The Company is a Taiwan-based company mainly engaged in the design, development, manufacturing and sales of light source simulators, image sensing efficiency measuring instruments and light detector efficiency measuring instruments.
The Company uses artificial light source and spectral analysis technology to develop various light source simulators, image sensor optical performance inspection instrument solutions, advanced light sensor optical inspection instruments, and quantum efficiency optical inspection solutions. The main products include analog light sources, semiconductor photoelectric conversion test instruments and wafer-level photoelectric detection instruments, which are widely used in materials testing, optical image sensing and other fields. The products are mainly sold domestically and exported to Asia, America and Europe.
History
The Company was established on March 2, 2009.The Company listed on Public Companies of Taiwan Stock Exchange on November 29, 2023.
The Company listed on Emerging Stocks of Taiwan Stock Exchange on March 18, 2024.
2023
In October, become one of the top three wafer foundries in the world and a supplier of image sensor measurement and testing equipment.
In August, established a third office in the Nanzi district of the Kaohsiung Science Park in Taiwan.
In May:
- Became a significant supplier of semiconductor material engineering equipment in the United States.
- Attended the 2023 IISW (International Image Sensor Workshop) in Edinburgh, UK.
In January, the SPD2200 single-photon detector test and analysis equipment was integrated into the supply chain of one of the top three SPAD wafer foundries globally.
2022
Establishment of Second Office in Asia New Bay Area, Kaohsiung in November
2021
Testing and Characterization Solutions for Single Photon Detectors - SPD 2200, for testing and characterization of SPAD and SiPM single photon detectors, including important component parameters such as full-spectrum spectral response and photon detection probability (PDP). This solution helps the development of dToF technology to accelerate the application of various optical radars (LiDAR).
Enabled new corporate identity logo.
Completion and activation of the Light Flame Optics cleanroom.
Responding to the TSMC Charity Foundation s Love is Delivered campaign, receiving a certificate of appreciation for donating a rooftop solar power system to Qizhi School, a social welfare organization.
May Light Flame Technology became a member of the Taiwan Electronic Equipment Association.
November Became a member of EMVA European Machine Vision Association.
2020
Launch Wafer-Level Image Sensor Testing SolutionSG-O. It integrates advanced fully automatic probe station systems with precision spectroscopy systems for the design verification of CIS chips and process analysis of CIS chips. It also provides various standard light sources and testing analysis solutions for a variety of photosensors such as ambient light sensors ALS, industrial cameras, and automotive cameras.
New solar cell testing equipment has been adopted by major companies in Europe and America.
Image sensor chip testing systems have been adopted by major automotive electronics and consumer electronics manufacturers.
The development of the special optical system - Starlight Simulator has been successfully delivered to aerospace customers.
Donations for the prevention and control of the new coronavirus pneumonia epidemic have been awarded certificates of honor from major hospitals and charitable organizations.
2019
Wafer-level image sensor photovoltaic testing system has been successfully developed and delivered to aerospace customers.
Solar cell characterization system - Voc loss analysis system is officially launched for sale and has been successively adopted by leading laboratories worldwide.
2018
Developed a testing solution for under-display fingerprint recognition, which has been successively adopted by multiple IC design factories to accelerate the development and verification of their products.
Successfully developed LED quantum yield and electroluminescence efficiency systems.
2017
Canada s solar energy sector adopts Enlitech s Full Spectrum Response/Quantum Efficiency Measurement System (S6).
The Indian Space Research Organization (ISRO) adopts Enlitech s Advanced Image Sensor Characterization System (RCSIS-3018) and develops CMOS chips for aerospace applications.
Enlitech collaborates with CMOS Sensor Inc. to develop satellite CMOS image chips. CMOS Sensor Inc. is a professional manufacturer and exporter focusing on CIS (Contact Image Sensor) design, development, and production. Link: http://www.csensor.com.tw/
Enlitech has developed the FLIM (Fluorescence Lifetime Imaging Microscopy) measurement system (SLI-PE-M200; 200mm x 200mm), which uses TCSPC mapping technology, provides the largest measurement area, and has been adopted by a startup in Sweden.
Enlitech s AAA solar simulators (SS-F5-3A and SS-F7-3A) and Spectral Response/Quantum Efficiency Measurement System (QE-R) continue to gain sales traction in India, Germany, and Singapore. Representative new customers include SMITS Sikkim (India), National University of Singapore, and University of Hamburg.
JAsolar has adopted Enlitech s Full Spectrum Response/Quantum Efficiency Measurement System (S6).
Enlitech s UV LED Measurement System (UV LED-263-781-008) has been adopted by Taiwan s BSMI.
2016
The Institute of Chemistry, Chinese Academy of Sciences (ICCAS), adopts Enlitech s AAA Solar Simulator (SS-F5-3A) and Spectral Response/Quantum Efficiency Measurement System, successfully developing the most efficient non-fullerene polymer solar cells (PSC) (QE-R).
Enlitech successfully enters the Nordic market. Our AAA Solar Simulator (SS-F5-3A) and Spectral Response/Quantum Efficiency Measurement System (QE-R) are adopted by Lund University, Sweden.
Enlitech s Image Sensor Characterization System (MV-IS) is adopted by China General Certification Center, Superpix Technology Co Ltd, and a Chinese IC design company.
Jolywood has adopted Enlitech s Full Spectrum Response/Quantum Efficiency Measurement System (S6).
Enlitech s AAA Solar Simulator (SS-F5-3A) and Spectral Response/Quantum Efficiency Measurement System (QE-R) are adopted by CAS, SCUT, IIT, TIFR, NEHU, IISERTVM, SSN, and others.
Enlitech s UV LED Measurement System (LQE-10-UVVISIR) is adopted by INER.
BSMI, Taiwan adopts Enlitech s Laser and UV Safety Testing System (LSC-60825; compliant with IEC 60825-1:2014).
2015
Introducing the commercialization of aerospace-grade system technology, Enlitech has successively launched the SG-A system for the characterization testing of CMOS image sensors, CIS camera modules, and more.
Established a new sales and service office in Hsinchu, northern Taiwan.
Enlitech s Solar Cell Spectral Response/Quantum Efficiency has been certified by the measurement laboratory ISO/IEC 17025 (TAF).
2014
Successfully developed the SR-M21 Solar Module Quantum Efficiency Measurement System.
The Spectral Response/Quantum Efficiency Measurement System has been adopted by renowned research institutions and companies such as Duke University, University of Toronto, Hong Kong University of Science and Technology, and Hyundai Heavy Industries.
2013
The SG-U Aerospace-Grade Image Sensor Characterization and Analysis System has been repeatedly procured by national aerospace agencies for testing and analyzing various cutting-edge scientific-grade image sensors and artificial satellite optical cameras.
The Quantum Efficiency Measurement System has been adopted by the Indian Institute of Technology.
The Quantum Efficiency Measurement System has been adopted by the research team of Christoph Brabec at Friedrich-Alexander-Universitaet Erlangen-Nuernberg.
The Full-Area Spectral Response Measurement System for Solar Cells has been adopted by the Solar Energy Research Institute of Singapore (SERIS).
A new sales and service office has been opened in Shanghai.
2012
Enlitech signed a Memorandum of Understanding for Reference Cell Manufacturing and Calibration Technology Research to initiate traceability standard work.
The Enlitech Solar Cell Spectral Response/Quantum Efficiency has obtained calibration laboratory ISO/IEC 17025 (TAF) certification.
QE has been approved by AIST.
NIM has adopted QE.
2011
Became a recommended supplier by IEC.
Successfully developed QE-156 PL.
Continued approval of advanced research projects at NCKU.
CPV Solar Cell Advanced Technology Seminar.
2010
Approved for relocation to the Southern Taiwan Science Park (STSP); focusing on the development of optical measurement equipment.
The Solar Cell Process and Measurement Technology Seminar received enthusiastic responses from attendees.
Successfully developed QE-III (Incident Photon-electron Conversion Efficiency), capturing the largest market share in Taiwan.
Successfully entered the European and Chinese markets.
Approved advanced research projects at STSP, recognizing research and development capabilities
2009
In October, the National Science Council approved the investment project of Guangyan Technology Co., Ltd. Guangyan Technology established a plant in the Southern Taiwan Science Park in Kaohsiung, becoming an important supplier of optical inspection equipment for 5G image sensor chips.
Successfully developed the second generation QE-R (Quantum Efficiency - Radiance) measurement system.
2008
Successfully established the first generation IPCE at the Academia Sinica.
Headquarters
1F., No.96, Luke 5Th Rd, Luzhu Dist
Kaohsiung City; Kaohsiung City;
Contact Details: Purchase the Enli Technology Co. Ltd. report to view the information.
Website: http://enlitech-sensor.com/zh-hant/
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