EPC Releases Phase 14 Report on GaN Reliability and the Use of Physics-Based Models to Project eGaN Device Lifetime
EPC announces its Phase-14 Reliability Report, documenting the strategy used to achieve a remarkable field reliability record. The rapid adoption of GaN devices in many diverse applications calls for the continued accumulation of reliability statistics and research into the fundamental physics of failure in GaN devices. The Phase-14 Reliability Report presents the strategy used to measure and predict lifetime based upon tests that force devices to fail under various conditions. This information can be used to create more robust and and higher performance products for applications such as lidar for autonomous cars, robotics, security, and drones, high power density computing, and satellites, to name just a few.
This report presents the results of testing eGaN devices to the point of failure, which provides the information to identify intrinsic failure mechanisms of the devices. By identifying these intrinsic failure mechanisms, deep knowledge of the behavior of a device over time, temperature, electrical or mechanical stress can be developed and used to create physics-based models that accurately project the safe operating life of a product over a more broad set of operating conditions.
This report is divided into eight sections, each dealing with a different failure mechanism:
Section 1: Intrinsic failure mechanisms impacting the gate electrode of eGaN devices
Section 2: Intrinsic mechanisms underlying dynamic RDS(on)
Section 3: Applying the physics-based model to common real-world use cases
Section 4: Safe operating area (SOA)
Section 5: Testing devices to destruction under short-circuit conditions
Section 6: Custom test to assess reliability over long-term lidar pulse stress conditions
Section 7: Mechanical force stress testing
Section 8: Thermo-mechanical stress
According to Dr. Alex Lidow, CEO and co-founder of EPC,“The release of EPC's Phase-14 reliability report represents the cumulative experience of millions of devices and five generations of technology to lead to a deeper understanding of the behavior of GaN devices over a wide range of stress conditions.”
- |
- +1 赞 0
- 收藏
- 评论 0
本文由董慧转载自EPC,原文标题为:EPC Releases Phase 14 Report on GaN Reliability and the use of Physics-Based Models to Project eGaN Device Lifetime,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关推荐
Intellectual Power Amplifier Module Based on GaN FETs
To simplify and accelerate the development process of many devices (D-class audio amplifiers, AC current and voltage calibrators, power supply modulators etc.), the idea of creating an Intellectual Power Amplifier Module (IPAM) appeared. IPAM is a fully differential pulsing power amplifier covered by a common negative feedback. The module contains small FPGA chip. The development of the output choke has turned into a separate R&D work related to the need to study the parameters of the newest high-frequency power ferrites manufactured by TDK/Epcos and Ferroxcube.
GaN Power Devices Achieve a High-Efficiency 48V, 1.2kW LLC Resonant Converter in a ⅛th Brick Size
EPC designed a 1.2kW resonant converter demo board (EPC9174) in an 1/8th brick form factor that achieves an impressive 97.3% peak efficiency.
EPC to Showcase Advanced GaN Power Solutions at PCIM Asia 2024
EPC’s GaN Experts will be available during PCIM Asia, showcasing the latest generation of GaN FETs and ICs in a wide variety of real-world applications including AI servers, robotics, and more.
EPC(宜普)eGaN® 氮化镓晶体管(GaN FET)和集成电路及开发板/演示板/评估套件选型指南
目录- eGaN FETs and ICs eGaN® Integrated Circuits Half-Bridge Development Boards DrGaN DC-DC Conversion Lidar/Motor Drive AC/DC Conversion
型号- EPC2212,EPC2214,EPC2059,EPC2216,EPC2215,EPC2218,EPC2016C,EPC2050,EPC2052,EPC2051,EPC2054,EPC2053,EPC2055,EPC9086,EPC2218A,EPC90153,EPC9087,EPC90154,EPC2069,EPC2102,EPC2101,EPC2104,EPC2103,EPC2106,EPC2105,EPC2107,EPC9018,EPC2065,EPC90151,EPC90152,EPC21702,EPC2100,EPC2067,EPC2221,EPC21701,EPC2066,EPC90150,EPC9097,EPC90145,EPC90142,EPC9098,EPC90143,EPC9099,EPC9092,EPC90148,EPC90149,EPC90146,EPC9094,EPC90147,EPC2219,EPC9091,EPC2619,EPC2036,EPC2035,EPC2038,EPC2037,EPC2014C,EPC2039,EPC9507,EPC2030,EPC9067,EPC2032,EPC2031,EPC9068,EPC2152,EPC2033,EPC9063,EPC9186,EPC9066,EPC8010,EPC9180,EPC2204A,EPC9181,EPC9061,EPC2308,EPC2307,EPC9005C,UP1966E,EPC2203,EPC9004C,EPC2202,EPC2204,EPC2015C,EPC2207,EPC2206,EPC2040,EPC2045,EPC2044,EPC9194,EPC2012C,EPC2019,EPC9049,EPC9203,EPC9204,EPC9205,EPC2252,EPC9166,EPC9167,EPC9047,EPC9201,EPC9041,EPC9162,EPC9163,EPC9165,EPC7020,EPC9160,EPC9040,EPC2024,EPC8009,EPC2302,EPC2001C,EPC2029,EPC2304,EPC2306,EPC2305,EPC8002,EPC2021,EPC9177,EPC2020,EPC9057,EPC9167HC,EPC2023,EPC9179,EPC9058,EPC8004,EPC2022,EPC9059,EPC9173,EPC9174,EPC9055,EPC9176,EPC9170,EPC9050,EPC9171,EPC9172,EPC2010C,EPC2034C,EPC7007,EPC7002,EPC9148,EPC2071,EPC7001,EPC23101,EPC23102,EPC23103,EPC9144,EPC90140,EPC23104,EPC2111,EPC7004,EPC2110,EPC7003,EPC90133,EPC90132,EPC9022,EPC9143,EPC90137,EPC90138,EPC90135,EPC90139,EPC7019,EPC7018,EPC9038,EPC9159,EPC9039,EPC2007C,EPC21603,EPC9156,EPC9036,EPC9157,EPC9037,EPC2088,EPC7014,EPC21601,EPC9158,EPC90122,EPC9151,EPC9031,EPC90123,EPC90120,EPC9153,EPC9033,EPC90121,EPC9154,EPC90124,EPC9150,EPC90128
奥伦德(Orient)光电耦合器/外延芯片/传感器选型指南
目录- Company profile GaN LED Epi Wafer Chip Series Photocoupler Series Optical Package products
型号- ORPD2143,OR-2531,OR-2530,ORT008UYGK,ORPD2140,ORPT3061,ORT007YGL,ORT015IRA,OR-3H4,OR-W314,ORH-YG39A,ORH-Y39A,0RH-039A,OR-T3053,OR-T3052,OR-T3051,OR-3H7,OR-M3082,OR-M3083,ORPD2155,OR-M3084,ORPD2151,OR-247,OR-M460A,OR-244,PD212650,OR-6N137,ORPT3046,OR-6N136,OR-460A,OR-6N135,ORT007RD,ORPT3041,OR-6N139,008SRH,OR-6N138,OR-T3042,ORH-YG36G-TS,OR-T3041,OR-T3043,ORPD2165,ORPD212650,OR-M3053,ORPD2160,4N25,OR-M3054,OR-1223,4N26,4N27,OR-M3052,0RH-037B,0RH-037A,0RH-037C,ORH-YG37A,ORH-YG37B,ORH-YG37C,ORH-W49A I,ORTWB940N-12,OR-M3044,ORH-YG37G,0RH-037G,OR-2201,4N31,ORT008IRA,OR-4502,OR-2200,4N32,OR-4503,4N33,OR-4504,4N35,OR-M3064,4N36,4N37,OR-M3062,OR-2202,4N38,OR-M3063,ORTWB850N-14,ORPD20120,4N30,OR-H11L1,0RL-RYGF5(CKD)(E)XX,ORT812IRA,ORT008RD,R-4N25,4N28,4N29,OR-T3063,OR-406A,OR-W340,OR-T3062,OR-W341,OR-T3061,0RT114IRA,PD2138,OR-260L,OR-2611,OR-H11AA3,OR-H11AA4,PD2015,ORH-B39A,ORH-W47G I,007SRH,ORT009YG,OR-M501,ORT008YGK,ORH-R39A,ORT016IRA,PD2143,ORT512/812IRA,OR-M440A,ORT010IRC-L,OR-MOC3010,OR-MOC3012,OR-MOC3011,PD2140,ORT0811B,ORT108UYG,ORH-YG36G,OR-2630,OR-0452,OR-0453,OR-2631,ORPD2128,ORH-R37C |,ORT108YG,ORH-Y37G,ORH-Y37A,ORH-Y37B,OR-MOC3021,ORH-Y37C,OR-MOC3023,OR-MOC3022,OR-425A,ORT010IRC,PD2128,ORT010IRA,OR-0223,ORPD2015,ORPD2138,ORT007SO,OR-MOC3032,OR-MOC3031,OR-T3023,OR-MOC3033,OR-T3022,OR-T3021,ORPC-847,OR-3223,OR-050L,OR-H11A4,ORH-R36G,OR-H11A3,OR-0631,ORPC-844,ORPC-845,OR-0630,ORT0714,ORH-B36G-TS,OR-D207,ORH-G37B,OR-D206,ORH-G37A,OR-D205,OR-MOC3041,OR-MOC3043,OR-MOC3042,ORH-B35A,ORH-G36G,ORPC-851,ORT007YG,ORT007HY,OR-H11A2,OR-H11A1,OR-606A,OR-M701,OR-063L,ORPD212460,ORT012IRA,ORTWB850-12/14/20/28,OR-D213,ORT814IRA,OR-D211,OR-D217,ORH-R35A,OR-MOC3052,0RT112IRA,OR-MOC3051,ORT007SRH,OR-MOC3053,ORH-G35A,ORT0912B,ORT109IRC,ORT912IRA,0RT114IRA-L,ORT0912G,OR-50L,ORT1141RA-L/1 MIRA,ORT008HO,ORT008URV,OR-0530,OR-0531,PD2155,OR-MOC3061,ORH-G36G-TS,ORH-G39A,OR-MOC3063,OR-MOC3062,ORH-B37C,ORH-B37B,ORT008HY,PD2151,ORT008USRK,ORH-B37G,ORT008YG,6N137,ORH-VG35A,6N136,ORH-R37G,6N139,OR-M601,6N138,OR-2601,6N135,PD2165,ORH-R37A,ORH-R37B,PD20120,ORT509IRA,ORH-G37C,PD2160,OR-640A,ORT512IRA,ORH-G37G,OR-660AOR-0223,ORH-B36G,OR-4N26,OR-4N27,OR-4N28,ORH-W45A,ORT09AB,OR-MOC3081,PD212460,OR-MOC3083,OR-MOC3082,ORH-B37A |,ORH-W47C I,0RL-RGF5(C)(D)(E)XX,OR-1009,OR-M3024,OR-M3022,OR-1008,OR-M3023,OR-625A,0R-H11AA1,OR-2223,ORPC-814,0R-H11AA2,ORPC-815,OR-1010,ORPC-816,ORPC-817,OR-4N37,OR-M3042,008IRC,OR-4N38,OR-M3043,OR-1014,OR-1015,OR-4N35,OR-4N36,ORH-V35A,ORT810IRA,OR-440A,OR-0600,OR-1018,OR-0601,OR-1019,OR-T3082,OR-T3081,OR-T3083,ORH-R36G-TS,ORPC-825,ORT007IRA,OR-060L,ORPC-824,ORTWB940-12/14/20/28,ORH-W47B,OR-1020,ORT008SRH,OR-O531,OR-0611,OR-PL3006W-03,OR-PL3006W-01,OR-PL3006W-02,OR-0500,ORT816IRA,0RL-RGBF5(C)(D)(E)XX,ORH-W46G,ORT09AG,OR-660A,ORT012/112/912IRA,OR-0501,R-M440A
Advancements in USB Power Delivery: GaN Technology for Efficiency and High-Power Density
型号- EPC9195,EPC2619,LTC7891
EPC GaN FET助力DC/DC转换器实现功率密度和效率基准
EPC GaN FET与Analog Devices驱动器和控制器相结合,为客户简化氮化镓基设计、提高其效率、降低散热成本、助力计算、工业和消费类应用的DC/DC转换器实现最高功率密度。
EPC2152 GaN Integrated Power Stage – Redefining Power Conversion
This complete power stage, the EPC2152 ePower™ Stage, can be driven at multi-megahertz frequencies and controlled by a simple ground-referenced CMOS IC, and with just a few added passive components, could become a complete DC-DC regulator. Integrated devices in a single chip are easier to design, easier to layout, easier to assemble, save space on the PCB, and increase efficiency.
GaN Switching Frequency: Using Gallium Nitride Technology in Next-Generation High-Frequency Circuits
GaN devices can operate at higher frequencies than silicon due to their superior material properties such as high carrier mobility, low on-resistance, and low parasitic capacitance. These properties allow GaN devices to switch up to 100 x faster and more efficiently than silicon devices.
Gallium Nitride (GaN)‘s Potential in MedTech
GaN devices are already being used in a variety of MedTech applications, including medical imaging, surgical tools, and wearable devices. As the technology continues to improve and costs continue to decrease, we can expect to see even wider adoption of GaN in the MedTech industry.
Design Higher Power Density USB-C PD Applications with New 50V GaN FET in Tiny 1.8mm² Footprint from EPC
EPC, the world’s leader in enhancement-mode gallium nitride (GaN) power FETs and ICs, launches the 50 V, 8.5 mΩ EPC2057aN FET is specifically designed to meet the evolving needs of high-power USB-C devices including those used in consumer electronics, in-car charging, and eMobility.
200V, 10mΩ GaN FET EPC2307 Joins Family of Footprint Compatible QFN Packaged Devices for High Efficiency and Design Flexibility
EPC introduces the 200V, 10mΩ EPC2307 that completes a family of six GaN transistors rated at 100V, 150V, and 200V, offering higher performance, smaller solution size, and ease of design for DC-DC conversion, AC/DC SMPS and chargers, solar optimizers and microinverters, and motor drives.
EPC GaN FETs Deliver Benchmark Power Density and Efficiency for DC/DC Conversion
EPC announces the availability of several reference designs that feature EPC GaN FETs and ADI controllers. The demonstration boards include EPC9158, EPC9160, and EPC9195. EPC GaN FETs leverage drivers and controllers by Analog Devices to simplify GaN design, increase efficiency, reduce cooling cost, and help enable the highest power density for computing, industrial, and consumer DC/DC converters.
Developing Next-generation GaN Power Semiconductor Devices
The GaN device market is expected to become increasingly active as major overseas manufacturers are announcing their entry. However, there remains little doubt that ROHM will demonstrate its considerable expertise as a manufacturer capable of maximizing the performance of GaN from both the device and IC sides.
电子商城
服务
满足150W内适配器、PD快充、氮化镓快充等主流产品测试需要;并可查看被测开关电源支持协议,诱导多种充电协议输出,结合电子负载和示波器进行高精度测试。测试浪涌电流最大40A。支持到场/视频直播测试,资深专家全程指导。
实验室地址: 深圳 提交需求>
登录 | 立即注册
提交评论