N. Udugampola scite author profile

This paper presents a novel chip on board assembly design for an integrated power switch, based on high power density 800V silicon lateral insulated-gate bipolar transistor (Si LIGBT) technology. LIGBTs offer much higher current densities (5-10X), significantly lower leakage currents, and lower parasitic device capacitances and, gate charge compared to conventional vertical MOSFETs commonly used in LED drivers. The higher voltage ratings offered (up to 1kV), the development of high voltage interconnection between parallel IGBTs, self-isolated nature and absence of termination region unlike in a vertical MOSFET makes these devices ideal for ultra-compact, low bill of materials (BOM) count LED drives. Chip on-board LIGBTs also offer significant advantages over MOSFETs due to high ambient temperatures seen on most of the LED lamps as the LIGBTs on-state losses increase only marginally with temperature. The design is based on a built-in reliability approach which focuses on a compact LED driver as a case-study of a cost-sensitive large volume production item.

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Ultra-fast LIGBTs and superjunction devices in membrane technology

Udrea¹,

Trajković²,

Lee³

et al.

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Flip-chip assembly and 3D stacking of 1000V lateral IGBT (LIGBT) dies

Trajković

Udugampola

Pathirana

et al. 2016

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N. Udugampola

800V lateral IGBT in bulk Si for low power compact SMPS applications

Low-Loss 800-V Lateral IGBT in Bulk Si Technology Using a Floating Electrode

Avalanche ruggedness of 800V Lateral IGBTs in bulk Si

Ultra-fast LIGBTs and superjunction devices in membrane technology

Flip-chip assembly and 3D stacking of 1000V lateral IGBT (LIGBT) dies

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