Abstract: Embodiments of methods and systems for automatic power control (APC) in a communications device that communicates via inductive coupling are described. In an embodiment, a method for APC in a communications device that communicates via inductive coupling involves obtaining multiple system parameters, determining an APC configuration of the communications device from the system parameters, and controlling a transmission configuration of the communications device based on the APC configuration. Other embodiments are also described.

Abstract: A near field communication (NFC) reader is disclosed. The NFC reader includes an antenna front-end that includes a low pass filter, a matching circuit and an antenna coil. The NFC reader also includes a NFC controller. The NFC controller includes an oscillator coupled to the antenna front-end and the NFC controller is configured to detect a presence of an object in proximity of the antenna front-end using one or more changes in an output of the oscillator. The antenna front-end creates a tank circuit for the oscillator.

Abstract: Embodiments of methods and systems for operating a communications device that communicates via inductive coupling are described. In an embodiment, a method for operating a communications device that communicates via inductive coupling involves detecting a system condition associated with the communications device and tuning a matching network of the communications device in response to the system condition, where the matching network includes a hybrid transformer that separates a receiver of the communications device from a transmitter of the communications device. Other embodiments are also described.

Abstract: Embodiments of methods and systems for operating a communications device are described. In one embodiment, a method for operating a communications device that communicates via inductive coupling involves adjusting a phase configuration of the communications device in response to at least one system or environmental parameter, modulating a carrier signal with the adjusted phase configuration using active load modulation (ALM), and transmitting the modulated carrier signal from the communications device for inductive coupling. In some embodiments, the at least one system or environmental parameter is selected from one or more of the following: a distance information, a geometric information, a system code, a technology code, a transmitter current and/or a transmitter power, a detuning condition, a quality factor and a resonant frequency of a resonant system.

Abstract: Aspects of the disclosure are directed to auto-sweeping impedance-matching circuitry that matches an impedance of an RF antenna. As may be implemented in accordance with one or more embodiments, a transmitter that is configured and arranged to transmit signals to remote devices via the RF antenna, is used to communicate a plurality of test signals to the impedance-matching circuitry, with each test signal having a designated frequency and/or test signal pattern that is different than the designated frequency and/or test signal pattern of the other test signals. A characteristic of each of the test signals as passed through the impedance-matching circuitry is detected. For each of the test signals generated for the auto-sweep, the detected characteristic is compared to an expected characteristic for the test signal, and an output indicative of compliance of the impedance-matching circuitry with a design specification is generated and transmitted in response to the comparison.

Abstract: In accordance with a first aspect of the present disclosure, a near field communication (NFC) device is provided, comprising a processor and a wake-up detector, wherein the processor and the wake-up detector are configured to operate in different power domains, and wherein the wake-up detector is configured to wake up the processor in response to receiving power derived from a radio frequency (RF) field. In accordance with a second aspect of the present disclosure, a method of managing power in an NFC device is conceived, said NFC device comprising a processor and a wake-up detector that operate in different power domains, wherein the wake-up detector wakes up the processor in response to receiving power derived from an RF field.

Abstract: A device for inductively coupled communications includes an NFC module for generating an electromagnetic carrier signal and modulating the carrier signal according to data to be transmitted, and an antenna circuit coupled to and driven by said NFC module with the modulated carrier signal. The device includes an RF front end coupled between said NFC module and said antenna circuit. The RF front end includes a balanced to unbalanced (Balun) transformer and a tuning capacitor. The Balun transformer has a first winding coupled to said NFC module via differential transmitter terminals of said NFC module and a second winding coupled to said tuning capacitor. A first terminal of said tuning capacitor is coupled to a receiving terminal of said NFC module. The Balun transformer and tuning capacitor provide a function of an electromagnetic compatibility (EMC) filter.

Abstract: Embodiments of an interface system for interfacing between an NFC controller and a secure element are disclosed. In one embodiment, an interface system includes an interface memory, an interface controller, an NFC controller interface configured to exchange data between the interface system and an NFC controller, and a secure element interface configured to exchange data between the interface system and a secure element.

Abstract: Embodiments of an interface system for interfacing between an NFC controller and a secure element are disclosed. In one embodiment, an interface system includes an interface memory, an interface controller, an NFC controller interface configured to exchange data between the interface system and an NFC controller, and a secure element interface configured to exchange data between the interface system and a secure element.

Abstract: A device for inductively coupled communications includes an NFC module for generating an electromagnetic carrier signal and modulating the carrier signal according to data to be transmitted, and an antenna circuit coupled to and driven by said NFC module with the modulated carrier signal. The device includes an RF front end coupled between said NFC module and said antenna circuit. The RF front end includes a balanced to unbalanced (Balun) transformer and a tuning capacitor. The Balun transformer has a first winding coupled to said NFC module via differential transmitter terminals of said NFC module and a second winding coupled to said tuning capacitor. A first terminal of said tuning capacitor is coupled to a receiving terminal of said NFC module. The Balun transformer and tuning capacitor provide a function of an electromagnetic compatibility (EMC) filter.

Abstract: Embodiments of methods and systems for operating a communications device that communicates via inductive coupling are described. In an embodiment, a method for operating a communications device that communicates via inductive coupling involves obtaining at least one system or environmental parameter related to the communications device and adjusting a communications configuration of the communications device in response to the at least one system or environmental parameter. Other embodiments are also described.

Abstract: The present invention provides for a method and system for compensating phase offset caused by a matching network and antenna of a communications device. The method comprises: generating a mapping that correlates phase offset with a characteristic parameter; measuring the characteristic parameter for the communications device; using the measured characteristic parameter and the mapping to determine a phase offset for the communications device; and using the determined phase offset to compensate for the phase offset caused by the matching network and antenna of the communications device. The present invention also provides for a method and system for measuring a phase offset caused by a matching network and antenna of a communications device.

Abstract: Embodiments of methods and systems for automatic power control (APC) in a communications device that communicates via inductive coupling are described. In an embodiment, a method for APC in a communications device that communicates via inductive coupling involves storing a universal APC table for the communications device, adjusting the universal APC table in response to at least one system parameter, and controlling a transmission configuration of the communications device based on the adjusted APC table. Other embodiments are also described.

Abstract: The present invention provides for a method and system to compensate phase offset caused by the IC (integrated circuit) by making use of factory measurement stored as trim-data in the IC. In the final customer product, the trim-data is mapped to the actual platform environment such that the respective phase offset can be compensated.

Abstract: The present invention provides for a method and system for compensating phase offset caused by a matching network and antenna of a communications device. The method comprises: generating a mapping that correlates phase offset with a characteristic parameter; measuring the characteristic parameter for the communications device; using the measured characteristic parameter and the mapping to determine a phase offset for the communications device; and using the determined phase offset to compensate for the phase offset caused by the matching network and antenna of the communications device. The present invention also provides for a method and system for measuring a phase offset caused by a matching network and antenna of a communications device.

Abstract: Embodiments of methods and systems for attenuator phase compensation are described. In an embodiment, a method for attenuator phase compensation involves determining a phase compensation value for an attenuator based on an attenuation configuration of the attenuator and performing phase compensation according to the phase compensation value to maintain a constant phase response.

Abstract: Embodiments of methods and systems for operating a communications device are described. In an embodiment, a method for operating a communications device that communicates via inductive coupling involves adjusting a phase configuration of the communications device in response to at least one system or environmental parameter, modulating a carrier signal with the adjusted phase configuration using active load modulation (ALM), and transmitting the modulated carrier signal from the communications device for inductive coupling.

Abstract: The present invention provides for a method and system to compensate phase offset caused by the IC (integrated circuit) by making use of factory measurement stored as trim-data in the IC. In the final customer product, the trim-data is mapped to the actual platform environment such that the respective phase offset can be compensated.

Abstract: High resolution tuning of the phase for active load modulation (ALM) in a near field communication (NFC) system is desirable for optimizing the load modulation amplitude. The present disclosure describes that, in one embodiment, high resolution tuning of the phase can be achieved by adjusting the attenuation factor of a radio frequency (RF) attenuator in the NFC system.

Abstract: Wireless terminals such as mobile phones which provide cellular communications for example for telephony and short message service (SMS) are well known and more recently such terminals are also able to provide FM radio reception. RDS information received at such a terminal is used to access a service provider via any suitable medium e.g. email, fax, telephone, SMS message, etc. This enables the end user to access the service provider quickly and effectively for example, to purchase a copy of a record heard on the radio or to request information about a product advertised on the radio. Also, the service provider is able to deal with the user interaction effectively because the RDS information can be used to assess the user's requirements for the transaction in advance. In a preferred example, the service provider comprises a contact center such as a call center and the RDS information is used to allocate an appropriate call center agent.