JP2653437B2 - Voltage / current conversion circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a voltage / current conversion circuit capable of performing high-accuracy conversion and operating at low voltage.

(Prior Art) FIG. 4 is a circuit diagram showing an example of a conventional voltage / current conversion circuit.

The voltage Vin to be converted is supplied to the base of the npn transistor 19 via the protection resistor 18. This transistor
A resistor 20 for determining a current value is connected between the emitter of 19 and the ground, and the input voltage Vin and this resistor 20 are connected.
Is output from the collector of the transistor 19. The collector current of the transistor 19 is 2
The current is supplied to a current mirror circuit 23 composed of pnp transistors 21 and 22. Here, since the transistor 22 on the output side of the current mirror circuit 23 has a so-called multi-emitter structure, the collector of the transistor 22 outputs a current n times the collector current of the transistor 21.
Iout will be output.

This conventional circuit has a relatively simple circuit configuration,
There is a problem that a large current cannot be taken out by setting the value of 20 small. That is, when the value of the resistor 20 is reduced, the input impedance seen from the base side of the transistor 19 decreases, the input voltage Vin itself decreases, and a large error occurs in the output current.

For this reason, it is conceivable to use a Darlington transistor requiring a small base current as the transistor 19 in this conventional circuit. However, in this case, the power supply voltage Vcc needs to be twice the voltage between the base and the emitter of the transistor, for example, 1.4 V or more, so that a low voltage operation cannot be performed.

Therefore, conventionally, a circuit as shown in FIG. 5 has been considered as a circuit capable of operating at a low voltage and having a sufficiently high input impedance and capable of extracting a large current. In this circuit, the input impedance is sufficiently increased by sufficiently increasing the value of the resistor 20 in FIG. Further, in addition to the current mirror circuit 23, a current mirror circuit 26 including two npn transistors 24 and 25 and a current mirror circuit 29 including two pnp transistors 27 and 28 are provided. circuit
By increasing the output current of 23 in the current mirror circuits 26 and 29 sequentially, a large current can be taken out.

However, in this conventional circuit, two current mirror circuits 26 and 29 are inserted between the power supply voltage Vcc and the ground. Therefore, there is a problem that the Early effect of the transistor cannot be neglected, and the value of the output current greatly fluctuates due to the fluctuation of the power supply voltage Vcc, thereby lowering the conversion accuracy.

(Problems to be Solved by the Invention) As described above, conventionally, both high conversion accuracy and low-voltage operation cannot be realized.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a voltage / current conversion circuit that satisfies both high conversion accuracy and low-voltage operation.

[Configuration of the Invention] (Means for Solving the Problem) A voltage / current conversion circuit according to the present invention includes a differential amplifier circuit that receives an input voltage at a non-inverting input terminal and has an output terminal connected to an inverting input terminal A first transistor having a first polarity whose base is connected to an output terminal of the differential amplifier circuit, a resistor inserted between an emitter of the first transistor and a first power supply,
An emitter is connected between the emitter and the collector between the second power supply and the collector of the first transistor, the base is connected to the second transistor of the second polarity, the base of which is short-circuited, and the base is connected to the second power supply. Has a current mirror circuit composed of a third transistor of a second polarity connected to the base of the second transistor, and outputs a current proportional to the input voltage from the collector of the third transistor. .

(Operation) In the present invention, the input voltage is input to the base of the first transistor for current conversion via the differential amplifier having a high input impedance, so that even a low voltage is applied to the first transistor without fail. And a large current can be output through the current mirror circuit.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a circuit diagram showing a configuration of one embodiment of a voltage / current conversion circuit according to the present invention. The input voltage Vin is supplied to the non-inverting input terminal of the differential amplifier circuit 2 via the protection resistor 1. The output terminal of the differential amplifier circuit 2 is connected to its inverting input terminal, and the differential amplifier circuit 2 forms a so-called voltage follower circuit. The base of the npn transistor 3 is connected to the output terminal of the differential amplifier circuit 2. A resistor 4 is connected between the emitter of the transistor 3 and the ground.

The emitters of two pnp transistor stars 5, 6 are connected to the power supply voltage Vcc. One of the transistors 6 is a multi-emitter transistor. The bases of the transistors 5 and 6 are connected to each other, and the base and collector of the transistor 5 are short-circuited. The transistors 5 and 6 constitute a current mirror circuit 7.
The collector of the transistor 5 on the input side of the current mirror circuit 7 is connected to the collector of the transistor 3, and the collector of the transistor 6 on the output side outputs a current Iout proportional to the input voltage Vin. It has become so.

According to the voltage / current conversion circuit having such a configuration, since a voltage equivalent to the input voltage Vin is obtained at the base of the transistor 3, a current corresponding to the input voltage Vin and the value of the resistor 4 is applied to the collector of the transistor 3. Output from When the collector current of the transistor 3 is supplied to the current mirror circuit 7, a current n times the collector current of the transistor 5 is extracted as an output current Iout.

Here, since the voltage follower circuit constituted by the differential amplifier circuit 2 has a sufficiently high input impedance, the value of the resistor 4 for current conversion is made sufficiently small so that a large current is taken out. Is not affected. In addition, the power supply voltage Vcc as in the conventional circuit shown in FIG.
This circuit is not affected by the fluctuation of the data, so that high-precision conversion is possible with this circuit.

FIG. 2 and FIG. 3 are circuit diagrams specifically showing the differential amplifier circuit 2 in FIG. In the differential amplifier circuit 2 shown in FIG. 2, a differential pair 10 is formed by npn transistors 8 and 9, and a common emitter thereof is grounded via a resistor 11. Then, the collectors of the pnp transistors 12, 13 connected as current mirrors as current mode type active loads are
These are connected to the collectors of npn transistors 8 and 9, respectively. That is, the transistor 12 whose collector and common base are short-circuited is biased by the collector current of the transistor 8, and supplies the base current of the transistor 12. Since the transistors 12 and 13 form a current mirror circuit 14, the transistor 13 has a high resistance and a high gain can be obtained. Also, due to the current mirror effect, the respective collector currents of the transistors 12 and 13 are always equal. Since the collector and base of the transistor 9 are short-circuited, a voltage equal to the input voltage Vin is obtained at the collector of the transistor 9 due to the feedback action.

FIG. 3 shows that the base of the pnp transistor 15 is connected to the connection point between the collectors of the transistors 12 and 8 in order to further improve the current mirror effect of the circuit of FIG.
The transistor 15 is a differential amplifier circuit using a so-called Wilson-type current mirror circuit 16 as an active load, the emitter of which is connected to the Vcc side and the collector of which is connected to the base of the transistor 9. Transistor 15 becomes a constant current load,
The internal resistance of the collector has a large value, and a high voltage gain is obtained. By connecting the collector of the transistor 15 to the base of the transistor 9, a feedback action is provided, and a voltage equal to the input voltage Vin is obtained at the collector of the transistor 15.

2 and 3, the input voltage is input to the base of the current conversion transistor via the voltage follower circuit. As a result, it is sufficient that Vcc is at least the base-emitter voltage of at least one transistor, for example, 0.7 V or more. Even if the power supply voltage is low, the circuit operates reliably and a large current can be output through the current mirror circuit. Therefore, a low voltage operation which cannot be performed by a conventional voltage / current conversion circuit is enabled. Further, since only one current mirror circuit is used for extracting an output current, a stable voltage / high voltage from a low voltage to a high voltage is obtained. Current conversion is possible.

[Effects of the Invention] As described in detail above, according to the present invention, a voltage / current conversion circuit that can operate at a low voltage and has high conversion accuracy can be provided.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of a voltage / current conversion circuit according to the present invention. FIGS. 2 and 3 are circuit diagrams specifically showing a differential amplifier circuit in FIG. FIG. 5 and FIG. 5 are circuit diagrams each showing a conventional voltage / current conversion circuit. 1, 4, 11 ... resistance, 2 ... differential amplifier circuit, 3, 5, 6, 8, 9,
12,13,15 ... transistor, 7,14,16 ... current mirror circuit, 10 ... differential pair, 17 ... capacitor.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-58-215108 (JP, A) JP-A-59-97217 (JP, A)

Claims (2)

(57) [Claims] An input terminal receives an input voltage at a non-inverting input terminal and an output terminal is connected to an inverting input terminal. A differential amplifier circuit having a first polarity and a base connected to an output terminal of the differential amplifier circuit. One transistor, a resistor inserted between the emitter of the first transistor and the first power supply, and an emitter and collector inserted between the second power supply and the collector of the first transistor. , A second transistor having a second polarity and a second transistor having a
A current mirror circuit comprising a third transistor of a second polarity, the emitter of which is connected to the power supply of the second transistor and the base of which is connected to the base of the second transistor, wherein the current mirror circuit is proportional to the input voltage from the collector of the third transistor. A voltage / current conversion circuit configured to output a converted current. 2. The differential amplifier circuit according to claim 1, further comprising: a differential pair including fourth and fifth transistors having a first polarity and an emitter connected to each other, and the input voltage is supplied to a base of one of the transistors. 2. The voltage / current conversion circuit according to claim 1, wherein the output voltage of the differential pair is fed back to the base of the other transistor.