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Van Driel W.D., Fan X., Zhang G.Q. (Eds.) Solid State Lighting Reliability. Part 2: Components to Systems
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Springer International Publishing AG, 2018. — 603 p. — (Solid State Lighting Technology and Application Series 03) — ISBN: 3319581740.In the past four years we have witnessed rapid development in technology and significant market penetration in many applications for LED systems. New processes and new materials have been introduced; new standards and new testing methods have been developed; new driver, control and sensing technologies have been integrated; and new and unknown failure modes have also been presented. In this book, Solid State Lighting Reliability Part 2, we invited the experts from industry and academia to present the latest developments and findings in the LED system reliability arena.
Topics in this book cover the early failures and critical steps in LED manufacturing; advances in reliability testing and standards; quality of colour and colour stability; degradation of optical materials and the associated chromaticity maintenance; characterization of thermal interfaces; LED solder joint testing and prediction; common failure modes in LED drivers; root causes for lumen depreciation; corrosion sensitivity of LED packages; reliability management for automotive LEDs, and lightning effects on LEDs.
This book is a continuation of Solid State Lighting Reliability: Components to Systems (published in 2013), which covers reliability aspects ranging from the LED to the total luminaire or system of luminaires. Together, these two books are a full set of reference books for Solid State Lighting reliability from the performance of the (sub-) components to the total system, regardless its complexity.Quality and Reliability in Solid-State Lighting: Qua Vadis?
Chip-Level Degradation of InGaN-Based Optoelectronic Devices
LED Early Failures: Detection, Signature, and Related Mechanisms
Advances in Reliability Testing and Standards Development for LED Packages and Systems
Reliability and Lifetime Assessment of Optical Materials in LED-Based Products
The Influence of Phosphor and Binder Chemistry on the Aging Characteristics of Remote Phosphor Products
Thermal Characterization of Die-Attach Material Interface of High-Power Light-Emitting Diodes
Color Quality
LED-Based Luminaire Color Shift Acceleration and Prediction
Chromaticity Maintenance in LED Devices
Fault Diagnostics and Lifetime Prognostics for Phosphor-Converted White LED Packages
Advances in LED Solder Joint Reliability Testing and Prediction
Online Testing Method and System for LED Reliability and Their Applications
Degradation Mechanisms of Mid-power White-Light LEDs
Assessing the Reliability of Electrical Drivers Used in LED-Based Lighting Devices
Reliability Prediction of Integrated LED Lamps with Electrolytic Capacitor-Less LED Drivers
Statistical Analysis of Lumen Depreciation for LED Packages
Long-Term Reliability Prediction of LED Packages Using Numerical Simulation
Corrosion Sensitivity of LED Packages
Reliability Management of a Light-Emitting Diode for Automotive Applications
Lightning Effects on LED-Based Luminaires
The Next Frontier: Reliability of Complex Systems
Topics in this book cover the early failures and critical steps in LED manufacturing; advances in reliability testing and standards; quality of colour and colour stability; degradation of optical materials and the associated chromaticity maintenance; characterization of thermal interfaces; LED solder joint testing and prediction; common failure modes in LED drivers; root causes for lumen depreciation; corrosion sensitivity of LED packages; reliability management for automotive LEDs, and lightning effects on LEDs.
This book is a continuation of Solid State Lighting Reliability: Components to Systems (published in 2013), which covers reliability aspects ranging from the LED to the total luminaire or system of luminaires. Together, these two books are a full set of reference books for Solid State Lighting reliability from the performance of the (sub-) components to the total system, regardless its complexity.Quality and Reliability in Solid-State Lighting: Qua Vadis?
Chip-Level Degradation of InGaN-Based Optoelectronic Devices
LED Early Failures: Detection, Signature, and Related Mechanisms
Advances in Reliability Testing and Standards Development for LED Packages and Systems
Reliability and Lifetime Assessment of Optical Materials in LED-Based Products
The Influence of Phosphor and Binder Chemistry on the Aging Characteristics of Remote Phosphor Products
Thermal Characterization of Die-Attach Material Interface of High-Power Light-Emitting Diodes
Color Quality
LED-Based Luminaire Color Shift Acceleration and Prediction
Chromaticity Maintenance in LED Devices
Fault Diagnostics and Lifetime Prognostics for Phosphor-Converted White LED Packages
Advances in LED Solder Joint Reliability Testing and Prediction
Online Testing Method and System for LED Reliability and Their Applications
Degradation Mechanisms of Mid-power White-Light LEDs
Assessing the Reliability of Electrical Drivers Used in LED-Based Lighting Devices
Reliability Prediction of Integrated LED Lamps with Electrolytic Capacitor-Less LED Drivers
Statistical Analysis of Lumen Depreciation for LED Packages
Long-Term Reliability Prediction of LED Packages Using Numerical Simulation
Corrosion Sensitivity of LED Packages
Reliability Management of a Light-Emitting Diode for Automotive Applications
Lightning Effects on LED-Based Luminaires
The Next Frontier: Reliability of Complex Systems
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