A teleprinter (teletypewriter, Teletype or TTY) is an "electromechanical typewriter that can be used to send and receive typed messages from "point to point and "point-to-multipoint over various types of communications channels. They were adapted to provide a "user interface to early "mainframe computers and "minicomputers, sending typed data to the computer and printing the response. Some models could also be used to create "punched tape for "data storage (either from typed input or from data received from a remote source) and to read back such tape for local printing or transmission.
Teleprinters could use a variety of different communication media. These included a simple pair of wires, dedicated non-switched telephone circuits (leased lines), "switched networks that operated similarly to the "public telephone network ("telex), and radio and "microwave links (telex-on-radio or TOR). A teleprinter attached to a "modem could also communicate through standard switched public telephone lines. This latter configuration was often used to connect teleprinters to remote computers, particularly in "time-sharing environments.
Teleprinters have largely been replaced by fully electronic "computer terminals which usually use a "computer monitor instead of a printer (though the term "TTY" is still occasionally used to refer to them, such as in "Unix systems). Teleprinters are still widely used in the aviation industry ("AFTN and "airline teletype system), and variations called "Telecommunications Devices for the Deaf (TDDs) are used by the "hearing impaired for typed communications over ordinary telephone lines.
The teleprinter evolved through a series of inventions by a number of engineers, including "Samuel Morse, "Alexander Bain, "Royal Earl House, "David Edward Hughes, "Emile Baudot, "Donald Murray, "Charles L. Krum, "Edward Kleinschmidt and "Frederick G. Creed. Teleprinters were invented in order to send and receive messages without the need for operators trained in the use of Morse code. A system of two teleprinters, with one operator trained to use a typewriter, replaced two trained Morse code operators. The teleprinter system improved message speed and delivery time, making it possible for messages to be flashed across a country with little manual intervention.
By 1846, the "Morse telegraph service was operational between Washington, D.C., and New York. "Royal Earl House patented his "printing telegraph that same year. He linked two 28-key piano-style keyboards by wire. Each piano key represented a letter of the alphabet and when pressed caused the corresponding letter to print at the receiving end. A "shift" key gave each main key two optional values. A 56-character typewheel at the sending end was synchronised to coincide with a similar wheel at the receiving end. If the key corresponding to a particular character was pressed at the home station, it actuated the typewheel at the distant station just as the same character moved into the printing position, in a way similar to the "daisy wheel printer. It was thus an example of a synchronous data transmission system. House's equipment could transmit around 40 instantly readable words per minute, but was difficult to manufacture in bulk. The printer could copy and print out up to 2,000 words per hour. This invention was first put in operation and exhibited at the "Mechanics Institute in New York in 1844.
Landline teleprinter operations began in 1849 when a circuit was put in service between Philadelphia and New York City.
In 1855, "David Edward Hughes introduced an improved machine built on the work of Royal Earl House. In less than two years, a number of small telegraph companies, including "Western Union in early stages of development, united to form one large corporation – Western Union Telegraph Co. appeared to carry on the business of telegraphy on the Hughes system.
"Émile Baudot designed a system using a five unit code in 1874. The Baudot system was adopted in France in 1877, and later extensively in France. The British Post Office adopted the Baudot system for use on a simplex circuit between London and Paris in 1897, and subsequently made considerable use of duplex Baudot systems on their Inland Telegraph Services.
During 1901 Baudot's code was modified by "Donald Murray (1865–1945), prompted by his development of a typewriter-like keyboard. The Murray system employed an intermediate step, a keyboard perforator, which allowed an operator to punch a "paper tape, and a tape transmitter for sending the message from the punched tape. At the receiving end of the line, a printing mechanism would print on a paper tape, and/or a reperforator could be used to make a perforated copy of the message. As there was no longer a direct correlation between the operator's hand movement and the bits transmitted, there was no concern about arranging the code to minimize operator fatigue, and instead Murray designed the code to minimize wear on the machinery, assigning the code combinations with the fewest punched holes to the most "frequently used characters. The Murray code also introduced what became known as "format effectors" or ""control characters" – the "CR (Carriage Return) and "LF (Line Feed) codes. A few of Baudot's codes moved to the positions where they have stayed ever since: the NULL or BLANK and the DEL code. NULL/BLANK was used as an idle code for when no messages were being sent.
In 1902, electrical engineer Frank Pearne approached "Joy Morton, head of "Morton Salt, seeking a sponsor for research into the practicalities of developing a "printing telegraph system. Joy Morton needed to determine whether this was worthwhile and so consulted mechanical engineer "Charles L. Krum, who was vice president of the Western Cold Storage Company. Krum was interested in helping Pearne, so space was set up in a laboratory in the attic of Western Cold Storage. Frank Pearne lost interest in the project after a year and left to get involved in teaching. Krum was prepared to continue Pearne’s work, and in August, 1903 a patent was filed for a ‘typebar page printer’. In 1904, Krum filed a patent for a ‘type wheel printing telegraph machine’ which was issued in August, 1907. In 1906 Charles Krum's son, Howard Krum, joined his father in this work. It was Howard who developed and patented the start-stop synchronizing method for code telegraph systems, which made possible the practical teleprinter.
In 1908, a working teleprinter was produced by the Morkrum Company, called the Morkrum Printing Telegraph, which was field tested with the Alton Railroad. In 1910, the Morkrum Company designed and installed the first commercial teletypewriter system on Postal Telegraph Company lines between Boston and New York City using the "Blue Code Version" of the Morkrum Printing Telegraph.
In 1916, "Edward Kleinschmidt filed a patent application for a typebar page printer. In 1919, shortly after the "Morkrum company obtained their patent for a start-stop synchronizing method for code telegraph systems, which made possible the practical teleprinter, Kleinschmidt filed an application titled "Method of and Apparatus for Operating Printing Telegraphs" which included an improved start-stop method. The basic start-stop procedure, however is much older than the Kleinschmidt and Morkrum inventions. It was already proposed by D'Arlincourt in 1870.
Instead of wasting time and money in patent disputes on the start-stop method, Kleinschmidt and the Morkrum Company decided to merge and form the "Morkrum-Kleinschmidt Company in 1924. The new company combined the best features of both their machines into a new typewheel printer for which Kleinschmidt, Howard Krum, and Sterling Morton jointly obtained a patent.
In 1924 "Creed & Company, founded by "Frederick G. Creed, entered the teleprinter field with their Model 1P, a page printer, which was soon superseded by the improved Model 2P. In 1925 Creed acquired the patents for Donald Murray's Murray code, a rationalised Baudot code. The Model 3 tape printer, Creed’s first combined start-stop machine, was introduced in 1927 for the Post office telegram service. This machine printed received messages directly on to gummed paper tape at a rate of 65 words per minute. Creed created his first keyboard perforator, which used compressed air to punch the holes. He also created a reperforator (receiving perforator) and a printer. The reperforator punched incoming Morse signals on to paper tape and the printer decoded this tape to produce alphanumeric characters on plain paper. This was the origin of the Creed High Speed Automatic Printing System, which could run at an unprecedented 200 words per minute. His system was adopted by the Daily Mail for daily transmission of the newspaper contents. The Creed Model 7 page printing teleprinter was introduced in 1931 and was used for the inland Telex service. It worked at a speed of 50 baud, about 66 words a minute, using a code based on the Murray code.
A Teletype system was installed in the "Federal Aviation Administration Flight Service Station Airway Radio Stations system in 1928, carrying administrative messages, flight information and weather reports. By 1938, the FAA's Teletype network, handling weather traffic, extended over 20,000 miles, covering all 48 states except Maine, New Hampshire, and South Dakota.
There were at least five major types of teleprinter networks:
Most teleprinters used the 5-"bit "Baudot code (also known as "ITA2). This limited the character set to 32 codes (25 = 32). One had to use a "FIGS" "shift key to type numbers and special characters. Special versions of teleprinters had FIGS characters for specific applications, such as weather symbols for weather reports. Print quality was poor by modern standards. The Baudot code was used "asynchronously with start and stop bits: the asynchronous code design was intimately linked with the start-stop electro-mechanical design of teleprinters. (Early systems had used synchronous codes, but were hard to synchronize mechanically). Other codes, such as "ASCII, "FIELDATA and "Flexowriter, were introduced but never became as popular as Baudot.
Mark and space are terms describing "logic levels in teleprinter circuits. The native mode of communication for a teleprinter is a simple series "DC circuit that is interrupted, much as a "rotary dial interrupts a telephone signal. The marking condition is when the circuit is closed (current is flowing), the spacing condition is when the circuit is open (no current is flowing). The "idle" condition of the circuit is a continuous marking state, with the start of a character signalled by a "start bit", which is always a space. Following the start bit, the character is represented by a fixed number of bits, such as 5 bits in the Baudot code, each either a mark or a space to denote the specific character or machine function. After the character's bits, the sending machine sends one or more stop bits. The stop bits are marking, so as to be distinct from the subsequent start bit. If the sender has nothing more to send, the line simply remains in the marking state (as if a continuing series of stop bits) until a later space denotes the start of the next character. The time between characters need not be an integral multiple of a bit time, but it must be at least the minimum number of stop bits required by the receiving machine.
When the line is broken, the continuous spacing (open circuit, no current flowing) causes a receiving teleprinter to cycle continuously, even in the absence of stop bits. It prints nothing because the characters received are all zeros, the "Baudot blank (or "ASCII) "null character.
Teleprinter circuits were generally leased from a communications "common carrier and consisted of "twisted pair "copper wires through ordinary telephone cables that extended from the teleprinter located at the customer location to the common carrier "central office. These teleprinter circuits were connected to switching equipment at the central office for "Telex and "TWX service. "Private line teleprinter circuits were not directly connected to switching equipment. Instead, these private line circuits were connected to "network hubs and "repeaters configured to provide point to point or point to multipoint service. More than two teleprinters could be connected to the same wire circuit by means of a "current loop.
Earlier teleprinters had three rows of keys and only supported upper case letters. They used the 5 bit "baudot code and generally worked at 60 to 100 words per minute. Later teleprinters, specifically the "Teletype Model 33, used ASCII code, an innovation that came into widespread use in the 1960s as computers became more widely available.
"Speed", intended to be roughly comparable to "words per minute, is the standard term introduced by "Western Union for a mechanical teleprinter data transmission rate using the 5-bit "baudot code that was popular in the 1940s and for several decades thereafter. Such a machine would send 1 start bit, 5 data bits, and 1.42 stop bits. This unusual stop bit time is actually a rest period to allow the mechanical printing mechanism to synchronize in the event that a garbled signal is received. This is true especially on "High frequency radio circuits where selective fading is present. Selective fading causes the mark signal amplitude to be randomly different from the space signal amplitude. Selective fading, or "Rayleigh fading can cause two carriers to randomly and independently fade to different depths. Since modern computer equipment cannot easily generate 1.42 bits for the stop period, common practice is to either approximate this with 1.5 bits, or to send 2.0 bits while accepting 1.0 bits receiving.
For example, a "60 speed" machine is geared at 45.5 "baud (22.0 "ms per bit), a "66 speed" machine is geared at 50.0 "baud (20.0 ms per bit), a "75 speed" machine is geared at 56.9 baud (17.5 ms per bit), a "100 speed" machine is geared at 74.2 baud (13.5 ms per bit), and a "133 speed" machine is geared at 100.0 baud (10.0 ms per bit). 60 speed became the de facto standard for "amateur radio "RTTY operation because of the widespread availability of equipment at that speed and the U.S. "Federal Communications Commission (FCC) restrictions to only 60 speed from 1953 to 1972. Telex, "news agency wires and similar services commonly used 66 speed services. There was some migration to 75 and 100 speed as more reliable devices were introduced. However, the limitations of HF transmission such as excessive error rates due to multipath distortion and the nature of ionospheric propagation kept many users at 60 and 66 speed. Most Teletype audio recordings in existence today are of teleprinters operating at 60 words per minute, and mostly of the Teletype Model 15.
Another measure of the speed of a Teletype machine was in total "operations per minute (OPM)". For example, 60 speed was usually 368 OPM, 66 speed was 404 OPM, 75 speed was 460 OPM, and 100 speed was 600 OPM. Western Union Telexes were usually set at 390 OPM, with 7.0 total bits instead of the customary 7.42 bits.
Both wire-service and private teleprinters had bells to signal important incoming messages and could ring 24/7 while the power was turned on. For example, ringing 4 bells on UPI wire-service machines meant an "Urgent" message; 5 bells was a "Bulletin"; and 10 bells was a FLASH, used only for very important news, such as the "assassination of John F. Kennedy.
The teleprinter circuit was often linked to a 5-bit "paper tape punch (or "reperforator") and reader, allowing messages received to be resent on another circuit. Complex military and commercial communications networks were built using this technology. Message centers had rows of teleprinters and large racks for paper tapes awaiting transmission. Skilled operators could read the priority code from the hole pattern and might even feed a "FLASH PRIORITY" tape into a reader while it was still coming out of the punch. Routine traffic often had to wait hours for relay. Many teleprinters had built-in paper tape readers and punches, allowing messages to be saved in machine-readable form and edited "off-line.
A typewriter or electromechanical printer can print characters on paper, and execute operations such as move the carriage back to the left margin of the same line ("carriage return), advance to the same column of the next line ("line feed), and so on. Commands to control non-printing operations were transmitted in exactly the same way as printable characters by sending control characters with defined functions (e.g., the line feed character forced the carriage to move to the same position on the next line) to teleprinters. In modern computing and communications a few control characters, such as carriage return and line feed, have retained their original functions (although they are often implemented in software rather than activating electromechanical mechanisms to move a physical printer carriage) but many others are no longer required and are used for other purposes.
Some teleprinters had a "Here is" key, which transmitted a fixed sequence of 20 or 22 characters, programmable by breaking tabs off a drum. This sequence could also be transmitted automatically upon receipt of an "ENQ (control E) signal, if enabled. This was commonly used to identify a station; the operator could press the key to send the station identifier to the other end, or the remote station could trigger its transmission by sending the ENQ character, essentially asking "who are you?"
In 1931 Edward Kleinschmidt formed "Kleinschmidt Labs to pursue a different type design of Teletype. In 1944 Kleinschmidt demonstrated their lightweight unit to the Signal Corps and in 1949 their design was adopted for the Army's portable needs. In 1956 Kleinschmidt Labs merged with "Smith-Corona, which then merged with the "Marchant Calculating Machine Co., forming the SCM Corporation. By 1979 the Kleinschmidt division was branching off into Electronic Data Interchange, a business in which they became very successful, and replaced the mechanical products, including teleprinters.
Kleinschmidt machines, with the military as their primary customer, used standard military designations for their machines. The teleprinter was identified with designations such as a TT-4/FG, while communication "sets" to which a teleprinter might be a part generally used the standard Army/Navy designation system such as AN/FGC-25. This includes Kleinschmidt teleprinter TT-117/FG and tape reperforator TT-179/FG.
"Morkrum made their first commercial installation of a printing telegraph with the Postal Telegraph Company in Boston and New York in 1910. It became popular with railroads, and the "Associated Press adopted it in 1914 for their "wire service. Morkrum merged with their competitor Kleinschmidt Electric Company to become Morkrum-Kleinschmidt Corporation shortly before being renamed the Teletype Corporation.
Italian office equipment maker "Olivetti (est. 1908) started to manufacture teleprinters in order to provide Italian post offices with modern equipment to send and receive telegrams. The first models typed on a paper ribbon, which was then cut and glued into telegram forms.
The Teletype Corporation, a part of "American Telephone and Telegraph Company's "Western Electric manufacturing arm since 1930, was founded in 1906 as the Morkrum Company. In 1925, a merger between Morkrum and Kleinschmidt Electric Company created the Morkrum-Kleinschmidt Company. The name was changed in December 1928 to Teletype Corporation. In 1930, Teletype Corporation was purchased by the "American Telephone and Telegraph Company and became a subsidiary of "Western Electric. In 1984, the divestiture of the Bell System resulted in the Teletype name and logo being replaced by the AT&T name and logo, eventually resulting in the brand being extinguished. The last vestiges of what had been the Teletype Corporation ceased in 1990, bringing to a close the dedicated teleprinter business. Despite its long-lasting trademark status, the word Teletype went into common generic usage in the news and telecommunications industries. Records of the United States Patent and Trademark Office indicate the trademark has expired and is considered dead.
Teletype machines tended to be large, heavy, and extremely robust, capable of running non-stop for months at a time if properly lubricated. The Model 15 stands out as one of a few machines that remained in production for many years. It was introduced in 1930 and remained in production until 1963, a total of 33 years of continuous production. Very few complex machines can match that record. The production run was stretched somewhat by World War II—the Model 28 was scheduled to replace the Model 15 in the mid-1940s, but Teletype built so many factories to produce the Model 15 during World War II, it was more economical to continue mass production of the Model 15. The Model 15, in its receive only, no keyboard, version was the classic "news Teletype" for decades.
Several different high-speed printers like the "Ink-tronic" etc.
A global teleprinter network, called the ""Telex network", was developed in the late 1920s, and was used through most of the 20th century for business communications. The main difference from a standard teleprinter is that Telex includes a switched routing network, originally based on pulse-telephone dialing, which in the United States was provided by Western Union. AT&T developed a competing network called ""TWX" which initially also used rotary dialing and Baudot code, carried to the customer premises as pulses of DC on a metallic copper pair. TWX later added a second ASCII-based service using "Bell 103 type modems served over lines whose physical interface was identical to regular telephone lines. In many cases, the TWX service was provided by the same telephone central office that handled voice calls, using class of service to prevent "POTS customers from connecting to TWX customers. Telex is still in use in some countries for certain applications such as shipping, news, weather reporting and military command. Many business applications have moved to the Internet as most countries have discontinued telex/TWX services.
In addition to the 5-bit Baudot code and the much later seven-bit ASCII code, there was a six-bit code known as the Teletypesetter code (TTS) used by news wire services. It was first demonstrated in 1928 and began to see widespread use in the 1950s. Through the use of "shift in" and "shift out" codes, this six-bit code could represent a full set of upper and lower case characters, digits, symbols commonly used in newspapers, and limited typesetting instructions such as "flush left" or "center".
A Model 20 Teletype machine with a paper tape punch ("reperforator") was installed at subscriber newspaper sites. Originally these machines would simply punch paper tapes and these tapes could be read by a tape reader attached to a "Teletypesetter operating unit" installed on a "Linotype machine. The "operating unit" was essentially a box full of solenoids that sat on type of the Linotype's keyboard and pressed the appropriate keys in response to the codes read from the tape, thus creating type for printing in newspapers and magazines.
In later years the incoming 6-bit current loop signal carrying the TTS code was connected to a minicomputer or mainframe for storage, editing, and eventual feed to a phototypesetting machine.
Computers used teleprinters for input and output from the early days of computing. "Punched card readers and fast printers replaced teleprinters for most purposes, but teleprinters continued to be used as interactive "time-sharing "terminals until video "displays became widely available in the late 1970s.
Users typed commands after a "prompt character was printed. Printing was unidirectional; if the user wanted to delete what had been typed, further characters were printed to indicate that previous text had been cancelled. When video displays first became available the user interface was initially exactly the same as for an electromechanical printer; expensive and scarce video terminals could be used interchangeably with teleprinters. This was the origin of the "text terminal and the "command-line interface.
Paper tape was sometimes used to prepare input for the computer session off line and to capture computer output. The popular "Teletype Model 33 used 7-bit "ASCII code (with an eighth "parity bit) instead of Baudot. The common "modem communications settings, Start/Stop Bits and Parity, stem from the Teletype era.
In early operating systems such as "Digital's "RT-11, serial communication lines were often connected to teleprinters and were given device names starting with tt. This and similar conventions were adopted by many other operating systems. "Unix and "Unix-like "operating systems use the "prefix tty, for example /dev/tty13, or pty (for pseudo-tty), such as /dev/ptya0. In many computing contexts, "TTY" has become the name for any text terminal, such as an external "console device, a user dialing into the system on a "modem on a "serial port device, a printing or graphical "computer terminal on a computer's serial port or the "RS-232 port on a "USB-to-RS-232 converter attached to a computer's USB port, or even a "terminal emulator application in the window system using a "pseudoterminal device.
Teleprinters were also used to record fault printout and other information in some "TXE telephone exchanges.
Although printing news, messages, and other text at a distance is still universal, the dedicated teleprinter tied to a pair of leased copper wires was made functionally obsolete by the "fax, personal computer, "inkjet printer, broadband, and the Internet.
In the 1980s, "packet radio became the most common form of digital communications used in amateur radio. Soon, advanced multimode electronic interfaces such as the AEA PK-232 were developed, which could send and receive not only packet, but various other modulation types including Baudot. This made it possible for a home or laptop computer to replace teleprinters, saving money, complexity, space and the massive amount of paper which mechanical machines used.
As a result, by the mid-1990s, amateur use of actual Teletype machines had waned, though a core of "purists" still operate on equipment originally manufactured in the 1940s, 1950s, 1960s and 1970s.
Despite the obsolescence of teleprinters by the 21st century, its distinctive sound continues to be played in the background of newscasts on the New York City radio station "WINS, and Philadelphia's "KYW, a tradition dating back to the mid-1960s.
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