LARGE CURRENT SLIPRING BRUSH ASSEMBLY by Canon Medical Systems USA, Inc.
Product Overview
Key highlights
The Large Current Slipring Brush Assembly by Canon Medical Systems USA, Inc. is designed for advanced imaging systems, ensuring reliable electrical connectivity and performance in dynamic environments. Its robust construction enhances system efficiency, making it an essential component for medical imaging applications. Assembly, Large Current Slipring Brush
Key Highlights
- The Large Current Slipring Brush Assembly by Canon Medical Systems USA, Inc. is designed to enhance the performance of imaging systems, ensuring reliable and continuous electrical connectivity.
- This assembly is critical for applications requiring high current transmission, making it ideal for advanced imaging modalities.
- Engineered for durability, it minimizes wear and tear, which contributes to reduced downtime and maintenance requirements.
- Its design facilitates seamless integration into existing systems, promoting operational efficiency and streamlined workflows.
Compatible Systems & Use Cases
While specific models are not listed, this slipring brush assembly is likely compatible with various imaging systems including C-arms and other advanced radiological equipment. It is particularly useful in scenarios where continuous rotation and high current transmission are essential, such as in interventional radiology and surgical imaging.
Technical Specifications
| Parameter | Value |
|---|---|
| Product ID | O83553-BX775458 |
| Part Number | BX775458 |
| Manufacturer | Canon Medical Systems USA, Inc. |
| Assembly Type | Large Current Slipring Brush |
Clinical and Service Value
The Large Current Slipring Brush Assembly is an essential component for ensuring uninterrupted power supply in imaging systems. Its robust design not only enhances the reliability of imaging modalities but also supports high-performance applications, which can significantly improve patient throughput in clinical settings. By integrating this assembly, healthcare facilities can ensure that their imaging systems operate at peak efficiency, thereby enhancing diagnostic capabilities.
Moreover, the assembly's durability translates into lower maintenance requirements and reduced downtime, which is critical in high-demand environments. This reliability allows biomedical engineers to focus on other operational aspects, knowing that the imaging systems are equipped with a dependable slipring assembly. As a result, procurement of this assembly aligns with strategic goals aimed at optimizing workflow and maintaining high standards of patient care.
Additional notes
Assembly, Large Current Slipring Brush