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Lecture
Low-power Design Optimization
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Related lectures (32)
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EKV Charge-based Model: Transistor Design
Explores the EKV charge-based model for low-voltage and low-power circuit design, emphasizing transistor characteristics and noise models.
Noise in Electronic Devices
Explores thermal noise in MOS Transistors, input noise of bipolar transistors, and noise in amplifier stages, mirrors, differential pairs, and opamps.
Low-power Analog IC Design
Covers the design of low-power analog CMOS integrated circuits and the challenges of technology scaling in semiconductor industry.
EKV MOS Transistor Model
Covers the EKV MOS Transistor Model, focusing on the charge-based model and its applications.
Modeling of MOS Transistor for Low-power Design
Revisits the modeling of the MOS transistor for low-voltage and low-power analog circuit design, focusing on the EKV charge-based model.
Amplifier Noise Analysis
Explores noise analysis in amplifier circuits, emphasizing perfect matching and the impact of noise sampling.
Noise in the MOS Transistor at RF
Explores noise effects in MOS transistors at RF, addressing thermal noise models and velocity saturation impacts.
Analog CMOS Integrated Circuits: Fundamentals
Covers the fundamentals of analog CMOS integrated circuits, emphasizing transistor-level design principles and the historical impact of CMOS technology.
CMOS Gates and Logic Systems
Covers the basics of CMOS gates and Logic Systems, highlighting the advantages of CMOS over TTL gates.
Low-Power Analog IC Design: Inversion Coefficient
Explores the concept of inversion coefficient in low-power analog IC design, emphasizing trade-offs for minimal power consumption.
