High-performance RF transceiver expansion board for STM32 Nucleo-64 with FSK, OOK and LoRa long-range modems
The MPC8349E-mITXE reference platform demonstrates the capabilities of the NXP Power Architecture MPC8349E processor.
Discovery Kit with STM32G031J6 MCU - USB Type-C and Power delivery analyzer using UCPD interface
STM32 Nucleo-64 development board using STM32F030R8 MCU, supporting Arduino and ST morpho connections
Realized functions: Use the mobile phone APP to adjust the light intensity according to the amount of people walking around and remotely control the lights.
Sub-1 GHz RF expansion board for STM32 Nucleo, based on SPSGRF-868 module
This article develops and implements a WiFi module based on STM32 on an embedded development platform. Combined with the above new concepts of the Internet of Things, it enables users to monitor the environment in real time through the network. This system enables users to grasp and control the situation they want to know in real time. Home information (temperature and humidity information, light information, PM2.5) is obtained through various sensors, and users can control this information on the Android interface.
SYZYGY is an FPGA extension standard for medium to high speed interfaces. This design splits the video output to a regular digital display and also supports input from the digital display. It connects to the SERDES via a SYZYGY-TXR connector. Would love to be able to test the 5Gbps output of high resolution GPDI.
STM32 Nucleo-64 development board using STM32L433RC MCU and SMPS, supporting Arduino, ST Zio and morpho connections
The M54455EVB platform provides an evaluation system for the NXP MCF5445x ColdFire V4 embedded microprocessor family.
In traffic accidents, rear-end collisions occur frequently due to sudden braking of the vehicle in front. Rear-end collisions are usually caused by failure to maintain a sufficient safe distance and the brakes cannot stop the vehicle. The time from when you discover an emergency ahead to when you apply the brakes is called reaction time. The length of reaction time directly affects the length of the braking distance. Especially when driving at high speed, a serious traffic accident will occur within one second. The long reaction time does not mean that the driver is slow to react, but that he does not know whether the car in front is applying the brake lightly or hard. When he finds out, two seconds have passed, and it is very likely that he will not be able to brake. If the vehicle in front The brake lights with flashing function are different. When you see the brake lights flashing, you must be stepping on the brakes harder. At this time, you should also step on the brakes harder, and the reaction time will be shortened. Therefore, in addition to letting the car behind you know whether to apply the brake lightly or hard, the flashing brake light is also particularly eye-catching and can remind the car behind you in time.
STM32 Nucleo-32 development board using STM32G431KB MCU, supporting Arduino connection
The gateway reference design, based on dual Arm Cortex A7 cores, establishes a common open framework for secure delivery of IoT services.
32-bit Arm® Cortex®-M4F S32K144 motor control development kit for sensorless Brushless Direct Current (BLDC)
Simple branching of HDMI cable signals for analysis/verification of signal level and phase.
EEWorld
subscription
account
EEWorld
service
account
Automotive
development
community
Robot
development
community
About Us Customer Service Contact Information Datasheet Sitemap LatestNews
Room 1530, 15th Floor, Building B,
No.18 Zhongguancun Street,
Haidian District,
Beijing, Postal Code: 100190
China
Telephone: 008610 8235 0740
京公网安备 11010802033920号
