Developed jointly by NXP and Embedded Artists, LPC-Link 2 is a scalable, stand-alone hardware debugger that supports a variety of development tools and IDEs using a variety of downloadable firmware images. In addition, it itself can be used as an evaluation board for evaluating the NXP LPC4370 triple-core MCU.
The LPCXpresso board is assembled with the LPC1115 and is used to demonstrate and support the functionality of the LPC1100 product family. LPCXpresso LPC1115 not only has the industry's lowest 32-bit dynamic power consumption of LPC1115, but also has the low-cost advantage of LPCXpresso boards.
NXP's automotive-grade NCx3340 NFC controller features an NCI interface and comes with embedded firmware. This compact NCx3340 controller, fully compliant with the NFC Forum, enables easy integration of NFC functionality into automotive embedded systems via the NCI interface.
The mini IoT baseboard was designed by Embedded Artists in collaboration with NXP to complement NXP's MCU IoT modules such as the LPC54018 IoT module OM40007, enabling easy-to-use, low-cost IoT application development. This baseboard offers onboard accelerators, buttons, LEDs, sites for the popular Arduino® UNO and Mikroe Click add-on boards, and connections for the Pervasive Displays ePaper display (available separately). The board supports rechargeable lithium batteries, allowing users to conduct complete one-stop IoT system prototyping with a small-format development kit.
i.MX RT1060 EVK is a 4-layer through-hole USB powered PCB. At its core is the i.MX RT1060 crossover MCU, implemented using NXP's advanced Arm® Cortex®-M7 core. This core runs at speeds up to 600 MHz to provide high CPU performance and excellent real-time response. Support for FreeRTOS™ is provided in the MCUXpresso SDK. Zephyr™ OS supports the i.MX RT1060 evaluation kit for developing IoT with a free, open source embedded operating system.
i.MX RT1064 EVK is a 4-layer through-hole USB powered PCB. The core of the board is the i.MX RT1064 crossover MCU, which uses NXP’s advanced Arm® Cortex®-M7 core implementation. The core runs at speeds up to 600 MHz, providing high CPU performance and excellent real-time response.
Quickly establish secure connections between simulated electric vehicle power equipment (EVSE) and Microsoft Azure IoT Central applications using the cloud-connected EasyEVSE electric vehicle charging station development platform. The platform demonstrates how telemetry data can be exchanged to manage simulated EVSEs, as well as how the EV status and low-level signals can be managed.
The portable soldering iron launched by PINE64 in the early days was based on the GD32 design. This time it was upgraded to the second generation product, which was changed to the domestically produced BL706. Its feature is that it supports low-power Bluetooth. The Bluetooth OTA upgrade function will be added to IronOS later. IronOS supports a variety of portable DC, QC, and PD powered soldering irons, and supports all standard functions of smart soldering irons.
The hardware design adopts upper and lower layer design. The upper layer is the control circuit and the lower layer is the dual receiving circuit. The interface design is based on LVGL.
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