SU1707548A1 - Device for measuring transient-residual voltage drop - Google Patents

Abstract

The invention relates to the field of high-voltage impulse technology and can be used to measure impulse voltages. The aim of the invention is to expand the operational characteristics. This is achieved by introducing into the device a chain consisting of a series-connected diode and a source of the reference voltage 5, consisting of a capacitor 6 and a variable resistor 7 that allows the measuring device to be connected to the test object. for unlimited time In addition, the device contains a capacitive-voltage divider, consisting of a low-voltage arm 2 and a high-voltage arm 1, the transmission line 3 of the recorder about 1 silt. with s

Description

(54) DEVICE FOR MEASURING TRANSITIONAL-RESIDUAL VOLTAGE DROP (57) The invention relates to the field of high-voltage pulse technology and

can be used to measure impulse voltages. The aim of the invention is the expansion of operational characteristics. This is achieved by introducing into the device a circuit consisting of a series-connected diode 4 and a reference voltage source 5, consisting of a capacitor 6 and a variable resistor 7 ”, which allows connecting the measuring device to the monitoring object for an unlimited time. In addition, the device comprises a capacitive-ohmic voltage divider, consisting of a low-voltage arm 2 and a high-voltage arm 1, a transmission line 3 from the recorder. 1 ill. ·. ®

Craigie strat.

SU 1707548 A1 '1707548

The invention relates to a pulse technique and can be used to measure pulse voltages.

The aim of the invention is to expand the operational characteristics of the device.

The drawing shows an electrical schematic diagram of a measuring device.

The device for measuring the transient-residual voltage drop contains a capacitive-ohmic voltage divider, consisting of a series of connected high-voltage 1 and low-voltage 2 shoulders, parallel to the low-voltage shoulder 2 is connected to the transmission line of the recorder 3, a chain of series-connected diode 4 and a source of reference DC voltage 5, the output of the high voltage 'arm 1 is connected to the first output of the capacitor 6, the second output of the capacitor 6 is connected to the first output of the diode 4 and the middle output of the variable voltage a resistor 7, the second terminal of the diode 4 is connected to the first terminal of the variable resistor 7 and the first terminal 8 for connecting to the measured voltage source, the second terminal of the variable resistor 7 is connected to the terminal of the low voltage arm 2, the second terminal 9 for connecting to the measured voltage source and the common bus, the source 5 of the reference DC voltage is made in the form of a storage element on the capacitor 6.

The device operates as follows.

Initially, a high voltage, which is present between the terminals of the measured voltage source 10, is applied to the diode 4 in the locking direction. At this stage, the current through diode 4 practically does not flow 45; and the signal amplitude in the transmission line 3 is close to zero. At the same time, using a high-resistance resistor 7, an electric capacitor 6 is charged to a predetermined reference voltage level. The reference voltage level is set by moving along the middle output resistor 7; Thus, the reference voltage source 5 is prepared for subsequent operation.

As a result of external action, a transient process is excited in the measured voltage source 10, which occurs in the voltage drop between the terminals of the measured voltage source 10, the low-voltage stage of this process of voltage drop and the residual voltage between the outputs. The source 10 is to be measured by the device. At the time when the voltage between the terminals of the source 10 of the measured voltage becomes less than the voltage between the terminals of the source 5 of the reference; voltage, diode 4 opens and the reference voltage source 5 excites a current in the circuit, the reference voltage source 5 - diode 4 - the measured voltage source 10 - the capacitive-ohmic voltage divider (line 3 and impedances 2 and 1) - the reference voltage source 5. As a result of the flow of this current through a parallel-connected impedance of the low-voltage arm 2 and the input of the transmission line 3, a voltage drop is created between the connection points of these elements, the value of which, up to the corresponding fraction of the voltage drop across the open diode 4, is divided by the division coefficient of the capacitive-ohmic divider voltage difference between the value of the reference voltage and the magnitude of the voltage between the terminals of the source 10 of the measured voltage. A signal whose amplitude is equal to the voltage drop across the low-voltage arm of the voltage divider and which in the simplest way contains information about the magnitude and behavior in time of the transient-residual voltage drop between the terminals of the measured voltage source 10, on the transmission line to 3 torus.

Claims (2)

Formula and go to register 1. A device for the residual voltage drop containing a capacitive-ohmic voltage divider, consisting of series-connected high-voltage and low-voltage arms, a register transmission line is connected parallel to the low-voltage arm, characterized in that, with the aim of expanding operational 'characteristics, a chain of diode and a constant reference source connected in series for measuring 1707548 _; ^{6 of the} resistor is connected to the output of the low-voltage arm, a second terminal for connecting to a measured voltage source and a common bus. I voltage, and the output of the high-voltage arm is connected to the first output of the Capacitor, the second output of the capacitor is connected to the first output of the diode and the middle output of the variable resistor, the second output of the diode is connected. ; with the first output of the variable resistor and the first terminal for connecting to the measured voltage source, the second output of the alternating re10 2 “The device according to 1, which includes the fact that the source of the reference constant voltage is YOU; full in the form of a storage element on a capacitor.,