless the safety measures described below are taken. continue. If such uncontrolled oscillation continues, abnormal voltage and abnormal heat generation will occur, causing damage to the equipment or causing smoke and ignition of the equipment.

For this reason, conventionally, as a safety measure of this kind, an overvoltage protection circuit is provided at the secondary output section of the ringing choke converter, and oscillation is forcibly stopped when an abnormal voltage is detected. however,
In order to sustain the oscillation stop using this method, an external power supply source for the overvoltage protection circuit or circuit components capable of maintaining power supply are required, which has the drawback of making the structure complicated and expensive.

An object of the present invention is to provide a smoke and ignition protection circuit for a ringing chain yoke converter that is simple in construction and inexpensive.

According to the present invention, in a ringing chain converter comprising a switching transistor and an absorber circuit having a flyback suppression diode for suppressing a flyback voltage generated when the switching transistor is turned off, A varistor is inserted between the base of the transistor and the flyback suppressing diode, and the varistor detects the flyback voltage that rises during an abnormality and causes permanent damage to the switching transistor, thereby preventing the device from emitting smoke or catching fire. A smoke ignition protection circuit for a ringing choke converter is obtained, which is characterized by the following.

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a circuit diagram showing the structure of an embodiment of a ringing choke converter equipped with a smoke and ignition protection circuit according to the present invention. In the figure, 1 is a switching transistor, 20 is an absorber circuit for suppressing the flyback voltage generated when the switching transistor is turned off, and the absorber circuit 20 includes a flyback suppression diode 2, a flyback suppression capacitor 3, and a flyback suppression It is composed of a suppressing resistor 4.

In the circuit of FIG. 1, when voltage E is applied from DC voltage 18, fuse 19 and starting resistor 5
A base current I _b is supplied to the base of the switching transistor 1 through the switching transistor 1, and the switching transistor 1 is turned on. Once turned on, the switching transistor 1 is encouraged to turn on by the voltage induced in the base winding 7. Collector current flowing to the collector of switching transistor 1
I _c is I _b × h _fe (h _fe : current amplification factor of emitter grounding)
Since only the current flows, the switching transistor 1 turns off, and the voltage induced in the base winding 7, which is in positive feedback mode, drops, and the switching transistor 1 suddenly turns off. At this time, the energy stored in the transformer 8 is released to the secondary side, and after the release, the switching transistor 1 is triggered again by the ringing on the secondary side.
Switching transistor 1 is turned on.

However, after the switching transistor 1 is turned on for the second time, due to the operation of the control circuits 21 and 22, the switching transistor 1 turns off before the collector current I _c of the switching transistor 1 reaches the current value I _b × h _fe . It turns off. Figure 2 shows an example of the waveform of the excitation current (collector current) I _c , where the solid line shows the excitation current I c when the control circuits 21 and 22 are not present, and the broken line shows the excitation current I _c when the control circuits 21 and 22 are present. There is.

Figure 3 shows the output power characteristics that can be extracted from the ringing choke converter shown in Figure 1. When used as a normal power supply, the power in the shaded area is used under control by control circuits 21 and 22. are doing. Therefore, the flyback voltage generated at the cathode (point A in FIG. 1) of the flyback suppressing diode 2 of the absorber circuit 20 is usually low. The energy W at point A is expressed as W=1/2 LI _c2 (L: inductance).

However, due to damage to the components of the control circuits 21 and 22, an abnormal state occurs and the control circuits 21 and 22 are damaged.
22 stops operating, the excitation current (collector current) I _c becomes h _fe × as shown by the solid line in Figure 2.
I _b is reached, and the output characteristic of the ringing choke converter increases as shown by the broken line in FIG. Correspondingly, the potential (flyback voltage) at point A in Figure 1 also rises, and the flyback suppression capacitor 3 and switching transistor 1 generate heat, causing smoke and ignition and ringing in the equipment connected to the output of the choke converter. leading to damage.

Therefore, in the present invention, by inserting a varistor 6 between the cathode of the flyback suppressing diode 2 and the base of the switching transistor 1, as shown in FIG. When the potential at point A in FIG. 1 rises, the varistor 6 turns on (the resistance value of the varistor 6 decreases), permanently damaging the switching transistor 1. As a result, it is possible to prevent smoke and ignition and damage to equipment that uses the power source provided by the present ringing choke converter.

As is clear from the above explanation, according to the present invention,
A simple circuit configuration in which a varistor is inserted between the base of the switching transistor and the flyback suppressing diode has the effect of providing a ringing choke converter with safety measures at a low cost.

[Brief explanation of drawings]

Fig. 1 is a circuit diagram showing the configuration of an embodiment of a ringing choke converter equipped with a smoke and ignition protection circuit according to the present invention, and Fig. 2 shows excitation current waveforms with and without the control circuit shown in Fig. 1. 3 are output power characteristic diagrams of the ringing choke converter with and without control by the control circuit of FIG. 1. 1... Switching transistor, 2... Diode for flyback suppression, 3... Capacitor for flyback suppression, 4... Resistor for flyback suppression, 5... Starting resistor, 6... Varistor for safety measures, 7... Base winding Line, 8...Trans, 9...
Diode for backflow prevention at startup, 10... Resistor for base current suppression, 11... Capacitor, 12...
Base current suppression resistor, 13... Overcurrent detection resistor, 14... Fuse resistor, 15... Base stabilizing resistor, 16... Rectifier diode, 17... Smoothing capacitor, 18... DC voltage, 19... Fuse ,
20... Absorber circuit, 21, 22... Control circuit.

Claims (1)

[Scope of utility model registration request] In a ringing chain converter equipped with a switching transistor and an absorber circuit having a flyback suppression diode for suppressing the flyback voltage generated when the switching transistor is turned off, the flyback voltage that increases during an abnormality is detected. A varistor is inserted between the flyback suppressing diode and the base of the switching transistor so as to cause permanent damage to the switching transistor.