SU560296A1 - Alternator Testing Device - Google Patents

Description

one

The invention relates to the field of electrical engineering and is intended for testing alternators.

A device for testing alternating current generators containing a set of active and reactive resistances and switching equipment is known. This device has low energy indices, since it dissipates the electric power of the tested Generator, and also has limited possibilities of controlling the load parameters.

It is also known the device that is the closest in the problem to be solved and the technical essence to the proposed one. This device contains terminals for connecting a generator, series-connected first filter of high harmonics of alternating current, first thyristor converter, smoothing choke, second thyristor converter, second filter of higher harmonics of alternating current and terminals for connecting the electrical network, rectified current sensor connected between power and control inputs of the second thyristor converter. To control the power factor of the generator load, a sensor is used that directly measures the power factor of the generator load.

The disadvantages of this device are narrow range of power factor adjustment, due to the lack of sensitivity of the sensor factor

power, at low and high load currents, and also insufficient functionality related to the imperfect testing of an alternator in the mode of its continuous transition from generator mode to reverse power mode (active power consumption). In addition, the disadvantage of this device is that the power factor sensor is not equipped and that it has to be replaced or reconfigured.

when testing alternators with different nominal voltage, frequency, or current values.

The aim of the invention is to expand the functional capabilities and the range of adjustment of the power factor of the device.

This goal is achieved by the fact that the device is equipped with a sensor of rectified voltage, the input of which is connected to the power input of the second thyristor converter, and the output - to the control input of the first thyristor converter. The input of the rectifier sensor molkhet be connected to the power input of the second

thyristor converter via bridge rectifier.

The use of a rectified voltage sensor for adjusting the power factor is based on the relationship:

 Ud,

cos cf

where Sha is the voltage exerted under load and controlled by angle a; W, „- the direct voltage at a current close to the no-load current.

The use of a bridge rectifier allows to maintain the polarity of the signal coming from the rectified voltage sensor to the control input of the controlled rectifier, both in the generator rectifier test and when testing the generator in reverse power mode.

The drawing shows a schematic diagram of the proposed device.

The device for testing the alternator contains controlled thyristor converters (for example, three-phase bridge circuits) 1 and 2, which include amplifiers 3 and 4, respectively, phase-shifting blocks 5 and 6; a smoothing choke 7, a rectified current sensor (for example, a shunt) 8, a rectified voltage sensor (for example, a voltage divider) 9 bridge rectifier 10, high harmonic filters of alternating current 11 and 12. The AC generator under test is connected to the terminals of the first high harmonic filter 11. The terminals of the second harmonic filter 12 are connected to the electrical network.

When testing the alternator in the generator mode, the device operates as follows.

The electric energy of the tested generator is supplied through the filter of high harmonics of alternating current AND to the thyristor converter 1, operating in the mode of a controlled rectifier. The magnitude of the power factor of the electrical energy delivered by the generator is set by the firing angle of the thyristors of the thyristor converter 1 and is controlled by a signal from the rectified voltage sensor 9 to the amplifier 3. The rectified DC voltage is smoothed by the choke 7, inverted by the thyristor converter 2, operating in a controlled inverter mode, and fed through a filter of higher harmonics of alternating current 12 to the electrical network. The magnitude of the current delivered by the generator under test is set by the firing angle of the thyristors of the thyristor converter 2 and is controlled by a signal from the rectifier current sensor 8 to

amplifier 4. Phase-shifting units 5 and 6 convert voltages coming respectively from amplifiers 3 and 4 into the firing pulses of the thyristors of the thyristor converters 1 and 2. At the same time, in the rectified current circuit, the electric potential of point A is higher than the potential of point B. The rectifier 10 provides current flow through the rectified voltage sensor 9.

When testing the alternator in reverse power mode, the thyristor converter 1 operates in the mode of a controlled inverter, and the thyristor converter 2 operates in the mode of a controlled rectifier. The power network (active component) is transmitted to the generator under test. In this case, in the rectified current circuit, the electric potential of point A is lower than the potential of point B. Bridge rectifier 10 ensures the polarity of the signal from the rectified voltage sensor 9 to the amplifier 3 is constant and consistent.

The proposed device, through the use of a rectified voltage sensor and a bridge rectifier, provides for the regulation of the power factor over a wider range and has greater functionality.

Claims (2)

1. Device for testing an alternator, containing terminals for connecting a generator, connected in series the first filter of higher harmonics of alternating current, first thyristor converter, smoothing choke, second thyristor converter, second filter of high harmonics of alternating current and terminals for connecting the electrical network, sensor rectified current connected between the power and control inputs of the second thyristor converter, characterized in that, in order to expand the function capabilities and the range of power factor control, it is equipped with a rectified voltage sensor, the input of which is connected to the power input of the second thyristor converter, and the output to the control input of the first thyristor converter. 2. The device according to claim 1, characterized in that the input of the rectified voltage sensor is connected to the power input of the second thyristor converter via a bridge rectifier. Priorities for items: 04/08/75 under item 1; 10.11.75 under item 2. inp COtirtH. ChuPrugm.