The SMTest software system for test stands of synchronous machines

Abstract

We have developed algorithms and programs for automated tests of synchronous machines. The programs were made using the LabVIEW development system. They are interrelated and have been combined into one software system. An approximation of its characteristics using regression equations of different orders with mean-square rate control is used in the algorithms to determine static parameters. A combined optimizing algorithm that is based on the least squares method and alternating-variable descent method is used to determine dynamic parameters. A new effective and adaptive method of sliding trigonometric interpolation is used to filter out possible noise in measuring channels of voltage and current sensors, while determining the parameters of sinusoidal signals in the stationary modes and dots of envelope curves in the transient modes. To reduce the time needed to obtain static characteristics, the software has a special virtual instrument with a field current control loop with a PID controller that provides desired field forcing. The SMTest software system has been tested using HIL modeling and laboratory test stations. Analysis of test results shows that, even when the acquired signal has a 30% noise level, the calculation error in the determination of parameters does not exceed 6%. The software, when used in stationary or mobile test stations, allows automating the process of obtaining characteristics and determining the main static and dynamic parameters of midand high-power rotor synchronous machines.