JPS598477A - Power supply device - Google Patents

Abstract

PURPOSE:To obtain an inexpensive power supply device, by providing a switching transistor (TR), a resistor and a diode for attaining the switching of a controlled rectifier of a stabilizing circuit. CONSTITUTION:The switching TR12, the resistor 21 and the diode 22 are provided additionally. When a signal to turn off the power supply with a remote control is applied, the TR24 is turned on. As a result, the TR12 turns off and a TR15a in a trigger pulse generator 15 is turned off and no trigger signal is generated. Thus, the control rectifier 11 is turned off and the power supply is disconnected. When a signal to apply the power supply with the remove control in this state is given, the TR24 turns off, the TR12 turns on and the diode 22 is cut off. As a result, a trigger pulse is applied to a gate of the control rectifier 11, and the power supply is applied. Thus, the inexpensive power supply is obtained in this way.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF INDUSTRIAL APPLICATION The present invention relates to a power supply device that can turn on and off the power of electrical equipment such as a television receiver by remote control.

Configuration of the conventional example and its problems Figure 1 shows a power supply circuit in the conventional example, in which a signal received from a remote control signal is applied to terminal 1, transistor 2 is made conductive, current is passed through relay 3, and switch 4 is closed. DC voltage is taken out from output terminal 5.

This circuit requires driving a relay to turn on and off the power, which has the disadvantage of increasing costs. FIG. 2 shows another conventional example, in which a controlled rectifier 7 is connected between the rectifier circuit 6 and the ground.
A signal based on the remote control signal is applied to the control rectifier 7 to turn the power on and off. This circuit also has the disadvantage of high cost since it requires a specially controlled rectifier.

OBJECTS OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned drawbacks and provide an inexpensive power supply device.

Structure of the Invention The present invention connects a DC power supply terminal to one end of a control rectifier via a winding of a flybank transformer (1), smoothes the output of this control rectifier to a DC voltage, and detects fluctuations in this DC voltage (2). and applying the trigger pulse to the gate of the controlled rectifier to control the conduction angle of the controlled rectifier to stabilize the DC output, and connect the DC power terminal to the collector of the switching transistor. The emitter of the transistor is connected to the gate of the controlled rectifier, and the base of the switching transistor is connected to the gate of the controlled rectifier.
A resistor is connected between the collectors, and the base of the transistor is connected to the circuit that generates the trigger pulse via a diode, and the base of the switching transistor is grounded via a switching element, and the switching element is made conductive to perform the switching. The transistor is cut off, and the above-mentioned diode is made conductive so that the above-mentioned trigger pulse is not generated and the power supply circuit is turned off. It is possible to obtain an inexpensive device.

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

As shown in FIG. 3, an output terminal 8 of a power supply circuit 1 for rectifying and smoothing a commercial AC power supply voltage is connected to an anode of a control rectifier 11 and a collector of a switching transistor 12 via a winding 10 of a flywheel transformer 90. .

The cathode of the controlled rectifier 110 is grounded via the smoothing capacitor 13, and a DC voltage is available at the output terminal 14. In order to stabilize the DC voltage of this output terminal 14, the trigger
A pulse generation circuit 16 generates a trigger pulse, which is applied to the gate of the control rectifier 11 via a capacitor 16 to control the conduction angle.

The emitter of the switching transistor 12 is a resistor 1
7. Diode 18. It is connected to the gate of the controlled rectifier 11 via Zener diodes 19,20. Further, a bias resistor 21 is connected between the base and collector of the transistor 12, and a diode 22 is connected between the base of the transistor 12 and the trigger pulse generation circuit 15.

Furthermore, the collector of a transistor 24, which is a switching element present in the receiver 23 that receives the remote control signal, is connected to the base of the transistor 12, and its terminal is connected to the ground.

When a DC voltage is generated in the power supply circuit 8, this voltage is applied to the winding 1.
0 to the anode of the controlled rectifier 11. At this time, the transistor 12 is turned on, so the controlled rectifier 1
A voltage is also applied to the gate of 1, and the controlled rectifier 11 becomes conductive. As a result, a DC voltage is generated in the capacitor 13, causing the horizontal oscillation circuit to operate and winding 1 of the flyback transformer 9 to
A negative pulse force is generated at 0. This Noculus turns off the controlled rectifier 11. Still, a trigger pulse is generated in the trigger pulse generation circuit 16, and this
J-controlled rectifier 11 becomes conductive. The timing of this conduction is controlled by the timing of generation of the trigger pulse.

Now, when a signal is sent by remote control to turn off the power, the transistor 24 turns on. As a result, the transistor is also turned off, and the trigger pulse generation circuit 15 is also turned off.
The transistor 16a inside is also turned off and no trigger signal is generated, and no signal is applied to the gate of the controlled rectifier 11, so the controlled rectifier 11 is turned off and the power is turned off. In this state, when a signal is sent to turn on the power by remote control, the transistor 24 is turned off, and as a result, the transistor 12 is turned on, the diode 22 is cut off, and a trigger pulse is applied to the gate of the control rectifier 11. state. As a result, the power supply is turned on.

Effects of the Invention As described above, according to the present invention, the control rectifier of the stabilization circuit can be turned on and off by simply adding one switching transistor, one resistor, and one diode, so an inexpensive power supply device can be obtained. It is something.

[Brief explanation of the drawing]

FIGS. 1 and 2 are circuit diagrams of a conventional power supply device, and FIG. 3 is a circuit diagram of a power supply device according to an embodiment of the present invention. 8...Power supply circuit, 9...Flyback transformer, 1o...Winding, 11...Control rectifier, 12...Switching transistor, 2
1...Resistance, 22...Diode, 2
4...Transistor, 16...Trigger pulse generation circuit. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
figure? Figure 2

Claims (1)

[Claims] The DC power terminal is connected to one end of a control rectifier via the winding of the flybank transformer, the output of this control rectifier is smoothed to a DC voltage, the fluctuation of this DC voltage is detected to create a trigger pulse, and this trigger A pulse is applied to the gate of the controlled rectifier to control the conduction angle of the controlled rectifier to stabilize the DC output, the DC power supply terminal is connected to the collector of a switching transistor, and the emitter of the transistor is connected to the Connect to the gate of the controlled rectifier,
A resistor is connected between the base and collector of the switching transistor, and the base of the transistor is connected via a diode to the circuit that generates the trigger pulse, and the base of the switching transistor is connected to ground 1 via a switching element. A power supply device characterized in that the switching transistor is cut off by being made conductive, and the diode is made conductive so that the trigger pulse is not generated.