RU87845U1 - DEVICE FOR TESTING ELECTRICITY CONVERTERS - Google Patents

Abstract

The utility model relates to the field of production, conversion and distribution of electricity, namely, devices for testing electric power converters. The essence of the utility model is that an additional power source with a power not exceeding 20 ÷ 25% of the maximum receiver power and an electric power converter are introduced into the device for testing transducers containing a receiver and a power source, while the output of the additional power source is connected to the input of the power source and the output of the electric power converter, the output of which is connected to the output of the receiver, the input of which is connected to the output of the power source. The use of this device for testing transducers will reduce the power taken from the source of electricity, as well as reduce the body emission from the device as a whole. 1 pf, 1 ill.

Description

The utility model relates to the field of production, conversion and distribution of electricity, in particular, to devices for testing power converters.

The closest in technical essence and the achieved result is a device for measuring the voltage loss in an electric power transmission line, containing a power source and a receiver (Reference manual on electrical engineering and the basics of electronics: A manual for non-electrical specialties of universities. Edited by A.V. Netushil. - M .: High school., 1986. p. 52-53).

A disadvantage of the known device for changing the voltage loss in the electric power transmission line is the high energy consumption, since in most cases a resistive load is used as the receiver load and all electric energy is converted to heat.

The technical result, the achievement of which the creation of this utility model is aimed, is to reduce the power taken from the electric power source and to reduce the heat emission from the device as a whole.

The technical result achieved is achieved by adding an additional power source, the power of which does not exceed 20 ÷ 25% of the maximum power of the receiver, which is the tested electric power converter, and an additional electric power converter, with an additional electric output the power source is connected to the input of the power source and to the output of the electric power converter, the input of which is connected to the output a receiver whose input is connected to the output of the power source.

Figure 1 presents a block diagram of a device for testing power converters.

A device for testing electric power converters (Fig. 1) contains an additional power source 1, a power source 2, an electric power converter 3, and a receiver 4.

An additional power source 1 is selected with a power not exceeding 20 ÷ 25% of the maximum power of the receiver 4, which is used as the tested electric power converter.

The output of the additional power source 1 is connected to the input of the power source 2 and to the output of the electric power converter 3, the output of the power source 2 is connected to the input of the receiver 4 (the tested electric power converter), the output of which is connected to the input of the electric power converter 3.

The device operates as follows.

The voltage from the additional power source 1 (Fig. 1), the power of which should be no more than 20 ÷ 25% of the maximum power of the receiver 4, is supplied to the input of the power source 2, from which the power is supplied to the receiver 4 (tested electric power converter). In this case, the electric power converter 3 serves as a load for the studied converter 4. The energy taken from the studied converter 4 by means of the introduced converter 3 is sent to the input of the power source 2. As a result, only that part of the electric energy that is consumed in the converters and caused by them is taken from the additional power source 1 efficiency At the same time, the tested converter operates in its nominal mode at capacities 4-5 times higher than the power consumed from the additional power source 1.

The proposed device for testing electric power converters can be effectively used to study powerful electric power converters (tens of kilowatts), where the problem of heat discharge is especially relevant, and energy savings are very noticeable.

Claims (1)

A device for testing electric power converters, including a receiver and a power source, characterized in that an additional power source with a power not exceeding 20 ÷ 25% of the maximum power of the receiver and an electric power converter are introduced into it, while the output of the additional power source is connected to the input of the power source and with the output of the electric power converter, the input of which is connected to the output of the receiver, the input of which is connected to the output of the power source.