Mcdermott was the founder of GSI 1930. Mcdermott, Green and Zhan Sen later acquired the company at 194 1.
1945165438+1October, Patrick Hagarty was hired as the general manager of the laboratory and manufacturing department (L&: M)). 195 1 year l &;; With its defense contract, Department M quickly surpassed the GSI Geography Department. The company changed its name to "General Instruments". In the same year, the company was renamed as "Texas Instruments" again, which is the current name. GSI gradually became a subsidiary of Texas Instruments until/kloc-0 was sold to Halliburton Company in 1988.
Texas Instruments is committed to creating, manufacturing and selling useful products and services to meet the needs of customers around the world.
-Patrick Haggerty, Texas Instruments Mission Statement
Semiconductor products of company-level semiconductor Texas Instruments account for almost 85% of its revenue (data in 2003). It occupies a leading position in different product fields including digital signal processor, digital-to-analog converter, analog-to-digital converter, energy management, analog integrated circuit and so on. Wireless communication is also a focus of Texas Instruments. About 50% of the world's mobile phones are equipped with chips produced by Texas Instruments. At the same time, it also produces integrated circuits and single-chip computers for application.
Wireless terminal business department
Digital light processing (DLP)
single chip microcomputer
MSP430: Low-cost, low-power and multifunctional embedded 16-bit MCU with capacitive touch function and FRAM function.
TMS320: 16/32-bit MCU series, optimized for real-time control applications.
16 bit, hourly operation, 20 to 40 MHz
C28X:32-bit integer or floating-point operation, 100 to 150 MHz.
Straris & ampreg:32-bit arm &;; RegMCU, including CORTEX-M3 and M4, its LM3S series processors are the only processors in all brands that integrate Ethernet MAC+PHY with CORTEX-M3 as the core, while other brands only have Macs, so the integrated PHY has excellent cost performance.
Digital signal processor
Texas instruments TMS320
TMS320C2xxx: 16 and 32-bit digital signal processor, optimized for control applications.
TMS320C5xxx: 16-bit low-power processor hours, 100 to 300 MHz.
TMS320C6xxx: High-performance digital signal processor series, 300 to 1000 MHz.
Other models include TMS320C33, TMS320C3x, TMS320C4x, TMS320C5x and TMS320C8x, as well as OMAP series multi-core processors based on ARM architecture, such as ARM9, ARM 1 1 and Cortex-A8, A9 and so on, which are specially designed for mobile devices.
Competitor Texas Instruments has always maintained the top ten semiconductor sales. In 2005, it was second only to Intel and Samsung, followed by Toshiba and stmicroelectronics. The main competitors of Texas Instruments include microchip technology, Cypress Semiconductor, integrated equipment technology, Samsung Electronics and Xilinx.
Texas Instruments has the largest market share in the semiconductor industry, with an estimated total available market exceeding $37 billion. The latest report shows that the market share of Texas Instruments is 14%.
According to Reuters, under the pressure of investors, Texas Instruments had to abandon their mobile chip project-OMAP processor family based on ARM. This project consumes a lot of money and human resources, but these can't shake the dominant position of competitors such as Qualcomm. There are fewer and fewer mobile manufacturers who choose to use Texas Instruments OMAP (Open Multimedia Application Platform), and more choose Qualcomm, while Samsung and Apple have their own exclusive processors Exynos and A6. The biggest disadvantage of OMAP is that its chipset has no 3G/4G modem.
In this way, the manufacturer of the chipset using OMAP has to use additional wireless chips, which invisibly increases the production cost and battery consumption.
Community In 2008, Texas Instruments launched TI E2E Community, which provided a platform for global electronic engineers to discuss and seek help.
Education Texas Instruments is also famous for making calculators, and TI-30 series is its most popular early calculator product. It also manufactures graphic calculators, from the original TI-8 1 to the most popular TI-83 Plus model and the latest series of TI nspire.
Industry Cognition In 2007, Texas Instruments was awarded the Best Global Supplier of the Year by World Trade magazine.
Values for four consecutive years, from 2007 to 2065438+00, Texas Instruments was listed as the "most ethical company in the world" by Ethisphere Institute, and it was the only company selected in the electronics industry.
Acquisition 1997 Amati Communication-USD 395 million.
1998 GO DSP
1999 Butterfly VLSI, ltd-USD 50 million.
1999 telogy neurks-47 million dollars
Burr-Brown Company in 2000-$7.6 billion
Luminary Micro in 2009
20 1 1 National Semiconductor
20 12e parts
In 2004, the turnover distribution was * * * 126 billion USD.
◆ R&D expenditure: USD 2 billion in 2004; It is estimated that in 2005, this figure was more than 265,438 billion US dollars.
◆ Capital expenditure: US$ 6,543.8+RMB 300 million in 2004; In 2005, it was estimated to be $654.38+300 million.
◆ The ranking of the world's top 500 enterprises in 2004 was 197 (according to fiscal year 2003).
Business Development The history of Texas Instrument Geophysics can be traced back to 1930. Clarence Ketcher and Eugene mcdermott set up a company called Geophysical Business Company to provide geological exploration for the oil industry.
1939, the company was reorganized as coronado company. 19411On February 6th, mcdermott and three other GSI employees J Eric Zhan Sen, Cecil H Green and H·B· peacock acquired GSI Company. During World War II, GSI manufactured electronic equipment for the US Military Signal Company and the US Navy. After the war, GSI continued to produce electronic products. 195 1 year, the company changed its name to Texas instruments, and GSI became a wholly-owned subsidiary of Texas instruments.
National defense electronics began in 1942, and Texas Instruments began to enter the field of national defense electronics with the detection equipment of submarines. These technologies are based on geological exploration technologies originally developed for the petroleum industry.
In 1980s, the product quality of this industry became a new focus. A quality improvement plan was launched in the early 1980s. In the late 1980s, Texas Instruments, Eastman Kodak Company and United Signal Company began to participate in the formulation of Motorola's six standard deviations.
Such products include radar systems, infrared systems, missiles, military computers, laser navigation bombs and so on.
Semiconductor As early as 1952, Texas Instruments acquired AT & amp; T's manufacturing department spent $25,000 to buy a patent certificate for producing transistors. At the end of the same year, Texas Instruments began to produce and sell these transistors. Patrick Haag Hagarty, the company's vice president, is far-sighted and aware of the bright future in the field of electronic technology. Later, Gordon K Thiel, who used to work in Bell Laboratories in New Jersey, joined Texas Instruments after watching an advertisement in The New York Times, was appointed as the research director by Hagarty, and returned to work in his hometown of Texas.
Thiel brought his expertise in semiconductor crystals to work in June1953+1October. Hagarty asked him to set up a team of scientists and engineers to maintain Texas Instruments' leading position in the semiconductor industry. Thiel's first task is to organize the company's Central Research Laboratory (CRL). Due to Thiel's previous professional background, this new department is based on Bell Laboratories.
Wilkes Ardox, another physical chemist, joined Texas Instruments at the beginning of 1953, and began to lead a smaller research team dedicated to the development of growth junction transistors. Soon, Aldox became the principal researcher of Texas Instruments.
Silicon Transistor 1954 1 10 In October, Taniban developed the first working silicon semiconductor in Bell Laboratories. This work was reported at the conference on solid-state devices in the spring of 1954, and then published in the Journal of Applied Physics (26,686-691(1955)).
Gordon Thiel also independently developed the first commercial silicon transistor in February 1954, and tested it in February 1954. 1954 In May, at the National Avionics Conference of the American Society of Radio Engineers (IRE) held in Dayton, Ohio, Thiel officially announced his achievements to the outside world, claiming that "contrary to the grim prospect of silicon transistors that my colleagues told you, I can just put these things in my pocket. Contrary to what my colleague told you about the bleak prospect of silicon transistors, I happen to have several silicon transistors in my pocket. ), a paper entitled "Some Recent Developments of Silicon and German Materials and Devices" was published during the meeting.
At this point, Texas Instruments became the only company that mass-produced silicon transistors. Subsequently, in 1955, a diffusion transistor using solid impurity diffusion was invented. But at that time, the price of silicon tube was much more expensive than germanium tube.
Jack kilby, who works in the Central Research Laboratory, developed the world's first integrated circuit in 1958. Kilby had the initial idea of integrated circuits as early as July 1958, and demonstrated the first working integrated circuit in the world on June/0/0/0/2/958. Half a year later, robert noyce of Fairchild Semiconductor Company independently developed an integrated circuit with interconnection, which is also considered as one of the inventors of integrated circuits. Kilby was awarded the Nobel Prize in Physics in 2000 for his contribution in the field of integrated circuits. The chip developed by Noyce of Fairchild Company is made of silicon, while kilby's invention is made of germanium. In 2008, Texas Instruments set up a laboratory named kilby to study the innovative thinking of semiconductor technology.
TTL Texas Instruments' 7400 series transistor-transistor logic (TTL) chips were developed in 1960s, which made the use of integrated circuits in computer logic more popular.
The microprocessor Texas Instruments invented the handheld calculator in 1967 (at that time, the price was as high as $2,500). Subsequently, 197 1 developed a single chip microcomputer, and in the same year1April, the first single chip microcomputer patent certificate was issued.
Sound synthesizer chip TMC0280 sound synthesizer
1978, Texas Instruments introduced the first single-chip linear predictive coding speech synthesizer. 1976, Texas Instruments began to study the application of storage intensity, and soon they began to focus on the application of voice. The result of this research is TMC0280 single-chip linear predictive coding (LPC) speech synthesis system, which becomes the first commercial product that can simulate human voice through electronic reproduction. This achievement has been applied in many commercial products of Texas Instruments. 200 1, Texas Instruments transferred it to Sensory Company in Santa Clara, California.
After developing semiconductors and microprocessors in new industries, Texas Instruments encountered two interesting problems about engineering and product development. First, the chemicals, machinery and technology used to make semiconductors did not exist at first, and they had to be "invented" by themselves; Second, the early market demand was small, and the company must "invent" the "uses" of these products to open up the market. For example, its first transistor radio was invented in this way. Another example is the household thermostat developed in the late 1970s, which is installed on the wall and controlled by a computer, which is probably ignored because of its high price. Texas Instruments has set up an industrial control department in Zhan Sen, Tennessee to produce automatic process control computers for the chemical and food industries. This business is very successful. 199 1 9 Texas instruments was sold to Siemens, and then turned to military and * * * facilities. The best example is the manufacture of electronic equipment in the Apollo moon landing program in the United States.
TI is an Asian company, which has been doing business in Asia since 1960s and 1950s. It first engaged in sales and marketing work and applied technical support, and then rapidly increased semiconductor assembly and testing facilities, as well as materials and control manufacturing. Asia is the base of the most advanced and important semiconductor wafer manufacturing plant in the world. In addition, TI Asia market also covers educational products, including teaching calculators.
The number of employees in operation is 9400.
Manufactory 5
Integrated circuit design center 1
Customer application center 6
Business and sales office 14
Where and when to build a factory in Asia
Chinese mainland (1986)
Philippines (1979)
Malaysia (1972)
Singapore (1968)
Australia (1958)
India (1985)
Korea (1977)
Taiwan Province Province, China (1969)
China and Hongkong (1967)
In China, since 1986 entered Chinese mainland, Ti has been paying close attention to the development of China market. The development strategy of TI China approved by the company's board of directors was formally implemented on 1996. The goal of this strategy is to help China establish a reasonable electronic product structure, improve the design ability of high-tech products, and strive to support China's high-tech industry to the world with the world-leading DSP technology. In order to implement this strategy, TI has established a huge sales network of semiconductor agents in China, and set up offices and technical support teams in Beijing, Shanghai, Shenzhen and Hongkong to provide many unique products and services, including DSP and emulator products, software and hardware development tools and design consulting services.
-Ti has cooperated closely with many well-known domestic manufacturers and achieved remarkable results. This includes the introduction of many products, such as wireless communication, broadband access and other digital information. At the same time, in order to improve the core technology level of China's electronics industry, shorten the industrialization process, and speed up the entry of products synchronized with international technology into the market, TI and domestic enterprises set up two joint ventures in 1999, in which Shanghai Panorama Digital Technology Company focuses on broadband product system design and Beijing Changxinjia Information Technology Company focuses on digital terminal product design. In 2002, TI cooperated with 16 domestic and foreign manufacturers to establish Ming Kai Information Technology Co., Ltd., focusing on the research and development of a new generation of wireless multimedia information terminal products and providing the most advanced solutions for the industry.
-While actively cooperating with domestic enterprises to develop information products that meet the market demand in China, TI has continuously promoted the university plan of digital signal solutions (DSPS) to cooperate with the education and research projects of China Academy of Engineering, and through the training center established, universities and research institutions in China have mastered the most advanced DSP and simulator technologies, thus promoting the combination of product research and application. TI has set up DSPS technology and training centers in Shanghai Jiaotong University, Tsinghua University and Chengdu Dianzi University. By the end of 2003, Transparency International had established 82 DSPS laboratories in 68 universities. From 1996 to the end of 2003, more than 4 1 000 students have studied and trained DSP courses through the established DSPS technology center/laboratory, which has trained many DSP professionals for China industry and contributed to the development of engineering technology education in China. In addition, in order to strengthen the close cooperation with industry, TI has established the 14 joint DSPS laboratory in enterprises, and achieved remarkable results.
Semiconductor Division-Since 1982, TI has become a global leader and pioneer in digital signal processing (DSP) solutions, providing innovative DSP and mixed signal/analog technologies to more than 30,000 customers worldwide, covering wireless communication, broadband, network appliances, digital motor control and consumer markets. In order to help customers enter the market faster and seize the opportunities, TI provides easy-to-use development tools and extensive software and hardware support, and forms a huge third-party network with DSP solution providers to help them develop more than 65,438+0,000 products using TI technology, which makes the service support more perfect. The business of the semiconductor department includes:
* General DSP (Directory DSP): By using general DSP to serve customers, TI can discover new markets earlier and apply them.
* High-performance simulation: TI provides customers with a wide range of high-performance simulation products, including power management, data converters and interfaces, and many products are optimized for the use of TI DSP.
* Wireless: TI is a major supplier of semiconductor components in the wireless industry. Among the digital mobile phones sold, more than 60% use TI DSP solution, and 80% use other parts of TI internally. TI is extending this leading edge to the third generation wireless applications. Nokia, Ericsson and Handspring have all decided to use TI's products to develop their wireless phones and advanced mobile computing devices.
* Broadband: Broadband application for home and business is regarded by many manufacturers as the next major business opportunity in the communication market. TI's Point-to-Point Digital Subscriber Loop (DSL) and cable modem solutions help to establish broadband applications in this fast-growing market. TI is also a global leader in DSL and cable VoP (voice over packet) technologies.
* Emerging terminal equipment: With the continuous growth of electronic digitalization, new applications appear almost every day. TI's strategy is to find out the DSP that has the potential to grow into a huge market and simulate new business opportunities, and then act quickly to expand market share.
* Digital light source processing (DLP): Digital light source processing technology is applied to a single chip, and more than 500,000 micromirrors are used to reflect the image to the screen; This technology won an Emmy Award. It can display digital information and create bright, clear and colorful images.
Sensing and Control Department-Sensing and Control Department provides various solutions for the global transportation, household appliances, high-voltage alternating current (HVAC), industry/commerce, electronics/communication and radio frequency identification (RFID) markets, and is also the market leader; The sensing and control department provides well-designed sensors and control technologies to make household appliances such as televisions, automobiles, airplanes, computers, video recorders, electric freezers, microwave ovens and toasters safer and more efficient. Its radio frequency identification system is also changing the face of security, inventory management and retail consumer identification.
Educational Products Division is a global leader in handheld educational technology. Its function, finance, graphic calculator and related products have been successfully applied in mathematics teaching from primary school to university, and are widely welcomed by mathematics teachers and students because of their close combination with curriculum content and real applicability to classroom teaching.
Main honor 1954 produced the first commercial transistor.
1958 TI engineer jack kilby invented the first integrated circuit.
1967 hand-held electronic calculator invented
Single chip microcomputer was invented in 197 1.
1973 applied for a single chip microcomputer patent.
1978 introduced the first monolithic language synthesizer, which realized the low-cost language synthesis technology for the first time.
1982 introduces a single-chip commercial digital signal processor (DSP)
1990, digital micromirror devices for imaging equipment came out, bringing dawn to digital home theater.
1992 introduced the microSPARC single chip microcomputer, which integrated all the system logic required by the engineering workstation.
1995 Start the online DSP LabTM electronic laboratory to monitor the application of TI DSP on the Internet.
1996 announced the launch of 0. 18 micron process timeline technology, which can integrate 65438+25 million transistors on a single chip.
1997 introduced TMS320C6x DSP, which executed1600 million instructions per second, creating a new DSP performance record.
In 2000, TMS320C64x DSP chip was launched, which executed nearly 9 billion instructions per second, setting a new performance record for DSP.
This paper introduces the chip TMS320C55x DSP with the lowest power consumption in the industry to promote the portable application of DSP.
In 2003, the industry's first ADSL on-chip modem, AR7, went on the market.
The fastest 720MHz DSP in the industry is introduced, and the 1GHz DSP is also demonstrated.
Products exceeding 1.3 micron have been provided to the market.
Development of a new OMAP processor using 0.09 micron technology
Company ranking: 2065438+In the first half of 2008, Texas Instruments ranked 9th among the global semiconductor manufacturers. The market value of Texas Instruments exceeds 1000 billion US dollars, ranking 82nd in the world.
20 19, 10 month, 20 19 Forbes Global Digital Economy 100 Top List was released, and Texas Instruments ranked 45th.
Ranked 459th in the list of the top 500 most valuable brands in the world in 2020.
On May 3, 2020, Texas Instruments ranked 4 16 in the 2020 Forbes Global 2000 list.
On May 8, 2020/KLOC-0, Texas Instruments ranked 222nd on the Fortune 500 list in 2020.
Further reading company department 1. Educational products department: TI company is in a leading position in portable educational technology.
2. Semiconductor Department: 1997 Semiconductor revenue accounts for 83% of the total revenue. The main products are DSP scheme, in addition to microcontroller and ASIC.
3.3. Main integrated circuit products. Digital optical processing includes: digital signal processor, analog and mixed signal devices, digital logic, ASIC, microcontroller, voice and graphics processor, programmable logic, military devices and so on.
4. Materials &; Control: This department serves the automotive, climate control, electronics, communications, optics and aircraft markets.
Market positioning -TI provides complete solutions for many end users around the world.
* TI ranks first in the DSP market.
* TI ranks first in mixed-signal/analog products market.
* 1999 More than half of the digital cellular phones sold use TI's DSP solution. Among them, Nokia, Ericsson, Motorola, Sony and other major mobile phone manufacturers in the world have adopted TI's DSP chip.
* One third of the modems put into use every year in the world use TI's DSP. TI is the fastest growing modem chipset supplier in the world.
* More than 70% of DSP software in the world is written for TI's DSP solution.
* TI occupies more than 80% of the North American graphic calculator market.
* TI has 6,000 patents worldwide.
In Fortune's list of high-profit high-tech enterprises in 2008, Texas Instruments ranked 1 1.
grade
company
Fortune 500 ranking
Net profit in 2007
Increase the scope
1
Microsoft
Forty-four
14 1 billion dollars
12%
2
International business machines Corp.
15
654.38+04 million USD
10%
three
Canadian whitefish
7 1
$7.3 billion
3 1%
four
Hewlett Packard
14
$7.3 billion
17%
five
Intel Corporation of the United States (one of the Fortune 500 companies is famous for producing CPU chips)
60
$7 billion
38%
six
oracle bone script
137
$4.3 billion
26%
seven
150
$4.2 billion
37%
eight
apple
103
$3.5 billion
76%
nine
Qualcomm Inc
297
$3.3 billion
34%
10
A small valley with trees in or around it.
34
$2.9 billion
14%
1 1
Dezhou instrument
185
$2.7 billion
39%
12
Healthy and worry-free
4 17
$2.2 billion
90%
13
Applied materials
270
65.438+0.7 billion USD
13%
14
Electromagnetic compatibility
20 1
65.438+0.7 billion USD
36%
15
Xerox copy (France)
144
65.438+0.7 billion USD
8%
16
MEMC electronic material
9 13
$826 million
124%
17
NVIDIA
543
$798 million
78%
18
Brick clay
65 1
$724 million
43%
19
Electronic data system
1 15
$765,438+06 million
52%
20
Lam research
759
$686 million
104%