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Cordin Scientific Temporal Pixel Multiplexed Cameras
The pinnacle of high speed imaging
Temporal Pixel Multiplexed (TPM) cameras offer a unique combination of high speed and image quality, in a compact package and an economical price.
The Cordin Model TPM-1000 high-speed CMOS camera offers a ground-breaking combination of 10 Mfps high-speed framing camera performance with a dramatic new pricepoint and compact package size. The Cordin TPM-1000 captures images at frame rates of up to 10 million frames per second and up to 1 mega-pixel resolution. The system uses a new TPM architecture jointly developed by Cordin and Oxford University with a unique CMOS sensor chip capable of capturing sub-array images in a burst mode.
With its flexible TPM architecture, the TPM-1000 allows the user to trade off the number of frames in a burst versus resolution, given the available on-chip pixel memory.
The Model TPM-1000 camera can be triggered by the event being photographed, and can accept triggers in advance or for some time after the event of interest. It can also provide the trigger to initiate the event. The system comes complete with Cordin’s control software application, and is controlled via Ethernet interface by the customer’s choice of standard Windows-based PC or laptop. Data may be saved in a wide variety of 8 bit file formats. Full 10 bit images are saved in 16 bit TIFF file format.
OPTIONS
- Illumination Sources (Models 605, 606, 607)
- Objective Lenses and Microscope Objectives
- Nikon F-mount Adapter
- Time Delay Generators (Models 454, 458)
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Military and Defence Research
- Explosive and detonation studies - Ballistic and projectile studies - Impact dynamics - Shape charge studies - Explosion front characterisation - Synchro-ballistic imaging
Materials Science Research
- Shock compression and fracture - Crack propagation - Dynamic loading
Aerodynamics
- Supersonic and hypersonic flows - Gas dynamics - Turbulence - Shock waves
Life Sciences
-Micro bubble studies -Bio-fluorescence
Computer Imaging
- Particle Image Velocimetry (PIV) - Digital Image Correlation
Mechanics
- Vibration analysis - Shock waves - Hopkinson-Bar studies
Nanotechnology
- Micromechanical machine dynamic analysis - Nanoscale material behaviour studies - Micro bubble studies
Hydrodynamics
- Hydroshock dynamics - Fluid cavitation - Aerosol and fuel injector studies - Droplet formation - Multi-phase flow dynamics
High Energy Physics
- Plasma physics - Propellant and propulsion studies - Laser physics
