System for conserving battery life in a battery operated device

US 7,739,529 B2
Filed: 11/29/2006
Issued: 06/15/2010
Est. Priority Date: 07/26/2000
Status: Expired due to Fees

First Claim

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1. A device comprising:

a receiver for receiving a repeated transmission that comprises a forward link packet (FLP), the FLP including a FLP data and a postamble, and the postamble including a series of high-low transitions; and

a microprocessor coupled to the receiver, the microprocessor periodically partially awakening to determine whether the transmission is likely a FLP based at least in part on the receiver having received a predetermined number of transitions of the repeated transmission, with the received transitions including transitions within the postamble; and

a transmitter through which the microprocessor is configured to transmit a reverse link packet (RLP) in response to the FLP;

wherein the postamble achieves at least one of the following;

shortens the amount of time that the transmitter is on by enabling the microprocessor to turn on the transmitter only after the microprocesser has read the FLP data to determine whether a RLP is called for;

increases the amount of time between the FLP data and the RLP, thereby allowing the microprocessor enough time to stabilize the transmitter on an appropriate return link channel;

shortens the amount of the time that the receiver needs to be on to sense the existence of the transmission;

increases the amount of time that a phase locked loop (PLL) of the transmitter has to lock onto an appropriate return link channel;

orshortens the amount of time that a PLL of the transmitter is on by enabling a PLL of the transmitter to be turned on after the microprocesser has read the FLP data to determine whether a RLP is called for.

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Abstract

A system for conserving battery life in a battery operated device such as a tire tag where there are several modes of operation. The typical mode is the deep sleep mode where the tag is generally inactive (no clock is running; however, an RC watchdog timer is running, which uses very little power). The tag spends most of its time in this low power mode. The tag periodically partially awakens to a lucid sleep mode (when the watchdog timer times out), initiates a low-speed clock, determines if it is time to enter a search mode by examining a search mode counter and, if it is not time, adjusts the search mode counter (e.g., decrements the counter by one), and returns to the deep sleep mode. The tag sleeps in the deep sleep mode most of its life in an effort to conserve battery power. During the deep sleep mode, because the clock oscillators are OFF, a deep sleep counter is adjusted (incremented or decremented) periodically (e.g., about every 18 ms) by an internal R/C oscillator. The internal watchdog timer (WDT) monitors the deep sleep counter and when the deep sleep counter, for example, contains a NULL value (all zeroes) the WDT wakes up the microcontroller (i.e., the WDT initiates the low-speed clock so that the tag cannot enter the lucid sleep mode). The tire tag delivers data at a slower or faster rate to achieve the important advantage of extending battery life. Also to extend battery life two oscillators are desirable because they allow two clock speeds. Having two clocks allows a designer to minimize use of the high-speed clock, thus conserving battery power.

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26 Claims

1. A device comprising:
- a receiver for receiving a repeated transmission that comprises a forward link packet (FLP), the FLP including a FLP data and a postamble, and the postamble including a series of high-low transitions; and
  
  a microprocessor coupled to the receiver, the microprocessor periodically partially awakening to determine whether the transmission is likely a FLP based at least in part on the receiver having received a predetermined number of transitions of the repeated transmission, with the received transitions including transitions within the postamble; and
  
  a transmitter through which the microprocessor is configured to transmit a reverse link packet (RLP) in response to the FLP;
  
  wherein the postamble achieves at least one of the following;
  
  shortens the amount of time that the transmitter is on by enabling the microprocessor to turn on the transmitter only after the microprocesser has read the FLP data to determine whether a RLP is called for;
  
  increases the amount of time between the FLP data and the RLP, thereby allowing the microprocessor enough time to stabilize the transmitter on an appropriate return link channel;
  
  shortens the amount of the time that the receiver needs to be on to sense the existence of the transmission;
  
  increases the amount of time that a phase locked loop (PLL) of the transmitter has to lock onto an appropriate return link channel;
  
  orshortens the amount of time that a PLL of the transmitter is on by enabling a PLL of the transmitter to be turned on after the microprocesser has read the FLP data to determine whether a RLP is called for.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. The device of claim 1 wherein the postamble shortens the amount of time that the transmitter is on by enabling the microprocessor to turn on the transmitter only after the microprocesser has read the FLP data to determine whether a RLP is called for.
  - 3. The device of claim 1 wherein the postamble increases the amount of time between the FLP data and the RLP, thereby allowing the device enough time to stabilize its transmitter on an appropriate return link channel.
  - 4. The device of claim 1 wherein the transmitter has a PLL, and the postamble increases the amount of time that the PLL has to lock onto an appropriate return link channel.
  - 5. The device of claim 4 wherein said increased amount of time gives the PLL enough time to lock onto an appropriate return link channel.
  - 6. The device of claim 1 wherein the transmitter has a PLL, and the postamble shortens the amount of time that the PLL is on by enabling the PLL to be turned on after the microprocesser has read the FLP data to determine whether a RLP is called for.
  - 7. The device of claim 6 wherein the shortening of the amount of time the PLL is on saves electrical power by not turning on the PLL when the transmission is not a valid FLP.
  - 8. The device of claim 1 in which the postamble is Manchester encoded.
  - 9. The device of claim 1 wherein the microprocessor is configured, upon determining that the transmission is likely a FLP, to fully awaken to determine whether the transmission is a valid FLP by examining the FLP data.
  - 10. The device of claim 1 further comprising a sensor for measuring a parameter and generating parameter data indicative of the parameter, and the microprocessor is configured to transmit the parameter data in a RLP in response to the FLP.
  - 11. The device of claim 10 wherein the microprocessor is configured to transmit the parameter data in an RLP only in response to an FLP that includes an identification number associated with the device.
  - 12. The device of claim 10 wherein the device is a tire tag, and the parameter is a parameter of a tire.
  - 13. The device of claim 12 wherein the parameter is temperature of the tire.
  - 14. The device of claim 12 wherein the parameter is pressure of the tire.
  - 15. The device of claim 1 wherein the microprocessor turns on the transmitter only in response to an FLP that calls for a RLP.
  - 16. The device of claim 1 wherein the microprocessor is configured to respond with a RLP only to FLPs that include an identification number associated with the device.
  - 17. The device of claim 1 wherein the transmitter has a PLL, and the PLL is turned on only in response to a valid FLP.
  - 18. The device of claim 1 wherein the postamble comprised a stream of either all zeros and ending with a one or all ones ending in a zero.

19. A device comprising:
- a receiver for receiving a repeated transmission that comprises a forward link packet (FLP), the FLP including a FLP data and a postamble, and the postamble including a series of high-low transitions; and
  
  a microprocessor coupled to the receiver, the microprocessor periodically partially awakening to determine whether the transmission is likely a FLP based at least in part on the receiver having received a predetermined number of transitions of the repeated transmission, with the received transitions including transitions within the postamble;
  
  such that the postamble reduces the amount of time the microprocessor needs to keep the receiver on to check for the predetermined number of transitions.
- View Dependent Claims (20, 21)
- - 20. The system of claim 19 wherein the microprocessor turns on the receiver only long enough to check for the predetermined number of transitions.
  - 21. The system of claim 19 wherein the microprocessor fully awakens to determine whether the transmission is a valid FLP by examining at least a portion of the FLP data.

22. A method performed by a device comprising:
- periodically partially awakening;
  
  receiving a repeating wireless transmission comprising a forward link packet (FLP), the FLP including FLP data and a postamble, the postamble including a series of high-low transitions;
  
  partially awakening to determine whether the transmission is likely a forward link packet (FLP) based at least in part on receiving a predetermined number of transitions of the repeated transmission, with the received transitions including transitions within the postamble; and
  
  if the transmission is determined to likely be a FLP, then fully awakening to determine whether the transmission is a valid based on the FLP data;
  
  such that the postamble achieves at least one of the following;
  
  increases the amount of time between the FLP data and the RLP, thereby allowing the transmitter enough time to stabilize on an appropriate return link channel;
  
  increases the amount of time that a phase locked loop (PLL) of the transmitter has to obtain a PLL lock on an appropriate return link channel;
  
  or shortens the amount of time that a PLL of the transmitter is ON by enabling the PLL to be turned on after the microprocesser has read the data and determined from the FLP that a RLP is called for.
- View Dependent Claims (23, 24, 25)
- - 23. The method of claim 22 wherein the postamble increases the amount of time between the FLP data and the RLP, thereby allowing the microprocessor enough time to stabilize the transmitter on an appropriate return link channel.
  - 24. The method of claim 22 wherein the transmitter has a PLL, and the postamble increases the amount of time that the PLL has to lock onto an appropriate return link channel.
  - 25. The method of claim 22 wherein the transmitter has a PLL, and the postamble shortens the amount of time that the PLL is on by enabling the pll to be turned on after the microprocesser has read the data and determined from the FLP that a RLP is called for.

26. A system comprising:
- an interrogator configured to transmit a forward link packet (FLP); and
  
  a tag configured to transmit a reverse link packet (RLP) in response to the FLP, the tag being assigned an identification number comprising a sequence of bits;
  
  the tag and the interrogator being configured for the interrogator to determine the tag'"'"'s identification number through a successive approximation routine in which the interrogator transmits a succession of FLPs, each successive FLP including an additional suggested bit of the identification number'"'"'s bit sequence, and the tag, after receiving each successive FLP, transmits a confirming RLP that confirms that the suggested bit matches the corresponding bit of the identification number, and does not send the confirming RLP if the suggested bit does not match the corresponding bit of the identification number.

Specification

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Current Assignee
Bridgestone Americas Tire Operations LLC (Bridgestone Corporation)
Original Assignee
Bridgestone Americas Tire Operations LLC (Bridgestone Corporation)
Inventors
Przygocki, David A., Hardman, Molly A., Floyd, Brett W., Grush, Ronald C., Coombs, David M., Loudin, Philip B., Hardman, Gordon E., Wilson, Paul B., Pyne, John W.
Primary Examiner(s)
CONNOLLY, MARK A

Application Number

US11/605,825
Publication Number

US 20070135179A1
Time in Patent Office

1,294 Days
Field of Search

713/300, 713/320, 713/324, 455/574
US Class Current

713/320
CPC Class Codes

B29D 2030/0072   Attaching fasteners to tyre...

B60C 23/0433   Radio signals

B60C 23/0442   the transmitted signal comp...

B60C 23/0444   Antenna structures, control...

B60C 23/0452   Antenna structure, control ...

B60C 23/0462   Structure of transmission p...

B60C 23/0479   Communicating with external...

B60C 23/0493   for attachment on the tyre

System for conserving battery life in a battery operated device

First Claim

4 Assignments

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Abstract

Citations

26 Claims

Specification

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System for conserving battery life in a battery operated device

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

26 Claims

Specification

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Solutions

Use Cases

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