Multi-MCU Comprehensive Development Platform – DY-MSP43x-Kit
The latest IoT embedded teaching tool, featuring the low-power processor MSP430F6638 from Texas Instruments as the core control board, and […]
The latest IoT embedded teaching tool, featuring the low-power processor MSP430F6638 from Texas Instruments as the core control board, and […]
This platform is designed to meet the teaching and research needs of universities and research institutions in the field of
This platform utilizes Intel processors with excellent software ecosystem support and rich peripheral interface extensions. It incorporates Intel Neural Compute
The DSP-C6655 technology teaching platform is an experimental box for DSP technology teaching evaluation based on the TI KeyStone series
The DY-AI-Hi3559A platform is an AI teaching board developed based on Huawei Hisilicon Hi3559A, featuring powerful processor resources and hardware
WSN & IoT & IoT-MSP432 & IoT-CASE, suitable for the National College Student IoT Design Competition, suitable for the National
TIVA Pocket Lab Platform MSP430 Microcontroller Training Platform MSP430 & MSP432 Teaching and Development Platform
Suitable for: Shared lithium-ion electric scooters, shared lithium-ion batteries; Industrial 48V lithium-ion batteries: AGV batteries, robot batteries; Lithium-ion battery PACK
MSP-LAB utilizes TI’s MSP430 microcontroller, featuring various commonly used peripherals onboard. It supports microcontroller education, practical training, as well as
Robot Simulation Teaching System
Unmanned boat water quality detection system, using differential DGPS/BeiDou system positioning, LoRa local communication network.
Supports high-density AGV applications such as e-commerce logistics and warehousing, adopts WI-FI access, global path dynamic planning, maximum lifting capacity
This platform adopts the industry’s leading MCU with built-in wireless WiFi processing as the main controller. It incorporates various sensors
The wearable device design prototype utilizes a high-performance microcontroller as its core unit. Through meticulous layout, the elements used for
Based on TI’s Cortex-A8 as the core processor, the board adopts industrial design and has strong processing capabilities. It is
The DY-FFTB6638 experimental board is customized by the TI University Program Department for teaching and research purposes of MSP430. It
The DY-FFTB6638 experimental board is customized by the TI University Program Department for teaching and research purposes of MSP430. It
The multidisciplinary robot control practice platform serves as a comprehensive teaching solution at the system level, aiming to provide teachers
The core board is the minimum system of MSPM0L1306, which is the L series with the maximum resources of TI