Power systems certificate is designed by highly educated instructors at TONEX in order to provide a specialized training in power system area. The certificate consists of four technical power system areas which is designed for engineers and students seeking to improve their power system knowledge and position themselves for their job responsibilities and promotions.
Our industry and faculty experts at TONEX will help you to understand the fundamental concepts of power system in order to tackle the real-world challenges. The power system certificate consists of major topics:
Power systems modeling and analysis
Power quality and design
Power systems standards
Advanced power systems (Micro and Smart grids)
Power system control ( linear and advanced)
Audience:
All engineers who wants to learn, design, or operate the power systems
Power traders to understand the power systems.
Independent system operator personnel.
Faculty members from academic institutes who want to teach the power system courses.
Investors and contractors who plan to make investments in power industry.
Professionals in other energy industries.
Objectives:
Understand the basic power system components with their functionality
Design the power system components based on customers demand
Differentiate the modern power system with advancement of power electronics with traditional power systems
Model generators, transformers, transmission lines and loads
Conduct the stability analysis for different components of the power systems
Design the grounding system in power systems
Design the distribution systems
Understand the different types of faults in power systems and fault analysis
Describe the fundamentals of protection and relaying in power systems
Understand the modern power system components and smart/micro grids
Explain the communication technology used in micro/smart grids
Understand the different control levels in micro/smart grids
Differentiate the modern and traditional control in power systems
Explain the advanced control and optimizations implemented in micro/smart grids
Analyze the stability in modern power systems
Implement the control/analysis in real world projects
Training Outline:
Basic Concepts
Main Components of Power Systems
Transformer Modeling
Transmission Line Parameters and Performance
Power System Models
Power Flow Analysis
Fault Analysis
Symmetrical Components and Unbalanced Operation
State Estimation
Contingency Analysis
Call us today at +1-972-665-9786. Learn more about course audience, objectives, outlines, pricing. Visit our website links below.
Power Systems Certificate
https://www.tonex.com/training-courses/power-systems-certificate/
The relationship between iot and communication technology
Power Systems Certificate
1. Power Systems
Certificate
Call Us Today: +1-972-665-9786
https://www.tonex.com/training-courses/power-systems-certificate/
Price: $3,999.00 Length: 4 Days
2. Since 1993, Tonex has specialized in providing industry-leading training, courses, seminars, workshops,
and consulting services.
Why Tonex ?
--Presenting highly customized learning solutions is what we do. For over 30 years TONEX has worked
with organizations in improving their understanding and capabilities in topics often with new
development, design, optimization, regulations and compliances that, frankly, can be difficult to
comprehend.
--Ratings tabulated from student feedback post-course evaluations show an amazing 98 percent
satisfaction score.
--Reasonably priced classes taught by the best trainers is the reason all kinds of organizations from
Fortune 500 companies to government’s most important agencies return for updates in courses and
hands-on workshops
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Power Systems Certificate
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3. Who Should Attend:
• All engineers who wants to learn, design, or
operate the power systems .
• Power traders
• Independent system operator personnel
• Faculty members from academic institutes
• Investors and contractors
• Professionals in other energy industries
• More…
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Power Systems Certificate
https://www.tonex.com/training-courses/power-systems-certificate/
4. Power systems certificate is planned by very taught educators at TONEX so as to give a particular
preparing in power framework zone. The certificate comprises of four specialized power framework
zones which is intended for architects and understudies trying to enhance their power framework
learning and position themselves for their activity obligations and advancements.
Our industry and workforce specialists at TONEX will help you to comprehend the essential ideas of
power framework with a specific end goal to handle this present reality challenges. The power
framework certificate comprises of real themes:
•Power systems modeling and analysis
•Power quality and design
•Power systems standards
•Advanced power systems (Micro and Smart grids)
•Power system control ( linear and advanced)
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Power Systems Certificate
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5. 1st part:
The initial segment of this power framework certificate is devoted to power framework
demonstrating and examination which helps the designers and understudies to comprehend the
basics of power systems including the primary segments of the power framework and displaying
approach for every segment.
Ideas, for example, complex power, three stage adjusted and uneven power systems, phasor and time
area, and per stage investigation will be presented in the initial segment. Also, general data about
execution of generators, transformers, transmission lines, switchgears, and loads are presented.
With a specific end goal to pull in the group of onlookers' consideration, point by point displaying
methodology will be portrayed for the primary segments of the power systems. Subsequent stage is
to consolidate the models fit as a fiddle the power framework models as a spiral framework, circle
framework or a system.
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Power Systems Certificate
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6. 2nd part :
In the second piece of the power systems certificate, the group of onlookers will be presented with
the ideas of power quality, power framework outline and establishing, handing-off, assurance and
vitality administration systems (EMS).
Subjects, for example, establishing framework configuration, establishing benchmarks, power quality
and impact of music, voltage droops, voltage dependability, receptive power remuneration
techniques, dispersion framework plan, and blame location are canvassed in this part. In addition,
keeping in mind the end goal to enhance the group of onlookers' information in power framework
assurance and handing-off, our teachers at TONEX will present the essential ideas of transferring,
distinctive kinds of transfers, basics of insurance, and blame observing. At long last, the vitality
administration systems will be depicted so as to set up the specialists for the third piece of the
certificate which is the propelled power systems.
The group of onlookers will take in the cutting edge vitality administration systems, state estimation
survey, monetary activity of power systems, organize security, present day SCADA systems, and the
idea of keen network.
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Power Systems Certificate
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7. 3rd part :
Third piece of the power systems certificate causes you to comprehend the cutting edge power
framework innovations and headway of power electronic gadgets in late power lattice. This part will
help you to refresh your insight about the current upgrades and headways in power lattices keeping in
mind the end goal to expand the productivity and unwavering quality.
The data from the initial two sections of the certificate will be joined with power electronic ideas to
shape the general power framework including the customary segments and additionally progressed
sustainable power source combination advances. Points, for example, brilliant framework idea in
appropriation systems, effectiveness and unwavering quality of savvy networks, correspondence
innovation, segments of miniaturized scale and keen matrices, vitality stockpiling arrangements,
principles in small scale lattice and shrewd matrix configuration, request reaction, and wide zone
estimation systems (WAMS) will be incorporated into this part.
Moreover, to enhance the crowd's learning about miniaturized scale and brilliant network control,
another segment is planned in the third part to present the propelled power electronic gadgets,
control voltage source inverters, ideas of pinnacle shaving, stack shedding, and request reaction in
power electronic change over control and progressive control of smaller scale matrices
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8. Last part :
The last piece of power systems certificate will show you the basic control outline for power systems
and presents the propelled control approaches in current power systems. By taking in this part, you
will have the capacity to comprehend the historical backdrop of control in power systems, idea of
power framework displaying for control plan, input control in power systems, open and close circle
control systems, area of roots and transient reaction.
Besides, subjects, for example, strength of straight input power systems, soundness investigation with
decay locus technique, and recurrence reaction in current power systems are presented as the
principle parts of direct control systems in power framework considers.
To include more top to bottom learning and to refresh the control hypothesis for current power
systems including the savvy and smaller scale matrices, propelled control approaches are presented as
well. Subjects, for example, recurrence area investigation in miniaturized scale frameworks and
brilliant networks, impedance examination in sustainable power sources, shut circle recurrence
reaction, slightest square estimations in power stream contemplates, Kalman channel based
estimation in power systems, state space based investigation and control plan in present day power
systems.
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Power Systems Certificate
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9. By the end of the training, the audience not only will have sufficient knowledge about power system
modeling, analysis, protection, power quality, but also will learn the fundamentals of micro grids,
smart grids and their advanced control approaches.
Although the power system certificate will be issued by taking all the four sections, taking one part
will also lead to a certificate for the special area that is taken. The detailed outline for each part is
included in a separate link below.
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Power Systems Certificate
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11. The Power systems certificate training is a 4-day course designed for:
•All engineers who wants to learn, design, or operate the power systems
•Power traders to understand the power systems.
•Independent system operator personnel.
•Faculty members from academic institutes who want to teach the power system courses.
•Investors and contractors who plan to make investments in power industry.
•Professionals in other energy industries.
•Marketing people who need to know the background of the products they sell.
•Electric utility personnel who recently started career in power systems or having new job
responsibilities.
•Technicians, operators, and maintenance personnel who are or will be working at power plants or
power system generation companies.
•Managers, accountants, and executives of power system industry.
•Scientist or non-electrical engineers involved in power system related projects or proposals.
•Graduate students seeking a professional career in power systems
TAKE THIS COURSE
Power Systems Certificate
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13. Upon completion of the Power systems certificate training course, the attendees are able to:
•Understand the basic power system components with their functionality
•Design the power system components based on customers demand
•Differentiate the modern power system with advancement of power electronics with traditional
power systems
•Model generators, transformers, transmission lines and loads
•Conduct the stability analysis for different components of the power systems
•Design the grounding system in power systems
•Design the distribution systems
•Understand the different types of faults in power systems and fault analysis
•Describe the fundamentals of protection and relaying in power systems
•Understand the modern power system components and smart/micro grids
•Explain the communication technology used in micro/smart grids
•Understand the different control levels in micro/smart grids
•Differentiate the modern and traditional control in power systems
•Explain the advanced control and optimizations implemented in micro/smart grids
•Analyze the stability in modern power systems
•Implement the control/analysis in real world projects
TAKE THIS COURSE
Power Systems Certificate
https://www.tonex.com/training-courses/power-systems-certificate/
14. Part 1:
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Power Systems Certificate
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Power Systems Certificate Part 1: Power System Modeling and Analysis
15. Training Outline
•Basic Concepts
•Review of complex numbers.
•Complex power.
•Conservation of complex power
•Balanced three-phase
•Unbalanced three phase
•Phasor and time domain
•Per phase analysis
•Per unit normalization
•Change of base in per unit systems
•Per unit analysis of normal system
•Complex power transmission
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Power Systems Certificate
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16. TAKE THIS COURSE
Power Systems Certificate
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Main Components of Power Systems
•Generators
•Transformers
•Transmission lines
•Substations (switchgears)
•Circuit breakers
•Disconnectors
•Loads
•Constant: Resistive, Inductive, Capacitive
•Dynamic: Power electronic and electric vehicle
charging
•Induction Machines
17. Transformer Modeling
•Single-phase transformers
•Three phase transformers
•Different connections for three phase transformers
•Equivalent circuit model of transformers
•Per-unit calculations in transformers
•Auto-transformers
Transmission Line Parameters and Performance
•Transmission line parameters
•Transmission line modeling
•Waves in transmission lines
•Simplified transmission line models
•Power-handling capability of transmission lines
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Power Systems Certificate
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More topics in part 1 :
•Power System Models
•Power Flow Analysis
•Fault Analysis
•Symmetrical Components and
Unbalanced Operation
•State Estimation
•Contingency Analysis
19. Part 2:
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Power Systems Certificate Part 2: Power Quality and Design
20. Training Outline
The outline of Power quality and design is mentioned in the following which can be revised and
tailored to the client’s need:
•Basics of complex power and power flow in power systems
•Introduction to power quality
•Concept of power quality and definitions
•IEEE standards for power quality
•Power quality in utility
•Power conditioners
•Uninterruptable power systems (UPS)
•Electrical disturbances effect the power quality
•Equipment performance in terms of power quality
•Concepts of harmonics
•Effect of harmonics on power quality
•Monitoring the power quality
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21. •Accuracy of monitoring
•Impact of static converters on supply networks
•Probability curves in power quality monitoring
•Monitoring standards
•Case studies in power quality
•Flicker
•Effect of noise on power quality
•Effect of voltage changes on power quality
•Transients
•Voltage sag
•Voltage swell
•Effect of unbalance on power quality
•Distributed generation and power quality
•Troubleshooting the power quality problems
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22. Reactive Power Compensation
•Characteristics of inductances and capacitances
•Reactive power
•Reactive power compensator
•Power factor correction
•Passive filters
•Grounding System Design in Power Systems
•Principles of design
•Purposes of grounding
•Standards to be considered in grounding
•Resistance and impedance to ground
•Typical ground electrode constructions
•NEC-Article 250 for grounding design
•System models in grounding design
•Designing the grounds for lightning
•Impedance measurements for grounding
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23. Grounding arrangement for low and high voltage
•IEEE design procedures
•Integrated ground designs
•Testing the grounding design
•Substation grounding design
•Safety assessment for grounding design
•Effect of grounding on power quality
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24. Distribution Grounding Design
•Introduction of grounding for distribution systems
•Examples of distribution systems
•Voltage levels in distribution systems
•Distribution system components
•Distribution grounding practices
•Calculations for grounding resistance
•Safety standards
•Computer based grounding design
•Ground measurements in distribution systems
•Transients in distribution systems
•Faults in distribution systems
•Isolation transformers for distribution systems
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25. Protection and Relaying
•Different types of faults in power systems
•Fundamentals of protection
•Purpose of using relays
•Current transformers
•Voltage transformers
•Earth fault and leakage protection
•Differential protection
•Generator protection
•Transformer protection
•Motor protection
•Examples of protections
•Testing of differential protections
•Transformer earth fault protection
•Earth fault relay
•Generator relay testing
•Stability, reclosing and load shedding
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26. Part 3:
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Power Systems Certificate Part 3: Advanced power systems (Micro and Smart Grids)
27. Training Outline
The outline of advanced power systems (Micro and Smart Grids) is mentioned in the following which
can be revised and tailored to the client’s need:
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Introduction to Smart Grids
•Definition of smart grids
•Environmental issues
•Advantages of smart grids
•Benefits to customers
•Information and communication technologies
•Digital sense and control of the grid
28. Introduction to Micro Grids
•Definition of micro grid
•Main components of a micro grid
•Distributed generation
•Electrical vehicles
•Car charging stations
•Solar panels
•Wind farms
•Battery energy storages
•Grid connected and islanded micro grids
•Voltage source converters in micro grids
•Efficiency of the micro grid
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Challenges Regarding the Smart and Micro Grids
•Regulatory changes in smart grids
•Utility business models
•Effect of loads on smart grids
•Cost of generation
•Controllability
•Interaction between renewable energy sources of a micro grid
•Frequency control challenges
•Demand response in micro grids
Interconnection of Smart and Micro Grids
•Transmission lines
•Grid interconnection (grid connected mode)
•Protection of transmission line in smart grids
•Wide area measurement systems (WAMS)
•Communication network in smart grids
•Integration of electric vehicle into the grid
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Advance Technologies Offered by Smart Grids
•Power saving
•Smart meters
•Green energy systems
•Smart substations
•Smart residential networks
•Advanced technologies for distribution automation
•Advanced metering infrastructure
•Could computing and mobile apps
•Advanced pricing schemes
•Large data analysis
Security in Smart and Micro Grids
•Potential threats
•Different types of faults
•Voltage support
•Frequency compensation
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Advanced Control Architecture in Smart and Micro Grids
•Basic control provided by voltage source converters
•Pulse Width Modulation (PWM)
•Hierarchical control of micro grids
•Primary control
•Inner current controllers
•Voltage controllers
•Active and reactive power control
•Primary droop controllers
•Secondary voltage and frequency controllers
•Droop frequency controllers in islanded mode
•Tertiary control of micro grids
•Optimization and cooperative control in micro grids
•Distributed optimization based upper level control
•Energy management in battery energy storage systems
•Control of solar panels
•Maximum power point controller (MPPT)
•Proportional resonance controller (PR)
32. Part 4:
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Power Systems Certificate Part 4: Power System Control (linear and advanced control)
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Training Outline
The outline of Power system control (linear and advanced control) is mentioned in the
following which can be revised and tailored to the client’s need:
Introduction to Power System Control
•History of power system control
•Control engineering practice
•Examples of power system control
Modeling of Power System Control
•Differential equations in power systems
•Linear approximation of power system equations
•The Laplace transform
•Block diagram methods
•Simulation of power systems
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Feedback Control in Power System
•Open and close loop control systems
•Sensitivity of control systems
•Control of transient response
•Steady state error
•Cost of feedback control
•S-plane root location
•Transient response in power systems
•Performance indices
•Simplification of linear models of power systems
Learn more about:
Stability of Linear Feedback Power System
Root locus Method in Power System Studies
Frequency Response in Modern Power System
Time Domain Analysis in Power System
Least Square Estimation
Kalman Filter Based Estimation