Sony DFWSX910 Prog Scan IEEE 1394 Color SXGA Camera

Sony Updated: 2008-05-06 RSS
Sony DFWSX910 Prog Scan IEEE 1394 Color SXGA Camera

The new DFW-SX910 color digital camera offers a dramatic leap forward in frame rates and imaging functions. The DFW-SX910 employs a new, next generation Progressive Scan CCD with square pixels and offer excellent sensitivity. The DFW-SX910 features a 1/2" CCD that delivers uncompressed, high-resolution, digital color images and features an easy-to-use asynchronous electronic shutter function with an exposure range from 1/100,000 to 17.5 seconds, allowing for the clear capture of fast moving objects or still images in low light environments. This new IEEE-1394 camera is ideal for quality-critical imaging applications such as semiconductor inspection, machine vision and factory automation.

Highlights:

* High resolution - 1/2" progressive scan square pixel CCD
* IIDC 1394-based Digital Camera Specification Version 1.30 compliant (400 Mbps)
* Selectable frame rate - 7.5/3.75/1.875 fps
* External trigger input and / exposing output functions (4-pin)
* Fast hardware or software asynchronous trigger
* Trigger at full frame rate
* Color (YUV422 or YUV411) scale (Mono8) output
* Partial scan (16 x 16 selectable zones)
* Synchronization of exposure start of multiple cameras on the same 1394 bus
* Auto/Manual gain (manual gain: 0 to 18 dB)
* C mount
* Lead-free solder is used in manufacturing

Features:

High Picture Quality and Pixel Resolution: 1/2" IT Progressive Scan CCD with 1280 x 960 pixel resolution /YUV422 or Mono8 with a maximum resolution of 1376 x 1024.

IEEE-1394 Digital Serial Bus at 400 Mps: 7.5 fps at YUV422 color or Mono8

Compact and light weight - easy to install: Dimensions: 55(W) x 50(H) x 110(D) mm / 1-3/4 x 1-5/16 x 4-5/8 inches Weight: 250g / 9 oz.

NEW! Scaleable / Partial Scan: Region of interest on any rectangle on 16 x 16 grid - Less processing/faster frame rates

Electronic Shutter and External Asynchronous Trigger: Clearly captures fast moving objects or still images in low light environments