What year was the first tv

The way people watch television has changed dramatically since the medium first burst onto the scene in the 1940s and ‘50s and forever transformed American life. Decade after decade, TV technology has steadily advanced: Color arrived in the 1960s, followed by cable in the ‘70s, VCRs in the ‘80s and high-definition in the late ‘90s. In the 21st century, viewers are just as likely to watch shows on cell phones, laptops and tablets as on a TV set. Amazingly, however, all these technological changes were essentially just improvements on a basic system that has worked since the late 1930s—with roots reaching even further back than that.

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Early TV Technology: Mechanical Spinning Discs
TV Goes Electronic With Cathode Ray Tubes
Utah Inventor Battles Giant Corporation
The Rise of a New Medium

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Early TV Technology: Mechanical Spinning Discs

No single inventor deserves credit for the television. The idea was floating around long before the technology existed to make it happen, and many scientists and engineers made contributions that built on each other to eventually produce what we know as TV today.

Television’s origins can be traced to the 1830s and ‘40s, when Samuel F.B. Morse developed the telegraph, the system of sending messages (translated into beeping sounds) along wires. Another important step forward came in 1876 in the form of Alexander Graham Bell’s telephone, which allowed the human voice to travel through wires over long distances.

Both Bell and Thomas Edison speculated about the possibility of telephone-like devices that could transmit images as well as sounds. But it was a German researcher who took the next important step toward developing the technology that made television possible. In 1884, Paul Nipkow came up with a system of sending images through wires via spinning discs. He called it the electric telescope, but it was essentially an early form of mechanical television.

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TV Goes Electronic With Cathode Ray Tubes

In the early 1900s, both Russian physicist Boris Rosing and Scottish engineer Alan Archibald Campbell-Swinton worked independently to improve on Nipkow’s system by replacing the spinning discs with cathode ray tubes, a technology developed earlier by German physicist Karl Braun. Swinton’s system, which placed cathode ray tubes inside the camera that sent a picture, as well as inside the receiver, was essentially the earliest all-electronic television system.

Russian-born engineer Vladimir Zworykin had worked as Rosing’s assistant before both of them emigrated following the Russian Revolution. In 1923, Zworykin was employed at the Pittsburgh-based manufacturing company Westinghouse when he applied for his first television patent, for the “Iconoscope,” which used cathode ray tubes to transmit images.

Meanwhile, Scottish engineer John Baird gave the world's first demonstration of true television before 50 scientists in central London in 1927. With his new invention, Baird formed the Baird Television Development Company, and in 1928 it achieved the first transatlantic television transmission between London and New York and the first transmission to a ship in mid-Atlantic. Baird is also credited with giving the first demonstration of both color and stereoscopic television.

In 1929, Zworykin demonstrated his all-electronic television system at a convention of radio engineers. In the audience was David Sarnoff, an executive at Radio Corporation of America (RCA), the nation’s biggest communications company at the time. Born into a poor Jewish family in Minsk, Russia, Sarnoff had come to New York City as a child and began his career as a telegraph operator. He was actually on duty on the night of the Titanic disaster; although he likely didn’t—as he later claimed—coordinate distress messages sent to nearby ships, he did help disseminate the names of the survivors.

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Utah Inventor Battles Giant Corporation

April 30, 1939, New York City: This is the scene viewed on the television receivers in the metropolitan area, as the National Broadcasting Company inaugurated the first regular television service to the American public telecasting the ceremonies marking the opening of the New York World's Fair. Later, viewers heard and saw President Roosevelt proclaim the fair open.

Bettmann via Getty Images

Sarnoff was among the earliest to see that television, like radio, had enormous potential as a medium for entertainment as well as communication. Named president of RCA in 1930, he hired Zworykin to develop and improve television technology for the company. Meanwhile, an American inventor named Philo Farnsworth had been working on his own television system. Farnsworth, who grew up on a farm in Utah, reportedly came up with his big idea—a vacuum tube that could dissect images into lines, transmit those lines and turn them back into images—while still a teenager in chemistry class.

In 1927, at the age of 21, Farnsworth completed the prototype of the first working fully electronic TV system, based on this “image dissector.” He soon found himself embroiled in a long legal battle with RCA, which claimed Zworykin’s 1923 patent took priority over Farnsworth’s inventions. The U.S. Patent Office ruled in favor of Farnsworth in 1934 (helped in part by an old high school teacher, who had kept a key drawing by the young inventor), and Sarnoff was eventually forced to pay Farnsworth $1 million in licensing fees. Though viewed by many historians as the true father of television, Farnsworth never earned much more from his invention, and was dogged by patent appeal lawsuits from RCA. He later moved on to other fields of research, including nuclear fission, and died in debt in 1971.

Sarnoff, with his company's marketing might, introduced the public to television in a big way at the World’s Fair in New York City in 1939. Under the umbrella of RCA’s broadcasting division, the National Broadcasting Company (NBC), Sarnoff broadcast the fair’s opening ceremonies, including a speech by President Franklin D. Roosevelt.

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The Rise of a New Medium

By 1940, there were only a few hundred televisions in use in the United States. With radio still dominating the airwaves—more than 80 percent of American homes owned one at the time—TV use grew slowly over the course of the decade, and by the mid-1940s, the United States had 23 television stations (and counting). By 1949, a year after the debut of the hit variety show Texaco Star Theater, hosted by comedian Milton Berle, the nation boasted 1 million TV sets in use.

By the 1950s, television had truly entered the mainstream, with more than half of all American homes owning TV sets by 1955. As the number of consumers expanded, new stations were created and more programs broadcast, and by the end of that decade TV had replaced radio as the main source of home entertainment in the United States. During the 1960 presidential election, the young, handsome John F. Kennedy had a noticeable advantage over his less telegenic opponent, Richard M. Nixon in televised debates, and his victory that fall would bring home for many Americans the transformative impact of the medium.

Home Technology The Web & Communication

television (TV), the electronic delivery of moving images and sound from a source to a receiver. By extending the senses of vision and hearing beyond the limits of physical distance, television has had a considerable influence on society. Conceived in the early 20th century as a possible medium for education and interpersonal communication, it became by mid-century a vibrant broadcast medium, using the model of broadcast radio to bring news and entertainment to people all over the world. Television is now delivered in a variety of ways: “over the air” by terrestrial radio waves (traditional broadcast TV); along coaxial cables (cable TV); reflected off of satellites held in geostationary Earth orbit (direct broadcast satellite, or DBS, TV); streamed through the Internet; and recorded optically on digital video discs (DVDs) and Blu-ray discs.

The technical standards for modern television, both monochrome (black-and-white) and colour, were first established in the middle of the 20th century. Improvements have been made continuously since that time, and television technology changed considerably in the early 21st century. Much attention was focused on increasing the picture resolution (high-definition television [HDTV]) and on changing the dimensions of the television receiver to show wide-screen pictures. In addition, the transmission of digitally encoded television signals was instituted to provide interactive service and to broadcast multiple programs in the channel space previously occupied by one program.

Despite this continuous technical evolution, modern television is best understood first by learning the history and principles of monochrome television and then by extending that learning to colour. The emphasis of this article, therefore, is on first principles and major developments—basic knowledge that is needed to understand and appreciate future technological developments and enhancements.

A. Michael Noll

The dream of seeing distant places is as old as the human imagination. Priests in ancient Greece studied the entrails of birds, trying to see in them what the birds had seen when they flew over the horizon. They believed that their gods, sitting in comfort on Mount Olympus, were gifted with the ability to watch human activity all over the world. And the opening scene of William Shakespeare’s play Henry IV, Part 1 introduces the character Rumour, upon whom the other characters rely for news of what is happening in the far corners of England.

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For ages it remained a dream, and then television came along, beginning with an accidental discovery. In 1872, while investigating materials for use in the transatlantic cable, English telegraph worker Joseph May realized that a selenium wire was varying in its electrical conductivity. Further investigation showed that the change occurred when a beam of sunlight fell on the wire, which by chance had been placed on a table near the window. Although its importance was not realized at the time, this happenstance provided the basis for changing light into an electric signal.

In 1880 a French engineer, Maurice LeBlanc, published an article in the journal La Lumière électrique that formed the basis of all subsequent television. LeBlanc proposed a scanning mechanism that would take advantage of the retina’s temporary but finite retainment of a visual image. He envisaged a photoelectric cell that would look upon only one portion at a time of the picture to be transmitted. Starting at the upper left corner of the picture, the cell would proceed to the right-hand side and then jump back to the left-hand side, only one line lower. It would continue in this way, transmitting information on how much light was seen at each portion, until the entire picture was scanned, in a manner similar to the eye reading a page of text. A receiver would be synchronized with the transmitter, reconstructing the original image line by line.

The concept of scanning, which established the possibility of using only a single wire or channel for transmission of an entire image, became and remains to this day the basis of all television. LeBlanc, however, was never able to construct a working machine. Nor was the man who took television to the next stage: Paul Nipkow, a German engineer who invented the scanning disk. Nipkow’s 1884 patent for an Elektrisches Telescop was based on a simple rotating disk perforated with an inward-spiraling sequence of holes. It would be placed so that it blocked reflected light from the subject. As the disk rotated, the outermost hole would move across the scene, letting through light from the first “line” of the picture. The next hole would do the same thing slightly lower, and so on. One complete revolution of the disk would provide a complete picture, or “scan,” of the subject.

This concept was eventually used by John Logie Baird in Britain (see the photograph) and Charles Francis Jenkins in the United States to build the world’s first successful televisions. The question of priority depends on one’s definition of television. In 1922 Jenkins sent a still picture by radio waves, but the first true television success, the transmission of a live human face, was achieved by Baird in 1925. (The word television itself had been coined by a Frenchman, Constantin Perskyi, at the 1900 Paris Exhibition.)

John Logie Baird with television transmitter

John Logie Baird standing next to his television transmitter of 1925–26. To Baird's left in the case is “Stookie Bill,” a ventriloquist's dummy that was scanned by the spinning Nipkow disk in order to produce a picture signal.

Courtesy of Malcolm Baird

The efforts of Jenkins and Baird were generally greeted with ridicule or apathy. As far back as 1880 an article in the British journal Nature had speculated that television was possible but not worthwhile: the cost of building a system would not be repaid, for there was no way to make money out of it. A later article in Scientific American thought there might be some uses for television, but entertainment was not one of them. Most people thought the concept was lunacy.

Nevertheless, the work went on and began to produce results and competitors. In 1927 the American Telephone and Telegraph Company (AT&T) gave a public demonstration of the new technology, and by 1928 the General Electric Company (GE) had begun regular television broadcasts. GE used a system designed by Ernst F.W. Alexanderson that offered “the amateur, provided with such receivers as he may design or acquire, an opportunity to pick up the signals,” which were generally of smoke rising from a chimney or other such interesting subjects. That same year Jenkins began to sell television kits by mail and established his own television station, showing cartoon pantomime programs. In 1929 Baird convinced the British Broadcasting Corporation (BBC) to allow him to produce half-hour shows at midnight three times a week. The following years saw the first “television boom,” with thousands of viewers buying or constructing primitive sets to watch primitive programs.

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Not everyone was entranced. C.P. Scott, editor of the Manchester Guardian, warned: “Television? The word is half Greek and half Latin. No good will come of it.” More important, the lure of a new technology soon paled. The pictures, formed of only 30 lines repeating approximately 12 times per second, flickered badly on dim receiver screens only a few inches high. Programs were simple, repetitive, and ultimately boring. Nevertheless, even while the boom collapsed a competing development was taking place in the realm of the electron.