Embedded Systems

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News, articles, guides, analytics, projects and startups from the embedded industry. Topics of the channel: ◽️ machine learning ◽️ internet of things ◽️ embedded software ◽️ advanced electronics ◽️ new engineering ideas ⤵️ Share and subscribe!

Países Bajos46 Tecnologías y Aplicaciones9 375...

📈 Análisis del canal de Telegram Embedded Systems

El canal Embedded Systems (@embedded_system) en el segmento lingüístico de Inglés es un actor destacado. Actualmente la comunidad reúne a 13 713 suscriptores, ocupando la posición 9 375 en la categoría Tecnologías y Aplicaciones y el puesto 46 en la región Países Bajos.

📊 Métricas de audiencia y dinámica

Desde su creación el невідомо, el proyecto ha mostrado un crecimiento acelerado, reuniendo a 13 713 suscriptores.

Según los últimos datos del 22 junio, 2026, el canal mantiene una actividad estable. En los últimos 30 días la variación de miembros fue de 98, y en las últimas 24 horas de -7, conservando un alto alcance.

Estado de verificación: No verificado
Tasa de interacción (ER): El promedio de interacción de la audiencia es 11.75%. Durante las primeras 24 horas tras publicar, el contenido suele obtener N/A% de reacciones respecto al total de suscriptores.
Alcance de las publicaciones: Cada publicación recibe en promedio 1 611 visualizaciones. En el primer día suele acumular 0 visualizaciones.
Reacciones e interacción: La audiencia responde de forma activa: el promedio de reacciones por publicación es 9.
Intereses temáticos: El contenido se centra en temas clave como programming, microcontroller, battery, pcb, pico.

📝 Descripción y política de contenido

El autor describe el recurso como un espacio para expresar opiniones subjetivas:
“News, articles, guides, analytics, projects and startups from the embedded industry. Topics of the channel: ◽️ machine learning ◽️ internet of things ◽️ embedded software ◽️ advanced electronics ◽️ new engineering ideas ⤵️ Share and subscribe!”

Gracias a la alta frecuencia de actualizaciones (últimos datos recibidos el 23 junio, 2026), el canal mantiene la vigencia y un amplio alcance. La analítica demuestra que la audiencia interactúa activamente con el contenido, lo que lo convierte en un punto de referencia dentro de la categoría Tecnologías y Aplicaciones.

13 713

Suscriptores

-724 horas

-157 días

+9830 días

1 611

Visitas de la publicación

Sin datos24 horas

Sin datos48 horas

11.75%

Tasa de compromiso

Sin datos

Mensajes por día

Ads index

beta

Archivo de publicaciones

13 713

🎚 CorgiDude RISC-V AI board MakerAsia has developed CorgiDude, a board based on the version of Sipeed M1 RISC-V AI module with built-in WiFi, and part as a kit with a camera and a display used to teach machine learning and artificial intelligence with MicroPython or C/C++ programming. Specifications: ◽️ AI Wireless Module – Sipeed M1W Module with: 🔘 Kendryte K210 dual-core 64-bit RISC-V RV64IMAFDC CPU @ 400Mhz 🔘 Espressif ESP8285 single-core 2.4 GHz ◽️ Wi-Fi 4 SoC ◽️ Storage – MicroSD card slot ◽️ Camera I/F for 2MP OV2640 sensor up to 1280 × 1024 (SXGA) ◽️ Display I/F for 1.3-inch RGB IPS display with 240×240 resolution ◽️ Power Supply – 5V via Micro USB port or 8-18V via DC jack ◽️ Dimensions – TBD More information... #boards #machine_learning #artificial_intelligence

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💻 Basics of the Python Programming Environment Python is one of the most popular languages for IoT, AI, and ML – and it pays well, too! So, you want to learn more about Python. That’s a good decision for several reasons. First, the latest TIOBE Programming Community Index for March 2021 lists Python among the top three most popular languages. While C and Java continue to battle it out for first and second place (see Apr 2020 ratings), Python remains solidly in the third position. Even better news comes from the annual RedMonk Ranking report in which Python outranks JAVA to become the second most popular programming language. Over the last 5 years, Python has experienced growth of around 18-19 %. The language ranks among the most popular in several other renowned platforms also such as Stack Overflow, Github, etc. More information... #articles #python #programming #software

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📟 Wireless Power Meter Using ESP8266 & INA226 Current Sensor Author used Home Assistant to run ESPHOME it's very easy to work with and gives wireless capabilities. Built-in Features: ▫️ 0.96" Oled ▫️ OTA Update ▫️ Temperature & Humidity Read ▫️ Wireless ▫️ Extra Ports for Future Expandability More information... #projects #IoT #wifi

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📟 Machine Learning current sensor snoops on MCUS Spying on Microcontrollers using Current Sensing and embedded TinyML models Anyone who’s ever tried their hand at reverse engineering a piece of hardware has wished there was some kind of magic wand you could tap on a PCB to understand what its doing and why. We imagine that’s what put security researcher [Mark C] on the path to developing CurrentSense-TinyML, a fascinating proof of concept that uses machine learning and sensitive current measurements to try and determine what a microcontroller is up to. More information: Project's review Project's page #projects #machine_learning #arduino

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📟 An Open Source 3D printed Smartwatch based on an ESP32 The goal of this project is to build an open source smartwatch, with step counting, GPS tracking and maps. The project includes: ▫️ ESP32 (Arduino programmable) ▫️ GPS ▫️ Time ▫️ Sensors (Acceleromter, Step Counting) ▫️ Li-Ion Battery ▫️ USB Serial ▫️ uSD Card (to provide open streetmap tiles) More information... #projects #esp32 #gps

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🔋 Battery tester using an ESP32, micro SD cards and Arduino This project is a datalogger to check the capacity of 18650 batteries by determining if they are in good condition or they must be discarded. The data that is logged in the SD card is: correct, power, voltage, LM35 temperature and execution time. In order to not discharge the battery without having connected all the components, there is a button to start the discharge of the battery. Once the button is pressed, the relay closes, the battery starts to discharge and the data is logged every 5 seconds on the SD card. When the battery is bellow 2.8V, the relay opens to prevent over discharging the 18650 battery and also appears a new display showing the principal data acquired by the ESP32. More information... #projects #esp32 #arduino #battery

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🤖 Matching Motors, Hubs and Wheels When it comes to choosing hubs with your wheels, does it feel like a nightmare? In this tutorial, we will cover the art of matching hubs, motors and wheels, but also their application and usage. We will take a look at the physical dimensions of a motor's shaft, we will define the role of a hub and much more. More information... #articles #robots

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🎚 SigmaStar SSD210 tiny dual-core Arm Cortex-A7 SoC comes with 64MB RAM, RGB display interface SigmaStar offers some of the cheapest Cortex-A7 processors on the market, especially considering they usually integrated 64 or 128MB RAM, which parts like SSD201 or SSD202 which are designed for smart displays, but can also be found in low-cost Linux gateways. Specifications: ▫️ CPU – Dual-core Arm Cortex-A7 at up to 1.0GHz with FPU, NEON, MMU, DMA ▫️ GPU – 2D graphics accelerator ▫️ System Memory – 64MB on-chip DDR2 RAM ▫️ Storage I/F – 1/2/4 bit SPI-NOR/SPI-NAND Flash ▫️ Display – RGB LCD interface supporting RGB565 or RGB666 or RGB888 format up to 60 fps. ▫️ Input/output voltage – 1.8V~3.3V ▫️ Package – QFN68 (7x7mm) More information... #boards #cortex

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💡 Balancing Dot on Led strip How to make balancing Led dot using WS2812 led strip and MPU6050 accelerometer and gyroscope module. This module is physically attached to the LED-strip, so when the LED-strip is held at a certain angle, the chip measures the angle of the LED strip and the Arduino uses this information to update the position of a virtual object as if it was a ball that is balanced on a beam and rolls from one side to the other if the beam is held at an angle. The position of the virtual object is indicated on the LED strip as a single LED that is illuminated. More information... #projects #arduino

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📟 How To Get Wi-Fi (Internet) on Raspberry Pi Pico We created this tutorial that shows how to get your Raspberry Pi Pico online. To get Wi-Fi on Raspberry Pi Pico, you will need: ▫️ A Raspberry Pi Pico ▫️ Adafruit Airlift Wi-Fi Featherwing Co-Processor ▫️ 8 x Male to Male jumper wires ▫️ Breadboard The goal of this tutorial is to get our Raspberry Pi Pico connected to the Internet via Wi-Fi, to access the OpenWeather service API and get the weather for our chosen location. This raw data is sent to the Python shell, but it could be easily sent to an OLED screen, LCD or used to trigger a sequence of events to occur. More information... #projects #wifi #raspberry #pico

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💻 Defining the Right Debugging Mindset for Faults, Errors, and Bugs One of the greatest development challenges facing embedded software developers is the amount of time that they spend debugging their systems. On average, developers spend 40 percent of their time debugging! Now that is an average, when I ask during a conference talk “How much time do you spend debugging?”, I find that 40 percent seems to match survey results but that is just an average. There are also developers who spend as much as 80 percent of their time debugging! For an average 12-month long project, if you are an average developer who spends 40 percent of their time debugging, you spend almost 5 months every year debugging! This is absolute insanity considering that debugging is really failure work, that is, fixing something that was done incorrectly the first time. We are going to explore the mindset of bugs and start defining how faults, errors, and bugs are related. More information... #articles #software #programming

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🔋 Predicting Battery Degradation with a Trinket M0 and Python Software Algorithms In battery-powered devices, it is important to give the user insight into the condition of the battery. We've all seen examples of this in devices like phones, laptops, and even flashlights. They provide predictions of capacity and/or time remaining before the battery must be recharged. This article explores some straightforward software algorithms we can use to make a similar prediction. If your system design already includes a microprocessor with some spare ADC ports, this approach can avoid the cost of an additional part. We will look at the algorithms in general, then look at some real results with lithium batteries. More information... #articles #python #projects #battery

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💻 Top 15 Programming Skills Required To Become A Successful Coder Programming is a term that tells a computer how to work. Through programming, we can effortlessly operate any technology. Just as all people have their own or a specific language for a particular territory, so do computers, or advanced technologies have a specific language, and its name is programming. The one who does the programming is called the coder. However, learning programming alone is not enough to become a successful coder, and it requires some special skills. With some tricks and tips, one can acquire these programming skills and improve those. And if you are looking for what those skills can be, then this article is for you. More information... #articles #programming #software

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📟 Build an MQTT Intercom with Wio Terminal In today’s article, we are going to build an Arduino wireless intercom with our Wio Terminal! This project sets up your Wio Terminal as a desk clock, but also allows you to send and receive messages to other devices via the MQTT protocol. In summary, we will want to achieve three things on our Wio Terminal in this project: ▫️ Display the date and time in realtime ▫️ Be able to receive / send messages over Wi-Fi ▫️ Build a GUI for user navigation More information... #projects #arduino #IoT #wifi

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📃 Predictions for the Future of 3D Printing Desktop Metal's CEO offers some predictions: ▫️ The Next Frontier for Additive Will Be Functional End-Use Applications and Mass Production Over the next year and into the coming decade, we will see growth from this sub-segment of jigs and fixtures and early use cases to mass production, spare parts, and functional end-use applications for components that were traditionally made with other manufacturing techniques. ▫️ 95-99% of Manufacturing Spend Will Move to Functional End-Use Parts We’ll see an exponential curve because the technology is more affordable, there are more use-cases, and more supply of raw materials. That opens up the application space. This also enables new markets that are going to end-use parts and spare parts. ▫️ AM is Accelerating Greater Freedom of Product Design One of the things that’s unique about additive manufacturing (AM) is that it frees you from the tyranny of tooling. More information... #articles #3d_modeling

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📃 How to read microcontroller datasheets? 5 tips for Beginners! If you are a beginner, the first time you download the datasheet of the microcontroller you are using, you will be given a 1000 to 2000 page document, which will make you feel uncomfortable, to say the least. I have been through the same experience and in this post, I am going to help you understand the reason behind the hugeness of the datasheet and I will give you some tips and tricks so that you don’t waste too much time reading it! More information... #articles #hardware #beginner

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📟 Data Displaying System with a TFT Screen (Arduino) This project will show you how to make a Data Displaying System using a TFT touchscreen, Arduino Mega and Elegoo libraries. More information: Tutorial part 1 Tutorial part 2 #projects #display #arduino

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🎚 ClearCore – An Arduino compatible Industrial I/O and Motion Controller Teknic, a US-based manufacturer of servo motion control components, has designed ClearCore, a Microchip SAME53 Arm Cortex-M4 based industrial I/O and motion controller that can be programmed with the Arduino IDE for quick prototyping, or Atmel Studio 7 with a more advanced C++ API for more complex projects. ClearCore offers four motion axes, 24-volt compatible analog and digital I/O, support for I/O expansion modules, as well as serial and/or Ethernet connectivity via RJ45 ports. Multiple ClearCore can also be daisy-chained for larger applications. Specifications: ▫️ Microchip: SAME53 Arm Cortex-M4F microcontroller clocked at up to 120 MHz, with 512 KB flash, 192 KB of SRAM ▫️ Storage: MicroSD card slot ▫️ Power Supply: 12-24V DC via 3-pin terminal block ▫️ Connectivity: 1x 10/100M Fast Ethernet RJ45 port ▫️ Dimensions: 12.7 x 8.9 x 2.54 cm More information: Review article Product page #boards #cortex #cpp

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📰 A Designer’s Take on Raspberry Pi’s First Microcontroller This year, Rasberry Pi unveiled its first-ever microcontroller. How does this device perform in professional embedded design? One of the biggest splashes in the electronics industry this year was Raspberry Pi's unveiling of its first-ever microcontroller. The Raspberry Pi Pico is a $4 microcontroller board built using the RP2040 microcontroller, which includes a dual-Arm Cortex-M0+ processor and an interesting patent-pending programmable I/O peripheral. This new RP2040 chip is said to be suited for ultra-low-power Internet of Things (IoT) and embedded applications that incorporate endpoint machine learning. The applications of the new SoC can range from standalone toys to networked IoT devices monitoring industrial oil pipelines. How is the new MCU fundamentally distinct from RPi's traditional single-board computers? And how might it be of use to the practicing engineers? More information... #news #articles #raspberry #pico

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📟 Arduino Radar with Simulink (Matlab) Simulink model development and integration with Arduino Mega 2560 for short-range radar detection system management. The development of the model have been performed in the Simulink working environment. Simulink is a MATLAB-based graphical programming environment for modeling, simulating and analyzing multi-domain dynamical systems. It has support for Arduino Mega 2560 digital development electronic board. The Simulink model itself is a replacement for the code written in the Arduino IDE integrated development environment. Additionally, MS windows software "Processing" was used to receive the data from the Arduino and to draw the radar image on the personal computer. More information... #projects #arduino #matlab