Electrical Control Systems (EC22)  Diploma

Emphasizes the application of basic mathematical skills used in the solution of occupational and technical problems. Topics include fractions decimals percents ratios and proportions measurement and conversion formula manipulation technical applications and basic statistics.

Emphasizes concepts and operations which are applied to the study of algebra. Topics include basic mathematical concepts basic algebraic concepts and intermediate algebraic concepts.

Emphasizes human relations and professional development in today*s rapidly changing world that prepares students for living and working in a complex society. Topics include human relations skills job acquisition skills and communication job retention skills job advancement skills and professional image skills.

This course introduces direct current (DC) concepts and applications. Topics include: electrical principles and laws; batteries; DC test equipment; Series, parallel, and simple combination circuits; and laboratory procedures and safety practices. 

This course introduces alternating current concepts, theory, and application of varying sine wave voltages and current, and the physical characteristics and applications of solid state devices. Topics include, but are not limited to, electrical laws and principles, magnetism, inductance and capacitance.

This course introduces the fundamental concepts, principles, and devices involved in industrial motor controls, theories and applications of single and three-phase motors, wiring motor control circuits, and magnetic starters and braking. Topics include, but are not limited to, motor theory and operating principles, control devices, symbols and schematic diagrams, NEMA standards, Article 430 NEC and preventative maintenance and troubleshooting. 

This course introduces the operational theory, systems terminology, PLC installation, and programming procedures for Programmable Logic Controllers. Emphasis is placed on PLC programming, connections, installation, and start-up procedures. Other topics include timers and counters, relay logic instructions, and hardware and software applications.

Teaches the fundamental concepts of industrial wiring with an emphasis on installation procedures. Topics include: grounding, raceways, three-phase systems, transformers (three-phase and single-phase), wire sizing, overcurrent protection, NEC requirements, industrial lighting systems, and switches, receptacles, and cord connectors.

This course introduces the theory and practical application for two-wire control circuits, advanced motor controls, and variable speed motor controls. Emphasis is placed on circuit sequencing, switching, and installation, maintenance, and troubleshooting techniques. 

This course provides for hands on development of operational skills in the maintenance and troubleshooting of industrial control systems and automated equipment. Topics include data manipulation, math instructions, introduction to HMI, analog control, and troubleshooting discrete IO devices. 

Provides instruction in the principles and practices of instrumentation for industrial process control systems with an emphasis on industrial maintenance techniques for production equipment. Topics include: instrument tags; process documentation; basic control theory; sensing pressure flow level and temperature; instrument calibration; and loop tuning.

Provides a comprehensive introduction to computer numerical controlled (CNC) machining processes. Topics include: safety Computer Numerical Control of machinery setup and operation of CNC machinery introduction to programming of CNC machinery introduction to CAD/CAM.

This course provides instruction in manufacturing control process and work cell interfacing. Emphasis is placed on open and closed loop systems. Instruction is also given in the area of linear integrated circuits. Topics include process control sensor and cell level interfacing fluid level pressure and flow measurement pneumatic controls and human factors and safety.

Emphasizes mechanical techniques for maintaining, troubleshooting, installing, and repairing drives, conveyor systems, and valves. Topics include: gas laws; pressure and force calculations; hydraulic systems vs pneumatic systems; cylinders, pressure controls, and system controls; hydraulic and pneumatic symbology; hydraulic and pneumatic system layout; interfacing hydraulic or pneumatic systems with other systems; applied mechanisms; belt, chain, and gear drives; drive train components; valves; and conveyor systems.

The course reviews flexible manufacturing system electrical electronic and mechanical principles by providing opportunities to plan and prepare for constructing and operating an actual flexible automated system. Emphasis is also placed on work cell design by allowing students to work in instructor-supervised teams assembling and operating automated production system cells. Topics include flexible system planning and preparation work cell design prototype or demonstration work cell operation and work cell debugging and troubleshooting.

This course provides learners with the knowledge and skills associated with quality and productivity in the manufacturing environment. Topics include world class manufacturing, statistical process control, and problem solving.

This course provides instruction in the theory and application of solid state devices in the electronics industry. Emphasis is placed on the physical characteristics and uses of solid state devices. Topics include PN diodes power supplies voltage regulation bipolar junction theory and application field effect transistors and special applications.

This course is designed to provide sufficient coverage of digital electronics and microprocessor fundamentals. Digital fundamentals will introduce basic topics such as binary topics such as binary arithmetic logic gates and truth tables Boolean algebra and minimization techniques logic families and digital test equipment. Upon completion of the foundational digital requirements a more advanced study of digital devices and circuits will include such topics as flip-flops counters multiplexers and de-multiplexers encoding and decoding displays and analog to digital and digital to analog conversions. Students will also explore the basic architecture and hardware concepts of the microprocessor.

Provides in-depth instruction on the characteristics and applications of linear integrated circuits. Topics include: operational amplifiers timers and three-terminal voltage regulators.

Provides the fundamental concepts for the installation of automotive audio and video systems. Topics include: charging and electrical systems automotive wiring harnesses basic audio systems advanced audio systems and mobile video systems.

This course provides an in depth study of communication system concepts and emphasis an analysis of amplitude and frequency modulation and detection methods. Topics include AM FM and SSB modulation and detection transmitters and receivers multiplexing and de-multiplexing basic telemetry concepts and noise bandwidth considerations.

This course continues the study of modulation and detection techniques. Topics include: digital modulation techniques, pulse modulation techniques, and sampling techniques.

Provides an understanding of antennas and transmission lines used in communications. Topics include: transmission lines wave guides antenna types antenna applications and telephone transmission lines.

Provides a basic understanding of microwave communications and radar. Topics include: microwave and radar fundamentals microwave devices wave guides specialized antennas radar systems and communications systems.

Surveys the major optical devices used for communications. Topics include: light sources fiber optic cable coupling and fusing light modulation and detection techniques and system application of light devices.

Introduces the fundamentals of fiber optics and explores the applications of fiber optic transmission systems. Laboratory exercises give students hands-on experience with fiber optic devices and test equipment. Topics includes: fundamentals of fiber optics types of optical fibers fiber materials and manufacture cabling light sources/transmitters/receivers connectors splicing test measurement and fiber optic system design.

Introduces the basic of cable installation from the initial site survey to splicing cable and making connections. Through laboratory activities students perform the basic tasks of a cable installer. Topics include: basic standards and practices cable rating and performance cable installation and management testing and troubleshooting industry standards pulling cable and understanding blueprints.

This course provides instruction in the installation programming testing and repair of simple and complex telephone systems. An introduction is also given to basic concepts on telecommunication and data transmission.

This course introduces the operational theory, systems terminology, PLC installation, and programming procedures for Programmable Logic Controllers. Emphasis is placed on PLC programming, connections, installation, and start-up procedures. Other topics include timers and counters, relay logic instructions, and hardware and software applications.

Teaches the fundamental concepts of industrial wiring with an emphasis on installation procedures. Topics include: grounding, raceways, three-phase systems, transformers (three-phase and single-phase), wire sizing, overcurrent protection, NEC requirements, industrial lighting systems, and switches, receptacles, and cord connectors.

This course introduces the theory and practical application for two-wire control circuits, advanced motor controls, and variable speed motor controls. Emphasis is placed on circuit sequencing, switching, and installation, maintenance, and troubleshooting techniques. 

This course provides for hands on development of operational skills in the maintenance and troubleshooting of industrial control systems and automated equipment. Topics include data manipulation, math instructions, introduction to HMI, analog control, and troubleshooting discrete IO devices. 

Provides Industrial Mechanics the basic machine shop skills to perform common mechanical repairs such as: repair of scored pump shafts, motor shafts, conveyor shafts or valve stems; repair or fabrication of support brackets; fabrication of simple shaped (cylindrical or rectangular) parts; making or repairing keyseats and keys.

This course introduces industrial manufacturing processes that employ processes for material shaping, joining, machining and assembly to the student. Topics include: casting, shaping and molding of metals, ceramics and polymers; particulate processing of metals and ceramics, metal forming, machining, sheet metal working, joining and assembling, surface treatment, and manufacturing design considerations. Emphasis is provided on raw materials, quality, and costs of finished products. The course includes lab exercises that demonstrate the applications of the topics covered in actual manufacturing processes.

This course introduces statistical quality control and quality assurance techniques in manufacturing processes. Topics include: fundamentals of Six Sigma methodology, creating customer focus, statistical control techniques, control charts, process capability, failure modes and effects analysis (FMEA), teams and teamwork, leadership and strategic planning, optimization and reliability studies, lean manufacturing, and inspection tools and practices. The course is an effective training aid for those preparing to take the American Society for Quality (ASQ) Certified Quality Inspector (CQI) examination. Students will perform lab exercises applying quality concepts, tools and techniques to realistic industry examples

Provides instruction in the setup, operations, maintenance, and assembly operations of surface grinders. Introduces the properties of various metals, production methods, and identification of ferrous and non-ferrous metals. Topics include: heat treatment safety, metallurgy principles, heat treatment of metals, surface grinders, surface grinder maintenance, surface grinder setup, surface grinder operations, and safety.