UsefulLinks
Engineering
Electrical Engineering
Power Electronics
1. Introduction to Power Electronics
2. Power Semiconductor Devices
3. DC-DC Converters
4. AC-DC Converters
5. DC-AC Converters
6. AC-AC Converters
7. Control of Power Electronic Systems
8. Magnetic Components Design
9. Capacitors in Power Electronics
10. Thermal Management
11. Power Quality and EMI
12. Applications and Systems
6.
AC-AC Converters
6.1.
AC Voltage Controllers
6.1.1.
Single-Phase AC Controllers
6.1.1.1.
On-Off Control
6.1.1.1.1.
Integral Cycle Control
6.1.1.1.2.
Time Proportioning
6.1.1.2.
Phase Angle Control
6.1.1.2.1.
Firing Angle Variation
6.1.1.2.2.
Output Voltage Control
6.1.1.2.3.
Harmonic Generation
6.1.2.
Three-Phase AC Controllers
6.1.2.1.
Balanced Load Control
6.1.2.2.
Unbalanced Load Control
6.1.2.3.
Delta and Wye Connections
6.2.
Cycloconverters
6.2.1.
Single-Phase to Single-Phase
6.2.1.1.
Positive and Negative Converters
6.2.1.2.
Output Frequency Control
6.2.1.3.
Circulating Current Mode
6.2.2.
Three-Phase to Single-Phase
6.2.2.1.
Six-Pulse Operation
6.2.2.2.
Output Waveform Synthesis
6.2.3.
Three-Phase to Three-Phase
6.2.3.1.
Eighteen-Pulse Operation
6.2.3.2.
Output Frequency Range
6.2.3.3.
Applications in Motor Drives
6.3.
Matrix Converters
6.3.1.
Direct AC-AC Conversion
6.3.2.
Switching Matrix Configuration
6.3.3.
Commutation Strategies
6.3.4.
Input Filter Requirements
6.3.5.
Advantages and Limitations
6.4.
Solid-State Transformers
6.4.1.
High-Frequency Link
6.4.2.
Voltage Regulation
6.4.3.
Power Quality Enhancement
6.4.4.
Grid Interface Applications
Previous
5. DC-AC Converters
Go to top
Next
7. Control of Power Electronic Systems