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Introduction of Power Electronics
Power Electronics Course, Power electronics is the application of solid-state electronics to the control and conversion of electric power. Electronic systems are concerned with the transmission and processing of signals and data. In power electronics, substantial amounts of electrical energy are processed. The Power Electronics Course Islamabad is for those who want to learn and provide career-long support and ensure they are better equipped for their future roles in Power Electronics. After completing this course, the delegates receive a lifetime of post-training support from SINA Institute, to help them apply the technologies and skills they have learned with us and to pursue their careers in the field of Industrial Automation.
Curriculum
- 11 Sections
- 127 Lessons
- 10 Weeks
Expand all sectionsCollapse all sections
- Module 01: History of Power Electronics Professional8
- Module 02: Types of Power Devices8
- 3.1An introductory overview of power electronic devices
- 3.2uncontrolled device-power diode
- 3.3Half-controlled device-thyristor
- 3.4Typical fully-controlled devices
- 3.5Other new power electronic devices
- 3.6Drive circuit for power electronic devices
- 3.7Protection of power electronics devices
- 3.8Series and parallel connections of power electronics devices
- Module 03: General Purposes Diodes11
- Module 04: Power Ratings of Devices11
- Module 05: Applications of Power Devices11
- Module 06: Voltage and Current Waveforms10
- Module 07: Diode Rectifiers27
- 8.1Rectifier devices
- 8.2Rectifier circuits
- 8.3Single-phase rectifiers
- 8.4Half-wave rectification
- 8.5Full-wave rectification
- 8.6Three-phase rectifiers, half-wave circuit
- 8.7A full-wave circuit using a center-tapped transformer
- 8.8bridge rectifier
- 8.9Twelve-pulse bridge
- 8.10Voltage-multiplying rectifiers
- 8.11Rectifier efficiency, losses, output smoothing
- 8.12Applications
- 8.13Rectification technologies
- 8.14Electromechanical
- 8.15Synchronous rectifier
- 8.16Vibrating rectifier
- 8.17Motor-generator set
- 8.18Electrolytic
- 8.19Plasma type
- 8.20Mercury-arc
- 8.21Argon gas electron tube
- 8.22Vacuum tube (valve)
- 8.23Solid-state
- 8.24Crystal detector
- 8.25Selenium and copper oxide rectifiers
- 8.26Silicon and germanium diodes
- 8.27High power: thyristors (SCRs) and newer silicon-based voltage sourced converters
- Module 08: Ac-dc Converter13
- Module 09: dc-dc Converter13
- Module 10: Power supplies10
- LabsIn this course, you will get the training of Power Electronics Course under the supervision of experienced instructors who focus on the concepts and make you a professional in the respected field. Our training focuses on the key elements, concepts, and terminologies associated with power Electronics service lifecycle management. You will not only learn verbally but also practically by doing some tasks and assignments. We will help you to become a professional so that you can achieve high ranks in the related field and SINA’s certification will help you get good jobs around the globe. This power Electronics Course introduces the students to:5
Instructor
Requirements
- Both electrical and electronics engineers are eligible for this training. Or an academic degree with a major in electrical/ electronic engineering. After completing a certified degree program the engineer must satisfy a range of requirements.
Features
- Objectives:Power Electronics Professional System combines a modular design approach with computer-based data acquisition and control to provide unrivaled training in power electronics to students already having sound knowledge of basic electric power technology.
- Outcomes: The Power Electronics Professional training system teaches the principles of dc and ac power electronics. To this end, students follow a complete curriculum that includes these topics: Courses that cover the operation of various power electronics devices, both dc, and ac, as well as single-phase and three-phase. Professional advantages continue to grow for technical engineers who understand the fundamental principles and technical requirements of modern power.