论文信息 - A comparative study of different contact resistance test structures dedicated to the power process technology

A comparative study of different contact resistance test structures dedicated to the power process technology

Abstract This paper presents different contact test structures intended to characterize the metal–semiconductor interface (aluminum–silicon) for power integrated circuits fabricated in the Application Specific Discrete (ASD™) process technologies. For this study, three contact test structures have been selected, transfer length method (TLM), cross bridge Kelvin resistance (CBKR), and contact end resistance (CER). The characterization is achieved by extracting the specific contact resistance ( ρ C ) from contact test structures by measuring the contact resistance ( R C ). To validate the results, spreading resistance was used to determine the surface doping concentration ( C S ) of the diffused layer that gives ρ C from a well know standard abacus. From the experimental results, we conclude that only the TLM test structure is able to give correct values of the specific contact resistance for both n and p type diffused layers that are compatibles with the manufacturer specifications.

[1] H. H. Berger,et al. Contact Resistance and Contact Resistivity , 1972 .

[2] A. Goetzberger,et al. RESEARCH AND INVESTIGATION OF INVERSE EPITAXIAL UHF POWER TRANSISTORS , 1964 .

[3] R. M. Swanson,et al. Modeling and measurement of contact resistances , 1987, IEEE Transactions on Electron Devices.

[4] W.M. Loh,et al. Current crowding effects and determination of specific contact resistivity from contact end resistance (CER) measurements , 1985, IEEE Electron Device Letters.

[5] L. W. Linholm,et al. A direct measurement of interfacial contact resistance , 1982, IEEE Electron Device Letters.

[6] D. Schroder. Semiconductor Material and Device Characterization , 1990 .

[7] J. A. Mazer,et al. Direct measurements of interfacial contact resistance, end contact resistance, and interfacial contact layer uniformity , 1983, IEEE Transactions on Electron Devices.

[8] T. Lei,et al. Specific contact resistivity measurement by a vertical Kelvin test structure , 1987 .

[9] K. Shih,et al. Contact resistances of AuGeNi, AuZn and Al to III–V compounds , 1972 .

[10] J.G.J. Chern,et al. Determining specific contact resistivity from contact end resistance measurements , 1984, IEEE Electron Device Letters.

[11] H. Berger,et al. Contact resistance on diffused resistors , 1969 .

[12] T. A. Schreyer,et al. A two-dimensional analytical model of the cross-bridge Kelvin resistor , 1986, IEEE Electron Device Letters.