SU798629A1 - Apparatus for measuring insulation resistance of electric circuits with static transducers - Google Patents

Description

Connecting elements, such as resistors, are introduced, each of the KOTojxjx is connected to the input of a switch with one water, and the other to one of the poles of each static converter. The drawing shows the block circuit of the device. Device 1 consists of a measuring unit 2, switch 3, resistors 4, the device operates as follows. Before starting the measurement, the switch 3 connects those of the resistor 4, which are connected to statically converters operating in the discontinuous current mode, to one and the phases of the AC network, then the switch 3 connects to the phase of the AC network the insulation resistance measurement unit 2, which measures the equivalent of the insulation resistance of the monitored network, For a three-phase AC network containing two static converters, the measuring current in the presence of resistors (g) between the phase of the AC network and one of the poles of each static converter will be described with equations. - When ..- th ..,. ,, pp cto °. - 3 × R Rl Rltr R R Pn at ChmAt- - n I Rg + R. Pn t -cc At | ci, TI V4 where Oz d is the voltage of the measuring source; Vn. - internal resistance of the measuring circuit; T ---- 7 is the equivalent resistance of I. insulation of the monitored K - equivalent insulation resistance of the controlled network from the side of variable fOKa; R-equivalent to the insulation resistance of the monitored network from the DC side; respectively, the control angles of the first and second static transducers; R is the equivalent insulation resistance on the constant side of the first static converter; equivalent insulation resistance on the constant side of the second static converter. Let us establish the value of the resistor r incommensurably smaller than the measured insulation resistance, i.e. put r «rl; Mr. “K. . (4) Then from (4) we can write R1. + R Rt (5) We substitute the expression (5) into equations (1) and (2), then we obtain with JL.,, -, p. , -; / Aj, 1 ".1 Ain .. P -IT-I U: When o6 t -y-, d P. AiL 2 3-d2 g -a l / Transform equation (6) and get I Equation (8) is true for all angles of control of static converters, including for .dl. It can be seen from equation (8) that a device for measuring the insulation of electrical networks with static converters provides an unambiguous relationship between the measuring current and the equivalent resistance of the insulation of a monitored network. The invention formula for measuring the resistance of insulation of electric networks with static converters, containing a measuring unit, one terminal of which is connected to the housing (earth), and the other via a switch, to one of the phases of the electrical network, In order to expand the functionality of the device, connecting elements are introduced, for example, resistors, each of which is connected by one output to the corresponding input of the switch and the other to one of the poles of each of the static converters. Sources of information taken into account during the examination 1. V.T. Samoylov Automation of shipboard electrical installations. L., Shipbuilding, 1972, p. 159-162. 2. Published for Germany 01 R 27/18, 1977 2721813, cl. G (prototype).

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Claims (1)

SUMMARY OF THE INVENTION A device for measuring the insulation resistance of electrical networks with static converters, comprising a measuring * 5 block, one terminal of which is connected to the housing (ground), and the other through a switch, with one of the phases of the electrical network, characterized in that, for the purpose of 50 expanding the functionality of the device, introduced connecting elements, such as resistors, each * of which with one output connected to the corresponding input 55 switches, and the other to one of the poles of each of the static converters.