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Quantum Efficiency Measurement Systems
Newest generation of quantum efficiency (yield) measurement tool, which allows the user to determine QE of powders, liquids, solids and films. An optically optimized geometry using an integration hemisphere and low stray light array spectrometer enables world class measurements and new applications.
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Scientific CMOS Camera
Prime BSI
The Prime BSI Scientific CMOS (sCMOS) camera delivers the perfect balance between high resolution imaging and sensitivity with an optimized pixel design and near perfect 95% Quantum Efficiency.
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EQE/Photon-Electron Conversion Testing
Enlitech offers different solutions for incident photon-electron conversion testing systems. The available systems include IPCE, PV External quantum efficiency (PV-EQE), Internal Quantum Efficiency, Spectral Response (SR), Highly-sensitive EL-EQE. There are over 1,000 SCI papers cited Enlitech‘s systems to provide reliable experimental data for significant scientific publication. The Highest PV-EQE sensitivity and EL-EQE both reach 10-5 % (7 orders). They can be utilized to PV conversion efficiency, HJT/ PERC/TOP-CON current-loss analysis, Organic PV charge-transfer-state and Perovskite PV trap state measuring, and Organic PV and Perovskite PV Voc loss analysis.
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FLS-XeQH Filter Based Programmable Light Source
The FLS-XeQH filter based programmable dual light source is ideal for characterising CCDs, including quantum efficiency, as well as many other applications requiring a wide spectral range and high output with many programmable options.
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Peltier cooled CCD camera
Bigeye Series
The Bigeye G-132B Cool is a low noise CCD camera. It is distinguished by an outstandingly low dark current and an excellent quantum efficiency. The Bigeye G-132B Cool is designed to produce a superior image quality even at very long exposure times.
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Photo Detector Testing
With the rise of 5G technology and popularization mobile devices, more and more advanced photoelectric sensors are used in our daily lives. In order to be better applied to mobile devices, the photosensitive area of these advanced photodetector is getting smaller and smaller. However, these applications place higher and higher requirements on the light sensing performance of advanced photodetectors. In the process of shrinking the photosensitive area, it also brings the challenge of accurate measurement of quantum efficiency. Enlitech adopts the spatial light homogenizing technology and follows the ASTM standard “Irradiance Mode” test method, which is proven that it can accurately perform quantum efficiency and other key parameter measurements of advanced photodetectors.
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High-Performance, Low-Noise Cameras
PIXIS
Teledyne Princeton Instruments
The PIXIS offers the broadest wavelength coverage, from ~120 – 1100 nm, for the widest variety of applications.With >95% quantum efficiency (QE) with selected CCDS, high QE in UV with UV enhanced CCD and enhanced sensitivity and reduced etaloning with eXcelon™ technology.
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Scientific CMOS Camera
Prime BSI Express
The Prime BSI Express Scientific CMOS (sCMOS) is designed on a compact platform optimized for integration and delivers the perfect balance between high resolution imaging and sensitivity with an optimized pixel design, USB 3.2 Gen 2 connectivity and near perfect 95% Quantum Efficiency to maximize signal detection.
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Solar Cell Systems
he Solar Cell Scan is a multifunctionalexperimental platform,which is based on the measurement of Quantum Efficiency (QE) . The system employs a turnkey integrated design, which can carry out QE, Reflectivity and Mapping testing functions automatically. There are also modular and customdesigned accessories to adapt to different solar cell samples.
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Line Scan Camera
Linea
Introducing Linea, a CMOS line scan camera that can help you improve your imaging and lower your costs. Linea starts with an advanced CMOS sensor with high quantum efficiency and low noise for better images. Linea is also packed with advanced features to make your machine vision job almost effortless.
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Scientific CMOS Camera
Prime 95B
The Prime 95B Scientific CMOS camera allows you to overcome many difficult imaging challenges by converting nearly every available photon to useful signal through an incredible 95% Quantum Efficiency by using the first available scientific CMOS sensor with back-side illumination. The result is the most sensitive CMOS camera available for scientific imaging.
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SWIR Camera with 85% QE, Low Noise, and over 10 Minute Exposure Times
NIRvana® 640
Teledyne Princeton Instruments
The NIRvana® 640 offers incredible sensitivity with greater than >85% Quantum Efficiency between 950 nm and 1500 nm, ensuring you collect every photon you can.The biggest barrier to low light SWIR imaging is dark current. The NIRvana® 640 offers incredible low dark current – only 40e-/p/s, enabling longer exposures for faint samples.
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Powerful, Fully Integrated Workstation for Emission Microscopy
PEM-1000
The PEM-1000 emission microscope incorporates the latest technology in real time, high quantum efficiency, mega-pixel CCD detectors in a back-thinned cooled camera. A portable system, the PEM 1000 can interface with all analytical probe stations, ATE (automated test equipment) and bench top configurations for high speed functional testing.
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Spectral Sensitivity Measurement
It is a device which measures the spectral sensitivity characteristics and quantum efficiency of various solar cells by irradiating solar cells with monochromatic light of constant energy and constant photon without wavelength dependence. We are constantly monitoring irradiation light quantity with our real real time light quantity monitor control system and are not influenced by fluctuation of light source, so it is a well-established control system with excellent measurement stability and measurement reproducibility.
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EMCCD Image Sensors for Space and Ground-based Astronomy
EM (Electron Multiplication) is a technology that uses on-chip gain in the charge domain to effectively eliminate read noise from an image sensor. This enables advanced ultra-low light applications that require extreme sensitivity at fast frame rates such as adaptive optics and lucky imaging™.The combination of Teledyne e2v’s back-thinning technology and anti-reflection coatings enables industry leading quantum efficiency that can be optimised for applications in the visible, UV or NIR wavelength ranges.
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Front Side Illuminated Sensor with Pixel Size of 5.3µm with NIR Spectrum Sensitivity
Ruby Family
The EV76C660 and EV76C661 are members of Teledyne e2v’s Ruby family of CMOS imaging sensors. These breakthrough devices provide sensitivity and performance beyond that considered possible on a front side illuminated sensor with a pixel size of 5.3µm, Quantum Efficiency (QE) of over 80% and excellent sensitivity and performance in the near-infrared (NIR) spectrum (>50% at 850nm). This significantly reduces system illumination costs, or enables very low-light imaging in outdoor camera applications.
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Fully In-Vacuum, Direct Detection X-Ray Cameras
PI-MTE3
Teledyne Princeton Instruments
Large format, fully in-vacuum CCD cameras, offering flexible detector orientation and proximity to sample through sensor and camera design. With back-illumination technology, the PI-MTE3 delivers >95% peak quantum efficiency over the ~10 eV to 30 keV energy range. Efficient liquid cooling offers low dark current, facilitating long exposure times, with the four-port readout architecture offering 7-10x higher frame rates than previous generation two-port cameras.
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High-resolution Cameras / 9 & 12 MP with up to 40 fps
ace L Series
Twelve ace L models offer resolutions of 9 and 12 megapixels and frame rates of up to 40 fps. Featuring the high-performance IMX253, IMX255, IMX267 and IMX304 sensors, they stand out for the famously brilliant Pregius image quality with a dynamic range of more than 70 dB and a high quantum efficiency over a broad spectrum of visible light into the NIR. Available with the proven GigE or USB 3.0 interface, and conform to GigE Vision 2.0 or the USB3 Vision standard.
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High Sensitivity, Compact Imaging Spectrograph
Lumetta
HORIBA Scientific’s new Lumetta™ delivers benchtop performance in a small, value priced package to the rapid compact spectrometer market. It offers the highest throughput/signal gathering capacity in its class, employing a tall sensor and an F/2 design. With a scientific grade-one high quantum efficiency CCD cooled to -50 oC, it provides a sensitivity that rivals more expensive high-end benchtop systems. As an imaging spectrograph, it enables advanced techniques such as multitrack spectroscopy and hyperspectral imaging ― all at an affordable price.
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New High-Definition Color Microscope Camera
DS-Fi3
The DS-Fi3 is equipped with a 5.9 megapixel CMOS image sensor, which enables the capture of high-definition images of up to 2880 x 2048 pixels. With a new CMOS image sensor and high-speed data transfer via USB3.0, the DS-Fi3 enables fast focusing even in high-resolution imaging, and efficient image acquisition when using a wide range of illumination techniques. The DS-Fi3 has significantly higher quantum efficiency and lower readout noise than conventional models. It allows the capture of brighter images with higher S/N ratios in fluorescence observation.
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8.1 MP UV Area Scan Camera
GO-8105M-5GE-UV
The GO-8105M-5GE-UV is JAI’s highest resolution UV-sensitive area scan camera. The camera features a state-of-the-art Sony Pregius S sensor with backside illumination (BSI) technology, offering spectral sensitivity well into the UVC region. Quantum efficiency at 200 nm is above 25% and is between 40-50% for nearly all of the UVA and UVB range. A 5GBASE-T GigE Vision interface provides 8.1-megapixel monochrome images at up to 66 fps. The interface automatically adjusts to 2.5GBASE-T or 1000BASE-T speeds depending on the performance capabilities of the network.
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Complete Testing Solutions
System includes a lamp and monochromator for a tunable light source, which is coupled to a high sensitivity source meter with measurement software. This user-friendly system is the most powerful Spectral Response system currently on the market, but its true power is the ease of upgrading from the base PTS-1 to the more powerful PTS-2-QE (Quantum Efficiency) or PTS-3-CPM (Constant Photocurrent Method). Designed for researchers who have limited budgets but want to start work immediately, this allows the ability to do baseline studies until additional funding for the full QE or CPM system becomes available.
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SWIR InGaAs 2D Focal Plane Array
PIRT1280A1-12
Princeton Infrared Technologies, Inc.
This lattice matched InGaAs 2D SWIR focal plane array (FPA) allows for high resolution SWIR imaging at high frame rates >90fps. This small pitch array, 12μm, combined with the high quantum efficiency of the lattice matched InGaAs arrays enables impressive imaging in the SWIR band. It boasts an on board 14-bit A/D with very low read noise of <45e- per read. Princeton Infrared Technologies, Inc. offers this low power SWIR array by itself or in a TEC cooled package. It is also incorporated with camera electronics for a complete solution.
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Spectral Response SystemsQuantum Efficiency SystemsIPCE Measurement Systems
QE system provides electronics and software designed for fully automated measurement of external quantum efficiency of solar cells. All systems include probes and a fixed plate sample stage for samples up to 150 mm x 150 mm. The main system components include: custom designed software, measurement electronics, and computer system (Windows 8 operating system). The measurement involves focusing monochromatic light to a spot on the device under test, then accurately measuring the photon flux and current from the test cell. The system utilizes a dual beam configuration with lock-in detection, providing an absolute accuracy of ±3%. The QE system uses a grating monochrometer with silicon/InGaAs/Ge detectors. The system includes automatic order sorting filters and two light sources for monochromatic illumination (a Xenon- arc lamp and a halogen lamp). A single lock-in amplifier is used to measure both the reference detector and test device. The main system comes with all the hardware needed to measure quantum efficiency, a fixed plate sample stage and probes.
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sCMOS Camera
Dhyana 400D
Fuzhou Tucsen Photonics Co.,Ltd
Dhyana 400D is equipped with a brand new 1.2 inch scientific CMOS sensor, which provide 80% quantum efficiency at 600nm. The 1.2 inch sensor size and 6.5X6.5um pixel size is more suitable for microscopy standard C-mount imaging. When comparing to other existing scientific CMOS camera products, Dhyana 400D has a hardware 2X2 binning function which make it superior sensitivity for low light imaging. When comparing to other existing scientific CMOS camera products, Dhyana 400D has a hardware 2X2 binning function which make it superior sensitivity for low light imaging.
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Scientific SWIR Camera
1280SCICAM
Princeton Infrared Technologies, Inc.
This non-ITAR reduced weight (3000g) lattice matched, InGaAs scientific SWIR camera allows for high resolution SWIR imaging at 1280x1024 with high frame rates >93 frames per second (fps) at full frame size. This small pitch array,12 μm, combined with the high quantum efficiency of lattice matched InGaAs enables impressive imaging in the SWIR and visible spectral bands. The SWIR camera has the capability of four temperature setpoints, -20°C (no cooling), 0°C (fan cooling), -40°C, or -60°C (water cooled), using a 4 stage TEC integrated in a vacuum-sealed package. This advance digital array (PIRT1280A1-12) on board is a product of Princeton Infrared's decades of experience in InGaAs processing.
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High Performance Smart Spectrometer
Exemplar Plus
The Exemplar® Plus is a high performance smart spectrometer utilizing a low stray light unfolded Czerny-Turner spectrograph. It features a highly sensitive TE Cooled back-thinned (BT) CCD detector which is linearly summed for high dynamic range. Its long focal length, coupled with a high quantum efficiency detector, provides superior data quality over the entire 190-1100nm spectral range. The Exemplar Plus features a high signal to noise ratio, making it ideal for low light level applications, and also features a built-in shutter allowing for dark scan measurements, even while illuminated. As a member of the Exemplar product line, it features on board data processing and USB 3.0 communication. The Exemplar product line is also optimized for multi-channel operation featuring ultra-low trigger delay and gate jitter.
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CCD Spectrometers
The Exemplar® Plus is a high performance smart spectrometer utilizing a low stray light unfolded Czerny-Turner spectrograph. It features a highly sensitive TE Cooled back-thinned (BT) CCD detector which is linearly summed for high dynamic range. Its long focal length, coupled with a high quantum efficiency detector, provides superior data quality over the entire 190-1100nm spectral range. The Exemplar Plus features a high signal to noise ratio, making it ideal for low light level applications, and also features a built-in shutter allowing for dark scan measurements, even while illuminated. As a member of the Exemplar product line, it features on board data processing and USB 3.0 communication. The Exemplar product line is also optimized for multi-channel operation featuring ultra-low trigger delay and gate jitter.
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Image Sensor/Fingerprint-on-Display Testing
Enli Tech provides the most advanced optical and non-destructive inspection technology, which can de-convolute the digital images back to the analog properties, such as quantum efficiency, spectral response, system gain K, Dynamic Range (DR), PRNU, DRNU, Linearity Error LE, and Chief-Ray-Angle (CRA). The testing solution can be applied to CCD and CMOS image sensors in aerospace, defense, and scientific camera field. Image sensor packages that can be tested by Enli Tech’s systems include bare wafers, dies, chips, or camera modules. Our image sensor testers can help users reduce the sensor-modules or camera-modules development time and RD budget.
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Scientific Cameras
Thorlabs' Scientific-Grade Cameras are specifically designed for microscopy and other demanding applications. The Zelux™ CMOS cameras have small footprints and provide cost-effective solutions for general-purpose imaging applications. Kiralux® cameras have CMOS sensors with high quantum efficiency in a compact housing and are offered in monochrome, color, NIR-enhanced, and polarization-sensitive versions. Our polarization-sensitive CMOS camera is ideal for materials inspection, flaw detection, and other advanced techniques using polarization. The Quantalux® monochrome sCMOS cameras are fast frame rate imagers that combine high dynamic range with extremely low read noise for low-light applications. They are available in either a passively cooled compact housing or a hermetically sealed TE-cooled housing. We also offer scientific CCD cameras with a variety of features, including versions optimized for operation at UV, visible, or NIR wavelengths; fast-frame-rate cameras; TE-cooled or non-cooled housings; and versions with the sensor face plate removed. An intuitive software package, API and SDK for developers, and third-party software support provide options for custom system control and image acquisition.
