RU2226741C2 - Current-to-voltage converter - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: converter designed for use in electromagnetic field inductors for tuning transmitting equipment and detecting radiation of low-power microwave radio transmitting devices has operational amplifier 3, negative feedback circuit 4, and two Schottky-barrier diodes 1, 2. Anode of first diode is connected to inverting input of operational amplifier 3 whose noninverting input is connected through resistor to ground bus, this bus being also connected to cathode of second diode; output of operational amplifier is connected through negative feedback circuit 4 to its inverting input; point of connection of first-diode cathode and second-diode anode functions as input of proposed device; output of operational amplifier 3 is connected to device output. Current-to-voltage converter operates as follows. Applying high-frequency signal to device input induces current through diodes 1 and 2, its value being a function of voltage across output of operational amplifier 3. Current flowing through diodes depends on input voltage amplitude. Resistance of negative feedback circuit 4 governs circuit gain. EFFECT: enlarged functional capabilities. 1 cl, 1 dwg

Description

The invention relates to radio engineering and can be used in indicators of the electromagnetic field for tuning transmitting equipment, as well as for detecting radiation of low-power microwave transmitting devices.

A known current to voltage Converter containing an operational amplifier, a photodiode and a negative feedback circuit [1].

The disadvantage of this device is that this current to voltage converter is applicable only for the detection of electromagnetic waves with a wavelength of 0.5-0.8 microns.

The closest in technical essence and the achieved positive effect to the claimed invention is a current to voltage Converter, described in [1]. The current to voltage converter comprises an operational amplifier, a photodiode, and a negative feedback circuit. In this case, the cathode of the photodiode is connected to the inverting input of the operational amplifier, the non-inverting input of which is connected through a resistor to the ground bus, to which the anode of the photodiode is also connected, and the output of the operational amplifier through the negative feedback circuit is connected to its inverting input.

The disadvantage of this device is the inability to use it in order to detect electromagnetic waves in the microwave range.

The required technical result of the invention is to expand the scope of the current to voltage converter.

The required technical result is achieved by the fact that the device consisting of an operational amplifier and a negative feedback circuit, the non-inverting input of the operational amplifier through a resistor connected to the ground bus, and the output of the operational amplifier through a negative feedback circuit connected to its inverting input, are additionally introduced in series two Schottky diodes connected, while the anode of the first diode is connected to the inverting input of the operational amplifier, the cathode of the second is connected to the ground bus e, and the connection point of the cathode of the first diode with the anode of the second diode is the input of this device.

The claimed technical solution differs from the prototype in the presence of new blocks - two Schottky diodes and their connections with the rest of the circuit elements. These differences allow us to conclude that the proposed solution meets the criterion of "novelty."

The desired result is achieved by the entire newly introduced set of essential features that are not found in the well-known patent and scientific literature at the filing date. Therefore, the technical solution corresponds to the "inventive step".

The drawing shows a structural diagram of a current to voltage converter.

The current-to-voltage converter comprises an operational amplifier 3, a negative feedback circuit 4, and two Schottky diodes 1, 2.

In this case, the anode of the first diode is connected to the inverting input of the operational amplifier 3, the non-inverting input of which is connected via a resistor to the ground bus, to which the cathode of the second diode is also connected, and the output of the operational amplifier 3 through the negative feedback circuit 4 is connected to its inverting input, and the point The connection of the cathode of the first diode to the anode of the second diode is the input of this device, and the output of the operational amplifier is its output.

The current to voltage Converter operates as follows.

When a high-frequency signal is applied to the device input through diodes 1, 2, a current will flow, the value of which will determine the voltage at the output of the operational amplifier 3. The current strength through diodes 1, 2 will depend on the amplitude of the input voltage. The resistance of the negative feedback circuit 4 in this case sets the transfer coefficient of the circuit.

Thus, the proposed current to voltage converter, in comparison with the prototype, allows you to convert the current flowing through the Schottky diodes and depending on the level of the input microwave signal into the voltage taken from the output of the operational amplifier.

Sources taken into account:

1. Horowitz P., Hill W. The art of circuitry. - M .: Mir, 1983, p. 165.

Claims (1)

A current to voltage converter consisting of an operational amplifier and a negative feedback circuit, the non-inverting input of the operational amplifier through a resistor connected to the ground bus, and the output of the operational amplifier through a negative feedback circuit connected to its inverting input, characterized in that it is additionally introduced two Schottky diodes connected in series, the anode of the first diode connected to the inverting input of the operational amplifier, the cathode of the second connected to the ground bus, and the connection point of the cathode of the first diode with the anode of the second diode is the input of this device.

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