Year: 2021
![Valar Systems’ WiFi Stepper Motor Board with StallGuard Technology Valar Systems’ WiFi Stepper Motor Board with StallGuard Technology](https://www.electronics-lab.com/wp-content/uploads/2021/05/Valar-Systems-WiFi-Stepper-Motor-Board-e1622365520143-1024x568.jpg)
Valar Systems’ WiFi Stepper Motor Board with StallGuard Technology
Controlling stepper motors over a WiFI network opens up the possibilities for the integration of wireless and automation functions to your motor applications. We saw a WiFi Stepper board by Good Robotics in January 2019, it featured control over Wifi and enabled an IoT interface for any...
Continue Reading![Inkplate 6PLUS: Verstaile, easy-to-use and energy-efficient Wi-Fi enabled 6-inch e-paper display Inkplate 6PLUS: Verstaile, easy-to-use and energy-efficient Wi-Fi enabled 6-inch e-paper display](https://www.electronics-lab.com/wp-content/uploads/2021/05/6plus-front-enclosure_jpg_content-body-gallery.jpg)
Inkplate 6PLUS: Verstaile, easy-to-use and energy-efficient Wi-Fi enabled 6-inch e-paper display
E-paper displays are fascinating. They mimic the appearance of ordinary ink on paper, and they look brilliant! E-Paper displays make reading comfortable and provide a wider viewing angle than most light-emitting displays. An idle E-Paper display can be easily viewed in direct sunlight...
Continue Reading![DNA Transilluminator with Arduino Nano DNA Transilluminator with Arduino Nano](https://www.electronics-lab.com/wp-content/uploads/2021/05/FG53TKQKOD7QRO6.jpg)
DNA Transilluminator with Arduino Nano
Gel Electrophoresis is a laboratory method used to separate macromolecules like DNA, RNA, or protein according to their molecule size. The molecules to be separated are pushed by an electric field through a gel that consists of pores. First of all, the macromolecules are loaded into...
Continue Reading![How to Build a TinyML Smart Weather Station using Wio Terminal How to Build a TinyML Smart Weather Station using Wio Terminal](https://www.electronics-lab.com/wp-content/uploads/2021/05/Feature-Image-TinyML-Smart-Weather-Station-Using-Wio-Terminal-1-1024x512.jpg)
How to Build a TinyML Smart Weather Station using Wio Terminal
You might have seen many ML-based projects for weather predictions. Where training of an ML model is followed by testing of the model for good accuracies. This tutorial will learn to deploy a similar type of ML model using an on-board TensorFlow Lite on the Wio Terminal. You will see...
Continue Reading![EV26Q64A PIC18F16Q41 Curiosity Nano Evaluation Kit EV26Q64A PIC18F16Q41 Curiosity Nano Evaluation Kit](https://www.electronics-lab.com/wp-content/uploads/2021/05/Angle_Transparent.png)
EV26Q64A PIC18F16Q41 Curiosity Nano Evaluation Kit
Microchip’s low-cost evaluation kit for the PIC18F16Q41 8-bit microcontroller (MCU) The PIC18F16Q41 Curiosity Nano evaluation kit from Microchip Technology is a hardware platform to evaluate MCUs in the PIC18FQ41 family. This board has the PIC18F16Q41 MCU mounted. Supported by...
Continue Reading![BD9G500EFJ-LA Single Buck DC/DC Converter BD9G500EFJ-LA Single Buck DC/DC Converter](https://www.electronics-lab.com/wp-content/uploads/2021/05/HTSOP-J8.jpg)
BD9G500EFJ-LA Single Buck DC/DC Converter
ROHM's BD9G500EFJ-LA is a 7 V to 76 V input, 5 A integrated high-side MOSFET, single buck DC/DC converter ROHM's BD9G500EFJ-LA is a buck DC/DC converter with built-in low on-resistance high-side power MOSFET. It is capable of providing a current of up to 5 A. Current mode architecture...
Continue Reading![The new Panasonic Industry PAN1781 Bluetooth 5 Low Energy module The new Panasonic Industry PAN1781 Bluetooth 5 Low Energy module](https://www.electronics-lab.com/wp-content/uploads/2021/05/PR-Wireless-Connectivity-PAN1781_0-e1622038205190.jpg)
The new Panasonic Industry PAN1781 Bluetooth 5 Low Energy module
Lightweight evolution – and a new member for the Nordic Semiconductor-based Bluetooth Module family: The new PAN1781 from Panasonic Industry suits a wide range of mid and high-volume application designs. “With the PAN1781 being the little brother of our undoubtedly successful...
Continue Reading![LiFePO4 Charger Board based on CN3058E LiFePO4 Charger Board based on CN3058E](https://www.electronics-lab.com/wp-content/uploads/2021/05/68747470733a2f2f696d6167652e656173796564612e636f6d2f70756c6c696d6167652f785a656e526248764d4c43646d65704271344177577531393136536759376a6a7a425470353479462e6a706567-1024x515.jpg)
LiFePO4 Charger Board based on CN3058E
LiFePO4 Batteries: An Overview Compact electronic devices rely on concise li-ion battery packs. Lithium iron phosphate battery (LiFEPO4) or LFP battery is a type of lithium-ion battery that uses lithium iron phosphate as a cathode and a graphitic carbon electrode as the anode. LFP...
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