Physical Electronics of Advanced Semiconductor Devices

Credit Hours (Minimum if “Range”selected):

3.00

Max Credit Hours:

3.00

Select if Repeatable:

Off

Maximum Repeatable Credits:

(N/A)

Total Completions Allowed:

(N/A)

Allow Multiple Enrollments in Term:

No

Course Length:

14 weeks (autumn or spring)

12 weeks (summer only)

Off Campus:

Never

Campus Location:

Columbus

Instruction Modes:

In Person (75-100% campus; 0-24% online)

Prerequisites and Co-requisites:

Prereq: 5530 (730) or 6531.

Electronically Enforced:

No

Exclusions:

Not open to students with credit for 894 (Spring 12, Class number 26147) or 8194.04.

Course Goals / Objectives:

Students learn about quantum effects of device scaling on performance and reliability

Students learn modeling of MOS transistors, CCDs, EEPROMs and other devices

Students learn measurement techniques for device characterization

Check if concurrence sought:

No

Contact Hours:

Contact Hours For Each Topic.
Topic	LEC	REC out-of-class	Weekly LAB out-of-class
Historical overview: MOSCAP, gated diode, high-K dielectrics, amphoteric traps	7.0	0.0	0.0
Generation-recombination theory, equilibrium, non-equilibrium, steady-state and non-steady-state, conductance, surface recombination boundary conditions	4.0	0.0	0.0
CCDs, carrier transport and operation, transfer efficiency, charge control model	4.0	0.0	0.0
CMOS transistors (bulk, SOI, mobility, transconductance, subthreshold operation, SPICE modeling, short-channel and narrow-width effects, surface and buried channel devices, propagation delay, ion-sensitive FETs (ISFETs), hot carrier injection	7.0	0.0	0.0
Charge pumping, interface and dielectric traps	3.0	0.0	0.0
Physics of tunneling- floating gate and SONOS EEPROMs	4.0	0.0	0.0
Theory of drift-field bipolar junction transistors (BJTs)	4.0	0.0	0.0
SiGe FETs and SiC devices	3.0	0.0	0.0
Advanced research topics (e.g. mobility, surface roughness, Coulomb scattering, noise)	3.0	0.0	0.0
Total	39	0	0

Grading Plan:

Letter Grade

Course Components:

Lecture

Grade Roster Component:

Lecture

Credit by Exam (EM):

No

Grades Breakdown:

Grades Breakdown
Aspect	Percent
Homework	60%
Midterm Exam	20%
Final exam	20%

Representative Textbooks and Other Course Materials:

Title	Author	Year
Course notes and selected papers from the literature

ABET-CAC Criterion 3 Outcomes:

(N/A)

ABET-ETAC Criterion 3 Outcomes:

(N/A)

ABET-EAC Criterion 3 Outcomes:

(N/A)

Embedded Literacies Info:

Attachments:

(N/A)

Additional Notes or Comments:

(N/A)

Basic Course Overview:

ECE_7032_basic.pdf

Physical Electronics of Advanced Semiconductor Devices

ECE 7032

Description / Conditions.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Course Detail.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Course Goals and Learning Objectives.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Topics and Contact Hours.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Grading and Texts.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

ABET Student Learning Outcomes.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Embedded Literacies (UG courses only).a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Attachments / Additional Notes or Comments.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square