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Ralink RT2560F on a Wi-Fi Mini PCI Card

Key Information

Ralink RT63365E on a Wi-Fi router and access point from Huawei

Ralink Technology, Corp. is a Wi-Fi chipset manufacturer mainly known for their IEEE 802.11 (Wireless LAN) chipsets. Ralink was founded in 2001 in Cupertino, California, then moved its headquarters to Hsinchu, Taiwan. On 5 May 2011, Ralink was acquired by MediaTek.

Some of Ralink's 802.11n RT2800 chipsets have been accepted into the Wi-Fi Alliance 802.11n draft 2.0 core technology testbed. They have also been selected in the Wi-Fi Protected Setup (WPS) and Wireless Multimedia Extensions Power Save (WMM-PS) testbeds. Ralink was a participant in the Wi-Fi Alliance and the IEEE 802.11 standards committees.[1] Ralink chipsets are used in various consumer-grade routers made by Gigabyte Technology, Linksys, D-Link, Asus and Belkin, as well as Wi-Fi adaptors for USB, PCI, ExpressCard, PC Card, and PCI Express interfaces. An example of an adapter is the Nintendo Wi-Fi USB Connector which uses the Ralink RT2570 chipset to allow a Nintendo DS or Wii to be internetworked via a home computer.

Operating systems support

[edit]

Ralink provides some documentation without a non-disclosure agreement.[2] This includes datasheets of their PCI and PCIe chipsets, but for now does not include documentation of their system on a chip used in Wireless routers.

Linux

[edit]

Drivers for MediaTek Ralink wireless network interface controllers were mainlined into the Linux kernel version 2.6.24. (See Comparison of open-source wireless drivers.) Ralink provides GNU General Public License-licensed (GPL) drivers for the Linux kernel. While Linux drivers for the older RT2500 chipsets are no longer updated by Ralink, these are now being maintained by Serialmonkey's rt2x00 project. Current Ralink chipsets require a firmware to be loaded. Ralink allows the use and redistribution of firmware, but does not allow its modification.

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Ralink

View on Grokipedia
from Grokipedia
Ralink Technology, Corp. was a fabless semiconductor company that designed, developed, and sold wireless local area network (WLAN) chipset solutions, with a primary focus on Wi-Fi technologies compliant with IEEE 802.11 standards. These chipsets were widely used in consumer electronics, broadband gateways, personal computers, and embedded networking devices, enabling high-throughput wireless connectivity. Founded in 2001 in Cupertino, California, Ralink established its headquarters in Hsinchu, Taiwan, while maintaining an R&D center in the United States and sales offices in China, Europe, and Japan. The company rapidly expanded in the mid-2000s, becoming a leading innovator in single-chip solutions that supported multiple protocols, including 802.11n, known for their superior performance in throughput and power efficiency. In , Ralink merged with TrendChip Technologies in a stock-for-stock deal valued at approximately $165 million, enhancing its capabilities in broadband access technologies, particularly DSL/ADSL. This positioned Ralink among the top fabless chip firms globally, with combined annual revenues exceeding NT$7.3 billion by 2009. In March 2011, MediaTek announced its acquisition of Ralink through a share swap at a ratio of 1:3.15, in a transaction valued at NT$18.2 billion (about $616 million), which took effect on October 1, 2011. The merger integrated Ralink's expertise into 's portfolio, strengthening the latter's position in mobile and non-mobile wireless markets, including smartphones and home networking. Post-acquisition, Ralink operated as a of , continuing to contribute to advancements in wireless solutions until its operations were fully absorbed, with the Ralink brand discontinued in 2013.

History

Founding and Early Years

Ralink Technology was founded in 2001 in , as a fabless company focused on developing (IC) chipsets for wireless local area network (WLAN) applications. The company specialized in physical-layer solutions for emerging wireless standards, aiming to provide cost-effective connectivity for . In the mid-2000s, Ralink relocated its headquarters to , , to leverage the region's ecosystem, while maintaining a key research and development (R&D) center in for advanced design work. Sales offices were established in , , and to support global market expansion and customer integration. This structure enabled efficient operations across design, manufacturing partnerships, and distribution. The company's early efforts centered on IEEE 802.11b and 802.11g chipsets, targeting consumer devices such as wireless routers, USB adapters, and embedded modules for home and small office networks. Ralink launched its inaugural products in 2002 with the RT2420, a 2.4 GHz radio supporting 802.11b at up to 11 Mbps, followed by the RT2500 series in 2003-2004 for 802.11g compatibility at 54 Mbps. These chipsets gained traction through collaborations with original equipment manufacturers (OEMs), including integration into routers from , , and , which helped establish Ralink's presence in the burgeoning market. By the late , Ralink had achieved substantial growth, employing around 500 people across its global operations and reporting quarterly revenues exceeding NT$1.9 billion in mid-2010, reflecting strong demand for its wireless solutions amid the rise of adoption. This period marked the 's transition from a startup to a key player in the fabless IC sector, with a focus on scalable, high-performance WLAN technologies.

Merger with TrendChip

In March 2010, Ralink Technology Corporation announced a merger agreement with TrendChip Technologies Corporation, structured as a stock-for-stock acquisition where Ralink would absorb TrendChip to integrate their respective expertise in and access solutions. TrendChip, founded in 2001, specialized in broadband integrated circuits, particularly DSL and xDSL (CPE) chipsets, including its ADSL2+ TC3162 series, which positioned it as a leading Asian supplier in high-performance, cost-effective solutions. The strategic rationale for the merger centered on expanding Ralink's portfolio—previously focused on chipsets—into access technologies, thereby achieving operational synergies, cost efficiencies through shared resources, and stronger competitiveness in the evolving market for converged networking devices. Under the merger terms, shareholders exchanged each 0.8209 share of TrendChip for one share of Ralink, valuing the transaction at approximately $165.4 million (around NT$5.1 billion at prevailing exchange rates), with a combined entity of about NT$20 billion and 2009 revenues exceeding NT$7.3 billion; the deal was completed in 2010, with Ralink as the surviving company. Immediately following the merger, Ralink benefited from an broadened product lineup incorporating TrendChip's DSL solutions, pooled R&D capabilities for integrated wireless-broadband innovations, and initial forays into telecom equipment markets for CPE and access devices.

Acquisition by MediaTek

In March 2011, announced its acquisition of Ralink Technology Corporation through an all-stock transaction valued at approximately NT$18.2 billion, equivalent to about $616 million USD at the time. The deal was structured as a share swap, with Ralink shareholders exchanging their shares at a ratio of 1 share for every 3.15 Ralink shares, and it was completed on October 1, 2011. This acquisition followed Ralink's earlier merger with TrendChip, which had expanded its offerings into broadband solutions and increased its strategic appeal. MediaTek's primary motivation was to enhance its wireless connectivity portfolio by integrating Ralink's specialized expertise in Wi-Fi chipsets with its strengths in mobile SoCs and multimedia technologies, thereby expanding into growing markets like smartphones, tablets, and consumer electronics. The move allowed MediaTek to offer more comprehensive solutions combining Wi-Fi, Bluetooth, and broadband access, positioning it better in the competitive semiconductor landscape. Post-acquisition, Ralink functioned as a wholly owned and key division within , retaining its focus on development while transitioning products to the MediaTek branding, such as the MT series chipsets that built on Ralink's RT lineage for routers and adapters. This integration facilitated continued innovation in standards like 802.11n and beyond, with Ralink's engineering teams contributing to MediaTek's broader ecosystem. The acquisition marked a notable consolidation in Taiwan's fabless semiconductor sector, bolstering MediaTek's global standing against established competitors like and by combining Ralink's niche wireless market share with MediaTek's scale in mobile chips. Ralink's enduring legacy includes its foundational role in open-source driver support, particularly through the rt2x00 family in the , which MediaTek has maintained and extended for ongoing compatibility in consumer devices.

Products

Wireless LAN Chipsets

Ralink's core offerings in wireless LAN chipsets centered on single-chip and system-on-chip (SoC) solutions designed for 802.11b/g/n standards, with extensions into 802.11ac developed following the acquisition, primarily in form factors like USB dongles and PCIe cards for client and access point applications. These chipsets emphasized high integration to reduce system costs and complexity, incorporating baseband processors, media access controllers (MAC), and radio frequency (RF) components on a single die. For instance, the RT5370 was a USB 2.0 interface SoC supporting 802.11n at up to 150 Mbps on the 2.4 GHz band, featuring an integrated 802.11n baseband and MAC for compact wireless adapters. Similarly, the RT3290 provided PCIe connectivity for 802.11b/g/n operations in laptop and desktop environments. Key chipset series included the RT2xxx lineup for initial 802.11g deployments, such as the RT2561, which supported basic wireless connectivity in early consumer devices. The RT3xxx and RT5xxx families advanced to 802.11n capabilities, with models like the RT2860 offering 2T3R configurations for up to 300 Mbps throughput and compatibility with dual-band RF companions like the RT2820 for 2.4 GHz and RT2850 for 5 GHz operations. These series incorporated features such as multiple-input multiple-output () technology to improve signal reliability and throughput in dense environments. Ralink chipsets found widespread integration in consumer networking equipment, including routers from manufacturers like , , , and , as well as laptops and embedded devices, leveraging their cost-effective design and support for to enable reliable home and small office networks. Examples include the RT-G32 router, which utilized Ralink hardware for 802.11g/n performance, and various models incorporating RT series chips for access point functionality. This high level of adoption stemmed from the chipsets' balance of performance and affordability, facilitating broad in the mid-2000s boom. As a fabless company, Ralink focused on design and outsourced manufacturing to foundries like , enabling scalable production without owning fabrication facilities. This model supported efficient volume shipments, with Ralink reporting targeted sales growth reflecting millions of units deployed annually in the wireless market leading up to 2011. Following MediaTek's acquisition of Ralink in 2011, the chipset lineup evolved into the MT76xx series, such as the MT7601U (a 150 Mbps 802.11n USB successor to RT5370-like designs) and MT7610U (433 Mbps 802.11ac ), preserving Ralink's architectural heritage while integrating MediaTek's broader ecosystem for enhanced performance.

Broadband Access Solutions

Following the merger with TrendChip Technologies in 2010, Ralink expanded its portfolio to include wired broadband access solutions, primarily DSL chipsets and Ethernet components designed for customer premises equipment (CPE) and gateways. These products targeted telecommunications infrastructure, enabling high-speed internet delivery in residential and small office environments. A key offering was the TC3162 series of ADSL2+/ chipsets, which provided an integrated system-on-chip (SoC) solution combining a processor and analog front-end (AFE) for CPE routers and modems. For instance, the TC3162L2H/P2H featured a 200MHz RISC processor, enhanced discrete multi-tone (DMT) , and support for up to 24 Mbps downstream rates on ADSL2+ lines, along with impulse noise protection (INP) for reliable IPTV delivery. Paired with the TC3086 AFE, this minimized component count while supporting bridge and router applications in broadband access gateways. Ralink also incorporated Ethernet switch chips like the TC2206, a 10/100 Mbps switch tailored for applications in embedded router systems and integrated access devices (IADs). This five-port solution, compliant with standards, facilitated connectivity in (NGN) platforms and home gateways. Complementing these were energy-efficient designs, such as the TC2205F switch, which integrated IEEE 802.3az features including low-power idle mode and link detection to reduce consumption in setups, aligning with green compliance requirements for telecom equipment. Post-merger, Ralink's combined R&D efforts with TrendChip produced converged SoCs by 2010-, enhancing integration for DSL modems and gateways. After MediaTek's acquisition of Ralink in , production continued under the RT series, exemplified by the RT63260, a single-chip ADSL2+ SoC with embedded 32-bit MIPS processor, DMT engine, and AFE supporting up to 24 Mbps downstream for legacy home gateways and CPE. These solutions served markets like telecom CPE and IADs, emphasizing cost-effective, low-power wired access in NGN ecosystems.

Technology and Features

Supported Wi-Fi Standards

Ralink's early Wi-Fi chipsets provided support for the IEEE 802.11b standard, delivering data rates up to 11 Mbps through (DSSS) modulation in the 2.4 GHz frequency band, as exemplified by the introduced in 2002. These initial offerings focused on basic wireless connectivity for consumer devices, emphasizing low power consumption and integration. The achieved 44 mA in receive mode and 42 mA in transmit mode, setting early benchmarks for WLAN power efficiency. By the mid-2000s, Ralink expanded compatibility to include IEEE 802.11g, which employed (OFDM) to achieve speeds of up to 54 Mbps while ensuring seamless operation with existing 802.11b networks. Chipsets like the RT2561 series implemented this standard, enabling higher throughput for applications such as home networking and early multimedia streaming. Prior to its 2011 acquisition by , Ralink developed support for drafts of the IEEE 802.11ac standard, targeting higher throughput in the 5 GHz band with features like wider channels and , positioning the company in next-generation innovations. Advancements in the late introduced support for IEEE 802.11n, incorporating multiple-input multiple-output () technology and channel bonding for theoretical data rates up to 600 Mbps across both 2.4 GHz and 5 GHz bands. The RT2860 chipset, released around 2007, achieved draft 2.0 compliance through testing, marking Ralink's entry into high-performance wireless solutions. Subsequent models, such as the RT5390 series in 2010, offered single-stream 802.11n configurations reaching 150 Mbps, suitable for compact devices like laptops. Ralink's chipsets underwent rigorous certification to ensure interoperability and adherence to security protocols, including WPA2 for enhanced encryption and authentication. While Ralink did not develop native support for IEEE 802.11ax, its contributions to 802.11n and 802.11ac drafts provided foundational elements for subsequent innovations in later generations. Backward compatibility was a core design principle across all Ralink chipsets, allowing mixed-mode operations that supported legacy 802.11b/g alongside newer standards for gradual network upgrades.

Key Innovations and Chipset Capabilities

Ralink's chipsets pioneered high levels of integration in solutions, combining multiple functions into single-chip designs to streamline manufacturing and reduce costs. For instance, the RT5370 is a highly integrated USB single chip that incorporates an 802.11n MAC, , 2.4 GHz RF , power amplifier (PA), (LNA), and transmit/receive (T/R) switch, enabling compact implementations in devices like adapters and embedded modules. This approach simplifies and lowers bill of materials (BOM) costs for manufacturers by minimizing the need for discrete components. Similarly, the RT5350 system-on-chip (SoC) integrates an 802.11n-compliant 1T1R MAC/ (BBP), PA, and RF alongside a MIPS CPU core and Ethernet ports, supporting versatile applications in routers and access points. In terms of , Ralink chipsets incorporated advanced low-power modes tailored for mobile and embedded devices, emphasizing efficiency in battery-constrained environments. The RT5350 further enhanced this with USB power management features, including selective suspend support and dynamic to reduce idle power draw, alongside dual power rails for optimized voltage scaling during operation. These capabilities extended to dynamic adjustment in later models, allowing adaptive performance to workload demands while maintaining compatibility with USB suspend states for deeper idle modes. Ralink advanced multi-antenna technologies through implementations of and in its 802.11n chipsets, enhancing throughput and coverage in congested environments. The RT3592, a dual-band solution, supports 2x2 configuration, enabling up to 300 Mbps PHY rates by leveraging multiple spatial streams for improved signal reliability and range over both 2.4 GHz and 5 GHz bands. This chipset's capabilities, compliant with 802.11n standards, focused transmit signals toward client devices to boost link quality without additional hardware. Such features were instrumental in extending performance for multimedia and high-density applications, building on baseline IEEE protocols for practical gains in real-world deployments. Ralink's proprietary firmware stack provided robust software features for enhanced usability in access point (AP) and client modes, including (WPS) for simplified device onboarding, (QoS) mechanisms via Wi-Fi Multimedia (WMM), and support for multiple SSIDs to segment networks. The , as detailed in Ralink's AP SDK, enables software-based QoS classification for traffic prioritization, ensuring low-latency handling of voice and video streams in multi-user scenarios. WPS integration allowed one-button secure connections, while multi-SSID functionality supported up to multiple virtual networks per radio, facilitating guest access and isolation without additional hardware. These elements were optimized for Ralink's SoCs, offering seamless integration in router like . Ralink amassed a significant intellectual property portfolio in wireless SoC design, filing over 100 patents related to technologies such as processing, power optimization, and RF integration. Key contributions included innovations in maximum likelihood estimation for receivers and auto-provisioning methods in networks. In , Ralink secured a multi-year to WiLAN's extensive patent portfolio covering and technologies, enabling broader adoption of its chipsets through resolved IP cross-licensing. This agreement underscored Ralink's role in the collaborative ecosystem for standards compliance.

Operating System Support

Linux Integration

Ralink's wireless LAN chipsets benefit from robust open-source driver support within the , enabling compatibility across a wide range of distributions. The primary drivers include the rt2x00 family, which handles earlier RT2xxx and RT3xxx series chipsets, and the mt76 driver for subsequent MT7xxx series following the 2011 acquisition. These drivers are fully integrated into the mainline kernel, providing native support without requiring proprietary installations. Key modules within the rt2x00 suite, such as rt2800usb for USB interfaces on chipsets like RT2870 and RT3070, were introduced in Linux kernel 2.6.31 and have since received continuous updates for stability and performance. The mt76 driver, targeting post-acquisition hardware like MT7612 and MT7921, supports PCIe, USB, and SDIO interfaces and entered mainline support around kernel 4.19, with enhancements for power management and multi-band operation added in later versions. Community-driven development has been central to these drivers' evolution, with the rt2x00 project originating as an open-source initiative to unify support for Ralink devices using the cfg80211 subsystem and Wireless Extensions API. Contributors have submitted patches for bug fixes and feature enhancements, improving integration in distributions such as and through upstream kernel mailing lists. Supported features encompass station (STA) and access point (AP) modes, monitor mode for packet capture, and packet injection for wireless testing tools, though initial implementations faced limitations due to dependencies on proprietary firmware blobs for full functionality. Stability issues, such as connection drops, were addressed through community-submitted fixes integrated into kernels from 2.6.28 onward. As of 2015, rt2x00 achieved comprehensive mainline status, while has actively maintained the mt76 driver with upstream contributions, including support for and beyond in kernels 5.10 and later. The mt76 driver continues to receive updates as of 2025, with improvements in kernels up to 6.12 and later for enhanced stability and support for Wi-Fi 6E, ensuring ongoing compatibility and performance optimizations.

Windows and Embedded Systems

Ralink developed official NDIS-compliant drivers for Windows operating systems, supporting versions from XP through 10, to enable wireless connectivity on desktop and laptop systems equipped with their chipsets. These drivers, exemplified by netr28ux.sys for USB-based adapters, underwent WHQL certification by Microsoft to verify stability, performance, and adherence to hardware quality standards. Following the acquisition by MediaTek in 2011, support for these legacy drivers persisted, with downloads available via MediaTek's broadband Wi-Fi product pages for business partners or directly from OEM vendors like Lenovo and HP. The Windows drivers incorporated proprietary features tailored for user-facing applications, including a native configuration utility known as the Ralink WLAN Utility for managing network profiles, signal strength monitoring, and advanced settings. This utility facilitated enterprise-grade capabilities, such as 802.1X authentication for secure wireless access in corporate environments. Drivers were commonly pre-installed or bundled with OEM hardware, such as wireless adapters in routers or integrated modules in laptops, ensuring seamless integration without requiring end-user intervention for basic setup. For embedded platforms, Ralink provided RTOS compatibility and development tools to support IoT and networking devices, including for access point and uClinux for MIPS-based wireless interface cards. SDKs, such as the APSoC SDK, enabled creation for routers, allowing integration of Ralink chipsets into real-time applications with features like USB mode switching and . Some Ralink-based devices also utilized for embedded operations, particularly in recovery and emergency modes. However, limitations exist with older Ralink chipsets, which often lack official updates for , relying instead on compatibility modes or third-party modifications that may compromise reliability. In contrast to the community-maintained open-source drivers for , Windows and embedded support emphasizes , closed-source components optimized for vendor-specific ecosystems.

References

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