SU658504A1 - Converter of sensor parameters into voltage - Google Patents

Description

- connected to the amplifier output, the other input is connected to the power supply output, E is the control input of a Phaerosensitive indicator, one of the inputs of the additional adder is connected to the output of the power supply, the other input is connected to the output of the controlled voltage divider, and the output is from input adder. The drawing shows a structural electrical circuit for converting sensor parameters to voltage. The converter consists of a power source 1, the output of which is connected to the input of amplifier 2, the feedback of which consists of sensor 3 (or 4) and sample element 4 (or 3) depending on the replacement circuit. The output of the amplifier is connected via an adder 5 to a phase-sensitive indicator b, the output of which is connected to the control input of a controlled voltage divider 7. The output of a controlled voltage divider 7 is connected to the input of an additional adder 8. One input of switch 9 is connected to the output of a power source 1, the other is connected to the output of amplifier 2, and is connected in turn to the control input of the phase-sensitive indicator 6. The converter operates as follows. The voltage UQ from the output of the power source 1 is fed to the input of the amplifier 2, the output voltage of which is determined by the ratio of the parameters of the sensors and the reference element,. in this case, if Z is a sensor, the equivalent replacement circuit of which consists of a parallel connection of C - and R, and the reference element is 22, the capacity of GO, then the output voltage of amplifier 2 is, -, L / s. And ouCoRx and proportionally convertible conductivity (). This voltage goes to one input of the adder 5 to the other input of which the voltage Ug comes from the output of the adder 8 which is equal to the sum of the supply voltage (JQ and the output voltage bt of the controlled voltage divider 7, where K is the controlled gain voltage divider 7.. Voltage Ol from the output of the adder 5, equal to the algebraic sum of the voltages DO, U-, and Oz (fed to the signal input of the phase-sensitive indicator b, the control input of which through the switch 9 is connected to the output of the power source 1. The output nap The phase-sensitive indicator 6 changes the transfer coefficient of the controlled voltage divider 7 until the voltage 0 becomes quadrature with the voltage UQ In the M-equilibrium, the output voltages of the transformer are equal and.-h. tccf J2, 2 or -vtg-cf. In the case when 3 is a sensor with a series replacement circuit consisting of capacitance C and resistance Rji , and model element 4 is capacitance C, then the control input is phase-sensitive. The indicator 6 is connected to the output of the amplifier 2 via the switch 9. In this line, the output voltage of the transducer is equal to .. Ug-C, and. . in the case when it is necessary to obtain a voltage proportional to l / C. and TK X, the sensor is connected between the input and output of amplifier 2, i.e. element 4 represents the sensor sensor, and element 3 corresponds to CQ and is a model element. To convert the parameters of sensors with a sequential equivalent voltage replacement circuit from the output of power source 1 through switch 9 to the control input of the phase-sensitive indicator b, and to convert sensors with a parallel replacement circuit, the control input of the phase-sensitive indicator 6 receives the voltage from the amplifier output 2 through switch 9. In this case, the output voltage for dates