Professional Certificate of Competency in Circuit Breakers, Switchgear & Power Transformers
Online
DURATION
3 Months
LANGUAGES
English
PACE
Part time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
15 Apr 2025
TUITION FEES
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STUDY FORMAT
Distance Learning
Introduction
This professional development course is designed for engineers and technicians who need practical knowledge regarding the application, installation, maintenance, and testing issues relating to low, medium, and high voltage switchgear, circuit breakers, and transformers.
Gallery
Scholarships and Funding
Several scholarship options are available. Please check the institute website for more information.
Curriculum
Module 1: Introduction to Switchgear and Transformers
- Single line diagrams
- Active and passive network components
- Circuit breaker utilization
- Alternative forms of MV switchgear – ring main units and load breaking/fault making switches
- Fuse switches
- HV fuses in combination with and as alternatives to circuit breakers
- Auto-reclosers and auto-reclose operation
Module 2: Application of Switchgear
- Principles of current interruption
- Plain break circuit breakers
- Bulk and small oil volume circuit breakers
- Turbulator (explosion pot)
- Operating mechanisms
- Transfer earth circuit breakers
- Air break and air blast switchgear
- SF6 and vacuum
- Switchgear in association with isconnectors
- Fixed and withdraw-able designs
- Switchgear standards
- Factors affecting switchgear selection
Module 3: Specification of Switchgear
- Switchgear ratings – highest system and impulse withstand voltages, load, and short circuit currents
- Simple and complex protection systems
- Switchgear ancillaries, measurement CTs, VTs and relays
- Cable terminations
- Indoor and outdoor operation
- Substation and switch room layouts and design
- Short circuit testing
- Symmetrical and asymmetrical breaking
- Make and break operations
- Understanding test oscillograms
- Case study – Specification for a 132 KV Switchboard
Module 4: Safety Policies
- General safety precautions and the use of personal protective equipment
- Principles of safety rules
- Principles of personal authorization
- Operative training for the safe operation of switchgear
- Isolation in a circuit breaker context
- Safety documentation
- Operational and safety locking, caution and danger notices
- Work safety in a substation environment
- Safety interlocks
- Substation alarms
- Individual study tasks and presentation – safety policies in my company and how they might be improved
Module 5: Operation of Modern Switchgear
- Case Studies
- Sprecher and Schuh
- Schneider
- ABB
- Siemens
- Assets management in a switchgear context
- Principles of time and condition-based asset management
- Asset registers
- Asset management systems
Module 6: Diagnostics, Testing and Maintenance
- Switchgear inspection methodologies
- Partial discharge measurement and survey
- Timing tests
- Thermovision
- Mechanisms of deterioration
- Principles of circuit breaker maintenance
- Maintaining oil circuit breakers
- Contact maintenance and contact wipe
- Oil testing
- Maintaining vacuum circuit breakers
- Maintaining SF6 circuit breakers
- SOPs and DINs
- Switchgear defects and defect control Systems
Module 7: Transformers’ Main Functions and Classification
- Construction (shell type and core type)
- Classification and type in relation to insulation, windings, core, cooling systems, voltage level, sizing, tank and breathing action
- Transformer parts
- Power transformers and safety
- How to install, operate and work with high voltage power transformers safelyEarthing of HV transformers
Module 8: Transformer Theory
- Electrical values and their definition in a power transformer – voltage, current, number of turns, impedance and their interrelation
- Operation of power transformers in a power system
- Thermal performance, loading, paralleling, tap-changing, connections and vector groups
Module 9: Power Transformer Protection
- Surge protection
- Protective relaying (differential, over-current and earth fault)
- Buchholz relay and pressure relief relay
- Thermal devices and instruments (oil temperature alarm and trip, winding temperature alarm and trip)
Module 10: Auto-Transformers, Generator Transformers, Unit Transformers and Station Transformers
- Design criteria
- Specifications
Module 11: Oil Quality
- Oil contents: water, acidity and dissolved gas
- Oil tests: dielectric breakdown, moisture, resistivity, interfacial tension, specific gravity, power factor and furan analysis
- Recovery voltage measurement test
Module 12: Power Transformer Electrical Tests
- AC Tests:
- Power factor tests (insulation, oil, and bushings)
- Single-phase excitation current test
- Transformer turns ratio test
- DC Tests:
- Insulation resistance test
- Dielectric absorption test
- Polarization index test
- Step voltage test
- Hi-pot test
- Preventative maintenance on power transformers
- Techniques to improve life expectancy
Program Outcome
Benefits
- Receive a Certificate of Completion from EIT.
- Learn from well-known faculty and industry experts from around the globe.
- Flexibility of attending anytime from anywhere, even when you are working full-time.
- Interact with industry experts during the webinars and get the latest updates/announcements on the subject.
- Experience a global learning with students from various backgrounds and experience which is a great networking opportunity.
- Gain practical knowledge regarding the application, installation, maintenance, and testing issues relating to low, medium, and high voltage switchgear, circuit breakers, and transformers.
- Get a solid understanding of critical electrical equipment’s like switchgears, circuit breakers and transformer, with an overriding emphasis on safety.
- Learn to operate modern switchgears from market leaders like Sprecher and Schuh, Schneider, ABB, Siemens.
Certification
To obtain a certificate of completion for EIT’s Professional Certificate of Competency, students must achieve a 65% attendance rate at the live, online fortnightly webinars. Detailed summaries/notes can be submitted in lieu of attendance. In addition, students must obtain a mark of 60% in the set assignments which could take the form of written assignments and practical assignments. Students must also obtain a mark of 100% in quizzes. If a student does not achieve the required score, they will be given an opportunity to resubmit the assignment to obtain the required score.
Program Tuition Fee
Student Testimonials
Why study at Engineering Institute of Technology
Regardless of whether you are a domestic or international student, when you study on-campus with EIT, our supportive blended learning model, and small class sizes encourage you to advance your technical knowledge and remain engaged in your studies while forming global networks.
We deliver our on-campus degrees via a unique methodology that uses an international pool of expert lecturers, and dedicated learning support officers, and provides you access to cutting-edge simulation software alongside physical and virtual laboratories to test concepts and deepen your understanding of program content.
EIT has campuses across Australia in Perth (Western Australia), Melbourne (Victoria), and Brisbane (Queensland).
Program delivery
You are expected to spend approximately 5-8 hours per week learning the course content. This includes attending fortnightly webinars that run for about 90 minutes to facilitate class discussion and allow you to ask questions. This professional development program is delivered online and has been designed to fit around full-time work. It will take three months to complete.