IEEE Distinguished Lecture – Transistor Diversity: Looking Beyond CMOS to Improve Analog Performance

“Transistor Diversity: Looking Beyond CMOS to Improve Analog Performance” by Viola Schäffer, Analog Design Manager – Senior Member Technical Staff, Texas Instruments, Tucson, Arizona, USA; and Erlangen and Freising, Germany. IEEE Distinguished Lecturer.

Date:  May 15, 2023 (Monday)
Time:  19:30 hrs till 20:30 hrs (UTC+8)
Google Meet:  https://meet.google.com/ddf-szdj-bro
RSVP:  https://forms.gle/E7NsYhphdVgKcENw7

The approval code for Continuing Professional Development (CPD) by Malaysia Board of Technologists (MBOT) is MBOTATP/23/04/29.

Abstract

While CMOS transistors came to dominate integrated circuits, some other transistor types such as the bipolar junction transistor (BJT); its variant, the super-beta BJT; the junction gate field-effect transistor (JFET) and laterally diffused metal-oxide-semiconductor field-effect transistor (LDMOS) continue to thrive in specific applications.  The talk will re-visit the discovery of these transistor types, their operating principles and key characteristics and look at circuit examples that benefit from these characteristics.  We will look how these transistors have eluded extinction despite their larger feature sizes and process complexities and how they have evolved in modern technologies.

Speaker

Viola Schäffer (Member IEEE) received her M.S. degree in electrical engineering from the University of Arizona, Tucson in 1999. She joined Texas Instruments Incorporated (formerly Burr-Brown Corporation) in 1998 and has been working as an analog IC design engineer and manager at various locations including Tucson, Arizona, as well as Erlangen and Freising in Germany. She was elected Distinguished Member Technical Staff in 2018.

Her work focuses on precision signal conditioning including instrumentation and programmable gain amplifiers, power amplifiers, industrial drivers as well as magnetic-based current sensors and precision magnetic sensors. She has design experience in CMOS, HV-CMOS, precision bipolar, and BCD processes. She has led multiple technology-circuit co-developments and designed key enabling IP on these new process nodes. She has several IEEE publications and holds 18 patents related to this work with several applications pending. She serves on the technical program committees for ESSCIRC and ISSCC, as a SSCS webinar committee member and on the ISSCC European Region Leadership Team.

IEEE Distinguished Lecture Transistor Diversity: Looking Beyond CMOS to Improve Analog Performance