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Maxim Integrated Products, Inc., was an American semiconductor company that designed, manufactured, and sold analog and mixed-signal integrated circuits for the automotive, industrial, communications, consumer, and computing markets. Maxim's product portfolio included power and battery management ICs, sensors, analog ICs, interface ICs, communications solutions, digital ICs, embedded security, and microcontrollers. The company is headquartered in San Jose, California, and has design centers, manufacturing facilities, and sales offices worldwide.[1] In 2021, the company was acquired by Analog Devices.

History

[edit]

Maxim was founded in April 1983. The founding team included Jack Gifford, a semiconductor industry pioneer since the 1960s and co-founder of Advanced Micro Devices; Fred Beck, an IC sales and distribution pioneer; Dave Bingham, General Electric’s Scientist of the Year in 1982; Steve Combs, a pioneer in wafer technologies and manufacturing; Lee Evans, also a pioneer in CMOS analog microchip design and General Electric’s Scientist of the Year in 1982; Dave Fullagar, inventor of the first internally compensated operational amplifier circuit; Roger Fuller, a pioneer in CMOS microchip design; Rich Hood, development director for some of the first microprocessor-controlled semiconductor test systems; and Dick Wilenken, who is acknowledged as the father of key analog switch and multiplexer technologies.

Based on a two-page business plan, they obtained US$9 million in venture capital financing to establish the company.[2]

In its first year, the company developed 24 second source products.

In 1985, the company introduced the MAX600.

Maxim recorded its first profitable fiscal year in 1987, with the help of the MAX232.

In 1988, the company became a public company via an initial public offering.[3]

In 1989, the company purchased its first wafer fabrication facility, in Sunnyvale, California, from bankrupt Saratoga Semiconductor for only $5-million.[4]

In 1994, the company acquired the integrated circuits division of Tektronix, based in Beaverton, Oregon, giving it high-speed bipolar processes for wireless RF and fiber-optic products.[5]

In 1997, the company acquired a wafer fab in San Jose, California from IC Works for $42 million.[6]

In April 2001, the company acquired Dallas Semiconductor in Dallas, Texas in a stock transaction, to gain expertise in digital and mixed-signal CMOS design, as well as an additional wafer fab.[7]

In October 2003, the company acquired a submicrometre CMOS fab from Philips in San Antonio, Texas for $40 million to ramp up capacity and support processes down to the 0.25-micrometre level.[8][9]

In May 2007, the company acquired an 0.18-micrometre fab from Atmel in Irving, Texas, for $38 million, approximately doubling fab capacity.[10] In August 2007, it acquired Vitesse Semiconductor’s Storage Products Division in Colorado Springs, Colorado, adding Serial ATA (SATA), Serial Attached SCSI (SAS), and enclosure-management products to Maxim’s product portfolio.[11]

From October 2007 to October 2008, Maxim's common stock was delisted from the Nasdaq Stock Exchange due to the company's inability to file financial statements related to stock option backdating. Maxim's stock was traded over-the-counter and quoted via Pink Sheets LLC until the company completed its restatement in 2008.[12][13] Maxim's CFO Carl Jasper resigned due to an investigation into the issue by Maxim's board of directors.[14] Maxim restated its earnings in September 2008 and was relisted on the Nasdaq Stock Exchange on October 8, 2008.[15]

In 2008, the company acquired Mobilygen based in Santa Clara, California, to add H.264 video-compression technology to its portfolio.[16]

In 2009, the company acquired Innova Card, headquartered in La Ciotat, France, to enrich its position in the financial transaction terminal semiconductor market.[17] It also acquired two product lines from Zilog: the Secure Transactions product line, featuring the Zatara family and the hardware portion of Zilog's Wireless Control product line, commonly found in universal remote controls.[18][19]

In 2010, the company acquired Teridian Semiconductor from Golden Gate Capital for $315 million. Teridian was a fabless semiconductor company based in Irvine, California, supplying System-on-a-chip (SoC) for the smart meter market.[20][21] It also acquired Trinity Convergence Limited, a software company based in Cambridge, United Kingdom, a part of the ecosystem to bring Skype video conferencing to the LCD TV market. It also acquired Phyworks, a supplier of optical transceiver chips for the broadband communications market, for $72.5 million.[22][23]

In November 2010, the company shipped its first analog product on a 300mm wafer.[24]

In July 2011, the company acquired SensorDynamics, a semiconductor company that develops proprietary sensor and microelectromechanical systems.[25] Also in 2011, it acquired Cambridge Analog Technologies, a company based in Billerica, Massachusetts, that focused on licensing analog designs including low power ADCs and other analog blocks.

In 2012, the company acquired Genasic Design Systems, a fabless RF chip company that makes chips for LTE applications.[26]

In October 2013, the company acquired Volterra Semiconductor, a manufacturer of power management equipment.[27]

In February 2018, the company acquired Icron Technologies, a manufacturer of USB and video extension products.[28]

In June 2020, the company acquired Trinamic, a producer of motion control products.[29]

On August 26, 2021, the company was acquired by Analog Devices.[30]

References

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Maxim Integrated

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from Grokipedia
Maxim Integrated Products, Inc., commonly known as Maxim Integrated, was an American semiconductor company that designed, manufactured, and marketed analog and mixed-signal integrated circuits for a wide range of applications. Headquartered in San Jose, California, it was originally incorporated in California in 1983 and reincorporated as a Delaware corporation, growing into a global leader in innovative semiconductor solutions over nearly four decades. The company's product portfolio focused on high-performance linear and mixed-signal devices, including amplifiers, data converters, power management ICs, sensors, interfaces, microcontrollers, and RF solutions, which enabled compact, energy-efficient, and secure systems in demanding environments. These technologies were particularly noted for their reliability in extended temperature ranges and integration capabilities, supporting advancements in signal processing, connectivity, and power optimization. Maxim Integrated served diverse end-markets, with significant revenue from the industrial sector (32% in fiscal year 2020), alongside automotive, communications and data centers, consumer electronics, and healthcare applications. Its operations included design centers worldwide, a company-owned wafer fabrication facility in the U.S., and testing and assembly sites in the Philippines and Thailand, while relying on third-party foundries like TSMC for advanced manufacturing. Founded by a team of engineers from , Maxim Integrated emphasized rapid innovation and acquisition strategies to expand its capabilities, completing several deals in the and to bolster its analog expertise, such as the purchase of wafer fabrication assets and specialized IC firms. By the , it had established itself as a key player in the analog space, with products integral to mobile devices, cloud infrastructure, and industrial automation. In July 2020, announced its acquisition of Maxim Integrated in an all-stock deal valued at approximately $21 billion (combined enterprise value over $68 billion), which was completed on August 26, 2021, following regulatory approvals. This merger combined Maxim's strengths in high-growth areas like automotive and with ' broader portfolio, projecting $275 million in annual cost synergies while preserving Maxim's brand for its products. Post-acquisition, Maxim Integrated operates as a of , contributing to its leadership in analog semiconductors and serving over 100,000 customers globally.

History

Founding and early years

Maxim Integrated was founded on April 14, 1983, in Sunnyvale, California, by Jack Gifford, a veteran of the semiconductor industry who had previously worked at Fairchild Semiconductor, co-founded Advanced Micro Devices (AMD), and served as president of Intersil. The company started as a fabless semiconductor firm, specializing in the design of analog and mixed-signal integrated circuits to complement the growing dominance of digital technology. Gifford assembled an initial team of ten engineers and executives, drawing on semiconductor veterans from Fairchild Semiconductor—such as analog designer Dave Fullagar—and National Semiconductor, along with colleagues from Intersil, to leverage their expertise in linear IC development and sales. This group operated with limited venture capital of about $9 million, focusing on high-performance analog solutions for applications like data conversion and power management where digital ICs fell short. In its early years, Maxim faced significant challenges as a startup without in-house fabrication capabilities, relying instead on external foundries to produce its chips, which introduced risks in yield, reliability, and cost control. The company initially developed second-source products to existing analog ICs to build and credibility, but was key to differentiation. In 1985, Maxim launched its first proprietary product, the MAX600, a precision IC that provided stable output for analog systems and marked the company's entry into original design . Despite these efforts, early operations were hampered by net losses from heavy R&D investments and a 1984 lawsuit from alleging misappropriation of trade secrets, which was settled through a product and technology agreement. By 1987, Maxim relocated its headquarters to , to access a larger talent pool and expanding infrastructure, supporting its growing operations. This move coincided with accelerating sales, driven by products like the transceiver introduced in 1987, which helped the company achieve its first profitable fiscal year in 1987. Revenues reached $28.3 million in fiscal 1988, with net income of approximately $3 million. These milestones solidified Maxim's position in the analog IC market during the late .

Growth and IPO

In 1988, Maxim Integrated went public through an on the under the MXIM, raising approximately $16 million to fuel as well as operational expansion. This IPO, conducted shortly after the 1987 stock market crash, marked a significant milestone for the company, enabling it to scale its analog operations beyond its early fabless model. The funds supported investments in design tools and talent acquisition, aligning with the firm's foundational emphasis on high-performance analog integrated circuits. The company experienced robust revenue growth throughout the 1990s, surpassing $100 million in annual sales by 1993 and reaching $150 million by fiscal 1994. This expansion was driven by the proliferation of its MAX series product families, which included essential components such as data converters and operational amplifiers tailored for telecommunications, portable devices, and industrial applications. By fiscal 2000, revenues had climbed to $1.376 billion, reflecting strong market demand for these analog and mixed-signal solutions amid the dot-com boom. Operational scaling accompanied this financial progress, with the employee base growing from a few dozen in the late to over 1,500 by 1995, supporting enhanced design and production capabilities. In late 1989, Maxim acquired its first wafer fabrication facility from the bankrupt Saratoga Semiconductor for $5 million, transitioning toward in-house manufacturing to improve control over quality and supply chains for its growing product portfolio. These developments solidified the company's position as a key player in the analog IC market during the decade.

Expansion and acquisitions

Maxim Integrated pursued an aggressive expansion strategy through , completing over 19 deals between 1990 and 2020 to broaden its technological capabilities and market reach. Activity peaked in with three acquisitions and remained robust from 2011 to 2013, featuring multiple transactions that enhanced its analog and mixed-signal portfolio. This approach allowed the company to integrate specialized expertise without relying solely on internal development, including a brief reference to its early acquisition of a facility to support initial scaling. Key acquisitions underscored strategic shifts toward embedded , power management, and (IoT) applications. In 2001, Maxim acquired Dallas Semiconductor for approximately $2.5 billion in stock, gaining expertise in real-time clocks and secure technologies essential for IoT and systems. The 2007 purchase of Vitesse Semiconductor's storage products division for $63 million in cash, plus up to $12 million in earn-outs, added high-speed interface solutions for . In 2011, the acquisition of SensorDynamics for about $130 million bolstered sensor and microelectromechanical systems () offerings, targeting automotive applications. Finally, the 2020 buyout of Trinamic for an undisclosed sum expanded technologies for industrial . These moves facilitated entry into high-growth sectors like automotive and industrial markets, diversifying beyond . By fiscal , annual had reached $2.2 billion, reflecting the cumulative impact of these integrations on scale and competitiveness. To streamline operations, Maxim divested two non-core assets, including its and energy monitoring business to Silergy Corp. in 2016 for $105 million, allowing sharper focus on core analog strengths.

Acquisition by Analog Devices

On July 13, 2020, announced its intent to acquire Maxim Integrated in an all-stock transaction valued at approximately $21 billion, offering Maxim shareholders 0.630 shares of for each share of Maxim , equivalent to about $78.43 per Maxim share based on ' closing price on July 10, 2020. This deal, which created a combined entity valued at over $68 billion, aimed to bolster ' position in the analog market by integrating Maxim's expertise in high-performance analog and mixed-signal solutions. The acquisition faced regulatory scrutiny from antitrust authorities due to the significant market overlap in analog chips, but ultimately secured necessary clearances. The U.S. granted early termination of the Hart-Scott-Rodino waiting period in September 2020, while the approved the merger unconditionally on March 31, 2021, following a Phase I investigation. China's provided antitrust clearance on August 23, 2021, marking the final major approval and paving the way for completion. The transaction closed on August 26, 2021, with Maxim Integrated becoming a wholly owned subsidiary of , maintaining a focus on developing high-performance analog products. Post-merger, retained the Maxim brand for its product lines to preserve customer recognition and continuity in the market. The combined company featured an enhanced R&D infrastructure, including a $1.5 billion annual budget and approximately 10,000 engineers dedicated to innovation in analog and mixed-signal technologies. Strategically, the acquisition expanded ' portfolio in analog and mixed-signal semiconductors, particularly strengthening capabilities in automotive, industrial, and communications markets where Maxim's specialized solutions complemented existing offerings. This integration was expected to drive synergies, including $275 million in annual cost savings by the end of the second year post-close, while accelerating development of complete solutions for high-growth applications.

Products and technologies

Core offerings

Maxim Integrated specialized in analog and mixed-signal integrated circuits (ICs), focusing on high-integration and low-power designs that enable in electronic systems. Their analog IC portfolio includes precision components essential for and , such as voltage references, operational amplifiers, and data converters from the MAX series. For instance, voltage references like the MAX6225 deliver low-noise, high-accuracy output with a as low as 1ppm/°C, supporting stable reference voltages in precision applications. Operational amplifiers, such as the MAX4230, offer rail-to-rail and low offset voltage for accurate signal amplification in low-voltage environments. Data converters, including the MAX5717 (DAC), provide 16-bit resolution and integrated reference for high-fidelity signal conversion in systems. In power and battery management, Maxim Integrated developed ICs for efficient energy handling in portable and embedded devices, emphasizing DC-DC converters, chargers, and solutions. These components optimize power delivery while minimizing quiescent current to extend battery life. DC-DC converters like the MAX1674 achieve up to 94% at 200mA loads, suitable for step-up from low input sources. Battery management ICs integrate charging circuits and protection features, while solutions such as the MAX17710 manage inputs from 1µW to 100mW, enabling self-powered operation from ambient sources like solar or . The company's sensors and interfaces encompassed devices for environmental and human-interface detection, including temperature, touch, and biometric sensors, alongside connectivity interfaces like USB and Ethernet chips. Temperature sensors, exemplified by the MAX30208, provide ±0.1°C accuracy over a wide range via interface, ideal for precise thermal monitoring. Touch and biometric sensors utilized mixed-signal processing for and secure authentication, while interface ICs such as the DS9490R USB adapter facilitated simple, low-pin-count connections for sensor networks. Ethernet and USB transceivers ensured robust data transmission in industrial and consumer interfaces. Communications and digital offerings included RF transceivers, embedded processors, and security modules tailored for IoT applications, prioritizing low-power wireless connectivity and data protection. RF transceivers like the MAX41461 operate in sub-GHz ISM bands for long-range, battery-efficient transmission in automation systems. Embedded processors, such as the MAX32660 Cortex-M4 , feature ultra-low power consumption with 256KB Flash for in wearables. Security modules under the DeepCover family, including coprocessors like the MAX66300, integrate SHA-256 authentication to safeguard IoT data against tampering. Additionally, acquisitions like Trinamic added ICs for and brushless DC motors, enhancing integrated drive solutions.

Applications and markets

Maxim Integrated's analog and mixed-signal integrated circuits supported a diverse range of applications across key industries, leveraging their core offerings in sensors, , and interface solutions to address specific challenges in each sector. In the , the company's products were integral to advanced driver-assistance systems (ADAS) through high-precision sensors that enabled features like and , while ICs optimized battery performance and efficiency in electric vehicles (EVs). These solutions contributed to the automotive segment representing 26% of Maxim's net revenue in fiscal 2020. For industrial and (IoT) applications, Maxim's ICs facilitated automation controls in smart factories and devices that processed data locally to reduce latency and enhance real-time decision-making in industrial environments. This segment accounted for 32% of the company's fiscal 2020 revenue, underscoring its prominence in enabling Industrial IoT (IIoT) architectures. In consumer and communications markets, Maxim's technologies powered wearables and smartphones with efficient battery management solutions that extended device runtime, while also supporting infrastructure through reliable interface and power ICs for high-speed connectivity. The consumer segment contributed 20% to fiscal net revenue, with communications and data centers adding another 22%. Healthcare applications benefited from Maxim's precision monitoring ICs integrated into wearable devices for vital signs tracking, such as heart rate and blood oxygen levels, promoting remote patient monitoring. In aerospace and defense, ruggedized ICs designed for harsh environments supported reliable operation in avionics and military systems, with qualified components enduring extreme temperatures and vibrations. Maxim reached its markets through a combination of direct sales to original equipment manufacturers and sales via distributors, with the latter accounting for 52% of fiscal 2020 net revenue totaling $2.2 billion across all segments.

Corporate affairs

Leadership

Maxim Integrated's leadership was instrumental in transforming the company from a startup into a major player in the . Jack Gifford, a pioneering figure in semiconductors, founded the company in 1983 and served as its first president, CEO, and chairman until his retirement in 2007. Gifford's early career included key roles at , where he became the first director of analog products in 1964, and as a co-founder of in 1969, establishing his expertise in analog integrated circuits and sales. Under his direction, Maxim emphasized innovation in high-performance analog chips, fostering a culture of relentless improvement that propelled the company's growth during its formative years. Gifford retired in 2007 as Maxim had matured into a publicly traded entity with established market leadership, marking a transition to the next generation of executives. Tunc Doluca succeeded Gifford as president and CEO in 2007, a position he held until the company's acquisition by in 2021. Doluca joined Maxim in 1984 as a shortly after its founding and rose through various and roles, including of R&D in 1993, before assuming the top leadership post. During his tenure, Doluca guided Maxim through periods of expansion, strategic acquisitions, and industry challenges, culminating in the $21 billion merger with announced in 2020. In 2016, he was elected chair of the (), where he advocated for policies supporting U.S. and competitiveness. The provided strategic oversight, comprising a mix of independent industry experts with deep experience in semiconductors, , and to guide and mergers & acquisitions. Kipling "Kip" Hagopian, a venture capitalist and co-founder of Brentwood Associates, served as an since 1997 and as chairman from 2006 until his retirement in 2016 after 25 years of service, during which he influenced key and growth decisions. Following Hagopian, William P. Sullivan assumed the chair role, maintaining the board's focus on long-term strategy amid evolving market dynamics. The board's composition, predominantly , ensured balanced perspectives on technological advancement and corporate development up to the acquisition.

Operations and facilities

Maxim Integrated was headquartered in San Jose, California, at 160 Rio Robles. The company maintained key facilities, including design and manufacturing sites, in locations such as , where it acquired an early facility, and , which housed a major wafer fab. The company operated a hybrid manufacturing model, combining owned facilities with partnerships at external foundries for certain production needs. Maxim owned fabs in —acquired from IC Works—and Dallas, Texas, following the 2001 acquisition of Dallas Semiconductor, enabling in-house production of analog and mixed-signal integrated circuits. Global footprint included sales and operations offices in , with subsidiaries in and , and in , including and , where it operated multiple locations such as in , , and . By fiscal year 2020, Maxim employed approximately 7,100 worldwide. Maxim invested significantly in , spending $440.2 million in fiscal 2020, representing about 19% of its $2.35 billion in net revenue, focused on advancing analog and mixed-signal innovations. In terms of , Maxim emphasized low-power designs in its integrated circuits to minimize in end-user products, such as wearables and IoT devices, while its corporate initiatives included reducing by 55% and energy intensity in operations.

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