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Electrical and Computer Engineering
314 2011-2012 California State University, Fresno General Catalog
77. Introduction to industrial and mobile
robots, forward and inverse kinematics, tra-jectory
planning, sensors, micro controllers,
and laboratory experiments.
ECE 174. Advanced
Computer Architecture (3)
Prerequisites: ECE 115 or 118. Advanced
computing architecture concepts; pipelin-ing;
multiprocessing and multiprogram-ming;
cache and virtual memory; direct
memory access, local and system bus archi-tectures;
instruction set design and coding;
CPU and system performance analysis.
ECE 176. Computer-Aided
Engineering in Digital Design (3)
Prerequisites: ECE 106. Use of Computer-
Aided Engineering tools in the design and
implementation of digital systems utilizing
Applications Specifi c Integrated Circuits.
Design projects from specifi cation through
implementation using Field Program-mable
Gate Arrays (FPGAs) and Complex
Programmable Logic Devices (CPLDs);
simulation, timing analysis, Hardware
Defi nition Languages. Hands-on exposure
to current tools.
ECE 178. Embedded Systems (4)
Prerequisites: ECE 120L, ECE 176. Prin-ciples
of real-time computing embedded
systems, hardware/software peripherals
interface, design applications using RISC
processors, and real-time operating system
and project activities.
ECE 186A. Senior Design I (1)
Prerequisites: 30 units of ECE (see advising
notes) or permission of instructor; univer-sity
writing requirement or concurrently.
Design projects in electrical and computer
engineering.
ECE 186B. Senior Design II (3)
Prerequisite: ECE 186A and university
writing requirement with a letter grade of
C or better, or passing the Upper-Division
Writing Exam. Completion of approved
design projects in electrical and computer
engineering. Project demonstration and
documentation requires using problem
solving, written communication, and critical
thinking skills, as well as engaging in oral
presentations.
ECE 190. Independent Study
(1-3; max total 6)
See Academic Placement — Independent
Study. Approved for RP grading.
ECE 191T. Topics in Electrical
and Computer Engineering
(1-3; max total 6)
Prerequisite: permission of instructor. In-vestigation
of selected electrical engineering
subjects not in current courses.
ECE 193. Electrical
and Computer Engineering
Cooperative Internship (1-6; max 12)
Prerequisite: permission of adviser. Engi-neering
practice in an industrial or gov-ernmental
installation. Each cooperative
experience usually spans a summer-fall or
spring-summer interval. One-semester or
summer internships are also possible. This
course cannot be used to meet graduation
requirements. CR/NC grading only.
GRADUATE COURSES
(See Catalog Numbering System.)
Electrical and Computer
Engineering (ECE)
ECE 224. Advanced Signals
and Systems (3)
Prerequisites: ECE 124 or equivalent. The-ory
of continuous time (CT) and discrete
time (DT) multidimensional systems; state
variable representations; system state equa-tion
solution; Lyapunov and input-ouput
stability; controllability, observability, and
realizability; and feedback systems. System
simulations using MATLAB. (Formerly
EE 224)
ECE 230. Nonlinear
Control Systems (3)
Prerequisite: ECE 155 or permission of
instructor. Dynamic systems modeling and
analysis, stability, sliding mode control, fuzzy
logic control, and introduction to relevant
topics. (Formerly EE 230)
ECE 231. Digital Control Systems (3)
Prerequisite: ECE 155 or permission of
instructor. Discrete Time Feedback systems
modeling and analysis, stability, digital con-troller
design, digital transformation of ana-log
controllers, implementation techniques,
and case studies. (Formerly EE 231)
ECE 232. Optimal Control Systems (3)
Prerequisite: ECE 155 or ENGR 210.
Two-point boundary value problems, linear
quadratic regulators, minimum-time design,
output-feedback design, robust design,
observers, fi lters and dynamic regulators,
multivariable dynamic compensator design.
(Formerly ENGR 212, EE 232)
ECE 240. VLSI Circuits and Systems (3)
Review of CMOS logic circuits, CMOS
circuit analysis, interconnect modeling, dy-namic
logic, timing and clocking strategies,
datapath component design, test and verifi ca-tion
strategies, and ASIC Design Methodolo-gies.
(Formerly ECE 291T, EE 240)
ECE 241. Applied Electromagnetics (3)
Prerequisite: ECE 136 or permission of
coordinator. Electrostatic fi eld boundary
conditions, energy relations, and forces;
multidimensional potential problems;
magnetic fi eld boundary conditions, scalar
and vector potentials, and magnetization;
Maxwell’s equations for stationary and mov-ing
me dia; energy, force, and momentum in
an electromagnetic fi eld; plane waves; waves
near metallic boundaries; inhomo geneous
wave equation. (Formerly EE 241)
ECE 242. Digital Systems Testing and
Testable Design (3)
Introduction to VLSI testing, VLSI test
process and automatic test equipment, test
economic, faults and fault modeling, logic
and fault simulation, testability measures,
delay test, design for testability, built-in self-test,
boundary scan, and JTAG.(Formerly
EE 242)
ECE 243. Modern Methods
in Synchronous Sequential Design (3)
Prerequisite: ECE 172 or permission of
coordinator. Synchronous machine design
with PLDs and FPGAs; algorithmic state
machines; incompletely specifi ed machines;
maximum compatibility classes; partitioning
of sequential machines; state merging and
state splitting. (Formerly EE 243)
ECE 245. Communications
Engineering (3)
Prerequisite: ECE 134 or equivalent; ENGR
206. Modulation theory; statistical proper-ties
of information signals and noise; binary
and M-ary modulation schemes and receiv-ers
for digital and analog messages; perfor-mance
in the presence of noise; transmission
over bandlimited channels and intersymbol
interference; vector space representations;
and communication design considerations.
(Formerly EE 245)
ECE 247. Modern
Semiconductor Devices (3)
Prerequisite: ECE 114 or permission of coordi-nator.
Crystal structures and elastic constants;
lattice energy and vibrations; thermal and
dielectric properties of solids; ferroelectric and
magnetic properties of crystals; free electron
model of metals; quantum statistics distribu-
Object Description
| Title | 2011-12 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2011-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 314 |
| Full Text Search | Electrical and Computer Engineering 314 2011-2012 California State University, Fresno General Catalog 77. Introduction to industrial and mobile robots, forward and inverse kinematics, tra-jectory planning, sensors, micro controllers, and laboratory experiments. ECE 174. Advanced Computer Architecture (3) Prerequisites: ECE 115 or 118. Advanced computing architecture concepts; pipelin-ing; multiprocessing and multiprogram-ming; cache and virtual memory; direct memory access, local and system bus archi-tectures; instruction set design and coding; CPU and system performance analysis. ECE 176. Computer-Aided Engineering in Digital Design (3) Prerequisites: ECE 106. Use of Computer- Aided Engineering tools in the design and implementation of digital systems utilizing Applications Specifi c Integrated Circuits. Design projects from specifi cation through implementation using Field Program-mable Gate Arrays (FPGAs) and Complex Programmable Logic Devices (CPLDs); simulation, timing analysis, Hardware Defi nition Languages. Hands-on exposure to current tools. ECE 178. Embedded Systems (4) Prerequisites: ECE 120L, ECE 176. Prin-ciples of real-time computing embedded systems, hardware/software peripherals interface, design applications using RISC processors, and real-time operating system and project activities. ECE 186A. Senior Design I (1) Prerequisites: 30 units of ECE (see advising notes) or permission of instructor; univer-sity writing requirement or concurrently. Design projects in electrical and computer engineering. ECE 186B. Senior Design II (3) Prerequisite: ECE 186A and university writing requirement with a letter grade of C or better, or passing the Upper-Division Writing Exam. Completion of approved design projects in electrical and computer engineering. Project demonstration and documentation requires using problem solving, written communication, and critical thinking skills, as well as engaging in oral presentations. ECE 190. Independent Study (1-3; max total 6) See Academic Placement — Independent Study. Approved for RP grading. ECE 191T. Topics in Electrical and Computer Engineering (1-3; max total 6) Prerequisite: permission of instructor. In-vestigation of selected electrical engineering subjects not in current courses. ECE 193. Electrical and Computer Engineering Cooperative Internship (1-6; max 12) Prerequisite: permission of adviser. Engi-neering practice in an industrial or gov-ernmental installation. Each cooperative experience usually spans a summer-fall or spring-summer interval. One-semester or summer internships are also possible. This course cannot be used to meet graduation requirements. CR/NC grading only. GRADUATE COURSES (See Catalog Numbering System.) Electrical and Computer Engineering (ECE) ECE 224. Advanced Signals and Systems (3) Prerequisites: ECE 124 or equivalent. The-ory of continuous time (CT) and discrete time (DT) multidimensional systems; state variable representations; system state equa-tion solution; Lyapunov and input-ouput stability; controllability, observability, and realizability; and feedback systems. System simulations using MATLAB. (Formerly EE 224) ECE 230. Nonlinear Control Systems (3) Prerequisite: ECE 155 or permission of instructor. Dynamic systems modeling and analysis, stability, sliding mode control, fuzzy logic control, and introduction to relevant topics. (Formerly EE 230) ECE 231. Digital Control Systems (3) Prerequisite: ECE 155 or permission of instructor. Discrete Time Feedback systems modeling and analysis, stability, digital con-troller design, digital transformation of ana-log controllers, implementation techniques, and case studies. (Formerly EE 231) ECE 232. Optimal Control Systems (3) Prerequisite: ECE 155 or ENGR 210. Two-point boundary value problems, linear quadratic regulators, minimum-time design, output-feedback design, robust design, observers, fi lters and dynamic regulators, multivariable dynamic compensator design. (Formerly ENGR 212, EE 232) ECE 240. VLSI Circuits and Systems (3) Review of CMOS logic circuits, CMOS circuit analysis, interconnect modeling, dy-namic logic, timing and clocking strategies, datapath component design, test and verifi ca-tion strategies, and ASIC Design Methodolo-gies. (Formerly ECE 291T, EE 240) ECE 241. Applied Electromagnetics (3) Prerequisite: ECE 136 or permission of coordinator. Electrostatic fi eld boundary conditions, energy relations, and forces; multidimensional potential problems; magnetic fi eld boundary conditions, scalar and vector potentials, and magnetization; Maxwell’s equations for stationary and mov-ing me dia; energy, force, and momentum in an electromagnetic fi eld; plane waves; waves near metallic boundaries; inhomo geneous wave equation. (Formerly EE 241) ECE 242. Digital Systems Testing and Testable Design (3) Introduction to VLSI testing, VLSI test process and automatic test equipment, test economic, faults and fault modeling, logic and fault simulation, testability measures, delay test, design for testability, built-in self-test, boundary scan, and JTAG.(Formerly EE 242) ECE 243. Modern Methods in Synchronous Sequential Design (3) Prerequisite: ECE 172 or permission of coordinator. Synchronous machine design with PLDs and FPGAs; algorithmic state machines; incompletely specifi ed machines; maximum compatibility classes; partitioning of sequential machines; state merging and state splitting. (Formerly EE 243) ECE 245. Communications Engineering (3) Prerequisite: ECE 134 or equivalent; ENGR 206. Modulation theory; statistical proper-ties of information signals and noise; binary and M-ary modulation schemes and receiv-ers for digital and analog messages; perfor-mance in the presence of noise; transmission over bandlimited channels and intersymbol interference; vector space representations; and communication design considerations. (Formerly EE 245) ECE 247. Modern Semiconductor Devices (3) Prerequisite: ECE 114 or permission of coordi-nator. Crystal structures and elastic constants; lattice energy and vibrations; thermal and dielectric properties of solids; ferroelectric and magnetic properties of crystals; free electron model of metals; quantum statistics distribu- |
