SU798607A1 - Bridge for measuring resistance of object with polarizing processes - Google Patents

Description

Union of Soviet Socialist Republics

USSR State Committee for Inventions and Discoveries

Inventions

TO AUTHOR'S CERTIFICATE (61) Additional to author. certificate (22) Announced 01.10.76 (21) 2408047 / 18-21 with the addition of application No. (23) Priority Published on 01/23/81, Bulletin N8 s

Date of publication of the description 2 301.81 (72) Author of the invention

G.I. Peredelsky <1.798607 (51) M. Cl. ^thirteen

G 01 R 17/10 (53) UDC 621.31 /.

.077 (088.81 (71) Applicant

Tomsk Institute of Automated Control Systems and Radio Electronics (54) BRIDGE METER OF PARAMETERS OF THREE-ELEMENT PASSIVE DOUBLE-POLE

The invention relates to electrical engineering and can be used in information technology, automation and industrial electronics, in particular, for measuring three components: two active and reactive physical quantities of passive two-terminal devices.

There is an electric bridge for measuring three parameters, which ^υ contains a power generator, a comparison arm made according to the equivalent circuit of the object under study, and the relationship shoulders that I represent! exemplary elements of the same type 15 Pa [1].

In such a device, the balancing process is delayed due to the fact that separate balancing is available only in two out of three measured components.

The bridge meter, which contains a pulse generator included 25 in one diagonal of the bridge, the other diagonal of which is measuring, the two opposite shoulders of the bridge formed by resistors, and the other two passive two-terminal devices, 30 •

one of which is measurable, and the other is balancing [2].

In such a device, balancing requires multiple sequential adjustment of the three balancing organs, i.e. it has a complex and lengthy balancing process.

The purpose of the invention. - acceleration of the process of measuring the parameters of bipolar.

This goal is achieved by the fact that in the bridge meter of the parameters of three-element passive two-pole, containing a pulse generator of complex shape, the diagonal of the four-armed bridge is included in the odga, the other diagonal of which is measuring, and the two opposite shoulders of the bridge are formed by resistors, and the other two are passive three-element two-terminal ones of which is measurable, and the other balancing, one of the two-terminal devices is made in the form of a chain of series-connected capacitor and p a resistor in parallel with which a resistor is connected, and the other ~ in the form of a resistor and an inductor connected in series, in parallel with which a resistor is connected.

The drawing shows a circuit diagram of a three-element bridge meter.

passive bipolar.

The device contains a bridge-shaped pulse generator 1, a resistor 2 of one arm and a parallel connected capacitor 3 and a resistor 4 parallel to it, and a series-connected resistors 5 and 6 and an inductor 7 connected in parallel with the resistor 6 are included in the non-adjacent arm. In the two remaining non-adjacent arms, only resistors 8 and 9 are included.

The device operates as follows.

In the initial state, i.e. in the absence of a pulse from the generator 1, the capacitor 3 and the inductor 7 are free of energy reserves.

From the generator 1, an electric impulse in the form of a rectangular trapezoid enters the electric 20 bridge. When a flat top acts in steady state through a capacitor 3, a zero current is established, and the voltage becomes zero on the inductor 7. Therefore, the nonequilibrium voltage in this section depends only on the resistance of the resistors 2,5,8 and 9. Suppose that in the first arm there are three measured elements, and in the non-adjacent arm there are three 'balancing ones.' By adjusting the resistance of the resistor 5, the voltage of the disequilibrium in this interval is reduced to zero, i.e. fulfill the first condition of equilibrium and take the count.,

When exposed to a linearly varying part of the supply pulse after the end of the transient processes, a current independent of the resistance of the resistor 4 is established through the capacitor 3, and a voltage independent of the resistance of the resistor 6 is established on the inductor 7.

As a result, over this period of time, the nonequilibrium voltage depends on the capacitance of the capacitor 3 and the inductance of the coil 7. Changing the inductance of the coil 7, · bring the nonequilibrium voltage to zero here, i.e. they fulfill the second equilibrium condition and take the capacitance count. During the action of a jump in the supply pulse, during the transient processes after the first two conditions of equilibrium are satisfied, the nonequilibrium voltage depends only on the resistance of two resistors 4 and 6. By adjusting the resistance of resistor 6, the nonequilibrium voltage is brought to zero here, i.e. fulfill the last condition of equilibrium and take a reference of the resistance of resistor 4. It can be seen that only by a single turn of the adjustments of the three balancing organs, i.e. simply and quickly the electric bridge is brought to equilibrium in three components.

Claims (1)

(54) BRIDGE METER OF PARAMETERS OF THREE-ELEMENT PASSIVE TWO-POLES The drawing shows a basic electrical diagram of the bridge and three-element parameters of the bridge. passive two-terminal. The device contains a supplying bridge generator 1 pulses of complex shape, a resistor 2 of one arm and parallel to it are connected and serially connected capacitor 3 and a resistor 4. In the non-adjacent arm are included, in series connected resistors 5 and 6 and inductance coil 7 connected in parallel with resistor 6, B the two remaining non-adjacent shoulders include only resistors 8 and 9. The device operates as follows. In the initial state, i.e. in the absence of a pulse from the generator 1, the capacitor 3 and the inductor 7 are free from energy reserves. From generator 1, an electric impulse is supplied to the electric bridge in the form of a rectangular trapezium. When the plane top acts in a steady-state mode, a zero current is established through the capacitor 3, and the voltage on the inductor 7 becomes zero. Therefore, the imbalance voltage in this area depends only on the resistance of the resistors 2,5,8 and 9. Suppose that in the first shoulder three measured elements are included, and in the non-adjacent shoulder three equilibrating elements are included. By adjusting the resistance of the resistor 5, the non-equilibrium voltage at this time interval is brought to zero, i.e. the first equilibrium condition is satisfied and OTj :: 4eT is taken. When the linearly varying part of the supply pulse is applied, after the transients end, a current is established through the capacitor 3 that does not depend on .o, the resistance of the resistor 4 is set at the coil 7 The voltage does not depend on the resistance of the resistor 6. As a result, during this time interval the disequilibrium voltage depends on the capacitance of capacitor 3 and the inductance of coil 7. By changing the inductance of coil 7, the non-equilibrium voltage here is zero, i.e. . the second equilibrium condition is fulfilled and a capacitance reading is taken. During the action of a supply pulse jump. During transients after the first two equilibrium conditions are met, the imbalance voltage depends only on the resistance of two resistors 4 and 6. By adjusting the resistance of the resistor 6, the imbalance voltage here is zero, i.e. the last condition of equilibrium is fulfilled and the resistor 4 is counted. It can be seen that only a single turn of the adjustments of the three equilibration organs, i.e. simply and quickly, the electric bridge is balanced by the three components. Claims of the Invention Bridge parameter meter of three-element passive two-terminal network, comprising a complex form factor 5P pulse generator, included in one diagonal of a four-shoulder bridge, another diagonal of which is measuring, with two opposite arms of the bridge being formed by resistors and two others by passive ones. three-element, two-pole, one of which is measurable, and the other balanced, characterized in that the purpose of accelerating the process of measuring the parameters of two-pole, one of them is made in the form of a chain of sequentially connected capacitor - and a resistor in parallel. and the other is in the form of a series-connected resistor and inductor, in parallel of which a resistor is turned on. Sources of information taken into account in the examination 1. USSR author's certificate 413430, cl. G 01 R 17/10, 1974. Copyright certificate of the USSR 200662, cl. G 01 R 17/10 ,. 1967 (prototype). eight i 9