NFC collision avoidance with controllable NFC transmission delay timing
First Claim
1. A first near field communication (NFC) circuit comprising:
- an antenna configured to inductively couple to signals emitted by a second NFC circuit;
a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit;
a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and
a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data;
wherein the transmission delay circuit is configured to set the defined delay time based on determining that signals from a third NFC circuit were received by the transceiver circuit within a threshold time after the transceiver circuit became sufficiently powered on to operate to transmit the data.
3 Assignments
0 Petitions
Accused Products
Abstract
A first near field communication (NFC) circuit includes an antenna, a charging circuit, a transceiver circuit, and a transmission delay circuit. The antenna is configured to inductively couple to signals emitted by a second NFC circuit. The charging circuit is configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit. The transceiver circuit is configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit. The transmission delay circuit is configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data. Related accessories for user equipment, user equipment, and methods are disclosed.
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Citations
22 Claims
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1. A first near field communication (NFC) circuit comprising:
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an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to set the defined delay time based on determining that signals from a third NFC circuit were received by the transceiver circuit within a threshold time after the transceiver circuit became sufficiently powered on to operate to transmit the data. - View Dependent Claims (2, 3, 4)
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5. A first near field communication (NFC) circuit comprising:
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an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to set the defined delay time based on determining that signals from a third NFC circuit were received by the transceiver circuit while the transceiver circuit is transmitting the data. - View Dependent Claims (6)
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7. A first near field communication (NFC) circuit comprising:
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an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to count a number of times that data has been transmitted by the transceiver circuit, and to set the defined delay time based on the count. - View Dependent Claims (8, 9, 10)
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11. A first near field communication (NFC) circuit comprising:
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an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; and a delay control switch connected to the transmission delay circuit and configured to be mechanically actuated by a user, wherein while the delay control switch is mechanically actuated the transceiver circuit delays transmission of the data until expiration of the defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data, and while the delay control switch is not mechanically actuated the transceiver circuit is disabled from transmitting the data.
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12. An accessory for a user equipment, the accessory comprising:
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a housing that is connectable to the user equipment; and a first near field communication (NFC) circuit attached to the housing, the first NFC circuit comprising; an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data to the second NFC circuit until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to set the defined delay time based on determining that signals from a third NFC circuit were received by the transceiver circuit within a threshold time after the transceiver circuit became sufficiently powered on to operate to transmit the data. - View Dependent Claims (13, 14, 15, 16)
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17. An accessory for a user equipment, the accessory comprising:
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a housing that is connectable to the user equipment; and a first near field communication (NFC) circuit attached to the housing, the first NFC circuit comprising; an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data to the second NFC circuit until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to set the defined delay time based on determining that signals from a third NFC circuit were received by the transceiver circuit while the transceiver circuit is transmitting the data.
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18. An accessory for a user equipment, the accessory comprising:
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a housing that is connectable to the user equipment; and a first near field communication (NFC) circuit attached to the housing, the first NFC circuit comprising; an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; and a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data to the second NFC circuit until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; wherein the transmission delay circuit is configured to count a number of times that data has been transmitted by the transceiver circuit, and to set the defined delay time based on the count. - View Dependent Claims (19)
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20. An accessory for a user equipment, the accessory comprising:
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a housing that is connectable to the user equipment; and a first near field communication (NFC) circuit attached to the housing, the first NFC circuit comprising; an antenna configured to inductively couple to signals emitted by a second NFC circuit; a charging circuit configured to output power provided by the inductive coupling through the antenna to the signals emitted by the second NFC circuit; a transceiver circuit configured to be powered by the charging circuit to transmit data for receipt by the second NFC circuit; a transmission delay circuit configured to be powered by the charging circuit and control the transceiver circuit to delay transmission of the data to the second NFC circuit until expiration of a defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data; and a delay control switch connected to the transmission delay circuit and configured to be mechanically actuated by a user, wherein while the delay control switch is mechanically actuated the transceiver circuit delays transmission of the data until expiration of the defined delay time after the transceiver circuit has become sufficiently powered on to operate to transmit the data, and while the delay control switch is not mechanically actuated the transceiver circuit is disabled from transmitting the data.
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21. A user equipment comprising:
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a first near field communication (NFC) circuit that is configured to emit a signal to provide power through inductive coupling to a second NFC circuit of an accessory configured to be used with the user equipment; and a processor that is configured to transmit a delay setting signal through the first NFC circuit to the second NFC circuit of the accessory that controls a defined delay time that the second NFC circuit delays before beginning to transmit data after the second NFC circuit has become sufficiently powered on to operate to transmit the data; wherein the processor is configured to transmit the delay setting signal through the first NFC circuit to the second NFC circuit based on determining that signals from a third NFC circuit were received by the first NFC circuit within a threshold time after the first NFC circuit began emitting the signal to provide power through inductive coupling to the second NFC circuit of the accessory.
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22. A user equipment comprising:
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a first near field communication (NFC) circuit that is configured to emit a signal to provide power through inductive coupling to a second NFC circuit of an accessory configured to be used with the user equipment; and a processor that is configured to transmit a delay setting signal through the first NFC circuit to the second NFC circuit of the accessory that controls a defined delay time that the second NFC circuit delays before beginning to transmit data after the second NFC circuit has become sufficiently powered on to operate to transmit the data; wherein the processor is configured to transmit the defined delay time through the first NFC circuit to the second NFC circuit based on determining that signals from a third NFC circuit were received by the first NFC circuit while the first NFC circuit was receiving the data from the second NFC circuit of the accessory.
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Specification