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Speaking clock

A speaking clock is a telephone service that delivers the current time via an automated announcement from a recorded or synthesized human voice, typically accessed by dialing a specific short code.^[1] These services synchronize with authoritative time standards, such as observatory clocks, to ensure accuracy within fractions of a second.^[2] The first speaking clock was introduced in France on 14 February 1933 by the Paris Observatory under astronomer Ernest Esclangon, using synchronized glass discs to generate spoken announcements in association with precise astronomical timekeeping.^[3]^[4] Britain launched its version on 24 July 1936 through the General Post Office, featuring the voice of telephonist Ethel Jane Cain selected after auditions for clarity and enunciation, initially to resolve disputes over time that previously relied on human operators.^[5]^[6] In the United States, early implementations appeared in the 1930s, such as in Atlanta, Georgia, evolving from manual operator announcements to automated systems amid growing telephone infrastructure.^[7] Speaking clocks employed mechanical or electronic recordings cycled continuously, with later upgrades incorporating atomic clock synchronization for enhanced precision, though usage has declined with ubiquitous personal timepieces and digital devices.^[8] Notable characteristics include the ritualistic phrasing, such as the British "At the third stroke, it will be...", designed to minimize mishearing, and their cultural role in daily synchronization before wristwatches became standard.^[2] While once essential for setting clocks and watches, these services persist in some regions for niche reliability, underscoring early 20th-century innovations in telecommunications and time dissemination.^[5]

Definition and Purpose

Core Functionality and Accessibility

The speaking clock functions as an automated telephone service that delivers precise verbal announcements of the current time upon dialing a dedicated access code, such as TIM (846) in early systems or 123 in the United Kingdom. Callers receive continuous updates every 10 seconds, with announcements formatted to state the hour, minutes, and seconds explicitly, often phrased as "The time is [hour] [minutes] and [seconds]" followed by an identifying tone to mark the exact second.^[2]^[9]^[10] This loop continues for 40 to 60 seconds or until the call ends, enabling users to synchronize personal timepieces accurately without visual reference.^[11] Accuracy is maintained through synchronization with authoritative sources, including hourly checks against signals from the Greenwich Observatory via relay connections or modern equivalents like Network Time Protocol (NTP) servers tied to GPS or radio transmissions such as MSF.^[2]^[12] Systems automatically correct deviations exceeding thresholds, ensuring time precision within 0.1 seconds in advanced setups.^[10] The service's core accessibility lies in its audio-only delivery, requiring no visual or manual interaction beyond dialing, which historically supported broad public use for time verification and remains valuable for individuals with visual impairments by providing independent, on-demand auditory time access independent of personal devices.^[8]^[11] In countries like Canada, bilingual English and French announcements further enhance usability for diverse populations.^[9]

Role in Timekeeping and Reliability

The speaking clock functioned as a vital public utility for disseminating official time, enabling individuals to synchronize wristwatches, household clocks, and other timepieces before the ubiquity of digital displays and automatic synchronization technologies.^[8]^[4] In eras dominated by mechanical clocks prone to drift, it provided a reliable reference point, with usage peaking during events requiring precise timing, such as New Year's Eve celebrations or seasonal clock adjustments.^[13] This service addressed the practical need for consensus on "correct" time in pre-digital societies, where discrepancies could disrupt schedules in business, transportation, and daily life.^[8] Reliability stemmed from continuous synchronization with authoritative time standards, evolving from early mechanical linkages to modern atomic clock integration. Early implementations relied on master clocks corrected against astronomical observations or quartz oscillators, achieving accuracies sufficient for daily use but limited by analog transmission delays.^[14] By the mid-20th century, services like the UK's BT Speaking Clock incorporated radio time signals (e.g., MSF) or GPS for sub-second precision, with overall system accuracy reaching five milliseconds—far surpassing typical consumer clocks.^[15]^[16] In the United States, the NIST telephone time-of-day service, operational since the early 20th century, synchronized via atomic clocks to UTC, supporting calibration of stopwatches and timers with errors under one second over extended periods.^[17] Digital transitions in the 1990s enhanced this by adopting Network Time Protocol (NTP) servers tied to GPS or cesium atomic standards, ensuring drift rates as low as one second in three million years for the reference clocks.^[12] These mechanisms minimized propagation delays and human error, rendering the service more dependable than unsynchronized personal devices, though vulnerable to network outages or signal interference in rare cases.^[12]

Historical Development

Early Origins and Pioneering Implementations

Prior to automated systems, telephone subscribers obtained the time by requesting it from operators, a service that became overburdened as telephone usage grew. In 1918, the New England Telephone & Telegraph Company announced it would discontinue providing the time upon request, citing excessive demand that diverted operators from connecting calls.^[18] This shift highlighted the need for an automated alternative to deliver accurate time signals without human intervention.^[18] The first automated telephone speaking clock service launched in France on February 14, 1933, developed by astronomer Ernest Esclangon, then director of the Paris Observatory.^[3] The system synchronized with observatory clocks and used mechanical recording to announce the time in French, marking a pioneering implementation tied directly to astronomical precision for public accessibility.^[3] This innovation addressed disputes over time by providing a reliable, operator-independent source.^[5] In the United States, the initial automated time announcement service debuted in Atlanta, Georgia, in 1934, initially as a promotional tool for a local ginger ale company before broader adoption by telephone providers.^[14] The Audichron Company, founded in the 1930s, became a key supplier of such mechanical talking clocks, which used rotating disks to play pre-recorded announcements of time and sometimes temperature. These devices represented early commercial implementations, often maintained by local businesses or Bell System affiliates.^[19] The United Kingdom followed with its speaking clock service on July 24, 1936, introduced by the General Post Office (GPO) in London to resolve time-related disputes previously handled by operators.^[5] Installed at the Museum Telephone Exchange in Holborn, it featured recorded announcements from wax disks synchronized to Greenwich Mean Time, employing state-of-the-art phonographic technology for accuracy.^[2] Early systems like these laid the foundation for global expansion, emphasizing mechanical reliability and minimal latency in time dissemination.^[2]

Global Expansion and Peak Usage (1930s–1980s)

The telephone speaking clock service, which provided precise verbal time announcements via dedicated lines synchronized to atomic or astronomical standards, proliferated internationally after its inaugural implementation in France on February 14, 1933, under the auspices of the Paris Observatory and astronomer Ernest Esclangon.^[20] This automated system used glass discs to generate announcements, marking the transition from manual "time ladies" to mechanical recording playback, and served as a model for subsequent adoptions amid growing urban telephony and the need for standardized timekeeping in industrialized societies.^[20] Expansion accelerated in Europe during the mid-1930s, with the Netherlands deploying a machine-based service in The Hague by 1934 and Switzerland following in 1935, both emphasizing optical or early recording technologies for reliability.^[2] The United Kingdom launched its version on July 24, 1936, through the General Post Office, employing optical glass disc recordings to arbitrate disputes over time accuracy, particularly for railway schedules and broadcasting synchronization.^[5] In the United States, precursor human-operated services operated in Chicago from October 1930, evolving to fully automated systems by 1937 via companies like Audichron, which installed talking clocks in cities such as Atlanta to support commercial and public synchronization needs.^[20] These early systems prioritized accuracy to within seconds, drawing from observatory signals and reducing reliance on visual clocks or manual inquiries.^[7] By the 1950s, the service extended to additional regions, including Australia in 1953 under the Postmaster-General's Department, using initial automated equipment capable of handling periodic announcements every 10 seconds.^[21] Implementations in Canada and other Commonwealth nations followed similar patterns, often tied to national telecom monopolies for widespread accessibility via short-code dialing.^[9] Peak usage materialized from the postwar era through the 1980s, coinciding with peak fixed-line telephone density—reaching over 80% household penetration in developed nations—and limited availability of battery-powered quartz watches until the late 1970s.^[2] Demand crested during time-sensitive events like daylight saving transitions, New Year's Eve, and power outages, when millions of annual calls overloaded lines in major markets; for instance, UK services managed surges tied to national clock adjustments, underscoring the system's role as a public utility for empirical time verification before digital alternatives eroded necessity.^[8] This era represented maximal reliance on centralized, voice-announced time dissemination, with upgrades to magnetic drums and early digital synchronization enhancing capacity to meet escalating volumes without human intervention.^[20]

Digital Transition and Recent Decline (1990s–Present)

In the 1990s, speaking clock services worldwide underwent significant upgrades from analog mechanical systems—reliant on rotating discs, film loops, or glass records—to digital architectures employing electronic storage, synthesis, and synchronization. These transitions enhanced precision, minimized mechanical wear, and lowered operational costs by automating voice generation through digital-to-analog conversion and crystal oscillators. For instance, Australia's Telecom replaced its analog talking clock with a digital version in September 1990, featuring synthesized speech from ABC broadcaster Richard Glover.^[22] ^[23] Similar digital overhauls occurred in other nations, aligning with broader telecommunications shifts toward integrated circuit-based timekeeping tied to atomic standards for sub-millisecond accuracy.^[10] Usage of speaking clocks peaked globally in the mid-20th century, with Sweden recording 64 million calls in 1977 alone, but began a steep decline from the 1990s onward as quartz wristwatches, household digital clocks, and personal computers provided ubiquitous, battery-powered timekeeping without infrastructure dependency. The rise of mobile telephony in the 2000s accelerated this trend, rendering dial-up services obsolete for most users; in the UK, call volumes fell from approximately 70 million annually in earlier decades to around 30 million by 2011.^[8] ^[24] This erosion prompted discontinuations across multiple countries amid negligible demand and rising maintenance expenses relative to alternatives like GPS-synced smartphones. Norway terminated its service in January 2007, followed by Ireland's Eir in August 2018 after notifying users of persistent low volume, Australia's Telstra in October 2019 despite daylight savings spikes, and France's Orange in July 2022 owing to a "steady and significant decrease."^[25] ^[26] ^[27] In the United States, Verizon ended its commercial time line in 2011, though federal observatories maintain limited access.^[28] Services persist in select markets like the UK, where BT's 123 line endures amid the PSTN-to-VoIP migration by 2027, but primarily for niche or legacy needs rather than mass utility.^[29]

Technical Implementation

Time Synchronization and Accuracy Mechanisms

Speaking clocks achieve high accuracy through synchronization with primary time standards, primarily cesium atomic clocks maintained by national metrology institutes. These standards define Coordinated Universal Time (UTC) and provide traceability to the International System of Units (SI) second, ensuring deviations of less than one second over millions of years.^[17]^[8] In the United Kingdom, the British Telecom (BT) Speaking Clock synchronizes via Network Time Protocol (NTP) servers linked to Global Positioning System (GPS) satellites or the MSF longwave radio signal from the National Physical Laboratory (NPL) in Teddington, which broadcasts UTC adjusted for Greenwich Mean Time (GMT) or British Summer Time (BST). This setup maintains accuracy to within 5 milliseconds, an improvement from the original mechanical systems' 100 milliseconds in the 1930s, achieved through continuous phase-locked loops and periodic recalibration against the NPL's cesium fountain clocks.^[12]^[11] In the United States, the National Institute of Standards and Technology (NIST) operates telephone time services, such as those accessible via (303) 499-7111, directly tied to atomic clocks at NIST Boulder laboratories. These systems use modem-based or voice announcements synchronized to UTC(NIST), with accuracy better than 1 millisecond via GPS-derived corrections, enabling users to calibrate devices against the federal standard that underpins GPS and national timing networks.^[17]^[30] Early implementations relied on quartz crystal oscillators or mechanical master clocks, corrected manually or via electromechanical phase shifters against observatory signals, limiting accuracy to about 1/20 second. Modern digital transitions employ software-defined synchronization, mitigating drift through redundant sources like GPS and low-frequency radio (e.g., WWVB in the US), with failover protocols to prevent single-point failures and ensure sub-second precision even during signal outages.^[2]^[31]

Voice Generation and Announcement Protocols

Voice generation for speaking clock services has traditionally relied on pre-recorded human speech segments, which are concatenated in real-time to form complete time announcements, ensuring natural intonation and clarity. In the United Kingdom's initial 1936 implementation, voice recordings by Ethel Jane Cain were captured on glass discs and reproduced photoelectrically, with light beams scanning the discs to convert optical patterns back to audio signals amplified for transmission. Subsequent upgrades transitioned to magnetic drums in the 1960s using voices like Pat Simmons, and by the 1980s to solid-state digital storage with no moving parts, employing voices such as Brian Cobby's for the Chronocal system, synchronized via crystal oscillators and radio corrections.^[2] These methods prioritized fidelity and reliability over synthesis, as concatenated recordings avoided the unnatural prosody often associated with early text-to-speech technologies. While modern consumer talking clocks may incorporate speech synthesis integrated circuits for compactness, official telephone services like those from NIST and USNO continue using digital pre-recordings to maintain precision and listener trust.^[32] Announcement protocols emphasize accuracy, with structured phrasing and timed audio cues to allow users to synchronize devices to the exact second. In the UK, announcements loop every ten seconds in a format such as: "At the third stroke it will be [hours], [minutes] and [seconds] precisely," followed immediately by three short pips (beeps), where the final pip marks the precise time signal.^[2] This "stroke" system, introduced in 1936, builds anticipation across announcements to reduce latency perception and enhance usability for setting clocks. In the United States, the Naval Observatory's service announces local time (standard or daylight) on the minute and at 15, 30, and 45 seconds past the minute, followed five seconds later by Coordinated Universal Time (UTC), enabling dual-reference synchronization without additional tones specified beyond voice delivery.^[30] NIST's telephone relay of WWV audio provides voice announcements with delays under 30 milliseconds on landlines, focusing on stability for calibration rather than pips, and disconnects after two minutes to manage load.^[17] These protocols, varying by provider, incorporate delays and cues calibrated against atomic standards, with historical services like early US time lines using simple "The time is [hour] [minute]" formats preceded by tones for exactness.^[28]

System Architecture and Call Processing

Speaking clock systems integrate a synchronized timekeeping core with voice playback mechanisms and telephony interfaces connected to the public switched telephone network (PSTN). The core features a high-accuracy oscillator, such as a temperature-controlled crystal in later models, periodically aligned to atomic or national standards for precision within ±15 milliseconds per day.^[10] Redundancy is provided by dual installations at geographically separate sites, linked via ring circuits for automatic failover during faults.^[2]^[10] Early architectures, like the UK's 1936 Mark I, relied on mechanical components: 78 rpm glass discs etched with voice grooves, read by photoelectric cells and driven by pendulum-synchronized motors, storing phrases for a 12-hour format.^[2] Subsequent evolutions included the 1963 Mark III's rotating magnetic drum coated in Neoprene for recorded announcements, and the 1985 Mark IV's solid-state design with microprocessor control and pulse-code modulation (PCM) speech stored in erasable programmable read-only memory (EPROM), eliminating moving parts.^[2]^[10] Call processing initiates when users dial a short code, such as the UK's 123, triggering local exchanges to route the connection through tandem switches equipped with relay sets. These sets multiplex the clock's output across dedicated lines, accommodating up to 100 concurrent calls in initial setups.^[2] Connected callers hear continuous announcements every 10 seconds—detailing hours, minutes, and seconds, followed by three 1 kHz tone pips, with the third pip signaling the precise second—before automatic disconnection after 1.5 to 3 minutes.^[2]^[10] Synchronization protocols vary by era: early models adjusted hourly against Greenwich signals via pendulum corrections, while digital versions perform daily 09:55 alignments with atomic references like the National Physical Laboratory's, compensating oscillator drift in 0.1 ms increments.^[2]^[10] Distribution to regional centers occurs over dual-ring trunks from primary sites like London and Liverpool, ensuring service continuity.^[2]^[10]

Services by Country

United Kingdom

The United Kingdom's speaking clock service, known as the BT Time service or Timeline, delivers the current time audibly when dialing 123 from a BT landline or compatible network.^[33] Launched on 24 July 1936 by the General Post Office (GPO) in London, it addressed frequent disputes over time accuracy before widespread personal timepieces, replacing operator-assisted inquiries.^[8] ^[5] The initial setup at Museum Telephone Exchange in Holborn used two synchronized pendulum clocks driving gramophone-style steel disc recorders, with announcements every 10 seconds in the format: "At the third stroke, it will be [hour], [minute], [second] seconds."^[2] The original voice belonged to GPO telephonist Ethel Jane Cain, selected via a nationwide search among 15,000 operators for her clear enunciation; she recorded phrases on 2-foot diameter steel discs, earning 10 guineas.^[6] Cain's recordings served until 1963, succeeded by Pat Simmons until 1985, followed by Brian Cobby, whose voice has announced time since 1986 across digital systems.^[11] Early access used the code TIM (846), later standardized to 123, with the service handling tens of millions of calls annually at its peak.^[2] Technical upgrades transitioned from mechanical to electronic systems in the 1960s–1980s, incorporating synthesized elements while retaining human voices for familiarity.^[11] Time synchronization derives from atomic clocks at the National Physical Laboratory (NPL), achieving accuracy within 5 milliseconds—superior to broadcast signals like BBC pips, which reference the speaking clock.^[16] ^[24] The system processes calls via BT's network, with announcements repeating precise UTC-aligned time, pips marking "strokes" for auditory cues.^[2] Despite mobile apps and digital clocks reducing usage, the service persists for reliability in power outages or verification needs, logging about 9 million calls yearly as of recent estimates.^[8]

United States

The first automated telephone time announcement service in the United States was introduced in Atlanta, Georgia, on October 25, 1934, as a promotional effort by the Tick Tock Ginger Ale company to advertise its product alongside the time readout.^[14]^[34] This pioneering system used mechanical recordings on rotating discs driven by synchronous motors to deliver pre-recorded time segments, marking a shift from live operators who had manually provided time checks since the early 20th century.^[7] The Audichron Company, founded in the 1930s by John Franklin in Doraville, Georgia, emerged as the dominant provider of such devices, supplying automated talking clocks to local businesses, utilities, and regional Bell System telephone companies across the country.^[1] These systems often combined time announcements with local temperature readings or weather updates, sponsored by advertisers, and were accessed via short local dial codes such as TI6-1212 in Philadelphia or POPCORN (767-2676) in parts of California.^[35]^[36] The voice for many Audichron installations was provided by actress Jane Barbe, dubbed the "Time Lady," whose clear enunciation reached an estimated 20 million daily callers from the 1960s onward through recordings made for the company and telephone networks; she continued voicing updates until her death in 2003.^[37] Unlike centralized national services in other countries, U.S. speaking clocks operated as decentralized, regionally sponsored utilities, with no uniform access number, leading to variations by city or provider—such as WE7-1212 for time and weather in some Midwest areas.^[38] Official federal services persist today through the United States Naval Observatory (USNO), offering voice time announcements at 202-762-1401 (Washington, D.C.) and 719-567-6742 (Colorado), synchronized to atomic clocks with delays under 30 milliseconds on landlines.^[30]^[17] The National Institute of Standards and Technology (NIST) supports a related line at 303-499-7111 for precise time checks.^[7] Local commercial services have largely declined since the 1990s due to ubiquitous personal clocks, smartphones, and internet time sources, though remnants operate in select cities like Cincinnati.^[39]

France

The French horloge parlante (speaking clock) was the world's first telephone-based time announcement service, inaugurated on February 14, 1933, by astronomer Ernest Esclangon, then director of the Paris Observatory, in collaboration with the postal and telecommunications administration.^[40]^[41] The service provided the official legal time of France, synchronized with atomic clocks at the Observatory's SYRTE laboratory, and was accessible nationwide by dialing the short code 3699.^[40]^[42] Initially featuring live announcements by radio speakers, the system transitioned to recorded voices for efficiency, delivering the time in French with the protocol "Au 4e top, il sera exactement [time]" (At the 4th beep, it will be exactly [time]), followed by four audio signals marking the precise second.^[43]^[41] Managed by France Télécom and later Orange, it incurred a charge of 1.50 euros per call from the 1990s onward, peaking in usage during that decade before declining with the rise of personal clocks and mobile devices.^[44]^[45] Orange discontinued the service on July 1, 2022, citing negligible demand—fewer than 1,000 calls per month by 2021—and the redundancy in an era of ubiquitous digital timekeeping.^[46] The official time reference shifted to the website heurelegalefrancaise.fr, maintained by the Paris Observatory, ensuring continuity for legal and scientific synchronization needs.^[40]^[47] Despite its obsolescence, the horloge parlante symbolized early 20th-century innovation in public time dissemination, predating similar services in other nations by years.^[42]^[48]

Australia

The Australian speaking clock, operated by the Postmaster-General's Department and later Telstra, provided automated time announcements via telephone since its nationwide introduction on July 5, 1953.^[49] ^[50] Accessible by dialing 1194 from any landline, the service delivered local time synchronized to atomic standards, announcing "At the third stroke it will be [hours], [minutes] and [seconds]. The time signal will follow immediately" followed by three short pips and a longer tone for the exact second.^[49] ^[51] The voice recording featured actor and broadcaster Gordon Gow, who received £100 for the original 1953 session and rerecorded it periodically until his death in 2001; subsequent updates used similar intonations to maintain familiarity.^[50] ^[52] The system relied on magnetic tape loops for playback, integrated with telephone exchanges to handle high call volumes without operator intervention, and remained free until the 1990s when brief per-call charges were introduced.^[51] Peak usage occurred in the mid-20th century for setting watches and clocks, but calls declined with the rise of digital watches, mobile phones, and internet time services; by 2018, annual calls numbered under 2 million.^[50] Telstra decommissioned the service at midnight on September 30, 2019, citing low demand and maintenance costs exceeding revenue, ending 66 years of operation.^[21] ^[50] Post-discontinuation, enthusiasts preserved the service online via 1194online.com, streaming Gow's recordings synchronized to network time protocol servers for global access, though without official Telstra backing.^[53] The National Film and Sound Archive holds original recordings, recognizing the service as a cultural artifact of Australian telecommunications history.^[52] No equivalent official telephone service has replaced it, with users now relying on mobile apps or carrier-specific time features.^[21]

Canada

The National Research Council Canada (NRC) maintains the official telephone talking clock service, synchronized to atomic clocks for high precision in disseminating Eastern Standard Time or Eastern Daylight Time as applicable.^[9] This bilingual service offers English announcements via 613-745-1576 and French via 613-745-9426, delivering voice reports of the time every 10 seconds, interspersed with audible ticks for each second and a tone precisely at the stated second.^[9] ^[54] Each call limits users to three time announcements before automatic disconnection, with peak usage occurring between 7-9 a.m. and 4-7 p.m., prompting recommendations for off-peak dialing to reduce congestion.^[9] Transmission delays of approximately 0.25 seconds per satellite hop—up to two hops possible—may slightly offset the tone from true atomic time, though the service supports applications like setting digital chronometers via the tick signals.^[9] Long-distance tolls apply for callers outside the Ottawa region, as the numbers are local to that area.^[9] Administered by NRC's Frequency and Time group within its time laboratory, the talking clock complements other discontinued NRC time dissemination methods, such as shortwave radio broadcasts via station CHU, which ended in 2023 due to propagation inaccuracies rather than obsolescence alone.^[55] ^[56] The telephone service persists as a public utility for exact time verification, underscoring NRC's role in national standards despite limited expansion efforts owing to infrastructure costs.^[9] Regional telecom providers, such as SaskTel, formerly offered local time announcement lines (e.g., in Regina via 306-757-7111) with formats like "At the tone, the time will be," but these have been retired in recent years without centralized coordination.^[9]

Other Notable Services

In Japan, the speaking clock service is provided by Nippon Telegraph and Telephone (NTT), accessible nationwide by dialing 117 from any telephone, offering automated time announcements in Japanese every ten seconds following a initial tone.^[57] The service operates 24 hours a day and incurs standard call charges, synchronized to national atomic clocks for precision.^[58] Germany's Deutsche Telekom maintains a speaking clock reachable at 01804 100100, where callers hear the current date followed by the time in a synthesized female voice, accurate to within milliseconds via GPS-linked atomic standards.^[59] Introduced in the mid-20th century, the service persists despite digital alternatives, with calls billed at premium rates to support maintenance.^[60] Sweden's "Fröken Ur" (Miss Clock) service, operational since 1934, is dialed at 090-510 (or +46 33 90510 internationally), delivering time in Swedish using recordings from various female voices over decades, including celebrities, and remains free for domestic landline calls.^[61] In Russia, particularly Moscow, dialing 100 connects to the talking clock, announcing the time in Russian without charge for local calls, though some regions use 060; the system traces to Soviet-era implementations for public synchronization.^[59] South Africa's service, available at 1026 from fixed or mobile lines, alternates announcements in Afrikaans and English every ten seconds in 24-hour format, aligned to GMT+2 without daylight saving adjustments.^[61]

Modern Alternatives and Legacy

Factors Contributing to Decline

The decline of speaking clock services worldwide stemmed primarily from the ubiquity of personal timekeeping devices that provided accurate, on-demand time without requiring a telephone call. By the 1980s, quartz-based digital watches and clocks had become affordable and reliable, synchronizing with atomic standards and eliminating reliance on centralized announcements for everyday needs.^[8] This shift was accelerated by household appliances like microwave ovens and VCRs incorporating digital displays, further embedding precise time awareness into daily life.^[62] The advent of mobile phones in the 1990s and smartphones in the 2000s intensified this trend, as devices offered continuous time display synced to cellular networks or GPS, rendering dial-up services redundant for most users.^[4] Internet-connected computers and web-based time queries also contributed, providing free, instant access without infrastructure costs to providers.^[53] In regions with high smartphone penetration, call volumes plummeted; for example, Australia's Telstra reported negligible usage before discontinuing its "Talking Clock" service on September 30, 2019.^[63] Economic pressures exacerbated the decline, as maintaining specialized telephony hardware and voice synthesis systems became unjustifiable amid falling call rates. Ireland's Eir cited a "continuing decline" in usage when shutting down its service on August 27, 2018, after nearly 50 years of operation.^[64] Similarly, Norway phased out its equivalent in January 2007 due to obsolescence, while Canada's CBC Radio ended its long-running telephone time signal in October 2023, attributing the decision to the widespread availability of alternative accurate sources.^[65]^[4] In the United States, regional providers like AT&T discontinued services in states such as California by the early 21st century, reflecting broader patterns of low demand against rising operational costs.^[4] Even in countries like the United Kingdom, where the BT Speaking Clock persists as of 2025, usage has dropped dramatically from billions of calls annually in the mid-20th century to minimal levels, prompting sponsor withdrawals such as Accurist's in 2008.^[66] These factors collectively underscore a transition from centralized, operator-dependent time verification—once essential for synchronizing clocks or resolving disputes—to decentralized, device-integrated solutions.^[8]

Contemporary Equivalents and Comparisons

In the United States, the National Institute of Standards and Technology (NIST) maintains a Telephone Time-of-Day Service that delivers audible announcements of Coordinated Universal Time (UTC), primarily for synchronizing clocks, watches, and timers, with the system handling around 1,000 calls per day as of recent operations.^[17] Similarly, the U.S. Naval Observatory offers a telephone-based time service at 202-762-1401, featuring audio ticks followed by spoken time updates, continuing a direct analog to historical speaking clocks.^[67] These services achieve high precision by linking to atomic clocks, with accuracy rivaling or exceeding older speaking clocks, which were synchronized to within 5 milliseconds using radio or GPS references.^[12] Digital voice assistants, such as Apple's Siri, Google Assistant, and Amazon's Alexa, serve as widespread contemporary equivalents, providing instant spoken time announcements via natural language queries on smartphones, smart speakers, and other devices. These systems synchronize device clocks using the Network Time Protocol (NTP) against atomic clock sources like GPS satellites or NIST servers, typically attaining accuracy within tens of milliseconds over public internet connections and sub-millisecond precision in local networks.^[68] In comparison to telephone speaking clocks, voice assistants offer greater convenience through integration with personal devices—ubiquitous since the smartphone era began around 2007—but depend on power sources, internet access, and software updates, introducing potential vulnerabilities like network latency or synchronization delays absent in landline-based services.^[69] Network Time Protocol (NTP) services represent a non-audible but foundational modern parallel, enabling automated time distribution to billions of devices worldwide via stratum servers traceable to primary atomic standards. NTP delivers millisecond-level accuracy for most users, surpassing the practical limits of human-perceived delays in speaking clocks, though it requires compatible hardware and lacks the simple, voice-only accessibility of telephone services for non-technical users.^[69] Radio-based options, including NIST's WWV and WWVH shortwave broadcasts accessible by telephone at numbers like 303-499-7111, provide continuous time ticks and periodic voice announcements, maintaining legacy-style dissemination with global reach but demanding radio reception equipment or phone lines for audio output.^[70] Overall, while speaking clocks emphasized low-barrier, infrastructure-reliant universality, contemporary systems prioritize scalability and feature richness at the cost of occasional dependency on digital ecosystems.

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History of speaking clocks - Facebook
Oct 14, 2025 · The service started in 1953 by the Post Master General's Department, originally to access the talking clock on a rotary dial phone, callers ...History of Time Ladies and the Speaking Clock Service - FacebookCan anyone remember what phone number was for the speaking ...More results from www.facebook.com
[21]
Talking Clocks. - Douglas Self
Nov 27, 2023 · The first telephone speaking clock service was introduced in France on 14th February 1933 by Ernest Esclangon, in association with the Paris Observatory.
[22]
Telstra 1194 talking clock turned off after 66 years - News.com.au
Oct 1, 2019 · The service was set to transmit its last time call on June 30, but was finally switched off at the end of September after a three-month ...
[23]
From the Archives, 1990: Telecom's Talking Clock upgrades for the ...
Sep 11, 2019 · In 1990, Telecom's Talking Clock, running since 1954 was superseded. The new, futuristic Talking Clock was voiced by the ABC's Richard ...
[24]
[PDF] TELECOM REPLACES ITS OLD 'SPEAKING CLOCKS'
Nov 1, 1990 · ... Speaking Clock' with a modern digital version. Our pictures show the old and the new versions, by courtesy of the Telecom Research Labora.
[25]
Speaking clock - Wikipedia
The NRC provides a Telephone Talking Clock service; voice announcements of Eastern Time are made every 10 seconds, followed by a tone indicating the exact time.
[26]
75 Years of the Speaking Clock - Galleon Systems
Jul 27, 2011 · The speaking clock, started in 1936, provides time to 30 million callers yearly, is accurate to 5 milliseconds, and uses a human voice.
[27]
'At the signal it will be': The Speaking Clock falls silent - Irish Examiner
Aug 27, 2018 · "The Speaking Clock was initially established almost five decades ago and during its peak the service attracted close to three million calls ...Missing: telephone | Show results with:telephone
[28]
The death of George - Telephony - Whirlpool Forums
Apr 20, 2019 · According to the Sydney Morning Herald, Telstra is discontinuing the 1194 speaking clock service on the 1st of October. Rest In Peace.
[29]
Time's Up for Talking Clock as Telstra pulls plug
Oct 2, 2019 · The shutdown of the service comes just 5 days before its peak use time, i.e. the switch to daylight savings time (DST) across NSW, ACT, SA, ...<|separator|>
[30]
Remember When You Could Call the Time? - The Atlantic
Jun 22, 2016 · And though Verizon discontinued the line—along with a related telephone weather service—five years ago, the U.S. Naval Observatory still offers ...
[31]
UK timekeeping phone service 'The speaking clock' turns 80 today
Jul 11, 2016 · BRITAIN'S famous speaking clock may have been introduced in 1936 but it still keeps perfect time for the 30 million people who use the service
[32]
Telephone Time - CNMOC
Coordinated Universal Time (UTC) is announced five seconds after the local time. Time may be delayed on long distance calls. Time Voice Announcer, Washington, ...
[33]
[PDF] GPO Report -Speaking Clock Mark III - General design.
The phase shifter, a 3-phase Magslip, is used for the correction of the clock time. One complete rotation of the Magslip advances (or retards) the phase of the.
[34]
The Talking Clock: Birth of the Voice-based UI - SitePoint
Mar 21, 2016 · Modern speaking clocks use advanced speech synthesis technology to announce the time. They are often integrated into digital assistants like ...
[35]
What is the number for the speaking clock? | BT Help
Find the precise time by dialling 123 to hear the BT speaking clock (Timeline). The time is announced every ten seconds.Missing: format | Show results with:format
[36]
The "Time Lady" or "the Speaking Clock" prior to the introduction of ...
Mar 7, 2023 · The first automated time service in the United States began in Atlanta, Georgia in 1934 as a promotion for Tick Tock Ginger Ale. Company ...
[37]
You Can Still “Call The Time” In Philadelphia, But It Won't Tell You
Mar 28, 2017 · You could dial (215) TI6-1212, and hear a recorded voice, playing off of a device somewhere in the Bell Telephone HQ at Broad and Packer.
[38]
You Used to Be Able to Call POP-CORN and Get the Time ... - KQED
Jan 14, 2021 · There was a phone service in Northern California that would read you the time and date if you dialed POP-CORN, the letters that represented 767-2676.
[39]
The Time Lady
Jane Barbe has one of the most recognizable voices in the world. Speaking to over 20 million people a day, she is known as the voice of ETC's Audichron time, ...
[40]
What were the phone numbers for weather and time on landlines?
Aug 16, 2024 · Remember calling Weather - WE7-1212. Time - TI6-1212. Crank calls were so much fun back then - no caller I.D. Remember dialing the number ...Remembering Time and Temperature Phone Numbers - FacebookWhen you was younger and you got the massive phone book out did ...More results from www.facebook.com
[41]
Need to know the time or temp? There's (still) a phone number for that
Feb 20, 2024 · Call a time and weather line. There were numbers all across the country. A lot ended in 1010 or 1212, and they were operated by businesses, banks, companies.
[42]
L'historique horloge parlante fait place au site heurelegalefrancaise.fr
Jul 1, 2022 · Née en 1933, l'Horloge Parlante, première mondiale, est une invention d'Ernest Esclangon, astronome et alors directeur de l'Observatoire de ...
[43]
5 choses à savoir sur l' « Horloge parlante », qui s'arrête | Les Echos
Jul 1, 2022 · L' « Horloge Parlante » est, en effet, née en 1933, d'une invention d'Ernest Esclangon, astronome et directeur de l'Observatoire de Paris.
[44]
Time's up for France's historic 'speaking clock'
Jun 29, 2022 · Nostalgia fans hoping to dial 3699 and get the soothing voice of France's "speaking clock" will have to move fast because telecoms operator ...Missing: telephone | Show results with:telephone
[45]
L'horloge parlante, histoire officielle, histoire parallèle | France Inter
Jul 1, 2022 · L'horloge parlante est mise en place le 14 février 1933. Sa voix est alors celle de Radiolo : un speaker connu pour avoir ouvert la première ...
[46]
L'Horloge parlante, système emblématique datant de 1933 ...
May 4, 2022 · Née en 1933, l'Horloge parlante, première mondiale, est une invention d'Ernest Esclangon, astronome et directeur de l'Observatoire de Paris. ...<|separator|>
[47]
« Au 4e top, il sera… » : l'horloge parlante va disparaître après 89 ...
May 4, 2022 · Le service de l'horloge parlante, créé en 1933, sera arrêté le 1er juillet 2022, annonce l'opérateur Orange, qui en assurait la gestion depuis ...
[48]
L'horloge parlante tire sa révérence, près d'un siècle après sa création
Jun 29, 2022 · Née en 1933, l'horloge parlante, est une invention d'Ernest Esclangon, astronome et directeur de l'Observatoire de Paris. Accessible sur tout le ...
[49]
Comment peut-on avoir l'heure exacte en France, sans l'horloge ...
Mar 30, 2025 · L'horloge parlante était un service bien commode lors du changement d'heure. Désormais fermé, ce service a cédé sa place à un site web qui ...
[50]
Time's up for France's historic 'speaking clock' - RFI
Jun 29, 2022 · Nostalgia fans hoping to dial 3699 and get the soothing voice of France's "speaking clock" will have to move fast because telecoms operator ...Missing: telephone | Show results with:telephone
[51]
Speaking Clock: Gordon Gow and the Postmaster-General's ...
This service, familiar to generations of Australians, was introduced by the Postmaster General's Department in 1953 and could be accessed by dialling 1194.
[52]
Time's up for the iconic talking clock - Australian Geographic
Sep 30, 2019 · Nearly two million calls last year to Australia's 'talking clock', at the third stroke past midnight tonight (30 September 2019), it will fall silent.Missing: adoption date
[53]
The 7.30 Report presents a story on Australia's Talking Clock in 1990
Oct 15, 2019 · The 7.30 Report looks back on the history of the iconic Talking Clock, in an episode aired in September 1990. Melbourne · VIC · Australia.Missing: adoption date
[54]
The Speaking Clock | National Film and Sound Archive of Australia
Dec 3, 2024 · The new automated Speaking Clock is capable of handling 600 callers simultaneously. BACK TO SOUNDS OF AUSTRALIA. CREDITS. Production company.Missing: adoption date
[55]
Talking Clock continues to tick online after Telstra's September ...
Oct 15, 2019 · "At the third stroke" welcoming midnight on September 30, time was officially up for Australia's Talking Clock.Missing: adoption | Show results with:adoption
[56]
Time flies! 80th anniversary of the National Research Council of ...
Nov 5, 2019 · The NRC runs two telephone numbers that announce the time of day. These numbers are accessible to the general public in English: (613) 745-1576 ...
[57]
NRC shortwave station broadcasts (CHU)
Mar 23, 2019 · The frequencies are derived from one of a trio of atomic clocks located at the transmitter site. Three clocks are employed to permit majority ...<|separator|>
[58]
The end of the long dash: CBC stops broadcasting official time signal
Oct 10, 2023 · After more than 80 years, the iconic long dash sound of the National Research Council time signal has beeped for the last time on CBC Radio at 1 pm ET.
[59]
Contact Us | NTT EAST
(Please refer to Telegrams for after-hours applications.) Time and Weather Reports(in Japanese only). (Charges apply). Time, 117 (24 hours a day). Weather ...
[60]
Phone numbers to know when visiting Japan
Jun 20, 2024 · Directory assistance: 104 - For looking up phone numbers (service in Japanese). Time announcement: 117 - To check the current time in Japan.
[61]
Speaking clock - Alchetron, The Free Social Encyclopedia
Oct 11, 2024 · The speaking clock came into service at November 9, 1934 and could be reached by dialing 393131. The service became so popular, that in 1935 a ...Missing: history | Show results with:history
[62]
What's the Time and Temperature Phone Number in your Area
Jul 16, 2009 · Official number for time here in Germany is 0049 (0)180 4100100, German Telekom, 0.20 € per call. There is another number I believe from an ...
[63]
speaking-clock.com: Speaking Clock Speaking Clock Exact Time ...
London - United Kingdom Speaking clock provides precise time. Synchronized clock on atomic clock in real time. UTC/GMT Offset. Standard time zone - UTC/GMT 0 ...Speaking clock Video · Africa · Asia · Australasia
[64]
Retrotechtacular: The Speaking Clock Goes Silent - Hackaday
Oct 30, 2019 · Here's a look at the Australian speaking clock known as “George” and why speaking clocks were once the highest of technology.
[65]
Time's Up for Talking Clock as Telstra pulls plug
Oct 2, 2019 · At the third stroke of midnight on September 29, 2019 Australia's talking clock ceased to tell the time. Telstra has deactivated the Talking ...
[66]
Eir calls time on speaking clock due to decline in use - RTE
Aug 27, 2018 · Eir has said it called time on the service due to a continuing decline in the number of people using it.
[67]
Technology moves on and time finally up for speaking clock
Aug 28, 2018 · Several other countries have phased out their services in recent years, including Norway which did so in January 2007. A speaking clock is ...
[68]
Time's up - but we're still calling the speaking clock - The Guardian
Aug 26, 2008 · But Accurist isn't so sure. After sponsoring the BT service for 22 years and 3bn calls, the watch company is hanging up on the speaking clock.
[69]
Speaking clock machine that you would call to get accurate time
Jun 7, 2021 · (303) 499-7111 is the phone number for the NIST atomic clock in Colorado.
[70]
Master Clocks vs. NTP Servers: What's the Difference? - Sapling, Inc.
Jun 22, 2011 · A master clock and NTP server actually have the ability to work with each other to provide an even better timing solution for a given facility.
[71]
NTP Servers versus Internet Time What is the best method for ...
Jul 10, 2010 · NTP servers are also far more accurate and are not impinged by distance meaning that a network can have millisecond accuracy all the time.
[72]
WWV, WWVH HF Voice (Time Tick) - National Weather Service
Broadcasts a time and frequency service from stations WWV in Fort Collins, CO and WWVH in Kauai, Hawaii., commonly known to mariners as the "Time Tick".