JP2511865Y2 - Power supply circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a power supply circuit, and more particularly to a power supply circuit having an on / off switching means in a power supply circuit for controlling an output transistor by an operational amplifier.

[Prior Art] Conventionally, in order to turn on and off the output of the stabilized power supply, the circuit on the input side (primary side) of the power supply circuit has been cut off or connected.

In the above method, there is a problem that the cutoff capacity of the switch for turning on / off the power source becomes large and the cost becomes high.

Conventionally, there is a power supply circuit shown in FIG. 3 as a device for turning on / off the output on the input side (secondary side) of the operational amplifier of the stabilized power supply circuit.

In this circuit, the stabilizing + output terminal is supplied with current by the transistor 3, and the base of the transistor 3 is supplied with current from the output of the operational amplifier 1 through the diode D2.

The inverting input terminal of the operational amplifier 1 is connected to the connection point of the series circuit of the resistors R1 and R2 that connect the stabilizing + output terminal to the ground, and the non-inverting input terminal of the operational amplifier 1 is connected to the field effect transistor 5. The + pole of Zener diode D1 to which a constant current is supplied is connected.

The non-inverting input terminal of the operational amplifier 1 is further connected to the ground via the switch 6.

Stabilization-The base current of the transistor 4, which draws the output current from the output terminal, flows into the output terminal of the operational amplifier 2 through the diode D3.

The inverting input terminal of the operational amplifier 2 is connected to the connection point of the series circuit of the resistors R3 and R4 connecting between the stabilizing + output terminal and the stabilizing-output terminal, and the non-inverting input terminal of the operational amplifier 2 is connected to the ground. Has been done.

In the above circuit, when switch 6 is open,
A zener diode D1 is connected to the non-inverting input terminal of the operational amplifier 1.
The reference voltage, which is the Zener voltage of
The current of the transistor 3 is controlled so that the voltage of the inverting input terminal of the above becomes the reference voltage, and the stabilization + output voltage becomes constant.

In addition, the operational amplifier 2 and the transistor 4 make the resistor R3
The voltage at the connection point of R4 is controlled so as to be 0V, and is stabilized-The output voltage becomes constant.

When the switch 6 is closed, the voltage at the inverting input terminal of the operational amplifier 1 becomes 0V, so that the stabilization + output and the stabilization-output are turned off.

[Problems to be Solved by the Invention] In the circuit shown in FIG. 3 described above, if a semiconductor switch is used as the switch 6, the resistance when the switch is closed is not 0, so that the power supply circuit is turned off. There was a problem that the voltage on the output side did not become completely zero.

The present invention has been made in view of the above points, and an object thereof is to turn on and off the output on the secondary side of the stabilized power supply circuit and to completely reduce the voltage on the output side when the output is off. To provide a power supply circuit.

[Means for Solving the Problem] The power supply circuit of the present invention is a power supply circuit for supplying a base current of a transistor for supplying a current from an unstable power supply to a stabilized power supply output terminal from an output terminal of the operational amplifier. A reference power supply is connected between one of the input terminals and the stabilized power supply output terminal, and the other input terminal of the operational amplifier is turned on or off by connecting the other input terminal of the operational amplifier to the ground or a power supply having a voltage equal to or higher than the voltage of the reference power supply. It is configured as follows.

[Operation] According to the power supply circuit of the present invention, when the other input terminal of the operational amplifier is connected to the ground by the switch, the voltage of one input terminal of the operational amplifier becomes 0V, so that the stabilized power output terminal A voltage equal to the reference voltage appears in the opposite polarity of the reference voltage.

When the other input terminal of the operational amplifier is connected by a switch to a power source having a voltage equal to or higher than the voltage of the reference power source, in order to equalize the voltage of both input terminals of the operational amplifier, the polarity of the regulated power source output terminal is as described above. Since the state is reversed, no current flows through the transistor that supplies current to the stabilized power supply output terminal, and the voltage at the stabilized power supply output terminal becomes zero.

[Embodiment] A power supply circuit according to an embodiment of the present invention will be described with reference to the drawings.

 FIG. 1 shows a first embodiment of the present invention.

In the figure, parts having the same functions as those shown in the conventional example are designated by the same reference numerals.

A current is supplied to the stabilizing + output terminal by the transistor 3, and the base of the transistor 3 is supplied from the output of the operational amplifier 1 through the resistor R8 and from the unstable + power source to the resistor R7.
A current is supplied via the.

A reference voltage source E _S is connected between the inverting input terminal and the stabilization + output terminal of the operational amplifier 1, and the inverting input terminal of the operational amplifier 1 is connected via a switch 6 to the voltage source E _V or the ground.

If the voltage of the reference voltage source E _S is E _S V and the voltage of the voltage source E _V is E _V V, then E _V ≧ E _S.

In the above circuit, when the switch 6 is connected to the ground side, the operational amplifier 1 controls the collector current of the transistor 3 so that the voltage at the inverting input terminal becomes 0V.

Since the reference voltage source E _S is connected to the reverse pole between the inverting input terminal and the stabilization + output terminal, the voltage of the stabilization + output terminal becomes equal to the reference voltage E _S and is controlled to a constant voltage. .

When the switch 6 is connected to the voltage source E _V side, the operational amplifier 1 controls the collector current of the transistor 3 so that the voltage at the inverting input terminal becomes −E _V V. That is, stabilization +
Output voltage −E _S = −E _V and stabilization + output voltage = E _S −E _V
Controlling so that ≦ 0, the transistor 3
Since the current cannot flow from the stabilized + output to the unstable + power supply direction, the stabilized + output is 0V.

By thus switching the switch 6, the stabilized power supply can be turned on and off.

 FIG. 2 shows a second embodiment of this invention.

The base current of the transistor 4, which sinks the output current from the stabilizing-output terminal, flows into the output terminal of the operational amplifier 2 through the diode D3 or into the non-stable-power supply input through the resistor R9.

The non-inverting input terminal of the operational amplifier 2 is connected to the connection point of the series circuit of the resistors R5 and R6 which connects between the stabilizing + output terminal and the ground, and when this connection point is not connected to the ground by the switch 6. voltage is E _V.

The inverting input terminal of the operational amplifier 2 is the + of the Zener diode D4 to which the Zener current is supplied by the resistors R10 and R11.
It is connected to the pole and its voltage becomes the reference voltage E _S.

A current is supplied to the stabilizing + output terminal by the transistor 3, and a current is supplied to the base of the transistor 3 from the output of the operational amplifier 1 through the diode D2 or from the unstable + power supply input through the resistor R7.

The inverting input terminal of the operational amplifier 1 is connected to the connection point of the series circuit of the resistors R3 and R4 connecting between the stabilizing + output terminal and the stabilizing-output terminal, and the non-inverting input terminal of the operational amplifier 1 is connected to the ground. Has been done.

In the above circuit, when switch 6 is closed,
The voltage of the non-inverting input terminal of the operational amplifier 2 is 0V, and the current of the transistor 4 is controlled so that the voltage of the non-inverting input terminal of the operational amplifier 2 is also 0V.

The inverting input terminal and stabilization - the reference voltage source E _S is between the output terminal is connected, stabilized - the voltage of the output terminal is controlled to -E _S next constant voltage.

At this time, the current flowing through the transistor 3 is controlled so that the voltage of the inverting input terminal of the operational amplifier 1 becomes 0V, so the voltage of the stabilization + output becomes E _S × R3 / R4, which is controlled to a constant voltage. It

When the switch 6 is opened, the operational amplifier 2 controls the collector current of the transistor 4 so that the voltage at the inverting input terminal becomes E _V V. That is, stabilized - Output voltage + E _S = E _V
Next, stabilization - tries to control such that the output voltage = E _V -E _S ≧ 0, the transistor 4 is unstabilized - stabilizing the power input - stabilized it is not possible to flow a current in the output direction -
The output will be 0V.

 Therefore, stabilization + output also becomes 0V.

By thus switching the switch 6, the stabilized power supply can be turned on and off.

[Effect of the Invention] According to the power supply circuit of the present invention, the power supply can be turned on and off by switching the circuit on the operational amplifier input side of the stabilized power supply circuit with a switch, and even if a semiconductor switch is used as the changeover switch, The output when off can be completely 0V.

[Brief description of drawings]

1 is a circuit diagram showing a power supply circuit according to a first embodiment of the present invention, FIG. 2 is a circuit diagram showing a power supply circuit according to a second embodiment of the present invention, and FIG. It is a circuit diagram shown. 1, 2 ... Operational amplifier, 3, 4 ... Transistor, 5 ... Field effect transistor, 6 ... Switch.

Claims (1)

(57) [Scope of utility model registration request] 1. A power supply circuit for supplying a base current of a transistor for supplying a current from an unstable power supply to a stabilized power supply output terminal from an output terminal of an operational amplifier, wherein one input terminal of the operational amplifier and a stabilized power supply output terminal. A power supply circuit that is connected between a reference power supply and the other input terminal of the operational amplifier and is turned on and off by connecting the other input terminal of the operational amplifier to a ground or a power supply having a voltage higher than the voltage of the reference power supply.