Frequency

Frequency measurement is accomplished by measuring the time between zero crossings

of the composite signal of three-phase bus voltages, line voltage or three-phase currents.

The signals are passed through a low pass filter to prevent false zero crossings. Frequency

tracking utilizes the measured frequency to set the sampling rate for current and voltage

which results in better accuracy for the Discrete Fourier Transform (DFT) algorithm for offnominal

frequencies.

The main frequency tracking source uses three-phase bus voltages. The frequency

tracking is switched automatically by an algorithm to the alternative reference source, i.e.,

three-phase currents signal if the frequency detected from the three-phase voltage inputs

is declared invalid. The switching will not be performed if the frequency from the

alternative reference signal is detected invalid. Upon detecting valid frequency on the

main source, the tracking will be switched back to the main source. If a stable frequency

signal is not available from all sources, then the tracking frequency defaults to the nominal

system frequency.