C. Ito scite author profile

C. Ito

5Publications

47Citation Statements Received

49Citation Statements Given

How they've been cited

100

How they cite others

Affiliations

Stanford University, Integrated Software (United States)

Publications

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Analysis and design of distributed ESD protection circuits for high-speed mixed-signal and RF ICs

Ito¹,

Banerjee

Dutton³

2002

IEEE Trans. Electron Devices

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Electrostatic discharge (ESD) protection devices can have an adverse effect on the performance of high-speed mixedsignal and RF circuits. This paper presents quantitative methodologies to analyze the performance degradation of these circuits due to ESD protection. A detailed s-parameter-based analysis of these high-frequency systems illustrates the utility of the distributed ESD protection scheme and the impact of the parasitics associated with the protection devices. It is shown that a four-stage distributed ESD protection can be beneficial for frequencies up to 10 GHz. In addition, two generalized design optimization methodologies incorporating coplanar waveguides are developed for the distributed structure to achieve a better impedance match over a broad frequency range (0-10 GHz). By using this optimized design, an ESD device with a parasitic capacitance of 200 fF attenuates the RF signal power by only 0.27 dB at 10 GHz. Furthermore, termination schemes are proposed to allow this analysis to be applicable to high-speed digital and mixed-signal systems.

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Linearity Analysis of RF LDMOS Devices Utilizing Harmonic Balance Device Simulation

Tornblad

Ito²,

Rotella³

et al. 2005

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Analysis and design of ESD protection circuits for high-frequency/RF applications

Ito¹,

Banerjee²,

Dutton³

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Electrostatic discharge (ESD) protection devices can have an adverse effect on the performance of high frequency and RF circuits. This work presents for the first time, an s-parameter based analysis of the performance of RF circuits with various ESD protection designs.Additionally, a design methodology for distributed ESD protection using coplanar waveguides is developed to achieve a better impedance match over a broad frequency range. By using this technique, an ESD device with a parasitic capacitance of 200 fF will attenuate the signal power by only 0.27 dB at IO GHz.

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RF ESD protection strategies: Codesign vs. low-C protection

Soldner

Streibl

Hodel

et al. 2007

Microelectronics Reliability

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Post-breakdown leakage resistance and its dependence on device area

Chen

Ito²,

Loh³

et al. 2006

Microelectronics Reliability

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C. Ito

Analysis and design of distributed ESD protection circuits for high-speed mixed-signal and RF ICs

Linearity Analysis of RF LDMOS Devices Utilizing Harmonic Balance Device Simulation

Analysis and design of ESD protection circuits for high-frequency/RF applications

RF ESD protection strategies: Codesign vs. low-C protection

Post-breakdown leakage resistance and its dependence on device area

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