JPH0530174Y2 - - Google Patents

Description

[Detailed Description of the Invention] (a) Field of Industrial Application The present invention relates to a constant voltage power supply circuit, and in particular to a reduction in unnecessary current flowing through a protection circuit of an output transistor.

(b) Conventional technology As shown in Figure 2, a conventional three-terminal constant voltage power supply circuit has a connection between an input terminal V _IN to which an unstable voltage is applied and an output terminal V _OUT to which a stabilized voltage is output. output transistor 1 inserted in the output transistor 1 and transistor 2 connected to the output transistor 1 in Darlington, the voltage obtained by dividing the stabilized voltage between the output terminal V _OUT and the ground terminal GND by the resistors 3 and 4, and the reference voltage circuit 5. An error amplifier 6 that compares the reference voltage Vref and drives the transistor 2 and the output transistor 1; a resistor 9 and a zener connected between the resistors 7 and 8 connected to the base and emitter of the output transistor 1 and the input terminal V _IN; A protection circuit 11 consisting of a diode 10 is connected between the base of the transistor 2 and the output terminal V _OUT, and the base is connected to the resistors 7 and 8.
The transistor 11' is connected to the reference voltage circuit 5, the transistor 12 serves as a current source for supplying current to the reference voltage circuit 5, the transistor 13 is mirror-connected to the transistor 12, and the start circuit 14 starts operation when power is applied. be done. The protection circuit 11 and the transistor 11' function to protect the output transistor 1 from excessive power consumption by reducing the collector current when the collector-emitter voltage of the output transistor 1 increases. Such a constant voltage power supply circuit was developed in June 1981.
This is described in the "Voltage Regulator Handbook" published by Seibundo Shinkosha Co., Ltd. on the 20th.

(c) Problems to be Solved by the Invention In the constant-voltage power supply circuit shown in FIG. 2, when the load connected to the output terminal _VOUT is not being driven, it is conceivable that some means could be used to completely turn off the output transistor 1 to reduce power consumption. However, in this case, unnecessary current would flow through resistor 9 and Zener diode 10 of protection circuit 11 to resistors 3 and 4, or from the output terminal _VOUT to the load.

(d) Means for solving the problem The present invention was made in view of the _above -mentioned _points . A transistor is provided in series with the protection circuit inserted between the input terminals V _IN , and the base of the transistor is connected to the collector potential of a transistor serving as a current source that supplies current to the reference voltage circuit,
Furthermore, in order to turn off the output transistor, a control terminal Cont is provided that drives the transistor that lowers the output of the error amplifier to the ground potential, prohibits the operation of the start circuit, and opens the current path of the reference voltage circuit. .

(E) Effect According to the present invention, when a signal for turning off the output transistor is applied to the control terminal Cont, the current path of the reference voltage circuit is opened, and the collector potential of the transistor serving as the current source is changed to the input terminal V _IN
By being pulled up to the voltage applied to
A transistor controlled in series with the protection circuit turns off, cutting off unnecessary current.

(F) Embodiment FIG. 1 is a circuit diagram showing an embodiment of the present invention.
An output transistor 15 and a transistor 16 Darlington-connected to the output transistor 15 are provided between an input terminal V _IN to which an unregulated voltage is applied and an output terminal V _OUT to which a stabilized voltage is output. Resistors 17 and 18 are connected between the output terminal V _OUT and the ground terminal GND to divide the stabilized voltage.
The divided voltage and the reference voltage Vref from the reference voltage circuit 19 are input to the error amplifier 20. The output of the error amplifier 20 is connected to the collector of a transistor 22 that is mirror-connected to a transistor 21 that serves as a current source that supplies current to the reference voltage circuit 19, and is also connected to the base of the transistor 16. Therefore, the error amplifier 20
drives the transistor 16 and the output transistor 15 by feedback of the stabilized voltage, and outputs the stabilized voltage. The start circuit 23 uses the voltage applied to the input terminal V _IN as a power source, controls the reference voltage circuit 19 when the power is applied, causes current to flow through the transistor 21 regardless of the condition of the stabilized voltage output, and outputs the transistor 16 and the output. transistor 15
Turn on to output voltage to the output terminal V _OUT .

On the other hand, resistors 24 and 25 are connected to the base and emitter of the output transistor 15.
A protection circuit 28 consisting of a resistor 26 and a Zener diode 27 and transistors 29 and 30 are connected in series between the other ends of the transistors 4 and 25 and the input terminal V _IN .
A transistor 28' whose base is connected to resistors 24 and 25 is provided between V _OUT and V OUT. The transistors 29 and 30 are Darlington connected, and the base of the transistor 30 is connected to the base of the transistor 22 and the base-collector connection point of the transistor 21 via a resistor 31. Further, the constant voltage power supply circuit is provided with a control terminal Cont for turning off the transistor 16 and the output transistor 15, and the signal of the control terminal Cont is connected between the output of the error amplifier 20 and the ground terminal GND via the resistor 32. The voltage is applied to the base of the transistor 33 provided in the , and is also applied to the start circuit 23 . When the operation of the start circuit 23 is prohibited by the control terminal Cont, the current path of the reference voltage circuit 19 is opened by the output of the start circuit 23, that is, the transistor 34 connected in series with the transistor 21 is turned off.

In the constant voltage power supply circuit shown in FIG. 1, in a normal operating state where a ground level potential is applied to the control terminal Cont, current flows through the reference voltage circuit 19 via the transistor 21, so the transistor Equal currents flow through 22, and transistors 29 and 30 are turned on. Therefore, the operation of the protection circuit 28 is guaranteed.

On the other hand, when a voltage at the power supply voltage level is applied to the control terminal Cont, the transistor 33 is turned on, and the output of the error amplifier 20 and the transistor 16 are
The base potential of is pulled down to ground level.
At the same time, the operation of the start circuit 23 is prohibited, and its output causes the transistor 3 of the reference voltage circuit 19 to
4 is turned off, the current of the transistor 21, which is a current source, is cut off, and its collector potential is raised to the voltage level applied to the input terminal V _IN . Therefore, transistor 22 is turned off, and transistors 29 and 30 are also turned off. As a result, transistor 16 and output transistor 1
5 is turned off and the voltage supply to the output terminal V _OUT is cut off. Further, since the current path of the protection circuit 28 is also cut off, current flowing to the output terminal V _OUT via the protection circuit 28 is prevented.

(g) Effects of the invention As described above, according to the invention, when there is no need to drive the load connected to the output terminal _VOUT , when the output transistor is turned off by the control terminal Cont,
Unnecessary current flowing through the protection circuit is blocked, making it possible to significantly reduce power consumption. Therefore, it has the advantage of improving performance and commercial value when a constant voltage power supply circuit is integrated.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG. 2 is a circuit diagram showing a conventional example. Explanation of main figure numbers, 15...output transistor,
16, 28', 29, 33, 34...Transistor, 21, 22, 30...Transistor, 20...
...Error amplifier, 19...Reference voltage circuit, 23...
Start circuit, 28... protection circuit.

Claims (1)

[Scope of utility model registration request] An output transistor inserted between an input terminal of an unregulated voltage and an output terminal of a stabilized voltage, and an error amplifier that compares a voltage obtained by dividing the stabilized output voltage with a reference voltage and drives the output transistor. a protection circuit comprising a Zener diode and a resistor connected in series between the base or emitter of the output transistor and the input terminal, a start circuit whose operation is controlled by a control signal, and an output of the start circuit. a constant voltage source comprising: a reference voltage circuit whose current supply is controlled by a current source to generate the reference voltage; and a current source comprising a mirror-connected transistor that supplies current to the reference voltage circuit and the output of the error amplifier. In the power supply circuit, a transistor controlled by the base voltage of a mirror-connected transistor of the current source is provided in series with the protection circuit, and the current source is stopped by stopping the operation of the start circuit based on the control signal. A constant voltage power supply circuit characterized in that a current supply to the protection circuit is cut off and a current to the protection circuit is cut off.