The IBM Selectric typewriter was a highly successful line of
electric typewriter
A typewriter is a machine, mechanical or electromechanical machine for typing characters. Typically, a typewriter has an array of Button (control), keys, and each one causes a different single character to be produced on paper by striking ...
s introduced by
IBM on 31 July 1961.
Instead of the "basket" of individual typebars that swung up to strike the ribbon and page in a typical typewriter of the period, the Selectric had an "element" (frequently called a "typeball", or less formally, a "golf ball") that rotated and pivoted to the correct position before striking the paper. The element could be easily interchanged to use different fonts within the same document typed on the same typewriter, resurrecting a capability which had been pioneered by typewriters such as the
Hammond and
Blickensderfer in the late 19th century.
The Selectric also replaced the traditional typewriter's horizontally-moving carriage with a roller (
platen
A platen (or platten) is a flat platform with a variety of roles in printing or manufacturing. It can be a flat metal (or earlier, wooden) plate pressed against a medium (such as paper) to cause an impression in letterpress printing. Platen m ...
) that turned to advance the paper vertically, while the typeball and ribbon mechanism moved horizontally across the paper. The Selectric mechanism was notable for using internal mechanical binary coding and two mechanical
digital-to-analog converter
In electronics, a digital-to-analog converter (DAC, D/A, D2A, or D-to-A) is a system that converts a digital signal into an analog signal. An analog-to-digital converter (ADC) performs the reverse function.
There are several DAC architec ...
s, called
whiffletree linkages, to select the character to be typed.
Selectrics and their descendants eventually captured 75 percent of the United States market for electric typewriters used in business.
By the Selectric's 25th anniversary, in 1986, a total of more than 13 million machines had been made and sold. IBM replaced the Selectric line with the
IBM Wheelwriter
The IBM Selectric typewriter was a highly successful line of electric typewriters introduced by IBM on 31 July 1961.
Instead of the "basket" of individual typebars that swung up to strike the ribbon and page in a typical typewriter of the perio ...
in 1984, and transferred its typewriter business to the newly formed
Lexmark
Lexmark International, Inc. is a privately held American company that manufactures laser printers and imaging products. The company is headquartered in Lexington, Kentucky. Since 2016 it has been jointly owned by a consortium of three multination ...
in 1991.
History, models, and related machines
Original Selectric
The Selectric typewriter was introduced on 31 July 1961. Its
industrial design
Industrial design is a process of design applied to physical Product (business), products that are to be manufactured by mass production. It is the creative act of determining and defining a product's form and features, which takes place in advan ...
is credited to influential American designer
Eliot Noyes
Eliot Fette Noyes (August 12, 1910 – July 18, 1977) was an American architect and industrial designer, who worked on projects for IBM, most notably the IBM Selectric typewriter and the IBM Aerospace Research Center in Los Angeles, Californi ...
. Noyes had worked on a number of design projects for
IBM; prior to his work on the Selectric, he had been commissioned in 1956 by
Thomas J. Watson Jr.
Thomas John Watson Jr. (January 14, 1914 – December 31, 1993) was an American businessman, political figure, Army Air Forces pilot, and philanthropist. The son of IBM Corporation founder Thomas J. Watson, he was the second IBM president (195 ...
to create IBM's first
house style: these influential efforts, in which Noyes collaborated with
Paul Rand
Paul Rand (born Peretz Rosenbaum; August 15, 1914 – November 26, 1996) was an American art director and graphic designer, best known for his corporate logo designs, including the logos for IBM, UPS, Enron, Morningstar, Inc., Westinghouse, ...
,
Marcel Breuer
Marcel Lajos Breuer ( ; 21 May 1902 – 1 July 1981), was a Hungarian-born modernist architect and furniture designer.
At the Bauhaus he designed the Wassily Chair and the Cesca Chair, which ''The New York Times'' have called some of the most im ...
, and
Charles Eames
Charles Ormond Eames Jr. (June 17, 1907 – August 21, 1978) was an American designer, architect and filmmaker. In professional partnership with his spouse Ray Kaiser Eames, he was responsible for groundbreaking contributions in the field of a ...
, have been referred to as the first "house style" program in American business.
Selectric II
The Selectric remained unchanged until 1971 when the Selectric II was introduced.
The original design was thereafter referred to as the SelectricI.
These machines used the same 88-character typing elements.
However they differed from each other in many respects:
* The Selectric II was available with a Dual Pitch option to allow it to be switched (with a lever at the top left of the "carriage") between 10 and 12 characters per inch, whereas the SelectricI was ordered with one "pitch" or the other. Separate elements were available for each pitch. In a few cases the same typeface was available in both pitches, for example, "Courier 72" was the 10-pitch variant of "Courier 12".
* The Selectric II had a lever (at the top left of the "carriage") that allowed characters to be shifted as much as half a space to the left (for centering text, or for inserting a word one character longer or shorter in place of a deleted mistake), whereas the SelectricI did not. This option was available only on dual-pitch models.
* Stylistically, the Selectric II was squarer at the corners, whereas the Selectric I was rounder.
Correcting Selectric II
In 1973 the Correcting Selectric II was announced. It added an internal correction feature to the SelectricII, intended to eliminate the need for typists to use cover-up tape, "white-out" correction fluid, or typewriter erasers. The carriage on this machine held both the main typing ribbon cartridge and two small spools for a correction ribbon. A new ribbon type, the Correctable Film ribbon, was introduced at the same time. This produced typing quality equal to the carbon film ribbon, but with a pigment designed to be easily removed from paper.
There were two types of correction tapes: the transparent and slightly adhesive "Lift-Off" tape (for use with the correctable film ribbon), or the white "Cover-Up" tape (for cloth, Tech-3, and carbon film ribbons). The correction tape was changed independently from the typing ribbon.
The correction key (an extra key at the bottom right of the keyboard) backspaced the carriage by one space and also put the machine in a mode wherein the next character typed would use the correction tape instead of the normal ribbon, and furthermore would not advance the carriage. The typist would press (and release) the correction key and then re-type the erroneous character, either lifting it off the page or (if using other than the correctable ribbon) covering it with white-out powder, then type the correct character. Any number of mistakes could be corrected this way, but the process was entirely manual, as the machine had no memory of the typed characters.
Selectric-based machines with data storage
In 1964 IBM introduced the "
Magnetic Tape Selectric Typewriter
The IBM MT/ST (Magnetic Tape/Selectric Typewriter, and known in Europe as MT72) was a model of the IBM Selectric typewriter, built into its own desk, integrated with magnetic tape recording and playback facilities, located in an attached enclosur ...
" and in 1969, a "Magnetic Card Selectric Typewriter". These were sometimes referred to as the "MT/ST" and "MC/ST", respectively. The MC/ST was also available in a "communicating" version which could emulate an
IBM 2741
The IBM 2741 is a printing computer terminal that was introduced in 1965. Compared to the teletypewriter machines that were commonly used as printing terminals at the time,
the 2741 offers 50% higher speed, much higher quality printing, quieter op ...
terminal or run its native Correspondence Code. These featured electronically interfaced typing mechanisms and keyboards and a magnetic storage device (either tape in a cartridge, or a magnetic-coated card the same size as an 80-column punched card) for recording, editing, and replaying typed material at ca. 12–15 characters per second.
These machines were among the first to provide
word processing
A word is a basic element of language that carries an objective or practical meaning, can be used on its own, and is uninterruptible. Despite the fact that language speakers often have an intuitive grasp of what a word is, there is no consen ...
capability in any form. They used the same elements as ordinary office Selectrics.
In 1972, the "Mag Card Executive" was offered. Like IBM's earlier typebar-based "Executive" models this offered proportional spacing, but unlike them, based on multiples of a 1/60" unit size with up to seven units per character, instead of a unit size of 1/32", 1/36", or 1/45", depending on the size of the typestyle, with up to five units per character as was used on the original "Executive" typewriters. Unlike the various "Selectric Composer" models, there was no provision for setting the machine to vary the letter and word spacing to create justified copy. Some of the fonts originally offered with the Mag Card Executive would later be made available for the Model 50 electronic typewriter, which supported proportional spacing with 96-character elements.
In April 1973 the IBM Mag Card II Typewriter was announced, providing space for up to 8,000 characters in electronic memory.
IBM also sold a tape reader (IBM 2495) that could be connected to
360 series mainframes, and would read the MT/ST tapes. Thus a document typed on an MT/ST Selectric could also be entered into a mainframe data file.
Selectric Composer
In 1966, IBM released the Selectric Composer. This highly-modified (and much more-expensive) Selectric produced camera-ready
justified copy using
proportional font
A typeface (or font family) is the design of lettering that can include variations in size, weight (e.g. bold), slope (e.g. italic), width (e.g. condensed), and so on. Each of these variations of the typeface is a font.
There are thousands ...
s in a variety of font styles ranging from eight
points to fourteen points.
Material prepared on a properly-adjusted machine by a skillful operator and printed onto baryta (
barium sulfate
Barium sulfate (or sulphate) is the inorganic compound with the chemical formula Ba SO4. It is a white crystalline solid that is odorless and insoluble in water. It occurs as the mineral barite, which is the main commercial source of barium an ...
-coated) paper "would take an expert to tell...
hat it
A hat is a head covering which is worn for various reasons, including protection against weather conditions, ceremonial reasons such as university graduation, religious reasons, safety, or as a fashion accessory. Hats which incorporate mecha ...
was not the product of a
Linotype or
Monotype
Monotyping is a type of printmaking made by drawing or painting on a smooth, non-absorbent surface. The surface, or matrix (printing), matrix, was historically a copper etching plate, but in contemporary work it can vary from zinc or glass to ac ...
machine".
Characters were proportionally spaced, three to nine units wide, the size of a unit being selectable as either 1/72", 1/84" or 1/96" to allow for the three sizes of type. (A
monospaced
A monospaced font, also called a fixed-pitch, fixed-width, or non-proportional font, is a font whose letters and characters each occupy the same amount of horizontal space. This contrasts with variable-width fonts, where the letters and spac ...
"Typewriter Font", in which all characters occupied four units, was available for brief imitations of conventional typed text.) Tab stops could be positioned only at intervals of one-sixth of an inch, or one
pica. To support backspacing over previously typed characters, the spacing code for the last forty or so characters typed was mechanically stored by small sliding plates in a carrier wheel.
Like the
Varityper with which it competed, the original machine required that material be typed twice if the output was to be
justified. The first time was to measure the length of the line and count the spaces, recording measurements read from a special dial on the right margin. The second time it was typed, the operator set the measurements into the dial to set justification for each line. The process was tedious and slow, but did provide a way to get camera-ready, proportionally spaced, justified copy from a desk-sized, affordable machine.
The elements for the Selectric Composer would physically fit on a Selectric and vice versa, but were not interchangeable because the characters were arranged and positioned differently around the element. Selectric Composer elements can be distinguished by their colored index arrow (the color indicated which of the three type sizes) and a series of letters and numbers identifying the font, size, and variation, for example "UN-11-B" for Univers 11-point bold (
Adrian Frutiger
Adrian Johann Frutiger ( ; 24 May 1928 – 10 September 2015) was a Swiss typeface designer who influenced the direction of type design in the second half of the 20th century. His career spanned the hot metal, phototypesetting and digital t ...
had adapted his
Univers
Univers () is a large sans-serif typeface family designed by Adrian Frutiger and released by his employer Deberny & Peignot in 1957. Classified as a Grotesque (typeface classification), neo-grotesque sans-serif, one based on the model of nineteen ...
font specifically for the Selectric Composer).
In addition to Univers, a
Century
A century is a period of 100 years. Centuries are numbered ordinally in English and many other languages. The word ''century'' comes from the Latin ''centum'', meaning ''one hundred''. ''Century'' is sometimes abbreviated as c.
A centennial or ...
,
Times Roman
Times New Roman is a serif typeface. It was commissioned by the British newspaper ''The Times'' in 1931 and conceived by Stanley Morison, the artistic adviser to the British branch of the printing equipment company Monotype Imaging, Monotype, in ...
-like font, and later an "Aldine" font (
Bembo
Bembo is a serif typeface created by the British branch of the Monotype Corporation in 1928–1929 and most commonly used for body text. It is a member of the " old-style" of serif fonts, with its regular or roman style based on a design cut a ...
) were available, as was a Symbols font. However, the Composer, with its relatively small market, never had anything like the variety of typefaces available as there were for the Selectric (see below). Each font required separate elements for italic and bold versions, and a separate set of roman/italic/bold balls was required for each font size. Not all typefaces were available in bold and italic in every size for every font. Bold italic, condensed, and light fonts were not available. The need to change elements frequently, sometimes multiple times in the same sentence, slowed work down and was a source of owner dissatisfaction. (In typical use, Selectric elements were changed infrequently.) The small plastic balls were themselves somewhat fragile and not designed to withstand frequent handling. Nevertheless, the Composer allowed much more flexible use of different typefonts, allowing small businesses and organizations to approach the capabilities of professional typesetters, at a reduced cost.
Italic and bold were available for some but not all font "families". Up to three point sizes existed for each style and variety. In contrast with the Selectric, a change of type style usually required purchase of a family of type balls, rather than just a single one. Just as in the days of metal type, no single printing shop had every typeface, it was also rare for a user to possess a complete set, but no user needed to; a publication that could use the somewhat bookish, academic Aldine Roman would probably not have much use for the Classified News or Copperplate Gothic (used most often for formal invitations and business cards). The following font families were available for the Composer:
* Aldine Roman (similar to
Bembo
Bembo is a serif typeface created by the British branch of the Monotype Corporation in 1928–1929 and most commonly used for body text. It is a member of the " old-style" of serif fonts, with its regular or roman style based on a design cut a ...
)
*
Baskerville
Baskerville is a serif typeface designed in the 1750s by John Baskerville (1706–1775) in Birmingham, England, and cut into metal by punchcutter John Handy. Baskerville is classified as a Serif#Transitional, transitional typeface, intended as a ...
*
Bodoni
Bodoni is the name given to the serif typefaces first designed by Giambattista Bodoni (1740–1813) in the late eighteenth century and frequently revived since. Bodoni's typefaces are classified as Didone or modern. Bodoni followed the ideas o ...
* Century (similar to
Century Schoolbook
Century is a family of serif type faces particularly intended for body text. The family originates from a first design, Century Roman, cut by American Type Founders designer Linn Boyd Benton in 1894 for master printer Theodore Low De Vinne, for u ...
)
* Classified News (similar to
News Gothic
News Gothic is a sans-serif typeface in the grotesque or industrial style. It was designed by Morris Fuller Benton and released in 1908 by his employer American Type Founders (ATF). News Gothic is similar in proportion and structure to Franklin ...
)
*
Copperplate Gothic
Copperplate Gothic is a typeface designed by Frederic W. Goudy and released by American Type Founders (ATF) in 1901.
While termed a "''Gothic''" (another term for sans-serif), the face has small glyphic serifs that act to emphasize the blunt ...
* Journal Roman (similar to
Janson
Janson is the name given to a set of old-style serif typefaces from the Dutch Baroque period, and modern revivals from the twentieth century. Janson is a crisp, relatively high-contrast serif design, most popular for body text.
Janson is based o ...
)
* Orator (a
sans-serif
In typography and lettering, a sans-serif, sans serif, gothic, or simply sans letterform is one that does not have extending features called "serifs" at the end of strokes. Sans-serif typefaces tend to have less stroke width variation than seri ...
for documents to be read aloud, enlarging letters to the maximum possible on the font element)
* Press Roman (similar to
Times Roman
Times New Roman is a serif typeface. It was commissioned by the British newspaper ''The Times'' in 1931 and conceived by Stanley Morison, the artistic adviser to the British branch of the printing equipment company Monotype Imaging, Monotype, in ...
); includes Press Roman Symbol (Greek, Mathematical, Technical)
* Pyramid (a
slab-serif
In typography, a slab serif (also called ''mechanistic'', ''square serif'', ''antique'' or ''Egyptian'') typeface is a type of serif typeface characterized by thick, block-like serifs. Serif terminals may be either blunt and angular ( Rockwell), ...
similar to Rockwell)
* Theme (a
sans-serif
In typography and lettering, a sans-serif, sans serif, gothic, or simply sans letterform is one that does not have extending features called "serifs" at the end of strokes. Sans-serif typefaces tend to have less stroke width variation than seri ...
with stroke contrast, similar to
Optima
Optima is a humanist sans-serif typeface designed by Hermann Zapf and released by the D. Stempel AG foundry, Frankfurt, West Germany in 1958.
Though classified as a sans-serif, Optima has a subtle swelling at the terminals suggesting a glyphic ...
)
*
Univers
Univers () is a large sans-serif typeface family designed by Adrian Frutiger and released by his employer Deberny & Peignot in 1957. Classified as a Grotesque (typeface classification), neo-grotesque sans-serif, one based on the model of nineteen ...
* Ruling Font
In contrast to the Selectric typewriter, only IBM made elements for the standard typefaces usually used with the Composer. GP, which made elements for the Selectric typewriter, did make one Composer element in an Old English typeface.
In 1967, a "
Magnetic Tape Selectric Composer" appeared, and in 1978, a "Magnetic Card Selectric Composer". The "Electronic Composer" (with approximately 5000 characters of internal memory, similar to the later Magnetic Card model but without external storage) was marketed from 1975. All these models used the same Selectric Composer output (printing) mechanism. However, the magnetic or internal storage allowed these improved models to avoid the need to type in justified text twice, or to manually set the mechanism for justification of each line. Furthermore, tapes or cards originally recorded on the much less-expensive and easier-to-operate Selectric typewriter versions, the
MT/ST or MC/ST, could be read by the "Composer" equivalents. This allowed much of the time-consuming manual transcription work and proofreading to be performed on less-expensive equipment, while a final high-quality output could be printed on the Composer.
For a number of years after its introduction, the Selectric Composer was considered a highly desirable, powerful desk-sized
cold type
Phototypesetting is a method of setting type. It uses photography to make columns of type on a scroll of photographic paper.
It has been made obsolete by the popularity of the personal computer and desktop publishing (digital typesetting).
The ...
setting system, affordable by small businesses and organizations. It was usually leased, including a
service contract for the skilled labor required to fix and adjust it. The Selectric Composer was accorded respect and affection among small publishers, unrivaled until the appearance of the
Apple
An apple is an edible fruit produced by an apple tree (''Malus domestica''). Apple fruit tree, trees are agriculture, cultivated worldwide and are the most widely grown species in the genus ''Malus''. The tree originated in Central Asia, wh ...
Macintosh
The Mac (known as Macintosh until 1999) is a family of personal computers designed and marketed by Apple Inc., Apple Inc. Macs are known for their ease of use and minimalist designs, and are popular among students, creative professionals, and ...
,
laser printer
Laser printing is an electrostatic digital printing process. It produces high-quality text and graphics (and moderate-quality photographs) by repeatedly passing a laser beam back and forth over a negatively-charged cylinder called a "drum" to d ...
, and
desktop publishing
Desktop publishing (DTP) is the creation of documents using page layout software on a personal ("desktop") computer. It was first used almost exclusively for print publications, but now it also assists in the creation of various forms of online c ...
software.
Ultimately the system proved a transitional product, as it was displaced by cheaper and faster phototypesetting, and then in the 1980s by word processors and general-purpose computers.
Electronic Selectric Composer
The Electronic Selectric Composer was released in January 1975 by the office division of IBM. It had a memory capable of storing approximately 5000 characters.
Selectric III
In 1980, IBM introduced the Selectric III, followed by several other Selectric models, some of them word processors or typesetters instead of typewriters, but by then the rest of the industry had caught up, and IBM's new models did not dominate the market the way the first Selectric had. This was to be expected, as by the late 1970s the Selectric typewriter's dominance was under assault from both 35-45 character per second proportional-spacing electronic typewriters with inbuilt memory (e.g. the 800 from
Xerox
Xerox Holdings Corporation (; also known simply as Xerox) is an American corporation that sells print and electronic document, digital document products and services in more than 160 countries. Xerox is headquartered in Norwalk, Connecticut (ha ...
based on
Diablo's "
daisywheels" and from OEMs of
Qume who had a similar printwheel technology) and CRT-based systems from AES, Lexitron, Vydek, Wang and Xerox (see the
Word Processor
A word processor (WP) is a device or computer program that provides for input, editing, formatting, and output of text, often with some additional features.
Word processor (electronic device), Early word processors were stand-alone devices ded ...
article for further details of these brands). In addition, IBM had already (c. 1977) brought to market the CRT-based
Office System/6
OS/6 (Office System/6 or System 6) is a standalone word processor made by IBM's Office Products Division (OPD), introduced in January, 1977. OS/6 was superseded by the IBM Displaywriter in 1980.
Overview
The intended configuration is a console ...
(from Office Products Division) and
5520 (from IBM General Systems Division (GSD)) both of which used the new 6640 inkjet printer capable of 96 characters per second with two paper trays and sophisticated envelope handling, and was about to introduce Qume-based printers for the existing System/6 range and the new
Displaywriter
The IBM 6580 Displaywriter System is a 16-bit microcomputer that was marketed and sold by IBM's Office Products Division primarily as a word processor. Announced in June 1980 and effectively withdrawn from marketing in July 1986, the system was so ...
launched in June 1980 and described by IBM as "not your father's Selectric". Nevertheless, IBM had a large installed base of Selectric typewriters and to retain customer loyalty it made sense to introduce updated models.
The Selectric III featured a 96-character element vs. the previous 88-character element. IBM's series of "Electronic Typewriters" used this same 96-character element. The 96-character elements can be identified by yellow printing on the top plastic surface and the legend "96", which always appears along with the font name and pitch. The 96- and 88-character elements are mechanically incompatible with each other (they won't fit on each other's machines) and 96-character elements were not available in as many fonts as the older 88-character types.
Most Selectric IIIs and Electronic Typewriters had keys only for 92 printable characters; the 96-character keyboard was an optional feature. Fitting the additional keys onto the keyboard required shrinking the Return and Backspace keys. This was annoying to many typists, so it was not the default configuration. The keytops on SelectricIII and Electronic Typewriters were larger and more square than those on earlier Selectrics.
Some versions of the Electronic Typewriter, the original Model 50, and the later Model 65 and 85, could use 96-character elements with proportionally-spaced typestyles in addition to 10-pitch and 12-pitch typestyles. This proportional spacing was based on a unit of 1/60 of an inch, since 10-pitch characters took six such units, and 12-pitch characters took five such units. (Many daisywheel typewriters, offering similar capabilities, also had daisywheel elements for 15-pitch typing, using four units per character.) The proportional typestyles offered for these typewriters had previously been offered, along with some others, on 88-character elements for a little-known variant of the MC/ST called the Mag Card Executive.
IBM Personal Typewriter
Shortly after the introduction of the Selectric III, IBM introduced the IBM Personal Typewriter, a hybrid model that used the widely available 88-character “golfball” type elements and correction tape of the Selectric II, but used the newer Selectric III’s ribbon cartridges. Limited to a single fixed pitch (either 10-cpi Pica or 12-cpi Elite, though either pica or elite type elements could be used), the typewriter was significantly less expensive than either the Selectric II or Selectric III and targeted the home and consumer markets.
Eavesdropping
There is at least one known case of the Selectric exploited as a
covert listening device
A covert listening device, more commonly known as a bug or a wire, is usually a combination of a miniature radio transmitter with a microphone. The use of bugs, called bugging, or wiretapping is a common technique in surveillance, espionage and ...
of the type known as a "
keyboard logger". In 1984, bugs were discovered in at least 16 Selectric typewriters in the
U.S. Embassy in Moscow and the
U.S. Consulate
The United States has the second most Diplomatic mission, diplomatic missions of any country in the world List of diplomatic missions of China, after Mainland China, including 166 of the 193 member countries of the United Nations, as well as obse ...
in Leningrad. The highly sophisticated devices were planted by the Soviets between 1976 and 1984, and were hidden inside a metal support bar. Information was intercepted by detecting the movements of metal bars inside the typewriter (the "latch interposers") by means of
magnetometer
A magnetometer is a device that measures magnetic field or magnetic dipole moment. Different types of magnetometers measure the direction, strength, or relative change of a magnetic field at a particular location. A compass is one such device, o ...
s. The data were then compressed and transmitted in bursts.
The bugs were installed in Selectric II and III models.
Successor
IBM introduced the IBM Wheelwriter in 1984 as a successor to the Selectric. The Wheelwriter featured a replaceable
daisy wheel
Daisy wheel printing is an impact printing technology invented in 1970 by Andrew Gabor at Diablo Data Systems. It uses interchangeable pre-formed type elements, each with typically 96 glyphs, to generate high-quality output comparable to pr ...
cartridge, had electronic memory, and offered many word processing features.
Keyboard layout
The Selectric's
keyboard layout
A keyboard layout is any specific physical, visual or functional arrangement of the keys, legends, or key-meaning associations (respectively) of a computer keyboard, mobile phone, or other computer-controlled typographic keyboard.
is the actua ...
put the underscore, hyphen, and single and double quote characters as pairs on their own keysan arrangement which had already been used on many earlier
electric typewriter
A typewriter is a machine, mechanical or electromechanical machine for typing characters. Typically, a typewriter has an array of Button (control), keys, and each one causes a different single character to be produced on paper by striking ...
s, including IBM's own Model A onwards. The traditional layout of mechanical typewriters had offered these characters as shifts from digit keys. Electric typewriter designers had made this change because smaller characters need to hit the paper with less force than most, and pairing these characters in this way avoided the need to adjust the force based on shift state.
About a decade later, this character pairing was formalized in the American Standards Association X4.14-1971 standard as ''typewriter pairing'' (colloquially a
typewriter-paired keyboard
A bit-paired keyboard is a computer keyboard, keyboard where the keyboard layout, layout of shift key, shifted keys corresponds to columns in the ASCII (1963) table, archetypally the Teletype Model 33 (1963) keyboard. This was later contrasted with ...
), along with
bit-paired keyboard
A bit-paired keyboard is a keyboard where the layout of shifted keys corresponds to columns in the ASCII (1963) table, archetypally the Teletype Model 33 (1963) keyboard. This was later contrasted with a typewriter-paired keyboard, where the layou ...
s. Typewriter pairing became the only supported arrangement in the successor X4.23-1982 standard.
The Selectric also added a dedicated key for
1 /
!. The typist no longer had to use a lowercase
L, nor overstrike the single quote and period characters, as had been the practice on most earlier typewriters.
These changes were later copied by the IBM Model D electric typewriter (1967), and later still by
DEC's
VT52
The VT50 was a CRT-based computer terminal introduced by Digital Equipment Corporation (DEC) in July 1974. It provided a display with 12 rows and 80 columns of upper-case text, and used an expanded set of control characters and forward-only scro ...
terminal (1975) and the original
IBM PC
The IBM Personal Computer (model 5150, commonly known as the IBM PC) is the first microcomputer released in the IBM PC model line and the basis for the IBM PC compatible de facto standard. Released on August 12, 1981, it was created by a team ...
(1981). Typewriter pairing was seen on many other computer keyboards, particularly the influential
Model M
Model M designates a group of computer keyboards designed and manufactured by IBM starting in 1985, and later by Lexmark International, Maxi Switch, and Unicomp. The keyboard's many variations have their own distinct characteristics, with ...
(1985).
The new layout was not universal, however. Internationally, many layouts kept the bit-paired arrangement. This is easily visible in yielding
", as on the standard UK layout. The bit-paired symbols are also retained in the
Japanese keyboard layout
Japanese input methods are used to input Japanese characters on a computer.
There are two main methods of inputting Japanese on computers. One is via a romanized version of Japanese called '' rōmaji'' (literally "Roman character"), and the ot ...
.
Selectric mechanism
Mechanically, the Selectric borrowed some design elements from a toy typewriter produced earlier by
Marx Toys
Louis Marx and Company was an American toy manufacturer in business from 1919 to 1980. They made many types of toys including tin toys, toy soldiers, toy guns, action figures, dolls, toy cars and model trains. Some of their notable toys are Rock' ...
. IBM bought the rights to the design.
The element and carriage mechanism was similar to the design of the Teletype Model 26 and later, which used a rotating cylinder that moved along a fixed platen.
The mechanism that positions the typing element ("ball") takes a binary input, and converts this to character offsets using two mechanical digital-to-analog converters, which are "
whiffletree" linkages of the type used for adding and subtracting in linkage-type mechanical analog computers. (The nomenclature used by IBM Office Product Customer Engineers and in IBM maintenance publications for the machine's "whiffletrees" is "Rotate and Tilt Differentials".) Every character position on the element has a two-part binary code, one for tilt and one for rotate.
The motor at the back of the machine drives a belt connected to a two-part shaft located roughly halfway through the machine. The cycle shaft on the left side powers the tilt and rotate mechanism. The operational shaft on the right side powers functions such as spacing, backspacing, and case shifting, as well as serving as a governor, limiting the left-to-right speed with which the carrier moves. A series of spring clutches power the cams which provide the motion needed to perform functions such as backspacing.
When the typist presses a key, a pawl on the key lever depresses a matching metal bar (interposer) for that key. The interposer, which is oriented front to back in the machine, has one or more short projections (lugs) protruding from its bottom edge. Each interposer has a unique combination of lugs, corresponding to the binary code for the desired character. Each interposer also has a tab that slots in between loose steel balls in a race, the size of balls and race selected precisely to leave a total gap barely larger than the width of the interposer tab, such that only one interposer tab can fit in the free space and thus only one letter can be selected at a time.
When the interposer is depressed, it engages a metal bar (cycle clutch latch link) that connects the clutch on the cycle shaft for one cycle, providing power to the filter shaft, whose lobes thrust the interposer towards the front (operator end) of the machine. When the interposer moves, each of its lugs engages one of a set of bars (selector bails) that run from left to right across the keyboard mechanism. In a machine with a North American keyboard, there are five "negative logic" selector bails (two for tilt and three for rotation), and one "positive logic" bail (called "minus five") for accessing characters in the opposite direction of rotation.
Each negative logic selector bail that is displaced by the interposer in turn pulls a latch interposer and link which causes a selector latch near the cycle shaft to be pulled away from the latch bail. The latches pulled away in this manner are disengaged for the rest of the cycle, while the remaining latches take part in character selection, hence the term "negative logic". The minus five selector bail pulls an interposer and link which causes a latch to disengage from a cam, allowing it to move an additional input into the whiffletree that subtracts five units of rotation from any negative logic inputs. An additional "low velocity" selector latch is also engaged by certain keys (e.g. period and underscore) which require a reduced striking force so as not to cut the paper; this selector latch engages the low velocity control cam follower, which pulls the low velocity cable connected to the cam in the carrier, causing the low velocity lobe to be used instead of the usual high velocity lobe.
Additionally, punctuation marks are deliberately placed about the ball so the maximum amount of energy is used to position the element prior to striking, further reducing the impact.
The selector latches that remain engaged with the latch bail cause cams on the drive shaft (which is rotating) to move the ends of the links in the whiffletree linkage, which sums (adds together) the amounts ("weights") of movement corresponding to the selected bits. The sum of the weighted inputs is the required movement of the typing element. There are two sets of similar mechanisms, one for tilt, one for rotate. The typing element has four rows of 22 characters. By tilting and rotating the element to the location of a character, the element can be thrust against the ribbon and platen, leaving an imprint of the chosen character.
Tilt and rotate movements are transferred to the carrier (the mechanism that supports the element), which moves across the page, by two taut metal tapes, one for tilt and one for rotate. The tilt and rotate tapes are both anchored to the right side of the carrier. They both wrap around separate pulleys at the right side of the frame; the tilt pulley is fixed, while the rotate pulley is attached to the shift arm, actuated by the Shift and Caps Lock keys.
The tapes extend across the machine behind the carrier, and then wrap around two separate pulleys at the left side of the frame. The tilt tape is then anchored to a small, quarter-circle pulley which, through a link, tips the tilt ring (the device to which the element is connected) to one of four possible locations. The rotate tape is wrapped around a spring-loaded pulley located in the middle of the carrier. The rotate pulley under the tilt ring is connected through a universal joint (called a "dog bone", which it resembles) to the center of the tilt ring. The element is spring-latched onto that central post. The element rotates counter-clockwise when the rotate tape is tightened. The spiral "clock" spring underneath the rotate pulley rotates the element in the clockwise direction. As the carrier moves across the page (such as when it returns), the tapes travel over their pulleys, but the spring-loaded pulleys on the ball carrier do not pivot or rotate.
To position the ball, both of the pulleys on the left side of the frame are moved by their whiffletree linkages, actuated by the selected drive shaft cams. When the rotate pulley is moved to the right or left, the rotate tape spins the element to the appropriate location. When the tilt pulley is moved, it tips the tilt ring to the appropriate location. When it moves, the tape rotates the spring-loaded pulley on the ball carrier independent of the carrier's location on the page.
Case is shifted from lowercase to uppercase (and associated shifted punctuation symbols) by rotating the element by exactly half a turn. This is accomplished by moving the right-hand rotate pulley via the shift arm, using a cam mounted on the end of the operation shaft; the additional cable tension adds 180° to any rotation from the whiffletree.
After a character is struck onto the paper, the mechanism is reset, including replacing all latches on their bails and moving the interposer back into position. If the key that was pressed is still down at this time, the interposer rotates the keylever pawl out of the way to prevent key repeat until the key is released and depressed again, starting the next cycle.
The complex Selectric system was highly dependent upon periodic lubrication and adjustment, and much of IBM's revenue stream came from the sale of service contracts on the machines. Repair was fairly expensive, requiring specialized skills and parts, so maintenance contracts were an easy sell. Infrequently-used Selectric mechanisms must be operated ("exercised") and properly lubricated to keep them from binding up.
Both Selectric and the later Selectric II were available in standard-, medium-, and wide-carriage models and in various colors, including red and blue, as well as traditional neutral colors.
Inked and correcting ribbons
In addition to the "typeball" technology, Selectrics were associated with several innovations in ink ribbon design.
The original Selectric had to be ordered to use either cloth reusable ribbon or one-time carbon film ribbon; the same machine could not use both. This was also true of the original, non-correcting SelectricII. IBM had used a similar carbon film ribbon on their earlier
Executive series of typewriters. As with these older machines, the carbon film ribbon presented a security issue in some environments: It was possible to read the text that had been typed from the ribbon, seen as light characters against the darker ribbon background.
The Correcting Selectric II used a new ribbon cartridge mechanism. The cartridge contained both supply and take-up spools, permitting both easy ribbon changes and the use of several types of ribbon on one machine. The ribbons were wider than had been used previously, giving more typed characters per inch of ribbon. Successive characters were staggered vertically on the ribbon, which incremented less than a full character position each time. Different types of ribbons had different-depth holes in the bottom of the cartridge, which set the mechanism to advance the ribbon by the amount appropriate for the type of ribbon.
Three types of ribbons were initially available for the Correcting Selectric II: Reusable cloth ribbon (essentially the same as had been used on typewriters for decades); carbon film ribbon, like that used on earlier Selectrics; and the new Correctable (carbon) Film ribbon. The latter used a carbon pigment similar to that on the regular carbon film ribbon, but its binder did not permanently adhere to the paper. This permitted the use of the adhesive Lift-Off correction tape in the new machine, producing a very "clean" correction. The other types of ribbons required Cover-Up tape, which deposited a white ink on top of the characters being corrected. This complicated corrections on paper colors other than white.
Shortly after the machine was introduced, a "Tech-3" ribbon appeared. It essentially replaced the cloth ribbon, as it offered typing quality close to the film ribbon but at a use cost comparable to the reusable cloth. Like the cloth ribbon, Tech-3 ribbons incremented only a fraction of the character width after being struck. Unlike the cloth ribbon, the Tech-3 ribbon provided high-quality impressions for several characters from each spot on the one-time-use ribbon. Because characters overstrike each other on a Tech-3 ribbon several times, it could not be easily read to discover what had been typed. The Tech-3 ribbon offered equivalent document security to the carbon film ribbon, as its impressions were permanent as soon as they had been struck. The Tech-3 ribbon was used with the same cover-up tape that worked with the other non-correctable ribbons.
The thumb wheel on the ribbon cartridge and the correction tape spools were color-coded so they could be easily identified and matched with the appropriate correction tapes: Yellow for the correctable film ribbon and Lift-Off tape; gray, pink, and blue for cloth, carbon film, and Tech-3, respectively. Later another type of correctable film ribbon and lift-off tape appeared, both color-coded orange. The yellow meant the ribbon was a higher quality and would produce a better-quality type image. Orange was a lower-cost ribbon for everyday typing. The yellow and orange coded lift-off tapes would work with either ribbon type.
The slightly adhesive Lift-Off tape would sometimes damage more delicate paper surfaces. A less "sticky" version of these tapes was eventually offered, but some people believed it did not remove the ink as well. Some typists found that a piece of adhesive tape such as
Scotch Tape could be used in place of lift-off tape.
Some colored ribbons (such as brown) were also available. The ribbon cartridge mechanism did not allow for two-color ribbons, such as black and red, which had been common on earlier typewriters.
Type elements and fonts
The Selectric I, Selectric II, and all the "Magnetic Card" and "Magnetic Tape" variations except for the Composers, use the same typing elements. These are available in many fonts, including: symbols for science and mathematics,
OCR faces for scanning by computers,
cursive
Cursive (also known as script, among other names) is any style of penmanship in which characters are written joined in a flowing manner, generally for the purpose of making writing faster, in contrast to block letters. It varies in functionalit ...
script, "Old English" (
fraktur
Fraktur () is a calligraphic hand of the Latin alphabet and any of several blackletter typefaces derived from this hand. The blackletter lines are broken up; that is, their forms contain many angles when compared to the curves of the Antiqu ...
), and more than a dozen ordinary alphabets. The Israeli typographer
Henri Friedlaender
Henri Friedlaender (1904–1996) was an Israeli typographer and book designer. He co-founded the Hadassah Printing School and served as the first director of the school.
Early life
He was born in Lyon, France, in 1904 to a British mother, Rose ...
designed the Hebrew fonts ''Hadar'', ''Shalom'' & ''Aviv'' for the Selectric. The SelectricIII and "Electronic Typewriters" used a new 96-character element.
IBM also produced computer terminals based on the Selectric mechanism, some of which (all models of the
IBM 1050
IBM 1050 Data Communications System is a computer terminal subsystem to send data to and receive data from another 1050 subsystem or IBM computer in the IBM 1400, IBM 7000 or System/360 series. It first became available in 1963 and was used wi ...
series, and
IBM 2741
The IBM 2741 is a printing computer terminal that was introduced in 1965. Compared to the teletypewriter machines that were commonly used as printing terminals at the time,
the 2741 offers 50% higher speed, much higher quality printing, quieter op ...
models using "PTTC/BCD" code) used a different encoding. Though the elements were physically interchangeable, the characters were differently arranged, so standard Selectric elements could not be used in them and their elements could not be used in standard Selectrics. On the other hand, IBM 2741s using "correspondence coding" used standard office Selectric elements. The
IBM 1130
The IBM 1130 Computing System, introduced in 1965, was IBM's least expensive computer at that time. A binary 16-bit machine, it was marketed to price-sensitive, computing-intensive technical markets, like education and engineering, succeeding th ...
computer used a Selectric mechanism as the console printer.
There were two visibly different styles of mechanical design for the elements. The original models had a metal spring clip with two wire wings that were squeezed together to release the element from the typewriter. Later models had a plastic lever molded around a metal axle which pried apart the now-internal spring clip. This had a tendency to break where the lever joined the axle. The Selectric element was later redesigned to have an all-plastic lever.
The font size was measured not in
points but in ''pitch''; that is, the number of letters per one inch of the typed line. As a result, 12-pitch fonts (12 letters per inch) were actually smaller than 10-pitch fonts (10 letters per inch), and roughly corresponded to the 10pt and 12pt traditional typographic font sizes.
Some of the interchangeable typing elements available for the Selectric models included:
Small (12-pitch) fonts
* Elite 72
* Auto Elite
* Large Elite (12)
*
Prestige Elite
Prestige Elite, also known simply as Prestige or Elite, is a monospaced typeface.
It was created by Clayton Smith in 1953 for IBM. Along with Courier, it was extremely popular for use in electric typewriters, especially the IBM Selectric. Unlik ...
72
* Prestige Elite 96*
* Adjutant
* Artisan
* Contempo
*
Courier
A courier is a person or organisation that delivers a message, package or letter from one place or person to another place or person. Typically, a courier provides their courier service on a commercial contract basis; however, some couriers are ...
(12)
* Courier Italic
* Courier Italic 96*
* Forms
*
Letter Gothic
Letter Gothic is a monospaced sans-serif typeface. It was created between 1956 and 1962 by Roger Roberson for IBM in their Lexington, Kentucky, plant, and was inspired by the original drawings for Optima. It was initially intended to be used in ...
* Letter Gothic 96*
* Light Italic
* Olde English (10/12)*
* Olde World
* Oriental
* Presidential Elite
* Report 96 (12)*
* Scribe
* Scribe 96*
* Script
* Symbol
Large (10-pitch) fonts
* Advocate
* Boldface
* Bold Courier (10)
* Bookface Academic 72
* Bookface Academic 96*
* Business Script
* Courier (10)
* Courier 96 (10)
* Delegate
* Delegate 96*
* Manifold 72
* Olde English (10/12)*
*
OCR
* Orator (a large
sans-serif
In typography and lettering, a sans-serif, sans serif, gothic, or simply sans letterform is one that does not have extending features called "serifs" at the end of strokes. Sans-serif typefaces tend to have less stroke width variation than seri ...
font, like
Univers
Univers () is a large sans-serif typeface family designed by Adrian Frutiger and released by his employer Deberny & Peignot in 1957. Classified as a Grotesque (typeface classification), neo-grotesque sans-serif, one based on the model of nineteen ...
, for documents to be read aloud)
* Orator 96*
* Orator Presenter 96*
* Pica 72
* Pica 96*
* Presidential Pica
* Prestige Pica 72
* Report 96 (10)*
* Sunshine Orator
* Symbol 96
* Title
* Title*
Starred fonts were 96-character elements made for the Selectric III.
Many of the fonts listed here came in several sub-varieties. For example, in the early years of the Selectric, typists were used to using the lower-case letter "L" for the numeral "1", as many previous typewriters lacked a dedicated numeral "1" key. The Selectric had a dedicated key for "1"/"!", but this was also marked "
/", as many of the early elements had square brackets in these positions. Using such an element required the typist to continue the old convention. Later elements tended to have the dedicated numeral "1" and exclamation point characters instead. Some moved the square brackets to the positions formerly occupied by the 1/4 and 1/2 fractions, while others lost them completely. Some put a degree symbol in place of the exclamation point. IBM would furthermore customize any element for a fee, so literally endless variations were possible. Such customized elements were identified by a gray plastic flip-up clip instead of a black one.
Many specialized elements were not listed in IBM's regular brochure, but were available from IBM provided the right part number was known. For example, the element for the
APL programming language was available. This element was really intended for use with the
IBM 2741
The IBM 2741 is a printing computer terminal that was introduced in 1965. Compared to the teletypewriter machines that were commonly used as printing terminals at the time,
the 2741 offers 50% higher speed, much higher quality printing, quieter op ...
printing terminal.
The
IBM 1130
The IBM 1130 Computing System, introduced in 1965, was IBM's least expensive computer at that time. A binary 16-bit machine, it was marketed to price-sensitive, computing-intensive technical markets, like education and engineering, succeeding th ...
also used this element when running APL\1130.
Features and uses
The ability to change fonts, combined with the neat regular appearance of the typed page, was revolutionary, and marked the beginning of
desktop publishing
Desktop publishing (DTP) is the creation of documents using page layout software on a personal ("desktop") computer. It was first used almost exclusively for print publications, but now it also assists in the creation of various forms of online c ...
. Later models with dual pitch (10/12) and built-in correcting tape carried the trend even further. Any typist could produce a polished manuscript.
The possibility to intersperse text in Latin letters with Greek letters and mathematical symbols made the machine especially useful for scientists writing manuscripts that included mathematical formulas. Proper mathematical
typesetting
Typesetting is the composition of text by means of arranging physical ''type'' (or ''sort'') in mechanical systems or ''glyphs'' in digital systems representing ''characters'' (letters and other symbols).Dictionary.com Unabridged. Random Ho ...
was very laborious before the advent of
TeX
Tex may refer to:
People and fictional characters
* Tex (nickname), a list of people and fictional characters with the nickname
* Joe Tex (1933–1982), stage name of American soul singer Joseph Arrington Jr.
Entertainment
* ''Tex'', the Italian ...
and done only for much-sold textbooks and very prestigious
scientific journal
In academic publishing, a scientific journal is a periodical publication intended to further the progress of science, usually by reporting new research.
Content
Articles in scientific journals are mostly written by active scientists such as s ...
s. Special elements also were released for the
Athabaskan languages
Athabaskan (also spelled ''Athabascan'', ''Athapaskan'' or ''Athapascan'', and also known as Dene) is a large family of indigenous languages of North America, located in western North America in three areal language groups: Northern, Pacific C ...
, allowing Navajo and Apache bilingual programs in education to be typed for the first time.
The machine had a feature called "Stroke Storage" that prevented two keys from being depressed simultaneously. When a key was depressed, an interposer, beneath the keylever, was pushed down into a slotted tube full of small metal balls (called the "compensator tube") and spring latched. These balls were adjusted to have enough horizontal space for only one interposer to enter at a time. (Mechanisms much like this were used in keyboards for
teleprinter
A teleprinter (teletypewriter, teletype or TTY) is an electromechanical device that can be used to send and receive typed messages through various communications channels, in both point-to-point and point-to-multipoint configurations. Initia ...
s before World War II.) If a typist pressed two keys simultaneously both interposers were blocked from entering the tube. Pressing two keys several milliseconds apart allows the first interposer to enter the tube, tripping a clutch which rotated a fluted shaft driving the interposer horizontally and out of the tube. The powered horizontal motion of the interposer selected the appropriate rotate and tilt of the printhead for character selection, but also made way for the second interposer to enter the tube some milliseconds later, well before the first character had been printed. While a full print cycle was 65 milliseconds this filtering and storage feature allowed the typist to depress keys in a more random fashion and still print the characters in the sequence entered.
The space bar, dash/underscore, index, backspace and line feed repeated when continually held down. This feature was referred to as "Typamatic".
Use as a computer terminal
Due to their speed (14.8 characters per second), immunity to clashing typebars, trouble-free paper path, high quality printed output, and reliability, Selectric-based mechanisms were also widely used as
terminals for computers, replacing both
Teletype
A teleprinter (teletypewriter, teletype or TTY) is an electromechanical device that can be used to send and receive typed messages through various communications channels, in both point-to-point and point-to-multipoint configurations. Initia ...
s and older typebar-based output devices. One popular example was the
IBM 2741
The IBM 2741 is a printing computer terminal that was introduced in 1965. Compared to the teletypewriter machines that were commonly used as printing terminals at the time,
the 2741 offers 50% higher speed, much higher quality printing, quieter op ...
terminal. Among other applications, the 2741 (with a special typing element) figured prominently in the early years of the
APL programming language
APL (named after the book ''A Programming Language'') is a programming language developed in the 1960s by Kenneth E. Iverson. Its central datatype is the multidimensional array. It uses a large range of special graphic symbols to represent mos ...
.
Despite appearances, these machines were not simply Selectric typewriters with an
RS-232
In telecommunications, RS-232 or Recommended Standard 232 is a standard originally introduced in 1960 for serial communication transmission of data. It formally defines signals connecting between a ''DTE'' (''data terminal equipment'') such a ...
connector added. As with other electric typewriters and electric adding machines of the era, Selectrics are ''electromechanical'', not ''electronic'', devices: the only electrical components are the cord, an on-off switch, and the motor. The keys are not electrical pushbuttons such as those found on a computer keyboard. Pressing a key does not produce an electrical signal as output, but rather engages a series of clutches which couple the motor power to the mechanism to turn and tilt the element. A Selectric would work equally well if
hand-cranked (or foot-powered, like
treadle
A treadle (from oe, tredan, "to tread") is a mechanism operated with a pedal for converting reciprocating motion into rotating motion. Along with cranks, treadmills, and treadwheels, treadles allow human and animal machine power in the absenc ...
powered sewing machines) at sufficient speed.
The original Selectric mechanism was designed and manufactured by the office equipment division of IBM and was not engineered for use as a computer terminal. Adapting this mechanism to the needs of computer input/output was not simple. Microswitches were added to the keyboard, solenoids were added to allow the computer to trigger the typing mechanism, and interface electronics were also needed. Several mechanical components, in particular the motor and the main clutch, had to be upgraded from the typewriter versions to reliably support continuous operation. Additional microswitches had to be added to sense the state of various parts of the mechanism, such as case (upper vs. lower).
Even after adding all those solenoids and switches, getting a Selectric to talk to a computer was a complicated project. The Selectric mechanism had many peculiar requirements.
If commanded to shift to upper case when it was already in upper-case, the mechanism locked up and never signaled "done". The same applied to shifting the ribbon direction or initiating a carriage-return. These commands could be issued only at particular times, with the Selectric in a particular state, and then not again until the terminal signaled the operation was complete.
In addition the Selectric mechanism natively used a unique 7-bit code, the Selectric correspondence code, based on the "tilt/rotate" commands to the golf ball.
That and the bit-parallel interface and peculiar timing requirements meant the Selectric could not be directly hooked up to a modem. Indeed, it needed a relatively large amount of logic to reconcile the two devices, and the interface logic often outweighed the printing mechanism in the early years.
Nevertheless, home-brew and commercial Selectric conversions from Wang and Tycom converted the Selectric office typewriter into a computer printer.
Such Selectric conversions produce hard-copy computer output that was once described as better than any other hard-copy computer output system, regardless of cost.
The optimum data rate used to drive the Selectric mechanism turned out to be equivalent to 134.5
baud
In telecommunication and electronics, baud (; symbol: Bd) is a common unit of measurement of symbol rate, which is one of the components that determine the speed of communication over a data channel.
It is the unit for symbol rate or modulatio ...
, which was a highly unusual data rate before the appearance of the mechanism. Driving the Selectric mechanism at the more-standard rate of 110 baud appeared to work well, although at a slightly slower speed. However, driving the mechanism at a non-optimal rate would soon result in its failure, by forcing an internal start-stop clutch to actuate for each character typed, thus wearing it out very rapidly. Continuous typing at the proper 134.5 baud rate would engage the clutch only at the beginning and end of a long sequence of characters, as designed.
The popularity of the Selectric mechanism caused other computer manufacturers, such as
Digital Equipment Corporation
Digital Equipment Corporation (DEC ), using the trademark Digital, was a major American company in the computer industry from the 1960s to the 1990s. The company was co-founded by Ken Olsen and Harlan Anderson in 1957. Olsen was president unt ...
, to support the 134.5 baud data rate on their serial computer interfaces, enabling connection of IBM 2741 terminals.
The 2741 was available with two different seven-bit codes (Correspondence and PTT/BCD). Code choice affected the font elements which could be used. The host computer had to translate the 2741 code into the host's internal code (usually
ASCII
ASCII ( ), abbreviated from American Standard Code for Information Interchange, is a character encoding standard for electronic communication. ASCII codes represent text in computers, telecommunications equipment, and other devices. Because of ...
or
EBCDIC
Extended Binary Coded Decimal Interchange Code (EBCDIC; ) is an eight-bit character encoding used mainly on IBM mainframe and IBM midrange computer operating systems. It descended from the code used with punched cards and the corresponding six- ...
). Dedicated hardware was also built to drive Selectric printers at 134.5 baud.
Particularly vexing was the Selectric's lack of a full ASCII character set. The late
Bob Bemer
Robert William Bemer (February 8, 1920 – June 22, 2004) was a computer scientist best known for his work at IBM during the late 1950s and early 1960s.
Early life and education
Born in Sault Ste. Marie, Michigan, Bemer graduated from Cranbro ...
wrote
that while working for IBM he lobbied unsuccessfully to expand the typing element to 64 characters from 44. The Selectric actually provided 44 characters per case, but the point remains that with 88 printable characters it could not quite produce the full printable ASCII character set.
Since the keyboard was mechanically connected directly with the printer mechanism, keyboard character inputs were immediately typed by the printer mechanism, behavior called
half-duplex
A duplex communication system is a point-to-point system composed of two or more connected parties or devices that can communicate with one another in both directions. Duplex systems are employed in many communications networks, either to allow ...
by most of the computer industry. However, IBM insisted on calling this behavior
full duplex
A duplex communication system is a point-to-point system composed of two or more connected parties or devices that can communicate with one another in both directions. Duplex systems are employed in many communications networks, either to allow ...
, causing much confusion. If the computer system in turn echoed the typed input, having been configured to expect a full-duplex terminal, each character would be doubled. A further discussion of this terminology can be seen in the article on
terminal emulation
A terminal emulator, or terminal application, is a computer program that emulates a video terminal within some other display architecture. Though typically synonymous with a shell or text terminal, the term ''terminal'' covers all remote termin ...
and elsewhere.
Another odd feature of the Selectric terminals was the "keyboard lock" mechanism. If the computer system a user was communicating with was too busy to accept input, it could send a code to ''mechanically interlock'' the keyboard so the user could not press any keys. The keyboard was also locked when the computer was typing, to avoid damaging the mechanism or interleaving user input and computer output in a confusing manner. Though done to protect the print mechanism from damage,
an unexpected keyboard lock activation could cause minor injury to a typist with a heavy touch. There was little obvious warning that the keyboard had locked or unlocked, other than a faint click from the interlock solenoid, easily drowned out by the printer and fan noise in many computer facilities. There was a small indicator light, but this was of little help to fast
touch typists whose gaze was fixed on copy they were transcribing.
The 2741 Selectric also had a special "print inhibit" feature.
When the terminal received such a command from a host computer, the type element still operated, but did not print on the paper. This feature was used to avoid printing computer login passwords, and for other special purposes.
In spite of all these idiosyncrasies, between 1968 and about 1980, a Selectric-based printer was a relatively inexpensive and fairly popular way to get high-quality printed output from a computer. A minor industry developed to support small businesses and leading-edge hobbyists who would obtain a Selectric mechanism (which cost much less than a full-fledged 2741 terminal) and modify it to interface with industry-standard serial data communications.
The 96-character element introduced with the Selectric III and Electronic Typewriter series could (with some customizations) handle the full ASCII character set, but by that time the computer industry had moved on to the much faster and mechanically simpler
daisy wheel
Daisy wheel printing is an impact printing technology invented in 1970 by Andrew Gabor at Diablo Data Systems. It uses interchangeable pre-formed type elements, each with typically 96 glyphs, to generate high-quality output comparable to pr ...
mechanisms such as the
Diablo 630
The Diablo 630 is a discontinued daisy wheel style computer printer sold by the Diablo Data Systems division of the Xerox Corporation beginning in 1980. The printer is capable of letter-quality printing; that is, its print quality is equivalent ...
. The typewriter industry followed this trend shortly afterward, and even IBM replaced their Selectric lineup with its daisy wheel-based "Wheelwriter" series.
Similar machines referred to as the
IBM 1050
IBM 1050 Data Communications System is a computer terminal subsystem to send data to and receive data from another 1050 subsystem or IBM computer in the IBM 1400, IBM 7000 or System/360 series. It first became available in 1963 and was used wi ...
series were used as the console printers for many computers, such as the
IBM 1130
The IBM 1130 Computing System, introduced in 1965, was IBM's least expensive computer at that time. A binary 16-bit machine, it was marketed to price-sensitive, computing-intensive technical markets, like education and engineering, succeeding th ...
and the IBM
System/360
The IBM System/360 (S/360) is a family of mainframe computer systems that was announced by IBM on April 7, 1964, and delivered between 1965 and 1978. It was the first family of computers designed to cover both commercial and scientific applica ...
series. The IBM 1050 was also offered in a remote terminal configuration, similar in use to the 2741.
These were designed and manufactured for this purpose, including the necessary electrical interfaces, and incorporated more rugged components than the office Selectric or even the 2741.
In popular culture
* Capitalizing on the then-new Selectric typewriters, the IBM Pavilion at the
1964 New York World's Fair
The 1964–1965 New York World's Fair was a world's fair that held over 140 pavilions and 110 restaurants, representing 80 nations (hosted by 37), 24 US states, and over 45 corporations with the goal and the final result of building exhibits or ...
was a large theater shaped and styled to look somewhat like a giant Selectric element.
* Notable Selectric users include
Isaac Asimov
yi, יצחק אזימאװ
, birth_date =
, birth_place = Petrovichi, Russian SFSR
, spouse =
, relatives =
, children = 2
, death_date =
, death_place = Manhattan, New York City, U.S.
, nationality = Russian (1920–1922)Soviet (192 ...
,
Hunter S. Thompson
Hunter Stockton Thompson (July 18, 1937 – February 20, 2005) was an American journalist and author who founded the gonzo journalism movement. He rose to prominence with the publication of '' Hell's Angels'' (1967), a book for which he s ...
,
David Sedaris
David Raymond Sedaris (; born December 26, 1956) is an American humorist, comedian, author, and radio contributor. He was publicly recognized in 1992 when National Public Radio broadcast his essay "Santaland Diaries.” He published his first co ...
,
P. J. O'Rourke,
Stephen J. Cannell, and
Philip K. Dick.
* The 1963 ''
Perry Mason
Perry Mason is a fictional character, an American criminal defense lawyer who is the main character in works of detective fiction written by Erle Stanley Gardner. Perry Mason features in 82 novels and 4 short stories, all of which involve a cli ...
'' story "The Case of the Elusive Element" turned on the fact that the typing element in Selectric typewriters could easily be switched, making it impossible to know which machine had actually been used to type a message.
* Similarly, in the 1976 ''
Columbo
''Columbo'' () is an American crime drama television series starring Peter Falk as Lieutenant Columbo, a homicide detective with the Los Angeles Police Department. After two pilot episodes in 1968 and 1971, the show originally aired on NBC f ...
'' story "Now You See Him",
Jack Cassidy
John Joseph Edward Cassidy (March 5, 1927 – December 12, 1976), was an American actor, singer and theater director known for his work in the theater, television and films. He received multiple Tony Award nominations and a win, as well a ...
's perfect murder is foiled when the detective reads the killer's motive on the victim's used SelectricII carbon film ribbon.
* In the 1971 horror novel, ''
The Exorcist
''The Exorcist'' is a 1973 American supernatural horror film directed by William Friedkin and written for the screen by William Peter Blatty, based on his 1971 novel of the same name. It stars Ellen Burstyn, Max von Sydow, Lee J. Cobb, Kitty W ...
'', Father Dyer is found “typing on his IBM Selectric”.
* The title sequence of
Gerry Anderson
Gerald Alexander Anderson (; 14 April 1929 – 26 December 2012) was an English television and film producer, director, writer and occasional voice artist. He remains famous for his futuristic television programmes, especially his 1960s produ ...
's 1970 TV series ''
UFO
An unidentified flying object (UFO), more recently renamed by US officials as a UAP (unidentified aerial phenomenon), is any perceived aerial phenomenon that cannot be immediately identified or explained. On investigation, most UFOs are id ...
'' featured close-ups of a Selectric-based machine.
* In the TV series ''
Mad Men
''Mad Men'' is an American period drama television series created by Matthew Weiner and produced by Lionsgate Television. It ran on the cable network AMC from July 19, 2007, to May 17, 2015, lasting for seven seasons and 92 episodes. Its fict ...
'', which is set during the early- to mid-1960s, SelectricII typewriters are featured prominently on the secretaries' desks, even though they were not introduced until 1971. In addition, the first season was set in 1960 when no Selectric model at all was yet available. In his 2008 DVD commentary, creator Matthew Weiner said the Selectric was chosen for his show for aesthetic reasons and because of the difficulty of assembling the required number of period-appropriate conventional electric typewriters.
* In
Philip Roth
Philip Milton Roth (March 19, 1933 – May 22, 2018) was an American novelist and short story writer.
Roth's fiction—often set in his birthplace of Newark, New Jersey—is known for its intensely autobiographical character, for philosophicall ...
's novel ''
The Anatomy Lesson'', character
Nathan Zuckerman
Nathan Zuckerman is a fictional character created by the writer Philip Roth, who uses him as his protagonist and narrator, a type of alter ego, in many of his novels.
Character
Roth first created a character named Nathan Zuckerman in the novel '' ...
dismisses the self-correcting SelectricII as "smug, puritanical, workmanlike" compared to his old
Olivetti
Olivetti S.p.A. is an Italian manufacturer of computers, tablets, smartphones, printers and other such business products as calculators and fax machines. Headquartered in Ivrea, in the Metropolitan City of Turin, the company has been part of ...
portable.
* In Régis Roinsard's 2012 film ''
Populaire'' about a boss training his secretary to become the 1959 world speed typing champion, he also invents the "golf ball" typewriter mechanism, which his American friend pitches to American typewriter manufacturers with the words "America for business, France for love".
* In the TV series ''
Fringe
Fringe may refer to:
Arts
* Edinburgh Festival Fringe, the world's largest arts festival, known as "the Fringe"
* Adelaide Fringe, the world's second-largest annual arts festival
* Fringe theatre, a name for alternative theatre
* The Fringe, the ...
'' a
quantum entangled typewriter from the ''Selectric 251'' series, which doesn't officially exist, is used by agents from a
parallel universe to communicate with "the other side".
* A beige IBM Selectric is mentioned in the 1989
Stephen King
Stephen Edwin King (born September 21, 1947) is an American author of horror, supernatural fiction, suspense, crime, science-fiction, and fantasy novels. Described as the "King of Horror", a play on his surname and a reference to his high s ...
novel ''
The Dark Half
''The Dark Half'' is a horror novel by American writer Stephen King, published in 1989. ''Publishers Weekly'' listed ''The Dark Half'' as the second best-selling book of 1989 behind Tom Clancy's ''Clear and Present Danger''. The novel was adapt ...
''. Stephen King mentions one again in the 2021 novel ''
Later
Later may refer to:
* Future, the time after the present
Television
* ''Later'' (talk show), a 1988–2001 American talk show
* '' Later... with Jools Holland'', a British music programme since 1992
* ''The Life and Times of Eddie Roberts'', or ...
''.
* A Selectric element ball was used as an main graphic element for Italian news program ''
TG3
''TG3'' (''TeleGiornale 3'') is the brand for Italian state-owned TV channel Rai 3's news programmes. They are shown domestically and across Europe on Rai 3. The newscasts are aired from Rai's Studios in Saxa Rubra, Rome, Italy, except for the 1 ...
'' from 1987-1999.
Notes
References
External links
Selectric Typewriter MuseumThe IBM Selectric Composerdesktop typesetting system
Video by Bill Hammack showing the typewriter operating in slow motion, and explaining the "whiffletree" mechanism that controls the ball rotation and tilt
Patents
* :
Design patent
In the United States, a design patent is a form of legal protection granted to the ornamental design of an article of manufacture. Design patents are a type of industrial design right. Ornamental designs of jewelry, furniture, beverage containers ...
for the external appearance of the IBM Selectric
* :
Utility patent
This is a list of legal terms relating to patents. A patent is not a right to practice or use the invention, but a territorial right to exclude others from commercially exploiting the invention, granted to an inventor or his successor in rights i ...
for the "single element printing head"
{{DEFAULTSORT:Ibm Selectric Typewriter
Products introduced in 1961
Selectric typewriter
Articles containing video clips