Products
SPCI Version 6.2 Now Available
SimplePCI from Compix Inc. forms the core of our imaging systems. Applications range from simple three colour fluorescence imaging, through to Live Cell Imaging, Camera Based Confocal Systems, and High Speed Image Capture.
Modules are available for a wide range of applications:
Dynamic Intensity Analysis -Ratiometric or changes in intensity Ca2+, pH etc.
FRET Analysis -Short range cellular interactions
Deconvolution -Digital Confocal Microscopy
3-D Visualisation -Monitor cell movement and interaction over time
Image Processing - Many Image Analysis and Cell Tracking
Camera Systems From Hamamatsu
Digital Pixel can supply any of the extensive Hamamatsu range of camera. The ORCA series is without doubt the most popular camera for general fluorecence microscopy. Costing from less than £6,000 and now bundles with HCI software these cameras provide superb performance and value.
If your imaging application requires high speed and sensitivity then the NEW EM-CCD 9100-13 is the camera of choice.
All these cameras can be driven in conjunction with a wide range of microscope automation or illumination systems, and because SPCI is from the Hamamatsu stable you can be assured that the software/camera interface is both intuative and powerful.
Camera Systems for Colour/Bright Field Microscopy
Digital Pixel can supply a wide range of camera system options suitable for colour microscopy.
Systems start from as little as £3,000. All cameras include three colour control using white balance.
This allows the user critically to match the response of the camera to the eye.
We have a full range of systems that we can supply for demonstration or trial.
We are also able to supply LCD filters that combine the sensivity of monochrome camera with high resolution colour imaging.
See a complete list of supported devices , including cameras and microscope equipment
Microscope Illumination Control
We support and supply a wide range of illumination control systems- These range from high speed shutters and filter wheel through to fully
tunable fast switching light sources including laser modules our camera base confocal systems. Visit our supported devices page.
Microscope Motion Control XY and Z-Scanners
Motorised XY stages allow the scientist to multiplex their data acquisition experiments.
Digital Pixel support and supply systems from a number of manufacturers.
Some of the newer systems available combine high accuracy XY positioning with Z- Scanning that is both accurate and fast.
See which manufacturers on our supported devices page.
Environmental Chambers
As part of our Live Cell 2.0 system we have developed a range of microscope environmental chambers.
These are available as a retro fit to existing microscopes and are available for microscope from all the major manufacturers.
Fluorescence Filters
We can supply advice and information on the comprehensive range of filters from Chroma.
In particular we are able to supply complete systems with cubes for all the major microscopes.
Live Cell 2.0 Launched!!
Digital Pixel and Compix have been providing fully functional multiple site time lapse systems for nearly 10 years.
As a result we boast the most reliable software available to-day.
Acclaimed by the scientific community, our systems regularly acquire 200 data sets (different positions) with
30 minute time resolution over 7-10 days!
Live Cell 2.0 builds on the 10 years experience we have in providing the best in time lapse microscopy.
Contact us for a full discussion about your time lapse imaging application.
New!! Camera Based Confocal Imaging
Digital Pixel, Compix and Visitech have joined forces to provide the very best in Camera based Confocal Technology.
The VT-Infinity uniquely uses VisiTech International’s patented 2D-array laser confocal
scanner technology. The technology uses matched micro-lens and pinhole arrays to
achieve optimum confocal performance, and a single double sided galvanometer mirror
to scan the sample, de-scan the fluorescent light returned from the sample and re-scan
that fluorescent light into the camera to create confocal images in real-time.
