Telephone Answering Device
   HOME

TheInfoList



OR:

An answering machine, answerphone or message machine, also known as telephone messaging machine (or TAM) in the UK and some Commonwealth countries, ansaphone or ansafone (from a trade name), or telephone answering device (TAD), was used for answering telephones and recording callers' messages. If a phone rings a number of times predetermined by the phone's owner, and nobody is present to answer the incoming call, the answering machine will activate and play either a generic announcement or the voice of the person being called announcing that nobody is able to come to the phone at the moment. Following the announcement is a beeping tone which prompts the caller to record a message after the tone concludes. Unlike voicemail, which can be a centralized or networked system that covers, and mostly extends, similar functions, an answering machine is set up in the user's premises alongside—or incorporated within—the user's land-line telephone. Unlike
operator messaging Operator Messaging is the term, similar to Text Messaging and Voice Messaging, applying to an answering service call center who focuses on one specific scripting style that has grown out of the alphanumeric pager history. Early history In the 1970 ...
, the caller does not talk to a human. As landlines become less important, due to the shift to cell phone technology, and as unified communications mature, the installed base of TADs is shrinking.


History

Most 20th century answering machines used magnetic recording, which
Valdemar Poulsen Valdemar Poulsen (23 November 1869 – 23 July 1942) was a Danish engineer who made significant contributions to early radio technology. He developed a magnetic wire recorder called the telegraphone in 1898 and the first continuous wave radio ...
invented in 1898. The creation of the first practical automatic answering device for telephones, however, is in dispute. Starting in 1930,
Clarence Hickman Clarence Nichols Hickman (–) was a physicist who worked on rockets with Robert Goddard. He is known for developing the bazooka man-portable recoilless antitank rocket launcher weapon, and the American Piano Company Model B player piano. He is a ...
worked for Bell Laboratories, where he developed methods for magnetic recording and worked on the recognition of speech patterns and electromechanical switching systems. In 1934, he developed a tape-based answering machine which phone company AT&T, as the owner of Bell Laboratories, kept under wraps for years for fear that an answering machine would result in fewer telephone calls. Many claim the answering machine was invented by William Muller in 1935, but it may already have been created in 1931 by William Schergens whose device used phonographic cylinders. Ludwig Blattner promoted a telephone answering machine in 1929 based on his Blattnerphone magnetic recording technology. In 1935, inventor Benjamin Thornton developed a machine to record voice messages from the caller. The device reportedly also was able to keep track of the time the recordings were made. Although many sources maintain that he invented it in 1935, Thornton had actually filed a patent in 1930 (Number 1831331) for this machine, which utilized a phonographic record as the recording medium. A commercial answering machine, the ''Tel-Magnet'', offered in the United States in 1949, played outgoing messages and recorded incoming messages on a magnetic wire. It was priced at $200 but was not a commercial success. In 1949, the first commercially successful answering machine was the ''Electronic Secretary'' created by inventor Joseph Zimmerman and businessman George W. Danner, who founded Electronic Secretary Industries in Wisconsin. The Electronic Secretary used the then state-of-the-art technology of a 45 rpm record player for announcements and a
wire recorder Wire recording or magnetic wire recording was the first magnetic recording technology, an analog type of audio storage in which a magnetic recording is made on a thin steel wire. The first crude magnetic recorder was invented in 1898 by Valde ...
for message capture and playback. Electronic Secretary Industries was purchased in 1957 by General Telephone and Electronics. Another commercially successful answering machine was the ''Ansafone'' created by inventor Dr. Kazuo Hashimoto, who was employed by a company called ''Phonetel''. This company began selling the first answering machines in the US in 1960. Another early model known as the Code-a-Phone was introduced in 1966. Answering machines became more widely used after the restructuring of AT&T in 1984, which was when the machines became affordable and sales reached one million units per year in the US. The first post-breakup device went by the trade name of DuoPhone and was sold by Tandy (Radio Shack). This device and its successors were designed by Sava Jacobson, an electrical engineer with a private consulting business. While early answering machines used
magnetic tape Magnetic tape is a medium for magnetic storage made of a thin, magnetizable coating on a long, narrow strip of plastic film. It was developed in Germany in 1928, based on the earlier magnetic wire recording from Denmark. Devices that use magne ...
technology, most modern equipment uses solid state memory storage; some devices use a combination of both, with a solid-state circuit for the outgoing message and a
cassette Cassette may refer to: Technology * Cassette tape (or ''musicassette'', ''audio cassette'', ''cassette tape'', or ''tape''), a worldwide standard for analog audio recording and playback ** Cassette single (or "Cassingle"), a music single in the ...
for the incoming messages. James P. Mitchell displayed a working prototype of a digital outgoing message with a taped incoming system at an Iowa State University VEISHEA engineering openhouse in April 1982. This system won a gold award from the Engineering department. In 1983, Kazuo Hashimoto received a patent for a ''digital answering machine'' architecture with US Patent 4,616,110. The first digital answering machine brought to the market was AT&T's Model 1337 in 1990; an activity led by Trey Weaver. Mr. Hashimoto sued AT&T but quickly dropped the suit because the AT&T architecture was significantly different from his patent.


Answering and ending calls

There are two possibilities for answering an incoming call: (1) waiting arbitrarily long for operator intervention, or (2) automatically answering after a specified number of rings in a certain state of the TAD (e.g. "toll saving" below). This is useful if the owner is screening calls and does not wish to speak with all callers. In any case after going '' off-hook'', the calling party should be informed about the call having been answered (in most cases this starts the charging), either by some remark of the operator, or by some greeting message of the TAD, or addressed to non-human callers (e.g. fax machines) by implementing an appropriate protocol over the landline. In some cases the terminal equipment answering a call just sends a slightly modified ringback tone to the caller, while processing the protocol. Similarly, the called equipment can end a call by going '' on-hook'' deliberately, because of some specific signalling, or because of some time out.


Pure voice operation

In case of voice-only environments any accepted call can be directly handed over to a TAD, which may be preemptively superseded by a human-operated handset, taking control by simply going off-hook itself, forcing the TAD (back) on-hook. Voice signals may simply be captured to and replayed from analogue media (mostly tapes), but later TADs shifted to digital storage, with all of its convenience for compression and handling, for both the greeting and for the recorded messages.


Greeting message

Most modern answering machines have a system for greeting. The owner may record a message that will be played back to the caller, or an automatic message will be played if the owner does not record one. This holds especially for the TADs with digitally stored greeting messages or for earlier machines (before the rise of microcassettes) with a special endless loop tape, separate from a second cassette, dedicated to recording. There have been answer-only devices with no recording capabilities, where the greeting message had to inform callers of a state of current unattainability, or e.g. about availability hours. In recording TADs the greeting usually contains an invitation to leave a message "after the beep". Greeting messages are partly considered as an art form, expressing the creativity and attractiveness of the operator of the TAD via remarkable wording and sound staging.


Recording messages

On a dual-cassette answerphone, there is an outgoing cassette, which after the specified number of rings plays a pre-recorded message to the caller. Once the message is complete, the outgoing cassette stops and the incoming cassette starts recording the caller's message, and then stops when the caller hangs up. Single-cassette answering machines contain the outgoing message at the beginning of the tape and incoming messages on the remaining space. They first play the announcement, then fast-forward to the next available space for recording, then record the caller's message. If there are many previous messages, fast-forwarding through them can cause a significant delay. This delay is taken care of by playing back a beep to the caller, when the TAD is ready to record. This beep is often referred to in the greeting message, requesting that the caller leave a message "after the beep". TADs with digital storage for the recorded messages do not show this delay, of course.


Remote control

A TAD may offer a remote control facility, whereby the answerphone owner can ring the home number and, by entering a code on the remote telephone's keypad, can listen to recorded messages, or delete them, even when away from home. Many devices offer a "toll-saver" function for this purpose. Thereby the machine increases the number of rings after which it answers the call (typically by two, resulting in four rings), if no unread messages are currently stored, but answers after the set number of rings (usually two) if there are unread messages. This allows the owner to find out whether there are messages waiting; if there are none, the owner can hang up the phone on the, e.g., third ring without incurring a call charge. Some machines also allow themselves to be remotely activated, if they have been switched off, by calling and letting the phone ring a certain large number of times (usually 10-15). Some service providers abandon calls already after a smaller number of rings, making remote activation impossible. In the early days of TADs a special transmitter for DTMF tones (dual-tone multi-frequency signalling) was regionally required for remote control, since the formerly employed pulse dialling is not apt to convey appropriate signalling along an active connection, and the dual-tone multi-frequency signalling was implemented stepwise.


Combined operation

This refers to analogue sites, which support voice, fax and data transmission via landlines by adhering to specific protocols established by the ITU-T. Any incoming call is not identifiable with respect to these properties in advance of going "off hook" by the terminal equipment. So after going off hook the calls must be switched to appropriate devices and only the voice-type is immediately accessible to a human, but perhaps, nevertheless should be routed to a TAD (e.g. after the caller has identified itself, or has been identified by a recognized caller ID). Starting with the integration of faxing devices into computers via
Fax modem A fax modem enables a computer to transmit and receive documents as faxes on a telephone line. A fax modem is like a data modem but is designed to transmit and receive documents to and from a fax machine or another fax modem. Some, but not all, fa ...
s the automated answering of voice calls by a computer went live via specific software, like e.g.
TalkWorks {{Unreferenced, date=June 2008 TalkWorks was a program designed to allow computers equipped with an appropriate fax-modem to act as a voice mail program. Original work was done on the program by AudioFile, a company that specialized in computer- ...
. These systems allowed for quite elaborate voice box systems, navigated via
dual-tone multi-frequency signaling Dual-tone multi-frequency signaling (DTMF) is a telecommunication signaling system using the voice-frequency band over telephone lines between telephone equipment and other communications devices and switching centers. DTMF was first developed ...
, allowing a computer on a (single) telephony line to sound like a professional telephony system with hierarchical fax and message boxes with an automatic call distributor, where a caller might deposit his messages, leave his faxes behind, might listen to specific messages, or start a fax-back service. Besides these solutions, mostly requiring a constantly running computer, since a wake-on-ring function then (~1995) started to take too much time to boot up an operating system, a few so-called ''selfmodems'' were available from e.g. USRobotics or ELSA Technology: the ''Sportster MessagePlus'', the ''56K Message Modem External'', and the ''MicroLink Office''. These devices answered incoming calls by playing a welcome message while discriminating fax calls (CNG-tone at 1100 Hz) from voice calls, storing an incoming fax, or a voice message, respectively. A computer was only necessary afterwards to retrieve the faxes, or for storing the voice messages. In case of a full storage the devices changed their welcome message to another, prerecorded message, played upon answering an incoming call, possibly explaining that a message cannot be taken at the present time.


See also

* Business telephone system * Call-recording hardware * Voicemail


References


External links


Related articles on a diagram
!-- try to find replacement link before deleting this dead one, please -->
Novelty Greetings for Telephone Answering MachinesSamples of common answering machine outgoing messages
{{Authority control Audiovisual introductions in 1949 Telephony