Compensating Probe Misplacements in On-Wafer S-Parameters Measurements

Abstract: As the maximum frequency of electronics is rising, 1 on-wafer measurements play an important role in modeling 2 of integrated devices. Most of the time, due to the lack of 3 measurement accuracy beyond 110 GHz, such models are usually 4 extracted at frequencies much below their working frequencies 5 and are subsequently extrapolated. The validity of such models is 6 then mostly verified after fabrication of the complete chip, with a 7 simple pass and fail test. This is stating the necessity of enhancing 8 meas… Show more

“…S-parameters have been prominent in the microwave RF field since the mid-20th century. In the meanwhile, it is also used in the design, analysis and simulation for RF microwave active or passive devices [7][8][9][10]. In addition, due to the increasing requirements for RF circuit design, the accuracy of the S-parameter model has an increasing impact on the circuit.…”

GRNN-Based Scattering Parameter Modeling Investigation for HBT at Different Temperature

“…S-parameters have been prominent in the microwave RF field since the mid-20th century. In the meanwhile, it is also used in the design, analysis and simulation for RF microwave active or passive devices [7][8][9][10]. In addition, due to the increasing requirements for RF circuit design, the accuracy of the S-parameter model has an increasing impact on the circuit.…”

GRNN-Based Scattering Parameter Modeling Investigation for HBT at Different Temperature

On-Wafer Capacitor Characterization Including Uncertainty Estimates Up to 1.0 THz

Interlaboratory Investigation of On-wafer S-parameter Measurements from 110 GHz to 1.1 THz