SU883792A1 - Multi-channel telemetric converter of resistance to time interval - Google Patents

Description

a connecting element, resistors, a switch and a second wire of the communication line, the output of the second regulating element being connected via a second wire of the communication line and resistors to the power source; the second input of the control unit is connected to the output of the switch, whose inputs are connected to the resistor terminals, and The adjusting inputs of the regulating elements are interconnected by G21. The presence of the second regulating element in such a device partially compensates for the effect of the voltage of the reference source on the measurement result, however, the effect of high-frequency ripples of the source voltage (the period of which is commensurate with the measurement time) is not compensated by the circuit, since these pulses directly go to reference input block comparison. This disadvantage of the circuit assumes the emergence of a highly stable source of reference voltage at a remote point, which leads to a complication of the device and a decrease in its reliability. The aim of the invention is to simplify the converter. The goal is achieved by the fact that in a multichannel tele-measuring transducer of resistance in a time interval containing a power source, the output of which is connected to the first terminals of the reference resistor and storage capacitor, the second output of which is connected to the first input of the comparator unit and the output of the regulating element which is connected via resistive sensors and the first group of keys to the Earth case, the second output of the reference resistor is connected to the second input of the comparison unit, the second group for keys, a third group of keys and additional model resistors are introduced, and the control input of the regulating element is connected to the second group of keys, the second terminals of which are connected to the first viewpoints of additional resistors and, through the third group of keys, to the second input of the block, The second terminals of the additional model resistors are connected to the common terminals of the resistive sensors and the first group of keys. The drawing shows a block diagram of the converter. . 4 The converter consists of sensors 1-1 | connected by one pins through the first group of keys 2-2 /, to the ground, and by other pins to the first input of the regulating element 3, the output of which is connected to the first input of the comparison unit 5 via the wire 4 of the communication line and to the second output of the storage capacitor 6, the first the output of which is connected to ground via the power source 7, and through the exemplary resistor 8 to the second input of the comparator unit 5, which is connected to the first terminals of the additional exemplary resistors 10-10 via the third group of switches 11-llj via wire 9 of the communication line, and itelnye resistors 10-10 12-12 via a second key group have are connected to a control input of the regulating member 3, the second terminals of resistors 10 additional model-lOyj connected with common vyvrdami resistive sensors 1-1 and 2-2 of the first group of keys. The Converter operates as follows. In the initial state, the storage capacitor is 6 discharges. When interrogating one of the resistive sensors, for example, 12) the keys are 25 1 T and 12 and the circuit is supplied with the supply voltage from the power source 7. The magnitude of the current J / j flowing through the reference resistor 8 is equal to. VMoO where .Е is the voltage of the power supply source 7,% resistance of the reference resistor 8, wire 9 of the communication line, exemplary additional 1P / 2 resistor, respectively. The voltage on the storage capacitor 6 increases according to the law I ± .P 4.- 1.- i- 3lBj ©, С с 2 С RX С RX. CR (resistance of the resistive sensor Ig, voltage at the control input of the regulating element 3. Comparison unit 5 operates at the moment of equality of the voltages at the storage capacitor 6 and the exemplary resistor 8

Vse.

ER oEKV

(3)

CR (Rg.V, From the expression (3) the time interval fcjf from the moment the power is applied to the circuit until the operation of the unit 5 comparison

 --I

Thus, the reference voltage on the regulating element 3 in the circuit is set not from a separate source, as in a known device, but from the power source 7.

As can be seen from the expression (.47, the measurement result does not depend on the voltage E of the power source, if this voltage is constant during the measurement time, i.e. the requirements on the power source 7 in the proposed converter are similar to the requirements of The reference source in the circuit is aware of the device. However, this requirement is much easier to satisfy when the power source 7 is located at the receiving point.

The introduction of the third group of keys and additional model resistors makes it possible to dispense with a highly stable source of reference voltage at the distant point while maintaining a high accuracy of the measurement, which generally simplifies the equipment.

Claims (2)

1. USSR Author's Certificate No. 474766, cl. G 01 R 27/00, 1973, 2. Authors certificate of the USSR 645097, cl. G 01 R 27/00, 1976.