AirDR

AirDR

Wireless Flat Panel Detector

The AirDR is a durable, low-dose cassette-size DR panel loaded with cutting edge, fail-safe features while ensuring patients receive the lowest possible dose. This Flat Panel Detector uses a low-power WiFi connection to transmit images, allowing you the freedom to capture difficult or unusual x-ray projections. With a thin and sturdy carbon fiber frame and wireless capabilities, it can be seamlessly integrated into new or existing x-ray rooms. Rugged and reliable, the AirDR has achieved a high Water and Dust rating of IP65 to protect it from outside dust particles, and if accidentally wet, it is engineered to protect the panel and prevent the circuits from shorting out.

Powered by ICE-3

ICE-3 is the next generation of image processing. We upgraded our processing algorithm to enhance visuals, maximize resolution, and offer advanced evaluation tools for image manipulation. Our automatic image processing package increases visualization of fine-line detail and soft-tissue contrast. The Smart Smoothing™ technology improves image quality while preserving diagnostic detail for thicker body parts.

Specifications 

The AirDR is a lightweight digital radiographic system designed to optimize workflow, increase throughput, and eliminate unnecessary exposures to patients. Its durable frame and wireless capabilities allow you complete imaging freedom for even the most difficult image projections. Using advanced acquisition software, the AirDR allows you to achieve unprecedented workflow and save valuable time.

Detector

The AirDR is a 100-micron, direct deposit Cesium, flat-panel detector. The detector transmits images to the acquisition station through a WiFi connection, eliminating the need for a hard wire. If WiFi is unavailable, a back-up cable connection can be used. Powered by a Cesium Iodide Scintillator, the detector delivers high-resolution images at the lowest possible dose.

Single-Sensor Detector

Other panels on the market can have as many as 5 separate sensors and the panel relies on these sensors to work in concert to acquire an image. Multi-sensor panels are often vulnerable to failure points between sensors, which can cause "no triggers" and "false triggers" during a routine study and ultimately lead to unnecessary repeat exposures for patients.