Deep sleep in an RFID tag

DC CAFC

US 7,119,664 B2
Filed: 09/17/2003
Issued: 10/10/2006
Est. Priority Date: 09/17/2003
Status: Expired due to Term

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First Claim

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1. A passive radio frequency identification tag comprising:

an antenna;

a radio frequency interface coupled with the antenna; and

control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising non-responsive state that is independent of supplied power, and the control logic providing a following slate entered upon conclusion of the non-responsive state, wherein communications initiate from the following state, wherein the following state comprises an initial communication state from a plurality of communication states, wherein the plurality of communication states allow response to a sequence of associated commands when receipt of the command sequence begins in the initial communication state;

wherein the deep sleep state initiates in response to an event comprising receipt of a deep sleep command;

wherein the non-responsive state concludes in response to a first occurring event from events comprising receipt of a wake command and internal cessation of the non-responsive state; and

where the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep, isolate and non-responsive states conclude upon receipt of a full wake command, and the sleep and isolate states, but not the non-responsive state, conclude upon receipt of a partial wake command.

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Abstract

Systems and techniques to provide radio frequency identification tags including a non-responsive state, which is independent of supplied power, initiated in conjunction with a tag communications reset. In general, in one implementation, a passive radio frequency identification tag includes an antenna, a radio frequency interface coupled with the antenna, and control logic that initiates a deep sleep state in response an event, the deep sleep state including a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, where communications initiate from the following state.

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30 Claims

1. A passive radio frequency identification tag comprising:
- an antenna;
  
  a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising non-responsive state that is independent of supplied power, and the control logic providing a following slate entered upon conclusion of the non-responsive state, wherein communications initiate from the following state, wherein the following state comprises an initial communication state from a plurality of communication states, wherein the plurality of communication states allow response to a sequence of associated commands when receipt of the command sequence begins in the initial communication state;
  
  wherein the deep sleep state initiates in response to an event comprising receipt of a deep sleep command;
  
  wherein the non-responsive state concludes in response to a first occurring event from events comprising receipt of a wake command and internal cessation of the non-responsive state; and
  
  where the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep, isolate and non-responsive states conclude upon receipt of a full wake command, and the sleep and isolate states, but not the non-responsive state, conclude upon receipt of a partial wake command.
- View Dependent Claims (2)
- - 2. The passive radio frequency identification tag of claim 1, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non-responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

3. A passive radio frequency identification tag comprising:
- an antenna;
  
  a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, wherein communications initiate from the following state, wherein the following state comprises an initial communication state from a plurality of communication states, wherein the plurality of communication states allow response to a sequence of associated commands when receipt of the command sequence begins in the initial communication state;
  
  wherein the deep sleep state initiates in response to an event comprising receipt of a deep sleep command;
  
  wherein the non-responsive state concludes in response to a first occurring event from events comprising receipt of a wake command and internal cessation of the non-responsive state; and
  
  where the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep and non-responsive states, but not the isolate state, conclude upon receipt of a full wake command, and the sleep and isolate states, but not the non-responsive state, conclude upon receipt of a partial wake command.
- View Dependent Claims (4)
- - 4. The passive radio frequency identification tag of claim 3, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

5. A passive radio frequency identification tag comprising:
- an antenna;
  
  a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, wherein communications initiate from the state, wherein the following state comprises an initial communication state from a plurality of communication states, wherein the plurality of communication states allow response to a sequence of associated commands when receipt of the command sequence begins in the initial communication slate;
  
  wherein the deep sleep state initiates in response to an event comprising receipt of a deep sleep command;
  
  wherein the non-responsive state concludes in response to a first occurring event from events comprising receipt of a wake command and internal cessation of the non-responsive state; and
  
  where the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power;
  
  wherein the sleep and non-responsive states, but not the isolate state, conclude upon receipt of a full wake command, and the sleep state, but not the isolate and non-responsive states, conclude upon receipt of a partial wake command.
- View Dependent Claims (6)
- - 6. The passive radio frequency identification tag of claim 5, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

7. A passive radio frequency identification tag comprising:
- an antenna;
  
  a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, wherein communications initiate from the following state, wherein the following state comprises an initial communication state from a plurality of communication states, wherein the plurality of communication states allow response to a sequence of associated commands when receipt of the command sequence begins in the initial communication state;
  
  wherein the deep sleep state initiates in response to an event comprising receipt of a deep sleep command;
  
  wherein the non-responsive state concludes in response to a first occurring event from events comprising receipt of a wake command and internal cessation of the non-responsive state; and
  
  where the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep, isolate and non-responsive states conclude upon receipt of a full wake command, and the sleep state, but not the isolate and non-responsive states, conclude upon receipt of a partial wake command.
- View Dependent Claims (8)
- - 8. The passive radio frequency identification tag of claim 7, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

9. A passive radio frequency identification tag comprising:
- a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, wherein communications initiate from the following state, wherein the non-responsive state concludes upon internal cessation, the following state comprises an isolate state, and the deep sleep and isolate states conclude upon receipt of a full wake command.
- View Dependent Claims (10)
- - 10. The passive radio frequency identification tag of claim 9, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

11. A passive radio frequency identification tag comprising:
- an antenna;
  
  a radio frequency interface coupled with the antenna; and
  
  control logic that initiates a deep sleep state in response to an event, the deep sleep state comprising a non-responsive state that is independent of supplied power, and the control logic providing a following state entered upon conclusion of the non-responsive state, wherein communications initiate the following state, wherein the non-responsive state concludes upon internal cessation, the following state comprises the non-responsive state reinitiated, and the deep sleep state concludes upon receipt of a full wake command.
- View Dependent Claims (12, 13, 14, 15)
- - 12. The passive radio frequency identification tag or claim 11, wherein the command sequence comprises at least a portion of a binary search protocol.
  - 13. The passive radio frequency identification tag of claim 11, wherein the antenna comprises a near-field coupling clement configured to operate in a high frequency band.
  - 14. The passive radio frequency identification tag of claim 11, further comprising a non-volatile memory.
  - 15. The passive radio frequency identification tag of claim 11, where the radio frequency interface comprises an analog portion of a complementary metal oxide semiconductor (CMOS) integrated circuit (IC), the control logic comprises a digital portion of the CMOS IC, and the internal cessation of the non responsive state comprises a voltage decay of a charged RC circuit in the CMOS IC.

16. A system comprising:
- a radio frequency identification (RFID) tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep, isolate and non-responsive states conclude upon receipt of a full wake command, and the sleep and isolate states, but not the non-responsive state, conclude upon receipt of a partial wake command.
- View Dependent Claims (17, 18, 19)
- - 17. The system of claim 16, wherein the non-responsive state also concludes upon internal cessation.
  - 18. The system of claim 17, wherein each tag comprises an antenna and an integrated circuit (IC) that comprise the radio frequency sub-system and the control logic, and the internal cessation of the non-responsive state comprises a voltage decay of a charged RC circuit in the IC.
  - 19. The system of claim 18, wherein the antenna comprises a near-field coupling element configured to operate in a high frequency band, and the IC further comprises a non-volatile memory.

20. A system comprising:
- a radio frequency identification (RFID) tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep and non-responsive states, but not the isolate state, conclude upon receipt of a full wake command, and the sleep and isolate states, but not the non-responsive state, conclude upon receipt of a partial wake command.
- View Dependent Claims (21)
- - 21. The system of claim 20, wherein the non-responsive state also concludes upon internal cessation.

22. A system comprising:
- a radio frequency identification (RFID) tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep and non-responsive states, but not the isolate state, conclude upon receipt of a full wake command, and the sleep state, but not the isolate and non-responsive states, conclude upon receipt of a partial wake command.
- View Dependent Claims (23)
- - 23. The system of claim 22, wherein the non responsive state also concludes upon internal cessation.

24. A system comprising:
- a radio frequency identification RFID tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the control logic further provides a sleep state that is entered upon power up and an isolate state that is entered upon receipt of an isolate command, the sleep and isolate states being dependent upon supplied power, wherein the sleep, isolate and non-responsive states conclude upon receipt of a full wake command, and the sleep state, but not the isolate and non-responsive states, conclude upon receipt of a partial wake command.
- View Dependent Claims (25)
- - 25. The system of claim 24, wherein the non responsive state also concludes upon internal cessation.

26. A passive radio frequency identification tag comprising:
- means for receiving power and commands in a command structure; and
  
  means for entering a deep sleep state comprising a reset of the command structure and a non-responsive state that is independent of supplied power, wherein the non responsive state concludes in response to receipt of a wake command;
  
  wherein the means for entering the deep sleep state comprise;
  
  means for preventing premature triggering of the deep sleep state; and
  
  means for maintaining the deep sleep state when power is reapplied after loss of the received power.

27. A system comprising:
- a radio frequency identification (RFID) tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the non-responsive state concludes upon internal cessation, the control logic provides an isolate state entered upon conclusion of the non-responsive state, and the isolate state concludes upon receipt of the wake command.
- View Dependent Claims (28)
- - 28. The system of claim 27, wherein each tag comprises an antenna and an integrated circuit (IC) that comprise the radio frequency sub-system and the control logic, and the internal cessation of the non-responsive state comprises a voltage decay of a charged RC circuit in the IC.

29. A system comprising:
- a radio frequency identification (RFID) tag reader that sends commands including at least one sequence of associated commands used to identify an RFID tag on an article; and
  
  multiple passive RFID tags, each tag being attached to an article and each tag comprising a radio frequency sub-system and control logic coupled with the radio frequency sub-system, wherein the control logic resets tag communications and initiates a non-responsive state in response to at least one event, the non-responsive state being independent of supplied power, and the control logic responds to a wake command but ignores other commands in the command sequence while the tag is in the non-responsive state, and the wake command response concludes the non-responsive state;
  
  wherein the non-responsive state concludes upon internal cessation, and the non-responsive state is reinitiated upon conclusion of the non-responsive state by internal cessation.
- View Dependent Claims (30)
- - 30. The system of claim 29, wherein each tag comprises an antenna and an integrated circuit (IC) that comprise the radio frequency sub-system and the control logic, and the internal cessation of the non-responsive state comprises a voltage decay of a charged RC circuit in the IC.

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Litigation Data

Current Assignee
Smartrac Technology Fletcher, Inc. (Avery Dennison Corporation)
Original Assignee
ID Solutions Incorporated
Inventors
Roesner, Bruce B.
Primary Examiner(s)
Hofsass, Jeffery
Assistant Examiner(s)
AU, SCOTT D

Application Number

US10/666,226
Publication Number

US 20050057341A1
Time in Patent Office

1,119 Days
Field of Search

340/10.33, 340/10.2, 340/10.3, 340/10.4, 340/10.1, 340/572.3
US Class Current

340/10.33
CPC Class Codes

G06K 19/0723 the record carrier comprisi...

Deep sleep in an RFID tag

First Claim

6 Assignments

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Deep sleep in an RFID tag

First Claim

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Abstract

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30 Claims

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