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 Bajos48 Tecnologías y Aplicaciones9 367...

📈 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 13 716 suscriptores, ocupando la posición 9 367 en la categoría Tecnologías y Aplicaciones y el puesto 48 en la región Países Bajos.

📊 Métricas de audiencia y dinámica

Desde su creación el невідомо, el proyecto ha mostrado un crecimiento acelerado, reuniendo a 13 716 suscriptores.

Según los últimos datos del 19 junio, 2026, el canal mantiene una actividad estable. En los últimos 30 días la variación de miembros fue de 113, y en las últimas 24 horas de -8, conservando un alto alcance.

Estado de verificación: No verificado
Tasa de interacción (ER): El promedio de interacción de la audiencia es 29.46%. Durante las primeras 24 horas tras publicar, el contenido suele obtener 6.11% de reacciones respecto al total de suscriptores.
Alcance de las publicaciones: Cada publicación recibe en promedio 0 visualizaciones. En el primer día suele acumular 838 visualizaciones.
Reacciones e interacción: La audiencia responde de forma activa: el promedio de reacciones por publicación es 0.
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 20 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.

13 716

Suscriptores

-824 horas

-117 días

+11330 días

4 041

Visitas de la publicación

~ 83824 horas

~ 1 06948 horas

29.46%

Tasa de compromiso

Sin datos

Mensajes por día

Ads index

beta

Archivo de publicaciones

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📺 Raspberry Pi Pico RP2350 - Massive Performance Boost Trick This video explores the performance differences between Cortex-M33 and RISC-V Hazard 3 cores on the 🍓 RP 2350 microcontroller. Initially, the RISC-V cores were surprisingly slower than expected due to using suboptimal compiler setups on Windows with 👩‍💻 Visual Studio Code. Feedback from the core designer revealed that the default toolchains lacked important optimizations, especially for floating-point operations. By switching to 👩‍💻 Linux and manually configuring the toolchain and compilers, significant performance improvements were achieved. The optimized setup showed the RISC-V cores outperforming Cortex-M0 cores and, in some cases, even matching or exceeding the Cortex-M33. The video concludes that to fully unlock the RP 2350's potential, developers should use the right compiler and setup, ideally on Linux, for the best performance. ⛓ https://youtu.be/_O3Aeyv2ILM #video #raspberry #pico2

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🤖 Reconfigurable Continuous Track Robot (RCTR) The RCTR introduces a new approach to robotic mobility by reconfiguring its shape dynamically as it moves. It can lock individual track links at different angles, enabling it to climb steps, bridge gaps, and adapt to various terrains. A small actuator at the front locks the links, while a mechanism at the back resets them, allowing the robot to switch between flexible and rigid states. Although the RCTR currently lacks steering, adding this capability would be straightforward. Its design showcases a unique ability to handle diverse environments, making it adaptable for a wide range of applications. ⛓ More information... #robots

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📺 Flexduino: Creating a Flexible Arduino UNO Clone This video describes a unique ♾ Arduino UNO clone, featuring a flexible PCB substrate instead of traditional rigid materials. While it sacrifices some functionalities like a ground plane due to its flexible nature, it serves as both a practical tool and a demonstration of cutting-edge electronic design. ⛓ https://youtu.be/S9VHnmVI19w #video #arduino

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👩‍💻 PI-CI: Dockerized Raspberry Pi Emulator PI-CI is a Docker-based Raspberry Pi emulator designed to streamline the setup, configuration, and flashing of Raspberry Pi virtual machines (VMs). Features of the project: ➡️Supports Raspberry Pi 3, 4, and 5 models. ➡️Includes 64-bit Raspberry Pi OS (24.04, Bookworm). ➡️Operates without requiring root privileges, ensuring safety and reproducibility. ➡️Offers commands like init, start, resize, flash, and export for VM management and image handling. PI-CI is ideal for developers and sysadmins aiming to automate the setup and deployment of Raspberry Pi configurations. It facilitates tasks such as preconfiguring servers, testing ARM applications in a virtualized environment, and integrating with CI pipelines for continuous deployment. ⛓ More information... #projects #docker #raspberry

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✈️ On recent events You might already know about the Telegram's CEO arrest in France. Without a doubt, its bad news for all of us. When I was a teenager, I remember so well all of my peers using 🌐 VK.com, a social network widely popular in post-soviet countries that was founded by Durov. I never really liked it but I also remember the efforts Russian government put into seizing control over it. Many years passed since then and I'm living in Europe for quite a while now but the recent events gave me a strong feeling of déjà vu. Durov is locked for good and we both know what's the only way out. With that said, I strongly recommend to everybody to get rid of the sensitive information saved on Telegram's servers. Whether we want it or not, the Telegram is going to be as regulated as any other platform out there.

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💻 Japan on edge of EUV lithography chip-making revolution The 🇯🇵 Okinawa Institute of Science and Technology (OIST) has developed a new type of extreme ultraviolet (EUV) lithography equipment that could revolutionize semiconductor manufacturing. This breakthrough simplifies the optical system and reduces power consumption significantly, which could lower the cost of producing advanced chips at 7nm and smaller. If successful, this technology might end 🇳🇱 ASML's dominance in EUV lithography, with far-reaching implications for global semiconductor supply chains, especially under current U.S. export restrictions to China. OIST intends to collaborate with major Japanese corporations, such as Nikon or Canon, to bring this technology to market by 2026. This collaboration could not only revive Japan's role in the semiconductor industry but also reshape the competitive landscape of global chip manufacturing. ⛓ More information... #news

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🎹 Signaloid's Tiny Open-Source FPGA Development Board The Signaloid C0-microSD is an innovative FPGA development board, fitting within a standard microSD card socket for easy programming. It leverages a unique interface and supports cloud and edge-based computing applications. Features of the board: ➡️Contains Lattice iCE40UP5K FPGA and 128 Mbit flash memory. ➡️11 I/O signals, including LEDs for visual feedback. ➡️Special microSD interface for programming and data transfer. ➡️Supports open-source toolchain (Icestorm, Yosys, NextPnR, Icestudio). ➡️Includes pre-built Signaloid C0 RISC-V processor core for uncertainty analysis. This board is ideal for developers seeking a compact, versatile platform for FPGA prototyping. Its microSD form factor and onboard processing capabilities make it suitable for both hobbyists and professionals looking to enhance single-board computers or microcontrollers with advanced computing features. More information: 🔗 The main article 😹 The GitHub repository #boards #fpga

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💻 Expanding RP2040 Memory: Using QSPI RAM with RP2040's SSI in read-write mode The article discusses a useful lifehack for expanding the memory of the 🍓 RP2040 microcontroller. The RP2040 typically supports flash XIP (eXecute In Place), which allows for executing code directly from external flash memory, but it only supports read and execute operations, not writes. The author overcomes this limitation by employing a combination of hardware (OR and NOT gates) and software (a custom HardFault handler) to copy code from flash to RAM during boot, then switch the RP2040 to execute from RAM, effectively making it behave like real memory. ⛓ More information... #articles #raspberry #RP2040

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💻 Metrics for Measuring Semiconductor Progress Beyond Moore's Law This article challenges the relevance of Moore's Law in measuring semiconductor progress, advocating for a new metric that accurately reflects technological advancements. Initially tied to transistor dimensions, Moore's Law's rigid node system no longer aligns with actual device features, leading to confusion and stagnation in innovation. Proposed alternatives, like the GMT method and LMC metric, focus on fundamental device characteristics and overall system improvements rather than arbitrary node numbers. These metrics promise a more accurate reflection of semiconductor evolution, crucial for guiding future advancements in computing technology beyond current lithographic limits. ⛓ More information... #articles #electronics

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🖥 Revolutionizing Wireless Networks: The Breakthrough of On-Chip Terahertz Beamforming Researchers have developed a new silicon topological beamformer chip that can efficiently direct terahertz frequency wireless signals in any direction, potentially revolutionizing future wireless communication. Terahertz waves, which sit between optical and microwave frequencies, offer the high bandwidth necessary for terabit-per-second data rates, crucial for the upcoming 6G networks. ➡️Terahertz waves could enable applications like ultra-fast internet, autonomous vehicles, and remote surgeries. ➡️The chip design leverages topological photonics, allowing signals to travel through the chip without losses, even around complex paths. ➡️The new design is capable of significantly reducing download times—for instance, a 4K UHD video could be downloaded in 6 seconds instead of 11 minutes. This advancement represents a major step toward practical terahertz communication technology, which could enable a wide range of high-speed applications. ⛓ More information... #news

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📚 Introduction to Embedded System Design on Arm Cortex-M Microcontrollers Dive into embedded systems with this free hands-on guide, perfect for newcomers. Across twelve chapters, you'll learn to build a smart home device with features like fire alarms and motion detectors. No prior experience in programming or electronics is needed—each concept is introduced step-by-step through practical examples using the 🦋 ST Nucleo-F429ZI board. Designed to fit a typical semester, this textbook helps you gain real-world skills in embedded system design, from basic serial communication to advanced Bluetooth and web server projects. 😹 Download the book... #books #design #beginner #stm32

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🍓 Introducing Raspberry Pi Pico 2 The Raspberry Pi Pico 2 is a newly launched development board featuring the RP2350 microcontroller, which offers dual-core processing options: Arm Cortex-M33 or RISC-V Hazard3. It provides enhanced performance and memory, making it suitable for a wide range of applications. Key Features of Raspberry Pi Pico 2: ➡️Dual-core Arm Cortex-M33 @ 150 MHz or dual-core RISC-V Hazard3 @ 150 MHz ➡️520 KB on-chip SRAM and up to 16 MB external QSPI flash storage ➡️Comprehensive peripheral support including GPIOs, ADCs, PWM channels, UARTs, SPI, and I2C controllers ➡️Enhanced security features with Trustzone, SHA-256 acceleration, and secure boot options ➡️Low-power modes with optional SRAM retention for energy efficiency ➡️Micro USB port for power and programming Overall, the Raspberry Pi Pico 2 is ideal for developers and hobbyists looking for a versatile, powerful microcontroller that balances cost and functionality, making it suitable for a variety of projects. ⛓ More information... #news #raspberry #pico

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📺 PCB Design Duel: Altium vs. KiCad in 60 Minutes In this YouTube video, two engineers face off in a challenge to design a PCB in just one hour, using Altium and KiCad (Kad) respectively. The goal is to compare whether the high cost of Altium is justified over the open-source KiCad. Both engineers work with the 🇨🇳 ESP32 microcontroller, focusing on essential features like power supply and programming interfaces. Despite the differences in software, both produce functional PCBs, showcasing the strengths and limitations of each platform in rapid PCB design. ⛓ https://youtu.be/L0qqF_Kw6hY #video #altium #kicad #esp32

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💻 X-Ray Upgrade Can See Transistors in 3D An upgraded X-ray imaging technique, developed by a team at the 🇨🇭 Paul Scherrer Institute, can now provide high-resolution 3D images of advanced semiconductor chips without destroying them. This method, called burst ptychography, achieves a 4-nanometer resolution by using high-energy X-rays to penetrate the chip and computational techniques to create stable diffraction patterns. The new technique significantly improves upon the previous resolution, allowing for detailed visualization of transistor features and chip interconnects, facilitating better quality control and design validation in chip manufacturing. ⛓ More information... #news

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💻 Enthusiast recreated Paris with electronic parts In this innovative art project, the creator meticulously disassembles electronics and repurposes their components to meticulously reconstruct iconic cities like 🇫🇷 Paris. The craftsmanship achieves remarkable detail, capturing recognizable landmarks such as the Eiffel Tower and Notre-Dame Cathedral. This fusion of technology and art not only showcases intricate creativity but also prompts reflection on our relationship with electronics and urban landscapes, making it a captivating and thought-provoking form of artistic expression. ⛓ More information... #art

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📺 How VLSI Revolutionized Semiconductor Design The video explores the transformative impact of VLSI (Very Large Scale Integration) systems design on the semiconductor industry. Beginning with the early challenges faced as integrated circuits grew in complexity during the 1970s, it highlights the pivotal moment in 1980 when Carver Mead and Lynn Conway introduced a groundbreaking textbook that revolutionized semiconductor design methodologies. This shift, enabled by simplified design rules and modular approaches akin to software programming, democratized chip design. The VLSI paradigm not only spurred innovation and educational programs but also laid the foundation for modern semiconductor manufacturing and the rise of companies like TSMC, reshaping the global electronics landscape. ⛓ https://youtu.be/XgbxFVyKMMo #video

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💻 Considerations when Building Embedded Databases When building embedded databases, there are several key considerations to ensure reliable and efficient data management. In particular, this article highlights the importance of understanding non-volatile storage (NVS) challenges, such as data corruption and system compatibility. It also explores various existing database implementations and custom solutions, offering practical advice for optimizing storage and managing records in embedded systems. By focusing on these aspects, developers can create durable and maintainable embedded applications that perform reliably under real-world conditions. ⛓ More information... #articles #design

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📺 Cyberdore 2064 – 3D-Printable Neo-Vintage Cyberdeck The Cyberdore 2064 is a DIY cyberdeck project that captures the essence of retro-futuristic computing. Crafted around a 🍓 Raspberry Pi Zero and Raspberry Pi Pico, this compact device combines nostalgic aesthetics with modern functionality for immersive netrunning experiences. The features of the device: ➡️3D-printed enclosure reminiscent of classic 1980s computer designs. ➡️Side-mounted KY-040 rotary encoder for smooth navigation of online feeds and documents. ➡️Compact SSD1306 OLED display for retro-themed animations. ➡️Utilizes a portable keyboard for comfortable tactile input. ➡️Decent battery life from a single 18650 battery. This project is ideal for enthusiasts of cyberpunk aesthetics and DIY electronics: Its blend of nostalgic design elements and practical functionality makes it a standout choice for those interested in crafting their own cyberdecks. ⛓ More information... #projects #raspberry #cyberdeck

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🤖 Navigating Elevators: Enhancing Human-Robot Interaction In NAVER 1784, a study focused on optimizing 📺 robot behaviors in elevators was conducted to improve human satisfaction. It revealed that both politeness and efficiency matter, but time is slightly more critical. Humans perceive robots as slower when they make unnecessary movements, impacting satisfaction even if the actual time taken is the same. Continuous updates to robots' boarding rules and positions are made to enhance their perceived competence and efficiency. This research highlights the importance of considering human perceptions in Human-Robot Interaction (HRI) to ensure smooth integration of robots in everyday environments. ⛓ More information... #news #robots

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🤖 ESP32 and ESP8266: Timer Interrupts with MicroPython This tutorial guides you through using timer interrupts with the 🇨🇳 ESP32/ESP8266 boards programmed in MicroPython. You’ll learn to schedule and execute tasks at specified intervals or delays using timer interrupts, which rely on the board's hardware timer. ⛓ More information... #articles #beginner #esp32 #micropython