Handheld electronic device including vibrator having different vibration intensities and method for vibrating a handheld electronic device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-003/36
출원번호
US-0855587
(2004-05-27)
발명자
/ 주소
Orr,Kevin H.
Mankaruse,George S.
Asaria,Ali
출원인 / 주소
Research In Motion Limited
대리인 / 주소
Eckert Seamans Cherin &
인용정보
피인용 횟수 :
54인용 특허 :
7
초록▼
A handheld electronic device includes a housing adapted to engage a holster, and a sensor having an input adapted to sense engagement of the housing with the holster and an output responsive to that engagement. The output includes an out-of-holster state and an in-holster state. A processor circuit
A handheld electronic device includes a housing adapted to engage a holster, and a sensor having an input adapted to sense engagement of the housing with the holster and an output responsive to that engagement. The output includes an out-of-holster state and an in-holster state. A processor circuit includes a routine, an input receiving the sensor output and an output having a first intensity state and a second greater intensity state. A vibrator within the housing is adapted to vibrate the housing at a plurality of different intensities. The routine outputs to a control circuit the first intensity state when the sensed engagement includes the out-of-holster state, and the second greater intensity state when the sensed engagement includes the in-holster state. The control circuit activates the vibrator at a first intensity corresponding to the first intensity state and at a second greater intensity corresponding to the second greater intensity state.
대표청구항▼
What is claimed is: 1. A handheld electronic device comprising: a housing; a processor circuit including a plurality of different operating states including an in-use state and a non-use state, and an output having a plurality of different states corresponding to at least some of said different ope
What is claimed is: 1. A handheld electronic device comprising: a housing; a processor circuit including a plurality of different operating states including an in-use state and a non-use state, and an output having a plurality of different states corresponding to at least some of said different operating states including a first intensity state corresponding to said in-use state and a second different intensity state corresponding to said non-use state; a vibrator within said housing, said vibrator adapted to vibrate said housing at a plurality of different intensities; a control circuit adapted to activate said vibrator at a first one of said different intensities responsive to the first intensity state of the output of said processor circuit and corresponding to said in-use state of said different operating states, and at a second one of said different intensities responsive to the second different intensity state of the output of said processor circuit and corresponding to said non-use state of said different operating states; and a power source adapted to power at least one of said processor circuit, said vibrator and said control circuit. 2. The handheld electronic device of claim 1 wherein the output of said processor circuit is a digital-to-analog output with a voltage; wherein said vibrator includes a motor having an input with a voltage; and wherein said control circuit includes an input of the digital-to-analog output of said processor circuit and an output to the input of said motor, said processor circuit adapted to change the voltage of said digital-to-analog output, said control circuit adapted to responsively change the voltage of said motor, said motor adapted to rotate at a speed corresponding to the voltage thereof. 3. The handheld electronic device of claim 1 wherein the output of said processor circuit is a digital output; wherein said vibrator includes a motor having a first input terminal and a second input terminal; and wherein said control circuit includes a first circuit adapted to output a substantially constant voltage to the first input terminal of said motor, and a second circuit adapted to selectively enable the second input terminal of said motor responsive to the digital output of said processor circuit, said processor circuit adapted to pulse-width modulate said digital output, said motor adapted to rotate at a speed based upon said substantially constant voltage and said pulse-width modulated digital output. 4. The handheld electronic device of claim 1 wherein said processor circuit comprises a processor; wherein said control circuit comprises a melody circuit receiving the output of said processor circuit and outputting a pulse-width modulated output; and wherein said vibrator includes a motor powered by said pulse-width modulated output. 5. The handheld electronic device of claim 1 wherein said different operating states further include at least one of the group comprising in-holster, out-of-holster, non-use and stored, and non-use and not stored; and wherein said processor circuit further includes a plurality of different notification events of said handheld electronic device, and a routine adapted to determine a current one of said different operating states and to output said different states corresponding to a current one of said different notification events and the determined current one of said different operating states. 6. The handheld electronic device of claim 1 wherein said control circuit includes a light sensor adapted to sense a plurality of different light intensity levels; wherein said processor circuit further includes a routine adapted to determine if said handheld electronic device is in said in-use state, said routine, responsive to said sensed different light intensity levels and whether said handheld electronic device is in said in-use state, outputs the first intensity state of the different states of the output thereof; and wherein said control circuit activates said vibrator at the first one of said different intensities corresponding to said first intensity state of the different states. 7. The handheld electronic device of claim 1 wherein said processor circuit further includes a wireless communication port. 8. A handheld electronic device comprising: a housing adapted to engage a holster; a sensor including an input adapted to sense engagement of said housing with said holster and an output responsive to said sensed engagement, said output responsive to said sensed engagement including one of an out-of-holster state and an in-holster state; a processor circuit including a plurality of different operating states including an in-use state and a non-use state, a routine, an input receiving the output of said sensor, and an output having a plurality of different states including a first intensity state corresponding to said in-use state, a second different intensity state corresponding to said non-use state and a third different intensity state; an input circuit cooperating with said processor circuit; an output circuit cooperating with said processor circuit; a vibrator within said housing, said vibrator adapted to vibrate said housing at a plurality of different intensities; a control circuit adapted to activate said vibrator at a first one of said different intensities responsive to the first intensity state of the output of said processor circuit and corresponding to said in-use state of said different operating states, at a second one of said different intensities responsive to the second different intensity state of the output of said processor circuit and corresponding to said non-use state of said different operating states, and at a third one of said different intensities responsive to the third different intensity state of the output of said processor circuit; and a power source adapted to power at least one of said processor circuit, said vibrator and said control circuit. 9. The handheld electronic device of claim 8 wherein said sensor is selected from the group comprising a proximity sensor; a light sensor; and a capacitive sensor. 10. The handheld electronic device of claim 8 wherein said processor circuit further includes as said different operating states non-use and stored, and non-use and not stored; wherein said processor circuit further includes a plurality of different notification events of said handheld electronic device; and wherein the routine of said processor circuit is further adapted to determine a current one of said different operating states and to output one of said different states corresponding to a current one of said different notification events and the determined current one of said different operating states. 11. The handheld electronic device of claim 8 wherein the routine of said processor circuit is further adapted to output to said control circuit the third different intensity state when said sensed engagement includes said out-of-holster state and when said processor circuit determines that said handheld electronic device is in-use; and wherein said control circuit activates said vibrator at the third one of said different intensities corresponding to said third different intensity state. 12. The handheld electronic device of claim 11 wherein said routine is a first routine; wherein said processor circuit further includes a second routine; and wherein said first routine determines if said handheld electronic device is in-use based upon said second routine being activated. 13. The handheld electronic device of claim 11 wherein said input circuit includes microphone; and wherein said routine determines if said handheld electronic device is in-use based upon an input of a detected sound from said microphone to said processor circuit. 14. The handheld electronic device of claim 11 wherein said output circuit includes a speaker; and wherein said routine determines if said handheld electronic device is in-use based upon an output from said processor circuit to said speaker. 15. The handheld electronic device of claim 11 wherein said input circuit includes a plurality of keys; and wherein said routine determines if said handheld electronic device is in-use based upon detected activity from one of said keys. 16. The handheld electronic device of claim 15 wherein said routine determines if said handheld electronic device is not in-use based upon a predetermined period of time of no detected activity from said keys. 17. The handheld electronic device of claim 8 wherein said processor circuit further includes a wireless communication port. 18. A method for vibrating a handheld electronic device, said method comprising: employing a plurality of different notification events of said handheld electronic device; employing a plurality of different operating states of said handheld electronic device, said different operating states including an in-use state and a non-use state; employing a plurality of different vibration intensity levels including a first intensity level corresponding to said in-use state and a second different intensity level corresponding to said non-use state; and configuring said handheld electronic device to selectively vibrate at a first one of said different vibration intensity levels as a function of a current one of said different notification events and said in-use state of said different operating states, and at a second one of said different vibration intensity levels as a function of the current one of said different notification events and said non-use state of said different operating states. 19. The method of claim 18 further comprising selecting one of said different vibration intensity levels from a user input device. 20. The method of claim 19 further comprising employing said user input device including a first position and a second position; selecting the first one of said different vibration intensity levels responsive to the first position of said user input device; and selecting the different second one of said different vibration intensity levels responsive to the second position of said user input device. 21. The method of claim 18 further comprising employing a range of said different vibration intensity levels; and selecting one of said different vibration intensity levels from said range. 22. The method of claim 18 further comprising automatically determining the current one of said different operating states; and automatically vibrating said handheld electronic device at a corresponding one of said different vibration intensity levels based upon said current one of said different notification events and said determined current one of said different operating states. 23. The method of claim 22 further comprising selecting said different operating states of said handheld electronic device from the group comprising in-holster and non-use, out-of-holster and non-use, and out-of-holster and in-use; employing said out-of-holster and in-use as said in-use state; and employing one of said in-holster and non-use and said out-of-holster and non-use as said non-use state. 24. The method of claim 18 further comprising employing as some of said different operating states a plurality of different operating modes of said handheld electronic device; automatically determining a current one of said different operating modes; and automatically vibrating said handheld electronic device at a corresponding one of said different vibration intensity levels based upon said current one of said different notification events and said determined current one of said different operating modes. 25. The method of claim 24 further comprising selecting said different operating modes from the group comprising executing a first application routine, and executing a second different application routine. 26. The method of claim 24 further comprising selectively modifying at least one of said different vibration intensity levels. 27. The method of claim 18 further comprising initially vibrating said handheld electronic device at one of said different vibration intensity levels; and changing said one of said different vibration intensity levels. 28. The method of claim 27 further comprising continuously changing said one of said different vibration intensity levels over time. 29. The method of claim 27 further comprising vibrating said handheld electronic device with a plurality of discrete vibration pulses; and employing said discrete vibration pulses having different vibration intensities and constant vibration pulse lengths. 30. The method of claim 27 further comprising vibrating said handheld electronic device with a plurality of discrete vibration pulses; and employing said discrete vibration pulses having a plurality of different vibration pulse lengths. 31. The method of claim 27 further comprising mimicking a ring tone through vibration of said handheld electronic device. 32. The method of claim 27 further comprising disabling vibration of said handheld electronic device. 33. The method of claim 27 further comprising changing both time of vibration and intensity of vibration of said handheld electronic device over time. 34. The method of claim 27 further comprising increasing said one of said different vibration intensity levels. 35. The method of claim 34 further comprising manually deactivating vibration of said handheld electronic device. 36. The method of claim 35 further comprising un-holstering said handheld electronic device to deactivate said vibration. 37. The method of claim 18 further comprising wirelessly communicating from said handheld electronic device. 38. The method of claim 18 further comprising scrolling through a list including said different vibration intensity levels; and successively vibrating said handheld electronic device at at least some of said different vibration intensity levels. 39. The method of claim 18 further comprising selectively increasing or decreasing all of said different vibration intensity levels. 40. The method of claim 18 further comprising employing as one of said different notification events a navigation event associated with input and output circuits of said handheld electronic device; and configuring said handheld electronic device to selectively vibrate at a corresponding one of said different vibration intensity levels as a function of said navigation event and said in-use state. 41. The method of claim 18 further comprising employing a light intensity sensor to determine said non-use state.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Jason T. Griffin CA; John A. Holmes CA; Mihal Lazaridis CA; Herb A. Little CA; Harry R. Major CA, Hand-held e-mail device.
Jason T. Griffin CA; John A. Holmes CA; Mihal Lazaridis CA; Herb A. Little CA; Harry R. Major CA; Craig Dunk CA; Michael Brown CA; Jerome Lang CA, Hand-held electronic device with auxiliary input device.
DiPierro, Guy; Giannos, Steven A., Biosynchronous transdermal drug delivery for longevity, anti-aging, fatigue management, obesity, weight loss, weight management, delivery of nutraceuticals, and the treatment of hyperglycemia, alzheimer's disease, sleep disorders, parkinson's disease, AIDs, epilepsy, attention deficit disorder, nicotine addiction, cancer, headache and pain control, asthma, angina, hypertension, depression, cold, flu and the like.
DiPierro, Guy; Giannos, Steven A., Biosynchronous transdermal drug delivery for longevity, anti-aging, fatigue management, obesity, weight loss, weight management, delivery of nutraceuticals, and the treatment of hyperglycemia, alzheimer's disease, sleep disorders, parkinson's disease, aids, epilepsy, attention deficit disorder, nicotine addiction, cancer, headache and pain control, asthma, angina, hypertension, depression, cold, flu and the like.
DiPierro, Guy; Giannos, Steven A., Biosynchronous transdermal drug delivery for longevity, anti-aging, fatigue management, obesity, weight loss, weight management, delivery of nutraceuticals, and the treatment of hyperglycemia, alzheimer's disease, sleep disorders, parkinson's disease, aids, epilepsy, attention deficit disorder, nicotine addiction, cancer, headache and pain control, asthma, angina, hypertension, depression, cold, flu and the like.
Netzel, Zita S.; Stacey, Gary; Norman, Alexander David; Huang, Congyi; Frearson, Timothy Charles; Kilby, Charles Frazer; Ruane, Patrick H.; Levy, Alan J.; Gelston, Kevin W.; Darmour, Jennifer; Hapgood, Jenny E.; Roth, David Evans; Overbeck, Ronald A.; Tong, Ling-Kang, Drug delivery methods and systems.
Netzel, Zita S.; Stacey, Gary; Norman, Alexander David; Huang, Congyi; Frearson, Timothy Charles; Kilby, Charles Frazer; Ruane, Patrick H.; Levy, Alan J.; Gelston, Kevin W.; Darmour, Jennifer; Hapgood, Jenny E.; Roth, David Evans; Overbeck, Ronald A.; Tong, Ling-Kang, Drug delivery methods and systems.
Hotelling, Steve P.; Huppi, Brian Q.; Strickon, Joshua A.; Kerr, Duncan Robert; Chaudhri, Imran; Christie, Greg; Ive, Jonathan P.; Kennedy, Peter J.; Fadell, Anthony M.; Robbin, Jeffrey L., Proximity detector in handheld device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.