SU1684702A1 - Measurement-type polyphase voltage-to-dc voltage converter - Google Patents

Abstract

The invention relates to a measurement technique and can be used as a symmetric multiphase AC voltage sensor, for example, as part of an automatic regulator of a statistical compensator of reactive power, where operational information is required on the value of the AC network voltage. The aim of the invention is to increase the speed - achieved by introducing resistive dividers 6-1 6-2, ... 6-Kt and K chains of t series-connected resistors 4-1 into the measuring transducer Km. 4-2, .., 4-Ksch and the formation of new functional connections, where m 2. To the number of times The measuring transducer contains terminals 1-3, neutral 5 and a multi-arm diode bridge 7. 1

Description

The invention relates to a measurement technique and can be used as a sensor of a symmetric multiphase alternating voltage, for example, as part of an automatic regulator of a static reactive power compensator, where operational information about the value of the alternating current network is required.

The purpose of the invention is to increase speed.

The drawing is a schematic diagram of a multiphase-to-constant voltage measuring transducer.

The transmitter contains terminals 1–3, intended to be connected to the phases of an alternating voltage source. Between pins 1 and 2, 1 and 3, 2 and 3 included K chains containing m 2 resistors 4-1, 4-2,., 4-Ct. In the drawing, an option for a three-phase network (K 3 and m 3) is given. Between the points of connection of resistors 4-1, 4-2 4-Kgl and the artificial neutral 5 formed, resistive dividers 6-1, 6-2,.,, 6-Kt of voltage are connected. Their outputs are connected to the inputs of a multi-arm diode bridge 7. Poles diode bridge 7 are converter outputs

Measuring transducer works as follows

Pins 1–3 contain voltages that are out of phase, for example, 120 e. hail, for a three-phase source of alternating voltage. Using resistor

00

4 VI O GO

4-1, 4-24-Km, the voltage between the terminals 1–3 is divided; As a result, at the connection points of the resistors 4-1.4-2, ..., 4-Km, we have voltages that are out of phase with respect to voltages on pins 1-3. The phase shift of these voltages relative to the original source voltages depends on the ratio of the resistances of these resistors. The number of voltage phases obtained is determined by the number of resistors 4-1, 4-2

4-Km. For example, with m 3 (as in the drawing) for a three-phase voltage source, we get an additional six voltage phases, i.e. Dev Typhase Voltage. The amplitudes of the voltages of the additional phases are not equal to the amplitude of the voltage of the source, therefore, to equalize them, we use resistive dividers of 6–1, 6–26 – Kt voltage, which are chosen so that at their outputs the amplitudes of all voltages are (relative to neutral 5) were equal to each other. The multiphase voltage obtained in this way is rectified with the help of a multi-arm diode bridge 7. At the output of bridge 7 there is a voltage, the pulsation level of which is determined by the number of voltage phases received (the more t, the lower the ripple and the faster .

The use of the proposed transmitter in voltage regulators makes it possible to obtain higher control quality with greater reliability.

Claims (1)

Invention Multi-Phase-to-Voltage Measuring Transducer Containing a Multi-Mounted Diode Bridge, Output which is connected to the output of the converter, characterized in that, in order to increase speed, Kmi resistive dividers are introduced, where, K is the number of phases, K chains of t series-connected resistors, each of which is connected between adjacent phases of the network, are connected to common resistor terminals Accordingly, the first pins of resistive dividers, the second pins of which are combined, and the outputs are connected to the inputs of the multilink diode bridge.