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High Power Converters and Applications
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Title: High Power Converters and Applications
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Power Converter Systems Graduate Course EE8407
Bin Wu PhD, PEng Professor ELCE
Department Ryerson University Contact Info
Office ENG328 Tel (416) 979-5000 ext
6484 Email bwu_at_ee.ryerson.ca http//www.ee.ryers
on.ca/bwu/
Ryerson Campus
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Topic 2 High-Power Semiconductor Devices
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High-Power Semiconductor Devices
Lecture Topics
- Power Diode
- SCR Thyristor
- Gate Turn-Off Thyristor (GTO)
- Integrated Gate Commutated Thyristor (GCT)
- Insulated Gate Bipolar Transistor (IGBT)
- Switch Series Operation
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High-Power Semiconductor Devices
- Device Rating
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Power Diode
4500V/800A press pack and 1700V/1200A module
diodes
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Power Diode
- Heatsink Assembly
- Press pack device
- Double sided cooling
- Low assembly cost and high power density
- Preferred choice for high voltage high power
applications
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SCR Thyristor
4500V/800A and 4500V/1500A SCRs
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SCR Thyristor
- Switching Characteristics
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SCR Thyristor
- Main Specifications
12000V/1500A SCR Thyristor
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Gate Turn-Off (GTO) Thyristor
4500V/800A and 4500V/1500A GTOs
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Gate Turn-Off (GTO) Thyristor
- Symmetrical versus Asymmetrical GTOs
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Gate Turn-Off (GTO) Thyristor
- Switching Characteristics
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Gate Turn-Off (GTO) Thyristor
- Main Specifications
4500V/4000A Asymmetrical GTO Thyristor
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Integrated Gate Commutated Thyristor (GCT)
6500V/1500A Symmetrical GCT
GCT Improved GTO Integrated Gate
Anti-parallel Diode (optional)
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Integrated Gate Commutated Thyristor
- GCT Classifications
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Integrated Gate Commutated Thyristor
- Switching Characteristics
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Integrated Gate Commutated Thyristor
- Main Specifications
6000V/6000A Asymmetrical GCT
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Insulated Gate Bipolar Transistor (IGBT)
1700V/1200A and 3300V/1200A IGBT modules
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Insulated Gate Bipolar Transistor (IGBT)
- IGBT Characteristics
Static V-I Characteristics
Switching characteristics
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Insulated Gate Bipolar Transistor (IGBT)
- Main Specifications
3300V/1200A IGBT
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Device Series Operation
- Cause of Voltage Imbalance
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Device Series Operation
- Equal Voltage Sharing
- S1, S2, S3
- GTO, GCT or IGBT
- Voltage Sharing
- v1 v2 v3 in steady state
- and transients
- Static Voltage Sharing
- Rv
- Dynamic Voltage Sharing
- Rs and Cs
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Device Series Operation
- Active Overvoltage Clamping (AOC)
- Suitable for series IGBTs
- Not applicable to GCTs
- Assumption
- S1 is turned off earlier than S2
- VCE1 is clamed to Vm due to
- active clamping.
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Summary
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Thanks
