JPH0330893Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention can be operated using either an AC power supply or a battery power supply. The present invention aims to provide a power supply device for television receivers and the like that can reduce power consumption.

Currently, with the spread of portable VTRs, there are many opportunities to use television receivers and monitor TVs outdoors, and making them smaller and more energy efficient has become a major issue.

However, in conventional television receivers, etc., the horizontal oscillation circuit is first operated with a DC power supply, and the flyback pulses are rectified and smoothed to obtain high voltage power, so the power supply for operating the horizontal oscillation circuit is A low voltage (generally 12V) is supplied through a voltage drop resistor from the main power line (generally 115V), which starts up at the same time as the TV's power switch is turned on, and the power loss due to this resistance is large. On the other hand, when a television is operated by a car battery or the like, it is a major issue to reduce power loss within the television.

Therefore, the purpose of this invention is to provide a device that solves the above-mentioned problems.A thyristor is connected together with a voltage drop resistor to the power supply line to a load circuit that operates at low voltage such as a horizontal oscillation circuit.
When operating a device using an external DC power source such as a car battery, the power loss due to the resistance is reduced, thereby reducing the power consumption of the device.

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

In the figure, 1 is an AC power supply circuit that rectifies and smoothes an AC power supply (AC100V) to generate a DC voltage (DC115V). It consists of Reference numeral 5 denotes a DC power supply circuit that generates high voltage (DC 115V) and low voltage (DC 12V) DC voltage from a DC power supply from a battery 6, and is composed of a power switch 7 and a DC-DC converter 8.

Then, the DC voltage from the AC power supply circuit 1 is directly applied to the image receiving circuit 9, which is the first load circuit that operates at high voltage, and the n-gate PUT (Programmable Unijunction Transistor: hereinafter simply abbreviated as thyristor) 10 The voltage is supplied to a horizontal oscillation circuit 12, which is a second load circuit, which operates at a low voltage, through a voltage drop resistor 11 and a voltage drop resistor 11. A trigger pulse is applied to the gate of this thyristor 10 from a rectifier diode 3 in the AC power supply circuit 1 via a resistor 13. 14 is a resistor for stabilizing the operation. On the other hand, the high DC voltage from the DC power supply circuit 5 is supplied to the image receiving circuit 9 via the diode 15, and the low DC voltage is supplied to the horizontal oscillation circuit 12 via the diode 6.

With this configuration, when operating with an AC power source, when the power switch 2 is turned on, a DC voltage is supplied from the AC power source circuit 1 to the image receiving circuit 9, and at this time, the thyristor 10 is triggered and conductive, and the resistor 11 The stepped down low DC voltage is supplied to the horizontal oscillation circuit 12. At this time, resistor 11
A power loss of about 1 to 2 W occurs in the
Since it uses AC power, there are no problems. Further, at this time, the DC power supply circuit 5 is not operating because the battery 6 is not connected to the television and the power switch 7 is disconnected, so the diodes 15 and 16 are in a cut-off state.

On the other hand, when operating with the battery 6, when the power switch 7 is turned on, a high DC voltage is supplied from the DC power supply circuit 5 to the image receiving circuit 9 via the diode 15, and a low DC voltage is supplied via the diode 16. and supplies it to the horizontal oscillation circuit 12. At this time, the AC power supply circuit 1 is not operating because the AC power supply plug is unplugged or the power switch 2 is cut off, so the thyristor 1
No trigger pulse is applied to 0 and this thyristor 10 remains in the cut-off state. Therefore, during this DC operation, power loss due to the resistor 11 does not occur, and power consumption during operation by the battery 6 can be reduced.

In the above embodiments, the case of a television receiver has been described, but the present invention can be widely used in various other devices.

As described above, according to the present invention, a device that uses an AC power supply and a battery can reduce power consumption during battery operation and extend the operating time using a simple circuit. That's what you get for the cost.

[Brief explanation of the drawing]

The figure is a circuit diagram of a power supply device according to an embodiment of the present invention. 1...AC power supply circuit, 5...DC power supply circuit, 6
... Battery, 9 ... Image receiving circuit, 10 ... Thyristor, 11 ... Step-down resistor, 12 ... Horizontal oscillation circuit, 13 ... Trigger resistor, 15, 16 ... Diode.

Claims (1)

[Claims for Utility Model Registration] (1) A first load and a second load that operates at a voltage lower than the operating voltage of the first load are connected to an AC high-voltage power supply or a DC low-voltage power supply. A power supply device that supplies electric power, comprising: a rectifier that rectifies an AC high-voltage power source; a first supply line that supplies electric power from the rectifier to the first load; and a first supply line that supplies electricity to the first load. a second supply line that supplies power to the second load via a voltage-dropping resistor; a third supply line that applies a voltage generated by the converting means and supplied to the first load to the first supply line; a fourth supply line that applies a voltage generated to the second load to the second load; A power supply device comprising: a switch means for cutting off conduction with a second load. (2) The power supply device according to claim 1, wherein the switch means is a thyristor that is turned on by the AC high voltage power supply.