Add to ORKGThis paper describes a new packaging technique for improving the thermal and switching characteristics of high power IGBTs. Two patterned DBC (Direct Bond Copper) substrates are used to contact the top and bottom of an IGBT chip. In this way, heat dissipation can take place on both sides of the device, and the wire-bonding between the emitter pad and the package electrode can be eliminated. Experimental results show that this packaging technique can improve the heat dissipation in an IGBT with approximately 84% increase in current handling capability and 33% decrease in steady-state thermal impedance. The packaging technique can also improve the frequency characteristics of the IGBT. At 10 KHz for example, there is approximately 37% increas...
Currently, wide bandgap semiconductor devices feature increased efficiency, higher current handling ...
The spectrum of conventional power electronics packaging reaches from SMD packages for power chips t...
The design of novel solutions for packaging and integration of power semiconductor devices to delive...
On the basis of the development and application requirements of flexible DC transmission techniques,...
[[abstract]]In this paper, a thermal enhanced design for a high power density system in package (SiP...
Integrated Gate Bipolar Transistors (IGBTs) generally have a high output power and generate signific...
High power circuits, those involving high levels of voltages and currents to produce several kilowat...
This paper presents the work on an alternative integration scheme for a half-bridge switch using 70 ...
The thermal management of power electronics is critical to the long term reliability of these device...
In electric vehicles and hybrid electric vehicles, insulated-gate bipolar transistor (IGBT) power mo...
As an increasing attention towards sustainable development of energy and environment, the power elec...
An alternative integration scheme for a half-bridge switch using 70 μm thin Si IGBTs and diodes is p...
Since the introduction of the first power module by Semikron in 1975, many innovations have been mad...
International audienceThis work investigates a packaging solution for high power density semiconduct...
The stitch wire configuration is widely adopted for large-area IGBT chips. However, an inhomogeneous...
Currently, wide bandgap semiconductor devices feature increased efficiency, higher current handling ...
The spectrum of conventional power electronics packaging reaches from SMD packages for power chips t...
The design of novel solutions for packaging and integration of power semiconductor devices to delive...
On the basis of the development and application requirements of flexible DC transmission techniques,...
[[abstract]]In this paper, a thermal enhanced design for a high power density system in package (SiP...
Integrated Gate Bipolar Transistors (IGBTs) generally have a high output power and generate signific...
High power circuits, those involving high levels of voltages and currents to produce several kilowat...
This paper presents the work on an alternative integration scheme for a half-bridge switch using 70 ...
The thermal management of power electronics is critical to the long term reliability of these device...
In electric vehicles and hybrid electric vehicles, insulated-gate bipolar transistor (IGBT) power mo...
As an increasing attention towards sustainable development of energy and environment, the power elec...
An alternative integration scheme for a half-bridge switch using 70 μm thin Si IGBTs and diodes is p...
Since the introduction of the first power module by Semikron in 1975, many innovations have been mad...
International audienceThis work investigates a packaging solution for high power density semiconduct...
The stitch wire configuration is widely adopted for large-area IGBT chips. However, an inhomogeneous...
Currently, wide bandgap semiconductor devices feature increased efficiency, higher current handling ...
The spectrum of conventional power electronics packaging reaches from SMD packages for power chips t...
The design of novel solutions for packaging and integration of power semiconductor devices to delive...