SU847235A1 - Stand for testing self-sustained electric power system - Google Patents

Description

electrical parameters of the generators of the system under test. This goal is achieved by the stand for testing an autonomous electric power system containing a series-connected driver, a generator voltage calculation unit, a load switching unit, a matching unit with an output for connection to the system under test, and a measuring unit with an input for connection to the system under test and connected an output with a second input of a generator voltage calculating unit, the third input of which is connected to the second output of a load switching unit connected by a second input to The second output of the driver is provided with a comparison unit and serially connected systems with an frequency controller, a frequency reducer and a generator with an output for connection to the system under test, the input of the comparison unit being connected to the output of the measuring unit, and the third output of the setting device frequencies. The drawing shows a block diagram of a stand for testing an autonomous electric power system. The bench consists of a series-connected master device 1, a generator voltage calculation unit 2, a load switching unit 3, a matching unit 4, a power system 5 under test and a measuring unit connected by one output to the input of the comparison unit 7, and the other to the second the input of the generator voltage calculation unit 2, the third input of which is connected to the second output of the load switching unit 3 connected by the second input to the second output of the back-end device 1, the third output of which through the speed regulator 8, c Stem 9 GD, gearbox 10 and the generator 11 is connected to the second input of the test power system 5 is controlled by specifying the stand ustro stvom 1, which comes signa ly to enable and disable calculating unit 2, and voltage-generator controller 8 rotation frequency. When turned on, calculator 2, for example, generators, is a circuit implementation of a mathematical description of a generator, based on the standard values of electromagnetic parameters for each type of generator, is generated by the generator current components d and ij, which are fed to the input of the load switching unit 3. The output signal of the load switching unit 3 is where Upg is the calculated generator voltage Id and Urt- components of the voltage This is the signal supplied to the input of the cooling unit 4, where it will be converted into generator phase voltages according to the expression U, .gCosuui Uвв-o Uдg..шt, is the frequency of the alternating current in the tested power system 5. These phase voltages are amplified and the signals to the input of the tested power system 5 are received by the signals |, - in-ft% similar to the signals of the real generator 11. From the output of the tested power system 5 in measuring unit 6 step This excitation current is measured and scaled, after which the resulting signal ig is fed to the input of the generator voltage calculation unit 2, thereby stabilizing the generator voltage and. After turning on, the speed regulator 8 controls the excitation circuits of the 9G-D units of the system and controls the rotational speed of the engine of the 9GD system and, therefore, the generator 11, which is connected to the drive shaft of the engine through the gearbox 10. The exact values of the electromagnetic parameters of the real generator 11, which differ from its standard calculated values, are determined by equalizing the values of the excitation current, phase currents and / or voltages synchronously operating (at the same load and in the same transient mode, for example, switching on the excitation, switching the load and etc.) real generator 11 and generator voltage calculation unit 2. When comparing these values, there are usually discrepancies. . ai / A-AZA / EG-A / -a / in "-1 &2; / Sv “- in / z; These discrepancies are due to the technological variation of the electromagnetic parameters of generators of the same type during their manufacture. The evaluation of the existing discrepancies is made in comparison unit 7, where the enumerated values come from the tested power system 5 through measuring unit 6. Comparison schemes are implemented in comparison unit 7 in accordance with the selected criterion.

Claims (1)

Claim Test stand for an autonomous electric power system, comprising a serially connected master device, a generator voltage calculation unit, a load switching unit, a matching unit with an output for connecting to the test system 5 and a measuring unit with an input for connecting to the tested system and connected to an output with a second input of the calculation unit voltage of the generator, the third input of which is “A dinen with the second output of the load switching unit, connected by the second input to the second output of the master characterized by the fact that, in order to expand functionality by determining the exact values of the electromagnetic parameters of the generators of the tested system, the stand is equipped with a comparison unit and series-connected Gd system with a frequency regulator, gearbox and generator with an output for connection to the test system, and the input of the comparison unit is connected to the output of the measuring unit, and the third output of the master device is connected to the input of the frequency controller.