Festival of Lights… A 'USB Stick' Sparkle Motion WLED driver ✨💡🔌🌟

To wrap up this year, we're doing 8 days (maybe!) of light-filled designs. We started with the Sparkle Motion Mini

which can drive thousands of shimmering RGB LEDs. Next, we were going through some of our NeoPixel samples today and found some "LED Christmas light kit" with star LEDs, its basically these stars

with a little USB plug that has IR, a crummy mic, a tactile switch to cycle modes manually, and a tiny microcontroller that turns the LED selections to different patterns - kinda like this:

The idea is cute - but the implementation could be improved with a lil sparkle motion

! we made a PCB that would fit into the same plastic enclosure but with an ESP32 instead. it's got an IR receiver, ICS-43434 I2S digital microphone

https://www.digikey.com/short/mmv3tthz

gpio 0 button in the 'right' place, 5V 2A fuse, USB-serial converter for uploading/debugging, and two level-shifted outputs. We can probably get the case in quantity or have this be a 'DIY replacement' that folks can use to make their existing setups WLED/xLights friendly.

What is a Bluetooth Mesh Network, and how does it benefit IoT systems?

A Bluetooth Mesh Network is a decentralized communication network where multiple Bluetooth devices connect and relay messages to cover larger areas. This network is highly beneficial for IoT systems as it provides extended range, energy efficiency, and supports large-scale device communication, making it ideal for smart lighting, building automation, and industrial IoT solutions.

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Using the Internet of Things (IoT) in manufacturing has totally changed how stuff gets done, making it way better. It’s like giving factories a major upgrade! This technology has made factories run quicker, smarter, and safer. In this article, we’ll chat about why IoT is so cool and how it’s making manufacturing awesome.

Introducing the AQ20: The Future of Automotive Connectivity

We're excited to spotlight the AQ20, Cavli Wireless's first Made-in-India automotive-grade IoT module. Designed to meet IATF 16949:2016 standards, it ensures reliability and performance in the automotive sector.

Key Features:

📡 LTE Cat 4 Connectivity: Supports peak download speeds of 150 Mbps and upload speeds of 50 Mbps, ensuring fast and reliable data transfer.

🛰️ In-Built GNSS: Equipped with Qualcomm® IZat™ location technology Gen8C Lite, providing precise positioning with support for GPS, GLONASS, BeiDou, Galileo, and QZSS.

📞 VoLTE & SMS Support: Enables high-quality voice communication over LTE networks and supports messaging capabilities like SMS over IMS, SG, and CS.

🔄 2G Fallback: Ensures connectivity in areas with limited LTE coverage by supporting 2G fallback.

🔌 USB 2.0 Interface: Facilitates easy integration with other devices and systems.

🛠�� Yocto Linux Support: Offers a customizable and open-source platform for developers to build and deploy applications.

Applications:

The AQ20 is ideal for various automotive applications, including:

🚙 Telematics: Real-time vehicle tracking and diagnostics.

📍 Navigation Systems: Enhanced GPS navigation with real-time updates.

📡 Fleet Management: Efficient management of vehicle fleets with real-time data.

🔋 EV Charging Stations: Monitoring and management of electric vehicle charging infrastructure.

With its robust features and applications, the AQ20 is set to revolutionize automotive connectivity.

Witness the future of electronics manufacturing with our high-speed Surface Mount Technology (SMT) assembly line. At www.auckam.com, we engineer precision into every PCB—ensuring quality, reliability, and performance for industrial, medical, and IoT-grade applications. Whether you're prototyping or scaling up, our turnkey PCB solutions are built for speed and excellence.

Power Management IC Market Drivers Include Rising IoT Devices, EV Adoption, and Energy-Efficient System Demand

The power management IC market is experiencing strong momentum globally, fueled by technological advancement and shifting consumer needs. These integrated circuits play a critical role in regulating voltage, optimizing energy usage, and ensuring efficient performance in a wide range of electronic devices. As electronics become smarter, smaller, and more power-dependent, the demand for intelligent and compact power management solutions is intensifying. Several key drivers are pushing the PMIC market forward, particularly in automotive, consumer electronics, industrial automation, and communications.

One of the most significant drivers is the explosive growth in connected devices and the Internet of Things (IoT). As homes, cities, factories, and vehicles become increasingly digitized and interconnected, the number of battery-operated and low-power devices is rising rapidly. Each of these devices requires precise energy regulation to ensure prolonged battery life, operational stability, and efficient energy use. Power management ICs enable this by controlling voltage, reducing power leakage, and supporting sleep/wake functions in sensors and communication modules. The expansion of smart home systems, wearable technology, and industrial IoT is therefore directly contributing to the sustained growth of the PMIC market.

Another major driver is the accelerated adoption of electric vehicles (EVs). As the automotive industry transitions from combustion engines to electric powertrains, the demand for highly efficient and compact power management solutions has surged. EVs rely on PMICs to manage power distribution between batteries, control units, motors, infotainment systems, and sensors. These components must perform consistently under a wide temperature range and support complex energy flows. Moreover, hybrid and plug-in vehicles require even more advanced PMIC architectures to handle energy switching between electric and fuel modes. As governments push for stricter emission standards and promote EV adoption through incentives, the automotive segment is expected to remain a dominant force in the growth of power management ICs.

Consumer electronics remain one of the most lucrative markets for PMICs, driven by the popularity of smartphones, tablets, laptops, and gaming devices. Consumers demand lighter, faster, and longer-lasting electronics, and manufacturers are meeting these expectations by optimizing battery life and reducing energy waste. PMICs play an essential role in enabling fast charging, thermal management, and multi-voltage support across components like processors, displays, and memory chips. With the increasing adoption of 5G-enabled devices and foldable smartphones, the complexity of power delivery and regulation within a single device is growing—driving further innovation and demand for intelligent PMICs.

Energy efficiency regulations and sustainability goals are also influencing the market landscape. Governments around the world are introducing stricter energy consumption standards for electronic devices and industrial equipment. Manufacturers are required to comply with these regulations, making power efficiency a key design parameter. PMICs contribute to reduced standby power usage and improved conversion efficiency, helping products meet Energy Star ratings and similar certifications. These regulatory drivers are especially influential in developed markets like North America, Europe, and parts of Asia-Pacific, where energy standards are tightly enforced.

Advancements in semiconductor technology are making PMICs more compact, multifunctional, and cost-effective. System-on-Chip (SoC) designs, which combine multiple functions into a single chip, are increasingly incorporating PMIC modules to reduce board space and enhance integration. These compact solutions are ideal for modern applications where space and energy efficiency are paramount. Additionally, the development of wide bandgap semiconductors, such as gallium nitride (GaN) and silicon carbide (SiC), is enabling more efficient power conversion and thermal performance, opening new avenues for high-power applications in renewable energy and industrial automation.

Industrial automation and robotics are further accelerating the need for reliable power management systems. Factories are becoming increasingly dependent on intelligent machines that require real-time power delivery, control, and monitoring. PMICs support the seamless operation of robotic arms, control systems, sensors, and data processors, making them indispensable in manufacturing environments. As industries pursue Industry 4.0 standards and smart factory models, the demand for rugged and intelligent PMICs will continue to grow.

The telecommunications and data center sectors are also playing a crucial role in the expansion of the PMIC market. With the global rollout of 5G infrastructure and the growing reliance on cloud computing, massive amounts of data must be processed and transmitted with minimal delay and power loss. Power management ICs ensure that servers, base stations, and network devices operate efficiently without overheating or drawing excessive power. The increasing energy consumption of data centers is a key concern, and advanced PMICs help in addressing this by enhancing power conversion efficiency and reducing overall energy costs.

Lastly, rising consumer awareness and expectations regarding device longevity and energy use are subtly influencing product designs across industries. Users now prioritize not just performance, but also energy savings, battery life, and thermal safety in their electronic devices. This behavioral shift encourages brands to invest in better power management solutions, integrating PMICs early in the product development process.

In conclusion, the power management IC market drivers are multifaceted, stemming from rapid technological innovation, sustainability goals, consumer expectations, and the rise of electric and connected systems. As digital transformation deepens across industries, the need for smarter, smaller, and more efficient power regulation will remain a core requirement—positioning PMICs as a central component in the future of global electronics.

Embedded Systems Market Transformation: The Backbone of Modern Digital Infrastructure  

Embedded systems are devices that include a microprocessor or microcontroller and its supporting circuitry. Unlike general-purpose computers, embedded systems are designed to perform predetermined tasks often with real-time computing constraints. They are embedded as part of a complete device often including electrical and mechanical components. Common examples include anti-lock braking systems in vehicles, industrial automation control systems, routers, set-top boxes and medical equipment.

Get More Insights on Embedded Systems   https://www.patreon.com/posts/embedded-systems-131305089  

Leftovers & layout - WLED board revision A completed!

Sunday night, Babyada went to bed early, so we finished the capture and layout of our WLED board. Thanks to all the suggestions, we were able to implement quite a few!

For power, use USB C PD with switch-select or DC up to 24V; they are diode-OR'd together with PMEG3050

https://www.digikey.com/short/zv22b0pq

into a massive 5A 24V fuse

https://www.digikey.com/short/43qwwtwm

For the 5V regulator, we picked NCP718ASN500T1G

https://www.digikey.com/short/bb9ncc0n

- it's linear, but we don't need a lot of current at 5V. For 3.3V, we went with our trusty TPS54202

https://www.digikey.com/short/c1wnnf94

Upon request, we kept the ICS-43434 I2S microphone

https://www.digikey.com/short/28zwrrhz

and added an IR 38KHz receiver. For external connectivity, there's an ADC/DAC/GPIO #27 breakout on a JST SH 3-pin and I2C on a StemmaQT/Qwiic 4-pin.

We also added a 2x3 breakout header with 3V, GND, and 3 more GPIO so you could connect an external microphone, IR receiver, buttons, or rotary encoder. The terminal blocks have three 5V level-shifted outputs with 100 ohm in-line resistors and power/ground pairs for each. If you need just one more LED strand, the fourth 5V signal is on the 2x3 block.

Rounding out the design are four mounting holes, a reset button, GPIO #0 user button, GPIO LED, and an individual NeoPixel, which could be useful for testing. It's still pretty small, 2" x 1.3". With an ESP32-Mini module, we can pick a PCB or wFL antenna port, and it's an easy swap to make it use an ESP32-Pico, which has 2MB PSRAM.

Whatcha think - anything else we should add or watch out for?

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Air Purifier Market Forecast to 2032: Expansion Driven by Pollution and Health Awareness

The global air purifier market is set for significant growth through 2032, driven by increasing awareness of air quality issues, growing urbanization, and heightened health concerns among consumers. With both residential and commercial sectors recognizing the value of clean indoor air, the demand for air purifiers is poised to rise steadily across the next decade.

The air purifier market had already seen a notable uptick in sales, particularly during periods of elevated pollution or health crises. The air purifier market size was valued at USD 16.58 Billion in 2024 to USD 30.63 Billion by 2032, growing at a CAGR of 8.4% in the forecast period (2025-2032). A growing middle class in emerging economies and improved accessibility to consumer electronics are further supporting this expansion.

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Key Market Drivers

Several factors are propelling the air purifier market forward:

Rising Air Pollution Levels: Increasing industrial activities and vehicle emissions, especially in developing regions, have degraded outdoor and indoor air quality. Consumers are turning to air purifiers as a personal solution to mitigate pollution exposure indoors.

Health Awareness: The link between airborne pollutants and respiratory diseases, allergies, and cardiovascular issues is becoming more widely known. Post-pandemic health consciousness has also led to increased investment in personal and home wellness technologies, including air purifiers.

Technological Advancements: Manufacturers are investing in research and development to offer air purifiers with advanced filtration technologies like HEPA, activated carbon, and UV light. Smart features like real-time air quality monitoring, app connectivity, and voice control are also attracting tech-savvy consumers.

Regulatory Support: Some governments are implementing indoor air quality standards and offering subsidies or incentives to encourage cleaner environments, especially in schools, hospitals, and offices.

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Market Segmentation

The air purifier market can be segmented by product type, technology, end-user, and region:

By Product Type: Portable air purifiers continue to dominate due to their affordability and ease of use, though demand for fixed, large-area systems in commercial buildings is also growing.

By Technology: HEPA filters remain the most trusted for allergen removal, while ionic filters and UV technology are gaining traction for their effectiveness against bacteria and viruses.

By End-User: Residential use is the largest segment, but commercial sectors—especially healthcare and hospitality—are rapidly adopting air purification solutions to ensure safety and compliance.

By Region: Asia-Pacific is expected to lead the market due to rapid industrialization and dense urban populations. North America and Europe will continue to show strong growth, largely driven by technological adoption and heightened health concerns.

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Competitive Landscape

The market is highly competitive, with major players focusing on innovation, mergers, and strategic partnerships to expand their market share. Companies are also emphasizing sustainability, introducing eco-friendly models and filters that are more energy-efficient and recyclable.

Top Player’s Company Profile

Dyson

LG Electronics

Philips

Honeywell International Inc.

Sharp Corporation

Blueair (of Sweden)

Panasonic Corporation

Xiaomi Corporation

Coway Co., Ltd.

Daikin Industries, Ltd.

Whirlpool Corporation

Winix Inc.

Electrolux AB

Fellowes Brands

Future Outlook

Looking ahead to 2032, the air purifier market is expected to become more integrated with smart home ecosystems. Artificial intelligence, machine learning, and IoT capabilities will allow purifiers to operate more efficiently and personalize air cleaning to individual preferences. As consumers become more environmentally conscious, demand will also shift toward sustainable and energy-saving models.

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The air purifier market is on a robust growth trajectory, fueled by environmental, technological, and lifestyle changes. As clean air becomes a non-negotiable aspect of modern living, air purifiers will increasingly become a standard feature in homes and workplaces worldwide.

Antenna in Package AiP Market Opportunities Rising with Expansion of Millimeter Wave Technology Globally

The Antenna in Package (AiP) market is gaining significant traction as wireless communication technologies become increasingly integrated into compact, high-performance electronic devices. AiP technology incorporates antennas directly into semiconductor packages, enabling advanced radio frequency (RF) performance while saving space. This innovation is particularly relevant in 5G, millimeter-wave (mmWave), automotive radar, satellite communications, and IoT applications.

Market Drivers

One of the primary drivers of the AiP market is the global rollout of 5G technology, which operates at higher frequencies such as mmWave. These frequencies require advanced antenna solutions capable of handling high data rates and low latency. Traditional printed circuit board (PCB) antennas often fall short in terms of integration and performance. AiP offers a more efficient alternative by reducing interconnect losses and supporting beamforming technologies critical for 5G.

Another major factor is the increasing miniaturization of consumer electronics. Smartphones, wearables, and IoT devices demand compact components that deliver excellent performance. AiP technology meets this requirement by integrating the antenna and RF front-end into a single compact module, freeing up space and improving system-level efficiency.

Technological Advancements

Recent advancements in substrate materials, system-in-package (SiP) technologies, and 3D packaging are making AiP solutions more cost-effective and scalable. Low-temperature co-fired ceramic (LTCC) and organic substrates have enabled better thermal and electrical performance. Integration of multiple functions such as filters, power amplifiers, and transceivers within the package has allowed manufacturers to create multi-functional modules tailored for specific end-uses.

In addition, the evolution of advanced simulation tools and design automation has shortened development cycles and reduced costs, making AiP more accessible to a broader range of industries. These advancements have facilitated faster prototyping and more reliable testing environments.

Key Market Segments

The AiP market can be segmented based on frequency band, end-user application, and geography.

By frequency, the market includes sub-6 GHz and mmWave segments, with mmWave seeing higher growth due to its necessity in 5G and automotive radar applications.

By application, the market is divided into consumer electronics, automotive, telecommunications, aerospace and defense, and industrial IoT.

Geographically, North America and Asia-Pacific dominate the AiP landscape, thanks to the presence of major semiconductor companies and 5G infrastructure deployment.

Regional Insights

Asia-Pacific leads the AiP market due to robust electronics manufacturing ecosystems in countries like China, South Korea, Taiwan, and Japan. Government initiatives to boost 5G and smart city projects further support AiP growth in the region. North America, especially the United States, sees significant demand from telecom providers, defense contractors, and autonomous vehicle manufacturers. Europe is also emerging as a key region, driven by automotive and industrial automation applications.

Competitive Landscape

The AiP market is highly competitive, with key players including Qualcomm, ASE Group, Amkor Technology, Murata Manufacturing, TSMC, and MediaTek. These companies are investing in research and development to improve integration, reduce power consumption, and enhance RF performance. Collaborations, joint ventures, and strategic acquisitions are common strategies to gain market share and accelerate product development.

Startups and mid-sized players are also entering the space with niche AiP solutions for IoT and wearable devices, contributing to market dynamism and innovation.

Challenges and Opportunities

Despite its promise, AiP adoption faces several challenges. High design complexity, thermal management issues, and initial manufacturing costs are significant barriers. Additionally, maintaining signal integrity in densely packed modules remains a technical hurdle.

However, opportunities abound. As mmWave adoption expands and edge computing grows in importance, AiP is poised to play a pivotal role in enabling low-latency, high-speed communication across various devices and systems. The trend toward smart cities, connected vehicles, and AR/VR applications also offers long-term growth potential.

Future Outlook

The AiP market is expected to grow at a CAGR exceeding 15% over the next five years, driven by surging demand across multiple industries. Technological advancements, cost optimization, and expanding 5G infrastructure will be key enablers. As device manufacturers strive to balance performance, size, and power efficiency, AiP is likely to become a standard in RF design and packaging.

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