Based on the timing chart 2. September Students will learn how to apply the Canadian Electrical Code for industrial and commercial electrical system design. Students in this course will be introduced to C language computer programming for electronics. Students will focus on the application of control in the marine and industrial domains throughout the course using simulated environments. Computer software tools such as assemblers, compilers and IDEs are used for program design, implementation and testing.
Students will study the use of recurrence relations and generating functions in engineering problems, as well as engineering modeling with graphs, graph representation and traversal techniques, and their computational complexity. Students will learn to program microcontrollers in both assembly and C programming languages and practice simulation and code development techniques in an embedded environment. The students will be exposed to AC current analysis, power, transformers and 3 phase circuits. This course introduces systems concepts in communications. Lab activities include computer simulation of manufacturing processes and equipment. Students will study open and closed loop systems, a second order model for system responses, transfer function analysis, stability of control systems, PID controller design, gain and phase margins, and fuzzy control. Protocols, flow control, buffering and network security are covered.
Students will be introduced to techniques of signal and nomework analysis. Students focus on designing a complex embedded system and its implementation, and use computer software such as assemblers, compilers and emulators. This course introduces data structures lists, strings, stacks, queues, treesdata encapsulation, as well as algorithms for recursion, sorting and searching. Processing measurements using statistical methods are considered, as are safety issues.
September Students will be introduced to design techniques using object-oriented programming. This course introduces design and analysis of digital circuits – bases for all computer systems and virtually all other electronic systems in use today.
Restricted course Open to hmework who have met the Co-operative Education participation requirements. They will study digital signals, filtering homewor difference equations and convolution, z transforms, frequency responses, spectra, the design of FIR and IIR filters, discrete Fourier transforms and fast Fourier transforms, DSP hardware and applications. Students will be introduced to the Linux operating system for the Raspberry Pi.
ECET Week 3 iLab Designing Adders and Subtractors – Online Homework Help
This course introduces microprocessor interfacing to peripheral devices. Students will use complex numbers and phasor diagrams to analyze AC circuits.
They will also examine design methodology for the various materials and equipment used in the manufacture of electronic products. Students will learn how to apply power control devices and develop skills such as soldering and terminal crimping.
ECET – Electronics and Computer Engineering – Course descriptions – Camosun College
Students will be provided with an introduction to digital technology, using discrete logic gates and advanced programmable logic devices. To design a Gray cod Students use development and analysis software and instrumentation for circuit verification.
In the lab, students model systems presented in case studies involving alternative energy deployment, biomedical technologies and industrial process controls.
September Students will program, interface, and troubleshoot real-world processes using a PLC. This course provides an overview of processes and equipment employed in a typical semiconductor manufacturing environment.
Electronics and Computer Engineering
Students will be introduced to concepts of circuit analysis in passive DC and AC circuits. Students will study device characteristics and behaviour and learn how to analyze, design, modify and combine them to perform complex functions. They will also cover communication with embedded devices such as the Netduino or other ARM microcontroller platforms. This course examines conservation laws of mass, eect, charge and momentum.
Test a 74LS74 D flip-flop and compare against predictions. Students will have an opportunity to explore the many diverse careers available in the networking, electronics and computer engineering industry. Write the Boolean equations for each of the following codes if an active-LOW decoder output is required: Applications of the microprocessor as a computing element used with storage devices and embedded controllers are covered.
They will learn software problem specification, algorithm development, program development, debugging and homswork. September Students will be introduced to the fundamentals of AC and DC electrical motors, generators, electrical voltage conversion and transmission. Assume that the register is initially cleared.
Students will learn how to analyze a requirement specification and break it down into a modular design following both the Canadian Electrical Code and equipment manufacturing standards. When a HIGH is on the output of the decoding circuit below, what is the binary code appearing on the inputs? This course homewoork the product development cycle from initial concept through final product. Then using the eSOC board, I will Sketch the Q output for the waveforms shown.
Students will complete a project that tries to simulate the workplace environment.