Difference between revisions of "Projects:2017s2-291 Measurement of Transformer Parameters"
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=Introduction= | =Introduction= | ||
A transformer is an electrical device based on Faradays’ law of electromagnetic induction to change alternating voltage, such as increasing or reducing voltage. We are interested in transformer in this project because it is widely be used in power industrial and essential for power transmission over long distance in power grid. Knowing parameters inside transformer will help us understanding the structure of transformer more clearly, and the method used to predict parameters inside transformer is useful for further study measurement which non-linear input and output. | A transformer is an electrical device based on Faradays’ law of electromagnetic induction to change alternating voltage, such as increasing or reducing voltage. We are interested in transformer in this project because it is widely be used in power industrial and essential for power transmission over long distance in power grid. Knowing parameters inside transformer will help us understanding the structure of transformer more clearly, and the method used to predict parameters inside transformer is useful for further study measurement which non-linear input and output. |
Revision as of 15:32, 5 June 2018
Introduction
A transformer is an electrical device based on Faradays’ law of electromagnetic induction to change alternating voltage, such as increasing or reducing voltage. We are interested in transformer in this project because it is widely be used in power industrial and essential for power transmission over long distance in power grid. Knowing parameters inside transformer will help us understanding the structure of transformer more clearly, and the method used to predict parameters inside transformer is useful for further study measurement which non-linear input and output. This project also improve our ability of dealing with model, how to fit expected model outcomes with reality outcomes and how to analysis and minimize errors between them.
The aim of this project is mapping the transformer device in figure1.2 with the model of equivalence circuit to get 7 parameters value inside transformer model as “accurate” as possible. This project is trying to using figure2 to match with figure 1. In another word, comparing our reality measurement of transformer with the theoretical model and analysis error between them. To summarize the aim of this project: • Analysis the model in figure 1.1, doing the rough test to get a rough 6 parameters. • Substitute these rough parameters into transformer model for open circuit, short circuit and cross circuit of transformer to get these input impedance which record as Zin_model • Measuring the open, short and cross circuit use transformer in figure 1.2 to get input impedance of measure Zin which record as Zin_measure. • Error analysis between Zin_model and Zin_measure, then optimize error and get final 7 parameters result.
Method
In order to get value of R and X, we measure input voltage and current from port A and port B as one terminal which shows in figure 3.1. From ohms law, the input impedance isZin =Vin/Iin. Splitting the real part and imaginary part of Zin to get R and X value respectively. R=real(Zin), X=imaginary(Zin). The one-port model which also known as choke is consist of a resistor and inductor. Two-port model is more complicate than one port model, but the method we used to get parameters is similar as one-port model. Doing open circuit and short circuit for primary side (240V) of transformer and secondary side (24V) and two cross connection tests. Each case of these tests can be regard as one-port test and collect Vin and Iin for each test to calculate Zin based on ohms law. For sub-section Zin model, as we have 6 Zin for open circuit connection, short circuit connection and cross connection, we derive formula for these six Zin based on R1, X1, R2, X2, Rc and Xm then substitute rough parameters we get from section 4 into our derived formula. For measured Zin, the setting up of equipment which including power analyser, oscilloscope for measurement and using varic for power supply. In order to keep current consistency, the Zin for cross connection should be discharged, thus we have 4 Zin to collect. We regarding 4 Zin which has same current as a group, we measure 11 times to get 11 groups of Zin. Actually we have done a lot measurements for these 6 Zin, but only these 11 groups of Zin has the consistency current and useful, I will demonstrate specifically in this sub-section of measured Zin. The sub-section Matlab method is mainly about the method and approach for data analysis.
Conclusion-Findings
After data analysis, it was found that the average reactance numerical values of the linear parameters in a T model equivalent circuit strongly depend on the operating condition of the transformer. In addition, the following findings were made in this project: • The impedance of a PMG choke does not stay constant after reaching the maximum value during varying operating conditions. • The equivalent circuit of a PMG choke is not only a resistor and an inductor in series. Or there are huge error occurred during measurement. • Resistance and reactance do not reach the peak value in the same operating condition. • Impedance of a transformer remains constant if the current through its windings is maintained at the same value. • Resistance slightly depends on the operating condition after saturation.
Further work
In future, there are still several problems that need to be addressed. For instance, there is a need to determine the ideal equivalent circuit of the PMG choke. Additionally, investigations should be conducted on the PMG choke to determine why no saturation reflects on any of its curves yet it has an air gap. Finally, because for a transformer it is hard to modify the operating condition of a transformer to a specified value by using a variac or a signal generator with an amplifier, research is needed to determine what device can provide reliable input voltage source for the measurement of parameters?