20511Electric circuits
Chapter 1: Voltage, current, power, and sources. Chapter 2: Circuit law. Chapter 3: Circuit analysis methods. Circuit theorems. Chapter 4: Circuit theorems. Chapter 5: Operational amplifier circuit. Chapter 6: Capacitors and inductors. Chapter 7: RC and RL circuit. Chapter 8: RLC circuit. Chapter 9: Phasors and impedances. Chapter 10: Analysis of phasor-transformed circuits. Chapter 11: AC power. Chapter 12: Three-phase systems. Chapter 13: magetically coupled. Chapter 14: The laplace transform. Chapter 15: Circuit analysis in the s-domain. First-and second-order analog fillters. Chapter 17: Analog filter design. Chapter 18: Fourier series. Chapter 19: Fourier transform. Chapter 20: Two-port circuits.
20512Electric machinery fundamentals
Chapter 1: Introduction to machinery principles; Chapter 2: Transformers; Chapter 3: Introduction to power electronic; Chapter 4: AC machinery fundamentals; Chapter 5: Synchronous generators; Chapter 6: Synchronous motors; Chapter 7: Induction motors; Chapter 8: DC machinery fundamentals; Chapter 9: DC motors and generators; Chapter 10: Single-phase and special-purpose motors.
20513Electric motor control : DC, AC, and BLDC motors
Electric Motor Control: DC, AC, and BLDC Motors introduces practical drive techniques of electric motors to enable stable and efficient control of many application systems, also covering basic principles of high-performance motor control techniques, driving methods, control theories and power converters.
20514Electric motors and control systems : 2nd ed.
Chapter 1. Safety in the workplace; Chapter 2. Understading electrical dawings; Chapter 3. Motor transformers; Chapter 4. Motor control devicer; Chapter 5. Electric motor; Chapter 6. Contactors and Motor starters; Chapter 7. Relays; Chapter 8. Motor control circuits; Chapter 9. Motor control electronics; Chapter 10. Adjustable-Speed drives and PLC installations.
20515Electrical engineering : principles and applications : 7th ed.
1. Introduction; 2. Resistive circuits; 3. Inductance and capacitance; 4. Transients; 5. Steady-atate sinusoidal analysis; 6. Frequency response, Bode plots, and resonance; 7. Logic circuits; Computers, microcontrollers and computer-based instrumentation systems; 8. Diodes; Amplifiers: specifications and external characteristics; 9. Field-effect transistors; 10. Bipolar junction transistors; 11. Operational amplifiers; 12. Magnetic circuits and transformers; 13. DC machines; 14. AC machines.
20516Electrical engineering in context : smart devices, robots & communications
1. Introdution; 2. Sensors and actuators; 3. Electric circuits; 4. Electronics; 5. Combinational logic circuits; 6. Sequential logic circuits; 7. Converting between analog and digital signals; 8. Digital signal processing; 9. Spectral analysis; 10. Detecting data signals in noise; 11. Designing signals for multiple-Access systems; 12. Source coding; 13. channel coding; 14. Symbology; 15. Data networks; 16. Matlab best practices.
20517Electrical engineering in context : smart devices, robots & communications : International edition
1. Introdution; 2. Sensors and actuators; 3. Electric circuits; 4. Electronics; 5. Combinational logic circuits; 6. Sequential logic circuits; 7. Converting between analog and digital signals; 8. Digital signal processing; 9. Spectral analysis; 10. Detecting data signals in noise; 11. Designing signals for multiple-Access systems; 12. Source coding; 13. channel coding; 14. Symbology; 15. Data networks; 16. Matlab best practices.
20518Electrical equivalent model of MEMS accelerometer in Matlab/SIMULINK environment
Modeling and simulation of MEMS devices is important part of whole process of their creation and fabrication. Knowledge of mechanical, electrical and thermal phenomena and their mathematical background is nowadays well supported with simulation and CAD tools. These tools used with highly developing High Performance Computing Systems are great environments for numerical calculation highly-detailed device models. Among many such tools family, Matlab/SIMULINK environment supported with various functional toolboxes is very easy and comfortable to use. The aim of this research work is to present possibility to implement electrical equivalent model of MEMS accelerometer in MATLAB/SIMULINK environment, present results of simulation and compare to mechanical model.
20519Electrical motor controls : automated industrial systems
This book is informative, detailed and easy to follow. The text is well written and straightforward, not hard to read or dry. Illustrations are simple and clear. It covers line diagrams and schematics, logic circuits, motor contactors and starters, AC and DC solenoids, single and three phase motors, distribution, solid state controls, electromechanical relays, photoelectric controls, PLCs, reduced voltage starters, accelerating and decelerating motors and PM/troubleshooting.
20520Electrical wiring industrial : based on the 2017 national electrical code : 15th ed.
Presents concise, straightforward information in a practical, task-oriented style. Chapter topics explore all fundamentals, from installing new electrical service and changeovers from old systems to project planning and maintenance procedures. The book highlights the 2014 National Electrical Code throughout the readings to demonstrate code updates, as well as how to apply requirements to sitework, feeder bus systems, panelboards, fiber optics, harmonics, and more.