SU1128283A1 - Device for transmitting and receiving analog signals - Google Patents

Abstract

A DEVICE FOR TRANSMITTING AND i RECEIVING ANALOG SIGNALS containing a differential amplifier on the transmission side, the first input of which is connected to the information input of the device, the output of the differential amplifier is via an optocoupler LED, the cathode of the first photodiode of the optocoupler is connected to the second input of the differential amplifier the anode of the first photodiode of the optocoupler through the. The first resistor 1 is connected to the zero terminal of the power supply and through a second resistor to the bias power supply terminal, and on the receiving rtorone differential amplifier, the output of which is connected to the output of the device and through the first resistor to the first input of the differential amplifier, the second input of which through a BTopofi photodiode of the optocoupler and the second resistor connected in series with it is connected to the zero terminal of the power source, the anode of the second photodiode is connected via a third resistor to the bias terminal of the power source, which is a, so that, in order to increase the transmission accuracy, resistors, potentiometers and a diode are inserted at the receiver side, the output of the differential amplifier is connected to the first terminal of the first potentiometer, the second terminal of which is connected to the zero terminal of the power supply, The middle terminal of the first potentiometer is connected through a series-connected diode and the fourth resistor is connected to the middle terminal of the second potentiometer, the first and second terminals of each are connected through the fifth and sixth 00 1C resistors, respectively, to the first and torym inputs of a differential amplifier, a cathode of the diode 00 through a seventh resistor connected to the terminal with zero power source.

Description

The invention relates to devices for the transmission and conversion of analog signals with galvanic separation of circuits, which are widely used in industrial automation, computer technology, medical instrumentation, etc. The current on the transmitting and receiving sides of the Sch. The disadvantages of this device are high temporal and temperature instabilities. The noted deficiency is significantly weakened in devices containing a differential optocoupler, one of the photodiodes of which is included in the feedback circuit of the input amplifier. Closest to the present invention, there is a galvanic isolation device comprising an input differential amplifier, the first input of which is connected to the input of the device, a differential optocoupler and, on the receiving side, a differential amplifier whose output is the output of the device. The anode of the LED is connected to the output of the input differential amplifier, and the cathode is connected to the terminal of the zero potential of the power source. The cathode of the first photodiode is connected to the bias source of the primary circuit, and the anode is connected to the second input of the input amplifier. The second photodiode is connected by its anode with a bias source of the power source, and the cathode is connected with an inverting input and through a resistor with an output of the amplifier iz. A disadvantage of the known device is the dependence of the nonlinearity of the transmission coefficient on the degree of vidism of the parameters of the photodiodes in the range of variation of the operating currents of the LED. The purpose of the invention is to improve the accuracy of transmission of analog signals, i.e. reduction of nonlinear distortion of the pass-through characteristic of galvanic separation devices at low LED currents and photodiode operation in the mode of EMF sources. The goal is achieved by those. that the device for transmitting and receiving analog signals, containing on the transmitting side, a differential amplifier, the first input of which is connected to the information input of the device, the output of the differential amplifier through the LED of the optocoupler, is connected to the zero terminal source, and the power, the cathode of the first photodiode of the optocoupler | to the second input of the differential amplifier, the anode of the first photodiode of the optocoupler through the first resistor is connected to the zero terminal of the power source and through the second resistor to the bias terminal of the source pi and on the receiving side - a differential amplifier, the output of which is connected to the output of the device and through the first resistor to the first input of the differential amplifier, the second input of which through the second photodiode of the optocoupler and the second resistor connected in series with it, is connected to the zero terminal of the power supply, the anode, the second the photodiode is connected via a third resistor to the bias power supply terminal, resistors, potentiometers and a diode are inserted on the receiving side, the output of the differential amplifier is connected to the first terminal The first potentiometer, the second output of which is connected to the zero terminal of the power supply, the middle output of the first potentiometer is connected via a serially connected diode and a quarter resistor to the middle output of the second potentiometer, the first and second outputs of which are connected via the fifth and sixth resistors respectively the amplifier, the cathode of the diode through the seventh resistor is connected to the zero terminal of the power source. The drawing shows a diagram of the proposed device. . The device for transmitting and receiving analog signals contains differential amplifiers 1 and 2, optocoupler 3, diode 4, resistors 5-13 and potentiometers 14 and 15. The device operates in the following way. The input signal is fed to the inverting input of amplifier 1, the output of which is connected to the LED (LED) of the optocoupler 3, while the current through the LED is such that the algebraic sum of the voltages supplied to the non-inverting input of amplifier 1 is equal to the input voltage Udh-indicated the sum of the stresses consists of

EMF PD1 of the optocoupler 3 and the voltage of the bias voltage, determining the initial value of the current through the LED and coming from the UQ source, through resistors 5 and 6; The output voltage of the device is determined by the EMF of PD2 and the transfer coefficient depending on the ratio of resistors 12 and 9 The bias voltage from the DO source through resistors 7 and 8 to the non-inverting input circuit of amplifier 2 provides a zero value.

signal output device at zero input signal. Potentiometer 15, diode 4 and load resistor 11 erase the parametric nonlinearity compensation circuit (depending on the input signal U "), the voltage from which through resistor 10, potentiometer 14, resistors. 12 and 13, respectively, are fed to the inverting and non-inverting inputs of output amplifier 2, increasing the linearity of the transmission coefficient of the entire device.

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Claims (1)

DEVICE FOR TRANSMISSION AND RECEIVING OF ANALOGUE SIGNALS, containing on the transmitting side a differential amplifier, the first input of which is connected to the information input of the device, the output of the differential amplifier through the optocoupler LED is connected to the zero terminal of the power source, the cathode of the first photodiode of the optocoupler is connected to the second input of the differential amplifier, the anode of the first a photodiode.optron through the first resistor is connected to the zero terminal of the power source and through the second resistor to the bias terminal of the power source, and the receiving side. - a differential amplifier, the output of which is connected to the output of the device and through the first resistor to the first input of the differential amplifier, the second input of which is connected to the zero terminal of the power source through the second photodiode of the optocoupler and the second resistor connected in series to it, the anode of the second photodiode through the third resistor connected to the bias terminal of the power source, it is important that, in order to increase the accuracy of the transmission, resistors, potentiometers and a diode are inserted into it on the receiving side, the output the differential amplifier is connected to the first output of the first potentiometer, the second output of which is connected to the zero terminal of the power supply, the middle output of the first potentiometer through a series-connected diode and the fourth resistor is connected to the middle output of the second potentiometer, the first and second outputs of which are connected through the fifth and sixth resistors respectively the first and second inputs of the differential amplifier, the cathode of the diode through the seventh resistor is connected to the zero terminal of the power source. 00 to 00 from 1 1128283