Title :
Highly compact AC-AC converter achieving a high voltage transfer ratio
Author :
Chang, Jie ; Sun, Tom ; Wang, Anhua
Author_Institution :
Rockwell Sci. Co., Thousand Oaks, CA, USA
fDate :
4/1/2002 12:00:00 AM
Abstract :
This paper reports a new, highly integrated modular design approach for pulsewidth-modulation AC-AC converters based on a modular phase-bank structure. Novel high-power 3-in-1 integrated bi-directional power modules (IBPM) rated at 1200-V AC and 150 A and the 3-to-1 phase bank circuits have been successfully developed, fabricated and tested. This enables the modularity design of the multiphase converter systems and reduces the critical parasitic inductance. A theoretical analysis of the IBPM´s silicon utilization for this new breed of direct power converters has been outlined. A lab prototype at medium power level has been successfully designed, implemented, and tested with good results. A nearly 460-VRMS out voltage at a 1:0.955 voltage transfer ratio, which, perhaps, is the highest performance reported so far in the literature, has been achieved by the novel two-side modulation control system. The converter-fed AC motor system is able to operate over the 0-240 Hz range with inherent regenerative capability and four-quadrant operation. Potential industrial applications are also briefly highlighted in this paper
Keywords :
AC motors; AC-AC power convertors; PWM power convertors; power semiconductor switches; switching circuits; 0 to 240 Hz; 1200 V; 150 A; 3-to-1 phase bank circuits; 460 V; AC motor system; AC-AC PWM power convertor; critical parasitic inductance reduction; four-quadrant operation; integrated modular design approach; modular phase-bank structure; regenerative capability; two-side modulation control system; voltage transfer ratio; AC motors; Bidirectional control; Circuit testing; Control systems; Electrical equipment industry; Inductance; Multichip modules; Prototypes; Silicon; Voltage control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
