SU645097A1 - Multichannel remote measuring converter of resistance to time interval - Google Patents

Description

A second control element, resistors, a non-switch, and a second line connection are inputted, the output of the second control element is connected to the power supply through the second wire of the communication line and resistors, the second input of the matching device is connected to the output of the switch , and control inputs of control elements are interconnected.

The drawing shows the scheme of the proposed Converter.

The converter consists of a charging capacitor 1 and a resistor 2, which are connected at the same pins to the source pntann 3; comparison unit 4, one of the inputs of which is connected to the second output of the charging capacitor and the input of the wire 5 of the communication line, and the other to the output of the switch 6. One of the inputs of the switch 6 is connected to the second output of the resistor 2, and through the resistor 7, to the second the input of the switch and the input of the wire 8 of the communication line, the output of which is connected to the output of the regulating element - transistor 9. The output of the wire 5 of the communication line is connected to the output of the regulating element - transistor 10, to the input of which one of the terminals connected resistor sensors 11.

The other terminals of the resistor sensors are connected to the ground via switches 12, and to keys 13 to one of the poles of the reference source 14, the other pole of which is connected to the control inputs of the regulating elements 9 and 10. A resistor 15 is connected to the input of the regulating element 9.

The device works as follows.

In the initial state, the capacitor 1 is discharged, the switch 6 is in the upper position, the keys 12 and 13 are open. When polling one of the sensors 11, for example the leftmost one in the diagram, closes the upper of the keys 13 and, simultaneously with it, the left of the keys 12 (the origin). This is established on resistor 15 and sensor I as much as equal to the reference power source, since transistors 9 and 10, used as control elements, operate in the saturation mode, in which the values of currents through transistors do not depend on the value of the collector tension

On resistors 2 n 7, the voltage values are determined by the current flowing through the communication wire 8.

Since the current flowing through the capacitor 1 remains unchanged, the voltage across it will vary linearly.

Comparison unit 4 operates at the moment when the voltage across the capacitor and resistor 2 differs by the threshold value of the comparison device.

By the output signal of the comparison unit, the non-switch b is not reconnected to the lower tension.

The second triggering of the comparison unit will occur at the moment when the voltage on the capacitor differs by the value of the comparison device from the total voltage on the resistors 2 and 7.

The measurement result is the time interval between the first and second operations of the comparison device.

R

/ 2 - ti And is equal to CR-.

° 13

Thus, the measurement result does not depend on the magnitude of the voltage of the reference source, on the response rate of the comparison device, and on the residual voltage on the charging capacitor.

Claims (2)

1. USSR author's certificate Yao 531085, G 01R 17/00, 1976. 2. USSR author's certificate L 524215, G 01R 27/00, 1976.