Fact-checked by Grok 2 weeks ago

Tungsram

Tungsram was a pioneering manufacturing company specializing in lighting and electrical equipment, founded on August 1, 1896, as Egyesült Izzólámpa és Villamossági Rt. (United Incandescent Lamps and Electrical Co.) in (now part of ), and renowned for inventing the -filament incandescent lamp in 1904, which revolutionized technology. The company originated from the Egger brothers' electrical workshops, established in in , and was initially backed by the of , with early production focused on carbon-filament lamps amid the second industrial revolution's boom. Its name, "Tungsram"—a portmanteau of the English "" and German ""—was trademarked in to highlight its breakthrough in tungsten wire production for durable lamp filaments, patented by inventors Sándor Just (also known as Just) and Franjo Hanaman on December 13, 1904, and commercially launched in 1906. By 1913, Tungsram had scaled to produce 27,000 lamps daily, exporting to over 50 countries and achieving profitability even during through export restructuring. Under long-time CEO Lipót Aschner from 1918 to 1952, Tungsram expanded into electronics, developing vacuum tubes for radios in 1917, gas-filled lamps in 1913, and patented by Imre Bródy in 1930, with starting in 1936 at its Ajka factory—the world's first for krypton extraction from . The firm established a dedicated Research Laboratory in 1921, fostering innovations like the GK-tungsten filament in 1924 and achieving milestones such as experimental transmission in 1937; it joined the international in 1924, securing a 5.655% global market quota for lamps. Beyond lighting, Tungsram diversified into (e.g., automated exchanges like the Krisztina system in 1928), railway signaling, and power generation, peaking at 13,846 employees in 1943 and producing 26 million lamps annually by 1942 despite wartime disruptions. Post-World War II nationalization under communist rule shifted Tungsram toward state-controlled production, but it retained its innovative legacy until in 1989, when the Tungsram name became official. Acquired by in the 1990s, the company was bought out by its CEO Jörg Bauer in 2018 for and expansion into smart and automotive sectors, reporting HUF 70.7 billion in net sales in 2021. However, financial strains led to protection filing in May 2022, followed by unsuccessful creditor negotiations and initiation of proceedings in November 2022, resulting in 750 layoffs while limited operations continued under . By 2025, core entities like Tungsram Operations Kft. persist with a reduced of around 18 employees, focusing on niche solutions, though the broader group remains in winding-up processes.

Overview

Founding and Name Origin

Tungsram traces its origins to the entrepreneurial efforts of the Egger brothers, a Jewish family prominent in the electrical industry. Bernát (Béla) Egger established the "Telegraphen-Bauanstalt" in in 1862, specializing in telegraph equipment production. Encouraged by the growing demand for electrical technologies, he expanded operations to in 1872, opening a workshop at 9 Dorottya Street for repairing and marketing telegraph and devices, including pneumatic bells and early telephones by 1884. By the late , the Eggers had ventured into incandescent , exporting 21,420 units in , rising to 70,210 in 1890, 190,972 in 1891, 220,608 in 1892, and 401,318 in 1893, primarily to markets in and beyond. These pre-founding activities laid the groundwork for a dedicated enterprise, demonstrating the family's expertise in electrotechnical production. On August 1, 1896, the company was formally established as the United Incandescent Lamps and Electrical Co. Ltd. (Egyesült Izzólámpa és Villamossági Rt.) through a joint venture involving the Hungarian Commercial Bank of Pest, the Niederösterreichische Escompte Gesellschaft, and the Egger brothers—Bernát, Jakab, Henrik, David, and Gyula. Headquartered initially in Budapest, the firm focused on producing incandescent lamps with carbon filaments, alongside electrical equipment such as telephones, switchboards, wires, and railway safety devices. Operations began at a modest facility on 7 Huszár Street in Budapest's 7th District, utilizing Thuringian glass tubes and mercury pumps for lamp assembly, with limited mechanization emphasizing handcrafting. Gyula Egger served as the inaugural managing director, guiding the company's early emphasis on quality and export-oriented growth in the burgeoning field of electric lighting. To accommodate expanding production, the company relocated to (now part of ) in 1900, purchasing a 13,500-square-fathom site on January 28 for 182,250 koronas, benefiting from rural industrialization incentives and proximity to the Danube River and railways. Construction of a new commenced immediately, achieving full operational capacity by late with a daily output of 25,000 lamps, which reduced unit costs from 16 krajczars to 13.5 krajczars through . An on-site plant was also developed around this period to ensure reliable energy for manufacturing, underscoring the company's commitment to self-sufficiency in an era of uneven . These infrastructural advancements positioned the firm for sustained growth in incandescent lighting. The iconic "Tungsram" name emerged in as a registered on April 28, reflecting the company's pivot toward advanced technologies. It is a portmanteau of "" (the English term for the metal) and "" (its equivalent, known as "volfram" in ), symbolizing the durable tungsten filaments that revolutionized lamp efficiency and longevity. The "ram" suffix evokes "wolfram," while the branding emphasized precision in design, aligning with innovations like the ductile tungsten wire process. This name, first commercially applied in , became synonymous with high-quality and was later adopted as the official company name in 1989.

Corporate Evolution and Current Status

Tungsram experienced significant ownership shifts beginning with nationalizations under communist influence. In 1919, during the brief Hungarian Soviet Republic, the company was nationalized by the Commissariat of Nationalized Industry, placing it under state control with appointed commissars overseeing production. This was followed by a full nationalization in 1945 by the emerging communist government, reverting the company to state ownership amid post-World War II Soviet influence and economic restructuring. The transition to a in the late marked a pivotal change, with (GE) acquiring a majority stake in Tungsram in 1989 for $150 million, gaining control through 51% ownership plus one share. By 1990, GE had secured full ownership, committing substantial investments that elevated total capital infusion to approximately $550 million by 1993 for plant modernization and expansion. Under GE, Tungsram established Hungary's first international in 1998 at its headquarters, enhancing operational efficiency across regions. In 2018, divested its , , and (EMEA) business, including operations in and the global digital segment, to Jörg Bauer, the former Hungary president, for an undisclosed amount, thereby reviving Tungsram as an independent entity. The reborn Tungsram Group started with around 4,000 employees and generated approximately $300 million in revenue for 2017. Financial difficulties culminated in May 2022 when Tungsram Operations Kft. filed for protection, leading to unsuccessful creditor negotiations and the initiation of proceedings in 2022. The process resulted in the 's dissolution, with the main entity wound up as insolvent by December 31, 2022; select assets, such as the Zalaegerszeg plant, were transferred to Scintilla Fémalkatrész Kft. in early 2023. Certain subsidiaries, including , continued as active and separate operations. While the broader Tungsram Group entered in 2022, core entity Tungsram Operations Kft. continues limited operations with approximately 18 employees as of 2025, focusing on niche solutions and international shipments, though the primary domain tungsram.com remains parked on a domain marketplace.

History

Early Years and Expansion (1896–1918)

Following its founding by the Egger brothers and the Hungarian Commercial Bank of in , Tungsram rapidly transitioned from producing carbon lamps and electrical equipment to pioneering advancements in incandescent technology. A major breakthrough occurred in 1903 when chemists Sándor Just and Ferenc Hanaman invented the lamp, which achieved a luminous of 7.85 lm/W and an average lifespan of 800 hours, significantly surpassing the limitations of carbon filaments. On December 13, 1904, Tungsram acquired the exclusive rights to the Just-Hanaman patent for and , paying a 10% royalty, and initiated early production trials that same year. of lamps commenced in late 1906, coinciding with the issuance of shares on May 1 to capitalize the new Nemzetközi Wolfram Lampa Rt. dedicated to this technology. By early 1908, daily output reached 2,500 lamps, supported by a 986,000 Korona investment in dedicated facilities, and scaled to 27,000 lamps per day by October 1913. On December 1, 1912, Tungsram licensed D. Coolidge's drawn wire technology from via German intermediaries, enhancing filament stability and enabling broader commercial viability. World War I profoundly shaped Tungsram's operations from 1914 to 1918, as export markets contracted sharply, prompting a pivot to domestic and allied demands. In 1915, the company exported 5.7 million lamps, with 42% directed to and 25% to , alongside 11% to and 4% to . To address wartime energy shortages, Tungsram introduced low-power "half-watt" lamps in 1915, initially producing 1,000 per day and expanding to 3,500 by 1916 at a development cost of 65,700 Koronas, while a separate 2 million Korona boosted capacity to 15,000 daily. In 1917, production extended to thermionic valves for army field radios, such as the KLERA model, aiding . Financially, the period marked robust growth despite disruptions, with net profits totaling 6.1 million Koronas from 1914 to 1918 and equity rising from 6.5 million to 10 million Koronas. Strategic acquisitions bolstered self-sufficiency, including the Hungarian Glass Factory (József Inwald Co.) and the Nemenyi brothers' paper mill in 1917, alongside a 50% stake in the Hungarian Tungsten Lamp Factory for 700,000 Koronas and the Viennese incandescent lamp factory. The workforce expanded from 3,600 employees in 1913 to over 2,000 by 1918, incorporating more female labor as 286 workers entered military service in 1914–1915. Tungsram had established a research laboratory in 1913, which was expanded in 1921 under Ignác Pfeifer's direction following delays from Hanaman's wartime service.

Interwar Innovations and Growth (1919–1939)

In 1918, Lipót Aschner assumed the role of managing director at Tungsram, initiating a period of strategic expansion and modernization that positioned the company as a leader in lighting and electronics. Under his leadership, the firm navigated political turbulence, including a brief in 1919 during the , when production was placed under commissars such as János Molnár; operations reverted to private control following the republic's collapse later that year. Aschner's focus on and international markets drove diversification beyond incandescent lamps, building on earlier technologies to foster amid post-World War I recovery. By 1922, Tungsram established the Audion Department to produce radio tubes, marking its entry into the burgeoning sector; output surged from 252,000 units in 1925 to 1.123 million by 1930, reflecting growing demand for components. In , the company joined the , an international agreement among major lamp manufacturers that set production quotas at 17 million lamps annually for Tungsram while facilitating technology sharing, though it constrained independent advancements. That same year, engineers Pál Túry and György Tárján patented the GK non-sagging filament, enhancing lamp durability and efficiency through a large-crystal structure that resisted deformation under heat. Imre Bródy, a key figure in gas-filled bulb research, contributed to advancements including the krypton-filled lamp patented in 1930. Expansion continued with the 1927 acquisition of Warsaw's Cyrkon factory, which boasted a capacity of 1 million lamps per year and bolstered Tungsram's Eastern European presence. By 1929, the company's valuation reached 44 million pengős, underscoring its economic strength even as the struck; Tungsram weathered the crisis through cost controls and diversified exports, commissioning a dedicated Research Laboratory between 1930 and 1931 under director Ignác Pfeifer to centralize R&D efforts. In 1930, Bródy secured a for the krypton-filled lamp on August 1 (No. 103.551), with initial production commencing on July 2, 1931; independent tests demonstrated a lifespan of 1,124 hours for these bulbs, far surpassing competitors' argon-filled models at 299 hours, due to krypton's higher atomic weight reducing filament evaporation. That year also saw acquisitions of Vienna's Joh. Kremenetzky firm and the Ajka Mines to secure raw materials, while the workforce had expanded to 11,251 employees by April 1929. By 1934, Tungsram announced plans for mass-production and established an assembly plant in for radio valves, extending its global footprint amid rising European demand. Incandescent lamp output exceeded 20 million units annually by the mid-1930s, supported by the Ajka krypton factory's startup in , which produced 49,000 units by July. At the 1936 Budapest International Fair, krypton lamps debuted publicly, showcasing their superior efficiency; the following year, Tungsram introduced high-pressure mercury vapor lamps, advancing discharge lighting technology with sintered cathodes for better stability. Radio valve production peaked at 3.165 million units in , coinciding with experimental television transmissions, including demonstrations of cartoons and the company , highlighting Tungsram's role in early broadcast innovations.

World War II, Nationalization, and Post-War Recovery (1940–1950s)

In 1939, Tungsram launched high-pressure mercury vapor lamps utilizing sintered cathodes and the Series 21 pure glass valves, including models like ECH21 and EBL21, alongside directly heated radio tubes that advanced broadcast technology. These innovations built on pre-war advancements in gas-discharge lighting, maintaining the company's competitive edge amid rising geopolitical tensions. The outbreak of in 1940 severely disrupted operations, halting television set production as resources shifted to essential wartime needs. Despite these challenges, cultural activities persisted to bolster employee morale, including a New Year’s Eve at the Tungsram Cultural House, which had been completed in 1932. In 1941, the company completed a 58 cm wavelength microwave transmitter, a key development in radar-related technologies, while the theatrical group performed Lajos Zilahy's "Returning Ghost" to raise funds for commemorative purposes. By 1943, Tungsram's workforce peaked at 13,846 employees, reflecting a 20% increase driven by wartime production demands, with women comprising 55% of the staff; annual profits reached 4,721,562 Pengős. That year, the company acquired the Zagyvapalfalva Factory, securing its position as a leader in Hungary's for production. Military contributions intensified, including the sale of over 200,000 valves to the . The German occupation of Hungary in March 1944 brought acute crises, with managing director Lipót Aschner abducted and deported to on March 19, prompting physicist Zoltán Bay to assume the role of technical manager. Under Bay's , the company completed the "Barbara" artillery locator for military use, while anti-Jewish laws and led to significant human capital losses and a sharp workforce decline to approximately 4,975 by year's end due to deportations, bombings, and chaos. Bay also aided efforts and protected Jewish engineers. In 1945, as the war concluded, Tungsram's factories suffered extensive destruction from Allied bombings and dismantling by the advancing Red Army, which removed equipment for Soviet reparations. The company recorded 538 employee deaths in its "In Memoriam" list, an incomplete tally reflecting the profound human cost of the conflict and Holocaust. Full nationalization occurred in 1948 under the communist regime, transforming Tungsram into a state-owned enterprise. Post-war recovery in the late and was gradual and arduous, marked by resource shortages that hampered rebuilding; machinery and tools had to be reconstructed from memory amid limited imports. Lamp and production slowly resumed, prioritizing state-directed output for the Soviet bloc through frameworks, which later doubled exports between 1976 and 1985 but initially focused on basic restoration. This shift emphasized survival over innovation, with state investments eventually supporting R&D recovery by the .

State Ownership Under Communism (1960s–1980s)

Under state ownership during the communist era, Tungsram operated within Hungary's centrally planned economy, prioritizing production aligned with socialist industrial goals and export obligations to bolster the nation's balance of payments. Following nationalization in 1948, the company stabilized its operations by the 1960s, focusing on lighting and electronics to meet domestic needs and fulfill quotas for the Council for Mutual Economic Assistance (Comecon). Exports to Soviet bloc countries became a core activity, with Tungsram emerging as a vital generator of foreign currency through sales of incandescent lamps and vacuum tubes. Alongside lighting, the firm expanded into semiconductor production, manufacturing germanium diodes and transistors to support emerging electronics applications in the Eastern Bloc. This diversification reflected state directives to build technological self-sufficiency, though output remained modest compared to core lighting lines. By the 1970s, Tungsram deepened its integration into , serving as the bloc's primary supplier of light-source production equipment and specialized components. The company developed advanced lamps for industrial uses, such as high-intensity discharge (HID) bulbs, and contributed to military-related applications through reliable technologies for communication devices. Operations expanded to meet escalating centralized quotas, with workforce growth enabling scaled production across multiple facilities in and surrounding areas. Exports to partners, particularly the , intensified, doubling in value between 1976 and 1985 and accounting for a significant share of Hungary's inflows. , though constrained by state priorities favoring quantity over innovation, advanced designs for electronics, maintaining Tungsram's role in regional supply chains. In the , Tungsram adapted to global shifts toward by introducing more efficient technologies, including improved lamps that offered longer life and lower energy use relative to traditional incandescents. The company was restructured as a (rt.) in 1984, a step toward market-oriented reforms that eased preparations for . This facilitated growing partnerships, such as a 1977 with U.S.-based Industries to produce lamps in , enhancing access to convertible currency markets. Despite these advances, Tungsram grappled with bureaucratic inefficiencies in planning and , as well as lags behind firms due to restricted access to global innovations and capital. These challenges underscored the tensions of operating under socialist constraints while eyeing international competitiveness.

GE Era and Globalization (1990–2017)

In 1990, () achieved full control of Tungsram following its initial acquisition of a majority stake in , marking a pivotal shift from under Hungary's communist regime to integration within a global multinational framework. This transition enabled GE to leverage Tungsram's established manufacturing expertise in products while infusing management practices and capital. Over the subsequent six years, GE invested approximately $600 million in upgrading facilities, enhancing capabilities, and developing global supply chains, transforming Tungsram's operations from a regionally focused entity into a key component of GE's international strategy. During the 1990s, Tungsram under GE shifted emphasis toward energy-efficient technologies, particularly fluorescent lighting solutions such as compact fluorescent lamps (CFLs), which offered up to 80% energy savings and lifespans ten times longer than traditional incandescents, alongside early explorations into LED applications. This period also saw the establishment of joint ventures and production lines in and the , , and (EMEA) regions, utilizing Tungsram's Hungarian facilities to supply markets in former communist countries and emerging economies, thereby expanding GE's footprint beyond . These initiatives modernized production processes, including the introduction of advanced products like Genura induction lamps with over 15,000-hour lifespans, and positioned Tungsram as a bridge for GE's entry into Western European markets. In the , Tungsram's role evolved through deeper integration into GE Lighting's EMEA operations, with a growing focus on solutions, including and high-intensity discharge bulbs tailored for vehicle applications, and the incorporation of controls for improved and . Revenue from these segments contributed to the broader GE portfolio, supporting overall growth as Tungsram's output helped GE capture increased in and lighting, reaching approximately 16-17% in key European markets by the mid-decade. This era emphasized and product diversification, aligning Tungsram's capabilities with GE's global standards for reliability and . The 2010s marked further advancements under GE, with innovations in smart lighting systems and (IoT) integration, exemplified by connected LED solutions that enabled and through apps and sensors, building on GE's C by GE platform. Workforce optimization efforts, including restructuring and training programs, complemented the expansion of centers, which streamlined administrative and operational functions across regions. By 2017, Tungsram had been fully integrated into GE's lighting division, which generated revenues exceeding $1 billion annually for its EMEA and global automotive segments, solidifying its role in a diversified, technology-driven portfolio. Key milestones included the 1998 launch of Hungary's first international at GE/Tungsram's Budapest headquarters, which enhanced operational efficiency and supported cross-border collaboration.

Revival, Independence, and Liquidation (2018–2022)

In 2018, Joerg Bauer, the former president of Hungary, led a of 's operations in , the , , and , acquiring the assets through a he controlled. The acquired entity was rebranded as the Tungsram Group, reviving the historic name while retaining the brand for a transitional period to maintain market continuity. Under Bauer's leadership, the set an ambitious target of reaching $1 billion in annual revenue within ten years, emphasizing global expansion and innovation in technologies. From 2019 to 2021, Tungsram Group prioritized expansion in LED lighting solutions, automotive components, and , operating primarily from facilities in with subsidiaries across multiple countries. The company maintained production of premium indoor and outdoor lighting, traditional lamps, and systems, while navigating a competitive LED market dominated by larger global players. These efforts supported ongoing exports and services, though financial strains emerged from post-COVID disruptions and rising costs. On May 12, 2022, Tungsram Operations Kft., the core entity of the group, filed for protection following a imposed by Eximbank on its accounts, amid reported losses of HUF 8 billion in and ongoing deficits. and global trade continued initially during the 90-day protection period, with the company aiming to restructure into a leaner operation focused on ; however, it ceased conventional in , planning 1,600 layoffs by year-end. Negotiations with failed, leading to a court-ordered announced in November 2022, which included 750 immediate layoffs while attempting to sustain core operations. The full wind-up was targeted for December 31, 2022, with assets such as plants transferred to new entities to preserve viable and reemploy around 100 workers. Contributing factors included intense competition in the LED sector, persistent issues from the and the war, and cumulative financial pressures that eroded profitability. As of 2025, while the Tungsram Group was wound up by the end of 2022, core operations persist through entities like Tungsram Operations Kft. with approximately 18 employees, emphasizing niche solutions amid ongoing .

Products and Innovations

Lighting Technologies

Tungsram's pioneering work in lighting began with the development of the tungsten filament lamp, patented on December 13, 1904, by Sándor Just and Ferenc Hanaman. This innovation replaced earlier carbon filaments, offering a luminous efficiency of 7.85 lumens per watt (lm/W) and a lifespan of 800 hours, which remained stable throughout its operational life. Tungsram secured exclusive manufacturing rights in Hungary and Austria, enabling mass production following successful experiments in 1906. By 1924, under the Phoebus Cartel quotas established that year, Tungsram's annual production limit was set at approximately 17 million lamps, reflecting its growing global influence in incandescent technology. Advancements in filament design continued with the introduction of the GK non-sagging type in , patented by Pál Tury and György Tarján. This large-crystal coiled maintained structural integrity at high temperatures of 2,400–2,500°C, extending lifespan to up to and improving overall lamp durability. These refinements contributed to Tungsram's production scaling dramatically, reaching over 20 million incandescent lamps by 1937. In 1930, Imre Bródy patented krypton-filled bulbs (Hungarian Patent No. 103,551, August 1), which enhanced efficiency by about 1 lm/W compared to argon-filled versions and achieved a tested lifespan of 1,124 hours in 1932 trials. Initial production began in 1931, with mass manufacturing ramping up from 1934 at the Ajka factory, which by July 1936 output 49,000 units—including 3,500 exported to France—and reached 2.67 million in the 1937–1938 period, an 80% increase from the prior year. The Ajka krypton plant, operational from 1937, produced 560–580 liters daily to support this expansion. Tungsram also ventured into gas-discharge lighting with lamps in 1924, developed by Imre Bródy for applications in and indicators, utilizing inert gases processed via Claude and von Linde methods. Building on this, the company introduced high-pressure mercury vapor lamps in 1936, coinciding with ' initial launch; Tungsram's versions employed sintered cathodes and offered significant energy savings over traditional incandescents, typically reducing consumption by 60–70% for equivalent illumination. Post-1950s developments under included of fluorescent tubes, with experiments dating back to , providing higher and cooler operation for general . In the 1980s, Tungsram advanced energy-efficient incandescent designs, incorporating gas fills and optimizations to boost lumens per watt while extending life beyond standard models. During the GE era from the , Tungsram contributed to LED transitions, emphasizing high color rendering indices (CRI above 90) and longevity exceeding 50,000 hours through retrofit-compatible products that minimized energy use and improved quality.

Electronics and Vacuum Tubes

Tungsram began producing thermionic valves during in 1917, when the Hungarian military commissioned electronic vacuum tubes for army telephone amplifiers at the Ujpest factory. These early valves featured rudimentary designs with wire cathodes, foil grids, and cylindrical anodes, marking the company's initial foray into beyond lighting and telecommunications equipment. The establishment of the Audion Department in 1922 formalized Tungsram's focus on radio tube production, leading to rapid expansion. By , annual output reached 252,000 valves in the series, equipped with tungsten-thorium cathodes operating at 1600°C. Production surged to 1,123,000 units in and peaked at 3,165,000 in 1937, driven by advancements in vacuum technology and agreements like the 1933 RCA collaboration, which reduced breakage rates to 9% by 1936. The department, housed in a dedicated 170-meter-long building completed in , employed leaders such as Károly Czukor and Ernő Winter, emphasizing cathodes from 1927 onward in models like the G-409, which replaced costly with filaments for improved efficiency. In radio tube development, Tungsram prioritized efficiency and , introducing the E-series all-glass (6.3V heaters) and U-series (100 mA heaters) in the late . The Series 21 pure glass valves, launched in , represented a milestone with their compact, entirely glass construction, including models such as ECH21 (hexode converter), EBL21 (output ), ADZ21 (), and EF22 (sharp-cut-off ). These directly heated types, using cathodes of appropriate diameter, enabled more efficient mains-powered radios and advanced selectivity through innovations like the ME-4 and ME-6 "" tuning indicators. Tungsram's contributions to television technology emerged in the late 1930s, with a dedicated TV laboratory established in March 1937. The company conducted experimental broadcasts that year, transmitting still images including a drawing on June 21 and a portrait of James Clerk Maxwell on October 22, utilizing early electronic scanning methods. Production of TV sets began in the early 1940s but was halted by wartime disruptions; by December 1940, laboratory reports highlighted challenges with space for completed units. In 1941, Tungsram developed a transmitter operating at a 58 cm with a few milliwatts output, alongside amplifiers and diodes for fighter plane communications, though these arrived too late for widespread military deployment. During , Tungsram's Research Laboratory produced the "Barbara" artillery locator in 1944, a radar-based device designed by Zoltán Bay and his team that registered its first echoes on April 13, 1943; however, the advancing war limited its practical use by the Hungarian army. Earlier, in the 1910s and 1920s, Tungsram integrated valves into telephone exchanges, such as the József model installed in 1917 at Maria Terézia Square to handle 4,000 lines and the Teréz exchange, which was automated in the mid-1920s for 10,000 subscribers using mechanical and electronic components from the company's portfolio. Under state ownership in the 1950s and 1960s, Tungsram expanded into semiconductors, manufacturing germanium diodes and transistors based on licensed Philips/Mullard OC-series designs, often by adding 1,000 to the original part numbers for Hungarian variants. These devices supported early solid-state applications in radios and industrial electronics, building on the company's vacuum tube expertise during the communist era.

Automotive and Modern Applications

Following the acquisition by in 1990, Tungsram expanded its portfolio in the post-1990s era, focusing on advanced and (HID) lamps designed for enhanced visibility and durability in vehicle applications. These technologies, including high-performance bulbs like the Megalight series offering up to 150% more light output than standard variants, and lamps providing brighter, whiter illumination with longer lifespans, became integral for headlamps in passenger cars and commercial vehicles. Under GE's ownership, Tungsram's production facilities in supported global supply chains, emphasizing energy-efficient designs that met early European regulatory requirements for and reduced power consumption. By the 2010s, Tungsram transitioned to LED-based solutions, introducing LED headlight modules and replacement bulbs for passenger and utility vehicles, which provided superior , instant-on response, and customizable beam patterns. Products such as the LED series, featuring 6000K cool white light and integrated cooling fans for thermal management, targeted applications in fog lights, daytime running lights, and full headlight assemblies, achieving up to 30% higher over traditional while complying with ECE regulations for glare reduction and . These advancements, rooted in GE's LED technology integration, enabled modular designs adaptable to diverse vehicle architectures, from sedans to SUVs. Tungsram's automotive products encompassed headlamps, turn signals, brake lights, and interior illumination systems, all engineered to adhere to stringent efficiency standards such as ECE R112 for headlamps and R7 for indicators, ensuring minimal energy draw and maximal . In the era, early explorations into digital controls facilitated adaptive lighting systems with features, optimizing power usage in vehicle electrical architectures. These applications underscored Tungsram's role in modern vehicular and trends. As of 2025, core operations continue on a limited scale with approximately 18 employees, focusing on niche lighting solutions amid ongoing processes.

Key Figures

Founders and Managers

Tungsram was founded in 1896 by the Egger brothers—Bernát, Jakab, Henrik, David, and Gyula—who established the United Incandescent Lamp and Electrical Company Ltd. as a merger of their existing electrical enterprises. Bernát Egger, the eldest and primary leader, brought extensive prior experience from founding the in in 1862 and a workshop in 1872, where he produced telegraph equipment and early incandescent lamps, laying the groundwork for Tungsram's focus on lighting technology. The brothers collectively secured initial capital and shares, with Jakab handling financial mergers, Henrik serving on the board into the late , David managing operations, and Gyula directing marketing and exports, which expanded to markets like and by the early 1900s. Under their stewardship, the company prioritized production scaling and , achieving early profitability through filament adoption and rural site development in . József Pintér served as technical director from 1883 and played a co-founding role in early , overseeing expansions and the to mass tungsten lamp manufacturing at the Huszár Street and plants. His expertise ensured operational efficiency, including wartime continuity in the mechanical department, and he later became vice-president of the board after 1918, contributing to strategic planning for product quality and output growth. Lipót Aschner joined as a junior clerk in 1896 and rose to managing director from 1918 to 1944, succeeding Gyula Egger and transforming Tungsram into a global corporation through focused modernization. He oversaw key expansions, including foreign branches in (1922), (1930), and (1934), acquisitions like the Kremenetzky (1930), and infrastructure investments during the 1929–1933 , such as new buildings and coal mines. Aschner established the research laboratory in 1921 with an initial 1.6 million Korona investment, appointing Ignác Pfeifer as head to drive innovations in and lamp efficiency, employing about 40 staff by 1933. His strategy emphasized export dominance (e.g., to and ), cartel participation like Phoebus for market control, and worker welfare, including housing and sports facilities; production doubled to 23.4 million lamps by 1930, with profits reaching 3.9 million Pengős. During , he maintained operations by stockpiling materials and developing wartime technologies like microwave valves, but was deported by German forces on March 19, 1944, and ransomed from Mauthausen, returning in 1947 after forgoing his salary to protect employee payrolls amid . In a later revival phase, Jörg Bauer, former GE Hungary president, led a 2018 management buyout of Tungsram's lighting units from , re-establishing it as an independent entity with five Hungarian factories and 4,000 employees. Financed via Eximbank credit, Bauer's strategy targeted $1 billion annual revenue within a decade through R&D reinvestment in , Asian market expansion, and export focus (95% of HUF 90 billion projected 2018 sales), while halting dividends for reorganization. Efforts included modernizing operations and leveraging heritage innovations, but challenges from , supply chain disruptions, and the war led to mass layoffs of 1,600 workers in 2022 and a filing in May 2022. The company entered liquidation proceedings in November 2022 after creditor disputes, recording a HUF 6.5 billion loss on HUF 70.7 billion sales in 2021. The Tungsram Group was wound up as insolvent by December 31, 2022. Jörg Bauer subsequently left to become EMEA at RESRG Automotive. As of 2025, core entities like Tungsram Operations Kft. persist with a reduced workforce of around 18 employees, focusing on niche solutions.

Inventors and Scientists

Sándor Just and Franjo Hanaman were pivotal in Tungsram's early technological advancements, co-inventing the world's first commercially viable filament incandescent lamp. On December 13, 1904, they were granted Hungarian Patent No. 34541 for a process involving the and of tungsten rods into filaments, which offered superior durability and efficiency compared to carbon filaments, achieving a of 7.85 lumens per watt and a lifespan of approximately 800 hours. The inventors sold exclusive production rights to Tungsram later that year for a 10% royalty, enabling the company to license the technology internationally and establish itself as a leader in lighting innovation. Franjo Hanaman continued contributing to Tungsram's research efforts after the patent, serving as a technical expert from 1908 and later heading the newly established research laboratory starting April 19, 1918. In this role, he focused on material improvements and scaling for tungsten-based lighting, including marketing U.S. licenses and exploring filament enhancements. Imre Bródy, a at Tungsram's research laboratory from the , advanced gas-filled lamp technology by inventing the krypton-filled incandescent bulb, patented on August 1, 1930, under Hungarian No. 103551. This innovation replaced with gas to reduce filament evaporation, extending bulb life and improving , with initial reaching 1,437 units by October 16, 1934, and mass commercialization in the late . Collaborating with Mihály Polányi, Bródy also developed processes for extraction from air, establishing foundational work in applications for . Tragically, Bródy was killed in the concentration camp in December 1944 during , after hiding in a Tungsram factory camp until September of that year. Pál Túry and György Tarján, researchers in Tungsram's technical staff during the 1920s, co-developed the (Grosskristall) tungsten filament, patented in 1924, which featured larger crystal grains for enhanced mechanical strength and reduced sagging in coiled designs. This breakthrough improved lamp reliability for gas-filled applications, with Túry additionally pioneering tungsten cathodes in radio valves, leading to the G409 tube by 1927. A 1935 refinement of the filament, co-patented with Tivadar Millner, further optimized production for high-output lamps. Zoltán Bay served as Tungsram's technical manager from 1944 and director of the from 1936 to 1948, overseeing breakthroughs in and technologies. Under his leadership, the laboratory advanced systems, including the "Barbara" artillery locator completed in 1944 and early signal experiments for detection up to 60 km. Bay's team also initiated R&D on transmission, contributing to improvements and early broadcast prototypes during the 1930s and 1940s. Gyula Hevesi, an at Tungsram, invented a safe and semi-automatic gas-filling machine in late , designed for efficient extraction and bulb sealing, which enabled the production of half-watt lamps by 1915 and scaled output during wartime constraints. Tivadar Millner, a in Tungsram's research laboratory from the 1920s, specialized in , co-developing vapor absorption techniques using getters to purify lamp interiors and co-patenting the refined GK- in 1935 with Pál Túry, which revolutionized coiled stability. Dénes Gábor, a with an early association to Tungsram, conducted electron tube research at the company's institute in from 1933, building foundational expertise in and systems that informed his later invention, though his primary Tungsram contributions focused on tube resolution enhancements. Ignác Pfeifer, a and head of Tungsram's research laboratory from 1923 to 1936, directed numerous innovations in technology, including oversight of large-crystal coils and krypton-filled lamps, while establishing a dedicated school for that trained subsequent generations of scientists.

Operations and Legacy

Factories and Global Presence

Tungsram's production operations were primarily based in , where the company established its flagship facility in (now part of ) in on the site of a former , designed with an initial capacity of 30,000 lamps per day. This plant underwent significant expansions, including the addition of a mechanized in to support growing output. In 1937, Tungsram opened the world's first extraction plant in Ajka to produce gas for longer-lasting incandescent lamps, securing energy supplies through acquisition of local coal mines. During , the company acquired interests in the Zagyvapalfalva Glass Factory in 1943 to bolster production, though this site closed following the company's liquidation in 2022. By the mid-20th century, Tungsram operated around 10 factories across , including sites for electron tubes in and components in Hajdúnánás, most of which ceased operations by 2022 amid economic challenges and the phase-out of traditional lighting. As of 2025, Tungsram Operations Kft. continues limited operations at the core site with approximately 18 employees, focusing on niche lighting solutions, while the broader group undergoes winding-up processes.
Factory LocationEstablishment YearKey FocusStatus (as of 2025)
(Budapest)1901Main lamp and productionOperational (core site, reduced to ~18 employees)
Ajka1937 gas extractionClosed post-liquidation
Zagyvapalfalva1943 manufacturingClosed
1950s (expanded) sources and Closed (700 layoffs in )
1990s (under GE) and automotive lampsClosed post-liquidation
Hajdúböszörmény1990s (under GE)Components and assemblyClosed (partial asset transfer)
2019Metalworking and EV componentsTransferred to Scintilla Fémalkatrész Kft. in 2023 (operational under new ownership, ~200 employees)
20th century sourcesClosed
20th centuryElectron tubesClosed
Hajdúnánás20th centuryComponentsClosed
Internationally, Tungsram expanded production in the to support exports, acquiring the Cyrkon incandescent lamp factory in in 1927 with an annual capacity of 1 million lamps. In 1930, the company took over the Johann Kremenetzky facility in through its subsidiary Watt A.G., retaining the Kremenetzky for local . By 1934, Tungsram established a radio plant in (West Road, ), later expanding to full until its acquisition by another firm in 1952. These sites facilitated global trade, including participation in the 1924 , which coordinated incandescent bulb markets among major producers like and to regulate production and pricing across and beyond. During the GE era from 1990 to 2017, Tungsram's operations integrated into 's network, establishing subsidiaries across , the , and (EMEA) for and automotive products, with production concentrated in but distribution reaching over 100 markets. Following GE's sale of its EMEA business in 2018, the revived Tungsram Group maintained this footprint, exporting 98% of output from its Hungarian base. Post-2022 liquidation, key assets were transferred, including the Zalaegerszeg plant to Scintilla Fémalkatrész Kft. in 2023 to preserve for components and employ around 200 workers. The subsidiary, Tungsram UK Limited, remains active as of 2025, handling sales and distribution in .

Economic and Cultural Impact

Tungsram exemplified the advancements of the Second , transforming Hungary's industrial landscape by pioneering incandescent lighting and electrical components that facilitated widespread urban and in . Its innovations in technology, patented in 1904, enabled efficient, long-lasting bulbs that boosted productivity in factories and households, positioning as a key player in global electrical goods production. By , Tungsram's exports of lamps and tubes generated hard currency earnings that exceeded Hungary's total agricultural exports, underscoring its economic significance even before . Under communist rule from the late through the , Tungsram, nationalized in , became a vital source of foreign exchange for through its exports of and tubes to markets, though the state appropriated much of these hard-currency earnings to fund the . At its wartime peak in , the company employed 13,846 workers, representing a cornerstone of Hungary's sector and contributing to the Eastern Bloc's early technological capabilities, including rudimentary production like diodes and transistors in the and . In the , General Electric's acquisition and subsequent $600 million investment over six years modernized Tungsram's operations, injecting advanced technology and management practices that elevated Hungary's position in the global tech sector and created thousands of skilled jobs. Culturally, Tungsram fostered community engagement through its Cultural House, completed in 1932 in , which by the 1940s hosted theatrical performances, concerts, and social events like cabarets in 1940 and plays such as "Black Diamonds" in 1943, serving as a recreational hub for employees and the broader locality. The company pioneered media technology with experimental television broadcasts in 1937, transmitting images like the Tungsram logo and on June 21 and a portrait of James Clerk Maxwell on October 22, marking early contributions to innovation in . Amid World War II devastation, Tungsram honored its sacrifices with an "In Memoriam" tribute listing 538 employees lost, many to , highlighting the human cost of conflict on its workforce. As a symbol of Hungarian ingenuity, Tungsram's patents for filaments in 1904 and krypton-filled lamps in 1930 influenced international standards, while its role as a founding member of the from 1924—with a 5.655% —helped establish global norms for bulb lifespan and efficiency, exporting over 21.5 million units annually by 1936. Post-liquidation in 2022, which involved significant layoffs, revival efforts have persisted through subsidiaries maintaining the brand in select markets, preserving its legacy of innovation. The company's historical archives, documented in the 1990 publication The History of Tungsram 1896-1945, ensure the safeguarding of its foundational records, reinforcing its enduring impact on Hungary's industrial heritage and global .

References

  1. [1]
    [PDF] THE HISTORY OF TUNGSRAM 1896-1945
    Tungsram was established as United Incandescent Lamps and Electrical Co. on August 1, 1896, and its history covers events until the end of World War II.
  2. [2]
    Tungsram to Undergo Liquidation - Budapest Business Journal
    Nov 9, 2022 · Tungsram intends to continue operating while under liquidation but will lay off 750 people. The company was bought out by its chief executive, ...<|control11|><|separator|>
  3. [3]
    Tungsram Operations Kft. Company Profile - Hungary - EMIS
    Jun 27, 2025 · The enterprise was incorporated on February 01, 2018. 18 (2025) employees currently work for Tungsram Operations Kft.. From the latest financial ...
  4. [4]
    THE HISTORY OF TUNGSRAM 1896-1945 - MEK - YUMPU
    Mar 6, 2015 · They first notified theTrade Ministry in July 1899, giving their reasons in that<strong>TUNGSRAM</strong> could only complete against the ...
  5. [5]
    United Incandescent Lamps and Electricity Ltd. - Tőzsdemúzeum
    Founded on 1 August 1896. Founders: the Pesti Hungarian Commercial Bank, Niederösterreichische Escompte Gesellschaft, Egger brothers. Decisive leaders: 1908 ...
  6. [6]
    None
    Below is a merged summary of Tungsram's founding and early history (1896-1945), consolidating all information from the provided segments into a single, comprehensive response. To maximize detail and clarity, I will use a table in CSV format to organize key aspects (Founding, Egger Brothers, Pre-Founding Activities, Name Origin, Early Infrastructure) across the different summaries, followed by additional narrative details and useful URLs. This approach ensures all information is retained and presented efficiently.
  7. [7]
    VENTURE PLANNED BY G.E. IN HUNGARY - The New York Times
    Nov 16, 1989 · General Electric, one of America's largest industrial corporations, also has the option to buy an additional 20 percent of Tungsram. G.E. will ...Missing: acquisition | Show results with:acquisition
  8. [8]
    Ge Gropes For The On Switch In Hungary - Bloomberg.com
    Apr 25, 1993 · In 1990, when General Electric Co. paid $150 million to acquire Hungarian light-bulb maker Tungsram Co., it meant jobs, technology, and a future ...Missing: ownership changes nationalization
  9. [9]
    Tungsram – Innovation is our Heritage - HEPA Greece
    1998 The first international shared services center in Hungary is established at the GE/Tungsram EMEA HQ in Budapest. 2018 Tungsram Group is founded. Previous ...
  10. [10]
    New owner of GE's EMEA lighting business aims to turn Tungsram ...
    Apr 6, 2018 · Former GE Hungary head Jorg Bauer wants to turn one of Hungary's oldest companies into a global business with $1bn revenues.Missing: history nationalization
  11. [11]
    Hungaryʼs Tungsram eyes annual revenue of USD 1 bln in ten years
    Apr 4, 2018 · Tungsram will continue GEʼs practice of supporting youth with scholarships, as well as cooperating with universities and local governments, ...Missing: profile | Show results with:profile
  12. [12]
    Tungsram Operations | Closure | Factsheet 106716 - Eurofound apps
    Announcement Date: 27 April 2022; Employment effect (start): 27 April 2022; Foreseen end date: 31 December 2022. Description. Hungarian lighting systems ...Missing: Kft dissolution
  13. [13]
    Fémalkatrészgyártó veszi át a Tungsram zalaegerszegi üzemét - 24.hu
    Feb 17, 2023 · A Scintilla a volt tungsramos dolgozókat rendes munkavállalói szerződéssel veszi fel. Az új vállalat 100 fővel indul el, de a vevői ...Missing: plant transferred
  14. [14]
    TUNGSRAM UK LIMITED overview - Companies House - GOV.UK
    TUNGSRAM UK LIMITED - Free company information from Companies House including registered office address, filing history, accounts, annual return, officers, ...
  15. [15]
    https://sedo.com/search/details/?partnerid=324561&language=us&domain=tungsram.com&origin=sales_lander_15
  16. [16]
    Survival through globalisation: Innovation, internationalisation, and ...
    Tungsram was the leading Hungarian producer of low-current electrical equipment as a member of international cartels. By the late 1930s, it had subsidiaries ...
  17. [17]
    Hungarian Vintage Semiconductors - Wylie.org.uk
    The long-established Hungarian electrical manufacturer Tungsram famous for the production of electric lighting, produced germanium diodes and transistors.
  18. [18]
    None
    Error: Could not load webpage.<|control11|><|separator|>
  19. [19]
    [PDF] A Short History of Computing in Hungary
    Just over 100 years ago in 1886, Hungary's famous electrical and electronics company (Tungsram) was born. In 1992, the majority of shares was purchased by ...
  20. [20]
    [PDF] Hungary: Computers behind the Iron Curtain
    Tungsram electron tubes were used in the M-3. Tungsram was a world-famous Hungarian electric bulb factory, widely known even in the first half of the 20th.
  21. [21]
    Stabilization and Reform in Eastern Europe in - IMF eLibrary
    In the old days, communism was often envisaged from the outside in highly simplified, minutely detailed central planning, omnipotent government, terms. Likewise ...
  22. [22]
    [PDF] OECD Economic Surveys: Hungary 1993 (EN)
    Jan 1, 1993 · internationally known brand names and R&D capacities (Tungsram, Lehel, Chi- ... During most of the 1980s, Hungary maintained R&D ...<|control11|><|separator|>
  23. [23]
    None
    ### Summary of GE Acquisition of Tungsram, Investments, Changes in 1990s, Technology Shifts, Globalization, Joint Ventures
  24. [24]
    Ge Lighting Tungsram greens up Vac plant | GlassOnline.com
    GELT Lighting, the 100% owner of GELT, has invested a total of US$ 600 million in Hungary since it bought a majority in Tungsram in 1989. Please leave this ...
  25. [25]
    Ge In Hungary Tungsram | PPTX - Slideshare
    3. By 1996, GE had renamed Tungsram to GE Lightening Tungsram, invested $600 million, increased market share to 16-17%, and posted $7.3 billion in ...
  26. [26]
    GE`s Automotive Lighting History | Halogen & Xenon HID
    Aug 21, 2018 · Bulbs currently advertised under the GE brand will, however, still be available under the brand name Tungsram – the current manufacturer of GE ...
  27. [27]
    Tungsram – Innovation is our Heritage
    Apr 12, 2018 · Tungsram, established in 1896, is a Hungarian-based, innovative global brand focused on lighting and electrification, with a 120-year history.
  28. [28]
    GE Lighting Launches First-Ever Smart Home Innovations and New ...
    Jan 2, 2020 · C by GE smart switches, bulbs and plugs that reside in a single room or throughout an entire home can now be wirelessly controlled by one app, ...Missing: Tungsram 2000s IoT
  29. [29]
    https://www.gelighting.com/pressroom/ge-lighting-launches-first-ever-smart-home-innovations-and-new-program-ces-2020
  30. [30]
    GE Lighting is now TUNGSRAM - Multi-Lite
    In 1896, Tungsram was founded in Hungary, at that time under a different name. The name is a combination of the English "tungsten" and the German "Wolfram". In ...Missing: history | Show results with:history
  31. [31]
    Tungsram Celebrates One Year Since Re-Emergence As An ...
    Apr 8, 2019 · The company has a renewed focus on lighting products and technologies, said Joerg Bauer, President & CEO of Tungsram Group.
  32. [32]
    Tungsram files for bankruptcy protection - Budapest Business Journal
    May 12, 2022 · The company announced on April 27 that it would cease production of conventional lighting and lay off 1,600 workers by year-end.Missing: dissolution date
  33. [33]
    Tungsram goes into liquidation - Doing Business in Hungary
    Nov 14, 2022 · After the settlement offer was rejected, Tungsram will be liquidated. The company intends to continue operating but will lay off 750 employees.Missing: revival | Show results with:revival
  34. [34]
    [PDF] Comments on the Review of Annex A of the Minamata Convention ...
    May 15, 2020 · In Figure 10, GE/Tungsram highlights the wide range of pin-based LED retrofit products it offers, enabling the end-user to “replace inefficient ...Missing: acquisition | Show results with:acquisition<|control11|><|separator|>
  35. [35]
    [PDF] Tungsram Catalogue - Automotive Lighting - Invision Sales
    This product range is pushing the limits of what's capable from halogen globe technology and delivers the brightest halogen beam on the market in the More Light ...
  36. [36]
    https://invisionsales.com/downloads/ge-tungsram-catalogue/
  37. [37]
    Tungsram Nighthawk LED 7'' Round Sealed Beam Replacement ...
    Out of stockUniversal Tungsram (Formerly GE) Nighthawk LED replacement headlight, for 7′′ round applications. Replaces H6024/6024 sealed beam assemblies.
  38. [38]
    Tungsram - Invision Sales
    As a part of a large restructure, GE Lighting has announced the sale of its Global Automotive business, to the Tungsram Group. Led by Joerg Bauer, a former GE ...
  39. [39]
    Tungsram to expand further on the global market - VIDEO REPORT
    Today, the Hungarian Government concluded a strategic cooperation agreement with Tungsram, recognising the latter's role and position in Hungarian economy. <.
  40. [40]
    Hungary's Lightning Company Tungsram Announces Mass Layoffs
    Apr 28, 2022 · In 1989, American multinational company General Electric Lighting fully acquired Tungsram. ... automotive lighting business was acquired by ...Missing: era | Show results with:era
  41. [41]
    TUNGSRAM - Bulbs - Unix Auto
    Tungsram's Global Automotive Lighting division offers unique and modern vehicle lighting solutions. The company has a wide range of premium bulbs.Missing: operations 2019-2021
  42. [42]
    Aschner Lipót - Hungarian Jewish Excellences
    I was born in Budapest. I played a big role in modernising the Hungarian textile industry in the first decades of the 20th century, and became the president-CEO ...
  43. [43]
    Bródy Imre - Hungarian Jewish Excellences
    Zoltán Bay secured an exemption for Imre Bródy, but he chose to share the fate of his family and voluntarily went to certain death with them. After being ...
  44. [44]
    https://apps.eurofound.europa.eu/restructuring-events/detail/108630
  45. [45]
    Scintilla Fémalkatrész | Business expansion | Factsheet 108630
    Tungsram, a lightning system producer, is currently under liquidation (HU-Tungsram-2022). The employees received the notice of termination at all five ...
  46. [46]
    [PDF] BVWS Bulletin Volume 33 Number 2
    Tungsram. The British Tungsram Radio. Works Ltd (incorporated in 1933), West. Road, Tottenham, London, N17 (in 1947). —this UK factory opened in 1934 and was a.<|separator|>
  47. [47]
    The Great Lightbulb Conspiracy - IEEE Spectrum
    Cartel members rationalized this approach as a trade-off: Their lightbulbs were of a higher quality, more efficient, and brighter burning than other bulbs.
  48. [48]
    Tungsram Group - Global Lighting Forum
    Apr 23, 2023 · Tungsram Group, an iconic name has returned to the global market as an innovative, premium European brand with the acquisition of GE Lighting's ...
  49. [49]
    A Tungsram után a Scintilla Kft működteti a gyárat - ZalaMédia
    Feb 20, 2023 · Nagy örömömre szolgál bejelenteni, hogy 2023. február 20-án, hétfőn a cég működtetését átveszi Scintilla Fémalkatrész Kft., így biztosítva az ...Missing: plant transferred
  50. [50]
    GE Says Hungarian Operation Turned Profit: General...
    Jan 26, 1994 · GE has invested $550 million in the operation since 1989, far more than it envisioned at the outset. But the demise of Comecon, the communist ...
  51. [51]
    TUNGSRAM-EN – S. Beza & M. Leon - bele.gr
    Tungsram is an Hungarian manufacturer of light bulbs since 1896. General Electric, in 1990, acquired majority share in one of Hungary's largest, oldest, and ...