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Highlights
- Ready-to-teach module with 14 hours of structured, hands-on labs spanning device measurement and RF design.
Prebuilt DLS test plans and lab sheets for SMU-based device characterization, plus ADS projects for mixer and FET amplifier design—mirroring common industry workflows.
Access an industry tool such as the B2902B precision SMU with Digital Learning Suite software and ADS software.
- Industry-aligned outcomes:
- Lab 1— Learn how to characterize basic semiconductor devices and know the differences in features between devices.
- Lab 2— Learn the process to design a mixer by using a transistor in ADS.
- Lab 3— Learn the process to design an amplifier by using FET in ADS and know how to simulate and optimize.
- Lab 1— Learn how to characterize basic semiconductor devices and know the differences in features between devices.
Supports university semiconductor training and Keysight credential initiatives so graduates can demonstrate job-ready skills.
Keysight’s Semiconductor Teaching Lab helps educators accelerate course development or refresh existing programs. Students begin with device-level measurements using a precision SMU and Digital Learning Suite automation. They then progress to RF block-level design in ADS, where they build practical habits of setting objectives, running simulations, validating results, and refining designs—skills valued in today’s engineering teams.
The Module emphasizes fundamentals with professional-grade tools. Students measure LEDs, BJTs, and MOSFETs using the B2902B and DLS. They then design a low-power active mixer and a small-signal FET amplifier in ADS, applying bias network design, Smith chart matching, noise and stability analysis, parametric sweeps, and optimization. These activities mirror the methods used in modern IC and RF design environments.
Featured Resources for UU101LAB Semiconductor Teaching Lab
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