JHCTECH BRAV-7722 Empowering Surgical Robots: A High-Performance Control Solution Safeguarding Every Moment of Precision Surgery
With rapid economic development, an increasing number of intelligent and technologically advanced products have emerged, among which surgical robots stand out as a key innovation. From a clinical application perspective, surgical robots can generally be classified into laparoscopic surgical robots, orthopedic surgical robots, vascular surgical robots, natural orifice surgical robots, and percutaneous surgical robots. The rise of new paradigms such as smart healthcare, precision medicine, and telemedicine has provided strong momentum for the continued advancement of surgical robotics.
Key Requirements for Surgical Robot Controllers
Surgical robots typically consist of a surgeon console, a patient-side cart equipped with robotic arms, and an imaging system. The stringent technical demands for precision control, stable operation, and real-time responsiveness place exceptionally high requirements on the core computing hardware responsible for system control. Against this backdrop, embedded computing systems with superior performance, scalability, and durability have become the ideal choice for surgical robot control platforms.
⭐ High Precision & Stability: Surgical procedures involve highly delicate operations and precise positioning of affected areas. To ensure absolute accuracy, the controller must deliver exceptional precision and long-term operational stability.
⭐ Real-Time Data Processing: Surgical robots must process large volumes of real-time data, including image analysis and patient anatomical information, to support clinical decision-making and surgical execution. This requires strong capabilities in data acquisition and high-performance image processing.
⭐ Safety & Compliance: Controllers must meet rigorous certification standards and support long product lifecycles
JHCTECH Solutions
The control system is the core of any surgical robot. JHCTECH empowers surgical robotic systems with the BRAV-7722, delivering a high-performance computing foundation.
Powered by 12th, 13th, and 14th Gen Intel® high-performance processor and supporting high-speed DDR5 memory, the BRAV-7722 delivers exceptional computing power for efficient data processing and real-time responsiveness. Its outstanding multimedia processing performance supports multi-screen 4K output via four independent display interfaces, and it features MXM 3.1 and M.2 PCIe x4 expansion slots, compatible with MXM GPU AI accelerator cards and 10Gbps image acquisition cards, providing robust hardware support for 3D vision navigation and image processing.
Simultaneously, the BRAV-7722 is equipped with multiple Gigabit Ethernet ports, abundant USB and serial interfaces, ensuring stable interconnection and high-speed data exchange for various imaging devices, sensors, and robotic arms within the operating room. Its robust industrial design resists vibration, shock, and electromagnetic interference, fully meeting the requirements of the operating room environment.
As part of the complete solution, it is recommended to pair it with JHCTECH's ALAD series industrial-grade touch display. The display features high resolution, wide operating temperature range, and IP65 front panel protection. Its flat design facilitates disinfection and cleaning. It seamlessly integrates with the BRAV-7722 control system to form a high-performance, highly reliable, and human-machine interface-friendly core control platform for the surgical robot, ensuring precise and safe surgical operations.
Key Advantages of the Solution
✔ Open System: Powered by Intel 12th/13th/14th Gen Intel® processors, the system supports the latest Windows 11 operating system, offering excellent software compatibility and high operational efficiency.
✔ High Compatibility and Scalability: The system complies with the DICOM 3.0 standard for data structure and communication protocols, ensuring high compatibility and strong scalability.
✔ High Graphics Memory Capacity: The MXM3.1 GPU features onboard 17.5Gbps, 560GB/s bandwidth, and 16GB GDDR6, guaranteeing high-efficiency video streaming and smooth 3D image reconstruction;
✔ Superior Display Capability: Four independent 4K display outputs—three HDMI 2.1 (4096 x 2160 @ 60Hz) and one DP 2.0 (7680 x 4320 @ 60Hz)—allowing for connection to four 4K monitors to display different images. It can also output 16-bit grayscale images, richer than traditional formats (such as JPEG's 8-bit), facilitating accurate diagnostics.
Learn more about BRAV-7722 series