SU1054794A1 - Transformer for parameters of three-element non-resonant two-terminal network - Google Patents

Abstract

CONVERTER PARAMETERS OF THREE-ELEMENT NKRESONANT BIPLE-APPLIANCES / containing a controlled voltage divider, a differentiating amplifier, the first voltage adder, an amplifier, at the emitter output of the differentiating amplifier, connected to the input of the controlled divider, a voltage detector, and a heading and a javer with a voltage amplifier that is connected to the input of the controlled divider. , the input of the differentiating amplifier is connected to one of the voltage input amplifier, characterized in that, in order to increase the speed of the converter, it has two sinusoidal signal generators, two switches, a second voltage adder, four subtractors, a resistor, two memory blocks, a control signal generator, two calculators, and a control unit, the outputs of the sinusoidal signal generators are connected to the other terminal via a first switch a controlled two-pole circuit, with a differential amplifier input and the first subtraction unit, and the output of the amplifier, in the feedback of which the resistor is switched on, and the input of the controlled divider nap voltage connected to the inputs of the second subtractor, the output of the latter is connected to the inputs of the first and second adders voltage to inputs of first and third subtracting unit, and a first .The inputs. and the second calculator, the outputs of the first voltage adder and the first subtraction unit are connected to the first calculator, and the output of the second voltage adder and the third unit. 0 subtractors are connected to the second calculator, the output of the differentiating amplifier is connected to the second inputs of the second voltage adder and the third subtractor, the output of the first calculator is connected via the second switch, to the inputs of the first and second memory blocks, the outputs of the latter are connected to the inputs of the fourth block a subtraction, the output of which is connected to the control signal source, while the output of the control signal conditioner is connected to the controlled one, the input of the controlled voltage divider, 4 n When in use, control inputs of the first and second switches connected to the output of the control unit.

Description

The invention relates to the field of electrical measuring equipment, in particular, to measuring the parameters of passive complex values, and can be used to measure the parameters of objects, for example, in electrochemistry and biology when studying the nature of electrochemical and biological systems, in microelectronic, electronic and radio, petroleum and chemical industries to control various products and technological processes. . A passive two-pole parameter meter is known, which contains sinusoidal signal generators, an operational amplifier, an adjustable element, two phase-sensitive voltmeters, a phase shifter, a driver, a zero-organ, a time delay unit, a switch, and a remote resistor. A disadvantage of the known device is low accuracy and sensitivity, since the characteristics of negative elements over a wide range of voltages are in principle non-linear. The error of the meter is also due to the fact that the negative resistances are frequency-dependent and therefore the readout results for the measured parameters of the two-pole network after bringing the circuit into the measuring state will each time depend on the frequency of the generator’s sinusoidal signal in a complex way signal, the presence of harmonics in the signal arising due to the nonlinearity of negative resistance J has a small measurement limit, since negative resistances can exist only within a limited wave region, the characteristics of these resistances. Due to the direct signal duration of the signal, the upper frequency limit of the meter is limited. The closest technical solution to the invention is a transducer of nonresonant passive three-element two-pole parameters, containing a source of a frequency-modulated signal, a differentiating amplifier, a voltage adder, two controllable voltage dividers, an integrating amplifier, a phase-sensitive indicator, two transducers, and two voltage amplifiers. . The disadvantage of the transducer is its low speed due to the two balancing circuits and their interconnection, the measurement accuracy of the two-pole parameters of the two-pole network is low. The result of measuring one of the parameters depends on the voltage source of the frequency-modulated signal, which reduces the measurement accuracy, since it is difficult to achieve stability of the source voltage over a wide frequency range. Due to the fact that the balancing occurs in the mode of permanent changes in the frequency of the signal source, additional dynamic errors arise. The two-port circuit under study is included in the input circuit of the amplifier, while in the feedback of this amplifier a capacitor is turned on, as a result of BorHHKeieT the need for a DC amplifier to stabilize the amplifier. Typically, a T-shaped bridge, a shunt capacitor in the feedback circuit of the amplifier, is used for this purpose, which leads to additional conversion errors. The purpose of the invention is to increase the conversion speed by eliminating the second equilibration circuit. The goal is achieved in that the converter of parameters of three-element nonresonant two-terminal network contains an amplifier, a first voltage adder, an amplifier, while the output of the differentiating amplifier is connected to the input of a controlled voltage divider, and the input of the amplifier is connected to one of the terminals for connecting a controlled two-port, input the differentiating amplifier is connected to one of the inputs of the voltage adder, two generators of sinusoidal signals are introduced into the converter, two switches, the second Voltage adder, four subtractors, a resistor, two memory blocks, a control driver, two calculators, a control unit, the outputs of the sinusoidal signal generators are connected to a different terminal to connect a controlled two-pole circuit to the differential amplifier input and the first block subtracting, and the output of the amplifier, in the feedback of which the resistor is switched on, and the output of the control of the voltage divider are connected to the inputs of the second subtraction unit, while the output of the last connection from the input of the first and second voltage adders, with the inputs of the first and third subtraction units, as well as the inputs of the first and second calculators, the outputs of the first voltage adder and the first subtraction unit are connected to the first calculator, and the output of the second voltage adder and the third unit plug-in subtraction to the second calculator, and the output of the differentiating amplifier is identical with the second inputs, as the second voltage adder

and the third subtraction unit / output of the first calculator is connected via a second switch to the inputs of the first and second memory blocks, the outputs of the latter are connected to the inputs of the fourth subtraction unit / output 5 of which is connected to the control signaling device, while the output of the control signaling device is connected to the controlled one the input of the controlled voltage divider, with 10 control inputs of the first and second switches connected to the output of the control unit.

The drawing shows the functional diagram of the Converter.

The converter contains two generators 1 and 2 of sinusoidal signals of different frequencies, two switches 3 and 4, amplifier 5, differentiating amplifier 6, controlled two-pole 7, consisting of capacitors 8.9 and resistor 10 four subtractors 11-14, resistor 15 , a controlled voltage divider 16, two voltage adders 17 and 18, a control block 19, two memory blocks 20 and 21, a control signal generator 22 and two calculators 23 and 24.

The outputs of the generators 1 and 2 are connected via a switch 3 to a differential amplifier 6, controlled by a two-terminal network 7, to a voltage adder 17 and to a subtraction unit 13. In the feedback of amplifier 5, a resistor 15 is turned on, and the output of the amplifier is connected to subtraction unit 11, the output of the differentiating amplifier b through the control voltage divider 16 is also connected to the unit. 11, and the output of the latter is connected to adders 17, 18, for example, with blocks 13, 14, and 11 and 14. The output of differentiating amplifier 6 is connected to the inputs of the adder 18 and block 14, and the outputs the latter are connected to the calculator 24. The output of the calculator is 5 bodies 23 through the switch 4 pbdk-jno to the memory blocks 20, 21, the outputs of the latter are connected to the subtraction unit 12, and its output is connected to the driver 22 of the control signal 50. The output of the driver 22 is connected to the control input of the voltage divider 16. The control unit 19 is connected to the control inputs of the switches 3 and 4 .. 55

The device works as follows. -

The control unit 19 periodically and in a clock cycle controls the switches 3 and 4. In the first cycle, the switch 3 connects to the measuring circuit a generator 1 of a sinusoidal signal, in the second cycle - a generator of a sinusoidal signal. In the same way, in the first cycle, the switch 4 connects the output of the 65

the numerator is 23 to the input of the memory block 20, and in the second cycle to the input of the memory block 21. At the time of entering the information into the memory block 20, 21, the previously recorded information in it is automatically erased. In the first cycle, the generator 1 of the sinusoidal signal through the switch 3 feeds the measuring circuit consisting of amplifier 5, differentiating amplifier 6, controlled voltage divider 16 and subtraction unit 11. Voltage output from the generator. The 1 sine wave signal and the output of the subtraction unit 11 are fed to the voltage adder 17, to the subtraction unit 1 where the vector addition and subtraction of these voltages occur. Next, the voltage from the output of blocks 11, 13 of the subtraction and from the output of cyMviaTOpa 17 goes to the calculator 23, in which these voltages are processed, i.e. are converted into numerical equivalents, and then computational operations are performed on these numbers. The signal from the output of calculator 23 through switch 4 is fed to memory block 20, where the value of this signal is stored. In the second cycle to the measuring circuit, the generator 2 of the sinusoidal signal is switched off, and the value of the signal from the output of the calculator 23 is stored in memory block 21. The difference of signals from blocks 20 and 21 paths, which takes place at the output of subtraction block 12, enters the FOURA signaling control signal generator 22, as XTRORGs, there can be any integrating element, for example, an electric motor, an integrator, a memory device, etc. The control signal generator 22 of 5e subdivides the division ratio of the controlled voltage divider 16 until the signal at the output of the subtracter 12 is equal to zero. As a rule, the initial adjustment of the measuring circuit to the quasi-equilibrium state requires 3-5 ticks. Subsequently, after each subsequent clock cycle, the converter monitors the transmission coefficient of the controlled voltage divider 16. After the transducer has reached the measuring state, the parameters of the controlled two-port 7 are determined as follows. The measured capacitance of the capacitor 8 is determined by the value of the signal at the output of the control signal generator 22 / the measured resistance of the resistor 10 is determined by the value of the signal at the output of the calculator 23, and the measurable capacitance of the capacitor 9 is determined by the value of the signal at the output of the calculator 24.

- The essential feature of the converter is the presence of only

one equilibration circuit, one adjustment, which can be used as a sample variable measure (resistance box, digital control resistance, etc., absence of amplifiers in the feedback circuits., capacitors eliminates the difficulties associated with stabilizing constant current (thereby eliminating

A whole range of conversion errors. J. The device can operate with great accuracy in wide frequency ranges and input voltages. The calculators 23 and 24 can be made using modern compact, high-precision analog-digital converters and microcalculators.

Claims (1)

CONVERTER OF PARAMETERS OF THREE-ELEMENT NON-RESONANCE TWO-POLE, containing a controlled voltage divider, a differentiating amplifier, a first voltage combiner, an amplifier, while the output of the differentiating amplifier is connected to the input of the controlled voltage divider, and the input of the amplifier is connected to one of the terminals for connecting the controlled two-pole amplifier, with one of the inputs of the voltage combiner, the fact is that, in order to increase the speed of the converter, Two sinusoidal signal generators, two switches, a second voltage combiner, four subtraction units, a resistor, two memory blocks, a control signal shaper, two calculators and a control unit were introduced, the outputs of the sinusoidal signal generators through the first switch connected to another terminal for connecting a controlled two-terminal device , with the input of the differential amplifier and the first subtraction unit, and the output of the amplifier, in the feedback of which the resistor is turned on, and the output of the controlled voltage divider connected to the inputs of the second subtraction unit, while the output of the latter is connected to the inputs of the first and second voltage adders, with the inputs of the first and third subtraction units, as well as the inputs of the first and second calculators, the outputs of the first voltage adder and the first subtraction unit are connected to the first calculator , and the output of the second voltage adder and the third block. subtractions are connected to the second calculator, the output of the differentiating amplifier connected to the second inputs of the second voltage adder and the third subtraction unit, the output of the first calculator through the second switch connected to the inputs of the first and second memory blocks, the outputs of the latter connected to the inputs of the fourth subtraction unit, the output of which is connected to the shaper of the control signal, while the output of the shaper of the control signal is connected to a controlled, input of a controlled voltage divider the inputs of the first and second switches are connected to the output of the control unit. SU ... 1054794