RU2016111262A - TRANSFER COMPENSATION FOR THE FOB - Google Patents

Claims (47)

1. A method comprising the steps of: transmitting a first output signal at a first installed power; receiving, by the feedback mechanism in the key fob, a first feedback signal indicating a first output power level of the first output signal; comparing the first output power level with a threshold level; and transmitting a second output signal at a second installed power greater than the first installed power if the first output power level is below a threshold level. 2. The method according to claim 1, further comprising stages in which: receiving, by a feedback mechanism, a second feedback signal indicating a second output power level of the second output signal; comparing a second output power level with a threshold level; transmit a third output signal at a third installed power greater than the second installed power if the second output power level is below a threshold level. 3. The method of claim 1, further comprising the step of determining a threshold level from the calibration data. 4. The method according to claim 1, further comprising the step of determining the first installed power from the calibration data. 5. The method of claim 1, wherein the feedback mechanism includes an RF detection element. 6. The method of claim 1, wherein the keyfob includes a plurality of transceiver antennas, the plurality of transceiver antennas including a first transceiver antenna and a second transceiver antenna, the method further comprising the steps of: receive a detection signal from the sensor; determine the position of the object near the transmitter based on the detection signal; selecting one of the first transceiver antenna and the second transceiver antenna to transmit the first output signal based on the determination of the position of the hand; and choose another from the first transceiver antenna and the second transceiver antenna for feedback transmission of the first output signal to the feedback mechanism. 7. The method of claim 1, further comprising the step of: transmitting a fourth output signal at a fourth installed power less than the first installed power if the first output level is above a threshold level. 8. The method according to p. 1, in which the first installed power is increased by a first value to a second installed power, the first value being based on empirical data. 9. The method of claim 1, wherein comparing the first output power level with a threshold value includes the steps of calculating the difference between the first feedback signal and the threshold level and determining the first value based on at least partially calculated difference. 10. A keychain containing: a memory device; transmitter; a feedback mechanism programmed to provide a first feedback signal; and a processor programmed to transmit a first output signal at a first installed power, receive a first feedback signal indicating a first output power level of a first output signal, compare a first output power level with a threshold level, and transmit a second output signal at a second installed power if the power level the first feedback signal is below a threshold level, wherein the second installed power is greater than the first installed power. 11. The key fob of claim 10, wherein the processor is further programmed to receive a second feedback signal indicating a second power level of the second output signal by a feedback mechanism, comparing the second output level with a threshold level and transmitting the third signal at a third installed power, greater than the second installed power if the second output power level is below a threshold level. 12. The key fob according to claim 10, in which the stored threshold level is determined from the calibration data. 13. The key fob of claim 10, wherein the first installed power is determined from the calibration data. 14. The key fob of claim 10, wherein the feedback mechanism includes an RF detection element. 15. The key fob according to claim 14, wherein the feedback antenna is a conductor track remote from the transceiver antenna included in the key fob. 16. The keychain of claim 10, further comprising: a plurality of transceiver antennas, the plurality of transceiver antennas including a first transceiver antenna and a second transceiver antenna; and at least one sensor; moreover, the processor is additionally programmed with the ability to: receiving a detection signal from at least one sensor, determining the position of the object near the transmitter based on the detection signal, selecting one of the first transceiver antenna and the second transceiver antenna for transmitting the first output signal based on the determined position of the object; and selecting another of the first transceiver antenna and the second transceiver antenna for feedback feedback of the first output signal to the feedback mechanism. 17. The key fob of claim 10, wherein the processor is further programmed to transmit a fourth output signal at a fourth installed power less than the first installed power if the first output power level is greater than a threshold level. 18. The key fob of claim 10, wherein the first installed power is increased by a first amount to a second installed power, the first value being based on empirical data. 19. The key fob of claim 10, wherein comparing the first output power level with a threshold value includes calculating a difference between the first feedback signal and the threshold level and determining a first value based on the at least partially calculated difference. 20. A keychain containing: a memory device; transmitter; a plurality of transceiver antennas, including a first transceiver antenna and a second transceiver antenna; a feedback mechanism programmed to provide a first feedback signal; and a processor programmed to transmit a first output signal at a first installed power, receive a first feedback signal indicating a first output power level of a first output signal, compare a first output power level with a threshold level, and adjust settings between a first transceiver antenna and a second transceiver antenna if the power level of the first feedback signal is below a threshold level.