论文信息 - Steady State Temperature Study on RF LDMOS with Structure Modification

Steady State Temperature Study on RF LDMOS with Structure Modification

This paper is devoted to temperature analysis on power RF LDMOS with different feature parameters of die thickness, pitch S length and finger width. The significance of these three parameters is determined from temperature comparison obtained by 3D Silvaco-Atlas device simulator. The first three simulations focus on temperature variation with the three factors at different output power density respectively. The results indicate that both the thinner die thickness and the broaden pitch S length have distinct advantages over the shorter finger width. The device, at the same time, exhibits higher temperature at a larger output power density. Simulations are further carried out on structure with combination of different pitch s length and die thickness at a large 1W/mm output power density and the temperature reduction reaches as high as 55%.

Qiang Chen | Xiaohong Sun | Huai Gao | Haodong Wu

[1] K. Ketata,et al. Reliability study of power RF LDMOS device under thermal stress , 2007, Microelectron. J..

[2] Ashok Raman,et al. Simulation of nonequilibrium thermal effects in power LDMOS transistors , 2003 .

[3] A. Castellazzi,et al. Electrothermal simulation of multichip-modules with novel transient thermal model and time-dependent boundary conditions , 2006, IEEE Transactions on Power Electronics.

[4] Improved electrical and thermal performance of ultra-thin RF LDMOS power transistors , 2003, IEEE MTT-S International Microwave Symposium Digest, 2003.

[5] Jaume Roig,et al. Modeling of non-uniform heat generation in LDMOS transistors , 2005 .

[6] Jiann-Shiun Yuan,et al. Adaptive Gate Bias for Power Amplifier Temperature Compensation , 2011, IEEE Transactions on Device and Materials Reliability.

[7] R. Ishikawa,et al. Precise modeling of thermal memory effect for power amplifier using multi-stage thermal RC-ladder network , 2006, 2006 Asia-Pacific Microwave Conference.

[8] Fadhel M. Ghannouchi,et al. Thermal memory effects modeling and compensation in RF power amplifiers and predistortion linearizers , 2003 .

[9] K. Ketata,et al. Comparative analysis of accelerated ageing effects on power RF LDMOS reliability , 2005, Microelectron. Reliab..

[10] T. Rahkonen,et al. Measurement technique for characterizing memory effects in RF power amplifiers , 2000, RAWCON 2000. 2000 IEEE Radio and Wireless Conference (Cat. No.00EX404).