Graduate courses:

• Electromechanics for Nano-Engineering (Fall 2006)
• Nano/Bio Electronics and Sensors (Spring 2005, 2006), co-taught with Dr. I. Lee
• MEMS and Microsystems, -- Design, Manufacture and Nanoscale Engineering (Fall 2008)

  Undergraduate courses:

  Textbook:    Microelectronic Circuit Design, 3^rd edition.

    Simulation tool:  Microcap from spectrum-soft.com

                                 PSpice

  ECE 336  TA hours coincide with lab hours, FH 508

•     Syllabus

•     Chapter 15 slides

          1. AC-, DC-coupled, DA, 2. Op-amp, Output stages, Current source

Homework

HW2 Due Feb. 9 (Solutions)

Practice problems:  22, 50, 56, 72, 92, 111 (Solutions)

•     Chapter 16 slides

HW3 Due Mar. 2:  15.127, 15.134, 15.150, 15.160, 16.16, 16.35 (Solutions)

HW4 Due Mar. 9: 16.61, 16.64, 16.65, 16.80, 16.88, 16.89 (Solutions)

Practice problems:  113, 117 (Solutions)

HW5 Due Apr. 9:  11.3, 11.10, 11.16, 11.17, 11.21, 11.38, 11.41, 11.44, 11.50, 11.59, 11.64, 11.70(refer to Fig. 11.71), 11.98, 11.107 (Solutions)

HW6 Due Apr. 20:  17.1, 17.5,17.7, 17.9, 17.18, 17.22, 17.49, 17.51 (Solutions)

Project 1 

Report: Due March 21 with TA sign off the both the simulation and experimental parts.

Project 2  Report due on the last day of class

Electronic Devices (ECE 335)

•     Syllabus Spring 2009,  TA: James Wilson, jwilso12@utk.edu, SERF 536

Note:  All assignments are due before the class.  I don’t take late submissions unless prior arrangements are made.

Useful link: Semiconductor Applet Service  http://jas.eng.buffalo.edu/

• Lab schedule
• Chapter 2 ppt.
• Chapter 3.ppt:  1, 2
• Chapter 4.ppt:  1
• Chapter 5 ppt:  1

HW1 Due Jan. 21

Use Fig. 2.4 to find out the temperature at which n_i=10¹⁴/cm³.  Then use equation 2.1 to calculate n_i at that temperature.

Chap 2.    4, 11, 14, 18, 21, 24, 27, 32, 45, 48 (Fig. is wrong). Solution

HW2 Due Feb. 11  Chap 3. 2, 6, 10, 23, 26, 28, 37, 43, 66 (tip: assume D off first), 71, 78 (V and I of Zener), 80, 91, 100.  SOLUTION

HW3 Due Feb. 18  Chap 4. 4, 8, 11, 15 (also give the requirement on V_DS), 20, 24, 30, 33 (a,b), 40, 42, 49, 85, 100, 103, 117, 123.  SOLUTION

HW4 Due Mar. 25  Chap 5. 35, 39, 42, 72, 74, 82, 87 (c.f. Ex. 5.9 p.250), 90, 93, 96, 97.  SOLUTION

HW5 Due Apr. 22  Chap 13. 19, 21, 38,40, 54, 63, 75, 98, 110, 121.  SOLUTION

Lab 1 Due Feb. 4.  It is fine to use any type of SPICE software, as long as you can obtain transient waveform, DC transfer function and (for later assignment) AC frequency response.

Lab 2 Due Mar. 6

Project 1 due Mar. 2, 2009  TA checklist

•     Report format--IEEE paper template

Lab 3 Due Apr. 3

Project 2 due Apr. 24 Noon.

LabVIEW in 3 hours  (by National Instruments)

•     Problem solving procedure

•     IEEE paper template

Project Grade Weighing:

70%  Demonstration of a working device

Ø        10% Hand calculation

Ø        30% PSPICE

Ø        30% Experiments

30%  Presentation of the process

Ø        15% Graphs and tables

Ø        15% Writing and the organization of the report

•     Comments on writing technical reports