JPH0630418B2 - Reversal current output device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a reversal current output device for inputting and outputting a current signal, and more specifically, for example, a current signal of 4 to 20 mA is input, and the current signal is reversed. The present invention relates to a reversal current output device that outputs a current signal of 4 mA.

(Prior Art) FIG. 3 is a configuration connection diagram of a conventional device. In the figure,
r is a resistor through which the input current Ii flows, OP is an OP amplifier that inputs the voltage across the resistor r via the resistor R, and inputs the reference voltage Vs via the resistor R, and Q1 and Q2 are outputs of the OP amplifier. Is an output transistor that controls the current flowing through the resistor r by
will be o.

In the device configured as described above, assuming that the resistance value of each resistor is represented by a symbol, R >> r, and 0V is the reference, and the input voltages of the amplifiers are the same, the following formula is established.

(Vc + Ii * r) / 2 = {(Vc-Io * r) + Vs} / 2 From this equation, the output current Io is Io = (Vs / r) -Ii.

Therefore, the output current Io is the reverse of the input current Ii.

(Problems to be Solved by the Invention) In the conventional device having such a configuration, a total of six high-precision resistors R and r are required, which is expensive. In addition, there is a problem that R >> r is required as a condition of the resistance value, the resistance R becomes a large value, the bias current of the OP amplifier cannot be ignored, and an expensive OP amplifier must be used.

The present invention has been made in view of such problems, and an object thereof is to realize a simple reversal current output device having a configuration that does not use a highly accurate and expensive resistance component.

(Means for Solving Problems) In the present invention which solves such problems, a first resistor (R1) which generates a voltage corresponding to the input current (Ii) and the first resistor (R1) and the first resistor (R1) are provided. Of the first operational amplifier (O
P1), a first output transistor (Q1) connected to the output terminal of the first operational amplifier and controlling a current flowing from the power supply (Vc) through the third resistor (R3), and the first output transistor (Q1). The voltage generated at the connection point between the second resistor (R2) connected between the emitter of the output transistor and the common line and the first resistor (R2) of the first output transistor A feedback circuit applied to the other input terminal of the operational amplifier, a second operational amplifier (OP2) to which a signal generated in the collector of the first output transistor (Q1) is applied to one input terminal, and a power supply (Vc ) And the other input end of the second operational amplifier, a reference voltage source (Vs)
And a power supply (Vc) connected to the output terminal of the second operational amplifier
And a second output transistor (Q2) for controlling a current flowing through the third resistor (R3), and the current controlled by the second output transistor (Q2) is used as an output current. It is a reversal current output device.

(Operation) The first and second operational amplifiers (OP1, OP2) have a current value (Vs / R3) obtained by dividing the reference voltage (Vs) by the resistor R3.
By subtracting the input current Ii from
The output current is reversed.

(Embodiment) FIG. 1 is a structural connection diagram showing an embodiment of the present invention.
In the figure, OP1 is a first operational amplifier (OP amplifier)
Then, the resistor R1 through which the input current Ii flows is connected to one input terminal, and the voltage corresponding to the input current Ii is applied. Q1 is an output transistor connected to the output terminal of the OP amplifier OP1, and is connected to the power supply Vc via the resistor R3. R2 is a resistor connected to the emitter of the output transistor Q1, and the voltage generated at one end of the resistor R2 is fed back to the other input end of the OP amplifier OP1.

OP2 is a second OP amplifier, and the collector of the output transistor Q1 is connected to one input terminal. Q2 is OP
The output transistor is connected to the output terminal of the amplifier OP2, and is connected to the power supply Vc via the resistor R3.

The current Io controlled by the output transistor Q2 becomes the output current.

The operation of the apparatus thus configured will be described below. Now, assuming that the current which is controlled by the output transistor Q1 and flows through the resistor R2 is I1, the formula (1) is established.

Ii × R1 = I1 × R2 Vs = R3 × (I1 + Io) (1) From the equation (1), the output current Io is as shown in the equation (2).

In the formula (2), by changing R3 and R1 / R2, the output current can be set within the range of 20 to 4 mA or other range.

FIG. 2 is a connection diagram showing an example of the reference voltage source (Vs) in FIG. Here, the Zener diode Z
By using D, the Zener voltage Vz is divided by the resistors r1 and r2 to be used.

(Effects of the Invention) As described in detail above, according to the present invention, the number of highly accurate resistance components can be reduced, and a reversal current output device with a simple structure and low cost can be realized. In addition, the power source Vc
The value (I1 + Io + α) of the current flowing from can be made almost constant.

[Brief description of drawings]

FIG. 1 is a configuration connection diagram showing an embodiment of the present invention, FIG. 2 is a connection diagram showing an example of a reference voltage source, and FIG. 3 is a configuration connection diagram of a conventional device. Vs ... reference voltage OP1 ... first operational amplifier OP2 ... second operational amplifier R1 to R3 ... resistor Q1 ... first output transistor Q2 ... second output transistor

Claims (1)

[Claims] 1. A first resistor (R1) through which an input current (Ii) flows to generate a voltage corresponding to the input current, and a first resistor to which the voltage generated at the first resistor is applied to one input end. Operational amplifier (OP1) and a first output transistor (Q) connected to the output terminal of the first operational amplifier and controlling the current flowing from the power supply (Vc) through the third resistor (R3).
1), a second resistor (R2) connected between the emitter of the first output transistor and the common line, and an emitter of the first output transistor and a second resistor (R2).
A feedback circuit for applying a voltage generated at a connection point between the first operational amplifier and the other input terminal, and a signal generated at a collector of the first output transistor (Q1) is applied to one input terminal. A second operational amplifier (OP2), a reference voltage source (Vs) connected between the power supply (Vc) and the other input terminal of the second operational amplifier, and an output terminal of the second operational amplifier. It is composed of a second output transistor (Q2) for controlling a current flowing from a power source (Vc) through a third resistor (R3), and the current controlled by the second output transistor (Q2) is used as an output current. A reversal current output device characterized in that