Tucsen Dhyana 9KTDI

• Mono camera
• Pixel Size 5µm
• Sensor size – 45.36 x 1.28

Product Description

BSI TDI sCMOS camera designed for low light and high speed inspection

The Dhyana 9KTDI adopts a new generation of back-illuminated TDI sCMOS technology with a spectral response capability of 200-1100nm, which can be used in ultraviolet, visible and near-infrared imaging. TDI technology brings extremely high SNR in low light applications, and the high-speed line frequency of up to 510kHz@9K greatly improves the visual detection efficiency.



Dhyana 9KTDI Data Sheet Get a Quote Comparisons Back to sCMOS Cameras

Additional information

Additional Information

• AR-coated clear optical window 350-1050nm
• Physical dimensions – 40mm x 40mm x 100mm with 1/4-20 UNC mounting hole in each face
• Mounting thread – C Mount (1” 32TPI) or T2 Mount (M42x0.75mm), both with 17.5mm flange distance
• Connections – 12V 2.5A din connector, Auxiliary connector, USB 3.0 type B
• Software support – MicroManager 2.0 and Nightly Builds ( https://micro-manager.org/Download_Micro-Manager_Latest_Release ), Windows & Linux SDK, additional software support in development


• Widefield fluorescence imaging
• High resolution phase contrast, brightfield, and DIC
• Spinning disk and other camera-based confocal techniques
• FLIM (coupled with high-speed image intensifier)
• Super resolution microscopy
• Calcium imaging
• LightSheet microscopy
• Optical projection tomography
• HILO sectioning


• Trigger cable and breakout box for external triggering and light source modulation
• External trigger input
• Expose all rows output to control light source to simulate a virtual global trigger
• 2 additional programmable outputs
• Choice of 4/3 macro lenses
• Range of microscope adapters including filter wheels, as required

Sensor details

  • Model:Dhyana 9KTDI
  • Sensor Type:BSI sCMOS TDI
  • Sensor Model:Gpixel GLT5009BSI
  • Color/Mono:Mono
  • Array Diagonal :45.4mm
  • Resolution:9072
  • Pixel Size:5μm x 5μm
  • Effective area:45.36mm x 1.28mm