The Radlink Laser Pro 16 is a film digitization system that follows a three-step
The Radlink Laser Pro 16 is a film digitization system that follows a three-step process of acquiring, selecting, and sending digitized films to any desired destination. A laser beam light source and a sealed optic path are used to scan the film that is driven by a clocked, stepping motor. It utilizes a 12-film auto loader, and its software provides image quality control and post-processing functions and enables distribution and routing of DICOM images through a healthcare network.
The PH GPS Bracket is comprised of Radlink proprietary software and hardware to
The PH GPS Bracket is comprised of Radlink proprietary software and hardware to duplicate Radlink user interface onto Philips reference monitor of the MVS utilizing a switch box that shifts the video signal between Philips and Radlink on the reference monitor. Not only does Radlink solution expand the field of view of Philips C-Arms utilizing Pano function, but it also facilitates intra-operative image analysis by assisting surgeons to evaluate acetabular cup position, limb length discrepancy, and femoral offset during Total Hip Arthroplasty. The PH GPS Bracket comes with software features such as image stitching and Surgeon’s Checklist™ software that provides surgeons with real-time feedback on orthopedic implant component positioning. Pre-operative images can be viewed on the device during surgery, which surgeons can use to reference against the intra-operative images captured during the procedure.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink GPS Tablet/Monitor Stand functions as a mobile workstation and charg
The Radlink GPS Tablet/Monitor Stand functions as a mobile workstation and charger for the Radlink GPS Tablet with a secondary monitor. The Radlink GPS Tablet provides surgeons with real-time feedback on orthopedic implant component positioning. Together, the GPS Tablet and its Surgeon’s Checklist software offer easy-to-follow steps designed to address challenges such as component positioning, sizing, limb length and offset restoration. The Radlink GPS Tablet consists of a Tablet PC computer system that uses a touchscreen monitor & other image display accessories. Pre-operative images can be viewed on the GPS Tablet during surgery, which surgeons can use to reference against the intraoperative images captured during the procedure. For posterior approach THA procedures, a flat panel detector (DR panel) is used to capture intraoperative images, which takes approximately four seconds to appear on the GPS Tablet. For anterior approach THA procedures, C-Arm images are instantaneously transferred to the GPS Tablet using the Radlink Wireless C-Arm Kit.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Cassette is a digital imaging cassette that holds a flat panel detec
The Radlink Cassette is a digital imaging cassette that holds a flat panel detector during x-ray exposure and has a grid to absorb scattered radiation. This model is designed for 14"x17" plates.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Cassette is a digital imaging cassette that holds a flat panel detec
The Radlink Cassette is a digital imaging cassette that holds a flat panel detector during x-ray exposure and has a grid to absorb scattered radiation.This model is designed for 10"x12" plates.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Wireless C-Arm (WCA) Kit is an accessory device of the Radlink GPS (
The Radlink Wireless C-Arm (WCA) Kit is an accessory device of the Radlink GPS (Galileo Positioning System) & GPS Tablet that is used to wirelessly send images from a video source such as a C-Arm to the Radlink GPS or GPS Tablet. The Radlink Wireless C-Arm Kit is a computer system that accepts video signals from BNC, VGA, or DVI connections and converts these signals into an image file, which is then sent wirelessly to a Radlink GPS or GPS Tablet.
LMD
System, Digital Image Communications, Radiological
The Radlink DR Tablet Retrofit upgrades any existing portable x-ray machine into
The Radlink DR Tablet Retrofit upgrades any existing portable x-ray machine into a mobile digital radiography system.It is a permanently mounted Tablet PC for image acquisition with built-in PACS and DICOM connectivity. Radlink Pro-Imaging Acquisition and Post-Processing Software are featured on the system as well. It comes with a Cesium wireless flat panel detector.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink GPS Bucky Cart is a manually operated cart with one compartment that
The Radlink GPS Bucky Cart is a manually operated cart with one compartment that is meant for housing and transporting flat panel detectors.
The Radlink GPS Tablet provides surgeons with real-time feedback on orthopedic i
The Radlink GPS Tablet provides surgeons with real-time feedback on orthopedic implant component positioning. Together, the GPS Tablet and its Surgeon’s Checklist software offer easy-to-follow steps designed to address challenges such as component positioning, sizing, limb length and offset restoration. The Radlink GPS Tablet consists of a Tablet PC computer system that uses a touchscreen monitor & other image display accessories. Pre-operative images can be viewed on the GPS Tablet during surgery, which surgeons can use to reference against the intraoperative images captured during the procedure. For posterior approach THA procedures, a flat panel detector (DR panel) is used to capture intraoperative images, which takes approximately four seconds to appear on the GPS Tablet. For anterior approach THA procedures, C-Arm images are instantaneously transferred to the GPS Tablet using the Radlink Wireless C-Arm Kit.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Galileo Positioning System™ (GPS) provides surgeons with real-time f
The Radlink Galileo Positioning System™ (GPS) provides surgeons with real-time feedback on orthopedic implant component positioning. Together, the GPS and its Surgeon’s Checklist™ software offer easy-to-follow steps designed to address challenges such as component positioning, sizing, limb length and offset restoration. The Radlink GPS consists of a computer system that uses one ultra-wide monitor.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink CR Pro system is a computed radiography system designed for all prim
The Radlink CR Pro system is a computed radiography system designed for all primary diagnostic radiology applications. It is fully automatic and accepts a variety of cassette sizes.The 16-bit sealed fiber-optic laser technology allows images to be erased after each use, prolonging cassette life. The system includes the Radlink PACS that is DICOM compatible with any other PACS/EMR brand. The software provides image quality control and post-processing functions and enables distribution and routing of DICOM images throughout a healthcare network. Existing patient information can be queried by syncing to any EMR/HIS/RIS modality worklist.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Galileo Positioning System™ (GPS) provides surgeons with real-time f
The Radlink Galileo Positioning System™ (GPS) provides surgeons with real-time feedback on orthopedic implant component positioning. Together, the GPS and its Surgeon’s Checklist™ software offer easy-to-follow steps designed to address challenges such as component positioning, sizing, limb length and offset restoration. The Radlink GPS consists of a computer system that uses two monitors . Pre-operative images can be viewed on the top monitor during surgery at the same time that intraoperative images are being viewed on the lower monitor. For posterior approach THA procedures, a flat panel detector (DR panel) is used to capture intraoperative images, which take approximately four seconds to appear on the lower GPS monitor. For anterior approach THA procedures, C-Arm images are instantaneously transferred to the lower monitor of the GPS.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The Radlink Picture Archiving and Communication System (PACS) is an external ser
The Radlink Picture Archiving and Communication System (PACS) is an external server for storage and retrieval of varying modality images and their corresponding information.
The Radink Sensor uses a combination of a 3-axis accelerometer, a 3-axis gyrosco
The Radink Sensor uses a combination of a 3-axis accelerometer, a 3-axis gyroscope, and a 3-axis magnetometer to locate a patient's body in 3D space. It is calibrated to the patient's original position immediately prior to the surgery so any movement is tracked and the patient can be returned to the original position at any time during or after the surgery.
The Radlink DR Pro system is a digital radiography system with a digital flat pa
The Radlink DR Pro system is a digital radiography system with a digital flat panel detector that captures images from any brand of X-ray generator and displays them on a touch screen monitor within four seconds. A local PACS is available to archive and manage images not only from the DR Pro, but also from other DICOM modalities such as X-ray, MRI, CT, and ultrasound.
MQB
Solid State X-Ray Imager (Flat Panel/Digital Imager)
The flat panel detector, when used with a radiographic imaging system, is intend
The flat panel detector, when used with a radiographic imaging system, is intended to generate radiographic images of human anatomy wherever a conventional screen-film, digital radiography (DR) or computed radiography (CR) detector is used for general purposes.
The device is designed to perform radiographic x-ray examinations on pediatric a
The device is designed to perform radiographic x-ray examinations on pediatric and adult patients, in all patient treatment areas
SKANMOBILE DR is a digital radiographic system designed for superior image quali
SKANMOBILE DR is a digital radiographic system designed for superior image quality featuring wireless flat panel detectorand operator console for digital imaging integrated with high frequency generator.
The FireCR Spark System is ideal for Computed Radiography examinations in busy c
The FireCR Spark System is ideal for Computed Radiography examinations in busy clinics and specialty practices. Affordable, rugged, compact, lightweight, fast and effective FireCR Spark System enables all imaging functions to be performed with the advanced image management software, a solution that can be adapted most clinical applications.
The Cassette 18cmx24cm(IP 18cmx24cm)Kit is acquired X-ray images. and Transfer t
The Cassette 18cmx24cm(IP 18cmx24cm)Kit is acquired X-ray images. and Transfer the image to your computer through the FireCR Flash.
The Cassette 24cmx30cm(IP 24cmx30cm)Kit is acquired X-ray images. and Transfer t
The Cassette 24cmx30cm(IP 24cmx30cm)Kit is acquired X-ray images. and Transfer the image to your computer through the FireCR Flash.
The Cassette 35cmx43cm(IP 35cmx43cm)Kit is acquired X-ray images. and Transfer t
The Cassette 35cmx43cm(IP 35cmx43cm)Kit is acquired X-ray images. and Transfer the image to your computer through the FireCR Flash.
The FireCR Flash can be configured for nearly every clinical application, and is
The FireCR Flash can be configured for nearly every clinical application, and is designed for full DICOM connectivity, and allows user to setup the system to capture high quality X-ray images of any body parts with minimal steps including reading, processing, displaying and sending of the high quality image. All imaging parameters are optimized, resulting in digital images that can be enhanced, enlarged, duplicated, and sent to any location as a DICOM 3.0 file format in seconds with no loss of resolution.
The FireCR Spark System is ideal for Computed Radiography examinations in busy c
The FireCR Spark System is ideal for Computed Radiography examinations in busy clinics and specialty practices. Affordable, rugged, compact, lightweight, fast and effective FireCR Spark System enables all imaging functions to be performed with the advanced image management software, a solution that can be adapted most clinical applications.
The Universal Cassette 24cmx30cm(IP 24cmx30cm)Kit is acquired X-ray images. and
The Universal Cassette 24cmx30cm(IP 24cmx30cm)Kit is acquired X-ray images. and Transfer the image to your computer through the FireCR.
The Universal Cassette 35cmx43cm(IP 35cmx43cm)Kit is acquired X-ray images. and
The Universal Cassette 35cmx43cm(IP 35cmx43cm)Kit is acquired X-ray images. and Transfer the image to your computer through the FireCR.
The FireCR System is ideal for Computed Radiography examinations in busy clinics
The FireCR System is ideal for Computed Radiography examinations in busy clinics and specialty practices. Affordable, rugged, compact, lightweight, fast and effective FireCR System enables all imaging functions to be performed with the advanced image management software, a solution that can be adapted most clinical applications.
Intra Oral Sensor (model: IOX 1 / IOX 2) is a medical device that acquires digit
Intra Oral Sensor (model: IOX 1 / IOX 2) is a medical device that acquires digital images by detecting subject information through X-rays.
Intra Oral Sensor (model: IOX 1 / IOX 2) is a medical device that acquires digit
Intra Oral Sensor (model: IOX 1 / IOX 2) is a medical device that acquires digital images by detecting subject information through X-rays.
The ClearVision ExamVue Flat Panel Detector consists of a line of 3 different mo
The ClearVision ExamVue Flat Panel Detector consists of a line of 3 different models of solid state x-ray detectors, of differing size and characteristics, designed for use by radiologists and radiology technicians for the acquisition of digital x-ray images. The ClearVision ExamVue Flat Panel Detector captures digital images of anatomy through the conversion of x-rays to electronic signals, eliminating the need for film or chemical processing to create a hard copy image. The ClearVision ExamVue Flat Panel Detector incorporates the ExamVueDR software, which performs the processing, presentation and storage of the image in DICOM format. All models of the ClearVision ExamVue Flat Panel Detector use aSi TFTD for the collection of light generated by a CsI scintillator, for the purpose of creating a digital x-ray image. The three available models are:a. A 14x17in (35x43cm) tethered cassette sized panelb. A 14x17in (35x43cm) wireless cassette sized panel with automatic exposure detectionc. A 17x17in (43x43cm) tethered panel for fixed installations.
The Prudent is an Wireless/Wired flat panel x-ray detector system that interface
The Prudent is an Wireless/Wired flat panel x-ray detector system that interfaces with, and acquires and digitized x-ray exposures from, standard radiographic system. The Prudent detector is designed to be used in any environment that would typically use a radiographic cassette for examination of human anatomy. The detector will display high quality images in approximately five seconds over a wide range of dose setting.The digital x-ray detector is configurable in several options depending materials such as TFT array(amorphous silicon or Indium Gallium Zinc Oxide), TFT substrate (glass or polyimide), TFT Pixel pitch and Scintillator (CsI or Gadox).
The Prudent is an Wireless/Wired flat panel x-ray detector system that interface
The Prudent is an Wireless/Wired flat panel x-ray detector system that interfaces with, and acquires and digitized x-ray exposures from, standard radiographic system. The Prudent detector is designed to be used in any environment that would typically use a radiographic cassette for examination of human anatomy. The detector will display high quality images in approximately five seconds over a wide range of dose setting.The digital x-ray detector is configurable in several options depending materials such as TFT array(amorphous silicon or Indium Gallium Zinc Oxide), TFT substrate (glass or polyimide), TFT Pixel pitch and Scintillator (CsI or Gadox).
The Prudent is an Wireless/Wired flat panel x-ray detector system that interface
The Prudent is an Wireless/Wired flat panel x-ray detector system that interfaces with, and acquires and digitized x-ray exposures from, standard radiographic system. The Prudent detector is designed to be used in any environment that would typically use a radiographic cassette for examination of human anatomy. The digital x-ray detector is configurable in several options depending materials such as TFT array(amorphous silicon or Indium Gallium Zinc Oxide), TFT substrate (glass or polyimide), TFT Pixel pitch and Scintillator (CsI or Gadox). The detector will display high quality images in approximately five seconds over a wide range of dose setting.
PIXX2430 is a high-resolution digital X-Ray imaging device commonly referred to
PIXX2430 is a high-resolution digital X-Ray imaging device commonly referred to as a flat panel detect. X-Ray photons are converted to digital output signals. The digital signals are then read out by TFTs. The image data file is saved at the computer for display, which can be linked with PACS and printed by DICOM printer through acquisition software. It is specifically designed to deliver X-Ray imaging for medical, veterinary and industrial applications.
Device is a high resolution digital X-RAY imaging device commonly referred to as
Device is a high resolution digital X-RAY imaging device commonly referred to as a flat panel detect. A built-in a-Si TFT flat panel type digital sensor receives X-Ray and converts to digital image. The digital signals are then read out by TFTs.
Device is a high resolution digital X-RAY imaging device commonly referred to as
Device is a high resolution digital X-RAY imaging device commonly referred to as a flat panel detect. A built-in a-Si TFT flat panel type digital sensor receives X-Ray and converts to digital image. The digital signals are then read out by TFTs.
PIXX1717 is a high-resolution digital X-Ray imaging device commonly referred to
PIXX1717 is a high-resolution digital X-Ray imaging device commonly referred to as a flat panel detect. X-Ray photons are converted to digital output signals. The digital signals are then read out by TFTs. The image data file is saved at the computer for display, which can be linked with PACS and printed by DICOM printer through acquisition software. It is specifically designed to deliver X-Ray imaging for medical, veterinary and industrial applications.