Pollster Education Logo Pollster Education Logo  Sign up

Bachelors of Engineering Technology in Electronics & Controls

Sydney, Nova Scotia

 

INTAKE: Jan, May & Sept

Program Overview

The Bachelor of Engineering Technology (BET) in Electronics & Controls program at Cape Breton University offers students a comprehensive education in the field of electronics engineering with a focus on controls systems. This program is designed to provide students with the theoretical knowledge, practical skills, and hands-on experience required to excel in the rapidly evolving field of electronics and control systems. The Bachelor of Engineering Technology in Electronics & Controls program at Cape Breton University provides students with a well-rounded education in electronics engineering with a focus on controls systems. Through a combination of classroom instruction, laboratory work, project-based learning, and industry experience, students develop the skills and knowledge needed to succeed in the field of electronics and controls engineering.

Curriculum:

  1. Core Engineering Courses: The program includes a core set of engineering courses covering fundamental principles in mathematics, physics, and electronics engineering. Students learn about circuit analysis, digital electronics, microprocessors, and signal processing techniques. These courses provide students with a solid foundation in electronics engineering and prepare them for advanced coursework in controls systems.

  2. Controls Systems Specialization: The program offers a specialization in controls systems, focusing on the design, analysis, and implementation of control systems for various applications. Students study topics such as feedback control theory, system modeling, PID controllers, and digital control systems. They learn how to design control algorithms, simulate system dynamics, and implement control strategies using software tools and programmable logic controllers (PLCs).

  3. Laboratory Work: Hands-on laboratory work is an integral part of the program, allowing students to apply theoretical concepts to practical engineering problems. In the laboratory, students work with electronic components, measurement instruments, and control systems hardware to design, build, and test electronic circuits and control systems. Laboratory experiments reinforce classroom learning and provide students with valuable hands-on experience.

  4. Project-Based Learning: The program incorporates project-based learning activities where students work on engineering design projects related to electronics and controls systems. Working individually or in teams, students identify engineering problems, develop design solutions, and build prototypes to demonstrate their ideas. Project-based learning encourages creativity, collaboration, and critical thinking skills while allowing students to apply their knowledge to real-world engineering challenges.

  5. Industry-Relevant Curriculum: The curriculum is designed in consultation with industry experts to ensure that students acquire the skills and knowledge needed to meet the demands of the electronics and controls engineering industry. Coursework is regularly updated to reflect the latest advancements in technology and industry practices. Students learn about emerging trends such as Internet of Things (IoT), industrial automation, and renewable energy systems.

  6. Simulation Software: Students have access to simulation software tools used in electronics and controls engineering, allowing them to design and simulate electronic circuits and control systems. Software packages such as MATLAB/Simulink, LabVIEW, and Multisim are commonly used for system modeling, simulation, and analysis. Students gain proficiency in using these tools to design and optimize electronic systems and control algorithms.

  7. Industry Partnerships and Internships: Cape Breton University maintains partnerships with industry organizations, electronics manufacturers, and engineering firms to provide students with internship and co-op opportunities. These industry partnerships give students the chance to gain practical work experience, apply their skills in a professional setting, and establish connections with potential employers. Internships also provide valuable insights into industry practices and career pathways in electronics and controls engineering.

  8. Professional Development: The program emphasizes the development of professional skills essential for success in the engineering profession. Students learn about engineering ethics, communication skills, teamwork, project management, and lifelong learning. Professional development workshops, seminars, and networking events are organized to help students enhance their employability and prepare for their future careers.

  9. Capstone Project: In the final year of the program, students undertake a capstone project where they work on a comprehensive engineering design or research project related to electronics and controls systems. Working under the supervision of faculty members or industry mentors, students apply their knowledge and skills to solve a real-world engineering problem or address an engineering challenge. The capstone project allows students to demonstrate their mastery of engineering concepts and showcase their problem-solving abilities.

  10. Pathways to Further Education: Graduates of the program have the option to pursue further education and advanced degrees in electronics engineering, controls engineering, or related fields. Many students choose to pursue master's degrees or professional certifications to enhance their knowledge and expertise in specific areas of electronics and controls engineering. Cape Breton University offers pathways for students to continue their education through graduate studies or professional development programs.

Pollster Education

Location

Sydney, Nova Scotia

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

CAD 19028

Application Fees: CAD $ 80

Undergraduate Program:

Educational Qualifications: Indian students applying for an undergraduate programat CBU must have completed their secondary education with a minimum aggregate score of 60%. This  corresponds to a passing grade in the Indian education system.

English Language Proficiency: Proficiency in the English language is essential for admission to CBU. Indian students are required to demonstrate their English language skills by submitting the results of a recognized English language proficiency test. CBU accepts various tests such as the IELTS, TOEFL, or equivalent. IELTS score of overall 6.5 band with no band less than 6 is accepted, TOEFL iBT overall score of 80 is required. PTE overall score of 59 is required and DET score of 115 is required.

Cape Breton University (CBU) offers a range of scholarships and financial aid opportunities to international students to support their educational journey. These scholarships are designed to recognize academic excellence, leadership potential, and community involvement. 

International Student Entrance Scholarships: CBU offers entrance scholarships for international undergraduate students based on their academic achievements. These scholarships are available to both full-time and part-time students. The scholarship amounts vary and are renewable for up to four years, provided that the student maintains satisfactory academic standing.

Chancellor's Scholarships: This prestigious scholarship is awarded to exceptional international undergraduate students who have demonstrated outstanding academic achievements and community involvement. The scholarship covers full tuition fees for up to four years of study at CBU.

International Student Bursaries: CBU provides bursaries to international students facing financial challenges. These bursaries are awarded based on financial need and can help cover tuition fees, books, and other educational expenses.

External Scholarships: CBU encourages international students to explore external scholarship opportunities available in their home countries or through international organizations. The university provides support and guidance to students in their search for external scholarships.

Work-Study Program: CBU offers international students the opportunity to work on campus while studying through its Work-Study Program. This program provides students with valuable work experience and helps offset their living expenses.

It is important to note that the availability, eligibility criteria, and application deadlines for scholarships may vary each year.

Graduating with a Bachelor of Engineering Technology (BET) in Electronics & Controls from Cape Breton University opens up a multitude of career opportunities in the rapidly evolving field of electronics engineering. Equipped with practical skills, theoretical knowledge, and specialized training in controls systems, graduates are well-prepared to pursue rewarding careers in various sectors. Graduates of the Bachelor of Engineering Technology in Electronics & Controls program at Cape Breton University are well-equipped to pursue diverse and rewarding careers in electronics engineering, controls engineering, and related fields. With their specialized training, practical skills, and theoretical knowledge, graduates play a vital role in driving technological innovation, improving industrial processes, and addressing societal challenges through the application of electronics and controls technology.

  1. Electronics Engineer: Graduates may work as electronics engineers, responsible for designing, testing, and maintaining electronic components, devices, and systems. They may specialize in areas such as analog electronics, digital electronics, power electronics, or embedded systems. Electronics engineers work in industries such as telecommunications, consumer electronics, automotive, aerospace, and medical devices, designing circuits, PCBs, and electronic systems to meet specific performance requirements and standards.

  2. Controls Engineer: Graduates may specialize in controls engineering, focusing on the design, analysis, and optimization of control systems for various applications. They may work in industries such as manufacturing, process control, robotics, automation, and energy systems. Controls engineers design and implement control algorithms, develop software for PLCs and SCADA systems, and troubleshoot control system issues to ensure safe and efficient operation of industrial processes and machinery.

  3. Automation Engineer: Graduates may work as automation engineers, specializing in the design and implementation of automated systems and processes. They may work in industries such as manufacturing, utilities, transportation, and infrastructure, designing control systems for robotic assembly lines, automated production plants, and smart buildings. Automation engineers integrate sensors, actuators, and control systems to optimize production efficiency, minimize downtime, and improve safety in industrial environments.

  4. Instrumentation Engineer: Graduates may specialize in instrumentation engineering, focusing on the design, installation, and maintenance of measurement and control systems. They work in industries such as oil and gas, petrochemicals, utilities, and environmental monitoring, designing and calibrating instruments for temperature, pressure, flow, and level measurement. Instrumentation engineers ensure accurate and reliable data acquisition and control for process optimization, safety compliance, and environmental monitoring.

  5. Robotics Engineer: Graduates may work as robotics engineers, specializing in the design and development of robotic systems for industrial, commercial, or research applications. They may work in industries such as manufacturing, healthcare, agriculture, and defense, designing robots for tasks such as assembly, welding, material handling, and medical surgery. Robotics engineers develop algorithms for robot motion planning, sensor integration, and human-robot interaction to create advanced robotic systems that improve efficiency and productivity.

  6. Embedded Systems Engineer: Graduates may specialize in embedded systems engineering, focusing on the design and programming of embedded systems for various applications. They work in industries such as automotive, aerospace, consumer electronics, and IoT devices, designing embedded systems for control, communication, and data processing. Embedded systems engineers develop firmware, device drivers, and software applications for microcontrollers, DSPs, and FPGAs to create intelligent and connected devices.

  7. Power Electronics Engineer: Graduates may work as power electronics engineers, specializing in the design and implementation of power conversion systems and renewable energy systems. They work in industries such as power generation, transportation, renewable energy, and electric vehicles, designing power supplies, inverters, and motor drives for efficient energy conversion and management. Power electronics engineers contribute to the development of sustainable energy solutions and the electrification of transportation systems.

  8. Field Service Engineer: Graduates may work as field service engineers, providing technical support, installation, and maintenance services for electronic and control systems. They work in industries such as manufacturing, utilities, telecommunications, and healthcare, troubleshooting equipment issues, performing repairs, and providing training to end-users. Field service engineers ensure the reliable operation of electronic and control systems, minimize downtime, and maximize customer satisfaction.

  9. Quality Assurance Engineer: Graduates may work as quality assurance engineers, responsible for ensuring the quality, reliability, and compliance of electronic and control systems with industry standards and regulations. They work in industries such as aerospace, automotive, medical devices, and telecommunications, developing quality control processes, conducting tests, and analyzing data to identify defects and areas for improvement. Quality assurance engineers play a crucial role in maintaining product quality and customer satisfaction.

  10. Research and Development (R&D) Engineer: Graduates may work in research and development roles, contributing to the advancement of electronics and controls technology through innovation and experimentation. They work in industries such as academia, government research laboratories, and private companies, conducting research, prototyping new technologies, and developing patentable inventions. R&D engineers push the boundaries of technology, explore emerging trends, and pioneer breakthroughs in electronics and controls engineering.

Similar Courses
View All
WhatsApp Enquiry Call Enquiry