The AKMars 1417V is a high-performance 14×17-inch cassette-size digital radiography flat panel detector developed by ArKang, engineered for professional radiographic imaging. This digital radiography flat panel detector leverages amorphous silicon (a-Si) technology and direct deposition CsI scintillator, delivering exceptional image quality with high Detective Quantum Efficiency (DQE) and reduced patient radiation dose. Equipped with stable iSync+ Automatic Exposure Detection (AED), dual-band wireless connectivity, and a portable cassette-sized design, it is the optimal choice for both retrofitting existing systems and implementing new DR solutions.
Core Features and Advantages
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Dual-Band Wireless Performance & Easy Image Sharing
This digital radiography flat panel detector supports dual-band (2.4G & 5G) WiFi, ensuring stable, high-speed data transmission across diverse clinical environments. The wireless design eliminates cable constraints, enabling flexible positioning and seamless image sharing between workstations to streamline diagnostic workflows.
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High-Resolution Imaging with Low Radiation Dose
The 150 μm pixel pitch and 16-bit ADC of this digital radiography flat panel detector capture fine anatomical details with a spatial resolution of 3.3 lp/mm. The direct deposition CsI scintillator enhances light conversion efficiency, producing crisp, low-noise images while minimizing patient radiation exposure—a critical advantage for sensitive clinical applications.
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Stable iSync+ AED for Consistent Image Quality
Integrated with iSync+ Automatic Exposure Detection (AED), this digital radiography flat panel detector automatically optimizes exposure parameters based on patient anatomy. This ensures consistent, high-quality images with minimal retakes, reducing technician workload and enhancing clinical efficiency.
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Extended Workflow Efficiency
With an 8-hour battery autonomy and internal storage for 200 full-size images, this digital radiography flat panel detector supports extended imaging sessions without interruptions. A 5-second full image time accelerates the diagnostic process, reducing patient waiting times and boosting radiology department productivity.
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Broad Compatibility & Durability
Compliant with ISO 4090, this digital radiography flat panel detector fits seamlessly into standard bucky systems, enabling cost-effective retrofits of existing DR setups. Its IPX1 ingress protection and 150 kg uniform static loading capacity ensure durability and reliability in demanding clinical environments.
Technical Specifications Table
| Parameter |
Specification |
| Brand |
Iray |
| Model |
AKMars 1417V |
| Detector Technology |
Amorphous Silicon (a-Si) |
| Scintillator |
CsI (Direct Deposition) |
| Active Area (inch) |
14 × 17 |
| Pixel Matrix |
2304 × 2800 |
| Pixel Pitch (μm) |
150 |
| Spatial Resolution (lp/mm) |
3.3 |
| AD Conversion (bit) |
16 |
| Battery Autonomy (h) |
8 |
| WiFi |
2.4G & 5G, IEEE802.11 a/b/g/n/ac |
| Trigger Mode |
AED (Optional) / Software |
| Internal Image Storage |
200 full-size images |
| Full Image Time (s) |
5 |
| Dimensions (mm) |
384 × 460 × 15 |
| Weight (kg) |
3.3 |
| Static Loading |
150 kg Uniformly |
| Ingress Protection |
IPX1 |
| Operating Temperature (℃) |
5 ~ 35 |
| Storage & Transport Temperature with Package (℃) |
-20 ~ 55 |
| Operating Humidity (% RH) |
10 ~ 90 (Non-Condensing) |
| Storage & Transport Humidity with Package (% RH) |
5 ~ 95 (Non-Condensing) |
| Compliance |
ISO 4090 (fits in bucky systems) |
Application Scenarios
The ArKang AKMars 1417V digital radiography flat panel detector is ideally suited for:
- Digital Radiography (DR) Systems: As a core imaging component for routine chest, skeletal, and soft-tissue imaging in hospitals and clinics.
- System Retrofits: Seamlessly integrating into existing DR setups to upgrade analog systems to digital platforms.
- New DR Installations: Serving as a high-performance foundation for new radiography system implementations.
- General Clinical Use: Supporting efficient workflows in radiology departments, orthopedic clinics, and emergency care settings.