EBOOK - Thermal Management for LED Applications (Clemens J.M. Lasance & Andras Poppe)

Light emitting diodes (LEDs) are a solid-state lighting source increasingly being used in display backlighting, communications, medical services, signage, and general illumination. LEDs offer design flexibility, have small exterior outline dimensions, higher energy efficiency, have longer life, provide higher performance, a wider range of controllable color temperatures, are eco-friendly products, and don’t suffer from low-temperature startup problems, as compared to conventional lighting sources. Unfortunately, they produce heat, and contrary to conventional lighting sources this
does cause serious problems (please keep in mind that if the bulb would have been invented today it would never have been legalized because of the excessive touchtemperatures).


This book is about thermal management of LEDs and especially LED applications. The main question to be addressed is why we need thermal management in the first place. As Christian Belady put it eloquently in 2001:

CONTENTS:

Part I Basic Physics
1 Introduction to LED Thermal Management and Reliability......... 3
Michael Pecht, Diganta Das and Moon-Hwan Chang
2 Solid-State Physics Fundamentals of LED Thermal Behavior ....... 15
Jinmin Li, JunxiWang, Zhe Liu and András Poppe
3 Basics of Thermal Design for LEDs .............................. 53
Cathy Biber
Part II Testing and Standardization
4 Thermal Testing of LEDs ....................................... 73
Gábor Farkas and András Poppe
5 Laboratory Measurement of Optical Properties of LEDs ........... 167
János Schanda, Péter Csuti and Ferenc Szabó
6 Standardization of LED Thermal Characterization................ 197
András Poppe and Clemens J. M. Lasance
Part III Advances in Cooling Technologies
7 Air Cooling for LED Lighting ................................... 267
Raghav Mahalingam
8 Advances in Thermal Interface Materials for Power
LED Applications.............................................. 299
David L. Saums
9 Heat Sink Basics from an Industrial Point of View................. 347
Clemens J. M. Lasance
Part IV Applications
10 Considerations for an Optimal Choice of Heat Sinks
for LED Applications........................................... 391
Norbert P. Engelberts
11 Testing Issues in LED Manufacturing ............................ 419
Richard Young
12 Thermal Management of Sophisticated LED Solutions............. 449
Theo Treurniet
13 Thermal Challenges in LED-Driven Display Technologies:
The Early Days................................................ 465
Kazuaki Yazawa
14 Thermal Challenges in LED-Driven Display Technologies:
State-of-the-Art................................................ 477
G. A. Luiten
15 LEDs in Harsh Environments ................................... 499
Ross Wilcoxon and Jim Petroski
16 Future Directions in LED Applications........................... 519

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Light emitting diodes (LEDs) are a solid-state lighting source increasingly being used in display backlighting, communications, medical services, signage, and general illumination. LEDs offer design flexibility, have small exterior outline dimensions, higher energy efficiency, have longer life, provide higher performance, a wider range of controllable color temperatures, are eco-friendly products, and don’t suffer from low-temperature startup problems, as compared to conventional lighting sources. Unfortunately, they produce heat, and contrary to conventional lighting sources this
does cause serious problems (please keep in mind that if the bulb would have been invented today it would never have been legalized because of the excessive touchtemperatures).


This book is about thermal management of LEDs and especially LED applications. The main question to be addressed is why we need thermal management in the first place. As Christian Belady put it eloquently in 2001:

CONTENTS:

Part I Basic Physics
1 Introduction to LED Thermal Management and Reliability......... 3
Michael Pecht, Diganta Das and Moon-Hwan Chang
2 Solid-State Physics Fundamentals of LED Thermal Behavior ....... 15
Jinmin Li, JunxiWang, Zhe Liu and András Poppe
3 Basics of Thermal Design for LEDs .............................. 53
Cathy Biber
Part II Testing and Standardization
4 Thermal Testing of LEDs ....................................... 73
Gábor Farkas and András Poppe
5 Laboratory Measurement of Optical Properties of LEDs ........... 167
János Schanda, Péter Csuti and Ferenc Szabó
6 Standardization of LED Thermal Characterization................ 197
András Poppe and Clemens J. M. Lasance
Part III Advances in Cooling Technologies
7 Air Cooling for LED Lighting ................................... 267
Raghav Mahalingam
8 Advances in Thermal Interface Materials for Power
LED Applications.............................................. 299
David L. Saums
9 Heat Sink Basics from an Industrial Point of View................. 347
Clemens J. M. Lasance
Part IV Applications
10 Considerations for an Optimal Choice of Heat Sinks
for LED Applications........................................... 391
Norbert P. Engelberts
11 Testing Issues in LED Manufacturing ............................ 419
Richard Young
12 Thermal Management of Sophisticated LED Solutions............. 449
Theo Treurniet
13 Thermal Challenges in LED-Driven Display Technologies:
The Early Days................................................ 465
Kazuaki Yazawa
14 Thermal Challenges in LED-Driven Display Technologies:
State-of-the-Art................................................ 477
G. A. Luiten
15 LEDs in Harsh Environments ................................... 499
Ross Wilcoxon and Jim Petroski
16 Future Directions in LED Applications........................... 519

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Chuyên mục: C. Bài giảng C. Bài giảng chuyên ngành Điện - Điện tử (Electrical & Electronic) C. Bài giảng kỹ thuật