To embed wireless connectivity for the IoT, designers need to understand how to evaluate the various interfaces to best meet their application requirements.
A hardware module and software package provide developers with a complete low-power solution to quickly implement Bluetooth mesh networking.
When adding sensors to automobiles, use the simple PSI5 bus for safe, reliable, low-cost, and secure sensor to ECU communications.
Here is a quick and inexpensive circuit that can be used to generate pseudo-random binary sequences and white noise.
Bluetooth mesh allows developers to build networked smart home applications based on Bluetooth low energy for the first time.
Field-oriented motor control and global navigation satellite systems sustain drone evolution.
Embedded developers can quickly connect their embedded systems securely to Amazon Web Services (AWS) using Amazon FreeRTOS.
Standardizing the charging interface for electric vehicles promotes safety and power grid management.
Proprietary RF and standard Bluetooth radios have their advantages, but a semi-custom solution can greatly lower cost, while allowing differentiation.
Reliable and accurate presence sensing can be done efficiently using optical, ultrasonic, or magnetic sensor technologies, depending on the application.
For higher navigational and motion accuracy, use a Kalman filter to combine the best attributes of 3D accelerometer and 3D gyroscope sensors.
Energy harvesting PMICs allow remote wireless sensor node implementation.
Heat shrink tubing is a specially designed casing that is widely used for the insulation and corrosion protection of various wiring harnesses, solder joints.
Wi-Fi’s high throughput makes it useful for IoT connectivity, but it is also complex, so developers are turning to modules to shorten their design cycle.
IoT developers can build in Bluetooth, Wi-Fi, LTE, LoRaWAN, and Sigfox wireless connectivity using a tiny board and a powerful programming approach.
A brief discussion of transistors ranging from their history, what they are, how they work, how to choose an appropriate one, and application examples.
Low power wireless technologies are adapting to the Internet of Things by including IP connectivity and mesh networking.
Utilizing digital controllers for lighting applications provides system flexibility.
CircuitPython dev boards offer a simpler approach for building embedded applications with sophisticated 32-bit MCUs.
A pair of IO-Link transceivers meets emerging needs for industrial I/O with features optimized for both sides of an IO-Link connection.