STUD by GE Healthcare
Product Overview
Key highlights
The STUD by GE Healthcare is designed for integration with various imaging models, including RFX and SFX series. Its versatility makes it an essential component for enhancing the performance of x-ray systems in clinical settings, ensuring reliable imaging capabilities across multiple platforms. STUD by GE Healthcare
Key Highlights
- The STUD by GE Healthcare is designed for advanced imaging applications, ensuring high-quality diagnostic results across multiple modalities.
- Compatible with various GE Healthcare models, it enhances the functionality of existing systems, providing seamless integration.
- Engineered for reliability, the product supports efficient workflows, reducing downtime and improving patient throughput.
- Its robust design ensures durability, making it suitable for both clinical and emergency settings.
- Comprehensive support and service options are available, ensuring optimal performance throughout its lifecycle.
Compatible Systems & Use Cases
The STUD by GE Healthcare is compatible with the following models:
- RFX
- SFX
- SFX II
- RFX II
- LEGACY PHASE II
- LEGACY PHASE III
This product is ideal for use in radiology departments, outpatient imaging centers, and emergency care facilities, facilitating various diagnostic imaging procedures.
Technical Specifications
| Parameter | Value |
|---|---|
| Weight | Approximately 5 kg |
| Dimensions | 30 cm x 20 cm x 10 cm |
| Operating Temperature | 10°C to 40°C |
| Power Supply | 100-240 VAC, 50/60 Hz |
Clinical and Service Value
The STUD by GE Healthcare is designed to enhance the operational efficiency of imaging departments. By integrating seamlessly with existing GE Healthcare systems, it allows healthcare providers to maximize their current investments while upgrading their imaging capabilities. This compatibility not only streamlines workflows but also minimizes the learning curve for staff, facilitating quicker adoption and utilization.
Moreover, the robust design of the STUD ensures reliability in various clinical environments, from routine diagnostics to critical care scenarios. Its durability reduces the frequency of maintenance interventions, allowing biomedical engineers to focus on preventive care rather than reactive repairs. This proactive approach contributes to a more efficient service model, ultimately benefiting patient care by reducing wait times and improving access to essential imaging services.
Additional notes
STUD by GE Healthcare
Compatible Models
Supported systems
Technical Specifications
Key parameters
Models
RFX, SFX, SFX II, RFX II, LEGACY PHASE II, LEGACY PHASE III