Power Supplies for LED Driving 2nd Edition by Steve Winder ISBN 9780081010242 0081010242

Power Supplies for LED Driving 2nd Edition by Steve Winder – Ebook PDF Instant Download/Delivery: 9780081010242, 0081010242 
Full download Power Supplies for LED Driving 2nd Edition after payment

Product details: 

ISBN 10:  0081010242 

ISBN 13: 9780081010242

Author: Steve Winder

Power Supplies for LED Driving, Second Edition explores the wide use of light-emitting diodes due to their efficient use of power. The applications for power LEDs include traffic lights, street lamps, automotive lighting, architectural lights, theatre lighting, household light replacements, signage lighting (replacing neon strip lights and fluorescent tubes), LCD display backlighting, and many more.

Powering (driving) these LED’s is not always simple. Linear driving is inefficient and generates far too much heat. With a switching supply, the main issues are EMI, efficiency, and of course cost. This book covers the design trade-offs involved in LED driving applications, from low-power, to UB-LEDs and beyond

Table of contents: 

Chapter 1: Introduction
Abstract
1.1. Objectives and General Approach
1.2. Description of Contents
Chapter 2: Characteristics of LEDs
Abstract
2.1. Applications for LEDs
2.2. Light Measure
2.3. Equivalent Circuit to a LED
2.4. Voltage Drop Versus Color and Current
2.5. Common Mistakes
Chapter 3: Driving LEDs
Abstract
3.1. Voltage Source
3.2. Current Source
3.3. Testing LED Drivers
3.4. Common Mistakes
3.5. Conclusions
Chapter 4: Linear Power Supplies
Abstract
4.1. Voltage Regulators
4.2. Constant Current Circuits
4.3. Switched Linear Current Regulators for AC Mains Operation
4.4. Advantages and Disadvantages
4.5. Limitations
4.6. Common Errors in Designing Linear LED Drivers
Chapter 5: Buck-Based LED Drivers
Abstract
5.1. Synchronous Buck
5.2. Hysteretic Buck
5.3. Peak Current Control
5.4. Average Current Control
5.5. Microcontroller-Based Systems
5.6. Buck Circuits for Low–Medium Voltage Applications
5.7. Buck Circuits for High Voltage Input
5.8. AC Circuits With Triac Dimmers
5.9. Double Buck
5.10. Buck Design Mistakes
Chapter 6: Boost Converters
Abstract
6.1. Charge Pump Boost Converters
6.2. Inductor-Based Boost Converters
6.3. Boost Converter Operating Modes
6.4. Design of a Continuous Conduction Mode Boost Circuit
6.5. Design of a Discontinuous Conduction Mode Boost LED Driver
6.6. Common Mistakes
6.7. Conclusions
Chapter 7: Boost–Buck Converter
Abstract
7.1. The Ćuk Converter
7.2. SEPIC Boost–Buck Converters
7.3. Buck–Boost Topology
7.4. Four-Switch Buck–Boost
7.5. Common Mistakes in Boost–Buck Circuits
7.6. Conclusions
Chapter 8: Nonisolated Power Factor Correction Circuits
Abstract
8.1. Power Factor Correction Defined
8.2. Typical PFC Boost Circuit
8.3. Boost–Buck Single Switch Circuit
8.4. Boost–Linear Regulator Circuit
8.5. Bi-Bred
8.6. Buck–Boost–Buck
8.7. LED Driver Design Example Using the BBB Circuit
8.8. Buck With PFC
8.9. Common Mistakes With PFC Circuits
8.10. Conclusions
Chapter 9: Fly-Back Converters and Isolated PFC Circuits
Abstract
9.1. Single-Winding Fly-Back (Buck–Boost)
9.2. Two-Winding Fly-Back
9.3. Three-Winding Fly-Back
9.4. Three-Winding Fly-Back PFC
Chapter 10: Essentials of Switching Power Supplies
Abstract
10.1. Linear Regulators
10.2. Switching Regulators
Chapter 11: Selecting Components for LED Drivers
Abstract
11.1. Discrete Semiconductors
11.2. Passive Components
11.3. The Printed Circuit Board
11.4. Operational Amplifiers and Comparators
11.5. High-Side Current Sense
Chapter 12: Magnetic Materials for Inductors and Transformers
Abstract
12.1. Ferrite Cores
12.2. Iron Dust Cores
12.3. Special Cores
12.4. Core Shapes and Sizes
12.5. Magnetic Saturation
12.6. Copper Losses
Chapter 13: EMI and EMC Issues
Abstract
13.1. EMI Standards
13.2. Good EMI Design Techniques
13.3. EMC Standards
13.4. EMC Practices
Chapter 14: Thermal Considerations
Abstract
14.1. Efficiency and Power Loss
14.2. Calculating Temperature
14.3. Handling Heat–Cooling Techniques
Chapter 15: Safety Issues
Abstract
15.1. AC Mains Isolation
15.2. Circuit Breakers
15.3. Creepage Distance
15.4. Clearance Distance
15.5. Working Voltages
15.6. Capacitor Ratings
15.7. Low Voltage Operation
Chapter 16: Control Systems
Abstract
16.1. Triac Dimming
16.2. 1–10 V Dimming
16.3. DALI
16.4. DMX
16.5. LIN Bus
16.6. CAN Bus
16.7. Wireless Control
Chapter 17: Applications
Abstract
17.1. Light Bulb Replacements
17.2. Tube Light Replacements
17.3. Streetlights
17.4. Theatre and Stage Lighting
17.5. Agriculture Lighting
17.6. Underwater Lighting
17.7. Battery-Powered Lights
17.8. Signage and Channel Lighting
17.9. Vehicle Lighting
17.10. Other Lighting

People also search for:

    
power supplies for led driving
    
power supplies for led driving pdf
    
power supplies for led driving by steve winder
    
can a led driver be used as a power supply
    
what is a led driver power supply

Tags: Steve Winder, Power Supplies, LED Driving