Rolera Bolt™ Scientific CMOS Camera

Product Image
Rolera Bolt™ Scientific CMOS Camera
  • placeholder
  • Video Thumbnail
  • Video Thumbnail

The Rolera Bolt Scientific CMOS camera is suited for high speed and low light imaging applications, ranging from live cell fluorescence to whole organism motility studies.Capable of streaming at 30 full frames per second with 1.3 mega-pixel resolution and 3e read noise, it is perfect for tracking high speed dynamic events with detailed spatial and temporal resolution. The USB 2.0 digital interface allows easy installation and the compact design makes it easy to mount and transfer between microscopes and labs. The camera is compatible with popular imaging applications and includes QCapture imaging software. Features of the Rolera Bolt: New Pixel-Freeze Technology™ 1.3MP, 3.63 Micron Monochrome Pixel 30 Full Frames Per Second ~3 Electron Read Noise Small Footprint USB2 Camera...Read more

Receive your quote directly from QImaging for Rolera Bolt™ Scientific CMOS Camera

Description

The Rolera Bolt Scientific CMOS camera is suited for high speed and low light imaging applications, ranging from live cell fluorescence to whole organism motility studies.

Capable of streaming at 30 full frames per second with 1.3 mega-pixel resolution and 3e read noise, it is perfect for tracking high speed dynamic events with detailed spatial and temporal resolution. The USB 2.0 digital interface allows easy installation and the compact design makes it easy to mount and transfer between microscopes and labs. The camera is compatible with popular imaging applications and includes QCapture imaging software.

Features of the Rolera Bolt:

  • New Pixel-Freeze Technology™
  • 1.3MP, 3.63 Micron Monochrome Pixel
  • 30 Full Frames Per Second
  • ~3 Electron Read Noise
  • Small Footprint
  • USB2 Camera (power supply not required)

Product Overview

Product Image

Rolera Bolt™ Scientific CMOS Camera

by QImaging







Receive your quote directly from QImaging for Rolera Bolt™ Scientific CMOS Camera