
JWIPC’s robotic controller offer comprehensive technical support for the robotics industry, enabling efficient, safe, intelligent, and flexible applications across diverse sectors, driving the industry's continued growth and development.
JWIPC offers tailored solutions covering everything from product definition to software and hardware development, supported by our experienced senior product engineers.
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JWIPC’s robotic controller offer comprehensive technical support for the robotics industry, enabling efficient, safe, intelligent, and flexible applications across diverse sectors, driving the industry's continued growth and development.
Featuring high performance, reliability, and stability, it supports multitasking, high-speed computation, and data acquisition, meeting the demands for control, motion, perception, and decision-making.
With a wide range of I/O interfaces, it easily integrates with various sensors, actuators, and peripheral devices. Its exceptional system expandability and adaptability cater to diverse application needs across different scenarios.
The modular design offers highly flexible configurations, allowing for customization and expansion based on specific application requirements. This reduces development time and costs, enhancing product competitiveness in the market.
Equipped with various software, it enables autonomous inspection, target recognition, and remote control for robots, suitable for a wide range of applications such as industrial manufacturing, services, and logistics.
Versatile Autonomy Required: Solutions must enable autonomous navigation and task execution across diverse scenarios including material handling, logistics, inspection, and forklift operations.
Robust Performance Demands: Requires independent environmental mobility with reliable computational power for stable operation.
Endurance for Continuous Work: Must sustain high-intensity operations while maintaining efficiency and stability.
Multi-Scenario Ready: Specifically designed to meet the complex demands of mobile robots in various applications.
Autonomous Operation Support: Delivers foundational performance for obstacle avoidance and stable functionality across different environments.
Precision & Real-Time Control: Built on an open Linux OS + RT-Linux platform to provide essential underlying technical support with real-time precision.
Powerful Processing: Rockchip RK3588 CPU (quad-core A76 + quad-core A55) ensures high-performance autonomous obstacle avoidance.
Flexible Connectivity: Rich I/O interfaces allow for adaptable configuration to suit multi-scenario deployments.
Compact & Resilient Design: Fanless and EMI-resistant construction ideal for space-constrained mobile robots.
RK3588 ARM® Octa-core 64-bit processor with 2.6GHz clock speed
4 x Cortex-A76 + 4 x Cortex-A55
ARM® Mali-T610 MP4 GPU
Onboard 8GB LPDDR4X, 128G eMMC5.1
5 x RJ45 100/1000Mbps Ethernet
Supports WIFI, BT, 4G, 5G wireless communication expansion capabilities
SoC with 6Tops AI computing power, expandable AI acceleration card
Displays: 1 x HDMI, 1 x DP, 1 x LVDS/eDP
12-36V wide voltage input
Demand for Reliable Hardware: Customers require stable, high-performance hardware to support intelligent automated production.
Precision Requirements: Robotic arms need precise positioning and high-accuracy operation to minimize errors and ensure consistent production quality.
Versatile Hardware Options: Multiple platforms and form factors tailored to diverse application scenarios.
Optimized Performance: Ultra-low power consumption, rapid response times, and high-performance computing capabilities.
Smart Software Integration: Enhanced remote operation, maintenance management, and robust data protection.
Machine Vision Capabilities: Advanced recognition, analysis, and distribution processing for seamless automation.
Efficiency Gains: Reduces production errors and costs while significantly improving efficiency.
High-Speed Connectivity: High transmission speeds and bandwidth meet the demands of high-precision, high-efficiency workflows.
Intel® Elkhart Lake or Tiger Lake-U Processor for high-performance computing.
1x DDR4 SO-DIMM slot, supporting up to 32GB RAM.
M.2 2280 Key-M slot (supports SATA 3.0).
M.2 3042/3052 Key-B supports 4G/5G wireless connectivity
M.2 2230 Key-E (WiFi 6 & Bluetooth).
4x Intel® Gigabit RJ45 ports with 4kV surge protection.
4x USB 3.2 Gen2 ports for high-speed peripherals.
Triple display via HDMI, DisplayPort, and LVDS interfaces.
High-Performance Stability: Requires exceptional processing power to maintain uninterrupted operation in demanding industrial environments.
Intelligent Responsiveness: Must rapidly analyze complex environments, make precise decisions, and execute tasks efficiently for optimal industrial performance.
Advanced Visualization: Demands superior graphics processing and versatile display interfaces for seamless UI interaction.
Multi-OS Compatibility: Supports various operating systems to meet diverse industry requirements.
Extended Product Lifecycle: Offers long-term software maintenance and hardware supply continuity.
Robust Performance: Combines processing power with reliability for consistent industrial operation.
JWIPC JES Series Embedded Single Board delivers advanced robot control capabilities, enabling service robots to rapidly perceive complex environments, perform real-time analysis and decision-making, and efficiently execute tasks with exceptional performance and reliability. This embedded solution provides the perfect combination of responsive UI interaction and robust upper brain control for demanding service robot applications.
The JWIPC JES Series delivers powerful robotic solutions for chassis control and SLAM (Simultaneous Localization and Mapping) applications, combining exceptional computational performance with industrial-grade stability. This enables precise multi-sensor data fusion, real-time environment mapping, accurate self-localization, and dynamic path planning - supporting the most demanding autonomous navigation requirements.
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