SU648917A1 - Passive two-pole network parameter meter - Google Patents

Description

(54) METER OF PARAMETERS OF PASSIVE TWO-POLEMENS

a resistor as well as a control signal conditioner, the latter being connected to one of the additional resistor leads and to one of the switch inputs, the other to the last is connected to the output of a sinusoidal oscillator, and the other pin of the additional resistor is connected to the body control is connected to one of the pins of the adjustable element, besides the mobile terminal of the switch is connected to another output of the adjustable element, and the control input of the switch with It is connected to the output of an interval time block.

The drawing shows a structural diagram of the meter.

The meter contains a generator of 1 sinusoidal signals, an operational amplifier 2, a measurable object 3, an adjustable element (resistor) 4, a phase shifter 5, phase-sensitive voltmeters b and 7, a driver 8, a zero-body 9, a time delay block 10, a switch 11 and a constant resistor 12.

Generator 1 sinusoidal signals directly and via phase rotation device 5 is connected to the reference inputs of two phase-sensitive voltmeters b and 7. The serially connected measured object 3 is connected to the input of operational amplifier 2 and adjustable resistor 4 is connected to the inputs of phase-sensitive voltmeters. The output of the generator 1 is connected to the input of the zero-body 9, the output of which is connected to the input of the block 10 time delay. A control input of the switch 11 is connected to the output of the time lag unit. One switch terminal is connected to the generator output, the other to the connection point of the driver 8 and resistor 12, and the change-over terminal to an adjustable resistor. The output of the driver 8 is connected to the control input of an adjustable resistor, which has a negative resistance.

The device works as follows.

A sinusoidal voltage generator 1 via a switch 11 feeds a circuit consisting of a series-connected measuring object 3, an adjustable resistor 4 and an operational amplifier 2. The in-phase and quadrature components of the output voltage of the operational amplifier are measured by phase-sensitive voltmeters 6 and 7, respectively. are the voltage in phase with the power supply, and the voltage shifted relative to it by 90 using the phase shifter 5.

At the moment when the sinusoid voltage of the supply voltage passes through zero, the zero-body 9 is triggered, the triggering time delay unit 10 (for example, a blocking generator or one-shot), which for some time transfers the change-over contact of switch 11 from one position to another, connecting a resistor 4 with a negative adjustable resistance to a constant resistor 12.

If the duration C of the pulse of the time lag is chosen so small that during this time the voltage on the capacitance C does not have time to change significantly, then during the time that the switch is in another position, the voltage on the resistor 12 is equal to the voltage on the capacitor

By periodically translating switch 11 from one position to another, resistor 12 forms a sequence of voltage pulses of a duration whose amplitude is equal to the amplitude of the voltage on the total resistance.

The voltage across the total resistance can be zero (for finite C d) only in one case, namely, when the total resistance is zero.

Thus, the absence of a voltage pulse on the resistance 12 at the moment of the sinusoid voltage crossing the power through zero indicates the moment of compensation by the controlled negative resistor 4 of the resistance of the measured object, and the presence of a pulse indicates the presence of uncompensated resistance.

Consequently, a sequence of voltage pulses on the resistance 12 can be used to control the negative resistor 4, which compensates for the resistance of the object being measured.

The voltage pulses are applied to the input of the driver of the 8. control signal by an adjustable resistor. The signal from the driver output causes a change in the negative resistance of the adjustable resistor 4 until the moment when the pulses at the driver input disappear, i.e. until compensation.

The structure of the driver is determined by the type of control signal of the adjustable resistor and can be implemented by means of fine and limescale methods. So, for example, when using a resistor controlled by a constant voltage, the driver is the simplest integrated amplifier.

Claims (2)

After adjusting the negative resistance before the pulses on the measuring resistor disappear, the active resistance value can be counted by the negative resistance value, the active component of the two-element part of the object being measured is proportional to the in-phase component of the output voltage of the amplifier 2, and its value can be counted according to the parameters of a photosensitive voltmeter 7, the reactive component of the two-element part of the studied two-terminal network is proportional to the square component of the output output The voltage of the amplification of the bodies 2 and its value can be counted according to the indications of the phase-sensitive voltmeter 6. If the period of the supply voltage is much longer than the duration of the time delay block C, the switching does not affect the indications of the phase-sensitive voltmeters, because of their inertia controlling the inertial null modulation indicator increases the speed of the device. The meter allows you to measure the parameters of objects, equivalent circuits of which are a series connection of active resistance and capacitance, in parallel of which a multi-element two-port network is connected. The meter allows you to solve many problems arising from the research in electrochemistry, biology, in industry when monitoring the parameters of various technological processes and finished products. Claims The passive two-pole parameter meter comprising a sinusoidal oscillator, the output of which is directly and via a phase shifter connected to the reference inputs of two phase-sensitive voltmeters, as well as to the zero-organ input, an adjustable element connected to one clip for connecting the measurement object, the other clip is connected to the input of an operational amplifier whose output is connected to the measuring inputs of two phase-sensitive voltmeters, characterized in that, in order to expand the func of the device’s national capabilities, a time delay block, a switch, an additional resistor, and a control signal generator are inputted, the input of the latter is connected to one of the terminals of the additional resistor and one of the inputs of the switch, the other input of the latter is connected to the output of the sinusoidal oscillation generator, and Another pin of the additional resistor is connected to the case, while the output of the control signal conditioner is connected to one of the pin of the adjustable element, besides the moving pin the switch is connected to another output of the adjustable element, and the control input of the switch is connected to the output of the time interval block. Sources of information taken into account in the examination 1. A. Mart tires A.I. and others. Converters of electrical parameters for control and measurement systems. Energie, M., 1976, p. 2. USSR author's certificate number 220346, cl. G 01 R 17/14, 03/21/76