KR810002078B1 - Power supply circuit responsive to both a c and d c input - Google Patents

Abstract

The purpose of this invention is in showing power circuit which can supply power for heater efficiently, when used as an A.C power circuit in both of A.C. ,D.C. power using eletric machines. This composed of A.C. power plug(10), D.C power plug(11), transformer(1), heater(8), and load(6) supplys power not only for load(6) through the primary, the secondary winding of transformer and rectifier, but for heater by the third winding of transformer, when A.C power plug is in connected with power socket.

Description

Power circuit

1 is a circuit diagram of a conventional power supply circuit dedicated to AC power,

2 is a circuit diagram of a power supply circuit capable of using an AC direct current power supply.

3 is a circuit diagram showing an embodiment of a power supply circuit that can use both the AC and DC power supplies according to the present invention.

The present invention relates to a power supply circuit of an electronic device such as a television receiver that can use both a commercial AC power source and a DC power source.

Conventionally, a power supply circuit of a television receiver using only a commercial AC power supply (hereinafter referred to as an AC power supply) is configured as shown in FIG.

In FIG. 1, (1) is a transformer, (2A) is a primary winding of a transformer, (2B) is a secondary winding of a transformer, (3) is a tertiary winding of a transformer, (4) is a rectifier, and (5 ) Is a ripple smoothing capacitor, 6 is a load, 7 is a constant voltage circuit for supplying a constant voltage to the load, and 8 is a heater of the CRT.

In the circuit of FIG. 1, the power to the heater 8 is supplied from the tertiary winding 3, the load 6 is rectified with the rectifier 4 to rectify the power of the transformer 1, and smoothed with the condenser 5. The electric power whose constant voltage is supplied to the constant voltage circuit 7 is supplied.

2 is a circuit diagram of a conventional power circuit in the case of using alternating current and direct current power, where (9) is a power socket, (10) is an AC power plug, (11) is a DC power plug, ( 12A), (13A), (14A), (15A), and (16A) are insertion holes of the power socket, (17) is a leaf circuit for setting the voltage supplied to the heater 8 to an appropriate value, (12B), ( 13B), (14B), (15B) and (16B) are terminals of the AC power plug 10, (12C), (13C), (14C), (15C) and (16C) are DC power plugs 11 ) Terminal. When the AC power plug 10 is connected to the power socket 9, the insertion port 12A and the terminal 12B, the insertion port 13A and the terminal 13B are connected, so that the insertion ports 12A and 13A are Short-circuited, the insertion ports 14A and 15A are connected to the terminals 14B and 15B, respectively.

Accordingly, the AC power is stepped down through the transformer 1, the DC voltage rectified and smoothed by the rectifier 4 and the condenser 4 is supplied to the heater 8, and at the same time the load ( 6) is supplied.

When the DC power plug 11 is connected to the power socket 9, the insertion holes 12A and 13A are not connected by the plug 11, and the DC power supply 18 is inserted into the insertion holes 13A, ( Since it is connected between 16A, the rectifier 4, the condenser 5, and the transformer 1 are isolate | separated from DC power supply.

Therefore, the DC power source 18 is supplied to the heater 8 and to the load 6 via the constant voltage circuit 7 at the same time.

As an example of using such a power supply circuit, there is a large black and white television receiver. In this case, the voltage at both ends of the load 6 is about 12V, and the current flowing through the load 6 is about 2A, and the heater 8 is rated. Is 6.3V, 0.45A. Therefore, in the circuit of FIG. 2, when an AC power source is used, the current flowing through the secondary winding 2, the rectifier 4, and the smoothing capacitor 5 of the transformer 1 compared to the circuit shown in FIG. Is greatly increased, and each requires a large amount of parts, which is not economical.

In addition, the loss in the step-down circuit 17 is also large, resulting in poor efficiency.

SUMMARY OF THE INVENTION An object of the present invention is to provide a power supply circuit which efficiently supplies power to an heater when an AC power source is used in an electronic device such as a television receiver using both AC and DC power sources, eliminating the above-mentioned drawbacks of the prior art.

In the power supply circuit according to the present invention, when the AC power plug is connected to the power socket, the electric power is supplied to the load through the primary winding, the secondary winding, and the rectifier of the transformer, and the third winding of the transformer is connected to the heater. When supplying power and connecting the DC power plug to the power socket, connect the DC power supply to both ends of the load and connect the power from the DC power supply to the heater via a switch that is turned on when the DC power plug is connected. Characterized in that to supply power.

Next, the present invention will be described in detail based on the embodiment shown in FIG.

3 is a circuit diagram showing an embodiment of a power supply circuit according to the present invention, and the same ones as those shown in FIGS. 1 and 2 will be described with the same reference numerals.

In Fig. 3, reference numeral 10 denotes a switch transistor, reference numerals 20 and 21 denote resistors for supplying a bias voltage to the base of the transistor, and reference numeral 22 denotes a DC voltage supplied to the tertiary winding 3. It is a rectifier to prevent it.

The base of the transistor 19 is connected to the connection point of the resistors 20 and 21, and is connected to the insertion hole 12A, and the emitter of the transistor 19 is connected to the connection point of the rectifier 22 and the heater 8. The collector of the transistor 19 is connected to the insertion port 16A and connected to the connection point between the diode 4 and the capacitor 5.

When the AC power plug 10 is connected to the power socket 9, the insertion ports 12A and 13A are short-circuited, and the AC power supply is connected between the insertion ports 14A and 15A.

In this case, since the base of the transistor 19 is introduced through the insertion holes 12A and 13A, the transistor 19 is cut off.

Therefore, AC power is supplied to the load 6 through the transformer 1, the rectifier 4, the smoothing capacitor 5, the constant voltage circuit 7, and also through the tertiary winding 3 and the rectifier 22. Power is supplied to the heater 8.

When the DC power plug 11 is connected to the power socket 6, the insertion port 12A and 13A are cut off, and the DC power supply 18 is supplied between the insertion port 13A and 16A.

Therefore, the DC power source 18 is supplied to the constant voltage circuit 7, the resistors 20, 21, and the load 6, and the DC power source is also supplied to the collector of the transistor 19.

As the base of the transistor 19 is cut off the insertion holes 12A and 13A and is separated from the lead, a bias voltage is supplied at the connection point of the resistors 20 and 21, so that the transistor 19 is turned on. (導 通)

Accordingly, the DC power is supplied to the heater 8 through the transistor 19 while being supplied to the constant voltage circuit 7, the resistors 20, 21 and the load 6.

In this case, since the rectifier 22 is cut off, the current supplied to the heater 8 through the transistor 19 is not classified in the tertiary winding.

In this case, the voltage supplied to the heater 8 can be selected by changing the resistance ratio of the resistors 20 and 21.

As described above, in the present invention, when the direct current power source is used, the transistor 19 is turned on to supply electric power to the heater 8, and when the alternating current power source is used, the tertiary mounted on the transformer 1 is used. Power can be supplied to the heater 8 via the winding 3.

That is, in the present invention, when the AC power source is used, the tertiary winding 3 is installed to supply electric power to the heater 8, and the secondary winding 2 of the transformer 1, the current generator 4, and the condenser. Since the power passed through (5) is not supplied to the heater 8, it is not necessary to use a large-capacity component for the transformer 1, the rectifier 4, and the condenser 5. Therefore, in the circuit shown in FIG. It is economical to install the tertiary winding 3 and the transistor 19 instead of providing the step-down circuit 17.

In addition, in the present invention, the step-down circuit 17 is not installed, and there is no power loss due to this circuit, so that power is not wasted, and efficiency is good.

In the embodiment of the present invention, a transistor is used as the switching device, but another device, for example, a relay, may be used.

In this case, the switch of the relay is connected between the insertion port 12A and the heater 8, one end of the drive coil of the relay is connected to the connection point of the resistor 20 and the resistor 21, and the other end of the drive coil is admitted. do.

Claims (1)

It consists of AC power plug, DC power plug, power socket, transformer with primary, secondary and tertiary windings, current circuit, heater and load, and when AC power plug is connected to power socket, AC power Is supplied to the load through the primary, secondary winding, and rectifier circuits of the transformer, and is supplied to the heater via the tertiary winding of the transformer, and when the DC power plug is connected to the power socket, In a power supply circuit in which a rectifier circuit is separated and a direct current power is supplied to a load, a switching device having an input terminal, an output terminal, and a control terminal is installed, the control terminal of the device is connected to a bias source, and the output of the switching device. When the terminal is connected to the heater, the electric power is supplied from the power supply to the input terminal of the switching device, and the AC power plug is connected to the power socket. When the terminal is connected to cut off the input terminal and the output terminal of the device, and when the DC power plug is connected to the power socket, the control terminal of the switching device is disconnected from the ground and the bias voltage is applied to the control terminal. A power supply circuit which is applied to conduct electric current between an input terminal and an output terminal of the switching device, and supplies electric power to a heater connected to the output terminal of the switching device.

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