Hola Electronauts! 🔍✨ Introducing the flexiPi – your gateway to versatile computing and automation! 🚀 This compact powerhouse is perfect for tech enthusiasts looking to dive into smart home projects, IoT innovations, or simply explore the vast world of programming. What makes the flexiPi stand out? 🌟 Unmatched Flexibility: Customize your device with various modules to suit your project needs—sensors, cameras, or unique peripherals! 🌐 Robust Connectivity: With built-in Wi-Fi, Bluetooth, and USB options, it seamlessly integrates into any smart setup. Energy Efficient: Designed for long-lasting performance, making it perfect for stationary and portable applications. Developer Friendly: Its open-source nature means you can tailor your projects, whether a beginner or a seasoned pro! Unleash your creativity and transform your ideas into reality with the flexiPi! Are you ready to take your tech projects to the next level? ⚡ -------------------------------------- Share with your friends if you're an electronic enthusiast!! Do follow Electronics Hobby Club Follow for more interesting stuff!💡 -------------------------------------- Do like, share, save, and turn on the post notifications to get notified for more upcoming events. #FlexiPi #Innovation #TechTrends #IoT #SmartHome #Electronauts
Electronics Hobby Club’s Post
More Relevant Posts
-
🔗 We live in an increasingly digital world, where nearly every electronic device we touch will be connected, monitored and analyzed, extracting more and more data from IoT devices to make smarter decisions. ❓ How do we make these devices—from smart-home applications to medical wearables—easier to use, more compact and energy-efficient? ✅ It requires a lot of technology advances, from wireless protocols and connectivity interfaces to the tiny chips and modules on the boards. ❓ How do many developers start their designs? They use development kits or boards. Hardware-development tools, including dev kits, are one of their big requirements to help them accelerate their designs. 👉 🆓 Micro Crystal provides FREE development boards to let engineers evaluate the performance of the selected Real-Time Clock Module or Oscillator. 🚀 From the ultra-low power RV-3028-C7 with its mere 45 nA, to the smallest C8 Series with 2.0 x 1.2 mm footprint, there exists within our portfolio of timing products an optimum solution that perfectly suits your needs. ✍ Come visit us at embedded world Exhibition&Conference to discuss your application and request your free development board. Our team of sales and products management is there for you on the booth: Rüdiger Altschuh, Silvio Dalla Piazza, Andrea Feuerstein, Thierry Hessler, Ralf Massmann, Nicolas Moser, Bruno Recaldini #ew24 #developmentboard #IoT #electronicdesign
To view or add a comment, sign in
-
"In the realm of #connectivity, let each day dawn with the promise of innovation, as we weave the threads of imagination into the tapestry of #IoT, sculpting a future where every device breathes with purpose and intelligence." Unlock the potential of IoT innovation with the Conexio BLITZ, a cutting-edge dual-connectivity kit designed to empower developers, engineers, and hobbyists in creating next-generation connected devices. BLITZ is the first IoT kit that combines the power of Nordic Semiconductor's two powerful wireless SoCs: #nRF5340 and #nRF7002 orchestrated by #nPM1300 in a tiny feather form factor. 🚀 Launching soon on @CrowdSupply. Key Features: ✅ Dual Connectivity: Leverage the nRF7002 WiFi 6 chipset for high-speed, reliable wireless internet connectivity, while simultaneously harnessing the capabilities of the nRF5340 Bluetooth 5.4 module for local device communication. ✅ Versatility in Application: The Conexio BLITZ is engineered to be versatile, making it suitable for a wide range of IoT applications. Whether you're working on smart home devices, industrial automation, healthcare solutions, or other IoT projects, the Conexio BLITZ provides the flexibility to bring your ideas to life. ✅ Robust and Efficient: Nordic Semiconductor's chipsets are known for their robustness and efficiency. Benefit from low power consumption, extended range, and reliable data transfer, ensuring your IoT devices perform optimally in various environments. ✅ Comprehensive Development Environment: The Conexio BLITZ kit will come with a comprehensive development environment, including documentation, sample code, and SDKs, enabling developers to kickstart their projects seamlessly. ⏳ To secure your spot among the early adopters today visit the link below 👇 https://lnkd.in/gkqkvXEv #iotsolutions #iotconnectivity #iotsolutions #iotdevices #iotdevelopment #bluetoothlowenergy #bluetooth #assettracking #connect #iotprojects #devicemanagement #lowpower #wifi6 #wifi7 #productdevelopment #pcbdesign #pcbamanufacturing #pcbassembly #edgecomputing #edgeai #edgecloud #edgeimpulse #zephyr #plugandplay
To view or add a comment, sign in
-
🌟 Where the Future of Electronics is Heading 🌟 The electronics industry is evolving fast, with several sectors set for significant growth. Here's where the opportunities are: 1️⃣ Medical Devices & Health Tech: Innovations in wearables, telemedicine, and diagnostics are fueling growth. Electronics are at the core of making healthcare more accessible and efficient. 🩺 2️⃣ Renewable Energy & EVs: The push for sustainable energy is driving demand for advanced electronics in solar, wind, and electric vehicles. This sector is booming as we move towards a greener future. ⚡ 3️⃣ Industrial Automation & IoT: The rise of IoT and automation in industries is leading to increased demand for specialized electronics. This trend is all about boosting productivity and cutting costs. 🏭 4️⃣ 5G & Connectivity: As 5G networks roll out, the need for cutting-edge electronic components to support faster, more reliable connections is growing. 📶 5️⃣ Consumer Electronics: From smart homes to AI-driven gadgets, consumer electronics are rapidly evolving, opening up new avenues for innovation. 🏡 Focusing on these sectors will keep you ahead in the rapidly changing electronics landscape. 🚀 #Electronics #Innovation #IndustryGrowth #FutureTech
To view or add a comment, sign in
-
Attention IoT enthusiasts, Get ready to supercharge your projects with the all-new ESP32-S3, now equipped with Simcom technology. This powerful combination opens up a world of possibilities for your connected devices, offering enhanced performance, reliability, and connectivity like never before. With Simcom's robust cellular connectivity seamlessly integrated into the ESP32-S3, your devices can stay connected anywhere, anytime. Whether it's 2G, 3G, 4G, or even NB-IoT and LTE-M, you have the flexibility to choose the network that best suits your needs. Experience faster data transfer, improved signal strength, and optimized power efficiency, ensuring your IoT devices run smoother and longer. Plus, rest easy knowing that your data is secure with built-in features such as secure boot, encrypted communication, and over-the-air (OTA) firmware updates. Whether you're building a small-scale prototype or deploying a large-scale IoT solution, the Simcom-equipped ESP32-S3 offers the scalability, flexibility, and cost-effective solutions you need to bring your ideas to life quickly and efficiently. Ready to take your IoT projects to the next level? Learn more about the Simcom-equipped #ESP32-S3 and unleash the full potential of your connected devices! -------------------------------------- Share with your friends if you're an electronic enthusiast!! Do follow Electronics Hobby Club Follow for more interesting stuff!💡 -------------------------------------- Do like, share, save, and turn on the post notifications to get notified for more upcoming events.✨ #machinelearning #raspberrypi #arduino #futuretech #DIY #robotics #IoT #ESP32S3 #Simcom #Connectivity #Innovation #gsm #sim
To view or add a comment, sign in
-
Excited to share the demonstration video of our Smart Switchboard system! This innovative solution enhances convenience and flexibility in managing household devices, all without the need for internet or mobile apps. 🔑 Features Highlighted in the Video: Voice Control: Operate lights, fans, and sockets using simple voice commands. Manual Operation: Switches connected in parallel with relays allow for manual control alongside voice activation. Energy Efficiency: Designed to conserve energy while providing reliable operation. Customizable Commands: Users can tailor the voice commands to fit their preferences. 🔧 Technologies Used: Arduino Nano 33 BLE Sense Rev 2: The main microcontroller processing voice commands and controlling the relays. 4-Channel Relay: Manages the operation of multiple devices with ease. A big thank you to Arduino for their amazing voice engine technology, which has been integral to our project's success! 📽️ Watch the Demonstration Video to see our Smart Switchboard in action and discover how it can transform your home into a smart, efficient living space. #SmartHome #HomeAutomation #VoiceControl #Innovation #TechDemo #EnergyEfficiency #IoT #Arduino
To view or add a comment, sign in
-
Ever Wonder How Your Smart Devices Communicate So Seamlessly? Discover the Role of Bluetooth Low Energy in IoT! Great explanation by Samba Ndome Bluetooth Low Energy (BLE) is the unsung hero behind the seamless connectivity of devices like cars and smartwatches, ensuring they operate efficiently with minimal power. Dive into the technology that keeps our devices smart! 𝐖𝐡𝐚𝐭 𝐢𝐬 𝐁𝐋𝐄? BLE is tailored for devices requiring long battery life and minimal energy use, playing a crucial role in wearables, automotive systems, and smart home applications, allowing these gadgets to communicate over months or years on a single battery charge. 𝐔𝐧𝐝𝐞𝐫𝐬𝐭𝐚𝐧𝐝𝐢𝐧𝐠 𝐭𝐡𝐞 𝐁𝐋𝐄 𝐒𝐭𝐚𝐜𝐤 The BLE stack is meticulously designed with multiple layers that ensure smooth and efficient connectivity: - Application Layer: Where custom applications reside, utilizing underlying BLE features. - GATT (Generic Attribute Profile): Manages data exchange between connected devices through services and characteristics. - GAP (Generic Access Profile): Controls device discovery and connection modes, including advertising and scanning. - L2CAP (Logical Link Control and Adaptation Protocol): Facilitates the encapsulation and reassembly of data. - Security Manager: Ensures secure communication through authentication and encryption. - Link Layer: Interacts directly with the radio layer to manage packet transmission and reception. - Physical Radio: Handles the transmission and reception of signals across the BLE frequency band. 𝐒𝐜𝐚𝐧𝐧𝐢𝐧𝐠 𝐚𝐧𝐝 𝐂𝐨𝐧𝐧𝐞𝐜𝐭𝐢𝐧𝐠 Devices begin by advertising and scanning to find each other. Once a connection is established, they adopt roles as Central (controller) or Peripheral (device being controlled) for further interaction. 𝐔𝐩𝐜𝐨𝐦𝐢𝐧𝐠 𝐓𝐮𝐭𝐨𝐫𝐢𝐚𝐥 𝐀𝐥𝐞𝐫𝐭! Get ready for a comprehensive tutorial where I’ll teach you how to control devices using a Python-coded PC application, with a deep dive into these layers and more! 𝐘𝐨𝐮𝐫 𝐈𝐧𝐩𝐮𝐭 𝐌𝐚𝐭𝐭𝐞𝐫𝐬! For our BLE projects, which microcontroller would you prefer: ESP32, NRF or STM32? Let me know in the comments! Don’t miss out! Sign up for my newsletter to stay updated on this tutorial and more! : https://lnkd.in/g5w9zmPH #BluetoothLowEnergy #TechTutorial #EmbeddedSystems #IoT #SmartTechnology
To view or add a comment, sign in
-
Lithium Thionyl Chloride batteries are a preferred choice for IoT developers due to their high operating voltage, stability, pulse capability, and energy density. They offer reliable performance over a wide temperature range and are cost-effective, making them ideal for smart device development. Passivation, a crucial surface protection process in lithium batteries, can impact battery performance if not managed properly. In our upcoming article, we highlight common passivation pitfalls faced by application engineers when reviewing new design submissions and provide insights on how to avoid these challenges. Stay tuned to learn more about optimizing battery performance and avoiding common pitfalls in application design submissions. #IoT #BatteryTechnology #SmartDevices #EngineeringInsights
To view or add a comment, sign in
-
🔌 Maximizing Power Efficiency in Ultra-Low Power IoT Circuits 🔌 In the rapidly evolving world of IoT, power efficiency is more crucial than ever. As we design ultra-low power circuits, it's essential to understand the components that can inadvertently increase power consumption. Here are some key considerations: Active Components: Microcontrollers: Opt for lower clock speeds and minimize peripheral usage. Sensors: Balance resolution with power; utilize sleep modes effectively. Wireless Transceivers: Implement duty cycling and avoid continuous high-power modes. Amplifiers: Choose low-power alternatives whenever possible. Displays: Utilize adaptive brightness settings to conserve energy. Passive Components: Resistors & Capacitors: Select appropriate values to avoid unnecessary current draw. PCB Design: Optimize trace lengths to minimize resistance and improve efficiency. System-Level Strategies: Optimized Algorithms: Focus on efficient software design to reduce CPU load. Sleep Modes: Make full use of low-power states in components. Thermal Management: Ensure effective heat dissipation to maintain optimal performance. By focusing on these areas, we can significantly enhance the efficiency of our IoT devices, paving the way for more sustainable technology. Let’s innovate with power consumption in mind! #IoT #PowerEfficiency #SustainableTech #Engineering #EmbeddedSystems
To view or add a comment, sign in
-
🌐 Meet the #BW16, Ai-Thinker's dual-frequency Wi-Fi #Bluetooth SoC module, designed for #seamless connectivity. Experience the future of wireless technology with BW16. 🔍 Key Features: · RTL8720DN SoC: High-performance MCU with integrated Wi-Fi and Bluetooth capabilities. · Dual-Band Wi-Fi: Supports both 2.4GHz and 5GHz frequencies for versatile connectivity. · Bluetooth 5.0: Enhanced data transfer and #connection range. 🛠️ Technical Specifications: · SMD-16 Package: Compact design for easy integration. · Wide Temperature Operation: Reliable in temperatures from -40℃ to 85℃. · Frequency Range: 2400~2483.5MHz & 5180~5825MHz for global compatibility. 🏢 Applications: · Smart Home Devices: Connect and control your home with ease. · IoT Integration: Perfect for #developers looking to build connected devices. #AiThinker #IoT #SmartConnectivity #Innovation #smarthome #linkedin #AloT #module
To view or add a comment, sign in
-
🚀 Exploring the World of Embedded Systems 🚀 Embedded systems are at the heart of modern technology, driving innovation and enhancing efficiency in countless industries. These specialized computing systems are designed to perform dedicated functions, often in real-time, within larger systems. From automotive controls and medical devices to home appliances and industrial machines, embedded systems are everywhere! 🔍 Key Benefits of Embedded Systems: 1. Reliability: Designed for specific tasks, they offer high performance and stability. 2. Efficiency: Optimized for power consumption, they are crucial in battery-powered devices. 3. Scalability: Can be tailored to a wide range of applications, from simple sensors to complex automation systems. 4. Cost-Effective: Integration into various products can reduce overall system costs. 🌟 Why Should We Care? The demand for smart, connected devices is growing rapidly. Understanding embedded systems opens up opportunities for innovation in IoT, robotics, and beyond. As professionals in this field, we have the chance to shape the future of technology by developing solutions that are smarter, more efficient, and more reliable. Let’s continue to push the boundaries of what’s possible with embedded systems and create a smarter, more connected world. If you’re passionate about embedded systems or working on exciting projects, I’d love to connect and hear about your experiences! #EmbeddedSystems #IoT #Innovation #TechTrends #Engineering
To view or add a comment, sign in
277 followers