RU2575626C1 - Meter of dipole parameters - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: meter of dipole parameters comprises a generator of feed pulse sequences, comprising a rectangular pulse shaper, a switchboard, a synchronisation unit, a power amplifier. The metering circuit of the device includes serially connected resistors, to the common outlet of which the first capacitor is connected, and also the second capacitor connected in parallel to the second resistor. The meter also comprises a non-inverting voltage repeater, an inverting amplifier with a voltage amplification ratio, equal to two, a double-inlet analogue summator, a separating capacitor, a zero indicator. The novelty in the meter of dipole parameter is introduction of linearly varying voltage into the generator of the rectangular pulse shaper, an additional resistor into the metering circuit and variation in connection of the outlet of this metering circuit. The inlet of the pulse shaper of linearly varying voltage is connected to the outlet of the rectangular pulse shaper, and the outlet is connected to the second inlet of the switchboard. The additional resistor is connected between the free outlet of the first capacitor and the common outlet of the first, second resistors and the second capacitor. The outlet of the metering circuit forms the common outlet of the additional resistor and the first capacitor. This outlet is connected to the inlet of the non-inverting voltage repeater.

EFFECT: provision of the possibility to separately balance the metering circuit only by controlled resistors.

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Description

The invention relates to instrumentation, automation and control and can be used to control and determine the parameters of the measurement objects and physical quantities by means of parametric sensors.

A known two-terminal parameter meter (RF Patent No. 2156982, G01R 17/10, BI 2000, No. 27), comprising a trapezoidal pulse generator connected in series, a measuring circuit, an analog adder, an isolation capacitor and a zero indicator.

Its disadvantage is the inability to balance the measuring circuit only with exemplary adjustable resistors. Exemplary adjustable resistors in the manufacture are more technological, simple and inexpensive than the manufacture of exemplary adjustable capacitors and exemplary adjustable inductors. They have a higher accuracy class, smaller overall dimensions and less weight. They are less affected by electric and magnetic fields, noise, interference, random fluctuations, as well as changing atmospheric conditions.

A well-known bridge meter of two-terminal parameters (RF Patent No. 2474828, G01R 17/10, BI 2013, No. 4), containing a series-connected pulse generator with voltage change over their duration according to the law of power functions, a bridge electrical circuit and a zero indicator.

Its disadvantage is the decrease in measurement accuracy due to the error component of the negative influence of the common-mode signal of the differential amplifier, which is part of the zero indicator with a differential input.

The closest in technical essence and the achieved result is a two-terminal parameter meter selected as a prototype (RF Patent No. 2152622, G01R 17/10, BI 2000, No. 19), containing a series-connected generator of sequences of rectangular pulses, a measuring circuit, a non-inverting voltage follower, inverting an amplifier with a voltage gain of two, a two-input analog adder, an isolation capacitor and a zero indicator.

Its disadvantage is the inability to separately balance the measuring circuit only with adjustable resistors.

The problem to which the invention is directed, is to provide the ability to separately balance the measuring circuit only adjustable resistors.

This is achieved by the fact that in a two-terminal parameter meter containing a generator of sequences of supply pulses, which consists of a rectangular pulse shaper, from a switch that has first and second inputs, the first input is connected to the output of the rectangular pulse shaper, and the output of the switch is connected to a power amplifier, the output of which forms the first (signal) output of the pulse generator from the synchronization unit, the output of which is connected to the input of the square-pulse generator, as well as develops the second output (synchronization output) of the pulse generator, the common bus of the pulse generator is grounded, a measuring circuit that includes the first and second resistors connected in series, the free output of the first one is connected to the first (signal) output of the pulse generator, and to their common output the first capacitor is connected, the second capacitor is connected in parallel with the second resistor, the free common output of the second resistor and the second capacitor is grounded, a non-inverting voltage follower, inverting gain an amplifier with a voltage gain of two, the input of which is connected to the output of the voltage follower, a two-input analog adder, the first input of which is connected to the output of the inverting amplifier, and the second input is connected to the first (signal) input of the pulse generator, to the output of which an isolation capacitor is connected, a zero indicator, the first (signal) input of which is connected to the free output of the isolation capacitor, its second input (synchronization input) is connected to the second output (synchronization output) The pulse generator, the common buses of a non-inverting voltage follower, an inverting amplifier, a two-input analog totalizer and a zero indicator are grounded, a ramp pulse generator is introduced into the pulse generator, an additional resistor is changed into the measuring circuit, and the output of this measuring circuit is changed, the input of the ramp voltage generator connected to the output of the rectangular pulse shaper, and the output is connected to the second input of the switch, an additional a resistor is connected between the free output of the first capacitor and the common output of the first, second resistors and the second capacitor, the output of the measuring circuit forms the common output of an additional resistor and the first capacitor, this output is connected to the input of a non-inverting voltage follower.

The invention is illustrated in the drawing (figure 1).

The bipolar parameter meter contains a generator 1 of sequences of supply pulses. It consists of a synchronization cascade 2, a shaper 3 of rectangular pulses, a shaper 4 pulses of a ramp voltage, a switch 5 and a power amplifier 6. The output of the synchronization stage 2 is connected to the input of the rectangular pulse shaper 3, and its output is connected to the input of the linearly varying voltage pulse shaper 4 and to the first input of the switch 5. The output of the shaper 4 is connected to the second input of the switch 5. An analog integrator is included in the shaper 4, which converts input rectangular pulses to pulses of linearly varying voltage. This is a function of an analog integrator. The output of the switch 5 is connected to the input of the power amplifier 6. The output of the latter forms the first (signal) output of the pulse generator 1. The output of the synchronization stage 2 also forms a second output (synchronization output) of the pulse generator 1. The common bus of this generator is grounded. The first (signal) output of the generator 1 is connected to the input of the measuring circuit. It consists of a series-connected resistor 7 and resistor 8. The free output of the resistor 7 is connected to the first output of the generator 1. A capacitor 9 is connected to their common output. The capacitor 10 is connected in parallel to the resistor 8. Their common free output is grounded. An additional resistor 11 is connected between the free terminal of the capacitor 9 and the common terminal of the resistors 7, 8 and the capacitor 10. The output of the measuring circuit forms the common terminal of the capacitor 9 and the secondary resistor 11.

The input of the non-inverting voltage follower 12 is connected to the output of the measuring circuit. The use of such a repeater is explained by its known advantage - this is a large input impedance. The input of the inverting amplifier 13 with a voltage gain of two is connected to the output of the non-inverting repeater, and the output is connected to the first input of the two-way analog adder 14. Its second input is connected to the first (signal) output of the pulse generator 1. The output of the adder 14 is connected to the isolation capacitor 15.

The first (signal) input of the null indicator 16 is connected to the free terminal of the isolation capacitor 15. Its second input (synchronization input) is connected to the second output (synchronization output) of the pulse generator 1. The common tires of the pulse generator 1, non-inverting voltage follower 12, inverting amplifier 13, two-input analog adder 14 and zero indicator 16 are grounded.

The bipolar parameters meter works as follows.

From the first signal input of the generator 1 are removed the sequence of power pulses. When an alternating rectangular pulse is applied to the measuring circuit after the end of the transition process, the output voltage does not depend on the capacitance values of capacitors 9 (C9), 10 (C10) and resistance 11 (R11) and is determined only by the values of the resistors 7 (R7) and 8 (R8). In the time interval from the end of the transition process to the end of the pulse, the pulse voltage at the input of the null indicator 16, which can be used as an oscilloscope, has a flat top. By adjusting the balancing resistor 7 (R7) once, it is reduced to zero, as a result of which the first equilibrium condition is satisfied

R ₇ - R ₈ = 0. (one)

The polarity of the pulse voltage at the input of the zero indicator determines the direction of regulation of the balancing resistor 7 (R7): in the direction of increasing the resistance value or in the direction of decreasing it.

By means of the switch 5, we connect a shaper 4 of the ramp voltage pulses 4 to the power amplifier 6, and these pulses are now available at the first (signal) output of the pulse generator 1. When the next pulse is applied after the end of the transition process, the pulse voltage at the input of the null indicator 16 has a flat top. By adjusting the balancing resistor 11 (R11) once, it is reduced to zero. As a result, the second equilibrium condition is satisfied

C ₁₀ R ₇ R ₈ - C ₉ (R ₇ R ₈ + R ₈ R ₁₁ + R ₇ R ₁₁ ) = 0. (2)

As before, the polarity of the pulse voltage at the input of the null indicator 16 determines the direction of regulation of the balancing resistor 11 (R11). Regulation of it does not violate the first condition, because this resistance is not included in condition (1).

In the measuring circuit, the capacitor 9 (C9) has a known constant capacitance value, the resistors 7 (R7) and 11 (R11) have known adjustable resistance values. Parameters R8 and C10 should be determined. From (1) is the value of R8, from (2) is the value of the capacitance C10, because R8 and other parameters in (2) are known.

Thus, the presented meter is balanced only by adjustable resistors. At the same time, such an important property as separate balancing was preserved. In the considered meter there is no null indicator with a differential input, therefore there is no differential amplifier and, therefore, the component of the measurement error from the common mode signal is excluded, since the differential amplifier does not have perfect common mode rejection. A slight instability of the amplitude of the supply pulses of the generator is admissible, since the voltage of this amplitude is not included in the equilibrium condition (1), (2) and, accordingly, in the formulas for reading the desired parameters. A slight instability of the duration of the pulses of the supply generator and their repetition frequency is also acceptable.

Claims (1)

A two-terminal parameter meter containing a generator of sequences of supply pulses, consisting of a rectangular pulse shaper, a switch that has first and second inputs, the first input is connected to the output of a rectangular pulse shaper, and the switch output is connected to a power amplifier, the output of which forms the first (signal) output a pulse generator, from the synchronization unit, the output of which is connected to the input of the rectangular pulse shaper, and also forms a second output (synchronous output connection) of the pulse generator, the common bus of the pulse generator is grounded, a measuring circuit that includes the first and second resistors connected in series, the free output of the first one is connected to the first (signal) output of the pulse generator, and the first capacitor is connected to their common output, the second the capacitor is connected in parallel with the second resistor, the free common output of the second resistor and the second capacitor is grounded, a non-inverting voltage follower, an inverting amplifier with a gain of a voltage equal to two, the input of which is connected to the output of the voltage follower, a two-input analog adder, the first input of which is connected to the output of the inverting amplifier, and the second input is connected to the first (signal) input of the pulse generator, to the output of which is connected an isolation capacitor, a null indicator, the first (signal) input of which is connected to the free output of the isolation capacitor, its second input (synchronization input) is connected to the second output (synchronization output) of the pulse generator, common buses are non-invert A voltage follower, an inverting amplifier, a two-input analogue adder and a zero indicator are grounded, characterized in that the ramp pulse generator is introduced into the pulse generator, an additional resistor is inserted into the measuring circuit and the output of this measuring circuit is changed, the input of the ramp pulse generator is connected with the output of a rectangular pulse shaper, and the output is connected to the second input of the switch, an additional resistor is on chen between the free terminal of the first capacitor and the common terminal of the first, second resistor and second capacitor, the output of the measuring circuit forms a general conclusion additional resistor and the first capacitor, the output is connected to the noninverting input of voltage follower.

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