Your search keyword '"Ning, Puqi"' showing total 3 results

1. Reducing Parasitic Electrical Parameters with a Planar Interconnection Packaging Structure.

Author

Liang, Zhenxian, Ning, Puqi, Wang, Fred, and Marlino, Laura

Abstract

A novel packaging structure for medium power modules featuring power semiconductor switches sandwiched between two symmetric substrates that fulfill electrical conduction and insulation functions is presented. The power switches in a popular phase leg electrical topology are orientated in a face up/face down configuration. Large bonding areas between dies and substrates combined with a compact busbar interface allow this packaging technology to offer dramatic improvements in electrical conversion efficiency and electromagnetic interference containment. [ABSTRACT FROM PUBLISHER]

Published

2012

2. Planar bond all: A new packaging technology for advanced automotive power modules.

Author

Liang, Zhenxian, Ning, Puqi, Wang, Fred, and Marlino, Laura

Abstract

A novel packaging structure for liquid cooled automotive power modules is developed. It features sandwiching power semiconductor switches between two symmetric substrates, which serve electrical interconnection and insulation. Two mini coolers are directly bonded to the outside of these substrates, allowing double sided, integrated cooling. The power switches in a popular phase leg electrical topology are orientated in a face up/face down three-dimensional (3-D) interconnection configuration. The bonding areas between dies and substrates, substrates and coolers are designed to use identical materials and formed in one heating process, in which a special fixture has been made so that a high efficiency production can be implemented. Combining these features with the thermal and electrical advancements, this packaging technology offers dramatically comprehensive improvements in power module's cost effectiveness, electrical conversion efficiency and thermal management, as demonstrated by a planar bond packaged prototype of a 200A/1200V phase leg power module. [ABSTRACT FROM PUBLISHER]

Published

2012

3. Development of Si IGBT Phase-Leg Modules for Operation at 200 °C in Hybrid Electric Vehicle Applications.

Author

Xu, Zhuxian, Jiang, Dong, Li, Ming, Ning, Puqi, Wang, Fei Fred, and Liang, Zhenxian

Subjects

INSULATED gate bipolar transistors, SILICON, THERMAL management (Electronic packaging), HYBRID electric vehicles, ELECTRIC potential, CONVERTERS (Electronics), TEMPERATURE sensors

Abstract

A Si insulated-gate bipolar transistor (IGBT) phase-leg module is developed for operating at 200 °C in hybrid electric vehicle applications utilizing the high temperature packaging technologies and appropriate thermal management. The static and switching electrical characteristics of the fabricated power module are tested at various temperatures, showing that the module can operate reliably with increased but acceptable losses at 200 °C. The criterion on thermal performance is given to prevent thermal runaway caused by fast increase of the leakage current during a high temperature operation. Afterward, the thermal management system is designed to meet the criterion, the performance of which is evaluated with experiment. Furthermore, two temperature-sensitive electrical parameters, on-state voltage drop and the switching time, are employed for thermal impedance characterization and the junction temperature measurement during converter operation, respectively. Finally, a 10-kW buck converter prototype composed of the module assembly is built and operated at the junction temperature up to 200 °C. The experimental results demonstrate the feasibility of operating Si device-based converters continuously at 200 °C. [ABSTRACT FROM AUTHOR]

Published

2013