SU771568A1 - Method of measuring insulation resistance of dc mains relatively to the case (earth) - Google Patents

Description

Switches associated with changes in the composition of the network cause changes in the magnitudes of the elements of the isolation circuit and voltage surges, then practically in the isolation circuit between the moments of these disturbances is all the time, the voltage component varies, the frequency of which is in the network of a modern ship it is at best ten seconds, so the use of bridge circuits using these methods becomes impossible.

The aim of the invention is to improve the accuracy and reduce the measurement time while ensuring the independence of the device from the presence of a transient in the isolation circuit while retaining the advantages inherent in measuring the insulation resistances at equipotential points.

The drawing shows a device for implementing a method for measuring the resistance of a DC network impedance. The elements of the controlled network are represented by the battery 1, equivalent to the capacitances 2, 3 of the network, resistances 4 ,. 5 isolation network poles. The measurement device includes a measuring resistor b, a storage capacitor 7, a co-operation system including switches 8, 9, 10, a switch control unit 11, an operational amplifier 12, an ohmmeter 13.

In this case, the mains voltage source is represented by the battery 1 (the mains voltage source can be any DC voltage generator and the corresponding switching point can be selected anywhere in the network circuit, including in the network sections, where the potential measured relative to the pole, is part of the network voltage, for example, half the network voltage).

The switching system provides two modes of operation of the device: preparatory and measuring. These modes are distributed in time by the control unit 11 and the subordinate control unit switches 8, 9, 10.

In the drawing, the positions of the moving contacts of the switches determine the preparatory mode of operation of the device, in which the non-inverting input of amplifier 12 is connected to the corresponding switching point in the network selected on one of the wires connecting adjacent sections of the battery 1, the output of the amplifier is permanently connected to the housing , against which the insulation resistance of the network is measured, through the measuring generator-torus 6 and connected in parallel with a memory capacitor switch 9, and the inverting switch in One amplifier through switch 8 is connected to the housing.

in this case, the operational amplifier 12 is switched on according to the voltage follower circuit duplicating the test point voltage on the case. This switch provides fast recharge of capacitances 2 and 3 of the network, at the point of the housing until the voltage of the switch-on point, and after establishing the process of recharging the indicated capacitances between the amplifier output, a measuring resistor b flows through the measuring resistor, the network bus and power wires booster. The magnitude and direction of the specified current provides the condition of equipotentiality of the control point and the housing. The isolation circuit is shunted by the dynamic output resistance of the repeater, so all its disturbances are forced by the voltage follower that maintains the equipotentiality of the control point and the housing, and the storage capacitor 7 constantly updates information about the current flowing through the insulation resistance and the resistor 6, which separates On the capacitor 7 in the form of a voltage proportional to the specified current and the magnitude of the resistance of the resistor b.

When entering the measurement mode, the capacitor 7 switches to the non-inverting input of amplifier 12, and the inverting input of the amplifier is connected to the output of the amplifier, and between point B1 {: switch on the network and the housing turns on an ohmmeter 13. In this case, the operational amplifier 12 is switched on according to the current stabilizer circuit the reference source on the capacitor 7 and the reference resistance on the resistor b. A resistor b, an isolation circuit, a busbar, supplying the amplifier wires, and an amplifier pass a current, the magnitude and direction of which is equivalent to the current passing through this circuit in the pre-set mode. But in this case, the isolation circuit is shunted by a very high output resistance of the current stabilizer, the magnitude of which can be neglected in the measurement. Therefore, an ohmmeter 13 connected between the grid connection point and the housing shows the resistance value of the circuit section compensated for the network operating voltage, which includes the parallel connected resistances 4 and 5 of the insulation of both poles of the network and the resistance of the current regulator. Since the network circuit resistance can be neglected due to its smallness, and the current stabilizer resistance can be neglected due to its very large value, the reading on an ohmmeter with great reliability corresponds to the parallel connection of the insulation resistance of the network poles, i.e.

.

mm

where is the rulnt ohmmeter report,

CdI pole resistance set relative to the body, the corresponding resistances 4 and 5.

The proposed method will allow to increase the measurement accuracy.

Claims (2)

1. Physical encyclopedic dictionary, m., Sov. encyclopedia, 1963, v. 3, p. 330 - 332. five 2. USSR author's certificate  369515, cl. G 01 R 27/18, 08.17.70.