Telephone keypad: Difference between revisions
imported>Sigma440 m Undid revision 1282089737 by 2409:4085:298:DC7D:0:0:C94:B0 (talk) rvv |
imported>Dingolover6969 →Star key and square key: find an archive.org copy of the article, read it, include it (I also think this claim is reserved and plausible, now, not probably BS) |
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{{Short description|Keypad that appears on some telephones}} | {{Short description|Keypad that appears on some telephones}} | ||
[[File:Telephone-keypad2.svg|thumb | [[File:Telephone-keypad2.svg|thumb|A telephone keypad using the ITU [[E.161]] standard. (The 'star key' uses a [[sextile (symbol)|sextile]] symbol.) ]] | ||
A '''telephone keypad''' is a [[keypad]] installed on a [[push-button telephone]] or similar [[telecommunication]] device for dialing a [[telephone number]]. It was standardized when the [[dual-tone multi-frequency signaling]] (DTMF) system was developed in the [[Bell System]] in the United States in the 1960s – this replaced [[rotary dial]]ing, that had been developed for electromechanical telephone switching systems.<ref name="Engineering Pathway">{{cite web|url=http://www.k-grayengineeringeducation.com/blog/index.php/2009/11/18/engineering-education-today-in-history-blog-bell-telephone-introduces-push-button-telephone-2/|title=Engineering Education "Today in History" Blog: Bell Telephone introduces push button telephone|last=Agogino|first=Alice|date=November 18, 2009|website=Engineering Pathway|archive-url=https://archive.today/20130127020012/http://www.k-grayengineeringeducation.com/blog/index.php/2009/11/18/engineering-education-today-in-history-blog-bell-telephone-introduces-push-button-telephone-2/|archive-date=January 27, 2013|url-status=dead}}</ref> Because of the abundance of rotary dial equipment still on use well into the 1990s, many telephone keypads were also designed to be backwards-compatible: as well as producing DTMF pulses, they could optionally be switched to produce loop-disconnect pulses electronically. | A '''telephone keypad''' is a [[keypad]] installed on a [[push-button telephone]] or similar [[telecommunication]] device for dialing a [[telephone number]]. It was standardized when the [[dual-tone multi-frequency signaling]] (DTMF) system was developed in the [[Bell System]] in the United States in the 1960s – this replaced [[rotary dial]]ing, that had been developed for electromechanical telephone switching systems.<ref name="Engineering Pathway">{{cite web|url=http://www.k-grayengineeringeducation.com/blog/index.php/2009/11/18/engineering-education-today-in-history-blog-bell-telephone-introduces-push-button-telephone-2/|title=Engineering Education "Today in History" Blog: Bell Telephone introduces push button telephone|last=Agogino|first=Alice|date=November 18, 2009|website=Engineering Pathway|archive-url=https://archive.today/20130127020012/http://www.k-grayengineeringeducation.com/blog/index.php/2009/11/18/engineering-education-today-in-history-blog-bell-telephone-introduces-push-button-telephone-2/|archive-date=January 27, 2013|url-status=dead}}</ref> Because of the abundance of rotary dial equipment still on use well into the 1990s, many telephone keypads were also designed to be backwards-compatible: as well as producing DTMF pulses, they could optionally be switched to produce loop-disconnect pulses electronically. | ||
The development of the modern telephone keypad is attributed to research in the 1950s by Richard Deininger under the directorship of [[John Karlin]] at the Human Factors Engineering Department of [[Bell Labs]].<ref>B.L. Hanson, ''A Brief History of Applied Behavioral Science at Bell Laboratories'', Bell System Technical Journal 62(6) 1571–1590 (July–August 1983), p.1578</ref><ref name="deininger" /> The modern keypad is laid out in a rectangular array of twelve push buttons arranged as four rows of three keys each. For military applications, a fourth column of keys was added to the right for priority signaling in the [[Autovon]] system in the 1960s. Initially, between 1963 and 1968, the keypads for civilian subscriber service omitted the lower left and lower right keys. These two keys are commonly labelled [[asterisk|star]], {{Keypress| | The development of the modern telephone keypad is attributed to research in the 1950s by Richard Deininger under the directorship of [[John Karlin]] at the Human Factors Engineering Department of [[Bell Labs]].<ref>B.L. Hanson, ''A Brief History of Applied Behavioral Science at Bell Laboratories'', Bell System Technical Journal 62(6) 1571–1590 (July–August 1983), p.1578</ref><ref name="deininger" /> The modern keypad is laid out in a rectangular array of twelve push buttons arranged as four rows of three keys each. For military applications, a fourth column of keys was added to the right for priority signaling in the [[Autovon]] system in the 1960s. Initially, between 1963 and 1968, the keypads for civilian subscriber service omitted the lower left and lower right keys. These two keys are commonly labelled [[asterisk|star]], {{Keypress|⚹}}, and [[number sign|number sign/hash]], {{Keypress|#}}, respectively, and produce the signals associated with those symbols. These keys were added to provide signals for anticipated data entry purposes in business applications, but found use in [[vertical service code|Custom Calling Services]] (CLASS) features installed in [[electronic switching system]]s.<ref>D.P. Worrall, ''New Custom Calling Services'', Bell System Technical Journal 61(5) 821–839 (May–June 1982)</ref> | ||
==Layout== | ==Layout== | ||
[[File: | [[File:Telephone keys.JPG|right|thumb|A standard telephone keypad]] | ||
The layout of the digit keys is different from that commonly appearing on [[calculator]]s and [[numeric keypad]]s. This layout was chosen after extensive [[human factors]] testing at Bell Labs.<ref name=deininger>{{cite journal | title=Human Factors Engineering Studies of the Design and Use of Pushbutton Telephone Sets | last=Deininger | first=R. L. | date=1960-02-16 | journal=Bell System Technical Journal | volume=39 | issue=4 | pages=995–1012 | doi=10.1002/j.1538-7305.1960.tb04447.x }}</ref><ref name="expectedLocations">{{cite journal | title=Expected Locations of Digits and Letters on Ten-Button Keysets | last1=Lutz | first1=Mary Champion | last2=Chapanis | first2=Alphonse | journal=Journal of Applied Psychology | volume=39 | issue=5 | pages=314–317 | date=October 1955 | doi=10.1037/h0048722}}</ref> At the time (late 1950s), mechanical calculators were not widespread, and few people had experience with them.<ref>{{cite AV media | people=Brady Haran (producer), Sarah Wiseman (interviewee) | date=2013-08-29 | title=Phone Numbers - Numberphile | url=https://www.youtube.com/watch?v=kCSzjExvbTQ |archive-url=https://ghostarchive.org/varchive/youtube/20211212/kCSzjExvbTQ| archive-date=2021-12-12 |url-status=live| access-date=2016-05-11}}{{cbignore}}</ref> Indeed, calculators were only just starting to settle on a common layout; a 1955 paper states "Of the several calculating devices we have been able to look at ... Two other calculators have keysets resembling [the layout that would become the most common layout] ... . Most other calculators have their keys reading upward in vertical rows of ten."<ref name="expectedLocations"/> Meanwhile, a 1960 paper – just five years later – refers to today's common calculator layout as "the arrangement frequently found in ten-key adding machines".<ref name=deininger /> In any case, Bell Labs' testing found that the telephone layout with 1, 2, and 3 on the top row, was slightly faster in use than the calculator layout with them in the bottom row. | The layout of the digit keys is different from that commonly appearing on [[calculator]]s and [[numeric keypad]]s. This layout was chosen after extensive [[human factors]] testing at Bell Labs.<ref name=deininger>{{cite journal | title=Human Factors Engineering Studies of the Design and Use of Pushbutton Telephone Sets | last=Deininger | first=R. L. | date=1960-02-16 | journal=Bell System Technical Journal | volume=39 | issue=4 | pages=995–1012 | doi=10.1002/j.1538-7305.1960.tb04447.x }}</ref><ref name="expectedLocations">{{cite journal | title=Expected Locations of Digits and Letters on Ten-Button Keysets | last1=Lutz | first1=Mary Champion | last2=Chapanis | first2=Alphonse | journal=Journal of Applied Psychology | volume=39 | issue=5 | pages=314–317 | date=October 1955 | doi=10.1037/h0048722}}</ref> At the time (late 1950s), mechanical calculators were not widespread, and few people had experience with them.<ref>{{cite AV media | people=Brady Haran (producer), Sarah Wiseman (interviewee) | date=2013-08-29 | title=Phone Numbers - Numberphile | url=https://www.youtube.com/watch?v=kCSzjExvbTQ |archive-url=https://ghostarchive.org/varchive/youtube/20211212/kCSzjExvbTQ| archive-date=2021-12-12 |url-status=live| access-date=2016-05-11}}{{cbignore}}</ref> Indeed, calculators were only just starting to settle on a common layout; a 1955 paper states "Of the several calculating devices we have been able to look at ... Two other calculators have keysets resembling [the layout that would become the most common layout] ... . Most other calculators have their keys reading upward in vertical rows of ten."<ref name="expectedLocations"/> Meanwhile, a 1960 paper – just five years later – refers to today's common calculator layout as "the arrangement frequently found in ten-key adding machines".<ref name=deininger /> In any case, Bell Labs' testing found that the telephone layout with 1, 2, and 3 on the top row, was slightly faster in use than the calculator layout with them in the bottom row. | ||
[[ | ===<span class="anchor" id="Star key"></span><span class="anchor" id="Hash key"></span><span class="anchor" id="Pound key"></span><span class="anchor" id="Square key"></span> Star key and square key=== | ||
In addition to the numbers, the [[International Telecommunication Union|ITU]] recommends two additional keys: the "star key", labeled {{Keypress|⚹}}, and the "square key", labeled {{Keypress|⌗}}.<ref name="E.161">{{cite web |url=https://www.itu.int/rec/dologin_pub.asp?lang=e&id=T-REC-E.161-200102-I!!PDF-E&type=items |title=Arrangement of digits, letters and symbols on telephones and other devices that can be used for gaining access to a telephone network |publisher=[[International Telecommunication Union]] |last=Telecommunications Standardization Sector of ITU |at=3.2.2 Symbols |quote=On the 4 × 3 array, the symbol on the button [...] should have a shape easily identified as the general shape shown in Figure 2. [...] The symbol will be known as the ''star'' or the equivalent term in other languages.}}</ref> The square key is often known as the '''''pound key''''', '''''hash key''''' or [[octothorp]]. | |||
The precise symbols to be used for the star and square keys is not standardised: [[asterisk operator]] ({{big|{{char|∗}}}}) and [[sextile (symbol)|sextile]] ({{big|{{char|⚹}}}}) have been recommended for the star key,<ref>{{cite web |title=Mathematical operators |url=https://www.unicode.org/charts/nameslist/n_2200.html |publisher=Unicode.org}}</ref><ref>{{cite web |URL=https://www.unicode.org/L2/L2013/13105r-telephony.pdf |title=Proposal to incorporate two telephony symbols into Unicode by glyph and annotation changes |website=Unicode.org |first=Karl |last= Pentzlin }}</ref> and a simple asterisk {{big|{{char|*}}}} is often used. The "square key" is almost invariably replaced with the {{keypress|#}} ([[number sign]]). Their first formal appearance is in a 1973 US patent filing (3,920,926), which calls them "sextile or asterisk" and "octothorp".<ref>{{cite patent | country=US |number=3920926 |title=TELEPHONE DATA SET INCLUDING VISUAL DISPLAY MEANS |invent1=George Victor Lenaerts |invent2=Eric Egils Auzins |status=patent | gdate = Novemnber 18, 1975 | fdate = December 7, 1973 |assign1=Northern Electric Company Ltd, Montreal, Canada | url = https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/3920926}} "The pad 1 provides keys for numerals 0 to 9, while the sextile or asterisk ({{nbsp}}*{{nbsp}}) key is decoded to provide a decimal point and the octothorp ({{nbsp}}#{{nbsp}}) key generates a command [etc]"</ref> | |||
In the Americas and a number of other countries, most dials and, later, keypads also bear letters according to the following system: | These can be used for [[Vertical service code|special functions]]. For example, in the UK, users can order a 7:30{{nbsp}}am alarm call from a [[BT Group|BT]] [[telephone exchange]] by dialing: '''⚹55⚹0730#'''.<ref>{{Cite web |title=Reminder Call Instructions | BT Business |url=http://btbusiness.custhelp.com/app/answers/detail/a_id/7698/~/reminder-call-instructions}}</ref> | ||
The Greek symbols [[alpha]] and [[omega]] had been planned originally for these keys. John A. "Jack" Koten (1929-2014), a corporate communications specialist with [[Bell Labs]] in Chicago, claimed credit for the choice of star and number sign, reasoning that the new keys would be easier to explain to a public already familiar with typewriter symbols.<ref>{{cite magazine |last=Koten |first=John F.|title=* # |magazine=WSJ.Money Magazine |issue=5 (Spring 2014)|page=22 |date=2014}} This article can be found online at https://www.wsj.com/articles/SB10001424052702303563304579445403462190742 under the title "Behind Two Symbols on a Telephone Keypad"; an archived version is available at https://web.archive.org/web/20160918003442/http://www.wsj.com/articles/SB10001424052702303563304579445403462190742</ref> | |||
===Letters=== | |||
[[File:Phone from 1950s uk - This one is real.JPG|thumb|Telephone with letters on its rotary dial (1950s, UK)]] | |||
[[File:GPO 726 Phone.jpg|thumb|British [[GPO telephones#Type 726|GPO 726 telephone]] of 1967]] | |||
In the Americas and a number of other countries, most dials and, later, keypads also bear letters according to the following system: | |||
{{Table alignment}} | {{Table alignment}} | ||
| Line 170: | Line 178: | ||
{{Commonscat|Telephone keypads}} | {{Commonscat|Telephone keypads}} | ||
{{Portal|Telephones}} | {{Portal|Telephones}} | ||
* | * {{anl|E.161}} | ||
* | * {{anl|Phoneword}} | ||
* | * {{anl|Rotary dial}} | ||
* | * {{anl|T9 (predictive text)|T9}} | ||
{{ | ==Notes== | ||
{{notelist}} | |||
==References== | ==References== | ||
Latest revision as of 11:58, 21 December 2025
A telephone keypad is a keypad installed on a push-button telephone or similar telecommunication device for dialing a telephone number. It was standardized when the dual-tone multi-frequency signaling (DTMF) system was developed in the Bell System in the United States in the 1960s – this replaced rotary dialing, that had been developed for electromechanical telephone switching systems.[1] Because of the abundance of rotary dial equipment still on use well into the 1990s, many telephone keypads were also designed to be backwards-compatible: as well as producing DTMF pulses, they could optionally be switched to produce loop-disconnect pulses electronically.
The development of the modern telephone keypad is attributed to research in the 1950s by Richard Deininger under the directorship of John Karlin at the Human Factors Engineering Department of Bell Labs.[2][3] The modern keypad is laid out in a rectangular array of twelve push buttons arranged as four rows of three keys each. For military applications, a fourth column of keys was added to the right for priority signaling in the Autovon system in the 1960s. Initially, between 1963 and 1968, the keypads for civilian subscriber service omitted the lower left and lower right keys. These two keys are commonly labelled star, Template:Keypress, and number sign/hash, Template:Keypress, respectively, and produce the signals associated with those symbols. These keys were added to provide signals for anticipated data entry purposes in business applications, but found use in Custom Calling Services (CLASS) features installed in electronic switching systems.[4]
Layout
The layout of the digit keys is different from that commonly appearing on calculators and numeric keypads. This layout was chosen after extensive human factors testing at Bell Labs.[3][5] At the time (late 1950s), mechanical calculators were not widespread, and few people had experience with them.[6] Indeed, calculators were only just starting to settle on a common layout; a 1955 paper states "Of the several calculating devices we have been able to look at ... Two other calculators have keysets resembling [the layout that would become the most common layout] ... . Most other calculators have their keys reading upward in vertical rows of ten."[5] Meanwhile, a 1960 paper – just five years later – refers to today's common calculator layout as "the arrangement frequently found in ten-key adding machines".[3] In any case, Bell Labs' testing found that the telephone layout with 1, 2, and 3 on the top row, was slightly faster in use than the calculator layout with them in the bottom row.
Star key and square key
In addition to the numbers, the ITU recommends two additional keys: the "star key", labeled Template:Keypress, and the "square key", labeled Template:Keypress.[7] The square key is often known as the pound key, hash key or octothorp.
The precise symbols to be used for the star and square keys is not standardised: asterisk operator (Template:Char) and sextile (Template:Char) have been recommended for the star key,[8][9] and a simple asterisk Template:Char is often used. The "square key" is almost invariably replaced with the Template:Keypress (number sign). Their first formal appearance is in a 1973 US patent filing (3,920,926), which calls them "sextile or asterisk" and "octothorp".[10]
These can be used for special functions. For example, in the UK, users can order a 7:30Script error: No such module "String".am alarm call from a BT telephone exchange by dialing: ⚹55⚹0730#.[11]
The Greek symbols alpha and omega had been planned originally for these keys. John A. "Jack" Koten (1929-2014), a corporate communications specialist with Bell Labs in Chicago, claimed credit for the choice of star and number sign, reasoning that the new keys would be easier to explain to a public already familiar with typewriter symbols.[12]
Letters
In the Americas and a number of other countries, most dials and, later, keypads also bear letters according to the following system: Template:Table alignment
| Key | Letters |
|---|---|
| Template:Keypress | none (on some older telephones, QZ) |
| Template:Keypress | ABC |
| Template:Keypress | DEF |
| Template:Keypress | GHI |
| Template:Keypress | JKL |
| Template:Keypress | MNO (on some older telephones, MN) |
| Template:Keypress | PQRS (on older telephones, PRS) |
| Template:Keypress | TUV |
| Template:Keypress | WXYZ (on older telephones, WXY) |
| Template:Keypress | none (on some telephones, "OPERATOR" or "OPER") |
In the UK, dials and keypads also bore letters, though these were later dropped. They were arranged as follows:
| Key | Letters |
|---|---|
| Template:Keypress | none |
| Template:Keypress | ABC |
| Template:Keypress | DEF |
| Template:Keypress | GHI |
| Template:Keypress | JKL |
| Template:Keypress | MN |
| Template:Keypress | PRS |
| Template:Keypress | TUV |
| Template:Keypress | WXY |
| Template:Keypress | OQ |
Putting the letter O on the zero makes sense, as in British speech, "oh" is often said rather than "nought" or "zero"; Q is visually similar to O, and therefore the two might be confused. Therefore, two possible mistakes were avoided.
These letter assignments have been used for multiple purposes. Originally, they referred to the leading letters of telephone exchange names. In the mid-20th century United States, before the switch to All-Number Calling, telephone numbers had seven digits, including a two-digit prefix which was expressed in letters rather than digits, e.g.; KL5-5445. The UK telephone numbering system used a similar two-letter code after an initial zero (the zero prefix selected trunk dialling) to form the first part of the subscriber trunk dialling code for a region; the letters were followed by one or more digits. For example, Aylesbury was assigned 0AY6, which translated to 0296.
The letters have also been used, mainly in the United States, as a technique for remembering telephone numbers easily. For example, an interior decorator might license the telephone number 1-800-724-6837, but advertise it as the more memorable phoneword "1-800-PAINTER". Sometimes businesses advertise a number with a mnemonic word having more letters than there are digits in the phone number. Usually, this means that the caller just stops dialing at seven digits after the area code or that the extra digits are ignored by the telephone exchange.
In early cell phones, or feature phones, the letters on the keys are used for text entry tasks such as text messaging, entering names in the phone book, and browsing the web. To compensate for the smaller number of keys, phones used multi-tap and later predictive text processing to speed up the process. Touchscreen phones have made these input methods obsolete, as the screens are typically large enough to show as many virtual buttons as necessary for a full keyboard.
Key tones
Pressing a single key of a traditional analog telephone keypad produces a telephony signaling event to the remote switching system. For touchtone service, the signal is a dual-tone multi-frequency signaling tone consisting of two simultaneous pure tone sinusoidal frequencies. The row in which the key appears determines the low-frequency component, and the column determines the high-frequency component. For example, pressing key 1 results in a signal composed of tones with frequencies 697 hertz (Hz) and 1209 Hz.
Letter mapping
In the course of telephone history, dials as well as keypads have been associated with various mappings of letters and characters to numbers.
The system used in DenmarkScript error: No such module "Unsubst". was different from that used in the UK, which, in turn, was different from the US and Australia.[14] The use of alphanumeric codes for area codes was abandoned in Europe when international direct dialing was introduced in the 1960s, because, for example, dialing VIC 8900 on a Danish telephone would result in a different number to dialling it on a British telephone. At the same time, letters were no longer placed on the dials/keypads of new telephones.
Letters did not reappear on phones in Europe until the introduction of mobile phones, and the layout followed the new international standard ITU E.161/ISO 9995-8. The ITU established an international standard (ITU E.161) in the mid-1990s, recommended that this should be the layout used on any new devices.[15] There is a standard, ETSI ES 202 130, that covers European languages and other languages used in Europe, published by the independent ETSI organisation in 2003[16] and updated in 2007.[17] Documentation describing some principles of the standard is available.[18]
Early smartphones such as the Palm Treo, HTC Wizard and BlackBerry had full alphanumeric keyboards instead of the traditional telephone keypads, and the user had to execute additional steps to dial a number containing convenience letters. On certain BlackBerry devices, a user can press the Template:Keypress key followed by the desired letter, and the device will generate the appropriate DTMF tone.[19]
Later smartphones moved to on-screen virtual keyboards and keypads. The latter typically include the ITU standard letters next to each number (and many Android phone use the Template:Keypress key to access voicemail and the zero to type a "+").
See also
Template:Sister project Script error: No such module "Portal".
Notes
References
<templatestyles src="Reflist/styles.css" />
- ↑ Script error: No such module "citation/CS1".
- ↑ B.L. Hanson, A Brief History of Applied Behavioral Science at Bell Laboratories, Bell System Technical Journal 62(6) 1571–1590 (July–August 1983), p.1578
- ↑ a b c Script error: No such module "Citation/CS1".
- ↑ D.P. Worrall, New Custom Calling Services, Bell System Technical Journal 61(5) 821–839 (May–June 1982)
- ↑ a b Script error: No such module "Citation/CS1".
- ↑ Script error: No such module "Citation/CS1".Template:Cbignore
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "citation/CS1".
- ↑ <templatestyles src="Citation/styles.css"/>Template:Citation/make link, George Victor Lenaerts & Eric Egils Auzins, "TELEPHONE DATA SET INCLUDING VISUAL DISPLAY MEANS", issued Script error: No such module "auto date formatter"., assigned to Northern Electric Company Ltd, Montreal, CanadaScript error: No such module "Check for unknown parameters". "The pad 1 provides keys for numerals 0 to 9, while the sextile or asterisk (Script error: No such module "String".*Script error: No such module "String".) key is decoded to provide a decimal point and the octothorp (Script error: No such module "String".#Script error: No such module "String".) key generates a command [etc]"
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "Citation/CS1". This article can be found online at https://www.wsj.com/articles/SB10001424052702303563304579445403462190742 under the title "Behind Two Symbols on a Telephone Keypad"; an archived version is available at https://web.archive.org/web/20160918003442/http://www.wsj.com/articles/SB10001424052702303563304579445403462190742
- ↑ Don Lancaster. "TV Typewriter Cookbook". (TV Typewriter). Section "400-Style (Touch-Tone) Modems". p. 177-178.
- ↑ Phone Key Pads Template:Webarchive
- ↑ E.161 : Arrangement of digits, letters and symbols on telephones and other devices that can be used for gaining access to a telephone network
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "citation/CS1".
- ↑ Blackberry Tips, PC World, October 2005.
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