Teledyne Princeton Instruments
Teledyne Princeton Instruments (TPI), a business unit of Teledyne Digital Imaging US, Inc, designs and manufactures high-performance CCD, sCMOS, ICCD, EMCCD, emICCD, and InGaAs cameras; spectrographs; and optics-based solutions for the scientific research, industrial imaging, and OEM communities. We take pride in partnering with our customers to solve their most challenging problems in unique, innovative ways. Teledyne Princeton Instruments has two U.S. manufacturing facilities, one located in New Jersey (Trenton) and one in Massachusetts (Acton). Our worldwide sales and service organizations in Germany, France, the United Kingdom, Japan, and China provide sales support and discuss application requirements in addition to being your local contacts for order processing and service.
- 1-800-899-1144
1 609 587 9797 - 1 609 587 1970
- moreinfo@piacton.com
- 3660 Quakerbridge Road
Trenton, NJ 08619
United States of America
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High-Resolution, Back-Illuminated EMCCD with eXcelon™3 Sensor Technology
ProEM®
Teledyne Princeton Instruments
The ProEM® is a high-resolution, back-illuminated EMCCD with exclusive eXcelon™3 sensor technology providing high sensitivity within the UV-NIR range while reducing etaloning. With spectral rates of up to 20 kHz and single-photon sensitivity, the ProEM is ideal for low-light-level applications such as hyperspectral Raman imaging and single-molecule fluorescence.
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Gratings and Turrets
Teledyne Princeton Instruments
Multi-grating turrets are used to achieve efficient light throughput over a broad spectral range. Turrets make grating changes an easy push-button or computer controlled operation, and also reduce the risk of handling the delicate gratings.
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Spectrometer Cubes
Teledyne Princeton Instruments
The spectrometer cubes allow the flexibility to perform various techniques such as Raman, absorption, and transmission. Cubes are compatible with all spectrometers and are available for: focusing incoming light; beam splitting; housing sample; filtering for Raman light; generic filtering for order-sorting or band-limiting.
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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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Ultra-Low-Noise CCD Cameras
SOPHIA®
Teledyne Princeton Instruments
The SOPHIA provides multiple readout modes, with complete triggering support and independently optimized clocking for each combination, even ultrafast events can be captured.The SOPHIA also contains a field-replaceable internal mechanical shutter for enhanced flexibility.
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Gratings
Teledyne Princeton Instruments
Diffraction gratings separate polychromatic “white” light into individual wavelengths. Dispersed light is then reimaged by the monochromator/spectrograph so that individual wavelengths can be directed into a detection system or sample.
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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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High-Performance, Low-Noise CCD and X-Ray Cameras
PIXIS Family
Teledyne Princeton Instruments
PIXIS cameras are fully integrated, low-noise cameras with deep cooling for quantitative scientific imaging and spectroscopy from UV-NIR. High-quantum efficiency and ultra-low-noise electronics make PIXIS cameras ideal for demanding low-light applications.
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X-Ray Cameras for Soft X-Ray, VUV, and EUV Applications
SOPHIA® XO
Teledyne Princeton Instruments
SOPHIA® XO offers high-sensitivity (>95% QE) and high-speed for the widest range of VUV and x-ray detection, with thermoelectric cooling up to -90℃ and high frame rates. With a rotatable, industry-standard CF flange and high-vacuum seal design the software-selectable gains and readout speeds make this camera well suited for UHV applications.
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High Performance Imaging Spectrographs
SpectraPro® HRS
Teledyne Princeton Instruments
The SpectraPro® HRS ensures high spectral resolution, as well as an astigmatism-corrected design for multichannel fiber applications. With dual exit ports the SpectraPro HRS can be used as two array detectors or as both a monochromator and spectrograph.
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Large-Format, Low-Noise Astronomy Camera
COSMOS™
Teledyne Princeton Instruments
The COSMOS™ is the only large format, high performance CMOS camera designed and manufactured entirely within a single source. With LACera™ technology, the COSMOS offers superior sensitivity, large imaging area, low noise and fast frame rate.
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High-Throughput NIR Spectrometers
Acton LS 785
Teledyne Princeton Instruments
The Acton LS 785 is a high-throughput, lens-based spectrograph ideal for NIR spectroscopy. With a fast f/2 optical system with proprietary AR-coated lenses it is optimal for NIR transmission.
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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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Imaging Spectrometers
IsoPlane®
Teledyne Princeton Instruments
The IsoPlane® is the best imaging spectrometer in its class. With a unique optical design, it completely eliminates astigmatism across the focal plane for superior multichannel capabilities. With fast optics and specialized mirror coatings it ensures maximum throughput and signal-to-noise performance.