Title :
A novel three-phase utility interface minimizing line current harmonics of high-power telecommunications rectifier modules
Author :
Kolar, Johann W. ; Zach, Franz C.
Author_Institution :
Power Electron. Section, Tech. Univ. Wien, Austria
fDate :
8/1/1997 12:00:00 AM
Abstract :
Based on the combination of a three-phase diode bridge and a DC/DC boost converter, a new three-phase three-switch three-level pulsewidth modulated (PWM) rectifier system is developed. It can be characterized by sinusoidal mains current consumption, controlled output voltage, and low-blocking voltage stress on the power transistors. The application could be, e.g., for feeding the DC link of a telecommunications power supply module. The stationary operational behavior, the control of the mains currents, and the control of the output voltage are analyzed. Finally, the stresses on the system components are determined by digital simulation and compared to the stresses in a conventional six-switch two-level PWM rectifier system
Keywords :
DC-DC power convertors; PWM power convertors; electric current control; power semiconductor diodes; power system harmonics; rectifying circuits; switching circuits; telecommunication power supplies; voltage control; DC link feed; DC/DC boost converter; VIENNA rectifier; controlled output voltage; digital simulation; high-power telecommunications rectifier modules; hysteresis control; line current harmonics minimisation; low-blocking voltage stress; mains currents control; neutral point control; neutral-point clamped converter; output voltage control; power transistors; sinusoidal mains current consumption; six-switch two-level PWM rectifier system; stationary operational behavior; system components stresses; telecommunications power supply module; three-phase diode bridge; three-phase utility interface; three-switch three-level PWM rectifier; Bridge circuits; Diodes; Power transistors; Pulse width modulation; Pulse width modulation converters; Pulsed power supplies; Rectifiers; Stress control; Telecommunication control; Voltage control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
