SRC series core controller, a universal controller designed for mobile robots (AGV, AMR, etc.) in industrial fields, provides some major features such as map editing, localization navigation and model editing. It adapts to the various popular lidars and provides abundant interfaces such as I/O, CAN, RS485 to access to various sensors and driving devices. The controller integrates the key components together with powerful client software to help users quickly complete manufacture and deployment of mobile robots.
Various Features
Comprehensive and excellent basic features enable easy building of mobile robots. Rich and practical optional features provide clients with a one-stop solution to all kind of application problems facing robots.
Flexible Applications
The solution is available to meet the different application requirements and adapt to the various motion models. It adapts to a variety of models. The standard SRC series core controller can adapt to the two-wheel differential motion model. Clients can also choose motion models such as single-steering wheel, four-wheel drive Mecanum wheel and double-steering wheel.
Rich Interfaces
It provides a wealth of external interfaces and communication buses including RS232, RS485, CAN, Gigabit Ethernet, USB, DI/Power DO, adaptable to various non-standard requirements, and provides clear channels for user convenience. It supports multi-sensor security protection including but not limited to laser, collision strip, I/O type ultrasound, photo-electric and other soft extensions. It meets a variety of communication protocols, and supports ModBus and TCP/IP protocols for external calls.
Precise localization and Identification
QR code precise localization When a mobile robot needs to be accurately located at a point, the location can be precisely adjusted by adding a QR code at the point. Shelf identification In some scenarios (such as latent jacking and latent traction), the shelf identification feature allows the mobile robot to identify the exact position of the shelf, thereby ensuring that the mobile robot is directly below the shelf after entering it. Pallet identification A vision sensor is added to identify the exact position of a pallet so that the automatic forklift can accurately fork the pallet. Cage identification A vision sensor is added to identify the exact position of a cage so that the automatic forklift can accurately fork the cage.
Ultra-stable Navigation
Network stability When there are multiple APs at the user site, the mobile robot can perform fast and stable roaming switching among multiple APs with optional industrial-grade Wifi client module that supports roaming to ensure the stability of the scheduling system connection. Navigation stability Multiple navigation approaches ensure stable operation of the mobile robot. 3D obstacle avoidance A 3D vision sensor is added to identify and detect some three-dimensional obstacles and choose to stop or bypass according to the configuration.