The paper describes a frquency domain technique for the controller design and stability analysis of multi-machine power system indud& a superconducting genertor (SCG). An equivalent model for each generator is obtained, taking into account the dynamic interaction between units, and is used as a base for controller design, the air-cored nature of the SCG and its very long field time constant renders that the governor control is to be considered only. The design technique enables the controller designers to add the required phase at the machine electromechanical frequency, ensuring a satisfactory transient response and prevent the possibilities of system failure.
MORSY, G. (1999). CONTROL AND STABILITY ANALYSIS OF A SUPERCONDUCTING GENERATOR IN A MULTI-MACHINE POWER SYSTEM. ERJ. Engineering Research Journal, 22(3), 135-149. doi: 10.21608/erjm.1999.72457
MLA
G.A. MORSY. "CONTROL AND STABILITY ANALYSIS OF A SUPERCONDUCTING GENERATOR IN A MULTI-MACHINE POWER SYSTEM", ERJ. Engineering Research Journal, 22, 3, 1999, 135-149. doi: 10.21608/erjm.1999.72457
HARVARD
MORSY, G. (1999). 'CONTROL AND STABILITY ANALYSIS OF A SUPERCONDUCTING GENERATOR IN A MULTI-MACHINE POWER SYSTEM', ERJ. Engineering Research Journal, 22(3), pp. 135-149. doi: 10.21608/erjm.1999.72457
VANCOUVER
MORSY, G. CONTROL AND STABILITY ANALYSIS OF A SUPERCONDUCTING GENERATOR IN A MULTI-MACHINE POWER SYSTEM. ERJ. Engineering Research Journal, 1999; 22(3): 135-149. doi: 10.21608/erjm.1999.72457
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