The principle of operation dictates that the
output of a cycloconverter contains some harmonics. For
drive applications, the harmonics at best increase losses in
the motor and may well cause instability.
Various methods of analysing the output waveform
have been considered. A Fortran 77 program employing a
modified Fourier series, making use of the fact that the
input waveforms are sinusoidal, was used to compute the
individual harmonic amplitudes. A six pulse three phase to
single phase cycloconverter was built and a Z-80
microprocessor was used for the control of firing angles.
Phase locked loops were used for timing, and their effect
upon the output with changing input frequency and voltage
were established. The experimental waveforms are analysed
by a FFT spectrum analyser.
The flexibility of the control circuit enables the
following investigations not easily carry out using
traditional analog control circuit. The phase relationship
between the cosine timing and reference wave in the
cosinusoidal control method was shown to affect the output
waveform and hence the harmonic content. There is no clear
optimum value of phase and the T.H.D. up to 500Hz remains
virtually constant. However, the changes of individual
harmonic amplitudes is quite significant. In practice it may
not be possible to keep the value of phase constant but it
should be considered when comparing control strategies.
Another investigation involves the changing of the
last firing angle in a half cycle. It shows that the value
of firing angles produced by the cosinusoidal control method
is desirable. Operation at theoretical maximum output
frequency was also demonstrated.
Date of Award | 1985 |
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Original language | English |
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Awarding Institution | |
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THE OUTPUT FREQUENCY SPECTRUM OF A THYRISTOR PHASE-CONTROLLED CYCLOCONVERTER USING DIGITAL CONTROL TECHNIQUES
LEUNG, C. H. (Author). 1985
Student thesis: PhD