WO2007001292A1 - Radio-controlled clock with remote digital time projection - Google Patents
Radio-controlled clock with remote digital time projection Download PDFInfo
- Publication number
- WO2007001292A1 WO2007001292A1 PCT/US2005/022445 US2005022445W WO2007001292A1 WO 2007001292 A1 WO2007001292 A1 WO 2007001292A1 US 2005022445 W US2005022445 W US 2005022445W WO 2007001292 A1 WO2007001292 A1 WO 2007001292A1
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- WO
- WIPO (PCT)
- Prior art keywords
- control unit
- clock
- micro
- display
- time display
- Prior art date
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Classifications
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C13/00—Driving mechanisms for clocks by master-clocks
-
- G—PHYSICS
- G04—HOROLOGY
- G04R—RADIO-CONTROLLED TIME-PIECES
- G04R20/00—Setting the time according to the time information carried or implied by the radio signal
Definitions
- Radio-controlled clock with remote digital time projection is
- the present invention relates to a remotely controlled analogue display clock with digital projection of a time display. More particularly, although not exclusively, the invention relates to a digital clock having a primary micro-control unit receiving remote radio signals and sending pulses to a gearbox of an analogue time display as well as sending pulses to a secondary micro-control unit for displaying time digitally.
- Micro-control units for radio controlled digital clocks are expensive. On the other hand, micro-control units for standard digital clocks are inexpensive. [03] It is known to project a digital time read-out onto a wall or ceiling. Radio controlled digital clocks having analogue time read-outs are also known. In proposing a radio controlled digital clock having an analogue display as well as a projected digital display, one is faced with the problem of duplicated costs in the expensive micro-control units.
- a radio controlled clock comprising: a primary micro-control unit receiving radio signals, a mechanical analogue time display controlled by the primary micro-control unit to display time, a secondary micro-control unit receiving pulse signals from the primary micro-control unit, and a digital time display controlled by the secondary micro- control unit to display time.
- the clock further comprises a light emitter and photo- coupler associated with the mechanical analogue time display and the primary micro-control unit to transmit a zero signal to the secondary micro-control unit at 12 o'clock.
- the clock further comprises a gearbox associated with the mechanical analogue time display and the primary micro-control unit, the gearbox adapted to transmit minute counting pulses to the secondary micro-control unit.
- the gearbox is further adapted to transmit second counting pulses to the secondary micro-control unit.
- the light emitter comprises an LED and the photo-coupler comprises a phototransistor adapted to receive light of the LED reflected from a minute hand of the mechanical analogue time display t a 12 o'clock position.
- the mechanical analogue time display further comprises coaxial hour, minute, and second gears wherein the hour and minute gears each comprise a slot at a 12 o'clock position and the second gear comprises a reflective mirror at a 12 o'clock position and wherein the slots and the reflective mirror are aligned with the light emitter and photo transistor at 12 o'clock.
- the digital time display is projected onto a remote surface.
- the clock further comprise weather forecasting and display means consisting of one or multiple LCD-displays adapted for presenting current temperature, humidity, pressure, and the like.
- the weather forecasting means includes means for enabling reception of weather related telemetry from a remote source such as a weather radio broadcast or weather-related telemetry sensed by a remote sensing unit that is enabled to send the weather related telemetry to the clock, and the clock is adapted to receive such telemetry.
- a remote source such as a weather radio broadcast or weather-related telemetry sensed by a remote sensing unit that is enabled to send the weather related telemetry to the clock
- the clock is adapted to receive such telemetry.
- Figure 1 is a schematic block diagram showing functional specifications of a radio controlled analogue display clock with digital projection of time
- FIG. 2 is a schematic flowchart showing operation of the clock
- Figure 3 is a schematic illustration of an analogue time display with its hour, minute, and second-hands aligned at a 12 o'clock position;
- Figure 4 is a schematic illustration showing an optical arrangement for determining alignment of the hour, minute, and second-hands
- Figure 5 is a graph showing minute and second counting pulses (positive terminal).
- Figure 6 is a graph showing minute and second counting pulses (negative terminal);
- Figure 7 is a graph showing a zero signal;
- Figure 8 is a graph showing a reflected zero signal at 12 o'clock
- Figure 9 is a schematic block diagram showing functional specifications of the clock
- Figure 10 is another schematic block diagram
- Figure 1 1 is an illustration of one possible embodiment of the present invention. DESCRIPTION OF A PREFERRED EMBODIMENT
- FIG. 1 of the accompanying drawings there is depicted schematically in block diagram form a general radio controlled analogue movement 10 comprising an antenna 1 1 and receiver 12.
- the receiver 12 transmits a radio-controlled signal 13 to a primary micro-control unit 14 after having received and enables signal 1 5.
- the primary micro-control unit transmits minute-counting pulses 1 6 and second-counting pulses 17 to a gearbox 18 and a secondary micro-control unit 19.
- the secondary micro- control unit 19 is an inexpensive, off-the-shelf item as produced by many manufacturers.
- the secondary micro-control unit 19 transmits signals to a digital time projector 20 for displaying the time on a bedroom ceiling or wall for example. There is a flip key 21 and a 12/24-hour key 22 associated with the secondary micro-control unit. [018] Associated with the primary micro-control unit 14 is a photo- coupler 23 to be described with reference to Figures 3 and 4. Suffice to say the time being that the photo coupler receives a zero signal from the primary micro-control unit and reflects that back to the primary micro- control unit and the secondary micro-control unit, only when the hour hand of the analogue display clock points to 12.
- FIG. 2 there is illustrated the logic steps associated with the electronics of the clock.
- a battery is installed into the clock.
- the primary micro-control unit resets the hour, minute, and second hands to 1 2 o'clock.
- the photo coupler produces a reflected zero signal to the primary micro-control unit.
- the secondary micro-control unit receives the zero signal and resets its display to "12:00".
- the analogue movement begins receiving radio signals from a remote transmitter via its antenna 1 1. If a radio signal is received, the analogue movement will transmit counting pulses to the gearbox 18.
- the hour, minute, and second hands will commence moving to display correct time.
- the secondary micro-control unit also receives counting pulses to calculate hours, minutes, and seconds to be displayed.
- the analogue movement and the digital display both show the correct time synchronously.
- the digital clock After receiving the radio signal, the digital clock will align every 12 hours by using the zero signal from the analogue movement.
- the 1 2/24-hour key 22 can be used to change the digital projection time in either 12 or 24-hour format. If it is held for three seconds say, the digitally projected time will include an "AM” or "PM” display. [023]
- the "flip key” 21 can be used to turn the projected time through 180-degrees for convenience of projection.
- FIG 3 there is shown an analogue mechanical clock face 30 having its hour, minute, and second hands aligned at 1 2 o'clock.
- the gears of the analogue display clock and associated hardware are shown in Figure 4.
- the LED 31 emits a beam of light through a slot 32 in an hour gear 33 only when the hour hand is at the 12 o'clock position.
- the beam of light then passes through a slot 34 in a minute gear 35, but only when the minute gear is at the 12 o'clock position.
- the second gear 36 has a reflective mirror 37 at the 12 o'clock position.
- the beam of light emitted by the LED 31 is reflected back through the slots 32 and 33 to a phototransistor 37.
- the phototransistor relays a reflected zero signal 38 to the primary micro-control unit 14 and the secondary micro- control unit 19.
- Figures 5, 6, 7, and 8 show pulse signals applicable on the various conditions as described above.
- the primary micro-control unit When the primary micro-control unit receives radio signals via it antenna, it will transmit a number of minute- counting and second-counting pulses to the gearbox.
- the number of second-counting pulses 0 (no second counting pulses) so the secondary micro-control unit will capture the correct number of minute and second-counting pulses to calculate what the time is and synchronized directly with the primary micro-control unit.
- the secondary micro-control unit will be counting up for the seconds display passed to the gearbox, e.g. "03:15:01 ". However, the secondary micro-control unit calculates its own seconds. [027] Every 60 seconds the primary micro-control unit transmits minute- counting pulses to the gearbox for driving the minute step-motor. The secondary micro-control unit can then use the minute counting pulses to check and synchronize the projected digital time with that of the primary micro-control unit. [028] The flowcharts of Figures 9 and 10 will not be described in detail. Suffice to say that the secondary micro-control unit captures reflected zero signals, minute-counting pulses, and second-counting pulses as described. The reflected zero-signal is used to reset all counters and register to 12:00:00. The minute-counting pulses are utilized to calculate the minutes and hours. The second-counting pulses are utilized to count the seconds only.
- a clock 40 includes a primary housing 42 with a mechanical, analogue clock face 30 and a LCD- display panel 44.
- the LCD panel 44 may include separating divisions for ease of displaying data or, alternatively several separate LCD panels could be arranged to display separate data components.
- a secondary housing 46 Adjacent to the primary housing 42 is a secondary housing 46, which rotatably positions relative to the first housing.
- the secondary housing encapsulates the display-related components to project digital time on a remote surface, such as a bedroom wall or ceiling.
- the clock includes various switches, knobs, and buttons adapted to control various functions of the clock including an alarm-clock function, snooze, time-set, focus, volume, 12/24-hour selection, and other related functions as would easily be understood by those skilled in this art.
- controlling the single LCD panel 44 is a second set of control switches, button, knobs, or the like.
- These control switches enable a user to display weather-related telemetry, such as indoor temperature, outdoor temperature, relative humidity, and barometric pressure in a real-time (or nearly real-time) mode.
- Predictive information such as a weather forecast, is also displayed in graphical or alphanumeric arrangements.
- the clock therefore, includes means for calculating weather forecasts from the weather telemetry.
- Internal to the clock not depicted in Figure 1 1 , are one or more antennas, which are adapted to receive radio signals from remote transmitters including a time-based radio frequency signal and a second frequency transmitting weather-related telemetry.
- Weather-related telemetry is collected by sensors located in a remote sending unit 50 and is transmitted to the clock 40 via a radio frequency.
- Suitable remote sending units include a model TS02 available from Hideki Electronics, Inc. of Tualatin, Oregon, USA. in this example, temperature data, humidity data, and barometric pressure data are collected by the sending unit and transmitted at 433.33 MHz to the clock 40.
- the clock stores this data and utilizes it to forecast future weather and routes the data in a displayable format to the LCD panel 44 based on user-inputted command options.
- the clock 40 further includes secondary means for receiving time- data from a remote sending unit, such as the U.S. atomic clock, which transmits time data on a second frequency of 60 kHz, as is generally understood in the art.
- a remote sending unit such as the U.S. atomic clock, which transmits time data on a second frequency of 60 kHz, as is generally understood in the art.
Abstract
A radio controlled clock includes a primary micro-control unit receiving radio signals including both time and weather-related telemetry from remote transmitters, a mechanical analogue time display controlled by the primary micro-control unit to display time, a secondary micro-control unit receiving pulse signals from the primary micro-control unit, and a digital time display controlled by the secondary micro-control unit to display time. The clock further comprises a light emitter and photo-coupler associated with the mechanical analogue time display and the primary micro-control unit to transmit a zero signal to the secondary micro-control unit.
Description
TITLE OF THE INVENTION
Radio-controlled clock with remote digital time projection.
INVENTORS
Tarn, Ho Chuen and Boyle, James
BACKGROUND
[01 ] The present invention relates to a remotely controlled analogue display clock with digital projection of a time display. More particularly, although not exclusively, the invention relates to a digital clock having a primary micro-control unit receiving remote radio signals and sending pulses to a gearbox of an analogue time display as well as sending pulses to a secondary micro-control unit for displaying time digitally.
[02] Micro-control units for radio controlled digital clocks are expensive. On the other hand, micro-control units for standard digital clocks are inexpensive. [03] It is known to project a digital time read-out onto a wall or ceiling. Radio controlled digital clocks having analogue time read-outs are also known. In proposing a radio controlled digital clock having an analogue display as well as a projected digital display, one is faced with the problem of duplicated costs in the expensive micro-control units.
OBJECT OF THE INVENTION
[04] It is an object of the present invention to overcome or substantially ameliorate the above disadvantage and/or more generally to provide a low-cost radio controlled analogue display clock with digital projection. [05] Moreover, such a low-cost radio-controlled analogue display clock advantageously incorporates weather forecasting and display information.
DISCLOSURE OF THE INVENTION
[06] There is disclosed herein a radio controlled clock comprising: a primary micro-control unit receiving radio signals, a mechanical analogue time display controlled by the primary micro-control unit to display time, a secondary micro-control unit receiving pulse signals from the primary micro-control unit, and a digital time display controlled by the secondary micro- control unit to display time.
[07] Preferably the clock further comprises a light emitter and photo- coupler associated with the mechanical analogue time display and the primary micro-control unit to transmit a zero signal to the secondary micro-control unit at 12 o'clock. [08] Preferably the clock further comprises a gearbox associated with the mechanical analogue time display and the primary micro-control unit, the gearbox adapted to transmit minute counting pulses to the secondary micro-control unit.
[09] Preferably the gearbox is further adapted to transmit second counting pulses to the secondary micro-control unit.
[010] Preferably the light emitter comprises an LED and the photo-coupler comprises a phototransistor adapted to receive light of the LED reflected from a minute hand of the mechanical analogue time display t a 12 o'clock position. [Oi l ] Preferably, the mechanical analogue time display further comprises coaxial hour, minute, and second gears wherein the hour and minute gears each comprise a slot at a 12 o'clock position and the second gear comprises a reflective mirror at a 12 o'clock position and wherein the slots and the reflective mirror are aligned with the light emitter and photo transistor at 12 o'clock.
[012] Preferably, the digital time display is projected onto a remote surface.
[013] Preferably, the clock further comprise weather forecasting and display means consisting of one or multiple LCD-displays adapted for presenting current temperature, humidity, pressure, and the like.
[014] Preferably, the weather forecasting means includes means for enabling reception of weather related telemetry from a remote source such as a weather radio broadcast or weather-related telemetry sensed by a remote sensing unit that is enabled to send the weather related telemetry to the clock, and the clock is adapted to receive such telemetry.
BRIEF DESCRIPTION OF THE DRAWINGS
[015] A preferred form of the present invention will now be described by way of example with reference to the accompanying drawings, wherein:
Figure 1 is a schematic block diagram showing functional specifications of a radio controlled analogue display clock with digital projection of time;
Figure 2 is a schematic flowchart showing operation of the clock;
Figure 3 is a schematic illustration of an analogue time display with its hour, minute, and second-hands aligned at a 12 o'clock position;
Figure 4 is a schematic illustration showing an optical arrangement for determining alignment of the hour, minute, and second-hands;
Figure 5 is a graph showing minute and second counting pulses (positive terminal);
Figure 6 is a graph showing minute and second counting pulses (negative terminal); Figure 7 is a graph showing a zero signal;
Figure 8 is a graph showing a reflected zero signal at 12 o'clock;
Figure 9 is a schematic block diagram showing functional specifications of the clock;
Figure 10 is another schematic block diagram, and
Figure 1 1 is an illustration of one possible embodiment of the present invention.
DESCRIPTION OF A PREFERRED EMBODIMENT
[016] In Figure 1 of the accompanying drawings there is depicted schematically in block diagram form a general radio controlled analogue movement 10 comprising an antenna 1 1 and receiver 12. The receiver 12 transmits a radio-controlled signal 13 to a primary micro-control unit 14 after having received and enables signal 1 5. The primary micro-control unit transmits minute-counting pulses 1 6 and second-counting pulses 17 to a gearbox 18 and a secondary micro-control unit 19. The secondary micro- control unit 19 is an inexpensive, off-the-shelf item as produced by many manufacturers.
[017] The secondary micro-control unit 19 transmits signals to a digital time projector 20 for displaying the time on a bedroom ceiling or wall for example. There is a flip key 21 and a 12/24-hour key 22 associated with the secondary micro-control unit. [018] Associated with the primary micro-control unit 14 is a photo- coupler 23 to be described with reference to Figures 3 and 4. Suffice to say the time being that the photo coupler receives a zero signal from the primary micro-control unit and reflects that back to the primary micro- control unit and the secondary micro-control unit, only when the hour hand of the analogue display clock points to 12.
[019] In Figure 2 there is illustrated the logic steps associated with the electronics of the clock. At the beginning, a battery is installed into the clock. The primary micro-control unit resets the hour, minute, and second hands to 1 2 o'clock. The photo coupler produces a reflected zero signal to the primary micro-control unit. Concurrently, the secondary micro-control unit receives the zero signal and resets its display to "12:00".
[020] The analogue movement begins receiving radio signals from a remote transmitter via its antenna 1 1. If a radio signal is received, the analogue movement will transmit counting pulses to the gearbox 18. The hour, minute, and second hands will commence moving to display correct time. The secondary micro-control unit also receives counting pulses to calculate hours, minutes, and seconds to be displayed. The analogue movement and the digital display both show the correct time synchronously.
[021 ] After receiving the radio signal, the digital clock will align every 12 hours by using the zero signal from the analogue movement.
[022] The 1 2/24-hour key 22 can be used to change the digital projection time in either 12 or 24-hour format. If it is held for three seconds say, the digitally projected time will include an "AM" or "PM" display. [023] The "flip key" 21 can be used to turn the projected time through 180-degrees for convenience of projection.
[024] In Figure 3, there is shown an analogue mechanical clock face 30 having its hour, minute, and second hands aligned at 1 2 o'clock. The gears of the analogue display clock and associated hardware are shown in Figure 4. There is a light emitting diode 31 that receives a zero signal 24 from the primary micro-control unit. The LED 31 emits a beam of light through a slot 32 in an hour gear 33 only when the hour hand is at the 12 o'clock position. The beam of light then passes through a slot 34 in a minute gear 35, but only when the minute gear is at the 12 o'clock position. The second gear 36 has a reflective mirror 37 at the 12 o'clock position. When all three gears are at the 12 o'clock position, the beam of light emitted by the LED 31 is reflected back through the slots 32 and 33 to a phototransistor 37. The phototransistor, in turn, relays a reflected zero
signal 38 to the primary micro-control unit 14 and the secondary micro- control unit 19.
[025] Figures 5, 6, 7, and 8 show pulse signals applicable on the various conditions as described above. When the primary micro-control unit receives radio signals via it antenna, it will transmit a number of minute- counting and second-counting pulses to the gearbox. The number of minute-counting pulses = (3 x 60) + 1 5 = 195 minute counting pulses. The number of second-counting pulses = 0 (no second counting pulses) so the secondary micro-control unit will capture the correct number of minute and second-counting pulses to calculate what the time is and synchronized directly with the primary micro-control unit.
[026] Then, the secondary micro-control unit will be counting up for the seconds display passed to the gearbox, e.g. "03:15:01 ". However, the secondary micro-control unit calculates its own seconds. [027] Every 60 seconds the primary micro-control unit transmits minute- counting pulses to the gearbox for driving the minute step-motor. The secondary micro-control unit can then use the minute counting pulses to check and synchronize the projected digital time with that of the primary micro-control unit. [028] The flowcharts of Figures 9 and 10 will not be described in detail. Suffice to say that the secondary micro-control unit captures reflected zero signals, minute-counting pulses, and second-counting pulses as described. The reflected zero-signal is used to reset all counters and register to 12:00:00. The minute-counting pulses are utilized to calculate the minutes and hours. The second-counting pulses are utilized to count the seconds only.
[029] In one embodiment, as illustrated in Figure 1 1 , a clock 40 includes a primary housing 42 with a mechanical, analogue clock face 30 and a LCD-
display panel 44. The LCD panel 44 may include separating divisions for ease of displaying data or, alternatively several separate LCD panels could be arranged to display separate data components.
[030] Adjacent to the primary housing 42 is a secondary housing 46, which rotatably positions relative to the first housing. The secondary housing encapsulates the display-related components to project digital time on a remote surface, such as a bedroom wall or ceiling.
[031 ] The clock includes various switches, knobs, and buttons adapted to control various functions of the clock including an alarm-clock function, snooze, time-set, focus, volume, 12/24-hour selection, and other related functions as would easily be understood by those skilled in this art. In addition, controlling the single LCD panel 44 (or multiple panels with the same functionality) is a second set of control switches, button, knobs, or the like. These control switches enable a user to display weather-related telemetry, such as indoor temperature, outdoor temperature, relative humidity, and barometric pressure in a real-time (or nearly real-time) mode. Predictive information, such as a weather forecast, is also displayed in graphical or alphanumeric arrangements. The clock, therefore, includes means for calculating weather forecasts from the weather telemetry. [032] Internal to the clock, not depicted in Figure 1 1 , are one or more antennas, which are adapted to receive radio signals from remote transmitters including a time-based radio frequency signal and a second frequency transmitting weather-related telemetry.
[033] Weather-related telemetry is collected by sensors located in a remote sending unit 50 and is transmitted to the clock 40 via a radio frequency. Suitable remote sending units include a model TS02 available from Hideki Electronics, Inc. of Tualatin, Oregon, USA. in this example, temperature data, humidity data, and barometric pressure data are
collected by the sending unit and transmitted at 433.33 MHz to the clock 40. The clock stores this data and utilizes it to forecast future weather and routes the data in a displayable format to the LCD panel 44 based on user-inputted command options.
[034] The clock 40 further includes secondary means for receiving time- data from a remote sending unit, such as the U.S. atomic clock, which transmits time data on a second frequency of 60 kHz, as is generally understood in the art.
Claims
1 . A radio controlled clock comprising: a primary micro-control unit receiving radio signals, a mechanical analogue time display controlled by the primary micro- control unit to display time, a secondary micro-control unit receiving pulse signals from the primary micro-control unit, and a digital time display controlled by the secondary micro-control unit to display time.
2. The clock of Claim 1 further comprising a light emitter and photo- coupler associated with the mechanical analogue time display and the primary micro control unit to transmit a zero signal to the secondary micro-control unit at 12 o'clock.
3. The clock of Claim 2 further comprising a gearbox associated with the mechanical analogue time display and the primary micro-control unit, the gearbox adapted to transmit minute counting pulses to the secondary micro-control unit.
4. The clock of Claim 3 wherein the gearbox is further adapted to transmit second counting pulses to the secondary micro-control unit.
5. The clock of Claim 2 wherein the light emitter comprises an LED and the photo-coupler comprises a phototransistor adapted to receive light of the LED reflected from a minute hand of the mechanical analogue time display at a 12 o'clock position.
6. The clock of Claim 2 wherein the mechanical analogue time display further comprises coaxial hour, minute, and second gears wherein the hour and minute gears each comprise a slot at a 1 2 o'clock position and the second gear comprises a reflective mirror at a 12 o'clock position and wherein the slots and the reflective mirror are aligned with the light emitter and photo transistor at 1 2 o'clock.
7. The clock of Claim 1 wherein the digital time-display is projected onto a remote surface.
8. A dual display clock comprising: a primary micro-control unit controlling a mechanical analogue time display, a secondary micro-control unit receiving pulse signal from the primary micro control unit, the secondary micro-control unit controlling a digital time display, and a projection means for projecting the digital time display on a remote surface.
9. The dual display clock of claim 8 wherein the primary micro-control unit further comprises a means for receiving radio signals from a remote transmitter.
10.The clock of Claim 8 further comprising a light emitter and photo- coupler associated with the mechanical analogue time display and the primary micro control unit to transmit a zero signal to the secondary micro-control unit at 12 o'clock.
1 1.The clock of Claim 8 further comprising a gearbox associated with the mechanical analogue time display and the primary micro-control unit, the gearbox adapted to transmit minute counting pulses to the secondary micro-control unit.
1 2.The clock of Claim 1 1 wherein the gearbox is further adapted to transmit second counting pulses to the secondary micro-control unit.
1 3. The clock of Claim 10 wherein the light emitter comprises an LED and the photo-coupler comprises a phototransistor adapted to receive light of the LED reflected from a minute hand of the mechanical analogue time display at a 12 o'clock position.
14.The clock of Claim 10 wherein the mechanical analogue time display further comprises coaxial hour, minute, and second gears wherein the hour and minute gears each comprise a slot at a 12 o'clock position and the second gear comprises a reflective mirror at a 12 o'clock position and wherein the slots and the reflective mirror are aligned with the light emitter and photo transistor at 12 o'clock.
1 5. A dual display clock comprising: a primary micro-control unit controlling a mechanical analogue time display, the primary micro-control unit further comprising a means for receiving radio signals from a remote transmitter wherein the radio signals received comprises weather-related telemetry, a secondary micro-control unit receiving pulse signal from the primary micro control unit, the secondary micro-control unit controlling a digital time display, and a projection means for projecting the digital time display on a remote surface.
1 6. The clock of claim 1 5 wherein the primary micro-control unit comprises a first receiving means for enabling reception of radio signals comprising an analogue time signal frequency and a second receiving means for enabling reception of weather-related telemetry from a remote transmitting unit.
1 7. The clock of claim 1 6 further comprising a display means for displaying selected weather-related telemetry received from the remote transmitting unit.
18. The clock of claim 1 5 further comprising an LCD display adapted to display weather-related telemetry.
19. The clock of claim 1 5 wherein the primary micro-control unit is adapted to receive and interpret weather-related telemetry from a remote unit, the telemetry comprising any combination of temperature, humidity, and barometric pressure.
20. The clock of claim 1 5 wherein the primary micro-control unit further comprises means for storing weather-related telemetry and means for utilizing weather-related telemetry to calculate weather forecasts based on a historical weather-related telemetry data set.
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PCT/US2005/022445 WO2007001292A1 (en) | 2005-06-24 | 2005-06-24 | Radio-controlled clock with remote digital time projection |
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PCT/US2005/022445 WO2007001292A1 (en) | 2005-06-24 | 2005-06-24 | Radio-controlled clock with remote digital time projection |
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US4253173A (en) * | 1979-10-15 | 1981-02-24 | Societe Suisse Pour L'industrie Horlogere Management Services S.A. | Dual display synchronization system for a timepiece |
EP0036946A1 (en) * | 1980-03-22 | 1981-10-07 | ESGE Elektrouhren GmbH | Electronic digital clock |
GB2082805A (en) * | 1980-08-25 | 1982-03-10 | Daini Seikasha Kk | Improvements in or relating to electronic timepieces |
US4697931A (en) * | 1985-10-28 | 1987-10-06 | Casio Computer Co., Ltd. | Electronic timepiece including slidable digital display sections |
EP0693718B1 (en) * | 1994-07-21 | 1999-01-20 | Centre Electronique Horloger S.A. | Watch with a display device associated with an optical magnifying device |
US6343050B1 (en) * | 2000-04-06 | 2002-01-29 | Moneray International Ltd. | Analog clock driven by radio signals with automatic resetting means |
US20030206494A1 (en) * | 2001-05-16 | 2003-11-06 | Haupt Rolf Wilhelm | Projection alarm clock |
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2005
- 2005-06-24 WO PCT/US2005/022445 patent/WO2007001292A1/en active Application Filing
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Publication number | Priority date | Publication date | Assignee | Title |
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US4253173A (en) * | 1979-10-15 | 1981-02-24 | Societe Suisse Pour L'industrie Horlogere Management Services S.A. | Dual display synchronization system for a timepiece |
EP0036946A1 (en) * | 1980-03-22 | 1981-10-07 | ESGE Elektrouhren GmbH | Electronic digital clock |
GB2082805A (en) * | 1980-08-25 | 1982-03-10 | Daini Seikasha Kk | Improvements in or relating to electronic timepieces |
US4697931A (en) * | 1985-10-28 | 1987-10-06 | Casio Computer Co., Ltd. | Electronic timepiece including slidable digital display sections |
EP0693718B1 (en) * | 1994-07-21 | 1999-01-20 | Centre Electronique Horloger S.A. | Watch with a display device associated with an optical magnifying device |
US6343050B1 (en) * | 2000-04-06 | 2002-01-29 | Moneray International Ltd. | Analog clock driven by radio signals with automatic resetting means |
US20030206494A1 (en) * | 2001-05-16 | 2003-11-06 | Haupt Rolf Wilhelm | Projection alarm clock |
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