Latest news with #microcontrollers
Yahoo
14-07-2025
- Business
- Yahoo
IoT Microcontroller Market to Reach USD 18.76 Billion by 2032 at 16.50% CAGR, Driven by Surge in Smart Device Adoption: AnalystView Market Insights
The IoT microcontroller market is segmented into three key product types: 8-bit, 16-bit, and 32-bit microcontrollers. 32-bit microcontrollers lead 2024 market share, driven by advanced processing power and expanded memory capabilities. In March2025, Texas Instruments unveiled the world's smallest 32‑bit MCU—the MSPM0C1104—with Cortex-M0+ core in just 1.38mm² package. San Francisco, USA, July 14, 2025 (GLOBE NEWSWIRE) -- The global IoT Microcontroller Market is on a robust growth path, projected to reach a market size of USD 18,765.80 million by 2032, expanding at a compound annual growth rate (CAGR) of 16.50% during the forecast period. This rapid expansion is largely fueled by the ever-growing deployment of Internet of Things (IoT) devices across both consumer and industrial landscapes. IoT microcontrollers are compact, power-efficient chips that function as the brains of connected devices. These chips manage real-time operations, data processing, and communication between sensors, actuators, and networks. As the number of connected devices continues to grow exponentially, so does the need for smarter, faster, and more energy-efficient microcontrollers. From smartwatches and home appliances to industrial machinery and autonomous vehicles, IoT microcontrollers play a pivotal role in enabling seamless device intelligence. According to the OECD, the number of IoT connections globally surpassed non‑IoT connections in 2020, marking a pivotal shift toward smart, interconnected devices. Get Instant Access to the Sample Report PDF @ Proliferation of Smart Devices and Systems- Primary Driving Forces Behind Market Growth One of the primary drivers propelling this market is the proliferation of smart devices and systems across virtually every sector. In the UK, Ofcom reports growth from 13.3 million IoT connections in 2016 to an estimated 39.9 million by 2024, driven by smart device proliferation. In the consumer space, applications such as smart homes, fitness trackers, and wearable health devices rely on microcontrollers to perform quick computations while conserving battery life. On the industrial side, microcontrollers are integral to smart factories, smart agriculture, and automated energy systems. These applications demand rugged, reliable chips that can function under a wide range of operating conditions. The increasing adoption of edge computing is another major catalyst. As businesses and developers move processing capabilities closer to the data source, there is a growing demand for microcontrollers that can handle localized, real-time processing without constant reliance on cloud infrastructure. This reduces latency, improves performance, and supports faster decision-making—particularly important for critical applications like industrial automation, autonomous systems, and healthcare diagnostics. Technological Advancements Pushing Innovation The IoT microcontroller space is witnessing continuous innovation aimed at increasing processing power, improving wireless communication, and extending battery life. Manufacturers are focusing on integrating support for the latest communication standards, including 5G, Wi-Fi 6, Bluetooth Low Energy (BLE), NB-IoT, and LoRaWAN. These features are crucial for seamless device-to-device communication and for supporting massive IoT deployments in smart cities and industrial environments. Another key area of focus is low-power architecture. With many IoT devices operating on small batteries or energy-harvesting solutions, minimizing power consumption is a top priority. Modern microcontrollers are now equipped with advanced sleep modes, efficient wake-up cycles, and intelligent power management features that help extend device life significantly. Moreover, the integration of AI and machine learning at the edge is pushing the development of smarter microcontrollers capable of performing data analysis directly on the device. This is particularly useful in applications such as predictive maintenance, facial recognition, and anomaly detection, where real-time insights are critical. Industrial IoT as a Core Growth Segment Industrially, IoT microcontrollers are becoming a foundational technology for Industry 4.0 initiatives. Smart manufacturing, energy monitoring, predictive maintenance, and asset tracking all rely on microcontrollers to collect and process sensor data on-site. According to data from the U.S. Department of Energy, the demand for industrial IoT solutions is growing rapidly due to the global push toward automation and operational efficiency. In manufacturing, microcontrollers are used to monitor equipment health, control robotic systems, and enable adaptive production processes. In the energy and utilities sector, they support applications such as smart meters, grid automation, and energy-efficient building systems. As industries seek to digitize operations, the need for reliable and intelligent microcontrollers continues to intensify. TABLE OF CONTENT:1. IoT Microcontroller Market Overview1.1. Study Scope1.2. Market Estimation Years2. Executive Summary2.1. Market Snippet2.1.1. IoT Microcontroller Market Snippet by Product Type2.1.2. IoT Microcontroller Market Snippet by Application2.1.3. IoT Microcontroller Market Snippet by Architecture2.1.4. IoT Microcontroller Market Snippet by Country2.1.5. IoT Microcontroller Market Snippet by Region2.2. Competitive Insights3. IoT Microcontroller Key Market Trends3.1. IoT Microcontroller Market Drivers3.1.1. Impact Analysis of Market Drivers3.2. IoT Microcontroller Market Restraints3.2.1. Impact Analysis of Market Restraints3.3. IoT Microcontroller Market Opportunities3.4. IoT Microcontroller Market Future Trends4. IoT Microcontroller Industry Study4.1. PEST Analysis4.2. Porter's Five Forces Analysis4.3. Growth Prospect Mapping4.4. Regulatory Framework Analysis ...... Regional Insights: North America Leading the Way North America currently dominates the global IoT microcontroller market, thanks to its well-established tech ecosystem, advanced research facilities, and widespread adoption of IoT technologies across multiple industries. The region is home to numerous cloud service providers, semiconductor giants, and IoT platform companies, all contributing to a strong demand for microcontroller solutions. According to the U.S. Department of Commerce, over 100 U.S. cities have launched smart grid and intelligent transportation initiatives that rely heavily on IoT microcontroller-based sensors and gateways—fueling North America's roughly 30% share of the global IoT MCU market in 2024. Asia-Pacific, however, is rapidly emerging as a high-growth market, driven by massive manufacturing capabilities in China, South Korea, and Japan, as well as increased IoT adoption in India and Southeast Asia. The region benefits from a large consumer base, expanding smart city projects, and rising investments in industrial automation. Strategic Moves by Market Players Companies in the IoT microcontroller space are employing diverse strategies to stay ahead in this competitive landscape. Key among these are: Product Innovation: Firms are continually enhancing chip design to offer better performance, lower power consumption, and improved security. Collaborations & Alliances: Semiconductor manufacturers are partnering with cloud providers, IoT platform developers, and system integrators to deliver end-to-end solutions tailored to specific use cases. R&D Investment: Significant resources are being allocated to research next-generation microcontrollers that can handle AI tasks, secure communications, and complex real-time analytics. Moreover, many vendors are embracing open-source development platforms and providing developer tools, software libraries, and modular hardware kits to encourage rapid prototyping and foster developer communities. This lowers the barriers to IoT product development and helps accelerate market adoption. Outlook: A Foundation for the Connected Future As the world becomes increasingly interconnected, the demand for smart, efficient, and reliable microcontrollers will only rise. The convergence of IoT, AI, and edge computing is transforming how data is processed and used, and microcontrollers sit at the heart of this transformation. Take a deep dive into regional competitiveness, market clusters, customer distribution, and business leaders@ Browse more Reports from AnalystView Market Insights: Tire Cord and Tire Fabrics Market Semiconductor Plating System Market Motorcycle Chain Sprocket Market Car Carrier Market Automotive Structural Insert Market CONTACT: U.S. Office: 11923 NE Sumner St STE 750924 Portland, Oregon, 97220, USA Phone: +1 615-326-5253 (U.S. Toll Free) Email: mayank@ Email: inquiry@ Website:
Yahoo
13-07-2025
- Business
- Yahoo
Goldman Sachs Initiates Coverage on Microchip Technology (MCHP) Stock With a Buy Rating
Microchip Technology Incorporated (NASDAQ:MCHP) is one of the Most Promising AI Stocks to Buy Now. Goldman Sachs began coverage on the company's stock with a 'Buy' rating and a price objective of $88.00. The firm sees Microchip Technology Incorporated (NASDAQ:MCHP) as a leading global supplier of microcontrollers and analog products throughout diverse markets. This places the company for growth as the sector sees recovery. As per the firm, the microcontroller market remains in the early stages of a recovery. It is presently shipping at levels that are well below end demand, which creates growth potential that can surpass Wall Street estimates. A semiconductor wafer at various stages of fabrication, showing the company's range of expertise. The strong growth of AI has been transforming data centers, which creates an unprecedented demand for high-performance, secure, reliable, and innovative solutions. Microchip Technology Incorporated (NASDAQ:MCHP) remains focused on addressing such evolving market needs through developing advanced technologies for data center connectivity, storage, and data retrieval. From accelerating high-speed connectivity as well as storage rates to optimizing power and management systems, Microchip Technology Incorporated (NASDAQ:MCHP) believes that its innovations support next-generation AI workloads and provide scalability for customers. ClearBridge Investments, an investment management company, released its Q1 2025 investor letter. Here is what the fund said: 'Also within the IT sector, we added Microchip Technology Incorporated (NASDAQ:MCHP), which supplies analog and mixed-signal microprocessors for use in the automotive, industrial, computing and other industries. We took advantage of recent weakness in the stock to add to the position. We believe that the return of the company's prior CEO and efforts to rebuild relationships with customers has resulted in Microchip recovering market share to prior levels, and that it represents an attractive cyclical improvement story with asset optimization improvements and good business visibility.' While we acknowledge the potential of MCHP as an investment, we believe certain AI stocks offer greater upside potential and carry less downside risk. If you're looking for an extremely undervalued AI stock that also stands to benefit significantly from Trump-era tariffs and the onshoring trend, see our free report on the best short-term AI stock. READ NEXT: 13 Cheap AI Stocks to Buy According to Analysts and 11 Unstoppable Growth Stocks to Invest in Now Disclosure: None. This article is originally published at Insider Monkey.
Globe and Mail
10-07-2025
- Business
- Globe and Mail
Data I/O to Announce Second Quarter 2025 Financial Results on July 24, 2025
Redmond, Washington--(Newsfile Corp. - July 10, 2025) - Data I/O Corporation (NASDAQ: DAIO), the leading global provider of advanced security and data deployment solutions for microcontrollers, security ICs and memory devices, today announced that it has scheduled a conference call to discuss financial results for the second quarter ended June 30, 2025, on Thursday, July 24, 2025. Management will hold the conference call at 2 p.m. Pacific Time/5 p.m. Eastern Time. Data I/O Corporation will release the company's financial results after the market closes that same day. To listen to the conference call, please dial 412-317-5788. A replay will be made available approximately one hour after the conclusion of the call and will remain available until August 7, 2025. To access the replay, please dial 412-317-0088, access code 6991166. The conference call will also be simultaneously webcast over the Internet; visit the Webcasts and Presentations section of the Data I/O Corporation website at to access the call from the site. This webcast will be recorded and available for replay on the Data I/O Corporation website approximately one hour after the conclusion of the conference call. About Data I/O Corporation Since 1972, Data I/O has developed innovative solutions to enable the design and manufacture of electronic products for automotive, Internet-of-Things, medical, wireless, consumer electronics, industrial controls and other electronics devices. Today, our customers use Data I/O's data programming solutions and security deployment platform to secure the global electronics supply chain and protect IoT device intellectual property from point of inception to deployment in the field. OEMs of any size can program and securely provision devices from early samples all the way to high volume production prior to shipping semiconductor devices to a manufacturing line. Data I/O enables customers to reliably, securely, and cost-effectively bring innovative new products to life. These solutions are backed by a portfolio of patents and a global network of Data I/O support and service professionals, ensuring success for our customers. Learn more at Forward Looking Statement & Disclaimers Statements in this news release concerning economic outlook, expected revenue, expected margins, expected savings, expected results, expected expenses, orders, deliveries, backlog and financial positions, semiconductor chip shortages, supply chain expectations, as well as any other statement that may be construed as a prediction of future performance or events are forward-looking statements which involve known and unknown risks, uncertainties and other factors which may cause actual results to differ materially from those expressed or implied by such statements. Forward-looking statement disclaimers also apply to the demand for the Company's products and the impact from geopolitical conditions including any related international trade restrictions. These factors include uncertainties as to the ability to record revenues based upon the timing of product deliveries, shipping availability, installations and acceptance, accrual of expenses, coronavirus related business interruptions, changes in economic conditions, part shortages and other risks including those described in the Company's filings on Forms 10-K and 10-Q with the Securities and Exchange Commission (SEC), press releases and other communications.
Geeky Gadgets
07-05-2025
- Geeky Gadgets
How to Build a Custom Universal Remote Control for Your Smart Home in 2025
Have you ever found yourself juggling three or more remotes just to watch TV or adjust your smart home devices? It's a frustratingly common scenario in today's tech-filled homes. With the discontinuation of popular solutions like the Logitech Harmony universal remote series, many users are left searching for a versatile, all-in-one remote that doesn't compromise on functionality or comfort. But what if the perfect remote doesn't exist—yet? Here's the bold idea: you can build your own. By combining accessible tools like microcontrollers, 3D printing, and custom PCBs, you can create a tailor-made universal remote that works exactly the way you want it to. No more compromises, no more clutter—just a sleek, personalized device that puts you in control. In this project, you'll discover how to design and assemble a custom universal remote that fits your lifestyle and integrates seamlessly with your smart home setup. From configurable shortcut keys to an ergonomic design that feels great in your hand, this DIY project offers endless possibilities for personalization. Whether you're a tech enthusiast eager to explore microcontroller programming or a smart home user tired of off-the-shelf limitations, this guide by Stock Pot will walk you through the process step by step. By the end, you won't just have a remote—you'll have a tool that transforms how you interact with your home. Because sometimes, the best solutions are the ones you build yourself. Why Build a Custom Universal TV Remote? Modern remotes often fail to meet the needs of users, with limited buttons, poor ergonomics, and short battery life being common complaints. The Logitech Harmony series once addressed these issues, but its absence has left a significant gap in the market. By building your own remote, you can overcome these limitations and design a device that fits your lifestyle. Whether you need a remote for media control, smart home integration, or both, this project allows you to create a solution with features such as: Configurable shortcut keys for quick access to apps or automations for quick access to apps or automations Ergonomic design for comfortable and intuitive use for comfortable and intuitive use Extended battery life for long-term practicality This project is not just about functionality—it's about creating a tool that works exactly the way you want it to, offering both convenience and customization. Key Features and Design Your custom remote can be as simple or advanced as you need, depending on your requirements. Some essential features to consider include: A directional pad for seamless navigation for seamless navigation Media controls such as play, pause, and volume adjustment such as play, pause, and volume adjustment A mute button and quick access to settings and quick access to settings Configurable shortcut keys for launching apps or triggering smart home scenes To enhance usability, you can incorporate context-aware functionality, allowing the remote to adapt based on the room or user. For example, it could automatically adjust its settings when used in a living room versus a bedroom. Additionally, efficient hardware design ensures long battery life, making it a practical tool for everyday use. DIY Custom Universal TV Remote Watch this video on YouTube. Find more information on Raspberry Pi 5 projects and components by browsing our extensive range of articles, guides and tutorials. Hardware and Components The hardware forms the foundation of your custom remote. At its core is the ESP32 microcontroller, chosen for its versatility and built-in Wi-Fi capabilities. The following components are essential for building your remote: A custom PCB to house tactile switches for responsive button presses to house tactile switches for responsive button presses Pull-up resistors to ensure reliable operation of the buttons to ensure reliable operation of the buttons A 3D-printed enclosure for an ergonomic and durable design for an ergonomic and durable design Through-hole components for easier assembly, especially for beginners The 3D-printed universal remote enclosure allows for a high degree of customization, including the use of multimaterial printing for clear button labels or unique designs. This ensures your remote is not only functional but also visually appealing and tailored to your preferences. Step-by-Step Assembly Building your custom remote involves several stages, each critical to achieving a polished and functional final product: 1. Prototyping: Begin by testing the button layout and enclosure ergonomics using 3D-printed prototypes. This step ensures the design is comfortable and intuitive for daily use. Adjust the layout as needed before moving forward. 2. PCB Assembly: Assemble the custom PCB using through-hole components. These components are easier to solder, making the process more accessible for beginners while making sure reliable connections. 3. Wiring and Integration: Connect the components to the ESP32 microcontroller. Test each button and feature to ensure proper functionality before final assembly. 4. Final Assembly: Fit the components into the 3D-printed enclosure. Ensure all parts are securely in place, and the remote is compact, durable, and user-friendly. This structured process allows you to refine your design at each stage and troubleshoot any issues, making sure a high-quality final product. Functionality and Smart Home Integration Your custom remote can go beyond controlling your TV. By integrating it with platforms like Home Assistant, you can manage a variety of smart home devices, including: Lights , allowing you to adjust brightness or turn them on and off , allowing you to adjust brightness or turn them on and off Thermostats , allowing precise temperature control , allowing precise temperature control Air conditioning units, for added convenience and comfort Configurable buttons make it easy to assign specific functions, such as dimming lights, activating preset scenes, or controlling multiple devices simultaneously. For families, you can even design a child-friendly version with simplified controls, making sure ease of use for all ages. This level of integration transforms your remote into a central hub for managing your home environment. Accessibility and Cost This project is designed to be beginner-friendly, making it an excellent introduction to electronics and microcontroller programming. The total cost typically ranges from $20 to $30, provided you have access to basic tools and a 3D printer. Affordable components and open source resources make this project accessible to hobbyists, DIY enthusiasts, and smart home users alike. With minimal investment, you can create a remote that rivals commercial options in both functionality and customization. Limitations and Opportunities While this custom universal remote offers significant flexibility, it does have some limitations. For instance, it lacks an infrared (IR) emitter, which may restrict compatibility with older devices that rely on IR signals. However, its integration with smart home systems and ability to control a wide range of devices make it a powerful alternative to traditional remotes. Additionally, the open source nature of the project allows for further customization. You can expand its functionality by adding features such as voice control, haptic feedback, or additional sensors to suit your evolving needs. This project represents an opportunity to blend creativity, technology, and practicality, resulting in a device that enhances your home automation experience. Media Credit: The Stock Pot Filed Under: DIY Projects, Top News Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
