Computer Electronics (CEL Courses)
CEL 104 Introduction to Robotics and Mechatronics
3.0 units.
Acceptable for credit: Transfer CSU
Course Offered:
Fall, Spring
Grading Method: Letter Grade Only
An introduction to robotic control applications. Basic electronics including digital,
analog, and microcontroller devices, sensors and transducers, and actuators will be
emphasized for automation control. Topics include Basic, Assembly and C language programming
for robotic control; interfacing of indicators, switches, sensors and transducers;
controlling motion and motors; monitoring and measurement of rotation; measuring light,
temperature and conductance; application of navigation and measurement techniques;
remote control applications; mechanical systems; and the control of frequency and
sound. This course is not open to students who are enrolled in or have received credit
for EL 104 or ET 104.
CEL 128 Introduction to Renewable Energy
3.0 units.
Prerequisite: CEL 104 - Introduction to Robotics and Mechatronics or EL 104 or ET 104
Acceptable for credit: Transfer CSU
Grading Method: Letter Grade Only
A study of the principles behind energy generation and conversion that can be applied
to modern electrical, mechanical, and chemical devices that use or produce power.
Special emphasis will be given to the study of electricity as a renewable energy source.
This course is not open to students who are enrolled in or have received credit for
EL 128 or ET 128.
CEL 131 Programmable Logic Controllers and Control Design
3.0 units.
Prerequisite: EL 125 - Digital Devices and Circuits
Acceptable for credit: Transfer CSU
Grading Method: Letter Grade Only
A study of the purpose and operating features of a programmable logic controller (PLC).
Topics include PLC terminology, architecture, input/output modules, memory, commands
for internal relays, on/off timers, up/down counters, use of subroutines, program
control, and math instructions. Relay schematics, ladder logic diagrams, and programming
of logic controllers are emphasized. Sensing devices and time-driven process sequences
will be studied and integrated into control systems. This course is not open to students
who are enrolled in or have received credit for EL 131 or ET 131.
CEL 133 Mechatronic Systems 1
3.0 units.
Prerequisite: CEL 104 - Introduction to Robotics and Mechatronics ; or EL 104 - Introduction to Robotics and Mechatronics ; or ET 104 - Introduction to Robotics and Mechatronics
Acceptable for credit: Transfer CSU
Grading Method: Letter Grade Only
This is a hands-on mechatronic systems course that focuses on the electromechanical
concepts (mechanics, electronic, and programming) of automated systems. Emphasis is
placed on how industrial grade sensors and transducers function and upon how they
are interfaced into control systems. Study topics include: transducers and sensors
for light, heat, motion, pressure, and position control; switching devices; input
and output signal conditioning; continuous, closed-loop, and proportional integral
derivative process control; and safety. This course is not open to students who have
received credit for, or are enrolled in ET 133 or EL 133.
CEL 139 Electrical Power, Motors, and Controls
3.0 units.
Prerequisite: EL 122 - Electronic Devices and Circuits ; and EL 125 - Digital Devices and Circuits
Acceptable for credit: Transfer CSU
Grading Method: Letter Grade Only
A study of electronics, signal communication and power technology that support efficient
manufacturing processes for various industries. Topics include motors, their drives
and controls, power electronics, PLCs, and communications networks used to monitor
industrial processes. This course is not open to students who are enrolled in or have
received credit for EL 139 or ET 139.
CEL 162 Fluid Power and Control
2.0 units.
Acceptable for credit: Transfer CSU
Grading Method: Letter Grade Only
An introduction to the generation, control and basic applications of hydraulics and
pneumatics force and motion systems. Topics include safety, properties of and forces
in liquids, pumps, motors, valves, reservoirs, strainers, filers, accumulators, basic
diagramming, system design and troubleshooting. This course is not open to students
who are enrolled in or have received credit for EL 162 or ET 162.