About the Program
(Not Eligible for Financial Aid) The Certificate of Achievement in Electrical Engineering is designed to cover the core electrical engineering courses needed to transfer to a four-year program leading to the Bachelor’s Degree in Electrical Engineering at most four-year colleges and universities. The curriculum includes lower division courses in Electrical Engineering. Major requirements can vary by university and catalog year. Students should consult with a counselor and utilize Assist.org to ensure this is the most efficient pathway for their academic and career goals.
Program Requirements
Program Goal: Local
GE Pattern(s): None
Program Code: 44575.00CA
Program Learning Outcome(s):
Upon successful completion of this program, the student will be able to:
Demonstrate the ability to write comprehensive reports to communicate the analysis of various materials.
Demonstrate knowledge of the general methods of problem solving using data gathered in the field.
Safely use and accurately interpret the output of standard measuring devices.
Demonstrate an ability to develop engineering judgment in the solution of engineering problems by breaking problems down, solving each part, checking each solution and reassembling the problem for a final solution.
Use the tools of Mathematics and Physics to solve engineering problems.
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
This course is an introduction to the discipline of computer science, with a focus on the design and implementation of algorithms to solve simple problems using a high-level programming language. Topics include fundamental programming constructs, problem-solving strategies, debugging techniques, declaration models, and an overview of procedural and object-oriented programming languages. Students will learn to design, implement, test, and debug algorithms using pseudocode and a high-level programming language. (C-ID COMP 122).
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
51.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 102.00
Total Course Hours: 204.00
In this course the student will be trained in the use of symbolic digital logic including switching algebra, optimization, Karnaugh map construction and use and the design of combinational logic networks. The student will develop skills in mapping of sequential logic theory to practical devices using flip-flops, registers and counters.
Prerequisite(s): CSCI 20
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
This course introduces the principles and methods related to the creation of embedded systems applications at a low level. It covers the utilization of both Assembly Language and C. The topics covered encompass microprocessor architecture fundamentals, instruction set architectures, Assembly language programming, data representations, managing interrupts and execution modes, low-level C programming, as well as the utilization of on-chip and external peripherals.
Prerequisite(s): PHYS 42, MATH 40 (or concurrent enrollment)
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
51.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 102.00
Total Course Hours: 204.00
An introduction to the analysis, construction and measurement of electrical circuits. Use of analytical techniques based on the application of circuit laws and network theorems. Basic use of electrical test and measurement instruments including multimeters, oscilloscopes, power supplies, and function generators. Use of circuit simulation software. Interpretation of measured and simulated data based on principles of circuit analysis for Direct Current (DC), analysis, transient, and sinusoidal steady-state Alternating Current (AC) conditions containing resistors, capacitors, inductors, dependent sources, operational amplifiers and/or switches. Elementary circuit design. Practical considerations such as component value tolerance and non-ideal aspects of laboratory instruments. Construction and measurement of basic operational amplifier circuits. Natural and forced responses of first and second order RLC circuits; the use of phasors; AC power calculations; power transfer; and energy concepts. (C-ID ENGR 260/260L).
Prerequisite(s): MATH 31
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
68.00 hours Lecture
Out of Class Hours: 136.00
Total Course Hours: 204.00
Vector valued functions, calculus of functions of more than one variable, partial derivatives, multiple integration, Green???s Theorem, Stokes??? Theorem, divergence theorem. (C-ID MATH 230).
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Contacts
Luke Sathrum, Chair
(530) 895-2219
Department Office: AHPS 251
(530) 895-2531
Counseling and Advising:
(530) 895-2378
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