Zyla sCMOS HF

Andor’s Zyla 5.5 HF outstanding design delivers the highest transmission and spatial resolution performance associated with state-of-the-art single fiber optic plate bonding, while also taking advantage of the very fast frame rate, ultra-low noise performance and exceptional field of view of the Zyla 5.5.

  • 100 fps full frame sustained
  • Fiber optic plate coupling
  • 5.5 megapixel sensor format with high resolution and 6.5 μm pixels
  • 1.2 e- read noise
  • Rolling and Global shutter

Zyla Fiber Optic sCMOS- High Energy Detection at 100 fps

Andor’s Zyla 5.5 HF outstanding design delivers the highest transmission and spatial resolution performance associated with state-of-the-art single fiber optic plate bonding, while also taking advantage of the very fast frame rate, ultra-low noise performance and exceptional field of view of the Zyla 5.5.

Its compact format, multiple mounting points and modular input configuration for scintillators or Beryllium filter integration allow ease of integration into laboratory setup or integrator (OEM) systems.

Key Specifications
Active Pixels 2560 x 2160 (5.5 Megapixel)
Sensor Size 16.6 x 14.0 mm (21.8 mm diagonal)
Pixel Size 6.5 µm
Pixel well depth 30,000 e-
Readout Speeds 560, 200 MHz
Read Noise 1.2 e-
Sensor operating temperature 0°C
Maximum frame rate 100 fps @ full frame
Features Benefits
Rapid frame rates 100 fps full frame sustained
Fiber optic plate coupling Direct bonding on sCMOS sensor for maximum throughput. EMA statistical structure for lowest channel crosstalk
5.5 megapixel sensor format with high resolution and 6.5 μm pixels Large 16.6 x 14 mm field of view
1.2 e- read noise Lower detection limit than any CCD
Compact and light Ideal for integration into space restrictive set-ups
Rolling and Global shutter Maximum flexibility across all application
Dual-Gain amplifiers Extensive dynamic range of 25,000:1 @ 30 fps
ROI and pixel binning User-defined ROI (1 pixel granularity) and hardware binning
Dynamic baseline clamp Ensures quantitative stability
Hardware time stamp FPGA generated time stamp with 25 ns accuracy
Modular input interface Choice of high resolution / high throughput scintillators and Beryllium filters
Graphs and Drawings
QE Curve

Dimensions - Front
Dimensions - Side
 Connector Panel
Multimedia Library
Application Images (1)