论文信息 - Transient 3D heat flow analysis for integrated circuit devices using the transmission line matrix method on a quad tree mesh

Transient 3D heat flow analysis for integrated circuit devices using the transmission line matrix method on a quad tree mesh

Abstract This paper presents a 3D transmission line matrix (TLM) implementation for the solution of transient heat flow in integrated semiconductor devices. The implementation uses a rectangular discontinuous mesh to allow for local mesh refinement. This approach is based on a quad tree meshing technique which can have a complex geometry using blocks of varying sizes. Each such block can have a maximum of two adjacent blocks on any vertical side and a maximum of four blocks on the top or bottom. The TLM implementation is based on a physical extraction of a resistance and capacitance network and then the creation of the appropriate TLM matrix. The formulation allows for temperature-dependent material parameters and a non-uniform time stepping. The simulator is first tested using a 2D example of a heat source in a rectangular region. Using this example the numerical error is determined and found to be less than 0.4%. Next, non-linearities are included, and a number of non-uniform time stepping algorithms are tested. Then, a 3D problem is also compared to an analytical solution and again the error is very small. Finally, an example of a full solution of heat flow in a realistic Si trench device is presented.

[1] Hua Xiao,et al. A COMBINED FINE‐COARSE MESH METHOD FOR THE TRANSMISSION LINE MODELLING OF DIFFUSION , 1996 .

[2] S. H. Pulko,et al. Substructuring of space and time in TLM diffusion applications , 1990 .

[3] P. B. Johns,et al. A simple explicit and unconditionally stable numerical routine for the solution of the diffusion equation , 1977 .

[4] J. C. Jaeger,et al. Conduction of Heat in Solids , 1952 .

[5] P. W. Webb,et al. Application of the TLM method to transient thermal simulation of microwave power transistors , 1995 .

[6] Tom J. Smy,et al. A 3D thermal simulation tool for integrated devices-Atar , 2001, IEEE Trans. Comput. Aided Des. Integr. Circuits Syst..

[7] M. Y. Al-Zeben,et al. TLM modelling of diffusion, drift and recombination of charge carriers in semiconductors , 1992 .

[8] P. W. Webb,et al. Use of the three-dimensional TLM method in the thermal simulation and design of semiconductor devices , 1992 .

[9] W. B. Joyce,et al. Thermal resistance of heat sinks with temperature-dependent conductivity , 1975 .

[10] Hadis Morkoç,et al. The effects of surface metallization on the thermal behavior of GaAs microwave power devices , 1994 .

[11] J. A. Higgins. Thermal properties of power HBT's , 1993 .