5/15KW Surgical C-arm System

This C-arm imaging system is designed for high-precision medical diagnostics, offering stable imaging performance, enhanced workflow efficiency, and improved clinical visibility. It integrates advanced X-ray generation, dynamic imaging detection, and ergonomic system design to support a wide range of surgical and diagnostic environments.

Core Imaging Components

Dynamic Flat Panel Detector

The system is equipped with a dynamic flat panel detector featuring high DQE performance and low noise output.
This ensures sharper image clarity, improved contrast resolution, and enhanced diagnostic accuracy in real-time imaging scenarios.

High-Frequency X-Ray Generator

A high-performance high-frequency generator is integrated into the system, available in 5kW and 15kW configurations.
It provides stable energy output, supporting consistent imaging quality across different clinical applications and patient conditions.

High-Performance Anode X-Ray Tube

The system adopts a high-performance anode X-ray tube designed for stable radiation output and long operational durability.
It ensures reliable imaging performance during continuous clinical usage.

Positioning & Operational Efficiency

Dual-Side Laser Positioning System

The equipment is fitted with a two-way laser positioning system located on both the tube side and flat panel detector side.
This allows fast and accurate alignment, significantly improving operational efficiency and reducing positioning time during procedures.

Mechanical Structure Design

Counter-Balanced C-Arm Structure

The C-arm is designed with a counter-balanced mechanical system, allowing smooth movement and stable positioning.
Once unlocked, the arm can be held securely at any angle or position, ensuring flexible operation in complex clinical environments.

Imaging Display System

Ultrawide HD LCD Monitor

The system features a 34-inch ultrawide HD LCD monitor with a dual-screen interface.
It delivers high-resolution imaging with clear and detailed visualization, enabling clinicians to observe fine anatomical structures with improved accuracy.

System Advantages for Clinical Use

• High-definition real-time imaging with enhanced clarity

• Stable mechanical positioning for precise procedural control

• Fast laser-guided alignment for improved workflow efficiency

• High-power generator support for consistent imaging output

• Ergonomic interface designed for clinical usability

Application Scope

This C-arm imaging system is suitable for a wide range of medical environments, including:

• Orthopedic surgery

• Trauma and emergency diagnosis

• Pain management procedures

• Interventional radiology

• General surgical imaging support

Dynamic FPD Technology Brilliant image quality

Clinical image

This C-arm imaging system is engineered for multi-application surgical environments, delivering stable imaging performance, optimized radiation control, and enhanced operational flexibility. It is designed to support a wide range of diagnostic and interventional procedures with improved safety and image clarity.

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Clinical Application Scenarios

Trauma Surgery Support

Flexible mechanical movement enables smooth and precise positioning during trauma surgery procedures.
The system provides high adaptability for different anatomical conditions, improving operational efficiency and handling comfort in emergency and orthopedic environments.

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Spine Surgery Imaging

Upgraded flat panel detector (FPD) technology delivers enhanced visualization of vertebral structures.
This allows surgeons to obtain more detailed anatomical information, supporting accurate surgical planning and intraoperative decision-making.

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Pain Management & Minimally Invasive Procedures

Designed for interventional pain management procedures, the system incorporates multiple radiation protection strategies to reduce overall exposure during minimally invasive operations.

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Radiation Dose Control & Safety Systems

Dose Area Product (DAP) Monitoring

Real-time DAP measurement is displayed directly on the imaging interface.
This enables continuous monitoring of radiation exposure levels, improving procedural safety management and compliance tracking.

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Intelligent Exposure Parameter Control

The system integrates intelligent hardware and algorithm-based exposure optimization.
Exposure parameters are automatically adjusted to create a more stable and operator-friendly imaging environment while maintaining diagnostic image quality.

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Aluminum Beam Filtration Technology

Aluminum beam filtration is applied to reduce low-energy (soft) X-ray radiation.
This helps lower patient dose while maintaining high-quality diagnostic imaging performance.

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Low Dose Radiation Management System

Multiple-layer radiation protection design significantly reduces leakage radiation during operation.
In loading conditions, leakage radiation from the X-ray tube is kept at a lower level to improve overall system safety.

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High-Frequency Pulsed Fluoroscopy Technology

The system uses high-frequency pulsed fluoroscopy instead of continuous fluoroscopy.
This technology can reduce radiation dose by up to 50% compared to traditional continuous imaging methods.
It also helps minimize motion artifacts, improving image stability during dynamic procedures.

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System Value for Clinical Use

• Enhanced imaging clarity for complex surgical procedures

• Reduced radiation exposure through multi-layer protection design

• Intelligent exposure control for consistent imaging quality

• Improved procedural accuracy in spine, trauma, and pain management applications

• Stable fluoroscopy performance with reduced motion artifacts

This compact C-arm imaging system is designed to improve operating room efficiency through a streamlined structure, fast imaging capability, and flexible inter-room mobility. It supports seamless surgical workflow integration, enabling faster decision-making and improved utilization of operating space.

Compact Integrated Design for Space Efficiency

The system adopts an all-in-one compact design that eliminates the need for external monitor carts and excessive wiring connections.

Key advantages include:

• Integrated structure reduces overall system footprint

• Enhanced mobility for flexible positioning within the operating room

• Simplified cable management for improved workflow cleanliness and safety

• Approximately 1m² footprint, making it suitable for compact operating rooms

This design enables efficient deployment in multi-OR hospital environments where space optimization is critical.

Fast Imaging Response for Surgical Efficiency

The system is capable of delivering imaging output in less than 1 second, significantly reducing waiting time during surgical procedures.

This fast response capability helps:

• Improve intraoperative workflow efficiency

• Reduce procedural delays

• Support time-sensitive surgical decision-making

• Enhance overall operating room throughput

Flexible Workflow & Instant Surgical Image Sharing

Designed for modern surgical environments, the system supports efficient intra-hospital workflow coordination.

The compact structure combined with standby-ready power management enables fast switching between operating rooms, supporting continuous surgical operations without unnecessary downtime.

System Value in Clinical Environment

• Compact integration for space-limited operating rooms

• Fast imaging response for improved surgical efficiency

• Flexible mobility for multi-room usage scenarios

• Simplified system structure for easier workflow management

• Designed for high-frequency surgical environments