Method and Apparatus for a Battery Saver Utilizing a Sleep and Vacation Strategy

US 20140274223A1
Filed: 03/14/2013
Published: 09/18/2014
Est. Priority Date: 03/14/2013
Status: Active Grant

First Claim

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1. A cellular communication module utilized within a battery-powered vehicle, comprising:

a processor configured to;

activate an extended power mode, wherein the extended power mode allows the cellular communication module to establish a data session with a cellular communication network for a first time period;

activate a low power mode, wherein the low power mode allows the cellular communication module to maintain a registered cellular connection with the cellular communication network for a second time period; and

activate a sleep mode, wherein the sleep mode maintains a registered cellular connection with the cellular communication network during a reoccurring wake-up cycle or is disconnected from the cellular communication network for a third time period.

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Abstract

A cellular communication module utilized within a battery-powered vehicle comprising a processor configured to activate an extended power mode, wherein the extended power mode allows the cellular communication module to establish a data session with a cellular communication network for a first time period. The process if further configured to activate a low power mode, wherein the low power mode allows the cellular communication module to maintain a registered cellular connection with the cellular communication network for a second time period, and activate a sleep mode, wherein the sleep mode maintains a registered cellular connection with the cellular communication network during a reoccurring wake-up cycle or is disconnected from the cellular communication network for a third time period.

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20 Claims

1. A cellular communication module utilized within a battery-powered vehicle, comprising:
- a processor configured to;
  
  activate an extended power mode, wherein the extended power mode allows the cellular communication module to establish a data session with a cellular communication network for a first time period;
  
  activate a low power mode, wherein the low power mode allows the cellular communication module to maintain a registered cellular connection with the cellular communication network for a second time period; and
  
  activate a sleep mode, wherein the sleep mode maintains a registered cellular connection with the cellular communication network during a reoccurring wake-up cycle or is disconnected from the cellular communication network for a third time period.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The cellular communication module of claim 1, wherein the sleep mode includes a first sleep mode and a second sleep mode, wherein the second sleep mode utilizes less power than the first sleep mode and occurs after a first sleep mode time period lapses, wherein the first sleep mode is operating during the first sleep mode time period.
  - 3. The cellular communication module of claim 2, wherein the second sleep mode includes the reoccurring wake-up cycle initiating less frequently than the reoccurring wake-up cycle of the first sleep mode.
  - 4. The cellular communication module of claim 2, wherein the processor is further configured to activate a deep sleep mode, wherein the deep sleep mode utilizes less power than the second sleep mode and occurs after a second sleep mode time period elapses, wherein the second sleep mode is operating during the second sleep mode time period.
  - 5. The cellular communication module of claim 4, wherein the deep sleep mode is configured to maintain power to the cellular communication module to power a real time clock and a network wakeup circuit, and is further configured to be disconnected from the cellular communication network.
  - 6. The cellular communication module of claim 1, wherein the processor is further configured to activate the low power mode upon the extended power mode lapsing.
  - 7. The cellular communication module of claim 1, wherein the processor is further configured to activate the sleep mode upon the low power mode lapsing.
  - 8. The cellular communication module of claim 1, wherein the processor is further configured to operate upon receiving a signal selected from a group consisting of a car area network wake up signal, a door open signal, a door lock or unlock signal, a key fob signal, a message from a mobile device, or a message from a server.
  - 9. The cellular communication module of claim 1, wherein the processor is further configured to activate a vacation mode, wherein the vacation mode is configured to activate a deep sleep mode that maintains power to the cellular communication module to power a real time clock during a vacation mode time period.
  - 10. The cellular communication module of claim 9, wherein processor is further configured to initiate the low power mode upon activation of the vacation mode but prior to activating the deep sleep mode during the vacation mode time period.
  - 11. The cellular communication module of claim 9, wherein the vacation mode time period is configured via a user interface.
  - 12. The cellular communication module of claim 11, wherein the user interface includes a calendar, a fixed vacation mode time period, or an input to configure the vacation mode time period.
  - 13. The cellular communication module of claim 9, wherein processor is further configured to initiate the low power mode at a time after activating the deep sleep mode but prior to the vacation mode time period lapsing.
  - 14. The cellular communication module of claim 9, wherein the vacation mode time period is configured to lapse during an ignition on cycle or activating a network wake up signal.

15. A method of saving power within a vehicle that includes a cellular communication module, the steps comprising:
- generating a first signal to activate an extended power mode in the cellular communication module, wherein the extended power mode allows the cellular communication module to establish a data session with a cellular communication network;
  
  generating a second signal to activate a low power mode in the cellular communication module upon the extended power mode lapsing, wherein the low power mode allows the cellular communication module to maintain a registered cellular connection with the cellular communication network; and
  
  generating a third signal to activate a sleep mode in the cellular communication module upon the low power mode lapsing, wherein the sleep mode is temporarily disconnected from the cellular communication network.
- View Dependent Claims (16, 17)
- - 16. The method of claim 15, wherein the sleep mode maintains a registered cellular connection with the cellular communication network during a reoccurring wake-up cycle.
  - 17. The method of claim 15, wherein the method further includes the step of generating a fourth signal to activate a deep sleep mode in the cellular communication module that is configured to maintain power to the cellular communication module to power a real time clock and a network wakeup circuit, and is further configured to be disconnected from the cellular communication network.

18. A vehicle module, comprising:
- a processor configured to;
  
  activate a telematics control unit'"'"'s (TCU) extended power mode to establish a data session with a telecommunication network;
  
  activate a TCU'"'"'s low power mode to maintain a registered cellular connection with the network upon the extended power mode lapsing;
  
  activate a TCU'"'"'s sleep mode including a wake-up cycle upon the low power mode lapsing; and
  
  activate a TCU'"'"'s deep sleep mode which is disconnected from the network.
- View Dependent Claims (19, 20)
- - 19. The vehicle module of claim 18, wherein the processor is further configured to activate a vacation mode, wherein the vacation mode is configured to activate the deep sleep mode during a vacation mode time period.
  - 20. The vehicle module of claim 19, wherein the processor is further configured to initiate the low power mode upon activation of the vacation mode but prior to activating the deep sleep mode during the vacation mode time period.

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Current Assignee
Ford Global Technologies, LLC (Ford Motor Company)
Original Assignee
Ford Global Technologies, LLC (Ford Motor Company)
Inventors
Kleve, Robert Bruce, Pandya, Ritesh

Granted Patent

US 9,462,545 B2
Time in Patent Office

Days
Field of Search
US Class Current

455/574
CPC Class Codes

H04B 1/3838   Arrangements for reducing R...

H04W 52/0209   in terminal devices termina...

Y02D 30/70   in wireless communication n...

Method and Apparatus for a Battery Saver Utilizing a Sleep and Vacation Strategy

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

38 Citations

20 Claims

Specification

Solutions

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Method and Apparatus for a Battery Saver Utilizing a Sleep and Vacation Strategy

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

38 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links