WO2011084872A1 - Charging station for electronic devices - Google Patents
Charging station for electronic devices Download PDFInfo
- Publication number
- WO2011084872A1 WO2011084872A1 PCT/US2010/062627 US2010062627W WO2011084872A1 WO 2011084872 A1 WO2011084872 A1 WO 2011084872A1 US 2010062627 W US2010062627 W US 2010062627W WO 2011084872 A1 WO2011084872 A1 WO 2011084872A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- charging station
- electrical power
- electronic devices
- switch
- portable electronic
- Prior art date
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Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/50—Machine control of apparatus for electrographic processes using a charge pattern, e.g. regulating differents parts of the machine, multimode copiers, microprocessor control
- G03G15/5004—Power supply control, e.g. power-saving mode, automatic power turn-off
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0042—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0042—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction
- H02J7/0044—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction specially adapted for holding portable devices containing batteries
Definitions
- This invention relates generally to charging stations for charging and protecting portable electronic devices.
- rechargeable batteries have found wide utility in powering contemporary consumer and business products.
- nickel cadmium batteries may be used to energize portable electronic devices and then repeatedly recharged and reused.
- Rechargeable batteries can be recharged by plugging an AC (alternating current) powered charger unit into the portable electronic device and into an AC power wall receptacle.
- the AC-powered charger unit typically converts 110 or 120 volt AC current from an outlet to low voltage DC power used to recharge the batteries.
- portable electronic devices can include a universal serial bus (USB) connector, which plugs into a USB connector to charge the portable electronic device.
- USB universal serial bus
- the number of electronic devices that need to be recharged can quickly become both unsightly and unwieldy.
- the increase in the number of portable electronic devices has lead to the introduction of charging stations that provide a mechanism for charging rechargeable batteries.
- Such charging stations are convenient and useful, but are inadequate in that they only recharge certain types of devices, are difficult to use, do not incorporate a surge protector and are not multi-functional.
- these battery charging stations cannot be used to recharge the batteries of electronic device that are charged through USB connector.
- charging stations and portable electronic devices can continue to consume electrical power even when switched off. Over an extended period of time, nominally off electronic devices can consume a significant amount of electrical power and substantially raise the electrical bill of the user. For example, portable electronic devices coupled to a charging station can continue to consume electrical power even after all of the portable electronic devices are fully charged and, thus, increase the electrical bill of the user.
- a person might forget to turn-off an electronic device when he is finished using the electronic device. For example, a person may forget to turn the charging station off after he has uncoupled the portable electronic devices from the charging station, and, consequently, the charging station continues to draw electrical power even though the charging station is idle.
- a charging system that provides a mechanism for charging a variety of devices, increases the number of devices that can be charged at the same time and also holds other objects that do not need to be charged, such as a wallet or keys.
- embodiments provide a charging station that overcomes the detriments of the prior art.
- the charging station can include a top removable tray for holding electronic devices, such as telephones, pagers, personal digital assistants (PDAs), wireless e-mail devices, digital cameras, mp3 players.
- the tray can also hold and the charging station can also power charging stations that are separate from the portable electronic devices.
- the tray of the multi-component charging station is substantially flat to receive and hold a variety of objects.
- the tray portion of the battery charging station has a raised perimeter wall to prevent objects placed on the tray from falling off.
- the charging station also includes a base that houses a surge protector having multiple AC outlets.
- the surge protector within the base can power multiple charger units at once and protect the units from surges or spikes in power.
- the base can be covered by a removable base cover.
- the base cover is particularly useful when the tray and base are positioned separately. For example, the tray holding the portable electronic devices and other small objects can be placed on a table, while the base is placed on the floor. Then, the base cover can be placed on top of the base to conceal the surge protector, outlets, and the charger units.
- the charging station contains an opening that leads to the interior space of the base.
- the opening can be located in the base cover, in the tray or in the base part.
- the opening permits at least one portable electronic device to be connected to its associated charger unit plugged into the surge protector within the interior space.
- a second opening is located within the charging station to permit the surge protector to be plugged into an external outlet.
- the opening located within the charging station is fitted with a grommet.
- the grommet has multiple openings that permit the cord from each charger unit to connect to its associated electronic device through one of the openings in the grommet and the opening in the charging station to the electronic device located on the tray.
- the perimeter wall of the tray contains at least one indentation extending from the interior surface of the perimeter wall to the outer surface of the perimeter wall.
- the perimeter wall of the tray contains at least one indentation extending from the interior surface of the perimeter wall to an opening in the perimeter wall that leads to the surge protector and outlet within the interior space.
- the charging station is integrated as a universal serial bus (USB) hub.
- USB universal serial bus
- the charging station is integrated with a circuit breaker switch. In another embodiment, the charging station is integrated with at least one additional outlet.
- the charging station can include: (a) at least one switch configured to turn-on and turn-off the charging station such that the charging station is not drawing any of the electrical power when the charging station is turned-off; (b) one or more output ports configured to supply the electrical power to the one or more portable electronic devices when the one or more portable electronic devices are electrically coupled to the one or more output ports and the charging station is turned-on; (c) one or more sensors electrically coupled to the one or more output ports and configured to detect whether the electrical power is being drawn by the one or more portable electronic devices through the one or more output ports; and (e) a controller configured to turn-off the charging station using the at least one switch when the one or more sensors detect that the electrical power is not being drawn by the one or more portable electronic devices through the one or more output ports.
- a charge valet configured to charge two or more portable electronic devices.
- the charge valet can include: (a) an input power coupling configured to receive alternating current electrical power from one or more external electrical power sources; (b) one or more switches electrically coupled to the input power coupling such that the charge valet is not pulling any of the alternating current electrical power from the one or more external electrical power sources when the one or more switches is turned-off; (c) an electrical power converter electrically coupled to the one or more switches and configured to convert the alternating current electrical power to direct current electrical power; (d) one or more output power couplings electrically coupled to the electrical power converter and configured to provide the direct current electrical power to the two or more portable electronic devices; (e) one or more sensor units electrically coupled to the electrical power converter and the one or more output power couplings and configured to detect an electrical status of the one or more output power couplings; and (f) microprocessor electrically coupled to the one or more sensor units and the at least one of the one or more switches and configured to turn off at least one of
- Additional embodiments disclose a method of providing electrical power to one or more portable electronic devices using a charging station when the one or more portable electronic devices are electrically coupled to one or more output ports of the charging station.
- the method can include one or more of: turning-on one or more switches to begin providing the electrical power to the one or more output ports of the charging station; starting a timer to track a charging time; determining a connectivity status of the one or more output ports of the charging station; if the charging time is equal to or greater than a first predetermined amount of time, turning-off the at least one of the one or more switches such that the charging station is not using any electrical power; determining a change in the connectivity status of the one or more output ports of the charging station; if the change in the connectivity status of the one or more output ports of the charging station is that a new electronic device of the one or more portable electronic devices has been coupled to one of the one or more output ports of the charging station, resetting the charging time; and if the change in the connectivity status of the one or more output ports of the
- FIG. 1 is an illustration of a charging station positioned on a table according to a first embodiment
- FIG. 2 is an illustration of a base of the charging station according to the first embodiment
- FIG. 3 is an illustration of the base and a base cover of the charging station according to the first embodiment
- FIG. 4 is an illustration of a charging station with an external outlet according to a second embodiment
- FIG. 5 is an illustration of a tray of a charging station, according to a third embodiment
- FIG. 6 is an illustration of a base and a tray of a charging station, according to a fourth embodiment
- FIG. 7 illustrates a top, back, right isometric view of a charging station, according to a fifth embodiment
- FIG. 8 illustrates a back view of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 9 illustrates a front view of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 10 illustrates a left view of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 11 illustrates a right view of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 12 illustrates an example of a block diagram of the circuitry of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 13 illustrates an example of a first portion of the circuitry of the charging station of FIG. 7, according to the fifth embodiment
- FIG. 14 illustrates an example of a second portion of the circuitry of the charging station of FIG. 7, according to the fifth embodiment.
- FIG. 15 illustrates a flow chart for an embodiment of a method of providing electrical power to one or more electronic devices using a charging station when the one or more electronic devices are electrically coupled to one or more output ports of the charging station, according to an embodiment.
- Couple should be broadly understood and refer to connecting two or more elements or signals, electrically, mechanically and/or otherwise.
- Two or more electrical elements may be electrically coupled but not be mechanically or otherwise coupled; two or more mechanical elements may be mechanically coupled, but not be electrically or otherwise coupled; two or more electrical elements may be mechanically coupled, but not be electrically or otherwise coupled.
- Coupling may be for any length of time, e.g., permanent or semi-permanent or only for an instant.
- Electrode coupling and the like should be broadly understood and include coupling involving any electrical signal, whether a power signal, a data signal, and/or other types or combinations of electrical signals.
- Mechanical coupling and the like should be broadly understood and include mechanical coupling of all types.
- the multi-component charging station can allow a plurality of rechargeable portable electronic devices to be connected to AC-powered charger units for recharging either individually or simultaneously by placing the electronic devices on the tray of the multi-component charging station.
- the charger unit cord for each portable electronic device is then fed through at least one opening within the charging station from an AC outlet protected by a surge protector within the interior space of the charging station to the associated portable electronic device.
- portable electronic devices include, but are not limited to mobile phones, personal digital assistants (PDAs), digital cameras, "Moving Pictures Experts Group-1 (MPEG-1) Audio Layer3" (mp3) players, CD players, cassette players, pagers, walkie talkies, gaming systems, and other rechargeable electronic devices.
- embodiments of the present invention allow multiple electronic devices to be recharged or stored simultaneously and virtually any type of portable electronic device can be recharged. Further, embodiments of the charging station allow for the storage of other small objects that do not need to be recharged, such a wallet or keys.
- FIG. 1 is a top view of a charging station 100 according to a first embodiment.
- Charging station 100 can be positioned on top of a surface 110, such as a table.
- charging station 100 has multi- components.
- the tray 130 is placed on top of the base 140.
- a base cover 190 can also be placed between the tray 130 and the base 140.
- the tray 130 is capable of storing portable electronic devices, including, for example, a mobile telephone 150 and an mp3 player 160.
- the tray 130 has a raised perimeter wall 170 that prevents objects that are positioned on the tray 130 from falling off.
- FIG. 2 is an illustration of the base 140 of the charging station 100, according to the first embodiment.
- the base 140 houses a surge protector 180 which is powered by AC power provided from a 110 or 120 volt outlet 182 through a power cord 183.
- the surge protector 180 can provide power through multiple outlets 182 in the base.
- Each outlet 182 is capable of receiving a charger unit 184.
- the charging station 100 can charge multiple devices at once and protects the devices from surges or spikes in power.
- the outlets 182 are sufficiently spaced apart to accept AC adaptor blocks.
- the outlets 182 are repositionable via a short pigtail cord to accept AC adaptor blocks.
- FIG. 3 is an illustration of the base 140 and base cover 190, according to the first embodiment. As illustrated in FIG. 3, a base cover can be placed on top of the base to enclose an interior space 200 and conceal the surge protector 180.
- FIG. 4 is an illustration of the charging station 100, according to a second embodiment.
- the tray 130 and preferably the perimeter wall 170 of the tray 130 has a first opening 185.
- the first opening 185 permits the charger cord for at least one portable electronic device, for example, as illustrated in FIG. 4, the mobile phone charger cord 210 and mp3 charger cord 220 to be fed through the first opening 185 from the interior space 200 within the base 140 where the charger unit 184 is connected to the surge protector 180.
- the second opening 230 allows charger cords, for example, the mobile phone charger cord 210 and mp3 charger cord 220, to be fed through the second opening from the interior space 200 within the base 140 where the charger units 184 are connected to the surge protector 180.
- charger cords for example, the mobile phone charger cord 210 and mp3 charger cord 220
- a grommet 240 can be inserted into the first opening 185.
- the grommet 240 can be used to provide support for the charger cords, for example, the mobile phone charger cord 210 and mp3 charger cord 220 illustrated in FIG. 4, so that the mobile phone charger cord 210 and mp3 charger cord 220 can easily fit through the first opening 185.
- the grommet 240 can also serve as a decorative feature.
- the grommet 240 can have multiple openings. Each opening can serve to permit access of one charger cord from the interior space 200 within the base 140 to the tray.
- a second grommet can also be utilized for the second opening 230 within the base cover 190. Such a second grommet is particularly useful if the base cover 190 is being utilized and will not be covered by the tray 130.
- FIG. 5 and FIG. 6 are illustrations of the tray 130 of an unassembled charging station 100, according to the third and fourth embodiments, respectively.
- the tray 130 portion of the charging station 100 can be used separately from the remainder of the charging station 100, specifically the base 140 and if desired, the base cover 190.
- the tray 130 holding at least one portable electronic device, as illustrated in FIG. 5, the mobile telephone 150 and mp3 player 160 can be placed on a surface 110, such as a table, while the base 140, as illustrated in FIG. 2, is positioned on a second surface 250, such as the floor. If the charging station 100 is used in this manner, the charger cords, as illustrated in FIG.
- the base cover 190 can be particularly useful when the tray 130 and base 140 are located on separate surfaces.
- the base cover 190 can be used on top of the base 140 to hide the surge protector 180 and charger units 184.
- the base cover 190 can be affixed to the base 140 using a closure mechanism, including but not limited to resilient interference means or a locking mechanism.
- the tray 130 can be affixed to the base 140 or base cover 190 using a closure mechanism, including but not limited to resilient interference means or a locking mechanism.
- the perimeter wall 170 of the tray contains at least one indentation that runs from the inner surface of the perimeter wall 170 to the outer surface of the perimeter wall 170.
- the charger cord from the electronic device can be placed within the indentation.
- the perimeter wall 170 contains at least one indentation that runs from the inner surface of the perimeter wall 170 to an opening in the perimeter wall 170.
- the charger cord from the electronic device can extend from the interior space in the base 140, to the opening, along the indentation to the top of the tray 130.
- the charging station 100 can be integrated with additional features such as with a USB hub, a circuit breaker switch 260 (FIG. 4), and/or at least one additional outlet 270 (FIG. 4) accessible from the exterior of the base to permit other electronic devices to be powered.
- additional features such as with a USB hub, a circuit breaker switch 260 (FIG. 4), and/or at least one additional outlet 270 (FIG. 4) accessible from the exterior of the base to permit other electronic devices to be powered.
- Charging station 100 eliminates the need for multiple charging stations or modules.
- the charging station 100 and other embodiments described herein can provide a distinct advantage over prior art systems because it is designed to be used with a plurality of portable electronic devices or battery charging units and is not limited to being used with a specific electronic device or battery charging units. Because of the structure of the charging station 100 (and other embodiments described herein) and particularly the tray 130, a plurality of portable electronic devices, regardless of size or shape, can be simultaneously or individually, stored and recharged.
- the present embodiment provides a charging station for receiving a portable electronic device and a charger unit for charging a portable electronic device.
- the charging station comprises a base, a generally planar base cover, and a tray.
- the base comprises a generally planar bottom surface bounded by a perimeter wall.
- the base cover is removably attached to the upper portion of the perimeter wall of the base to enclose an interior space for housing a surge protector and a charger unit powered by the surge protector.
- the base cover also has an opening to permit a charger cord extending from a charger unit located within the interior space to pass through the base cover.
- the tray comprises a generally planar surface for receiving at least one portable electronic device.
- the tray is configured for removable attachment to the upper surface of the base cover.
- the tray also has an opening to permit a charger cord to pass through the tray.
- a surge protector is located within the interior space comprising outlets for providing regulated power to a charger unit for charging a portable electronic device.
- FIG. 7 illustrates a top, back, right isometric view of a charging station 700, according to a fifth embodiment.
- FIG. 8 illustrates a back view of charging station 700, according to the fifth embodiment.
- FIG. 9 illustrates a front view of charging station 700, according to the fifth embodiment.
- FIG. 10 illustrates a left view of charging station 700, according to the fifth embodiment.
- FIG. 11 illustrates a right view of charging station 700, according to the fifth embodiment.
- FIG. 12 illustrates an example of a block diagram of the circuitry of charging station 700, according to the fifth embodiment.
- FIG. 13 illustrates an example of a first portion of the circuitry of charging station 700, according to the fifth embodiment.
- charging station 700 illustrates an example of a second portion of the circuitry of charging station 700, according to the fifth embodiment. Similar to the previous embodiments of a charging station, charging station 700 is merely exemplary and is not limited to the embodiments presented herein. Charging station 700 can be employed in many different embodiments or examples not specifically depicted or described herein.
- charging valet or charging station 700 can be configured to charge or provide electrical power to one or more portable electronic devices.
- Charging station 700 can include: (a) a base 711; (b) a tray 712; (c) a coupling region 813 (FIG. 8); and (d) circuitry 1220 (FIGs. 12, 13, and 14).
- base 711, tray 712, and/or coupling region 813 can be made from plastic (e.g., acrylonitrile butadiene styrene).
- circuitry 1220 in FIG. 12 can include: (a) an input power coupling or input connector 714 (FIGs. 7 and 12); (b) an electrical power converter or internal power supply 1221; (c) one or more switches 722 and 1223 (FIGs. 7 and 12); (d) one or more output ports 824, 825, 826, and 827 (FIGs. 8 and 12); (e) one or more sensor units or sensors 1228, 1229, 1230, and 1231 (FIG. 12); (f) a controller 1232; (g) a timer 1233; and (h) a display 734.
- tray 712 is coupled to base 711 by coupling region 813, as shown in FIGs. 8-11.
- Base 711 can be configured to be positioned or rest on a surface 110 (FIG. 10), such as a table or desk.
- input connector 714 and output ports 824, 825, 826, and 827 can be located at base 711.
- input connector 714 and output ports 824, 825, 826, and 827 can be located at tray 712 and/ or coupling region 813.
- at least a portion of circuitry 1220 is located in a cavity of coupling region 813. In the same or different embodiments, at least a portion of circuitry 1220 is located inside base 711 and/ or tray 712.
- tray 712 can be designed to store portable electronic devices, including, for example, mobile telephone 750 and mp3 player 160.
- Tray 712 can include a generally planar surface 715 for receiving the one or more portable electronic devices (e.g., mobile telephone 750 and mp3 player 160).
- tray 712 can have a raised perimeter wall 716 that prevents objects that are positioned on tray 712 from falling off.
- tray 712 is coupled to coupling region 813 such that tray 712 forms an angle 1017 (FIG. 10) with surface 110 (FIG. 10).
- angle 1017 allows easier viewing of the portable electronic device positioned on tray 712.
- Angle 1017 is small enough such that the electronic devices are not pulled off of tray 712 by gravity.
- angle 1017 can be approximately equal to twenty degrees or can be between ten and thirty degrees.
- Coupling region 813 can include exterior surface 818 (FIG. 8) and a cavity (not shown).
- a length and a width of coupling region 813 can be smaller than the lengths and the widths of base 711 and tray 712.
- the length and the width of coupling region 813 can be approximately half the length and the width, respectively, of tray 712.
- the length and the width of coupling region 813 can be sixty percent of the length and the width, respectively, of base 711.
- coupling region 813 can be configured such that one or more charger cords (e.g., charger cords 751 and 761) can be wrapped around exterior surface 818.
- the wrapping of the charger cords around coupling region 813 provides a convenient place to store excess charger cord when an electronic device is coupled to charging station 700 using the charger cord.
- base 711 can include a lip 731 that extends from an outer edge of a bottom surface 832 (FIG. 8) of base 711 towards tray 712. In some examples, lip 731 can at least partially hide from view the portion of the charger cord wrapped around coupling region 813. In some embodiments, base 711 can also include one or more grommets 941, 942, 943, 1044, and 1145 in Up 731, as shown in FIGs. 9-11. Grommets 941, 942, 943, 1044, and 1145 can be configured to hold a portion of the charger cords of electronic devices coupled to charging station 700.
- one or more second portions of charge cord 751 can be placed in one or more of grommets 941, 942, 943, 1044 and 1145.
- placing the second portion of a charger cord in one or more of grommets 941, 942, 943, 1044 and 1145 keeps the first portion of the charger cord wrapped around coupling region 813.
- Input connector 714 can be configured to receive electrical power from one or more external power sources.
- input connector 714 can be configured to receive alternating current (AC) electrical power from one or more external electrical power sources.
- input connector 714 can be similar or identical to power cord 183 (FIGs. 2, 4, and 6), and the external power source can be similar or identical to 110 or 120 volt AC outlet 182 (FIGs. 2, 4, and 6).
- input connector 714 can include a cable coupled to circuitry 1220 at one end and having an IEC (International Electro technical Commission) C7 connector at the other end of the cable.
- IEC International Electro technical Commission
- input connector 714 can receive direct current (DC) electrical power.
- input connector 714 can be a cigarette lighter adapter that is configured to receive DC electrical power from a cigarette lighter of a vehicle.
- the amount of electrical power drawn in by input connector 714 and output by output ports 824, 825, 826, and 827 can vary depending on, among other things, the status of the one or more portable electronic devices, as explained below.
- input connector 714 can be electrically coupled to one or more switches 722 and 1223 (FIGs. 7 and 12).
- Switch 722 can be electrically coupled in parallel with switch 1223.
- switches 722 and 1223 can be further electrically coupled to an input of internal power supply 1221.
- Switch 1223 can also be coupled to controller 1232 through transistor 1235.
- Switch 722 and/or 1223 can be rated for 150 or 250 volts alternating current.
- Switches 722 and 1223 can be configured to turn-on and turn-off charging station 700 such that charging station 700 (including switches 722 and 1223) is not drawing any electrical power when charging station 700 is turned-off. That is, switches 722 and 1223 can be electrically coupled to input connector 714 such that charging station 700 is not pulling any AC electrical power from the external electrical power sources when switches 722 and 1223 are turned-off.
- Switch 722 can be a physical switch used by a person to turn-on charging station 700.
- Switch 1223 can be used by controller 1232 to turn-on and turn-off charging station 700.
- switch 722 can be a non-latching switch (e.g., a micro switch, a snap-action switch, or a push switch). That is, switch 722 allows electricity to flow between its two contacts only when the contacts are held together by a user. When the non-latching switch is released by the user, the contacts are no longer in contact and the switch is turned-off.
- a non-latching switch e.g., a micro switch, a snap-action switch, or a push switch. That is, switch 722 allows electricity to flow between its two contacts only when the contacts are held together by a user. When the non-latching switch is released by the user, the contacts are no longer in contact and the switch is turned-off.
- Switch 1223 can be a latching switch.
- a latching switch is a switch that maintains its state (i.e., it remains turned-on or turned-off) after being activated.
- switch 1223 can be a relay that uses an electromagnet to pull the switch closed when electrical power is applied to the relay. When the relay stops receiving electrical power (i.e., it receives instructions to turn-off), the relay can return to its default open position.
- other types of latching switch can be used for switch 1223.
- switch 722 When switch 722 is a non-latching switch and switch 1223 is a latching switch, a user can push switch 722 to turn-on charging station 700. While the user is holding down switch 722, electrical power flows through switch 722 into the rest of circuitry 1220 including internal power supply 1221. Internal power supply 1221 initiates controller 1232 and controller 1232 turns on switch 1223. When the user releases switch 722, switch 722 is opened, but electricity continues to flow through switch 1223 to the rest of circuitry 1220.
- controller 1232 When controller 1232 detects a predetermined condition to turn-off charging station 700 (i.e., a predetermined time period has passed or no electronic devices are coupled to output ports 824, 825, 826, or 827), controller 1232 opens switch 1223, and electrical power does not flow to the rest of circuitry 1220. In many embodiments, switches 722 and 1223 draw no electrical power when they are open. Accordingly, charging station 700 does not draw any electrical power when turned-off.
- charging station 700 can include a single switch. In still further examples, charging station 700 can include three or more switches. For example, a charging station can include a combination of switches that allows the user to turn-off charging station 700 using a switch. In the example shown in FIG. 12, a user can turn- on charging station 700 using switch 722, but can only turn-off charging station 700 by uncoupling all electronic devices from charging station 700 or disconnecting input connector 714 from the external power source.
- Internal power supply 1221 can be configured to convert AC electrical power received from input connector 714 into DC electrical power.
- internal power supply 1221 can be electrically coupled to and provide DC power to output ports 824, 825, 826, and 827.
- internal power supply 1221 can provide electrical power at five volts to each of output ports 824, 825, 826, and 827.
- internal power supply 1221 is electrically coupled to one or more output ports 824, 825, 826, and 827 through sensors 1228, 1229, 1230, and 1231, respectively.
- Internal power supply 1221 can also provide DC electrical power to switch 1223, controller 1232, display 734, and sensors 1228, 1229, 1230, and 1231.
- internal power supply 1221 can convert DC electrical power to AC electrical power.
- the charging station does not include an internal power supply.
- Output ports 824, 825, 826, and 827 are configured to supply electrical power (e.g., DC electrical power) to one or more portable electronic devices when the electronic devices are electrically coupled to the one or more output ports and charging station 700 is turned-on.
- electrical power e.g., DC electrical power
- output ports 824, 825, 826, and 827 can supply 500 milliamperes of current at five volts.
- output ports 824, 825, 826, and 827 are universal serial bus ports. In other examples, output ports 824, 825, 826, and 827 are two-prong or three-prong electrical AC power outlets. In still other examples, output ports 824, 825, 826, and 827 can be another type of electrical power connector and/ or a combination of different types of electrical power connectors. In various embodiments, charging station 700 can also include a surge protector.
- Sensors 1228, 1229, 1230, and 1231 can be configured to detect whether electrical power is being drawn by portable electronic devices electrically coupled to output ports 824, 825, 826, and 827, respectively. That is, sensors 1228, 1229, 1230, and 1231 are electrically coupled to controller 1232 and output ports 824, 825, 826, and 827 such that sensors 1228, 1229, 1230, and 1231 can detect the electrical status of output ports 824, 825, 826, and 827, respectively.
- each of the one or more sensors 1228, 1229, 1230, and 1231 can be configured to detect the following electrical statuses: (a) no-power drawings status; (b) an active-power drawing status; and/ or (c) no-device connected status.
- the electronic device coupled to the output port is not drawing any electrical power from charging station 700.
- the active- power drawings status the electronic device coupled to the output port is drawing electrical power from charging station 700.
- no electronic device is electrically coupled to the output port.
- Sensors 1228, 1229, 1230, and 1231 can communicate the status of each of the output ports to controller 1232.
- sensors 1228, 1229, 1230, and 1231 measure whether the electrical current being drawn by an output port is above or below a predetermined threshold. If the electrical power being drawn by an electronic device is below the predetermined threshold, the electrical status of the output port is considered to be in a no-power drawing or no-device connected status. If the electrical power being drawn by an electronic device is above the predetermined threshold, the output is considered to be in an active-power drawing status.
- each of sensors 1228, 1229, 1230, and 1231 measure the actual current being drawn by an output port. In these examples, the current measurement is provided to controller 1232 and microcontroller can determine the status of each port.
- sensors 1228, 1229, 1230, and 1231 are configured to detect when a new electronic device is coupled to one of output ports 824, 825, 826, and 827, respectively. That is, sensors 1228, 1229, 1230, and 1231 can detect when an output port transfers from a no-device connected state to an active-power drawing state.
- each of the one or more sensors can include: (a) a sensing resistor; and (b) n operational amplifier electrically coupled to the sensing resistor.
- Controller 1232 can be configured to instruct switch 1223 to turn-off charging station 700 using switch 1223 when sensors 1228, 1229, 1230, and 1231 detects that no electrical power is being drawn by the one or more portable electronic devices.
- Controller 1232 can include a microprocessor electrically coupled to sensors 1228, 1229, 1230, and 1231 and switch 1223 such that the microprocessor turns on or turns off switch 1223 based on the electrical status of the one or more output power couplings.
- controller 1232 can be an 8-bit microcontroller manufactured by Elan Microelectronics Corporation with a part number of EM78P124N.
- controller 1232 can include timer 1233. In other examples, timer 1233 is separate from controller 1232 or is not part of circuitry 1220. In some examples, timer 1233 can be configured to track a charging time that the one or more electronic devices are drawing electrical power from charging station 700. In various embodiments, controller 1232 is configured to turn-off output ports 824, 825, 826, and 827 after timer 1233 tracks that the one or more electronic devices have been drawing electrical power for at least a predetermined period of time. For example, the predetermined period of time can be one to four hours. In various embodiments, timer 1233 can track the charging time by counting down from the predetermined period of time to zero. In other examples, timer 1233 can track the charging time by counting up from zero.
- timer 1233 can be configured to reset the charging time when at least one of sensors 1228, 1229, 1230, and 1231 detects that a new electronic device has been coupled to one of output ports 824, 825, 826, and 827.
- timer 1233 is configured to count up to the predetermined amount of time, the timer can be reset to zero.
- timer 1233 is configured to count down from the predetermined amount of time, the timer can be reset to the predetermined amount of time.
- Charging station 700 and method 1500 conserve electrical power by not providing electrical power to already fully-charged electronic devices. Most electronic device can be fully-charged in a short period of time. If the charging station stops providing electrical power to the electronic devices after the short time it takes to charge most electronic devices, the electronic devices can be fully charged and electrical power can also be conserved.
- controller 1232 can turn-off charging station 700, a predetermined time period after the last electronic device was coupled to one of the output ports to conserve electrical power and to avoid charging fully-charged electronic devices.
- Display 734 can be electrically coupled to controller 1232 and configured to display information regarding charging station 700 to a user.
- display 734 can be one or more light emitting diodes (LEDs).
- LEDs light emitting diodes
- display 734 when display 734 is an LED, the LED can be illuminated when charging station 700 is charging one or more electronic devices and flash three times before charging station 700 is turned-off.
- display 734 can be a liquid crystal display (LCD) or another type of display.
- LCD liquid crystal display
- circuitry in FIGs. 13 and 14 includes reference numbers in parentheses, which indicate the elements with the same reference numbers in FIG. 12.
- FIG. 15 illustrates a flow chart for an embodiment of a method 1500 of providing electrical power to one or more electronic devices using a charging station when the one or more electronic devices are electrically coupled to one or more output ports of the charging station.
- Method 1500 is merely exemplary and is not limited to the embodiments presented herein. Method 1500 can be employed in many different embodiments or examples not specifically depicted or described herein
- the charging station can be similar or identical to charging station 700 of FIG. 7.
- the one or more ports can be similar or identical to output ports 824, 825, 826, and 827 of FIGs. 8 and 12.
- method 1500 includes an activity 1561 of turning-on one or more switches.
- Turning-on the one or more switches can begin providing electrical power to the one or more output ports.
- the charging station is turned-on by pressing a button (i.e., the switch).
- the switch can be similar or identical to switch 722 of FIG. 7.
- switching switch 722 can cause one or more additional switches (e.g., switch 1223 (FIG. 12)) to be turned-on.
- Switch 722 can be a non-latching switch, and switch 1223 can be a latching switch.
- a user can push a non-latching switch (e.g., switch 722) to turn-on the charging station. While the user is holding down the non-latching switch, electrical power flows through the non-latching switch into the rest of circuitry of the charging station including an internal power supply (e.g., internal power supply 1221). The internal power supply initiates a controller (e.g., controller 1232), and the controller turns on a latching switch (e.g., switch 1223). When the user releases the non-latching switch, the non-latching switch is opened but electricity continues to flow through the latching switch to the rest of circuitry of the charging station. In some examples, the user is considered to turn-on the non-latching switch, and the charging station is considered to turn-on the latching switch.
- a non-latching switch e.g., switch 722
- method 1500 can include an activity 1562 of waiting a predetermined amount of time.
- a timer 1233 can measure the predetermined amount of time.
- Charging station 700 can wait the predetermined amount of time to allow all of the elements of charging station 700 to be initialized and charging station 700 to begin charging any electronic devices coupled to the one or more output ports.
- the predetermined amount of time can be one minute. In other embodiments, other predetermined amounts of time can be used.
- Method 1500 can continue with an activity 1563 of starting a timer to measure a charging time.
- Charging time can be measured to allow charging station 700 to stop providing electrical power to the electronic device coupled to the output ports after a predetermined amount of time has passed.
- the timer can measure the charging time from counting down from a first predetermined amount of time (e.g., three hours) to zero. In other examples, the timer can measure the charging time by counting up from zero.
- method 1500 can include an activity 1564 of determining the connectivity status of the one or more output ports.
- one or more sensors can determine the electrical status of the one or more output ports and report the status to the controller.
- the one or more sensor can be similar or identical to sensors 1228, 1229, 1230, and 1231 (FIG. 12).
- the controller can be similar or identical to controller 1232 (FIG. 12).
- each of the one or more sensors 1228, 1229, 1230, and 1231 can be configured to detect the following connectivity statuses: (a) no-power drawings status; (b) an active-power drawing status; and (c) no- device connected status.
- the controller can keep track of the connectivity status of the output ports in some embodiments. For example, the controller can keep track of the number of output ports that have an electronic device coupled to the output port, where the electronic device is drawing electrical power. In other examples, the controller can individually track the status of each of the output ports. In still other examples, the controller can track how many of the output ports have a no-power drawings status, an active-power drawing status, and/ or a no-device connected status.
- method 1500 can include an activity 1565 of determining whether the connectivity status of the one or more output ports has changed.
- the controller can poll the one or more sensors to check the connectivity status.
- the one or more sensors can communicate changes in connectivity status to the microcontroller. If the connectivity status of the one or more ports has not changed, the next activity is an activity 1568.
- the next activity in method 1500 is an activity 1566 of determining whether a new electronic device has been coupled to one of the one or more output ports.
- the next activity in method 1500 is an activity 1571 of resetting the charging time.
- the charging time is being measured by counting up from zero to a first predetermined amount of time (e.g., three hours)
- the charging time can be reset to zero.
- the timer can be reset to the first predetermined amount of time.
- the charging time can be reset to allow the new electronic devices to be fully charged before the charging station turns off and stops providing electrical power to the one or more electronic devices. If the charging time was not reset, the charging station might only provide electrical power to the new electronic device for a very short period of time (and thus, not fully charge the new electronic device) before the charging station turns off. After activity 1571, the next activity is activity 1564.
- the next activity in method 1500 is an activity 1567 of determining if all of the one or more electronic devices have been uncoupled from the one or more output ports.
- the controller can determine if all of the one or more electronic devices have been uncoupled from the one or more output ports. For example, the controller can keep track of how many electronic devices are coupled to the charging station. If all of the electronic devices have been uncoupled from the charging station, there is no need for the charging station to be turned-on and drawing electrical power from the external electrical power source. Accordingly, if all of the electronic devices are uncoupled from the charging station, the charging station is turned-off to conserve electrical power. That is, the next activity in method 1500 is an activity 1569 if all of the one or more electronic devices have been uncoupled from the one or more output ports. If one or more electronic devices are still coupled to the one or more output ports, however, the next activity in method 1500 is activity 1568.
- method 1500 includes an activity 1568 of determining whether the charging time is equal to or greater than the first predetermined amount of time. If the charging time is being measured by counting down from the first predetermined amount of time to zero, activity 1568 determines if the measured time is equal to or less than zero. If the charging time is being measured by counting up from zero to the first predetermined time, activity 1568 determines if the measured time is equal to or greater than the first predetermined amount of time. If the charging time is equal to or greater than the first predetermined amount of time, the next activity in method 1500 is activity 1569. If the charging time is less than the first predetermined amount of time, the next activity in method 1500 is activity 1564.
- Activity 1569 in method 1500 includes notifying the user that the charging station is being turned-off.
- display 734 can be used to notify a user that the charging station is being turn-off.
- method 1500 can continue with an activity 1570 of turning- off the one or more switches such that the charging station is not using any electrical power.
- the controller can turn-off one or more switches (e.g., switch 1223) to turn-off the charging station such that the charging station is not using any electrical power.
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- Engineering & Computer Science (AREA)
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- General Physics & Mathematics (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
Description
Claims
Priority Applications (2)
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AU2010339648A AU2010339648A1 (en) | 2010-01-05 | 2010-12-31 | Charging station for electronic devices |
EP10842767.5A EP2522062A4 (en) | 2010-01-05 | 2010-12-31 | Charging station for electronic devices |
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US12/652,740 US20100171465A1 (en) | 2005-06-08 | 2010-01-05 | Charging Station Configured To Provide Electrical Power to Electronic Devices And Method Therefor |
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US6524240B1 (en) * | 2000-11-22 | 2003-02-25 | Medwave, Inc. | Docking station for portable medical devices |
JP3942021B2 (en) * | 2002-10-18 | 2007-07-11 | 株式会社イトーキ | Shelf equipment |
US7626356B2 (en) * | 2007-01-05 | 2009-12-01 | Belkin International, Inc. | Modular power supply comprising an AC module, DC module and an electric charge storage module |
EP2045885A3 (en) * | 2007-10-03 | 2009-09-30 | Belkin International, Inc | Apparatus for providing electrical power to electrical device and method of use |
-
2010
- 2010-01-05 US US12/652,740 patent/US20100171465A1/en not_active Abandoned
- 2010-12-31 WO PCT/US2010/062627 patent/WO2011084872A1/en active Application Filing
- 2010-12-31 EP EP10842767.5A patent/EP2522062A4/en not_active Withdrawn
- 2010-12-31 AU AU2010339648A patent/AU2010339648A1/en not_active Abandoned
Patent Citations (4)
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US20060181241A1 (en) * | 2005-02-15 | 2006-08-17 | Dusan Veselic | Systems and methods for charging a chargeable USB device |
US20070236180A1 (en) * | 2006-04-11 | 2007-10-11 | Andrew Rodgers | Recharging device for use with portable electronic devices |
US20090295327A1 (en) * | 2008-05-27 | 2009-12-03 | Mcginley Valerie L | Energy-saving power adapter/charger |
US20090322160A1 (en) * | 2008-06-27 | 2009-12-31 | Igo, Inc. | Load condition controlled power strip |
Non-Patent Citations (1)
Title |
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See also references of EP2522062A4 * |
Also Published As
Publication number | Publication date |
---|---|
EP2522062A1 (en) | 2012-11-14 |
US20100171465A1 (en) | 2010-07-08 |
EP2522062A4 (en) | 2015-09-02 |
AU2010339648A1 (en) | 2012-08-16 |
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