A l - A h s a C o l l e g e o f T e c h n o l o g y A l - A h s a C o l l e g e o f T e c h n o l o g y A Proposed Switching Strategy A Proposed Switching Strategy for Space Vector Modulated for Space Vector Modulated Current Link Inverters Connected Current Link Inverters Connected to the Public Grid to the Public Grid ن م ح ر ل ها ل ل ما س ن م ح ر ل ها ل ل ما س م ي ح ر ل ا م ي ح ر ل اDr. Eng. El-Sayed S. A. Said Dr. Eng. El-Sayed S. A. Said Al-Ahsa College of Technology Al-Ahsa College of Technology
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A Proposed Switching Strategy A Proposed Switching Strategy for Space Vector Modulated for Space Vector Modulated
Current Link Inverters Connected Current Link Inverters Connected to the Public Gridto the Public Grid
الله الله بسم بسمالرحيم الرحيم الرحمن الرحمن
Dr. Eng. El-Sayed S. A. Said Dr. Eng. El-Sayed S. A. Said Al-Ahsa College of TechnologyAl-Ahsa College of Technology
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Paper AspectsPaper Aspects• Pulse Width Modulations PWMsPulse Width Modulations PWMs
•MModulationodulation in in the area of the area of PPower ower
EElectronicslectronics provides a simple and efficient provides a simple and efficient way for obtaining a way for obtaining a controllablecontrollable AC signal AC signal from either variable or constant DC supply.from either variable or constant DC supply.
E
E
carrierpp
referencpp
Modulation Parameters
Modulation index Ma = = TT
C
MAXON
Frequency ratio Mf = F
F
refrence
carreier
= FF
R
C
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Simple PWM Simple PWM GeneratorGenerator
Carrier PWM Pattern
- The Average
+
Reference
Inputs Modulator Output
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Symmetrical PWMSymmetrical PWM
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Simple PWM Simple PWM GeneratorGenerator
Carrier PWM Pattern
- The Average
+
Reference
Inputs Modulator Output
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Voltage Level ControlVoltage Level Control
Ma=0%
Ma=110%
Over modulation
Ma=100%
Ma=10%
Ma=50%
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Fundamental frequency Fundamental frequency controlcontrol
FC = 500 Hz, Fref = 50 Hz
FC = 750 Hz, Fref = 75 Hz
FC = 1000 Hz, Fref = 100 Hz
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Space Vector Current Link Space Vector Current Link PWMPWM
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Space Vector Current Link Space Vector Current Link PWMPWM
Six realizable current vectors
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Realizing the Mathematical Realizing the Mathematical ModelModel
I ref
t1 t2 t0
T Cell dtI ref0
tdtI1
0 1
ttt dtI
21
12
T
ttCell dtI
210
Assuming that is in sector 1 as shown in Fig.1, the durations
,
and
can be obtained from the following current-time integral:
= +
+
On the other hand the duration t0 = [Tcell – (t1 + t2)]
+
,
I ref
I
1 I
2
For high switching frequency can be assumed constant during each cell time.
, are also considered constant during each cell time while I0 =0
Analytical CalculationsAnalytical Calculations MMaa=(0-115)% Versus the =(0-115)% Versus the FundamentalFundamental
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Experimental ResultsExperimental Results The SAB80C517A microcontroller has been used for the digital realization of the symmetrical cell time PWM_CSI Line Current Waveform Line Current Waveform
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Experimental ResultsExperimental ResultsSpectra of the Line Current Spectra of the Line Current MMaa=113%=113%
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Experimental ResultsExperimental ResultsSpectra of the Line Current Spectra of the Line Current Ma=48%Ma=48%
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Experimental ResultsExperimental ResultsSpectra of the Line Current Spectra of the Line Current MMaa=10%=10%
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Experimental ResultsExperimental ResultsSpectra of the Line Current MSpectra of the Line Current Maa=50%=50%
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Experimental ResultsExperimental Results
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ConclusionsConclusions• In addition to the limited control range, the classical modulated
techniques can not fulfill most of the harmonic and the wave form constraints of many industrial applications. We have replaced these techniques by the symmetrical cell time space vector PWM_CSI techniques. In this work, the space vector PWM_CSI symmetrical cell time technique, have been realized, implemented and experimentally tested. The measured harmonics of the inverter line currents are found to be in satisfactory agreement with the calculated harmonic contents. The wide dynamic range of the modulation index control and the high utilization factor of the DC link have also been verified experimentally
• In this work a Software synchronizer for a line current inverter connected to the mains line voltage is presented. The synchronizer based on a cell time controlled SPLL technique has been implemented using an Intel 80C517A Microcontroller system. The experimental results show some features of the presented system. They are listed below:
• The SPLL capability to synchronize the inverter to the mains even starting from a wrong phase sequence.
• The flexibility of the SPLL, where it can follow the permissible variation of the fundamental of the mains