论文信息 - Operation of CMOS devices with a floating well

Operation of CMOS devices with a floating well

The operation of CMOS devices in an electrically floating well is considered. The impetus for this study is the potential reduction of silicon area consumption and wiring complexity involved in contacting the well diffusion. Theoretical expectations for device behavior are presented and corroborated with experimental data; consideration extends to PMOSFET device characteristics, subthreshold behavior, as well as junction leakage and breakdown voltage. Examination of n-channel devices, in p-wells, indicates that these are more susceptible to floating well effects, as expected. The primary changes in device behavior include generation of substrate current, slight increase in leakage currents, and some degradation in latchup holding voltage. Results indicate that an electrically floating well does not seem to have significant adverse effects on transistor operation.

[1] Chenming Hu,et al. Floating well CMOS and latchup , 1985, 1985 International Electron Devices Meeting.

[2] J. Tihanyi,et al. Influence of the floating substrate potential on the characteristics of ESFI MOS transistors , 1975 .

[3] Y.A. El-Mansy,et al. Characterization of silicon-on-sapphire IGFET transistors , 1977, IEEE Transactions on Electron Devices.

[4] S.S. Eaton,et al. The effect of a floating substrate on the operation of silicon-on-sapphire transistors , 1978, IEEE Transactions on Electron Devices.

[5] R. Troutman. Subthreshold design considerations for insulated gate field-effect transistors , 1973 .

[6] J. Tihanyi,et al. Properties of ESFI MOS transistors due to the floating substrate and the finite volume , 1974, IEEE Transactions on Electron Devices.