The FM receiver module is based on the TEA5767 [1, 2] chip. It is a well-known module that could be controlled via the I2C bus. It covers the FM frequency range from 76MHz to 108MHz. At the output, it ...

This project implements an NRF24L01 iBUS Receiver using an Arduino. It receives signals from a transmitter, processes them, and converts them into the iBUS protocol for communication with flight ...

Old infrared remote controls can be a great way to interface with your projects. One of [AnalysIR’s] latest blog posts goes over the simplest way to create an Arduino based IR receiver, making it ...

To build an FM receiver, developers can use highly integrated chips, such as the TEA5767 from NXP. Here we describe an FM receiver with a frequency range of 76 to 108 MHz and 2 x 3 W stereo sound ...

FM transmitters/receivers are among the top favorite circuits of any electronic enthusiast. In this article/video, I have introduced a complete digital FM receiver design that has equipped with an LCD ...

This project simulates a Synchro Transmitter and Receiver system using Arduino in TinkerCAD. It mimics how the angular position from a transmitter can control a receiver — like in aircraft instruments ...

3D print and build an Arduino Pistol-grip Transmitter for controlling Remote Control cars. Today, we’re assembling and wiring a 3D printed Arduino-based pistol-grip radio transmitter that operates ...

A new development board aims to bring the latest satellite navigation technology into the hands of makers. NavSpark combines a 100-MHz, 32-bit microcontroller (MCU) board with a small global ...