IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0479679
(2014-09-08)
|
등록번호 |
US-9472965
(2016-10-18)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Google Technology Holdings LLC
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
69 |
초록
▼
A rechargeable mobile terminal is provided that provides a maximum charge rate of a rechargeable battery during active user hours of the day and provides the potential for applying a decreased charge rate of the rechargeable battery when the mobile terminal determines that the user has set the alarm
A rechargeable mobile terminal is provided that provides a maximum charge rate of a rechargeable battery during active user hours of the day and provides the potential for applying a decreased charge rate of the rechargeable battery when the mobile terminal determines that the user has set the alarm clock function of the mobile terminal and that the time between the present time and the set alarm time (the delta time) is greater than an amount of time required to charge the rechargeable battery at a maximum charge rate.
대표청구항
▼
1. The rechargeable user equipment comprising: a charging circuit configured to charge a battery at a maximum charge rate or a decreased charge rate, the charging circuit comprising an input adapted for connection to a charging device;a motion sensing circuit for sensing non-movement of the recharge
1. The rechargeable user equipment comprising: a charging circuit configured to charge a battery at a maximum charge rate or a decreased charge rate, the charging circuit comprising an input adapted for connection to a charging device;a motion sensing circuit for sensing non-movement of the rechargeable user equipment;an audio sensing circuit for sensing a sound level about the rechargeable user equipment;a processor, connected to the charging circuit, the motion sensing circuit and the audio sensing circuit, the processor configured to: enable a user of the rechargeable user equipment to set an alarm clock function to alarm at an alarm time;determine whether the charging circuit is receiving power at the input;determine whether the motion sensing circuit has sensed non-movement for a predetermined non-movement time; anddetermine whether the audio sensing device has sensed that the sound level has been below a predetermined decibel level for a predetermined quiet time;when the set time is more than a delta time in the future, the processor provides a decreased charge rate signal to the charging circuit when power is being received at the input, non-movement has been sensed for the non-movement time, and the sound level has been below the predetermined decibel level for the predetermined quiet time, otherwise the processor provides a maximum charge rate signal to the charging circuit. 2. The rechargeable user equipment of claim 1, further comprising a light sensing circuit, connected to the processor, wherein the processor is further configured to determine whether the ambient light about the rechargeable user equipment is below a predetermined lumen level; and wherein when the set time is more than the delta time in the future, the processor provides a decreased charge rate signal to the charging circuit when power is being received at the input, non-movement has been sensed for the non-movement time, the sound level has been below the predetermined decibel level for the predetermined quiet time, and the ambient light is below the predetermined lumen level, otherwise the processor provides a maximum charge rate signal to the charging circuit. 3. The rechargeable user equipment of claim 1, wherein the charging circuit is configured to charge the battery at the decreased charge rate when receiving the decreased charge rate signal. 4. The rechargeable user equipment of claim 1, wherein the decreased charge rate is less than the maximum charge rate. 5. The rechargeable user equipment, of claim 1, wherein the decreased charge rate signal is configured to set the charge rate of the charging circuit to a charge rate to a variable charge rate that is below the maximum charge rate. 6. The rechargeable user equipment of claim 5, wherein the processor determines the charging information based on a maximum mAh of the battery, the present charge of the battery and an amount of time between the present time and the alarm time. 7. The rechargeable user equipment of claim 1, wherein the rechargeable user equipment is a mobile communication device. 8. A method of charging a battery in a user device comprising: sensing, by a charging circuit in the user device, that the charging circuit is receiving power from an external power source; anddetermining, by a processor, whether a user set alarm clock event will occur more than a minimum charge time of the battery in the future; andwherein when the user set alarm clock event is determined to occur more than the minimum charge time of the battery in the future, then charging the battery by the charging circuit at a reduced charge rate, the reduced charge rate being from 1 to 99 percent of a maximum charge rate, otherwise charging the battery at the maximum charge rate. 9. The method of claim 8, wherein prior to determining whether the user set alarm clock event will occur more than the minimum charge time in the future, the method further comprises charging, by the charging circuit, the battery at the maximum charge rate. 10. The method of claim 8, wherein determining further comprises: determining whether the user device has been stationary for a non-movement time; andwherein when the user set alarm clock event is determined to occur more than the minimum charge time in the future and the user device has been stationary for at least the non-movement time, then charging the battery by the charging circuit at the reduced charge rate. 11. The method of claim 8, wherein determining further comprises: determining whether sound about the user device has been below a predetermined decibel level for a predetermined quiet time; andwherein when the user set alarm clock event is determined to occur more than the minimum charge time in the future and the sound about the user device has been below the predetermined decibel level for at least the predetermined quiet time, then charging the battery by the charging circuit at the reduced charge rate. 12. The method of claim 8, wherein determining further comprises: determining whether the light level about the user device is below a predetermined lumen level for at least a predetermined low lumen time; andwherein when the user set alarm clock event is determined to occur more than the predetermined time in the future and the ambient light about the user device has been below the predetermined lumen level for at least the predetermined low lumen time, then charging the battery by the charging circuit at the reduced charge rate. 13. The method of claim 8, wherein the rechargeable user device is a mobile communication device. 14. The method of claim 8, wherein charging further comprises, charging the battery at the reduced rate such that the battery will be fully charged after the minimum charge time and before the alarm time. 15. A mobile communication device comprising: a light sensor;a motion sensor;a sound sensor;a battery;a user interface;a fuel gauge circuit connected to the battery;a charging circuit configured to charge the battery and adapted for connection to a power source;a processor connected to the light sensor, the motion sensor, the sound sensor, the user interface, the fuel gauge circuit and the charging circuit; the processor configured to: identify an existence of an alarm event occurring at an alarm time in the future;determine whether the alarm time is greater than a minimum charge time for charging the battery;when the alarm time is further in the future than the minimum charge time, set the charging circuit to charge the battery at a decreased charge rate, otherwise set the charging circuit to charge the battery at a maximum charge rate, wherein the decreased charge rate is a lower charging rate than the maximum charge rate. 16. The mobile communication device of claim 15, wherein the processor is further configured to receive a motion signal from the motion sensor and determine whether the mobile communication device has been stationary for at least a stationary time period; wherein when the processor determines that the alarm time is further in the future than the minimum charge time and that the mobile communication device has been stationary for at least the stationary time period, then the processor is configured to set the charging circuit to charge the battery at the decreased charge rate. 17. The mobile communication device of claim 15, wherein the processor is further configured to receive a sound signal from the sound sensor and determine whether the sound level about the mobile communication device has remained below a predetermined sound level for at least a quiet time period; wherein when the processor determines that the alarm time is further in the future than the minimum stationary time and that the sound level about the mobile communication device has remained below the predetermined sound level for the predetermined quiet time, then the processor is configured to set the charging circuit to charge the battery at the decreased charge rate. 18. The mobile communication device of claim 15, wherein the processor is further configured to receive a light signal from the light sensor and determine whether a lumen level about the mobile communication device has remained below a predetermined lumen level for a predetermined low lumen time period; wherein when the processor determines that the alarm time is further in the future than the minimum stationary time and the ambient light about the mobile communication device has remained below the predetermined luminance for at least the predetermined dark time, then the processor is configured to set the charging circuit to charge the battery at the decreased charge rate.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.