RCB600 is equipped with Tiger Lake-UP3 11th generation Intel^® Core I processor, with high-performance AI computing capabilities, high-performance architecture x86-64 for ROS development and visual recognition applications.

Various I/O ports can be connected to various devices. Supports real-time I/O for environmental sensors (CAN, GPIO, COM).

Instant messaging software communicates between software components and devices. RCB600 has rich IO interfaces, which can easily meet the diversified needs of robots, instead of being limited to simple handling robots. AMR is suitable for application services in different fields of various industrial enterprises, various manufacturing industries, building parks, medical institutions, e-commerce logistics related industrial services.

The introduction of AMR can not only greatly improve work efficiency and reduce the fixed cost of operating personnel!

It also conforms to current affairs applications such as "assisted labor-saving handling", "human-machine collaborative operation", "AMR/AGV", "IoT Internet of Things concept" and "epidemic.

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AMR-Dedicated

The RCB 600 industrial motherboard features the 11th Generation Intel® Core™ processor, offering high-performance recognition and AI computing capabilities via its strong integrated graphics. This makes it perfect for machine vision applications, saving costs for users. With the use of Intel® OpenVINO and Intel® DL Boost, it can further accelerate inference speed of visual recognition and path navigation applications.

OS Efficiency

NexCOBOT has developed a Linux-based real-time operating system called NexRTOS for a real-time robotic controller. This system is an economically viable solution for logistics robot automation, facilitating real-time communication between software and devices, including collaborative AMRs. With built-in Intel® TCC, NexRTOS enhances performance, enabling stable fast cycle time response with low latency of 1 millisecond and less than 30 microseconds respectively. Furthermore, NexCOBOT provides a tool to easily tune collaborative mechanical arms via Ethernet communication, which streamlines implementation without disrupting factory layout. This leads to improved productivity, efficiency, and safety while minimizing labor costs.

Clever and Dynamic

The rich and practical I/O interfaces of the RCB 600 ensure the compatibility between practical hardware and the AMR such as mechanical arms, cameras, or sensors. Through software customization services, customers can develop recognition, equipment, and system connection applications on the Windows platform, or use ROS, motor motion control system, and its SLAM kit to develop path planning and robot control applications on Linux. All industrial control components are integrated via 24V DI/O. When combining this machine vision technology with its platform or electric lifter, this industrial motherboard supports robot automation, reducing logistic delays and workplace injuries, while simultaneously collecting all the information of the environment.

Boundless Capabilities

The RCB 600 offers numerous ideal protocols such as CAN Bus, an efficient protocol used to minimize heavy wiring, cost, and weight yet excellent in error detection. Additionally, it is robust towards electrical disturbances and interference. The EtherCAT protocol also assists in real-time applications by eliminating data collisions in the factory.

 

The RCB 600 is an industrial motherboard designed specifically for the AMR applications. It comes equipped with a wide range of I/Os, essential protocols, high-performance AI computing capabilities, and a robust architecture. Moreover, it is fully compatible with NexRTOS, a practical operating system that can help you build a smart factory with ease. Overall, it is an excellent choice for anyone looking to optimize their AMR systems and streamline their manufacturing operations.

RCB600 is equipped with Tiger Lake-UP3 11th generation Intel® Core™ I processor, with high-performance AI computing capabilities, high-performance architecture x86-64 for ROS development and visual recognition applications.

Various I/O ports can be connected to various devices. Supports real-time I/O for environmental sensors (CAN, GPIO, COM).

Instant messaging software communicates between software components and devices. RCB600 has rich IO interfaces, which can easily meet the diversified needs of robots, instead of being limited to simple handling robots. AMR is suitable for application services in different fields of various industrial enterprises, various manufacturing industries, building parks, medical institutions, e-commerce logistics related industrial services.

The introduction of AMR can not only greatly improve work efficiency and reduce the fixed cost of operating personnel!

It also conforms to current affairs applications such as "assisted labor-saving handling", "human-machine collaborative operation", "AMR/AGV", "IoT Internet of Things concept" and "epidemic”.



Specifications

CPU Support

• Intel® Tiger Lake-UP3 11th Core™ i5 Processors

Main Memory

• DDR4-3200 SO-DIMM sockets supported Dual Channel, Max. 64GB

Display Option

• 1 x VGA (resolution up to 1920x1080@60Hz)


• 1 x HDMI 1.4b (resolution up to 4096x2304@60Hz)

System

• 7 x USB3.2 (Gen1), 4 x USB2.0


• 2 x RS232, 2 x RS232/485/422, 1 x CAN bus


• Realtek HDA Codec


• 1 x Front panel header, 16 bit digital I/O(8In/8Out), 2 x DI/DO


• WDT, SMBus, Onboard TPM


• 1 x Fan connector

Storage

• 1 x SATA 3.0, 1 x SATA power connector (+5V)


• 1 x M.2 2242/2280 B-key (support SATA/PCIe)

Rear I/O Interface

• 6 X USB3.2 Gen1 , 1 x VGA , 1 x HDMI , 3 X LAN, 1 x 2 ports HD Audio Jack (Mic-in, Line-out

Expansion Slot

• 1 x Full size mPCIe x 1 with Nano-SIM (support PCIe/USB2.0 Interface)


• 1 x M.2 3052/3042 key B(for LTE 5G),(USB3.2 (Gen1)/PCIe) with Nano-SIM

Dimensions

• 125mm x 95mm

Environment

• Board level operation temperature : 0°C to 60°C


• Storage temperature : -40C to 85C


• Relative humidty:
  
  0% to 90% (operating, non-condensing)
  
  0% to 90% (non-operating, non-condensing)

Power Requirement

• 1+24V DC

Dimensions

• 170mm x 170 mm

Environment

• Board level operation temperature: 0°C to 60°C


• Storage temperature: -40C to 85C


• Relative humidity:
  
  - 10% to 95% (operating, non-condensing)
  
  - 5% to 95% (non-operating, non-condensing)

Certifications

• CE/FCC

Support OS

• Windows 10 (64bit)


• Ubuntu 18.04.05/Kernel 5.4

Warranty

• 2 year global warranty