JPS59191628A - Constant voltage power supply device - Google Patents

Abstract

PURPOSE:To reduce the collector loss of a control transistor TR by using an pnp TR to the control TR and therefore to secure the stable working of a constant voltage power supply circuit despite an extremely small difference of voltage between the input and the output. CONSTITUTION:The emitter, the collector and the base of a pnp TR16 serving as a control TR are connected to a rectifying device 2, a load 3 and the collector of an npn TR18 via a resistance 17 respectively. The emitter of the TR18 is grounded with the base connected to the collector of a pnp TR23 via a resistance 19. The base of the TR23 is connected to the juncture between resistances 21 and 22 connected between the collector of the TR16 and an earth. While, the emitter of the TR23 is connected to the emitter of the TR16 via a resistance 20. A constant voltage diode 24 and a capacitor 25 are connected in parallel to each other between the TR23 and an earth. In such a constitution, the stable working is secured for a constant voltage power supply device even though the input/ output voltage of the TR16 is extremely low.

Description

[Detailed description of the invention] Industrial applications The present invention relates to a constant voltage power supply device for consumer electronic equipment and the like.

Conventional configurations and their problems In recent years, constant voltage power supplies that use transistors for power control have come to be widely used in consumer electronic devices.

A conventional constant voltage power supply device will be explained below.

FIG. 1 is a connection diagram of a conventional constant voltage power supply, in which 1 is the main body of the constant voltage power supply, 2 is a rectifier that converts AC power into DC power and supplies DC power to the main body 1 of the constant voltage power supply, and 3 is a This is the load of the constant voltage power supply unit.

4 and 6 are the input terminals of the constant voltage power supply main body 1, and the rectifier 2
The output from the rectifier 2 is connected to the input terminal 6, and the input terminal 6 is also grounded together with one end of the rectifier 2.

6 and 7 are output terminals of the constant voltage power supply main body 1, to which the load 3 is connected.

3-'The input terminal 6 and the output terminal 7 are connected inside the constant voltage power supply main body 1.

Furthermore, the collector of a control transistor 8 and one end of a base resistor 9 are connected to the input terminal 4 .

Further, the base of the control transistor 8 is connected to the other end of the base resistor 9 and the collector of the error amplification transistor 1o, and its emitter is connected to the output terminal 6.

The emitter of the error amplification transistor 10 is connected to the cathode side of a constant voltage diode 11 whose anode side is grounded, and one end of the current limiting resistor 12 of the constant voltage diode 11, and the other end of the current limiting resistor 12 is connected to the control transistor. 8
is connected to the emitter of

Further, the base of the error amplification transistor 10 is connected to the other end of a resistor 13 whose one end is grounded, and to the other end of a resistor 14 whose one end is connected to the emitter of the control transistor 8.

Regarding the constant voltage power supply device configured as described above, Japanese Patent Laid-Open No. 5
9-191628 (2), and its operation will be explained below.

Now there is a change in the load 3 or from the rectifier 2 to the input terminal 4.
If the voltage across the output terminals 6 and 7 increases by Δ■o due to some reason such as a change in the input voltage to and 5, the base potential of the error amplification transistor 10 will be It increases by the divided Δvo.

Then, the emitter potential of the error amplification transistor 10 is
Since the voltage is kept constant by the constant voltage diode 11, the collector current of the error amplification transistor 10 increases by Δvo.

The base potential of this control transistor 8 decreases,
The collector-emitter voltage of control transistor 8 increases, and the voltage across output terminals 6 and 7 decreases.

For this reason, the increase in voltage across the output terminals 6 and 7, which was initially assumed, is compressed and a constant voltage is forced.

Further, if the voltage across the output terminals 6 and 7 drops by Δ■o for some reason, the reverse operation of the above-described operation 5B=S is performed, and the voltage is similarly made constant.

However, in the conventional configuration described above, as a result of stabilization, all input voltage fluctuations and load fluctuations appear between the collector and emitter of the control transistor 8. Therefore, when input voltage fluctuations are large or load fluctuations are large, the load (collector loss) on the control transistor 8 naturally increases accordingly, so the control transistor 8 is designed to sufficiently absorb this loss. In order to make it tolerable, a collector with high loss is required, and it must be installed on a large heat sink, which also increases the temperature rise and requires a lot of man-hours.
Therefore, there were many problems such as high production costs.

OBJECTS OF THE INVENTION The present invention solves the above-mentioned conventional problems, and an object of the present invention is to provide a constant voltage power supply device that can reduce the collector loss of a control transistor with a simple configuration.

Structure of the Invention The present invention comprises a first PNP transformer and a transistor that absorb power fluctuations and load fluctuations so that the output voltage is always constant;
NP whose emitter is grounded and whose collector is connected to the base of said first PNP transistor through a first resistor.
N) The transistor and the collector are connected via a second resistor,
A fourth resistor is connected to the base of the first PNP) transistor, and its emitter is connected to the emitter of the first PNP) transistor through a third resistor, and the base is connected to the base of the first PNP transistor. a second PN'P connected to a sixth resistor connected to the erector of the first transistor;
The constant voltage power supply device includes a transistor, a constant voltage diode whose cand side is connected to a connection point between the emitter of the second PNP transistor and the third resistor, and whose anode side is grounded, and a capacitor. Control transistor (first PN
Use PNP) transistor for P) transistor),
The collector loss of the control transistor can be reduced by stably operating even when the input/output (emitter-collector) voltage difference is extremely low.

DESCRIPTION OF EMBODIMENTS FIG. 2 shows the electrical connections of a constant voltage power supply device in an embodiment of the present invention.

In Figure 2, the same components as in Figure 1 are given the same numbers, 2 is a rectifier, 3 is a load, 4 and 6 are input terminals, and 6 and 7 are output terminals, which are conventional examples. The configuration is the same as that of .

Furthermore, 16 is the main body of the constant voltage power supply, 16 is a first PNP transistor whose emitter is connected to the input terminal 4, the base is the control terminal, and the collector is connected to the output terminal 6, 1 is the first resistor, 18 The emitter is grounded, and the collector is connected to the first PNP transistor 1 via the first resistor 17.
NPN) transistor connected to the base of 6, 19 is the second resistor, 20 is the third resistor, 21 is the fourth resistor, 2
2 is the fifth resistor, 23 is the collector connected to the base of the NPN transistor 18 via the second resistor, and the emitter is connected to the first PNP transistor 16 via the third resistor.
A fourth resistor is connected to the emitter of the first PNP transistor 16, and the base thereof is connected to a fourth resistor whose one end is grounded, and a fifth resistor whose one end is connected to the collector of the first PNP transistor 16.
) transistor, 24 is a second PNP) transistor 23, and 25 is a constant voltage diode whose cand side is connected to the connection point between the emitter of transistor 23 and the third resistor 2o, and whose anode side is grounded, and 25 is a constant voltage diode in parallel with the constant voltage diode 24. is a connected capacitor.

The operation of the constant voltage power supply device of this embodiment configured as described above will be described below.

Now there is a change in the load 3 or from the rectifier 2 to the input terminal 4.
If the voltage across output terminals 6 and 7 increases by Δ■o due to some reason such as a change in the input voltage to Δυ divided by 5 resistor 22
. only rises.

Then, since the emitter potential of the second PNP transistor 23 is kept constant by the constant voltage diode 10 and is 9 Be-2, the collector current of the second PNP transistor 23 decreases by Δvo.

Therefore, the base current of the NPN transistor 18 decreases, and the collector current of the NPN transistor 18 decreases.

This is equivalent to a decrease in the base current of the first PNP transistor 16, and along with this, the first PNP transistor 16
The collector current of transistor 16 decreases, the collector-emitter voltage increases, and the voltage across output terminals 6 and 7 decreases.

Therefore, the initially assumed increase in voltage across the output terminals 6 and 7 is compressed and the voltage becomes constant.

Further, if the voltage across the output terminals 6 and 7 decreases by Δvo for some reason, the reverse operation of the above-described operation is performed and the voltage is similarly made constant.・Furthermore, in this configuration, the first PNP transistor 16 is controlled in accordance with input voltage fluctuations or load fluctuations.
The base current of NPN) transistor 10' can be operated up to the saturation region by transistor 18. In other words, the input-output voltage difference is the first PNP) transistor 1.
6 collector-emitter saturation voltage (vcE 5at)
This means that it can operate even under very low conditions.

As described above, according to this embodiment, the first PNP transistor 16 has an emitter connected to the output from the rectifier to form an input terminal, a base as a control terminal, and a collector as an output terminal; is grounded and whose collector is connected to the base of the first PNP transistor 160 through a first resistor 17;
A fourth resistor 21 whose emitter is connected to the emitter of the first PNP transistor 16 via a third resistor 2°, and whose base has one end grounded.
and a sixth resistor 22 whose one end is connected to the collector of the first transistor.
) A transistor 23, 11''''゛the second PNP) A constant voltage diode 24 whose cathode side is connected to the connection point between the emitter of the transistor 23 and the third resistor 2o and whose anode side is grounded, and a capacitor 25. By arranging the transistors in parallel, the voltage supplied from the rectifier 2 to the input terminals 4 and 6 required to supply a predetermined output voltage to the load 3 is the same as the collector-emitter voltage of the first PNP transistor 16. Saturation voltage ('vC
Since it is possible to operate down to a very low state of E sat ), it is possible to set it lower than in the conventional configuration, and the collector loss of the control transistor (first PNP transistor) 16 can be reduced.

Effects of the Invention The present invention provides a first PNP transistor whose emitter is connected to the output from a rectifier to form an input terminal, whose base is a control terminal, and whose collector is an output terminal. the first PNP through the first resistor.
) NPN connected to the base of the transistor; ) NPN connected to the transistor and the collector connected through a second resistor;
a fourth resistor connected to the base of the transistor, the emitter of which is connected to the emitter of the first PNP transistor through a third resistor, and whose base has one end grounded;
a second PNP transistor having one end connected to a sixth resistor connected to the collector of the first transistor; a connection between the emitter of the second PNP transistor and the third resistor; The cathode side is connected to the point,
By providing a constant voltage diode whose anode side is grounded and a capacitor in parallel, it is possible to reduce the collector loss of the control transistor (first PNP transistor). 1 PN
By reducing the collector loss of the transistor (P), the heat sink to which it is attached can be made smaller, making the entire device smaller and producing a lower production cost. This is something that can be achieved.

[Brief explanation of drawings]

FIG. 1 is a connection diagram of a conventional constant voltage power supply, and FIG. 2 is a connection diagram of a constant voltage power supply according to an embodiment of the present invention. 2... Rectifier, 3... Load, 4 and 5
...Input terminal, 6 and 7...Output terminal,
16... Constant voltage power supply main body, 16...
・1st PNP) transistor, 17...1st
resistance, 18...NPN) transistor, 19.
...Second resistance, 20...Third resistance,
21... Fourth resistor, 22... Fifth resistor, 23... Second PNP transistor, 2
4... Constant voltage diode, 25... Capacitor. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2

Claims (1)

[Claims] The output from the rectifier is connected to the emitter to form the input end, the base is the control end, and the collector is the output end.
PNP) transistor whose emitter is grounded and whose collector is connected to the base of the first PNP) transistor through a first resistor; ), the emitter is connected to the emitter of the first PNP transistor through a third resistor, the base is connected to a fourth resistor whose one end is grounded;
A second PNP is connected to a sixth resistor connected to the collector of the transistor, and the cando side is connected to the connection point between the second PNP) transistor, the emitter of the second PNP transistor, and the third resistor. A constant voltage power supply device consisting of a constant voltage diode whose anode side is grounded and a capacitor connected in parallel.