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High resolution multi channel framing camera, up to 16 (SIMX) or 32(SIMD) high resolution images without creating shading or parallax, up to 1 billion frames per second
Description
Highly accurate timing and fully flexible intensified CCD sensors provide almost infinite control over interframe time, gain and exposure to capture even the most difficult ultra-fast phenomena.
Comprehensive triggering adjustment and a wide range of output signals are controlled using the custom software package which also includes measurement and image enhancement functions.
The SIMX has an optional port for the addition of a high-speed video, or streak camera to allow either simultaneous long duration or ultra high temporal resolution capture. A multi-spectral configuration SIMX camera can provide up to 16 different multi-spectral images with 5 colour and 1 monochrome images.
The SIMD has an optional port for the addition of a high-speed video camera to allow longer duration and simultaneous image capture. The Duplex camera configuration allows the number of images captured to be twice the number of channels.
Multi-spectral
A SIMX camera can be configured to capture up to 16 different multi-spectral images. With R, G & B filters, it is possible to take 5 colour images and 1 monochrome image.
A SIMD camera can be configured to capture up to 16 different multi-spectral images. With R, G & B filters, it is possible to take 10 colour images and 2 monochrome images.
Main Features:
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Up to 1 Billion frames per second capture speed
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70lp/mm system resolution (SIMX) and > 36lp/mm system resolution (SIMD)
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1360 x 1024 pixel, 12-bit sensor resolution
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Up to 16 discrete intensified optical channels
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Fully adjustable interframe time to 1ns
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Fully adjustable exposure down to 3ns
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Gain adjustment up to 10,000X (SIMX) and 7,000X (SIMD)
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Adjustable output triggers
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Nikon lens mount fitting
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Ethernet communications
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Multi-Spectral configuration camera option (SIMX)
- Duplex Configuration camera (SIMD)
Applications:
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Ballistics
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Combustion Research
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Failure Dynamics
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Elasticity, Crack Propagation and Shock resistance
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Medical Research and testing
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Detonics
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Impact Studies
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Spray and Particle Analysis
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Automotive testing
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Nanotechnology and micro-machines
Applications
MJOLNIR, or the Megajoule Neutron Imaging Radiography Experiment uses SIMX on 8:10
SIM Series - Materials Testing
SIM Series - High Speed impact
SIM Series - Material Testing
SIM Series - Cells
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