JPS6349941Y2 - - Google Patents

Description

[Detailed description of the invention] This invention relates to an isolator that converts the current applied to the input terminal into an isolated DC voltage proportional to the current and sends it out.It does not require an isolated power supply and has a low impedance voltage output. The present invention provides a device with a relatively simple configuration.

Conventionally, this type of device connects a resistor in series with the output terminal of a current isolator, for example.
Although the voltage across these ends is used as an output, there is a drawback that a low impedance voltage output cannot be obtained. In order to solve these drawbacks, it has been attempted to provide a current-voltage conversion circuit that is independent of the current-current isolator and is driven by an isolated power source and configured to calculate and output a voltage proportional to the current. However, the configuration will be complicated and the cost will be high.

The present invention solves these conventional drawbacks, and includes a current isolator that converts DC input current into AC using a chopper, isolates this AC using a transformer, and then converts it back to DC using a rectifier and smoothing circuit.
It is configured to operate using the output current of the current-current isolator as a drive power source, and is combined with a current-voltage conversion circuit that calculates and sends out a voltage proportional to the output current of the current-current isolator, and can output a low-impedance voltage with a relatively simple configuration. It was made so that it could be obtained.

Hereinafter, it will be explained in detail using the drawings.

FIG. 1 is a circuit diagram showing an embodiment of the present invention, in which 10 is a current-current isolator and 20 is a current-voltage conversion circuit.

The current isolator 10 converts the input current into alternating current with a chopper, insulates this alternating current with a transformer, and then converts it back into direct current with a rectifying and smoothing circuit. For example, a chopper 12 that converts a DC input current of 4 to 20 mA to AC, a transformer 13 that insulates and transmits the converted AC, and a transformer 1.
A rectifying and smoothing circuit 14 connected to the secondary side of the transformer 13 so as to convert the alternating current transmitted through the converter 3 into direct current again, and a 180-degree phase circuit for alternately turning on and off the transistors Q1 and Q2 that constitute the chopper 12. The oscillation circuit 15 includes an oscillation circuit 15 such as a multivibrator that sends out two oscillation outputs q with different values, an output terminal 16, and the like.

The current-voltage conversion circuit 20 is configured to calculate and send out a voltage proportional to the current applied to the input terminal, and includes an input terminal 21, an operational amplifier 22, a Zener diode ZD, resistors R1 to R4,
It is composed of an output terminal 23 and the like. Note that the input terminal 21 of this current-voltage conversion circuit 20 is connected to the output terminal 16 of the current-current isolator 10. As a result, the current-voltage conversion circuit 20 is driven using the current sent from the current-current isolator 10 as a power source.

The operation of the device configured in this way will be explained.

The current isolator 10 sends out a DC output current Iout that is isolated from the DC input current Iin. The current-voltage conversion circuit 20 operates using the DC output current Iout of the current isolator flow 10 as a driving power source. Then, a DC voltage proportional to the DC output current applied to the input terminal 21 is calculated and sent out. In other words, if the DC output current is Iout and the DC output current is Vout, (-R3・R1・Iout＋R2・Vout)
/(R2+R3)=0, so Vout=R3・R1・Iout/R2, and a low impedance DC output current Vout proportional to the DC output current Iout is obtained. here,
The Zener diode ZD operates to bypass the difference between the current required by the operational amplifier 22 and the load and the output current Iout, and to keep the load voltage constant.

In the above embodiment, an example is shown in which the oscillation circuit 15 is connected in parallel with the transformer 13 as the current isolator 10, but with such a configuration, the current flowing through the oscillation circuit 15 causes an output error. It turns out. Therefore, in order to achieve high precision, the oscillation circuit 15 must be configured to operate with a very small current, which increases cost and reduces reliability.

Such drawbacks are caused by the current isolator 10
This can be solved by using an oscillation circuit 15 connected in series with a transformer 13, as shown in FIG.

As explained above, according to the present invention, with a relatively simple configuration that does not require an isolated power supply, the current applied to the input terminal is converted into an isolated, low-impedance DC voltage proportional to the current, and sent out. This makes it possible to realize an isolator that can achieve this, and it has great practical effects as an isolator in process control systems.

[Brief explanation of the drawing]

Figure 1 is a circuit diagram showing one embodiment of the present invention, Figure 2 is a circuit diagram showing an embodiment of the present invention.
The figure is a circuit diagram showing another embodiment of the current isolator used in the present invention. 10...Current current isolator, 20...Voltage-current conversion circuit.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) A current-current isolator that converts DC input current into AC using a chopper, insulates this AC using a transformer, and then converts it back to DC using a rectifier and smoothing circuit;
An isolator comprising a current-voltage conversion circuit that is configured to operate using the output current of the current-current isolator as a driving power source and calculates and sends out a voltage proportional to the output current of the current-current isolator. (2) Registration of a utility model characterized in that the current isolator is configured to drive a chopper using an oscillation circuit that is inserted in series with a transformer and oscillates using a part of the DC input current. An isolator according to claim 1.