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Silicon Labs

Silicon Laboratories, Inc. (commonly known as Silicon Labs) is a fabless semiconductor company specializing in the design and development of silicon, software, and solutions for low-power wireless connectivity, with a primary focus on enabling secure and intelligent Internet of Things (IoT) devices.^[1] Founded in 1996 and headquartered in Austin, Texas, the company provides highly integrated system-on-chips (SoCs), microcontrollers, sensors, and mixed-signal integrated circuits that support key wireless protocols including Bluetooth, Wi-Fi, Zigbee, Thread, and multiprotocol coexistence for applications in smart homes, industrial IoT, and smart cities.^[2]^[3] As of 2025, Silicon Labs employs approximately 2,028 people across operations in over 16 countries and generates annual revenue of around $743 million, positioning it as a leader in embedded technology that connects devices to improve efficiency and sustainability in various sectors.^[1]^[2] The company was established by semiconductor veterans Nav Sooch, Dave Welland, and Jeff Scott, who incorporated Silicon Labs in 1996 following a coin toss to decide on the venture.^[4] Its early innovations included a global analog modem for personal computers and the world's first CMOS-based RF synthesizer for mobile phones, which helped the firm achieve profitability within two years and secure $5 million in initial funding from Austin Ventures in 1997.^[4] Silicon Labs went public in 2000 on the NASDAQ stock exchange under the ticker symbol SLAB, raising nearly $100 million in its initial public offering, and has since shipped over 7 billion devices while amassing more than 1,500 patents by 2016, with continued growth in wireless chip deployments exceeding 1 billion units.^[4]^[3] Today, Silicon Labs emphasizes innovation in edge computing, AI integration, and top-tier IoT security, offering developer tools, software platforms, and custom manufacturing services to support rapid prototyping and deployment of connected solutions.^[3] The company operates as a pure-play IoT provider, divesting non-core segments to concentrate on wireless technologies that address global challenges like energy efficiency and climate mitigation, guided by core values of empowering talent, simplifying customer success, accountability, and ethical leadership.^[1] In recent years, it has refreshed its branding with the tagline "Connected Intelligence" to reflect its vision as the undisputed leader in embedded wireless, while committing to environmental, social, and governance (ESG) principles in product design, operations, and supply chain management.^[5]^[1]

History

Founding and early years

Silicon Labs was founded in 1996 in Austin, Texas, by Nav Sooch, Jeff Scott, and Dave Welland, former engineers at Crystal Semiconductor, as a fabless semiconductor company specializing in mixed-signal integrated circuits (ICs). The trio's decision to launch the venture stemmed from their vision to innovate in analog and mixed-signal technologies, targeting large markets like telecommunications with highly integrated, cost-effective solutions. Notably, the founders resolved their uncertainty about leaving stable jobs through a simple coin toss—landing on heads, which propelled them forward into entrepreneurship.^[6]^[4] The company's initial focus centered on developing a silicon direct access arrangement (DAA) technology for telephone line modems, aiming to replace bulky discrete components with a single IC to drastically reduce costs, size, and power consumption while enhancing integration. This breakthrough addressed key pain points in the PC modem market, where traditional designs relied on expensive, space-intensive transformer-based interfaces. In March 1997, Silicon Labs secured $5 million in its first venture capital round from Austin Ventures, enabling rapid prototyping and development. The first DAA product shipped in April 1998 to early customers like PC-Tel and 3Com, quickly gaining traction and establishing market leadership in PC modems.^[4]^[7]^[6] Parallel to the modem innovations, the founders pursued early wireless applications, releasing the world's first CMOS-based RF synthesizer for mobile phones as one of their initial IC designs, laying groundwork for future expansions into RF technologies. Despite the dot-com era's volatility, Silicon Labs navigated early challenges through lean operations and focused R&D, achieving profitability ahead of schedule. The company went public on March 24, 2000, listing on NASDAQ under the ticker SLAB and raising approximately $90.6 million, which fueled further growth and investment in its mixed-signal portfolio.^[4]^[8]

Key milestones and product launches

Silicon Labs marked a significant advancement in wireless technology with the release of its RF synthesis IC in 1999, designed specifically for wireless transceivers. This CMOS-based synthesizer integrated radio frequency functions into standard semiconductor processes, eliminating the need for discrete surface acoustic wave (SAW) filters and oscillator modules, which reduced costs and size for mobile handsets. The product quickly gained traction, securing Samsung as its first customer and achieving over 25% market share in the mobile handset sector by the early 2000s.^[6]^[7] In 2001, the company launched its timing portfolio, featuring clock generators and oscillators tailored for high-speed communications applications. These products addressed the growing demand for precise timing in networking and telecommunications equipment, enabling more reliable signal synchronization and contributing to Silicon Labs' expansion beyond modems into broader mixed-signal solutions.^[6]^[5] The introduction of the C8051 series microcontrollers in 2003 represented a pivotal shift toward low-power mixed-signal integration. These 8-bit MCUs combined an 8051-compatible core with analog peripherals like ADCs and DACs on a single chip, facilitating compact designs for embedded systems in consumer electronics and industrial controls. This line underscored Silicon Labs' focus on energy-efficient processing, setting the stage for its microcontroller dominance.^[6] During the mid-2000s, Silicon Labs expanded into broadcast tuner and digital isolation products, including broadcast radio and TV tuners as well as high-voltage isolation solutions for industrial and automotive uses. These innovations leveraged the company's mixed-signal expertise to support over-the-air signal reception and galvanic isolation, enhancing reliability in harsh environments and broadening applications in media and power systems.^[6] A major leap in IoT connectivity came in 2015 with the launch of the Wireless Gecko platform, which integrated Bluetooth and Zigbee capabilities into energy-efficient SoCs. This platform combined the EFM32 Gecko MCU family with RF transceivers, enabling multiprotocol wireless designs for smart home and industrial IoT devices, and was exemplified by the EFR32 series SoCs that offered sub-GHz and 2.4 GHz support for extended range and low-power operation.^[9]^[10] In 2021, Silicon Labs celebrated its 25th anniversary since founding in 1996, coinciding with a brand refresh that emphasized its leadership in IoT solutions through silicon, software, and connectivity. This milestone highlighted the company's evolution from a startup focused on analog innovations to a global provider of wireless technologies, with over 7 billion devices shipped by that point.^[6]^[4]

Divestitures and recent developments

In 2021, Silicon Labs divested its Infrastructure and Automotive business to Skyworks Solutions in an all-cash transaction valued at $2.75 billion, enabling a sharpened focus on its core Internet of Things (IoT) wireless connectivity solutions.^[11] The deal, completed in July 2021, included the transfer of power/isolation, timing, and broadcast product lines, allowing Silicon Labs to streamline operations and allocate resources toward high-growth IoT markets.^[12] Following the divestiture, Silicon Labs intensified its investment in AI-driven IoT development tools, launching the Simplicity Ecosystem in October 2025, which integrates AI-assisted code generation, debugging, and optimization to accelerate IoT innovation. This suite, anchored by Simplicity Studio 6 (available as of October 2025) and the upcoming Simplicity AI SDK (public launch planned for 2026), supports multi-protocol connectivity for protocols like Matter, Zigbee, and Bluetooth, enhancing developer productivity amid the company's 25+ years of IoT expertise.^[13]^[14] Concurrently, Silicon Labs announced an expanded partnership with GlobalFoundries in October 2025 to develop 40nm system-on-chips (SoCs) at U.S.-based facilities, bolstering domestic semiconductor manufacturing and supply chain resilience for wireless IoT devices.^[15] Financially, Silicon Labs reported first-quarter 2025 revenue of $178 million, reflecting 67% year-over-year growth driven by ramping IoT design wins in industrial and consumer segments.^[16] In the third quarter of 2025, revenue reached $206 million, up 24% year-over-year and 7% sequentially, with gross margins expanding to 58% due to favorable product mix and operational efficiencies from IoT momentum.^[17] Earlier supply chain disruptions, exacerbated by global events, had constrained growth in prior years, but by 2025, Silicon Labs resolved these challenges through diversified sourcing and the IoT production ramp-up, contributing to sustained revenue expansion and profitability improvements.^[18]

Leadership

Executive team

Matt Johnson has served as President and Chief Executive Officer of Silicon Labs since January 2022, leading the company's strategic shift to a pure-play focus on Internet of Things (IoT) solutions following the 2021 divestiture of its infrastructure and automotive business to Skyworks Solutions. Under his leadership, Silicon Labs has emphasized secure, wireless connectivity for smart devices, driving revenue growth and market expansion in edge IoT applications. In 2025, Johnson was recognized as the Austin Business Journal's Best CEO in the public company category for his role in advancing the company's IoT innovations and operational efficiency.^[19]^[20] Daniel Cooley serves as Senior Vice President of Technology & Product Development and Chief Technology Officer, where he oversees the development of advanced wireless technologies critical to Silicon Labs' IoT portfolio. Cooley has been instrumental in building the company's wireless connectivity solutions, including innovations in Bluetooth, Zigbee, and Matter protocols, and has led key acquisitions and R&D initiatives to enhance IoT security and interoperability. His contributions include holding five patents in radio frequency technology, supporting the evolution of low-power, high-performance chips for connected devices.^[19] Serena Townsend is the Chief People Officer, responsible for managing human resources, talent acquisition, and organizational development across Silicon Labs' global operations. With over 25 years of HR experience, Townsend has focused on building diverse, skilled teams to support the company's IoT-driven growth, including initiatives to attract engineering talent for software and hardware development in wireless ecosystems.^[19] Brandon Tolany holds the position of Senior Vice President of Worldwide Sales, Marketing, and Applications, driving the global adoption of Silicon Labs' IoT platforms through strategic partnerships and go-to-market strategies. Tolany leads efforts in ecosystem development, collaborating with developers and partners to integrate Silicon Labs' solutions into broader IoT applications, such as smart homes and industrial sensors, enhancing the company's market penetration.^[19] Other key executives include Dean Butler, Senior Vice President and Chief Financial Officer, who manages financial planning and investor relations to fund IoT product roadmaps and expansions; Robert Conrad, Senior Vice President and General Manager, who oversees IoT platform operations and product lines to accelerate deployment of wireless solutions; Benny Chang, Senior Vice President and General Manager of Software, leading software engineering and product management for IoT solutions; Néstor Ho Gutiérrez, Senior Vice President and Deputy General Manager, focusing on operations and supply chain for global IoT delivery; and Manish Kothari, Senior Vice President of Software Development, driving advancements in IoT software platforms and tools.^[19]

Board of directors

The Board of Directors of Silicon Labs consists of eight members as of 2025, providing oversight on strategic direction, governance, and risk management for the semiconductor company focused on IoT solutions.^[21] The board is structured into three classes with staggered three-year terms to ensure continuity, with Class III directors William G. Bock, Christy Wyatt, and Sherri Luther standing for election in 2025.^[22] Nav Sooch serves as Chairman and independent director; as a co-founder of Silicon Labs in 1996, he brings extensive experience in semiconductor innovation from prior roles as CEO of Ketra and positions at Crystal Semiconductor, Cirrus Logic, and AT&T Bell Labs.^[21] He chairs the Corporate Development and Finance Committee, guiding investments in wireless technologies. Gregg Lowe, an independent director, contributes expertise from his tenure as CEO of Wolfspeed (2017-2024), Freescale Semiconductor, and Texas Instruments, and chairs the Nominating and Governance Committee to align board composition with evolving industry needs.^[21] Sherri Luther, an independent director and financial expert, focuses on audit and compliance matters, drawing from her role as CFO of Coherent Corp. and prior positions at Lattice Semiconductor and Arthur Andersen; she serves on the Audit and Nominating and Governance Committees.^[21] Other key members include Bill Bock, an independent financial expert and former Silicon Labs CFO/President, who chairs the Audit Committee; Nina Richardson, an independent director with operations experience from GoPro and Flex, on the Audit and Corporate Development and Finance Committees; Sumit Sadana, Lead Director and independent with business leadership from Micron Technology and SanDisk, on the Nominating and Governance Committee; Christy Wyatt, an independent director and CEO of Absolute Software with cybersecurity background, chairing the Compensation Committee; and Matt Johnson, President and CEO, providing executive perspective on IoT strategy.^[21]^[22] The board operates through key committees including Audit (emphasizing financial reporting and compliance), Compensation (overseeing executive pay and talent retention), Nominating and Governance (focusing on director qualifications and corporate ethics), and Corporate Development and Finance (directing mergers, investments, and financial strategy).^[23] These committees contribute to governance by prioritizing ESG principles and IoT security standards, with the board receiving quarterly reports from an ESG Steering Committee led by the CFO to integrate sustainability into operations, such as reducing greenhouse gas emissions and ethical supply chain practices.^[24] The board's work aligns with company events like Works With 2025 that highlight AI-driven wireless innovations.^[25]

Products

Wireless connectivity solutions

Silicon Labs offers a range of system-on-chip (SoC) devices and modules designed for wireless connectivity in Internet of Things (IoT) applications, emphasizing low-power operation and multi-protocol support to enable efficient, scalable networks. These solutions include the EFR32 series SoCs, which integrate radio frequency (RF) transceivers with microcontrollers to support protocols such as Bluetooth Low Energy (BLE), Zigbee, and Thread, facilitating seamless communication in smart home and industrial environments.^[26] The EFR32 series, particularly the MG24 and MG21 variants, provides multi-protocol wireless capabilities optimized for mesh networking. The EFR32MG24 SoCs support Matter, OpenThread, Zigbee, BLE, Bluetooth mesh, and proprietary 2.4 GHz protocols, with a 2.4 GHz radio offering up to 19.5 dBm transmit power and receive sensitivity down to -105.7 dBm. These devices operate at voltages from 1.71 V to 3.8 V and feature low-power modes, including a sleep current of 1.3 μA in EM2 DeepSleep with 16 kB RAM retention and real-time clock running. Similarly, the EFR32MG21 SoCs handle Zigbee, Thread, BLE (versions 5 and 5.1), Bluetooth mesh, and Matter, with active receive currents around 9.4 mA for Zigbee/Thread and transmit currents up to 34.9 mA at 10 dBm, supporting up to +20 dBm output power.^[27]^[28] In October 2025, Silicon Labs released its Series 3 wireless SoCs, including the SiMG301 for multiprotocol support (Zigbee, Bluetooth LE, Matter over Thread) and SiBG301 for Bluetooth LE, built on a 22 nm process with up to 4 MB Flash, 512 kB RAM, and PSA Level 4 certified security. These offer enhanced compute, power efficiency, and integration compared to Series 2, while maintaining compatibility.^[29]^[30] For Matter-compatible smart home devices, Silicon Labs' xG21 and xG24 platforms deliver robust connectivity over Thread. The xG21 platform, based on EFR32xG21 SoCs, enables Matter over Thread for OpenThread border routers, providing reliable mesh networking for gateways and hubs in connected lighting and voice assistants. The xG24 platform, utilizing EFR32xG24 SoCs, supports Matter end devices and border routers with enhanced low-power performance, achieving active mode currents of 33.4 μA/MHz and extended battery life for sensors, switches, door locks, and LED lighting.^[31] Silicon Labs also provides Wi-Fi connectivity solutions, including the SiWx917 series SoCs supporting Wi-Fi 6 and Bluetooth LE 5.4 with ultra-low power for battery-operated IoT devices, and modules like SiWx917Y and RS9116 for single/dual-band Wi-Fi. These enable cloud-connected applications in smart homes and industrial settings with features like long battery life and multiprotocol coexistence.^[32]^[33] In long-range IoT scenarios, such as smart metering, Silicon Labs provides Sub-GHz radios through the EFR32FG25 SoCs, which operate in frequency bands like 490 MHz, 866.5 MHz, and 915 MHz for extended coverage in building and city automation. These SoCs deliver up to +16 dBm transmit power with receive currents as low as 6.3 mA at 400 kbps 4-FSK modulation, enabling efficient data transmission over distances suitable for utility applications.^[34] To accelerate prototyping, Silicon Labs offers modules like the MGM240 series, which integrate EFR32MG24 SoCs for rapid development in industrial IoT. The MGM240 modules support Zigbee, Thread, Matter, BLE 5.4, Bluetooth mesh, and proprietary protocols, with variants providing up to 19.9 dBm output power and operating voltages from 1.71 V to 3.8 V. They feature low sleep currents of 1.3 μA and are designed for harsh environments, with temperature ranges up to -40°C to 125°C, allowing quick deployment in smart devices without extensive RF expertise.^[35]

Microcontrollers and processors

Silicon Labs' microcontroller (MCU) portfolio centers on low-power 32-bit devices optimized for embedded IoT applications, with the Precision32 family representing an early emphasis on delivering 32-bit ARM Cortex-M3 performance in compact sensor nodes. Introduced in the early 2010s, the Precision32 SiM3C1xx and SiM3U1xx series provided up to 80 MHz operation, integrated analog peripherals, and energy-efficient architectures suitable for battery-operated sensing tasks, such as environmental monitoring and data acquisition in resource-constrained environments.^[36]^[37] The company's modern offerings, particularly the Series 2 EFM32 MCUs, build on this foundation with ARM Cortex-M33 processors running at up to 80 MHz, enabling secure, high-efficiency processing for ultra-low-power systems. These MCUs, such as the EFM32PG23 family, incorporate advanced energy modes with active current as low as 21 μA/MHz and sleep modes down to 1.03 μA while retaining 16 kB RAM, making them ideal for prolonged battery life in IoT edge devices.^[38]^[39] A key strength of the EFM32 Series 2 lies in their mixed-signal integration, featuring high-performance analog-to-digital converters (ADCs) like the integrated ADC (IADC) supporting 12-, 16-, and 20-bit resolutions at up to 2 Msps for high-speed acquisition or 16-bit effective number of bits (ENOB) at 3.8 ksps for precision measurements. Complementary digital-to-analog converters (DACs), such as the 2-channel voltage DAC (VDAC), along with versatile timers for pulse-width modulation and capture functions, facilitate seamless handling of sensor interfacing and control in analog-heavy applications like signal conditioning and actuation.^[38]^[40] Power management in these MCUs is enhanced by dynamic voltage scaling, which adjusts supply levels for energy modes (e.g., EM0/EM1 at lower voltages) to minimize consumption without compromising performance, achieving optimizations like 0.7 μA in EM4 with real-time clock enabled. This technique extends battery life in always-on scenarios, supporting operation from 1.71 V to 3.8 V across -40 °C to +125 °C temperatures.^[39]^[41] In applications, the EFM32 Series 2 MCUs enable edge AI processing through Cortex-M33 DSP instructions and floating-point units, powering lightweight machine learning inference in connected health devices such as wearables, continuous glucose monitors, and insulin pumps for real-time vital sign analysis. Similarly, in industrial settings, they drive predictive maintenance and anomaly detection in battery-powered tools, building automation sensors, and circuit breakers, leveraging their low-power profile for reliable, autonomous operation.^[42]^[43]^[44]

Software and development tools

Silicon Labs provides a comprehensive suite of software platforms and development tools designed to streamline the creation, testing, and deployment of Internet of Things (IoT) solutions. Central to this ecosystem is Simplicity Studio, an integrated development environment (IDE) that supports code development, debugging, and performance analysis for Silicon Labs' wireless and microcontroller-based devices. Built on the Eclipse framework, Simplicity Studio version 5 and later versions offer features such as project import/export, code editing, one-click access to software development kits (SDKs), and integration with analysis tools for real-time monitoring.^[45]^[46]^[47] The Gecko SDK Suite serves as the foundational software package for developing IoT applications, integrating wireless protocol stacks, application frameworks, and the Gecko Platform for 32-bit microcontrollers. This suite combines multiple SDKs into a unified structure, enabling developers to build applications for Series 0 and Series 1 devices while providing libraries for peripherals, utilities, and services. It ensures long-term support and maintenance for wireless connectivity features without requiring changes to existing device compatibility.^[48]^[49]^[50] For enhanced interoperability in smart home ecosystems, Silicon Labs integrates the Matter SDK into its development tools, leveraging protocols like Thread and Wi-Fi to create unified wireless connectivity solutions. This integration allows developers to prototype and deploy Matter-compliant devices directly within Simplicity Studio, including support for Visual Studio Code extensions and project migration from legacy tools. The Matter SDK facilitates accessory device development, emphasizing seamless communication across diverse smart home environments.^[51]^[52]^[31] Optimization of power consumption is addressed through specialized tools like the Energy Profiler, embedded within Simplicity Studio, which visualizes energy usage for individual devices, multi-node systems, or interconnected networks. This tool captures real-time data via debug interfaces on starter kits, enabling developers to identify inefficiencies and refine applications for low-power IoT deployments. It supports session-based analysis to correlate energy profiles with code execution, aiding in the design of battery-efficient solutions.^[53]^[54]^[55] In 2025, Silicon Labs introduced significant updates to its software ecosystem, including AI-assisted code generation capabilities within the Simplicity Platform to accelerate prototyping and development workflows. Launched in October 2025, this next-generation suite incorporates AI for automation, adaptive debugging, and intelligent application generation, extending across tools to provide contextual project insights and collaborative features. These enhancements aim to reduce development time for IoT devices by automating routine tasks and optimizing code based on hardware constraints.^[13]^[56]

Technologies

Security features

Silicon Labs' Secure Vault technology provides an integrated hardware-based security suite designed to protect IoT devices from sophisticated threats, incorporating a hardware root of trust (RoT) and secure elements for cryptographic key storage and management. The hardware RoT serves as the foundational trust anchor, utilizing immutable ROM code to initiate secure operations and prevent unauthorized modifications, while secure elements offer tamper-resistant storage for sensitive data such as private keys. This architecture defends against both remote software attacks and local hardware intrusions by isolating critical security functions in a dedicated Secure Engine microcontroller.^[57]^[58]^[59] A key aspect of Secure Vault is its compliance with the Arm Platform Security Architecture (PSA). In 2021, it achieved PSA Certified Level 3 status for its root of trust implementation in Series 2 wireless SoCs, validating robust protection against substantial software and hardware attacks through independent verification, including secure boot processes that authenticate firmware integrity using cryptographic signatures. In August 2025, Secure Vault attained the world's first PSA Certified Level 4 certification for Series 3 SoCs, offering the highest level of security assurance against advanced threats. Additionally, Secure Vault supports over-the-air (OTA) firmware updates with signature validation and anti-rollback mechanisms to maintain update authenticity, alongside anti-tampering protections that detect and respond to physical attacks like voltage glitching or side-channel exploits.^[60]^[61]^[62]^[63] In October 2025, Silicon Labs launched Series 3 SoCs, built on a 22 nm process with a multi-core architecture that separates application, wireless, and security workloads to enhance performance and isolation in Secure Vault implementations.^[29] To address regulatory requirements in the European Union, Silicon Labs' Secure Vault-equipped SoCs comply with the EN 18031:2024 cybersecurity standards under the Radio Equipment Directive (RED), facilitating secure deployment of internet-connected radio equipment by providing mechanisms for access control, secure storage, and vulnerability management. The immutable hardware RoT further enhances this compliance by establishing a non-alterable foundation that blocks unauthorized access attempts, ensuring device integrity throughout the product lifecycle even in the face of evolving threats.^[58]^[64]

Supported protocols

Silicon Labs integrates a range of wireless protocols into its IoT solutions to enable seamless interoperability across devices, focusing on low-power, reliable connectivity for smart home and industrial applications. These protocols are supported through multiprotocol wireless SoCs and software stacks that allow simultaneous operation, ensuring compatibility with diverse ecosystems.^[65] Bluetooth Low Energy (BLE) is a cornerstone of Silicon Labs' offerings, optimized for short-range communication in consumer devices such as wearables, sensors, and smart accessories. It provides efficient, low-power data transfer over distances up to 100 meters, with support for versions up to Bluetooth 5.4 in multiprotocol configurations that coexist with other standards like Zigbee or Thread. Silicon Labs' EFR32 Series 2 SoCs enable BLE for battery-operated IoT endpoints, facilitating quick pairing and data exchange in personal area networks.^[65]^[66] Zigbee and Thread protocols are prominently featured in Silicon Labs' portfolio for mesh networking in smart homes, enabling robust, self-healing networks that scale to hundreds of nodes. Zigbee, operating in the 2.4 GHz band, supports low-data-rate applications like lighting and HVAC controls, with Silicon Labs providing certified stacks for interoperability in ecosystems such as Amazon Alexa. Thread, an IP-based mesh protocol, complements Zigbee by offering IPv6 connectivity for secure, scalable home automation, integrated into Silicon Labs' EFR32xG24 devices for low-power operation. Both protocols leverage Silicon Labs' multiprotocol capabilities to run concurrently, enhancing device flexibility without compromising range or reliability.^[67]^[66]^[68] The Matter standard, launched with Silicon Labs' support in 2022, unifies smart home ecosystems by providing a common IP-based framework for interoperability across brands. Matter enables seamless control of devices via Wi-Fi, Thread, or Ethernet, with Silicon Labs offering native integration through its wireless SoCs and SDKs, including commissioning via Bluetooth. This support accelerates development for multi-vendor environments, reducing fragmentation in connected homes.^[69]^[70] Z-Wave is supported by Silicon Labs for low-power home automation, utilizing sub-GHz frequencies for extended range and penetration through walls, ideal for security systems and sensors. The protocol's mesh topology allows up to 4,000 nodes per network, with Silicon Labs' Z-Wave 800 Series SoCs providing enhanced security and long-range variants like Z-Wave LR for point-to-point connections up to several miles. This enables reliable, interference-free operation in dense environments.^[71]^[72]^[73] For broader connectivity, Silicon Labs incorporates Wi-Fi 6 and Sub-GHz protocols to address high-throughput and long-range needs in IoT deployments. Wi-Fi 6 support in the SiWx917 family delivers ultra-low-power operation with features like Target Wake Time for battery life extension, suitable for video streaming and cloud-connected devices in 2.4 GHz and 5 GHz bands. Sub-GHz protocols, including proprietary and standard options like those for smart metering, offer superior range and low data rates for industrial and outdoor applications, integrated into multiprotocol SoCs for coexistence with 2.4 GHz standards.^[32]^[74]^[65]^[75]

Business operations

Acquisitions

Silicon Labs has pursued a strategy of acquisitions to expand its portfolio in mixed-signal semiconductors, wireless connectivity, and Internet of Things (IoT) technologies, integrating acquired technologies to enhance its core offerings in microcontrollers, sensors, and networking solutions.^[76] These moves have allowed the company to bolster its expertise in low-power, high-performance ICs, particularly for energy-efficient applications in consumer electronics, industrial automation, and smart home devices. In August 2000, Silicon Labs acquired Krypton Isolation Inc. for approximately $42 million in cash, gaining proprietary all-silicon isolation technology that enabled the development of digital isolators for reliable data transmission in noisy environments.^[77] This acquisition strengthened Silicon Labs' position in power and isolation products, which became integral to its infrastructure solutions for telecommunications and industrial systems, providing galvanic isolation without optocouplers to improve reliability and reduce costs.^[78] The company further expanded its microcontroller (MCU) capabilities in 2003 by acquiring Cygnal Integrated Products for about $60 million in stock.^[79] Cygnal's portfolio of over 50 analog-intensive, 8-bit MCUs complemented Silicon Labs' existing mixed-signal expertise, enabling entry into the general-purpose MCU market and accelerating development of precision analog peripherals for embedded applications.^[80] The integration diversified Silicon Labs' product line, contributing to its growth in low-power computing for battery-operated devices. In 2005, Silicon Labs purchased Silicon Magike Inc. for $16 million in cash, acquiring mixed-signal ICs focused on high-speed interfaces for consumer electronics.^[81] This deal added video processing and connectivity technologies, such as HDMI and DVI controllers, which were integrated into Silicon Labs' broader semiconductor offerings to support multimedia applications in displays and set-top boxes. Three years later, in July 2008, the acquisition of Integration Associates for $80 million net of cash introduced advanced optical sensing technologies, including ambient light and proximity sensors.^[82] These sensors enhanced Silicon Labs' human-machine interface solutions, enabling energy-efficient display management in mobile devices and portable gadgets by automatically adjusting brightness and detecting user proximity.^[83] Silicon Labs continued expanding its low-power portfolio in July 2013 with the acquisition of Energy Micro for approximately $170 million, adding nearly 250 ARM Cortex-M based MCUs and sub-GHz wireless technologies that strengthened its offerings in energy-efficient embedded systems and IoT sensor networks.^[84] A pivotal expansion in wireless networking occurred in July 2012 when Silicon Labs acquired Ember Corporation for $72 million.^[85] Ember's expertise in low-power 2.4 GHz Zigbee mesh networking protocols provided Silicon Labs with robust software stacks and chipsets for scalable sensor networks, significantly advancing its IoT platform for smart energy, home automation, and building controls.^[86] The integration accelerated adoption of Zigbee solutions, targeting a market projected to grow from $100 million in 2012 to $600 million by 2016. In February 2015, Silicon Labs acquired Bluegiga Technologies for $61 million in cash, gaining leadership in Bluetooth Low Energy (BLE) and Wi-Fi modules, which enhanced its wireless connectivity solutions for developers building IoT devices and wearables.^[87] In April 2020, Silicon Labs completed the $308 million cash acquisition of Redpine Signals' connectivity business, including its Wi-Fi, Bluetooth assets, India development center, and patent portfolio.^[88] This move bolstered Silicon Labs' wireless portfolio with ultra-low-power Wi-Fi 6 and Bluetooth Low Energy technologies, facilitating multi-protocol connectivity for IoT devices in smart homes and industrial settings.^[76] The acquired assets expedited Silicon Labs' roadmap for secure, high-efficiency wireless solutions, enhancing interoperability across ecosystems. Following the 2020 acquisition and the 2021 divestiture of its Infrastructure and Automotive business to Skyworks for $2.75 billion, Silicon Labs shifted emphasis toward organic growth and IoT-focused innovation, with no major acquisitions reported through 2025.^[11]^[89]

Industry associations

Silicon Labs maintains active memberships in several key industry associations focused on advancing IoT connectivity and security standards. As a promoter member of the Connectivity Standards Alliance (CSA), formerly known as the Zigbee Alliance, the company contributes to the promotion and development of Zigbee, Thread, and Matter protocols, enabling interoperable smart home ecosystems.^[90]^[91] In collaboration with the Z-Wave Alliance, Silicon Labs expanded its role in 2019 by becoming a silicon supplier, broadening access to Z-Wave technology for smart home applications and fostering ecosystem growth through standardized, low-power wireless solutions.^[92]^[93] Silicon Labs is a member of the Bluetooth Special Interest Group (SIG), where it supports advancements in Bluetooth Low Energy (LE) technology, including contributions to mesh networking features and enhanced security for IoT devices.^[90]^[94] The company participates in the PSA Certified program, administered by Arm, achieving the world's first Level 4 certification in August 2025 for its Series 3 Secure Vault, which benchmarks robust security against sophisticated attacks like fault injection, thereby elevating industry standards for IoT hardware protection.^[95]^[63]^[96] Through these associations, Silicon Labs leads working groups, particularly in the IEEE 802.15.4 and CSA, to drive multi-protocol interoperability, allowing seamless integration of protocols like Zigbee, Thread, and Bluetooth LE on shared hardware platforms.^[90]^[65] Additionally, the company contributes to sustainability initiatives within these groups by advocating for energy-efficient designs that reduce power consumption in IoT deployments, aligning with broader goals for environmentally responsible connected ecosystems.^[97]^[98]

Global locations

Silicon Labs is headquartered at 400 West Cesar Chavez in Austin, Texas, USA, serving as the primary hub for research and development (R&D) as well as executive operations. This central location coordinates global engineering efforts and houses key teams focused on semiconductor innovation and IoT solutions.^[99] Within the United States, the company maintains additional offices in Boston, Massachusetts, which specializes in wireless design and IoT software development, including platform and protocol teams. Another key site is in San Jose, California, at 2550 N First Street #200, supporting IoT applications and sales activities in the region. These facilities enhance Silicon Labs' domestic presence for design and market engagement.^[99]^[100] Internationally, Silicon Labs operates offices in Hyderabad, India, where its Wireless Development Center focuses on software development and embedded systems engineering. In Singapore, the office at 18 Tai Seng Street #05-01 functions as the Asia-Pacific international headquarters, primarily handling sales and regional operations. The Oslo, Norway, location at Sandakerveien 118 emphasizes RF engineering, stemming from the 2013 acquisition of Energy Micro, which bolstered expertise in low-power wireless technologies.^[101]^[99]^[84] Design centers are also established in Budapest, Hungary, at Graphisoft Park, supporting hardware and applications engineering, and in Montreal, Canada, at 1010 Rue De La Gauchetière O., contributing to broader R&D initiatives. Overall, Silicon Labs maintains operations across more than 16 countries, enabling a distributed footprint for global collaboration in wireless connectivity and IoT development.^[99]^[1] In 2025, the company expanded its U.S. fabrication partnerships, notably with GlobalFoundries, to enhance supply chain resilience through advanced 40nm low-power process technology for wireless system-on-chips, accelerating domestic chip manufacturing for IoT applications.^[102]

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[PDF] united states - Silicon Labs Investor Relations
We raised $90.6 million through our initial public offering in March 2000. During fiscal 2000, cash provided by operating activities was $22.6 million. This ...
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Silicon Labs Launches World's First Integrated Development ...
Feb 23, 2015 · Simplicity Studio™ Ecosystem Enhances Developer Productivity for IoT Projects with Concurrent 8/32-Bit Microcontroller and Wireless Design.
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Silicon Labs' First Salvo in IoT SoCs: Blue Gecko - EE Times
Feb 24, 2015 · Silicon Labs' Blue Gecko SoC integrates, on a single die, 2.4GHz Bluetooth Low Energy transceiver with Silicon Labs' energy-friendly EFM32 Gecko MCU.<|separator|>
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Silicon Labs Announces Agreement to Divest Infrastructure and ...
Apr 22, 2021 · Silicon Labs announces agreement to divest infrastructure and automotive business. Company to become pure-play leader of intelligent, wireless connectivity for ...Missing: brand refresh
[12]
Skyworks completes acquisition of Silicon Labs' Infrastructure ...
Jul 26, 2021 · The acquisition encompasses the technology portfolios and related assets of Silicon Labs' power/isolation, timing and broadcast product lines, ...
[13]
Silicon Labs Unveils the Next Evolution of IoT Development with the ...
Oct 22, 2025 · "By integrating AI into every layer of our tools, we will give developers a platform that learns, adapts, and accelerates innovation across the ...Missing: driven | Show results with:driven
[14]
Silicon Labs Unveils the Next Evolution of IoT Development with the ...
Oct 22, 2025 · "By integrating AI into every layer of our tools, we will give developers a platform that learns, adapts, and accelerates innovation across the ...
[15]
GlobalFoundries and Silicon Labs Expand Partnership to Accelerate ...
Oct 30, 2025 · GlobalFoundries and Silicon Labs Expand Partnership to Accelerate Wireless Connectivity Solutions and Strengthen U.S. Chip Manufacturing.
[16]
Silicon Labs Reports First Quarter 2025 Results - PR Newswire
May 13, 2025 · Revenue was $178 million · Industrial & Commercial revenue for the quarter was $96 million, up 47% year-over-year · Home & Life revenue for the ...
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https://www.prnewswire.com/news-releases/silicon-labs-reports-third-quarter-2025-results-302603551.html
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Board of Directors | Silicon Laboratories
### Current Board Members as of 2025
[20]
PRE 14A - SEC.gov
THE BOARD OF DIRECTORS OF SILICON LABORATORIES INC. Dated: March 12, 2025. 51. Table of Contents. Appendix I: Reconciliation of GAAP to Non-GAAP Executive ...
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Committee Composition - Silicon Laboratories
Sherri Luther Financial ExpertVice-Chair of the BoardIndependent Director, Member ofthe Audit committee ; Nina Richardson Independent Director, Member ofthe ...
[22]
[PDF] Connecting the World through Sustainable Innovation - Silicon Labs
The Silicon Labs Board of Directors oversees the ESG Steering Committee and receives quarterly reports on ESG issues, practices, and reporting. The Board helps ...
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Silicon Labs Announces Global Works With 2025 IoT Conference ...
Sep 4, 2025 · From live demos to visionary insights, Works With 2025 highlights how AI, software, and wireless innovation are converging to transform daily ...
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[PDF] Enabling a More Sustainable World - Silicon Labs
Feb 26, 2025 · Silicon Labs focuses on low-power products, green energy, ethical supply chains, and aims to reduce greenhouse gas emissions, with a strategy ...
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Silicon Labs EFR32 Wireless Gecko Technology Features
The low-power, feature rich, and secure system-on-chip devices (SoCs) and accompanying software are ideal to meet demands of IoT systems.Missing: launch | Show results with:launch
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EFR32MG24 Series 2 Multiprotocol Wireless SoC - Silicon Labs
The EFR32MG24 Wireless SoCs are ideal for mesh IoT wireless connectivity using Matter, OpenThread and Zigbee protocols for smart home, lighting, and building ...Efr32mg24 Common Specs · Low System Energy... · Wide Selection Of Mcu...
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EFR32MG21 Series 2 Multiprotocol Wireless SoC - Silicon Labs
EFR32MG21 devices are 2.4 GHz wireless SoCs optimized for line-powered Zigbee, Thread and Bluetooth mesh applications.
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Matter Protocol - IoT Device Development - Silicon Labs
Simplify your Matter protocol development experience - start prototyping Matter IoT wireless devices today with hardware, software, and development tools.
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EFR32FG25 Long range Sub-GHz Wireless SoCs - Silicon Labs
EFR32FG25 wireless SoCs are an ideal solution for long range, Sub-GHz wireless connectivity for smart metering, lighting, city and building automation.Efr32fg25 Common Specs · Wide Selection Of Mcu... · Find The Right Efr32fg25...
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EFR32MG24 Series 2 Multiprotocol Modules - Silicon Labs
MGM240 is a family of certified 2.4 GHz wireless modules, based on EFR32MG24, and the most advanced Series 2 modules for Zigbee, Thread, and Matter devices.
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[PDF] The Precision32 Family of Mixed-Signal MCUs | Silicon Labs
The new Silicon Labs MCU combines a Cortex-M3 CPU, flash memory, and a variety of analog interfaces. The initial Precision32 products come in two basic types: ...
[32]
ARM Cortex M3 Microcontroller - SiM3C1xx - Silicon Labs
Silicon Labs' Precision32 SiM3C1xx ARM Cortex M3 based 32-bit microcontroller family offers benefits of low power and analog capabilities.
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EFM32 PG23 32-bit Low Power Microcontroller - Silicon Labs
In stockThe EFM32PG23 32-bit microcontroller (MCU) family is a software compatible MCU-only version of the award-winning EFR32xG23 wireless SoC platform.
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[PDF] EFM32PG23 Gecko Family Data Sheet - Silicon Labs
Voltage scaling helps to optimize the energy efficiency of the system by operating at lower voltages when possible. The. EM0 / EM1 voltage scaling level ...
[35]
EFM32 Peripherals - Silicon Labs
Using DMA and a timer, the DAC can be used to generate waveforms without any CPU intervention. 12-bit @ 500 ksps at only 200 µA; 2 independent channels ...
[36]
[PDF] EFM32PG22 Gecko MCU Family Data Sheet - Silicon Labs
Voltage scaling helps to optimize the energy efficiency of the system by operating at lower voltages when possible. The. EM0 / EM1 voltage scaling level ...
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MCU AI/ML - Intelligence and Embedded Systems - Silicon Labs
Jun 26, 2024 · In this blog, we will examine the intersection of MCU technology and AI/ML, and how it affects low-power edge devices.
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Connected Health Wireless IoT Solutions - Silicon Labs
Develop connected health solutions with our high-performance wireless SoCs and modules. Jumpstart your clinical medical or portable medical device design.
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Training - Silicon Labs
Applications. Connected Health. Smart Hospitals. Industrial IoT. Access Control; Battery Powered Tools; Building Automation; Circuit Breakers; Commercial ...
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Simplicity Studio® 5 User's Guide | Overview
It provides access to target device-specific web and SDK resources; software and hardware configuration tools; an integrated development environment (IDE) ...
[41]
New Features | Overview | Simplicity Studio 5 Users Guide | v5.11.2
Powerful integrated development environment (IDE). Built on latest Eclipse framework (v4.14 and newer) · Valuable insights with Silicon Labs analysis tools.
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Simplicity Studio 6 Software - Silicon Labs
Simplicity Studio 6 Key Features · Explore, install, and manage wireless protocol SDKs with one-click access to examples and documentation · Access to analysis ...Simplicity Studio Version 4 · Simplicity Commander · Visual Studio Code Extension
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SiliconLabs/gecko_sdk: The Gecko SDK (GSDK) combines ... - GitHub
The Gecko SDK (GSDK) combines Silicon Labs wireless software development kits (SDKs) and Gecko Platform into a single, integrated package.
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Software Development Kit (SDK) Release Notes - Silicon Labs
The Gecko SDK will continue to support all Series 0 and 1 devices with no change to the long-term support, maintenance, quality, and responsiveness provided ...Simplicity Sdk Release Notes... · Bluetooth Le Release Notes · Bluetooth Mesh Adk Release...
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v4.0 - Gecko Platform API Documentation Silicon Labs
Gecko Platform is the common foundation for the Gecko SDK Suite. Gecko Platform Components #. EMLIB Peripheral Library · Common Utilities · Drivers · Services ...
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Silicon Labs Matter | latest
The Matter protocol leverages existing IP technologies, including Wi-Fi and Thread, to build a unified wireless connectivity ecosystem for smart homes.Missing: integration | Show results with:integration
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Quick-Start Guides for Matter over Thread and Matter over Wi-Fi
The Silicon Labs Matter over Wi-Fi demo and development for SoC mode requires the SiWx917 SoC board that supports Matter over Wi-Fi in a single-chip package.Missing: xG21 platforms
[48]
Energy Profiler - Silicon Labs
Simplicity Studio® 5 (SSv5)'s Energy Profiler enables you to visualize the energy consumption of individual devices, multiple devices on one target system, ...
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Energy Profiler | Simplicity Studio 5 Users Guide | latest | Silicon Labs
Simplicity Studio 5 (SSv5)'s Energy Profiler enables you to visualize the energy consumption of individual devices, multiple devices on one target system.
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[PDF] UG343: Multi-Node Energy Profiler User's Guide - Silicon Labs
Multi-Node Energy Profiler enables you to visualize the energy consumption of individual devices, multiple devices on one target.
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Shaping the Future of IoT Development with the Simplicity AI SDK
Oct 14, 2025 · Introducing the Simplicity AI SDK, Silicon Labs' new AI-enabled software development suite that will shape the future of IoT development.Missing: driven | Show results with:driven
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Secure Vault for IoT Security - Silicon Labs
Secure Vault technology is an industry-leading integrated IoT security suite protecting devices, data, and IP from escalating and evolving security threats.Missing: elements | Show results with:elements
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[PDF] How Silicon Labs Secure Vault SoCs Help You Meet EN 18031 ...
Aug 5, 2025 · The Security Engine (SE) MCU provides the hardware “Root of Trust” which is the immuta- ble ROM boot code and then also runs the First Stage ...
[54]
[PDF] Security in IoT - Silicon Labs
+Root of Trust. +Secure Element. Secure Vault. True Random. Number Generator. ✓. ✓. ✓. ✓. Crypto Engine. ✓. ✓. ✓. ✓. Secure Boot. ✓. ✓. ✓. ✓. Secure Boot with ...
[55]
Silicon Labs' Secure Vault Becomes World's First IoT Security ...
Mar 16, 2021 · "Silicon Labs is the first silicon provider to achieve PSA Certified Level 3 status, demonstrating a proven PSA Root of Trust and a solution ...
[56]
Third Party Accreditation - Silicon Labs
Our Series 2 Wireless SoCs with Secure Vault™ were the first chips in the world to achieve Arm PSA Level 3 certification and now our Series 3 Secure Vault™ is ...
[57]
[PDF] AN1504: Series 3 Security Overview - Silicon Labs
Secure boot ensures that firmware is authentic by verifying the signature of that firmware using a tamper-resistant public key. The firmware is only allowed to ...
[58]
[PDF] Stay Ahead of Global IoT Security Regulations - Silicon Labs
Aug 1, 2025 · 2. Standard EN 18031-2 outlines four access control mechanisms for toys and childcare products, some of which may not be compatible with ...
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Multiprotocol Wireless Connectivity - Silicon Labs
Multiprotocol software and wireless SoCs support simultaneous Bluetooth low energy, Zigbee, Thread, and Sub-GHz wireless connectivity.
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Thread Mesh Networking - IPV6, Wireless Thread Network
... IoT devices based on the EFR32xG24 and support the development of 2.4 GHz wireless protocols including BLE, Bluetooth mesh, Zigbee, Thread and Matter.
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Wireless Solutions for IoT Gateways - Silicon Labs
The pre-verified solutions ensure compatibility with leading wireless standards (Thread, Zigbee, Bluetooth, Z-Wave, Wi-Fi) and ecosystems like Amazon Alexa, ...
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EFR32MG12 Thread and Zigbee SoCs (Series 1) - Silicon Labs
In stockEFR32MG12 device support Zigbee, Thread, Bluetooth mesh, multiband and multiprotocol wireless connectivity and include Bluetooth low energy and 2.4 GHz and sub ...
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Looking Ahead to 2023 in the IoT Industry - Silicon Labs
Dec 30, 2022 · In November, we headed to Amsterdam to officially welcome the new Matter standard, headlining the event and spreading the word that at the ...
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Matter Bridge for Non-Matter Devices - Silicon Labs
But after more than two years of development and refinement, the long-anticipated industry-unifying Matter protocol, which was released in October 2022, is ...
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Z-Wave Mesh Network Wireless Solutions - Smart Home - Silicon Labs
In stockSilicon Labs Z-Wave technology is ideal for developing smart home devices using Z-Wave mesh networking and Z-Wave Long Range. Review our ZWave solutions.
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Matter vs Z-Wave: What You Need to Know - Silicon Labs
Jul 11, 2024 · Since Z-Wave and Z-Wave LR are in the 800-900 MHz band, they can also coexist with other 2.4 GHz protocols, such as Matter and Wi-Fi without ...
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Z-Wave Long Range Introduction - Silicon Labs
In stockZ-Wave LR offers point-to-point wireless connectivity up to several miles, supporting thousands of nodes and eliminating the need for mesh repeaters.
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Wi-Fi IoT Solutions - Wi-Fi chips (SoCs), Wi-Fi modules - Silicon Labs
Silicon Labs' Wi-Fi portfolio features Wi-Fi 6 and Wi-Fi 4 SoC solutions that support Wi-Fi and Bluetooth with ultra-low power consumption for long battery ...Wi-Fi Developer Journey · Wi-Fi Coexistence Learning... · Wi-Fi SoC and Module...
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Wi-Fi 6: Addressing the Greater Density of Wi-Fi IoT Devices
In stockSep 13, 2022 · Wi-Fi 6 helps address these challenges with new features such as OFDMA, MU-MIMO, beamforming, BSS coloring, and Target Wake Time, to name a few.
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[PDF] Why Sub-GHz? - Silicon Labs
May 23, 2024 · ▫ Recommended Protocols: 2.4GHz Mesh (Zigbee, Matter, Thread) ... ▫ Recommended Protocols: 2.4GHz Mesh (Zigbee, Matter), Wi-Fi, Bluetooth LE.<|control11|><|separator|>
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Silicon Labs to pay $308 million in cash to acquire Redpine Signals ...
Mar 12, 2020 · Silicon Labs to pay $308 million in cash to acquire Redpine Signals' Wi-Fi® and Bluetooth® assets, development center in India and extensive patent portfolio.
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Silicon Labs, Krypton complete merger - EE Times
– Communications-chip supplier Silicon Laboratories Inc. here today announced the completion of its acquisition of Krypton Isolation Inc. for about $42 ...Missing: acquires | Show results with:acquires
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Silicon Labs acquires Krypton Isolation - 2000-08-08 - Crunchbase ...
Announced Date Aug 8, 2000 · Acquisition Type Acquisition · Price $42M · Acquisition Status Complete · Disposition of Acquired Organization Combined · Acquisition ...
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Silicon Laboratories - Silicon Labs Investor Relations
Today we signed a definitive agreement to acquire Cygnal Integrated Products for approximately 1.2 million shares of common stock totaling $60 million dollars ...
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Silicon Labs to acquire Cygnal Integrated Products - EE Times
Sep 25, 2003 · Silicon Laboratories said it will exchange 1.2 million shares of its common stock in exchange for Cygnal's capital, and reserve another 1.3 ...
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Silicon Labs acquires startup Silicon Magike - EE Times
Aug 22, 2005 · on Monday (August 22) announced the acquisition of Silicon Magike Inc., a developer of mixed-signal integrated circuits (ICs), for $16 million ...
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Silicon Labs buys Integration Associates - EE Times
Jun 24, 2008 · Silicon Laboratories Inc. has signed a definitive agreement to acquire Integration Associates Inc. for $80 million.
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Silicon Labs To Acquire Integration Associates, Diversified Mixed ...
Silicon Laboratories Inc. announced that it has signed a definitive agreement to acquire Silicon Valley-based Integration Associates, described as an innovator ...
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Silicon Labs Completes Acquisition of Ember
This strategic acquisition brings Silicon Labs the technology and software expertise required to enable the low-power mesh sensor networks being deployed today.
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Silicon Labs Acquires Ember, Gains Low-Power 2.4 GHz Wireless ...
May 21, 2012 · This strategic acquisition brings Silicon Labs the technology and software expertise required to enable the low-power mesh sensor networks being ...
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Silicon Labs Completes Acquisition of Redpine Signals' Connectivity ...
Apr 28, 2020 · The acquired Redpine connectivity business enables people, teams and businesses around the world to remain safe, productive and in touch.
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IoT Alliances - Silicon Labs
We are members of the IEEE 802.11 and 802.15.4 working groups, defining the standards and driving the future of technology globally. Itut alliance ...
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Silicon Labs talks about Matter Adoption - CSA-IOT
Dec 17, 2024 · Email. Latest Alliance News. The Connectivity Standards Alliance Expands Board with CableLabs as Newest Promoter Member. October 21, 2025. Read ...
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Silicon Labs and Z-Wave Alliance Expand Smart Home Ecosystem ...
Dec 19, 2019 · Silicon Labs and the Z-Wave Alliance expand the smart home ecosystem by opening Z-Wave to silicon and stack suppliers.
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Silicon Labs and Z-Wave Alliance Expand Smart Home Ecosystem ...
Dec 19, 2019 · The Z-Wave Alliance will expand to a standards development organization for the Z-Wave Specification and will continue to manage the Z-Wave ...
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Silicon Labs Supports New Bluetooth® Mesh Feature ... - Stock Titan
Sep 19, 2023 · Silicon Labs Supports New Bluetooth® Mesh Feature Enhancements & Networked Lighting Control Standardized Profiles · New Features Available Today ...
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Silicon Labs Achieves First PSA Certified Level 4 Product
Aug 4, 2025 · 2016: Lead Partner with Arm on the Cortex-M33, the inaugural M-class CPU with TrustZone. 2019: First to launch a wireless SoC with Cortex-M33, ...<|control11|><|separator|>
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Silicon Labs Extends IoT Security Leadership with World's First PSA ...
Aug 4, 2025 · "Being the first to achieve PSA Level 4 certification is a powerful validation of our leadership in IoT security and our focus on accelerating ...Missing: program participation
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Providing Security Robustness | Silicon Labs x PSA Certified
Explore how Silicon Labs became the World's first company to achieve PSA Certified Level 3 and what this means for the electronics industry.Missing: program participation
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Ambient IoT – The Future of Sustainable IoT - Silicon Labs
Jul 8, 2024 · With Ambient IoT, developers can now build devices using an energy-friendly platform that minimizes power consumption, improves device longevity ...
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Contact Us - Silicon Labs
Sales Office Locations · China (Beijing) · China (Hangzhou) · China (Shanghai) · China (Shenzhen) · Finland · France · Germany · Italy.
[92]
Senior Software QA Engineer - Careers at Silicon Labs
Oct 14, 2025 · Our Boston office host various teams belonging to the IoT software division, including Platform, wireless tools and protocols, quality assurance ...
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Silicon Labs India
Contact ; Contact. +9140 6903 1000 info-hyd@silabs.com ; Address ; Address. Silabs India Private Limited Salarpuria Sattva Knowledge City, Octave – 3 Parcel-4, 2nd ...<|control11|><|separator|>
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Silicon Labs Completes Acquisition of Energy Micro
Jul 1, 2013 · The acquisition greatly expands Silicon Labs' 32-bit MCU and wireless SoC portfolio, adding nearly 250 energy-friendly MCUs and new low-power ...
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GlobalFoundries and Silicon Labs Expand Partnership to
Oct 30, 2025 · GlobalFoundries and Silicon Labs Expand Partnership to Accelerate Wireless Connectivity Solutions and Strengthen U.S. Chip Manufacturing.