JPH0413693Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a voltage generation circuit that generates a predetermined control voltage.

The purpose of the present invention is to provide a circuit that includes a predetermined voltage generation source and drives an arbitrary differential amplifier using an external signal to generate a predetermined stable voltage, thereby generating a control voltage. shall be.

Hereinafter, the voltage generating circuit of the present invention will be explained based on FIGS. 1 and 2.

In FIG. 1, a voltage generation source P is formed by resistors R1 to RN connected in series between terminals 1 and 2. Transistor differential pair A1, A2...AN
Transistors 7, 8, 9, 10...M-
A current source circuit I1, I2,...IN is connected to the commonly connected emitters of transistors 1, M and the differential pair of transistors, and a pair of transistors 4, 5 is connected to the common emitters of the differential pair of transistors A1, A2...AN. The active load circuit forms a plurality of differential amplifier circuits. Furthermore, a plurality of voltage sources from a voltage generation source P are sequentially connected to one input terminal of each of the differential amplifier circuits, and a predetermined voltage is supplied thereto. The other input terminal of each of the differential amplifier circuits is the output terminal 3.
are commonly connected. Further, the emitter of the transistor 6 is connected to the commonly connected output terminal 3 of the differential amplifier, the base of the transistor 6 is connected to the commonly connected collectors of the transistors 8, 10...M, and the differential amplifiers A1, A2,... ...A voltage follower circuit with feedback applied to the AN is formed.
Current source circuits I1, I2,...IN include current source transistors 11, 12,...1N and resistors R11, R12,
... formed from R1N, current source transistor 1
The bases of 1, 12, 13, . . . 1N are commonly connected, and a DC power source E is supplied to the common base.
In addition, the resistance R1 of the current source circuits I1, I2,...IN
1, R12, . . . ^R1N are connected to the other ends of switches S1, S2, .

In this way, in the voltage generating circuit of the present invention, a predetermined control voltage is supplied to each input terminal of a plurality of voltage follower circuits, and their output terminals are commonly connected. By driving the switches in response to the signal and activating a desired one, a predetermined control voltage based on the control signal is output from the common output terminal.

The operation of the voltage generating circuit shown in FIG. 1 will be explained below. First, resistors R1, R2, connected in series,
... A control voltage is applied from each connection point of RN to the voltage follower circuits A1 to AN, respectively.
Now, when one of the switches S1 to SN, S2, is turned on and the other switch is turned off, the current source circuit I2 and the transistor differential pair A2 are activated. Since this transistor differential pair A2 forms a voltage follower circuit, a voltage equal to the control voltage supplied to the base of the transistor 9 is output from the output terminal 3. In this way, the selection signal activates one of the voltage follower circuits, causing a predetermined control voltage to be output from the output terminal 3.

However, in the voltage generating circuit shown in FIG. 1, if the reverse voltage applied between the base and emitter of the transistors forming the transistor differential pair exceeds the reverse breakdown voltage, the transistors may be destroyed.

Hereinafter, an embodiment of the improved voltage generating circuit according to the present invention will be described based on FIG.

In the voltage generation circuit of the embodiment shown in FIG. 2, a voltage generation source P is composed of a bandgap voltage source composed of diodes D1 to DN connected in series, and transistors 7 and 7 forming a differential pair of transistors A1 to AN, respectively. 8, 9, 10...M-1, a diode 20 having a common cathode between the respective emitters of M,
21, 22, 23...2N-1, 2N are connected, respectively. The rest of the configuration is the same as the voltage generating circuit shown in FIG. 1, so a description thereof will be omitted.

In FIG. 2, when switch SN is in the on state and the other switches are in the off state, the transistor differential pair AN becomes in the operating state and a predetermined voltage is output from the output terminal 3. At this time, a low level voltage is applied to the bases of transistors 8 and 10, and the bases of transistors 7 and 9 are
A high level voltage is applied. However, since the protective diodes 21, 23, ~2N are connected, no reverse voltage is applied between the bases and emitters of the transistors 8 and 10, so the transistors 8 and 10 do not suffer from voltage breakdown. .

Further, when a high voltage is output from the output terminal 3, the bases of the transistors 8, 10 to M are at a high voltage, and the protective diode 2N-
1... protects the transistors M-1.... Therefore, transistors M-1... are not destroyed by reverse voltage.

Incidentally, although I ² L elements are most suitable for the switches S1 to SN, the present invention is not limited thereto.

The voltage generating circuit of the present invention is a circuit that generates a predetermined control voltage based on a control signal, and constitutes a voltage follower circuit in which a plurality of differential transistor pairs form a feedback circuit. Further, the current source of the voltage follower circuit is controlled by I ² L. In this way, different voltages are supplied to the input terminals of the plurality of voltage follower circuits,
This is a voltage generating circuit that can obtain a predetermined voltage from commonly connected output terminals by selecting and driving one of the switches. That is, this circuit is suitable for obtaining a control voltage with a wide voltage range from the common output terminal 3.

The voltage generating circuit of the present invention is a circuit that generates a predetermined control voltage based on a control signal, and its applications include controlling the rotation of a motor using different voltages, and various applications controlled by variable voltage. It can be applied to various control devices.

In the voltage generating circuit of the present invention, the current source of the voltage follower circuit is connected to a switch such as an I ² L element, and the switch is controlled by a control signal to activate or cut off the voltage follower circuit. By connecting a diode between the point and the emitter of the transistor differential pair that constitutes the voltage follower circuit, it is possible to increase the reverse withstand voltage between the input and output terminals of the transistor differential pair and output a high reference voltage. This is a voltage generating circuit suitable for semiconductor integrated circuits.

Furthermore, since the voltage generating circuit of the present invention uses a voltage follower circuit, the output voltage from the common output terminal is characterized in that a potential equal to the input voltage selected based on the control signal is output. are doing.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram for explaining the voltage generating circuit of the present invention, and FIG. 2 is a circuit diagram showing an embodiment of the voltage generating circuit of the present invention. P...Voltage generation source, A1-AN...Transistor differential pair, I1-IN...Current source circuit, S1-SN
...Switch, 1, 2...terminal, 3...output terminal.

Claims (1)

[Scope of utility model registration request] A voltage generation source that generates two or more voltages consisting of a divided resistor or a band gap voltage, two or more transistor differential pairs each having one input terminal connected to the voltage generation source, and the transistor differential pair. a common active load circuit of the pair, and a sustained current source circuit corresponding to the transistor differential pair for controlling an operating current of each of the transistor differential pairs, the other of each of the transistor differential pairs; The input terminals of the transistors are commonly connected and connected to the output terminal, and the output obtained from the active load circuit is fed back to the output terminal, so that each of the transistor differential pairs constitutes a voltage follower circuit, and The anodes of diodes are connected to the emitters of the transistors forming the dynamic pair, and the cathodes of the diodes are commonly connected to the current source circuit,
A voltage generating circuit characterized in that a predetermined voltage is obtained from one of the differential transistor pairs from the output terminal by controlling the current of the current source circuit.