| You can create a universal infrared remote receiver that can control devices with simple on/off or pulse outputs, utilizing any infrared rem...
| You can create a universal infrared remote receiver that can control devices with simple on/off or pulse outputs, utilizing any infrared rem...
| Moo boxes have stood the test of time. Let’s make one! This article details a DIY project using an ATtiny85 microcontroller and minimal hard...
| This microcontroller-based relay circuit is capable of activating devices remotely after a delay up to 255 years. The solution is ideal for...
| In the previous project update, you learned about enhancements to the ESP32 Energy Meter’s schematic design and PCB. This article focuses on...
| In the previous installment of this series, we discussed the schematics, and circuit isolation strategies of the ESP32 Energy Meter. Now let...
| You can create your own digital stereo FM transmitter with a Raspberry Pi Pico and KT0803L module. Learn how to configure and broadcast FM s...
| With inexpensive ultrasonic sensors, you can design both basic and sophisticated measuring devices for various ranging applications. By comb...
| An ESP32-Pico-Kit with ADAU1701 as high-quality I²S audio codec with built-in audio DSP core.
| In the first installment of this series, we explored the foundational design of the Elektor Energy Meter. In this installment, we’ll look at...
| Raspberry Pi Pico & KT0803L Digital Stereo FM Transmitter