Fact-checked by Grok 2 weeks ago

Tektronix

Tektronix, Inc. is an American multinational corporation specializing in the design and manufacture of test and measurement solutions, including oscilloscopes, logic analyzers, signal generators, and precision instruments, primarily serving industries such as , communications, , and semiconductors. Founded in 1946 in , by Howard Vollum and Melvin "Jack" Murdock, the company began with the development of its first commercial , the Model 511, which revolutionized signal analysis by offering portability and affordability at a price of $795. Often credited with "seeding the " by fostering high-tech growth in the , Tektronix grew rapidly to become the world's leading manufacturer and a key employer in Oregon's emerging tech ecosystem. Throughout its history, Tektronix has driven numerous innovations in measurement technology, holding over 700 patents since 2000 and introducing milestones such as the world's first mixed domain (MDO) in 2011, which integrated time, spectrum, and into a single instrument. The company expanded beyond oscilloscopes into broader test solutions, acquiring entities like Keithley Instruments in 2010 to enhance its precision DC and low-level measurement capabilities, and has consistently supported advancements in fields like communications, , and . By the late , Tektronix had become a billion-dollar enterprise, with its headquarters campus in Beaverton spanning over 250 acres and employing thousands in . In 2016, Tektronix was acquired by , a spinoff from , and as of June 2025, it operates as a of Ralliant Corp., a newly independent precision technologies company formed from Fortive's test and measurement segment, which includes brands such as . Headquartered at 14150 SW Karl Braun Drive in , with offices in 21 countries, Tektronix continues to focus on empowering engineers to accelerate through high-performance tools, maintaining its legacy as a global leader in measurement insight while adapting to like AI-driven analysis and high-speed data protocols.

Overview

Founding and Early Operations

Tektronix was founded on January 2, 1946, as a partnership named Tekrad by Howard Vollum, Jack Murdock, Miles Tippery, and Glenn McDowell, all veterans who had served in electronics-related roles during World War II. The founders aimed to capitalize on the postwar surplus of military electronics equipment by designing and producing innovative oscilloscopes to meet the growing demand for precise signal testing in the burgeoning electronics industry. Initial operations began modestly in the basement of Murdock's house on Southeast Foster Road in Portland, Oregon, before relocating to a small rented space on S.E. 59th Avenue in Portland, Oregon, where the team focused on developing a triggered oscilloscope to overcome the limitations of existing free-running models that struggled with unstable waveforms. The partnership's name was changed to Tektronix, Inc., shortly after incorporation on February 4, 1946, to avoid confusion with a similar California firm. Facing significant financial constraints in their early years, the founders pooled limited resources, with each contributing approximately $2,600 in startup capital, and relied heavily on Vollum's personal funds and ingenuity to sustain operations amid economic uncertainties. Vollum, an electronics expert from the U.S. Army , led the design efforts, drawing on surplus components to prototype their flagship product. The company's first breakthrough came with the release of the Model 511 in 1947, the first commercially successful triggered , which featured up to 1 MHz , time-base triggering for stable waveform display, and automatic capabilities that revolutionized . Priced at $795, the portable 65-pound instrument, enclosed in a durable metal case, quickly gained traction despite initial production challenges. Early sales were modest and targeted local needs, with the first unit sold in May 1947 to the for biomedical research, followed by orders from Portland-area radio stations through their affiliated retail outlet, Hawthorne Electronics. emerged as an early major customer, purchasing scopes for its engineering labs and providing valuable feedback that helped refine designs, though the company grappled with cash flow issues and slow market adoption in the immediate postwar period. By 1950, growth necessitated expansion, leading to a relocation to a new facility at Sunset Highway and Barnes Road near , in 1951, which supported increased production and marked the company's shift toward a more structured corporate operation. This move solidified Tektronix's foundations, enabling it to employ 250 people by that year and lay the groundwork for broader industry impact.

Current Structure and Ownership

Tektronix is headquartered in , and employs approximately 3,000 people globally as of 2023, with a strong emphasis on in test and measurement technologies. The company's ownership has evolved through several corporate transactions: it was acquired by in 2007 for $2.85 billion, then spun off as part of in 2016, and most recently separated into Ralliant Corporation in June 2025 as part of Fortive's division into two independent public companies. As of 2025, Tektronix operates as a subsidiary of Ralliant Corporation, led by President Christopher Bohn, while Ralliant's CEO Tami Newcombe oversees the broader precision technologies portfolio, focusing on integrating advanced measurement solutions across segments. Tektronix contributes significantly to Ralliant's precision technologies revenues, with Ralliant reporting $503 million in for Q2 2025; in 2023, the company optimized its Beaverton campus by selling 39 acres of land to . Under its current structure, Tektronix has shifted strategically toward tailored solutions for emerging fields, including communications, e-mobility, and , to address demands in high-speed signal analysis and energy-efficient testing.

Historical Development

Inception and Initial Growth (1946–1954)

In the post-World War II era, Tektronix was founded amid a surge in demand for advanced , driven by the revolution and technologies. Howard Vollum, a 1936 physics graduate from who had served as an captain developing systems during the war—earning two Legions of Merit—teamed up with Jack Murdock, a native and radio technician with prior business experience running a radio repair and appliance shop since 1935. Their partnership formed the core of the company, incorporated as Tekrad in January 1946 and quickly renamed Tektronix to avoid confusion with a California firm; Vollum focused on innovative instrument design, while Murdock handled sales and operations, emphasizing customer service and equitable profit-sharing. A pivotal milestone came in 1947 with the launch of the Model 511, Tektronix's first —a portable, 65-pound unit priced at $795 featuring automatic triggering and ±5% accuracy, a vast improvement over competitors like DuMont's bulky, uncalibrated $2,000 models. Production ramped up steadily from the company's initial storefront, reaching an output of approximately 300 units by 1950, with sales climbing from $27,000 in 1947 to $257,000 in 1948 as international exports began, including the first overseas sale to Sweden's L.M. Telephone Company. This growth established Tektronix as an emerging leader in s, though early operations remained modest with just 12 employees by 1947. In 1949, Tektronix introduced the Model 513, an enhanced portable oscilloscope with DC coupling and 18 MHz bandwidth, addressing limitations in the 511 and broadening appeal for laboratory and field use. Early growth faced headwinds from the Korean War (1950–1953), including material shortages that strained supply chains amid surging military demand for oscilloscopes; competition intensified from established players like General Radio, but Tektronix resolved these by securing government contracts that prioritized production and stabilized operations. By 1950, the company relocated from cramped Portland facilities to a larger site on a Beaverton farm, expanding to a 20,000-square-foot building on four acres to support scaling operations and a growing workforce. In 1951, a public stock offering on October 23 raised essential capital—approximately $100,000—for further expansion, coinciding with net sales surpassing $4 million that year.

Expansion and Technological Breakthroughs (1955–1969)

In the mid-1950s, Tektronix undertook significant infrastructure expansion to support its burgeoning operations. The company purchased 313 acres of land in , in 1956, with construction of its new headquarters campus beginning the following year and the relocation completed on May 1, 1959. This move from facilitated scaled production and administrative efficiency, contributing to rapid workforce growth from a few hundred in the early 1950s to 3,515 employees by 1960, making Tektronix Oregon's largest private employer at the time. Accompanying this expansion, annual revenues surged approximately 4,000 percent over the decade, reaching $43 million in 1960, driven by demand for advanced test equipment amid the electronics boom. Technological advancements defined the period, with Tektronix pioneering portable and storage oscilloscopes that addressed emerging needs in , , and research. The Model 321, introduced in 1960, marked the company's first fully portable, battery-operated oscilloscope, featuring a 5 MHz and nearly all-solid-state design for field use; it was considered for into NASA's ground support equipment and in-flight test systems. In 1962, the Model 564 debuted as the first commercially successful analog storage oscilloscope, enabling the capture and persistent display of transient signals, which revolutionized single-shot event analysis in high-speed electronics. The 453 series followed in 1965, offering a compact, 50 MHz dual-trace portable design suited for complex system troubleshooting, such as in IBM's System/360 computers, and later incorporated into Tektronix's internal education programs for design training in the late 1960s. Market expansion accelerated alongside these innovations, as Tektronix established its first European manufacturing facility in in 1958 to tap into the growing Common Market, followed by land acquisition in the in 1960 for further production. Entry into began through joint ventures, including a 50-50 with that operated into the 1970s. By 1969, consolidated orders reached $142.8 million, with earnings of $13.4 million, reflecting oscilloscopes' dominance at approximately 75 percent of the global . Tektronix's growth also seeded Oregon's "" tech ecosystem, acting as an anchor by attracting and inspiring spin-offs that diversified the region's high-tech landscape.

Peak Employment and Product Diversification (1970–1985)

During the 1970s, Tektronix experienced significant growth, marked by the introduction of the 7000 series modular oscilloscopes in 1973, which featured a versatile plug-in architecture enabling bandwidths exceeding 100 MHz and supporting a wide array of specialized modules for advanced signal analysis. This innovation built on earlier storage oscilloscope technologies and solidified Tektronix's dominance in high-performance test equipment, contributing to expanded market share amid rising demand from electronics and defense sectors. The company's diversification efforts accelerated during this period, with the launch of the Model 7D01 in 1973—a 16-channel for the 7000 series that allowed for and timing , addressing the growing complexity of microprocessor-based systems. Tektronix also advanced its lineup in the 1970s, introducing portable models like the 492, which offered improved and frequency coverage for RF troubleshooting in and . By the 1980s, diversification extended to test gear, bolstered by the 1974 acquisition of Grass Valley Group, which specialized in equipment including waveform monitors and vectorscopes for and PAL standards. Employment reached its zenith in 1981 at over 24,000 workers worldwide, with approximately 15,000 based in , reflecting the scale of operations across expanded facilities on the 300-acre Beaverton campus developed in the late and further built out during the . This growth occurred despite economic headwinds, which contributed to a 34.7% earnings drop in fiscal 1971, prompting temporary layoffs. The further strained global supply chains and energy costs, yet Tektronix adapted by focusing on efficiency and international sales, achieving annual revenue of approximately $1.2 billion by 1985. Amid this expansion, Tektronix contributed to Oregon's emergence as a technology hub through and community programs via the Tektronix Foundation, established in 1952 but active in the and with donations of equipment to educational institutions and support for local initiatives. The company fostered spin-offs, such as Floating Point Systems in 1970, which employed former Tektronix engineers and spurred high-tech clustering in the area, while employee profit-sharing and programs enhanced workforce development and regional economic vitality.

Restructuring and Challenges (1986–2006)

In the mid-1980s, Tektronix encountered severe financial pressures stemming from and intensifying global competition, particularly from low-cost manufacturers in the oscilloscope market. The company's workforce, which had peaked at over 24,000 employees in 1981, began a steep decline amid stagnant sales of test equipment; by the end of fiscal , employment had dropped from over 20,000 to just above 17,000, with further cuts accelerating through the late 1980s. These challenges were exacerbated by the company's overextension into non-core areas, prompting leadership under CEO Robert Lundeen to implement aggressive cost-cutting measures, including the elimination of 1,300 positions in 1990 alone. As part of its strategic refocus on core test and measurement operations, Tektronix spun off its manufacturing division in 1994, establishing Merix Corporation as an independent entity headquartered in Forest Grove, . This move, which transferred approximately 700 employees and allowed Tektronix to retain a 27% ownership stake initially, aimed to streamline operations and eliminate distractions from ancillary businesses, enabling greater emphasis on high-value . The 1990s marked a period of recovery and innovation for Tektronix, driven by advancements in technology. The introduction of the TDS series of oscilloscopes, beginning with models like the TDS 420A in , represented a pivotal shift toward phosphor displays and enhanced signal analysis capabilities, helping the company regain in a digitalizing industry. This product line contributed to renewed growth, with fiscal 2000 revenues reaching $1.12 billion, reflecting improved demand for advanced test equipment amid the late-1990s technology boom. However, the dot-com bust in the early delivered a sharp reversal, severely impacting Tektronix's and segments as orders plummeted 32% in the fourth quarter of fiscal 2001 due to the broader economic downturn. In response, the company executed significant workforce reductions, completing a 1999 restructuring plan that eliminated 1,297 positions—approximately 15% of its staff—by mid-2001, alongside additional cuts of 118 employees under a 2000 plan. These measures, coupled with a net restructuring credit of $10 million in fiscal 2001, underscored the severity of the challenges. To address rising costs and competitive pressures, Tektronix began shifting manufacturing operations to in the early , opening a facility in in 2003 as one of its five global production centers. This transition supported cost efficiencies while maintaining design and R&D in the U.S. By fiscal 2006, with revenues at $1.04 billion, Tektronix had stabilized its core business sufficiently to attract acquisition interest, positioning it for a strategic that would integrate it into a larger industrial conglomerate.

Acquisitions, Spin-Offs, and Recent Evolution (2007–present)

In 2007, Danaher Corporation acquired Tektronix for $2.85 billion, completing the transaction on November 21 and integrating it into Danaher's precision technology portfolio to enhance its test and measurement capabilities. This move positioned Tektronix alongside other Danaher subsidiaries in industrial and life sciences technologies, leveraging synergies in global operations and R&D. By 2016, Danaher executed a major corporate restructuring through the spin-off of its industrial businesses, including Tektronix, to form , which began trading independently on July 5. Tektronix served as a asset in Fortive's portfolio, focusing on , , and industrial . Coinciding with this transition, Tektronix refreshed its branding in February 2016, introducing a new logo that emphasized forward progress and innovation, marking the most significant visual update in 24 years. In 2019, facilitated the merger of Tektronix's Video division—known for waveform monitors and media analysis tools—with Telestream, a provider of video quality solutions, to create a stronger player in testing and monitoring. This integration expanded Telestream's reach into broadcast and streaming markets while allowing Tektronix to concentrate on core test and measurement instruments. Fortive continued its evolution with a planned separation announced in September 2024, culminating in the of its Precision Technologies segment—including Tektronix—to form Ralliant Corporation on June 28, 2025, with trading commencing on June 30 under the ticker "RAL." Ralliant focuses on test and measurement, sensors, and precision components, enabling tailored growth strategies for these high-tech areas. Under this structure, Tektronix has advanced key milestones, such as celebrating its 75th anniversary in with events highlighting its legacy in technological innovation. In 2024, at , Tektronix launched solutions tailored for e-mobility testing, including tools for battery and validation. The following year, it released the 7 Series DPO in September 2025, featuring up to 25 GHz bandwidth to address high-speed signal analysis demands.

Core Products and Innovations

Oscilloscopes and Signal Analysis Tools

Tektronix pioneered the development of , beginning with analog models in the mid-20th century and advancing to sophisticated digital and mixed-signal instruments. The company's first significant analog , the Model 511 introduced in 1947, marked a milestone as the first portable device in its class, featuring a compact for laboratory use. This evolution continued through the and with modular analog systems that emphasized versatility and high-speed performance, setting standards for signal in . The transition to digital storage oscilloscopes in the 1990s represented a major leap, enabling the capture and analysis of transient signals that analog models could not retain. The TDS series, launched in the early , introduced digital phosphor technology, allowing users to observe signal intensity and rare events with unprecedented clarity; for instance, the TDS320 model offered 100 MHz and 500 MS/s sampling in a portable starting in 1994. By the , Tektronix integrated digital and analog capabilities in mixed-signal oscilloscopes, with the MSO5000 series debuted around 2011 providing up to 20 channels for simultaneous analog and analysis, supporting with bandwidths up to 2 GHz. Key historical series underscored Tektronix's focus on modularity and performance. The 5000 series, introduced in 1971, targeted cost-effective laboratory applications with plug-in versatility for lower-speed measurements, spanning production until 1991. The 7000 series, launched in 1970, revolutionized high-end oscilloscopes through its modular architecture, achieving up to 1 GHz bandwidth in models like the 7104 and remaining in production until 1995, which facilitated customizable configurations for advanced research. In modern lines, the 6 Series MSO, released in 2018, delivered up to 10 GHz bandwidth with 50 GS/s sample rates and 12-bit resolution, emphasizing touchscreen interfaces and integrated debugging tools for complex systems. Most recently, the 7 Series DPO, unveiled in 2025, pushes boundaries with 25 GHz bandwidth, 125 GS/s sampling, and an industry-leading ultra-low noise floor, incorporating a 10-bit ADC for superior signal fidelity in high-speed applications. Innovations in triggering and have been central to Tektronix's advancements, enhancing the precision of signal capture in dynamic environments. Advanced triggering systems, such as those in the TDS and later series, allow isolation of specific events like glitches or protocol violations through customizable modes including , , and decoding triggers. software, integrated across series like the MSO5000 and 6 Series, provides automated measurements, FFT processing, and jitter , reducing manual effort while improving accuracy for tasks such as power integrity testing. These tools prioritize (ENOB) for precision, with modern models like the 7 Series achieving up to 7.5 ENOB at 8 GHz, enabling detection of subtle signal anomalies in noisy environments. Tektronix oscilloscopes find critical applications in emerging technologies, including 5G and automotive signaling. In 5G development, software options for the 6 and 7 Series enable NR signal analysis, verifying modulation quality, , and in base stations and with multi-domain synchronization. For automotive systems, serial triggering and decoding for protocols like , , and —available on models such as the MSO5000—support in-vehicle network debugging and compliance testing, ensuring reliable data transmission in powertrains and ADAS. Historically, Tektronix dominated the market, capturing approximately 75% of global share by 1969 through innovations in analog and early digital models, a position that persisted into the amid product diversification. Today, the company maintains leadership in high-performance segments by focusing on ultra-high ENOB for precision measurements, as exemplified in the 7 Series' architecture that minimizes noise for applications requiring sub-microvolt resolution.

Other Test and Measurement Instruments

Tektronix pioneered the in 1973 to address the growing complexity of digital circuits, enabling engineers to capture and analyze multiple timing relationships across digital signals. Early models, such as the 7D01 for 7000-series oscilloscopes introduced in 1977, provided 16-channel state analysis with timing measurements up to 10 MHz, marking a significant advancement in debugging digital systems. Modern offerings, including the TLA7SA00 series logic protocol analyzers, support high-speed protocol debugging for interfaces like up to 8.0 GT/s and USB, featuring 8 GB memory depth and non-intrusive probing for comprehensive transaction-level validation. In spectrum analysis, Tektronix's RSA series delivers real-time spectrum analyzers with capture bandwidths up to 165 MHz and frequency coverage from 9 kHz to 26.5 GHz, allowing detection of transient RF events with 100% probability of intercept for signals as short as 100 µs. These instruments integrate with SignalVu software for advanced signal analysis, supporting applications in communications and . Complementing this, the AWG70000B series arbitrary waveform generators offer sample rates up to 50 GS/s with 10-bit , enabling generation of complex signals at data rates exceeding 50 Gbps for simulating real-world impairments in RF and optical testing. For power instrumentation, the 2024 EA-PSB 20000 series bidirectional power supplies provide three independent channels, each delivering up to 10 kW (total system capacity up to 30 kW), with voltage ranges to 920 V and current to 340 A, facilitating synchronized testing of multi-phase systems like powertrains. These supplies incorporate regenerative sinking capabilities and function generators for dynamic load simulation, essential for e-mobility testing to evaluate charge-discharge cycles, efficiency, and safety under standards like ISO 12405. Following the acquisition of Keithley Instruments, Tektronix integrated precision DC measurement capabilities, including high-resolution multimeters like the DMM6500 (6.5-digit) for low-level voltage and resistance measurements down to 100 nV and 1 µΩ, paired with specialized probes such as the TCP series for accurate up to 150 A. These tools enable detailed characterization of low-power devices and materials, with systems supporting up to 200 channels for automated testing. Tektronix instruments support critical applications in emerging technologies, such as signal validation using the SignalVu 5GNR software for and channel power measurements compliant with standards on RSA analyzers and oscilloscopes. In renewable energy, they facilitate testing by combining power supplies for load simulation with impedance analysis to validate stack performance, efficiency, and durability under varying operating conditions.

Non-Core and Legacy Products

In the 1970s, Tektronix expanded beyond core test equipment into peripherals, including printers and plotters designed to support its display terminals and workstations. The company's Information Display Division developed early printers using dry silver technology, initially as captive devices for Tektronix terminals to produce high-resolution graphic outputs. Plotters, such as the HC100 four-pen , enabled precise vector-based plotting for and scientific applications, leveraging Tektronix's expertise in displays. During the 1980s, Tektronix ventured into software for , integrating computational tools with its hardware ecosystems. The Digital Analysis System (DAS) combined oscilloscopes with modular software for enhanced and visualization, allowing users to perform complex waveform analysis on dedicated workstations. These efforts aimed to provide integrated solutions for , building on the company's instrument heritage. The Tektronix Video division, active from the through the , specialized in broadcast equipment, particularly monitors for signal analysis. Products like the 1750 series vectorscopes and monitors ensured compliance with and PAL standards, supporting production and transmission in the evolving video industry. In , the division merged with Telestream, integrating its monitoring technologies into a broader workflow portfolio under shared ownership with . Other diversifications included components in the 1970s, where Tektronix produced yttrium-iron-garnet (YIG) filters for spectrum analyzers, marking its entry into high-frequency electronics. The Components Organization, established in 1970, focused on custom and circuits to support internal needs and external sales. In the , the company entered computer peripherals with the 4909 Multi-User , a GPIB-interface hard disk offering up to 96 storage for shared access among up to 10 users on 4050-series workstations. These products were discontinued as Tektronix refocused on core competencies. By the 2000s, Tektronix phased out many non-core and legacy product lines, including analog oscilloscopes and video peripherals, in favor of digital and software-defined alternatives. This shift reflected broader industry trends toward integrated digital solutions, reducing emphasis on standalone peripherals and diversifications like printers and hard drives. Today, the company's portfolio maintains a minimal non-test focus, prioritizing test and measurement instruments while leveraging historical expertise in select areas like broadcast analysis through partnerships. These 1980s expansions were driven by efforts to apply electronics proficiency to adjacent markets amid slowing growth in core oscilloscope sales.

Industry Impact and Operations

Technological Contributions and Milestones

Tektronix's invention of the triggered in 1947 marked a pivotal advancement in signal analysis, allowing engineers to capture and view stable waveforms from transient or repetitive signals that were previously difficult to observe. Developed by co-founders Howard Vollum and Jack Murdock, the Model 511 was the world's first time-base triggered , which synchronized the sweep to the input signal for precise timing measurements. This innovation revolutionized testing by enabling reliable visualization of complex signals, fundamentally improving the accuracy of and across industries. In the , this technology played a crucial role in the development of , where Tektronix oscilloscopes facilitated precise signal monitoring for video tape recorders and broadcast standards, contributing to seven for the company's instrumentation advancements. The triggered oscilloscope's ability to handle high-frequency video signals ensured fidelity in color encoding and decoding processes, supporting the transition from black-and-white to . The introduction of storage cathode-ray tube (CRT) technology in 1962 with the Model 564 further expanded Tektronix's impact on data persistence in measurement tools. This direct-view storage tube (DVST) allowed waveforms to be retained on the screen without continuous refreshing, enabling the analysis of single-shot or low-repetition events that analog scopes could not hold. The design's simplicity, using a tin oxide film and flood guns, made it more cost-effective and reliable than prior storage methods, broadening applications in research and engineering. This storage technology found critical use in space applications, including the , where early 1962 memos documented interest in integrating Tektronix oscilloscopes into the Apollo command module for signal monitoring during missions. The persistent display capability was essential for capturing infrequent events in the harsh environment of space travel, aiding in the success of lunar explorations. During the 1980s, Tektronix led the digital transition in oscilloscopes by pioneering the integration of (DSP), which enhanced acquisition, analysis, and storage beyond analog limitations. This shift introduced software-defined testing paradigms, where DSP enabled advanced features like automated measurements and signal reconstruction, laying the groundwork for modern digital scopes that process complex data in . Tektronix's early adoption of general-purpose DSP processors around 1980 improved scope performance in high-speed applications, influencing the evolution toward fully digital instruments. Key milestones underscore Tektronix's ongoing technological legacy, including its 75th anniversary in 2021, which highlighted innovations supporting communications and (EV) development through advanced tools for high-speed networks and power systems. In September 2025, Tektronix introduced the 7 Series DPO , setting a new benchmark in ultra-high-performance test and measurement for . As Oregon's first major technology firm, founded in 1946, Tektronix seeded the "Silicon Forest" by fostering a regional of high-tech companies through talent development and spillover. Tektronix has amassed over 700 patents, with significant contributions in , including probe technologies and measurement techniques that ensure accurate high-frequency signal analysis. The company provides test solutions that support compliance with IEEE standards for Ethernet (e.g., 1000BASE-T) and (IEEE 802.11), including testing and signal validation procedures essential for global connectivity standards.

Global Presence, Manufacturing, and Workforce

Tektronix maintains a global footprint with offices in 21 countries, supporting sales, service, and operations across , , , and other regions. Its headquarters and primary R&D facilities are located in , USA, where engineering and innovation efforts are concentrated. In , the company operates sales and support offices, including in () and the (), facilitating market access and customer service. Manufacturing has been established in since 2003, with a key factory in producing oscilloscopes and other instruments to leverage cost efficiencies and supply chain proximity to Asian markets. In 2023, Tektronix expanded its testing services capabilities by adding real-time and accelerated aging chambers at its labs in Wayne, New Jersey, and Billerica, Massachusetts, enhancing support for reliability testing in electronics and power applications. This move aligns with the company's shift in manufacturing strategy, transitioning from a predominantly Oregon-centric model to increased production in Asia for greater cost efficiency and scalability. That same year, Tektronix sold 39 acres of its 250-acre Beaverton campus to Analog Devices, retaining 211 acres for ongoing R&D and operations while leasing back certain facilities during the transition. As of , Tektronix employs approximately 3,000 people worldwide, with about 1,500 based in , reflecting a leaner structure compared to its historical peak of over 24,000 employees in 1981 during a period of rapid expansion in the Pacific Northwest's "." The company has navigated workforce reductions over the decades, including significant layoffs amid economic downturns, such as 150 positions cut in as part of broader restructuring. To foster , Tektronix supports employee resource groups and initiatives promoting women in leadership and underrepresented talent in , aiming to build inclusive teams across sales, operations, and R&D. Tektronix emphasizes an innovation-driven culture through programs like university partnerships, which provide hands-on training and internships to develop future engineers, such as collaborations with institutions to support diverse talent pipelines. In sustainability, the company prioritizes energy-efficient testing solutions for applications, including regenerative power supplies that recover up to 96% of energy during validation cycles, reducing operational costs and environmental impact for customers in , and sectors.

Key Personnel

Founders and Executives

Tektronix was co-founded in 1946 by Howard Vollum and Melvin J. "Jack" Murdock, along with Miles Tippery and Glenn McDowell, with Vollum serving as the company's first president and chief engineer. Vollum, a former U.S. Army radar technician, invented the world's first commercially successful triggered-sweep , the Type 511, which revolutionized signal analysis by allowing stable waveform display without free-running sweeps. He led the company with an engineering-centric approach, emphasizing innovation and employee involvement, and remained president until 1971 while continuing as chairman until 1974; later in life, Vollum focused on , endowing scientific through entities like the Vollum Institute for Advanced Biomedical Research at . Murdock, a U.S. veteran who handled business operations and finance, complemented Vollum's technical expertise by managing administrative and sales functions to support early growth. Tragically, Murdock died in 1971 at age 64 in a accident on the , which marked a pivotal leadership transition and prompted a period of reorganization at the company. Following Vollum's departure from the presidency, Earl Wantland assumed the role in 1971 and served until 1987, also acting as CEO from 1974 until 1988 during Tektronix's peak expansion when it became Oregon's largest private employer with over 24,000 employees. Wantland's tenure shifted the company's focus toward diversification beyond core oscilloscopes into computing and color graphics, reflecting a more structured corporate strategy amid rapid growth and market challenges. In the 2000s, prior to its acquisition by Danaher Corporation, Richard H. "Rick" Wills served as CEO starting in 2000, implementing cost controls during the dot-com bust to stabilize operations and maintain profitability. Danaher's 2007 acquisition of Tektronix for $2.85 billion integrated the company into its industrial conglomerate, with H. Lawrence Culp Jr., then Danaher's president and CEO, overseeing the deal and emphasizing synergies in test and measurement portfolios to enhance global scale. Subsequent spin-offs reshaped leadership: after Danaher spun off Fortive in 2016 (which retained Tektronix), and Fortive further separated its Precision Technologies segment—including Tektronix—into Ralliant Corporation in June 2025, Tami Newcombe emerged as Ralliant's president and CEO. Newcombe, who had previously led Tektronix as president from 2019 to 2023, now directs Ralliant's strategy, including Tektronix operations, with a focus on operational efficiency and innovation in precision technologies; she was succeeded at Tektronix by Christopher Bohn, who has served as president since January 2023. This evolution from Vollum's hands-on engineering ethos to later executives' emphasis on corporate integration and acquisition-driven growth underscores Tektronix's adaptation to broader industrial dynamics.

Notable Employees and Contributors

Miles Tippery, an early partner at Tektronix, contributed to the design of the company's first oscilloscopes, including the Type 512 and Type 517 models, while also leading production engineering efforts such as testing and organizing components for the Type 511 at the Hawthorne plant and managing assembly and personnel during the initial years. Glenn McDowell, another early partner, supported the foundational operations as an and later assumed ownership of Hawthorne Electronics, the retail arm established to generate initial revenue for the company. Key engineers advanced core technologies in the mid-20th century, including Bob Anderson, who invented the bistable storage () for the Type 564 oscilloscope in 1962, enabling persistent image display and establishing Tektronix's dominance in applications. The development of the modular 7000 series oscilloscopes, introduced in , involved a collaborative team of engineers such as Hans Springer, Bruce Hofer, Gene Andrews, John Addis, Wink Gross, Howard Nutt, Dave Morgan, and Gary Bohms, whose work emphasized interchangeable plug-ins and high-performance bandwidths up to 1 GHz in models like the 7104. Notable alumni from Tektronix have influenced the broader technology ecosystem, including Norman Winningstad, who left to found Floating Point Systems, a pioneering company, while other former employees contributed to spin-offs such as , which specialized in tools. Tektronix staff played roles in supporting NASA's through the integration of oscilloscopes into spacecraft modules and ground systems for signal monitoring, as documented in early 1960s internal memos and technical conferences on S-band communications equipment. Diversity in engineering grew during Tektronix's 1970s expansion, with women like Connie Wilson emerging as pioneers; she designed electron guns for CRTs in models such as the Type 547, 555, 561, and 529 television waveform monitor, and managed the electron gun design group starting in the 1960s. In modern R&D, particularly for 5G technologies, diverse leaders include Selu Gupta, a hardware engineering manager focused on continuous engineering support and signal analysis tools. Recognition for technical contributions has included internal honors for inventors, such as the 1979 banquet acknowledging 190 engineers and scientists for advancements in CRTs, semiconductors, and software, though no formal company-wide Hall of Fame specifically for digital triggering innovations is documented.

References

  1. [1]
    About Us - Tektronix
    Tektronix designs and manufactures test and measurement solutions to break through the walls of complexity, and accelerate global innovation.
  2. [2]
    Tektronix Inc - The Oregon Encyclopedia
    Apr 17, 2024 · Tektronix, one of Oregon's most prominent and innovative high-technology companies, was founded in 1946 and quickly grew into the world's leading manufacturer.
  3. [3]
    Global technology company Tektronix marks 75 years of innovation
    Jun 23, 2021 · Credited with being “the seed that grew the Silicon Forest,” Tektronix was established in 1946 by C. Howard Vollum and Melvin J. Murdock with ...
  4. [4]
    Keithley Instruments & Products - Tektronix
    Keithley, a Tektronix company, offers instruments and systems, including DC power supplies, digital multimeters, source measure units, low-level instruments ...Source Measure Units · Data Acquisition Systems (DAQ) · Semiconductor Testing
  5. [5]
    Tektronix's new parent company dips in first day of trading
    Jun 30, 2025 · Tektronix continues to operate at its longtime headquarters near Beaverton but sold 39 acres of its 250-acre campus to Analog Devices in 2023.
  6. [6]
    Tektronix's new owner gets a new name - oregonlive.com
    Feb 5, 2025 · Tektronix's parent company will be called Ralliant Corp. when it spins off into a new business later this year, the businesses announced Wednesday.
  7. [7]
    Test and Measurement: Ralliant reports its first earnings
    Aug 13, 2025 · T&M earnings rolled in from Viavi Solutions, Emerson and newly spun-off Ralliant, which includes test brands Tektronix and Fluke.
  8. [8]
    Tektronix (Danaher) Company Overview, Contact Details ... - LeadIQ
    Where is Tektronix (Danaher)'s headquarters located? ... Tektronix (Danaher)'s main headquarters is located at 14150 SW Karl Braun Drive, Beaverton, OR 97077, US.
  9. [9]
    Tektronix Early History (Index) - vintageTEK
    This Supplemental Articles of Incorporation filed a month later on February 4, 1946 changes the name from Tekrad to Tektronix. ... First 40 Years Of Tektronix".Missing: initial | Show results with:initial
  10. [10]
    Tektronix Name and Misspellings - vintageTEK
    Miles Tippery eventually came up with the name Tekrad, Inc. and this name was used on the articles of incorporation signed December 24, 1945. However, a ...Missing: initial | Show results with:initial
  11. [11]
    [PDF] Tektronix
    Following the founding of Tektronix, Vollum invented the world's first triggered oscilloscope in 1946, a significant technological breakthrough. [3]. This.
  12. [12]
    Oscilloscope History and Milestones
    1947. Tektronix 511. Tektronix introduces its first time base triggered oscilloscope (Model 511) featuring automatic triggering, calibrated readings and high ...
  13. [13]
    Tektronix, Inc. - Company-Histories.com
    Tektronix was founded by three U.S. Coast Guard veterans and an electronics expert from the U.S. Army Signal Corps. Portland native Melvin Jack Murdock spent ...
  14. [14]
    Tektronix's Sunset Plant - Oregon History Project
    Tektronix, one of Oregon's most prominent and innovative high-technology companies, was founded in 1946 and quickly grew into the world's leading manufacturer ...
  15. [15]
    Tektronix will get new owner after corporate spinoff in 2025
    Sep 5, 2024 · Oregon technology stalwart Tektronix will get a new owner next year when its parent company spins off part of its business.
  16. [16]
    Tektronix - Overview, News & Similar companies | ZoomInfo.com
    How many employees does Tektronix have? Tektronix has 3,000 employees What industry does Tektronix belong to?
  17. [17]
    Danaher Completes Acquisition of Tektronix - Nov 21, 2007
    Nov 21, 2007 · Danaher Corporation announced today that it has completed the merger of its indirect wholly owned subsidiary into Tektronix, Inc. and, ...
  18. [18]
    Fortive spinoff complete, Tektronix has new owner - oregonlive.com
    Jul 5, 2016 · Tektronix became part of a new company: Fortive, based in Everett, Washington. Fortive would have had $6.2 billion in revenue last year.Missing: spin- off
  19. [19]
    Tektronix Names Christopher Bohn President
    Jan 10, 2023 · Tektronix Names Christopher Bohn President Succeeding Tami Newcombe, Now President & CEO of Fortive's Precision Technologies Segment BEAVERTON,
  20. [20]
    Ralliant to Share Vision for the Future as Standalone Precision ...
    Jun 10, 2025 · As a standalone public company, we believe Ralliant will be well-positioned to build on its foundation as a precision technologies leader and execute clear ...
  21. [21]
    Ralliant Reports Second Quarter 2025 Results - Business Wire
    Aug 11, 2025 · Separation from Fortive (NYSE: FTV) completed June 28, 2025. Revenue of $503 million, down 6% year-over-year and up 4% sequentially.
  22. [22]
    Tektronix Launches New Products at electronica 2024
    Sep 30, 2024 · Tektronix Launches New Products at electronica 2024 · E-mobility · Energy storage & battery testing · Hydrogen and fuel cells · Renewable energy – ...Missing: strategic focus 5G
  23. [23]
    EA Elektro-Automatik Greatly Expands Tektronixs High-Power Test ...
    Apr 12, 2024 · Tektronix is a favorite among designers in renewable energy, electric vehicles, and data center power, among other power-related industries.Missing: strategic 5G mobility
  24. [24]
    Tektronix unveils breakthrough power instrumentation to fast track ...
    Nov 12, 2024 · Acts as a DC electronic load for energy recycling, up to 96% energy recovery; Supports up to 30 kW total power, voltages from 0 – 60 V up to 0 – ...
  25. [25]
    [PDF] On the History and Environment of Tektronix - vintageTEK
    Some basic information about Tektronix history, instrument concepts, technology, and some overviews of related industries, important customers, and key.
  26. [26]
    Howard Vollum (1913–1986) - The Oregon Encyclopedia
    Sep 18, 2023 · Howard Vollum was a founding partner of Tektronix, an innovative electronics company in Beaverton, Oregon. In 1947, he developed the Type 511 oscilloscope.Missing: backgrounds post-
  27. [27]
    Tektronix History: Founding, Timeline, and Milestones - Zippia
    In 1947 Tektronix had sales of $27,000. In 1948 Tektronix also sold its first oscilloscope overseas, to the L. M. Ericcson Telephone Company of Sweden.Missing: early figures
  28. [28]
    513 - TekWiki
    Aug 18, 2024 · The Tektronix 513 is a single-channel monolithic oscilloscope with 18 MHz bandwidth. It was designed by Frank Hood. Tektronix 513. 18 MHz ...
  29. [29]
    What's Up With Tek? Article - vintageTEK
    Feb 11, 2023 · As head of technology, Vollum decided that Tektronix would produce a singular instrument, the oscilloscope, the eyes of the electrical engineer.Missing: funds | Show results with:funds
  30. [30]
    Beaverton Campus - vintageTEK
    Tektronix purchased 313 acres in Beaverton in 1956. This undated Beaverton map shows the area prior to the construction of the Tektronix campus.Missing: 1950 10000 sq
  31. [31]
    Living and Working in Beaverton - Tektronix
    Feb 7, 2021 · Tektronix moved into its campus in Beaverton, Oregon in May, 1959, and has been a staple in the community ever since. The company is Oregon's ...Missing: date
  32. [32]
    321 Oscilloscope - vintageTEK
    The 321 oscilloscope is a very compact single channel 5 MHz oscilloscope introduced in 1960. It is mostly a solid-state design with 5718 peanut tube for the ...Missing: 1957 | Show results with:1957
  33. [33]
    Tektronix and the Apollo Moon Mission - vintageTEK
    Aug 5, 2020 · North American Aviation (NAA) was considering a 321 oscilloscope inside the space vehicle to troubleshoot the “In-Flight Test Systems” of the ...Missing: portable 1957
  34. [34]
    564 and Automatic / Programmable Plug-Ins - vintageTEK
    This Type 564 Storage Scope was introduced in 1962 and brought significant new capability to the market by being able to display single shot events.Missing: 1 ns
  35. [35]
    453 - TekWiki
    Jun 21, 2025 · The Tektronix 453 is a portable 50 MHz dual-trace oscilloscope introduced in 1965 and produced until the mid-1970's. It was designed by Oliver ...Missing: education | Show results with:education
  36. [36]
    Scope Class - vintageTEK
    Tektronix organized a scope class based on a survey of employees who wanted to design and build an oscilloscope for their personal use.
  37. [37]
    Europe is Central to Tektronix's 75 Years of Innovation
    Aug 11, 2021 · 2016:Fortive Corp. spins off from Danaher, uniting industrial and test and measurement companies under the Everett, Washington based company.
  38. [38]
    [PDF] tektronix, inc. - vintageTEK
    Orders increased to $142,800,000 from. $133,148,000; consolidated earnings de- creased slightly to $13,443,000 from $13,-. 515,000; and per share earnings went ...<|separator|>
  39. [39]
    [PDF] Planting High-Technology Seeds - Oregon Historical Society
    11 Among those individuals were the founders of Tektronix. In 1946, Jack Murdock and Howard Vollum, together with Miles Tip pery and Glenn McDowell, put to work ...
  40. [40]
    Introduction to the 7000-Series Oscilloscopes - TekWiki
    Jun 12, 2025 · In August of 1969, Tektronix issued a supplement catalog featuring a new series of instruments called the 7000 Series.
  41. [41]
    History of Tektronix, Inc. - FundingUniverse
    Tektronix, Inc., founded in 1946, is the world's leading manufacturer of oscilloscopes--instruments used to measure and display electrical signals.Missing: personal | Show results with:personal
  42. [42]
    7D01 - TekWiki
    The Tektronix 7D01 is a 16-channel logic analyzer plug-in for the 7000-series scopes that takes two P6451 8+1 channel probes.
  43. [43]
    Spectrum Analyzers - vintageTEK
    The first portable spectrum analyzer was the 491 introduced in 1967. Although the 491 required an expert user and had only 40 dB of dynamic range.
  44. [44]
    [PDF] Television Products 1986-87 - World Radio History
    Tektronix offers test, measurement and monitoring equipment for component television and stereo audio. ... The Tektronix 650HR Series color picture.
  45. [45]
    Tektronix Foundation - vintageTEK
    Tektronix had become profitable enough to begin some form of philanthropy. In 1951 Tektronix began to donate oscilloscopes to educational institutions. Howard ...
  46. [46]
    History of Tektronix - oregonlive.com
    Oct 15, 2007 · 1946: Howard Vollum and Jack Murdock found Tektronix to create equipment that precisely measures electronic signals, filling demand sparked by World War II ...
  47. [47]
    [PDF] Mar - vintageTEK
    We opened the year with 20,000-plus employees, and closed with just a shade more than 17,000.
  48. [48]
    Tektronix cuts 1,300 jobs; sells, closes units - UPI Archives
    May 29, 1990 · Stagnant sales of testing equipment have forced the gradual reduction in Tek's workforce, which reached a high of 24,000 in 1981 and will fall ...Missing: peak | Show results with:peak
  49. [49]
    Tektronix In a Spinoff - The New York Times
    Apr 4, 1994 · Nearly a year after announcing plans to spin off its circuit board operation, the Tektronix Corporation has begun moving to go through with ...
  50. [50]
    Merix Corporation - Company-Histories.com
    1992: Deborah Coleman joins Tektronix to manage the circuit board operations. 1994: Tektronix spins off its circuit board division as Merix Corporation.
  51. [51]
    In the Lab - Tektronix TDS 420A Oscilloscope - Tom Verbeure
    Jun 27, 2020 · The Tektronix TDS 420A in Brief. Released in 1991, the TDS 420A is almost old enough to have teenage children by now! But despite its age, ...
  52. [52]
    Tektronix tops estimates, warns of slowing sales - CNET
    Mar 19, 2001 · In fiscal 2000, Tektronix returned a profit of 83 cents a share on sales of $1.12 billion. "We are beginning to experience the effects of ...
  53. [53]
    [PDF] TEKTRONIX INC (Form: 10-K405, Filing Date - SECDatabase
    Aug 2, 2001 · Revenue is derived principally from the sale of a broad range of products in several key product categories: oscilloscopes, including desk top, ...
  54. [54]
    Tektronix Expands China Operations | TV Tech - TVTechnology
    Mar 19, 2003 · Tekronix has opened a Shanghai, China-based manufacturing facility to expand its presence in the country's test and measurement market.Missing: shift 2000s
  55. [55]
    Tektronix - Wikipedia
    Originally an independent company, it is now a subsidiary of Fortive, a spinoff from Danaher Corporation. Tektronix, Inc. Building 50 at the company's ...
  56. [56]
    Danaher To Acquire Tektronix, Inc. for $38.00 Per Share, or $2.8 ...
    Oct 15, 2007 · The transaction is expected to be completed in the fourth quarter of 2007. With annual revenues of approximately $1.1 billion, Tektronix is a ...
  57. [57]
    Fortive Completes Separation from Danaher and Launches as an ...
    Jul 2, 2016 · In connection with the separation, Danaher stockholders today received one share of Fortive common stock for every two shares of Danaher common ...Missing: Tektronix | Show results with:Tektronix
  58. [58]
    Fortive spinoff complete, Tektronix has new owner - The Columbian
    Jul 6, 2016 · East Coast conglomerate Danaher Corp. completed its spinoff of its older businesses over the weekend. In the process, Tektronix became part of a ...Missing: spin- | Show results with:spin-
  59. [59]
    Tektronix Unveils New Logo, Brand Strategy - PR Newswire
    Feb 1, 2016 · Tektronix president, Pat Byrne, unveils the new logo to employees, marking the most significant change in its visual identity in 24 years.Missing: Fortive | Show results with:Fortive
  60. [60]
    Tektronix Video Merges Into Telestream - Telestream Press Release
    Apr 25, 2019 · Telestream strengthens video testing, monitoring and file-based quality control within its solution portfolio.
  61. [61]
    Tektronix Video Merges Into Telestream - PR Newswire
    Apr 25, 2019 · "Combining Tektronix Video with Telestream brings more extensive sales reach and a very strong presence in additional countries and markets ...
  62. [62]
    Fortive Announces Strategic Plans for Separation Into Two ...
    Sep 4, 2024 · The planned spin-off will create two independent publicly traded companies, each with focused business models and tailored investment and capital allocation ...
  63. [63]
    Fortive Announces Completion of the Ralliant Separation and ...
    Jun 30, 2025 · Separation of Ralliant completed on June 28, 2025 Olumide Soroye appointed as President, CEO and Director of Fortive James Lico…...Missing: Tektronix | Show results with:Tektronix
  64. [64]
    Tektronix Launches New Products at electronica 2024
    Sep 30, 2024 · E-mobility; Energy storage & battery testing; Hydrogen and fuel cells; Renewable energy – testing of electronic components. At the upcoming ...
  65. [65]
    Tektronix introduces 7 Series DPO, setting a new benchmark in ultra ...
    Sep 16, 2025 · Engineered to deliver the industry's lowest noise and highest ENOB, and architected for scale, the 7 Series launches with bandwidth up to 25 GHz ...
  66. [66]
    TDS-series oscilloscopes - TekWiki
    Aug 13, 2025 · TDS-series oscilloscopes include models with varying MHz, GS/s, and MS/s, with two or quad-channel options, and LCD or CRT displays.Missing: introduction | Show results with:introduction
  67. [67]
    MSO5000/DPO5000 Series Mixed Signal Oscilloscopes - Datasheet
    With the MSO/DPO5000 Mixed Signal Oscilloscope Series, you can analyze up to 20 analog and digital signals with a single instrument to quickly find and diagnose ...
  68. [68]
    Introduction to the 5000-Series Oscilloscopes - TekWiki
    Aug 5, 2023 · The Tektronix 5000-series (5K) was introduced in 1971 as a series of lower-cost laboratory oscilloscopes with versatile plug-ins.The Basics of the 5000-Series · The Two Faces of 5K and... · Compatibility
  69. [69]
    7000 SERIES OSCILLOSCOPES FAQ - Tektronix
    The 7000 Series oscilloscopes were produced from about 1970 to 1995. While there were various mainframes, the 7000 Series plug-ins worked interchangeably.Missing: introduction 1973
  70. [70]
    6 Series B MSO Mixed Signal Oscilloscope - Tektronix
    The 6 Series Mixed Signal Oscilloscope (MSO) has the signal fidelity needed for analyzing and debugging embedded systems together with a touchscreen user ...
  71. [71]
    [PDF] Triggering Fundamentals - Tektronix
    Waveform data in many oscilloscope applications is like all that the scenery you don't care about. In a high speed debug application, your circuit may be ...
  72. [72]
    Achieve Higher Vertical Resolution for More Precise Measurements
    This paper focuses on techniques designers of the Tektronix 4, 5 and 6 Series MSOs used to achieve higher-resolution acquisition details.Missing: market dominance historical
  73. [73]
    Tektronix Adds 5G Capabilities to its Award-Winning, High ...
    Feb 28, 2022 · 5G system designers can now add 5G NR signal analysis to Tektronix oscilloscopes, which enables them to quickly diagnose faulty signal ...
  74. [74]
    Trial Licenses Available - Tektronix
    License; Automotive serial triggering and analysis (CAN, CAN FD, CAN XL, LIN, FlexRay); Node Locked. 30 Day Free Trial | Get a Quote | Price: US US $3,740 ...
  75. [75]
    Tektronix introduces 7 Series DPO, setting a new benchmark in ultra ...
    Sep 16, 2025 · Engineered to deliver the industry's lowest noise and highest ENOB, and architected for scale, the 7 Series launches with bandwidth up to 25 GHz ...<|control11|><|separator|>
  76. [76]
    Logic Analyzer | Tektronix
    Verify and debug digital systems with a logic analyzer. Ideal for digital measurements involving numerous signals or challenging trigger requirements.
  77. [77]
    TLA7SA00 PCI Express Logic Protocol Analyzer Datasheet - Tektronix
    The TLA7SA00 Series logic protocol analyzer modules provide an innovative approach to PCI Express validation that spans all layers of the protocol.Missing: USB | Show results with:USB
  78. [78]
    RSA5000B - Tektronix
    This advanced spectrum analyzer makes high performance and sensitivity measurements for spurious signals much faster than other spectrum analyzers.
  79. [79]
    AWG70000B Arbitrary Waveform Generator - Tektronix
    10 bits of resolution with a full range of sample rates (up to 50 Gs/s) allows you to simulate complex environments, recreate objects of interest and reliably ...Generate Equalized Wideband... · Tools That Let You Be As... · Test More. Test Faster. Test...Missing: Gbps | Show results with:Gbps
  80. [80]
    Tektronix offers the EA-PSB 20000 three-channel bidirectional ...
    Nov 12, 2024 · Each of the three independent channels can supply up to 10 kW of power, supporting a range of voltages up to 920 V and currents up to 340 A.
  81. [81]
    EV Battery Testing | Tektronix
    Affordable EV battery testing for performance, durability & safety to meet the latest standards. Learn more about precision electrical instruments.Missing: electronica 2024
  82. [82]
    5G Testing - Tektronix
    Learn how to perform multi-domain signal analysis of 5G base station and user equipment systems. See the benefits of using a mixed domain oscilloscope for ...
  83. [83]
    Fuel Cell Testing: Best Practices & Tools | Tektronix
    Jun 13, 2024 · Master hydrogen fuel cell testing. Our guide covers the best practices, tools, and techniques for reliable fuel cell testing to ensure your ...
  84. [84]
    Information Display Division - vintageTEK
    This January 21, 1978 TekWeek article features Tektronix as a leading supplier of computer graphics. Click on the image to view the PDF. This Information ...
  85. [85]
    Tektronix HC100 4 Pen Color Plotter Works Vintage - eBay
    In stock $30 deliveryFind many great new & used options and get the best deals for Tektronix HC100 4 Pen Color Plotter Works Vintage at the best online prices at eBay!
  86. [86]
    [PDF] Tektronix, - vintageTEK
    The DAS digital-analysis system gets its clout by combining these hvo instruments - and expanding their performance by use of up to six of. Tektronix' modular ...
  87. [87]
    Tektronix Component Solutions profiles | FinalScout
    Tektronix Component Solutions was founded in 1970 as Hybrid Components Organization and changed its name to Maxtek Components in 1994. In 2010, it became ...
  88. [88]
    4909 - TekWiki
    Jul 21, 2025 · The Tektronix 4909 Multi-User File System is a sharable mass storage system with a GPIB interface, intended for the 4050-series computers.Missing: 1980s | Show results with:1980s
  89. [89]
    Why did Tektronix stop making the great scopes? - EEVblog
    Dec 24, 2014 · The reason they stopped is that analog scopes were already a dead end 20 years ago. And because of the high integration which is possible with modern ...
  90. [90]
    564 Storage CRT Development - vintageTEK
    The 564 used a direct-view storage tube (DVST) with a tin oxide film and flood guns. It was simpler and cheaper than previous tubes, using a thin phosphor ...
  91. [91]
    [PDF] The development of analogue storage oscilloscopes
    This led to the highly successful. Tektronix 564 storage oscilloscope, introduced in 1962 [10] and later followed by the Tektronix 549 in. 1965 [11]. An ...<|separator|>
  92. [92]
    Remembering the past, engineering the future - Tektronix
    Jun 14, 2021 · Tektronix is often credited with “seeding the Silicon Forest” when it was founded in Oregon in 1946.Since then, the billion-dollar company has ...Missing: history | Show results with:history
  93. [93]
    physical layer compliance testing 1000base t ethernet - Tektronix
    The IEEE 802.3 standard defines an array of compliance tests for 1000BASE-T physical layer. These tests are performed by placing the device under test in test ...
  94. [94]
    Wi-Fi: Overview of the 802.11 Physical Layer and Transmitter ...
    This primer provides a general overview for each of the 802.11 standards, their PHY layer characteristics and their testing requirements.
  95. [95]
    Legal Entities and Notices - Tektronix
    Tektronix Canada Inc. Registered in Canada No. 802523-1. Registered Office: c/o Keyser Mason Ball LLP, 4 Robert Speck Pa, Mississauga ON L4Z 1S1 ...
  96. [96]
    [PDF] 5 REASONS TEKTRONIX OSCILLOSCOPES ARE RELIABLE AND ...
    Your Tektronix scope is proudly built by experienced technicians in our factory in Shanghai, China. Each scope is tested at over 100 checkpoints to make sure ...
  97. [97]
    Tektronix Testing Services Labs Expands Real-Time and ...
    Oct 10, 2023 · Real-time and accelerated aging capabilities will be available for use at both the Tektronix Wayne, NJ and Billerica, MA Testing Services Labs, ...Missing: 2024 | Show results with:2024
  98. [98]
    Tektronix sells part of its HQ campus to chipmaker Analog Devices
    Chipmaker Analog Devices has purchased an additional 39 acres of the historic Tektronix campus near Beaverton, the companies said Thursday.
  99. [99]
    Tektronix sells portion of Beaverton campus to growing chipmaker ADI
    May 4, 2023 · The deal includes roughly 39 acres and multi-use buildings. Tektronix plans to do a three-year lease-back for use of a building on the property ...Missing: 2.5 million square feet
  100. [100]
    Layoffs leave Silicon Forest less populated - oregonlive.com
    Nov 21, 2008 · ... laid off 1,400 people last summer when it closed its Eugene chip factory. Earlier this month, Tektronix Inc. laid off 150 of roughly 2,000 ...
  101. [101]
    Tektronix Expands University Partnership to Reach the Engineers of ...
    Feb 21, 2022 · Tektronix's newest university partnership began when one employee saw an opportunity for a partnership aligned with the ideals of his company.Missing: TekTrak | Show results with:TekTrak
  102. [102]
    Renewable Energy | Tektronix
    Solutions for Tomorrow's Power. Tektronix helps test, simulate, and validate the renewable sources driving the energy transition.
  103. [103]
    Sustainable Testing Good for the Planet and Good for Your Company
    The benefits of reducing energy consumption are twofold – reducing a company's carbon footprint while at the same time reducing operating costs.
  104. [104]
    History of the Oscilloscope: Visualizing with Light, the CRT, to the ...
    May 25, 2019 · One of the four founders, Howard Vollum, invented the first time based triggered oscilloscope known as the Tektronix Type 511. Vollum was ...<|separator|>
  105. [105]
    The Vollum Institute Story - OHSU
    ... Howard Vollum with the first "portable" oscilloscope, the model 511. Vollum, a brilliant if reticent young man with a physics degree from Reed College and a ...
  106. [106]
    Jack Murdock
    The late Melvin J. “Jack” Murdock, co-founder of Tektronix, Inc., was an innovative, entrepreneurial leader with business interests throughout the Pacific ...
  107. [107]
    Tektronix - TekWiki
    an American company best known for manufacturing test and measurement equipment such as oscilloscopes, logic analyzers, and video and mobile test protocol ...Missing: headquarters | Show results with:headquarters
  108. [108]
    [PDF] Tektronix' Articles of Incorporation - Pearl HiFi
    Tek Japan was relocated to Beaverton in 2008. Type 323 Scope. Akio Morita and ... These four shots show the buildout of the Beaverton. Campus from the late 1950's.
  109. [109]
    Tektronix Instruments in Apollo S-Band Communications Systems
    Jul 26, 2022 · Employees · Employee Amateur Radio “Hams” · Employee and Community Health · Employee's Hi-Fi Projects · Employee's Stories · Engineering Groups ...Missing: contributors | Show results with:contributors
  110. [110]
    Women empowering women in tech at Tektronix | Electronic Specifier
    Jun 26, 2024 · This commitment to diversity and inclusion is not just about meeting quotas but about harnessing the full potential of diverse teams to drive ...
  111. [111]
    Women in Engineering | Tektronix
    Nov 3, 2021 · Entire organizations now exist to promote girls' interest in science, technology, engineering, and mathematics (STEM) fields. (Fig. 1). Girls ...Missing: 1970s expansion
  112. [112]
    [PDF] Banquet honors 190 Tek inventors - vintageTEK
    CRT and semiconductor ... Software Engineer IV-Bill Price (Tek Labs). Software/Hardware/Engineer IV-Chris King and David Bates (Tek Labs); John Moore (IDD).