Abstract: Disclosed are processes, devices and systems for exchanging messages between devices in support of measuring ranges between devices. In one particular implementation, a first wireless transceiver device may transmit one or more fine timing measurement (FTM) messages to a second wireless transceiver device, and receive a message acknowledging receipt of at least one of the one or more FTM messages. The first wireless transceiver device may authenticate the received message as being transmitted from the second wireless transceiver device.

Abstract: Disclosed are processes, devices and systems for exchanging messages between devices in support of measuring ranges between devices. In one particular implementation, a first wireless transceiver device may transmit one or more fine timing measurement (FTM) messages to a second wireless transceiver device, and receive a message acknowledging receipt of at least one of the one or more FTM messages. The first wireless transceiver device may authenticate the received message as being transmitted from the second wireless transceiver device.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM, bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a wireless personal area network circuit and an external wireless personal area network enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM , bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a wireless personal area network circuit and an external wireless personal area network enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM, bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a wireless personal area network circuit and an external wireless personal area network enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: A wireless communication device may contain a plurality of physical layer radios that communicate using a set of communication protocols. In a first wireless communication device, the transmissions by a first physical layer radio using a first communication protocol may be divided into a series of time slots. Some of the time slots may be partially unoccupied allowing negotiation and use of a second communication protocol during the unoccupied portion of the time slot and succeeding time slots.

Abstract: Interference between wireless devices communicating in close proximity to each other can result in performance degradation. Although the wireless devices may exchange information to schedule their communications, in some instances, a first wireless device may not notify the second wireless device before initiating a transmission. In addition to interference, components of the second wireless device may be damaged. Functionality can be implemented on the second wireless device to detect transmissions in the first wireless device and accordingly suspend communications of the second wireless device. This can help mitigate interference between the first and second wireless devices and prevent component damage of the second wireless device.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM, bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a wireless personal area network circuit and an external wireless personal area network enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: Wireless devices may contain multiple radio transceivers, each conforming to different communication protocols. A first transceiver conforming to a first communication protocol in a first wireless device may be able to receive, detect, and/or decode messages transmitted by a second transceiver in a second wireless device conforming to a second communication protocol. The first transceiver may communicate received, detected, and/or decoded information to a different transceiver in the same first wireless device, thus enabling the collocated transceivers to work in concert efficiently. A wideband transceiver using a set of multiple sub-channels in parallel may receive, detect, and/or decode messages transmitted by a narrowband transceiver using a set of multiple channels serially, thereby reducing scan time and power consumption.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM, bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a BLUETOOTH circuit and an external BLUETOOTH enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: A method and system for operating a wireless access point is disclosed. In an embodiment, a wireless access point determines whether bursty interference is present within the operating range of the wireless access point and then adapts a transmission characteristic in response to the determination. In an embodiment, the wireless access point determines whether bursty interference is present by changing at least one transmission characteristic and monitoring the resulting error rates. The presence of bursty interference can be detected if a lowering of the transmission rate causes an increase in the error rate. The increase in the error rate is a result of the lower transmission rate and corresponding longer transmission time for each frame, which in turn increases the likelihood that a frame will overlap with bursty interference.

Abstract: A mobile communication device capable of dynamically sharing antennas is disclosed. The mobile communication device includes a wireless local area network (WLAN) control circuit to generate a Wi-Fi signal, a Bluetooth control circuit to generate a Bluetooth signal, and a cellular control circuit to generate a cellular data signal. The Wi-Fi and Bluetooth control circuits are coupled to a first antenna, while the cellular control signal is coupled to a second antenna. The mobile communication device further includes an antenna sharing logic coupled between the control circuits and the first and second antennas. The antenna sharing logic is configured to selectively couple either the Wi-Fi control circuit or the Bluetooth control circuit to the second antenna based, at least in part, on a level of activity of the cellular control circuit.

Abstract: A peripheral device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna or bus communications port controller interface or both. In the peripheral device, an EEPROM, bus communications controller interface, NFC interface, antenna, and logic controller operate to receive and transmit configuration and calibration data between a BLUETOOTH circuit and an external BLUETOOTH enabled device. The dual interfaced EEPROM is operable to share or partition its EEPROM between an NFC interface and a bus communications controller.

Abstract: Wireless devices may contain multiple radio transceivers, each conforming to different communication protocols. A first transceiver conforming to a first communication protocol in a first wireless device may be able to receive, detect, and/or decode messages transmitted by a second transceiver in a second wireless device conforming to a second communication protocol. The first transceiver may communicate received, detected, and/or decoded information to a different transceiver in the same first wireless device, thus enabling the collocated transceivers to work in concert efficiently. A wideband transceiver using a set of multiple sub-channels in parallel may receive, detect, and/or decode messages transmitted by a narrowband transceiver using a set of multiple channels serially, thereby reducing scan time and power consumption.

Abstract: A common coexistence timer can be implemented on collocated or proximate wireless radio devices so that timing information associated with scheduled communications of each of the wireless radio devices is communicated with a common time reference. The coexistence timer provides the common time reference for the wireless radio devices. A transmitting wireless radio device can calculate a difference time associated with the timing information of a scheduled communication and can provide the difference time to a receiving wireless radio device. The receiving wireless radio device can convert the difference time into a time format corresponding to the receiving wireless radio device's local time reference. This can minimize interference between the collocated or proximate wireless radio devices, thus minimizing performance degradation, packet collision, and interference.

Abstract: The present invention discloses a wireless telephone system using microphone arrays together with additional signal processing to suppress the background noise in the surrounding environment. The signal processing resources of a wireless telephone and multi-channel transmission capabilities of the Bluetooth transmission are used to suppress the background noise. The wireless telephone system includes a Bluetooth transceiver communicating to a wireless telephone through a multi-channel Bluetooth transmission, and an array of microphones coupled to the Bluetooth transceiver. The array of microphones includes a first microphone producing a first audio signal output and a second microphone producing a second audio signal output. The first audio signal output and second audio signal output are transmitted to the wireless telephone through the first channel and second channel of multi-channel Bluetooth transmission respectively.

Abstract: A device and a method for programming the read/writeable memory of the RFID circuitry by communications between either RF antenna (12) or bus communications port controller interface (4) or both. In a peripheral device (1), an EEPROM (6), bus communications controller interface (4), NFC interface (8), antenna (12), and logic controller (10) operate to receive and transmit configuration and calibration data between a Bluetooth circuit (40) and an external device (22). The dual interfaced EEPROM (2) shares or partitions its EEPROM (6) between the Bluetooth circuit (40) and the external device (22).

Abstract: Wireless radio devices that communicate in close proximity to each other typically suffer from interference. Such interference between the wireless radio devices can result in performance degradation in either/both the wireless radio devices. Functionality can be implemented to schedule communications of one wireless radio device around communications of the other wireless radio device based on a coexistence table comprising scheduling information of the other wireless radio device. Communications of the wireless radio devices can also be controlled based on communication priorities. Functionality can also be implemented to dynamically control a number of packets transmitted in an aggregate based on the scheduling information.

Abstract: Wireless devices may contain multiple radio transceivers, each conforming to different communication protocols. A first transceiver conforming to a first communication protocol in a first wireless device may be able to receive, detect, and/or decode messages transmitted by a second transceiver in a second wireless device conforming to a second communication protocol. The first transceiver may communicate received, detected, and/or decoded information to a different transceiver in the same first wireless device, thus enabling the collocated transceivers to work in concert efficiently. A wideband transceiver using a set of multiple sub-channels in parallel may receive, detect, and/or decode messages transmitted by a narrowband transceiver using a set of multiple channels serially, thereby reducing scan time and power consumption.

Abstract: The present invention provides a system and a method for transferring data between a Bluetooth device (BTD) and a wireless local area network (WLAN) device which uses packet traffic arbitration (PTA). The method of the present invention includes encoding data using a plurality of control lines between the BTD and WLAN, transmitting the data and acknowledging the data reception using the existing control lines. The method according to the present invention allows BTD and WLAN device to transmit additional scheduling information, schedule the medium access, and reduce the number of collisions between the two devices.