ViVIX-S Digital Radiography System with Flat Panel Detector
Transcription
ViVIX-S Digital Radiography System with Flat Panel Detector Technical specification Application General Radiography Detector type Flat Panel Detector Active Image Size 43 x 43cm (17” x 17”) Image format 3072 x 3072 Pixel pitch 140㎛ ×140㎛ Bit-depth 14bit Dimensions 475 x 475 x 39mm Weight Under 9kg Interface Gigabit Ethernet Capture & transmission within 6 seconds * Specifications are subject to change without prior notification Headquarters 6F Suntechcity Ⅱ, 307-2, Sangdaewon-dong, Jungwon-gu, Seongnam-city, Gyeonggi-do, 462-806 South Korea tel + 82-70-7011-6161 fax + 82-31-737-4954 e-mail sales@vieworks.com web site http://www.vieworks.com North America Office 27 Kings Landing Pvt. Ottawa, On. Canada K1S 5P8 tel +1-613-232-1175 USA Direct line +1-401-466-4650 e-mail richard@vieworks.ca www.vieworks.com Versatile Diagnostic Capabilities * 9.0 Mega-pixel flat panel detector with radiographic imaging capability * Unique electronics hardware with 14-bit signal digitization providing an extremely wide dynamic range * Optimized algorithms for each different body part * Fast readout time enables an image to be captured and transmitted within 6 seconds Simple & Smart Featured * Full compatibility with DICOM 3.0 standard and Windows™ based platform * Side by side dual study comparison capabilities * Sequential radiographic images at 4 fps in a binning mode * Featuring special Remote Viewing program (Minvue) & QXLink * Various preset image processing modes for different studies * Communication interface through Gigabit Ethernet (1,000BASE-T) * Simple & easy integration with all kinds of digital radiography systems Superior Image Quality * Brilliant Modulation Transfer Function (MTF) * Superior diagnostic image quality through flat panel detector with the proven technology of QXvue image processing software. * Dramatically reduced X-ray dose for patient safety during an examination Communication Block Diagram FPD PC Superb diagnostic imaging gifted by flat panel digital radiographic technology The active 9 mega-pixels of ViVIX-S system ensure superior image quality for today’s high standards in precise diagnosis with a spatial resolution of 3.5 lp/mm through Vieworks’s digital radiographic flat panel detector technology. ViVIX-S can offer sequential radiographic images at 4 fps in a binning mode, which is a very unique feature used for pre-positioning of the patient before an actual examination. Signal User friendly image processor (Model: QXvue) is compliant with DICOM 3.0 standard and provides consistent image quality at a dramatically reduced dose and faster image information with optimized algorithms for each different study. Images can be simply acquired and transmitted to the DICOM server through Gigabit Ethernet in seconds. QXLink provides better networking environment to hospitals or clinics. X-ray controller The leading company of precision imaging systems Command ViVIX-S is a Vieworks’s new flat panel digital radiography system with the large field coverage area of 17” x 17” designed for general radiographic applications using its unique image processing system and proprietary flat panel detector.
Similar documents
2003-2005 To set the tone for Women's History Month, the Women's... Program organized the 1st Women's Fair. The fair provided students...
More information
Global Industrial Radiography Market
Industrial radiography used to view or inspect cracks and flaws in material which can’t be seen with simple eyes, this technique is normally been used up by the manufacturers for final testing of the product before they get dispatched. In industrial radiography, the material is exposed under the radiation that is either gamma rays or X-rays with which the crack or flaws can easily be inspected as they become visible with the exposure of these radiation. This process is very much similar to that of x-ray being done in medical to find out the cracks or breaks in the bone. Manufactures know this fact very well that consumer who is going to buy something wants that product to be safe and in proper working condition so they pass their product through this test which is even costlier to maintain. It is advantageous to test the product as it doesn’t cause either the damage in the product or it change any property of it. In this process as the material is exposed in the radiation between the transmitter and the receiver, more thicker the product, less the rays reach to the receiver and if there is a crack in material than rays directly reach to the receiver with full intensity and hence the crack or damage be inspected. As this technique has continuously been adopted in manufacturing industries as a result it is estimate to witness decent growth in the upcoming years.
More information