EETP 101 - Circuit Analysis I
Circuit Analysis I and Circuit Analysis with Calculus provides a comprehensive introduction to the fundamental concepts of electrical circuit analysis. Students explore the behavior and interaction of circuit elements, including resistors, capacitors, and inductors, in both DC and AC circuits. Key topics include Ohm’s Law, Kirchhoff’s Laws, circuit theorems (such as Thevenin’s and Norton’s), and the analysis of series and parallel circuits. Students develop skills in solving linear circuits using nodal and mesh analysis and learn to apply phasor techniques for AC circuit analysis. The course also covers the transient response of first-order and second-order circuits, emphasizing time constants and natural responses. Hands-on laboratory experiences complement theoretical learning, allowing students to simulate and analyze circuits using software tools.
Additional Course Fees: $155
Prerequisite
EETP 101: FNMT 118 or 141 with a "C" or better, OR placement in MATH 161 or higher.
EETP 101C: MATH 161 with a "C" or better, or placement in MATH 171.
EETP 101C - Circuit Analysis I with Calculus
Circuit Analysis I and Circuit Analysis with Calculus provides a comprehensive introduction to the fundamental concepts of electrical circuit analysis. Students explore the behavior and interaction of circuit elements, including resistors, capacitors, and inductors, in both DC and AC circuits. Key topics include Ohm’s Law, Kirchhoff’s Laws, circuit theorems (such as Thevenin’s and Norton’s), and the analysis of series and parallel circuits. Students develop skills in solving linear circuits using nodal and mesh analysis and learn to apply phasor techniques for AC circuit analysis. The course also covers the transient response of first-order and second-order circuits, emphasizing time constants and natural responses. Hands-on laboratory experiences complement theoretical learning, allowing students to simulate and analyze circuits using software tools.
Prerequisite
MATH 161 with a "C" or better, or placement in MATH 171.
EETP 102 - Circuit Analysis II
Circuit Analysis II and Circuit Analysis II with Calculus builds upon the principles established in Circuit Analysis I, delving deeper into the analysis of complex electrical circuits. This course emphasizes sinusoidal steady-state analysis and the use of phasors to understand AC circuits. Students explore advanced topics such as impedance, admittance, resonance, and the concept of complex power, including real, reactive, and apparent power calculations. Hands-on laboratory sessions reinforce theoretical concepts through circuit simulation software, allowing students to model and analyze both analog and digital circuits.
Additional Course Fees: $155
Prerequisite
EETP 101 with a grade of "C" better.
EETP 102C - Circuit Analysis II with Calculus
Circuit Analysis II and Circuit Analysis II with Calculus builds upon the principles established in Circuit Analysis I, delving deeper into the analysis of complex electrical circuits. This course emphasizes sinusoidal steady-state analysis and the use of phasors to understand AC circuits. Students explore advanced topics such as impedance, admittance, resonance, and the concept of complex power, including real, reactive, and apparent power calculations. Hands-on laboratory sessions reinforce theoretical concepts through circuit simulation software, allowing students to model and analyze both analog and digital circuits.
Additional Course Fees: $155
Prerequisite
EETP 101C with a grade of "C" or better.
EETP 205C - Digital Electronics with Calculus
In Digital Electronics and Digital Electronics with Calculus, students are introduced to basic digital circuit components and how these components can be used in combination to carry out more complex operations. Boolean algebra and numbering systems are covered. Common circuit configurations and their applications will also be explored.
Additional Course Fees: $105
Prerequisite
MATH 162 with a grade of "C" or better.
EETP 206 - Analog Electronics
In Analog Electronics and Analog Electronics with Calculus, students are introduced to the basics of analog electronics. The course covers fundamental topics including small signal modeling, linear amplification, single transistor amplifier, filters, feedback, stability, multistage amplifiers, op-amps, filters, oscillators, analog circuits, and computer simulation. Hands-on laboratory sessions complement theoretical learning, providing practical experience in building, testing, and troubleshooting analog circuits. By the end of the course, students have a solid understanding of analog electronics, preparing them for more advanced studies in the field.
Additional Course Fees: $155
Prerequisite
ELEC 120 or EETP 101 and FNMT 118 or FNMT 141.
EETP 206C - Analog Electronics with Calculus
In Analog Electronics and Analog Electronics with Calculus, students are introduced to the basics of analog electronics. The course covers fundamental topics including small signal modeling, linear amplification, single transistor amplifier, filters, feedback, stability, multistage amplifiers, op-amps, filters, oscillators, analog circuits, and computer simulation. Hands-on laboratory sessions complement theoretical learning, providing practical experience in building, testing, and troubleshooting analog circuits. By the end of the course, students have a solid understanding of analog electronics, preparing them for more advanced studies in the field.
Additional Course Fees: $155
Prerequisite
ELEC 120 or EETP 101C and MATH 171
EETP 250 - Introduction to Programmable Logic Control
Introduction to Programmable Logic Controls (PLCs) offers a comprehensive introduction to PLCs, focusing on their role in industrial automation and control systems. Students will explore the fundamental principles of PLC operation, including hardware components, software structures, and programming methodologies. The curriculum covers various PLC programming languages, with an emphasis on Ladder Logic, Function Block Diagram (FBD), and Structured Text. Students learn to develop control logic, configure inputs and outputs, and utilize timers and counters to create efficient control systems. Hands-on laboratory sessions provide practical experience in wiring and configuring PLC systems, integrating sensors and actuators, and troubleshooting common issues. Additionally, students gain an understanding of data handling, memory management, and how PLCs interface with other industrial control systems and communication protocols.
Additional Course Fees: $105
Prerequisite
FNMT 118 with a grade of "C" or better, or FNMT 141 with a grade of "C" or better, or MATH 162 with a grade of "C" or better.