Communication device with a self-calibrating sleep timer

This invention relates to the methods and devices to reduce power consumption in on-off communication devices for intermittent message reception. The present invention provides for a system for operating a communication device () for reception of scheduled intermittent information messages () with a...

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Hauptverfasser:	Shohara, Aki, Lei, Emilia Vailun
Format:	Patent
Sprache:	eng
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creator	Shohara, Aki Lei, Emilia Vailun
description	This invention relates to the methods and devices to reduce power consumption in on-off communication devices for intermittent message reception. The present invention provides for a system for operating a communication device () for reception of scheduled intermittent information messages () with a dual mode timer () that extends battery life. A controller () schedules the timer () to power down all idle components of the device () between message receptions in a power saving sleep mode to conserve battery power. During active mode when the device is fully active in reception of messages, the timer () uses a reference oscillator () with a relatively high frequency to support digital processing by the receiver (). During sleep mode when only the timer is powered on, a much lower frequency sleep oscillator () is used to maintain the lowest possible level of power consumption within the timer itself. The timer () has provision for automatic temperature calibration to compensate for timing inaccuracies inherent to the low-power low-frequency crystal oscillator () used for the sleep mode. The resultant improvement in timer accuracy during sleep mode eliminates the need for an initial reacquisition period following wake up in active mode, thereby reducing battery drain in active mode as well.
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The present invention provides for a system for operating a communication device () for reception of scheduled intermittent information messages () with a dual mode timer () that extends battery life. A controller () schedules the timer () to power down all idle components of the device () between message receptions in a power saving sleep mode to conserve battery power. During active mode when the device is fully active in reception of messages, the timer () uses a reference oscillator () with a relatively high frequency to support digital processing by the receiver (). During sleep mode when only the timer is powered on, a much lower frequency sleep oscillator () is used to maintain the lowest possible level of power consumption within the timer itself. The timer () has provision for automatic temperature calibration to compensate for timing inaccuracies inherent to the low-power low-frequency crystal oscillator () used for the sleep mode. 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The present invention provides for a system for operating a communication device () for reception of scheduled intermittent information messages () with a dual mode timer () that extends battery life. A controller () schedules the timer () to power down all idle components of the device () between message receptions in a power saving sleep mode to conserve battery power. During active mode when the device is fully active in reception of messages, the timer () uses a reference oscillator () with a relatively high frequency to support digital processing by the receiver (). During sleep mode when only the timer is powered on, a much lower frequency sleep oscillator () is used to maintain the lowest possible level of power consumption within the timer itself. The timer () has provision for automatic temperature calibration to compensate for timing inaccuracies inherent to the low-power low-frequency crystal oscillator () used for the sleep mode. 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The present invention provides for a system for operating a communication device () for reception of scheduled intermittent information messages () with a dual mode timer () that extends battery life. A controller () schedules the timer () to power down all idle components of the device () between message receptions in a power saving sleep mode to conserve battery power. During active mode when the device is fully active in reception of messages, the timer () uses a reference oscillator () with a relatively high frequency to support digital processing by the receiver (). During sleep mode when only the timer is powered on, a much lower frequency sleep oscillator () is used to maintain the lowest possible level of power consumption within the timer itself. The timer () has provision for automatic temperature calibration to compensate for timing inaccuracies inherent to the low-power low-frequency crystal oscillator () used for the sleep mode. The resultant improvement in timer accuracy during sleep mode eliminates the need for an initial reacquisition period following wake up in active mode, thereby reducing battery drain in active mode as well.</abstract><oa>free_for_read</oa></addata></record>
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title	Communication device with a self-calibrating sleep timer
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