Newton 970
Newton 970 offers unrivalled EMCCD performance for spectroscopic applications. It utilizes a 1600 x 200 array of 16 μm pixels, with thermoelectric cooling down to -100°C, resulting in negligible dark current which provides unrivalled performance.
EM sensor
Multi-Megahertz Readout
TE cooling to -100°C
UltraVac™
16 x 16 μm pixel size
Overview
EM technology enables charge from each pixel to be multiplied on the sensor before readout, providing single photon sensitivity. The Newton EM platform combines a 1600 x 200 (or 1600 x 400) array of 16 μm pixels, thermoelectric cooling down to -100°C for negligible dark current, 3MHz readout and USB 2.0 plug-and-play connectivity to provide unrivalled performance for spectroscopic applications. The dual output amplifiers allow software selection between either a conventional High Sensitivity or Electron Multiplying outputs to suit a broad range of photon regime conditions. This makes the Newton EMCCD the ideal choice for ultrafast chemical mapping applications e.g. SERS, TERS or luminescence mapping.
Specifications
Key Specifications Sensor Options
BV: Back Illuminated CCD, Vis-optimized
BVF: Back Illuminated CCD, Vis-optimized and antifringing
FI: Front Illuminated CCD
UV: Front Illuminated CCD with UV coating
UVB: Back Illuminated CCD with UV coatingActive Pixels
1600 x 200
Pixel Size
16 x 16 μm
Image area
25.6 x 3.2 mm with 100% fill factor
Minimum Temperature Air Cooled
-80°C
Coolant recirculator
-95°C
Coolant chiller, coolant @ 10ºC, 0.75 l/min
-100°C
Max spectra per second
649 (Full Vertical Bin), 1,515 (Crop Mode - 20 rows)
System window type
Single UV-grade fused silica window, uncoated. Various AR coatings & MgF2 options available
Blemish specifications
Grade 1 as per sensor manufacturer definition
Features and Benefits
Features Benefits EM sensor technology
<1e- read noise
Fringe suppression technology as standard (970-BVF only)
Fringing minimized for NIR applications
Multi-Megahertz Readout
High repetition rates achievable with low noise electronics
TE cooling to -100°C
Negligible dark current without the inconvenience of LN2
UltraVac™
Permanent vacuum integrity, critical for deep cooling
16 x 16 μm pixel size
Optimized pixel size for achievement of high resolution
Dual output amplifiers
Software select between either a conventional High Sensitivity output (for low light applications) or an Electron Multiplying output (for single photon sensitivity
Crop Mode Operation
Achieve the highest possible spectral rates of over 1,500 spectra per second
Simple USB Connection
USB connection direct from back of camera – no controller box required!
Solis software for Spectroscopy
Comprehensive, user-friendly interface for simultaneous detector & spectrograph control
Software Development Kit (SDK)
Ease of control integration into complex setups: Matlab, Labview, Visual Basic or C/C++
Graphs
Graphs and Drawings
QE Curve
Dark Current
Readout Rate & Speed
Dimensions - Front
Dimensions - Top
Dimensions - Side
Connector Panel
Typical Setup
商品属性 [Active pixels ] 1600 x 200 [Pixel Size] 16 x 16 μm [Image area] 25.6 x 3.2 mm with 100% fill factor