Abstract: There is provided a method, an apparatus and a computer program product, which introduces a phase shift between radiation phase patterns of associated antennas which are applicable in transmitting and/or receiving radio frequency signals simultaneously via an air interface, wherein the phase shift is introduced in order to obtain orthogonality between the associated radio frequency signals.

Abstract: This invention relates to wireless communication systems, specifically to methods for reducing interference. The invention allows a mobile station to determine if certain transmissions of the mobile station cause interference to reception by a second receiver in the mobile station, and indicate to the network that a change in a transmission parameter of the mobile station is desired. The network can then change a transmission parameter to reduce interference observed by the second receiver.

Abstract: A device 22 includes a communication system transceiver 40 for exchanging signals in a first frequency band and a receiver 30 for receiving signals in a second frequency band. In order to improve the performance of the receiver. A processing portion 34 of the devices detects the presence of signals interfering with the signals in the second frequency band and also determines a timing pattern for interfering signals based on a timing information which is indicative of the timing for transmissions employed by the transceiver 40. A manipulation of signals reaching the receiver 30 during intervals defined by the determined timing pattern is then done, in order to reduce a performance degradation due to interfering signals originating from a transmitter 21 employing the same timing for transmissions as the transceiver 40. A corresponding method is also disclosed.

Abstract: An apparatus including an antenna element having an impedance and a load phase; a phase shifter coupled to the antenna element; and a controller for controlling, in response to a change in a context of the apparatus, the phase shifter to compensate for a consequent change in the impedance and the load phase of the antenna element.

Abstract: An apparatus includes a switch controllable selectively to couple a powered component to a battery output connection or to a battery bypass circuit coupled to a charging input.

Abstract: This invention relates to wireless communication systems, specifically to methods for reducing interference. The invention allows a mobile station to determine if certain transmissions of the mobile station cause interference to reception by a second receiver in the mobile station, and indicate to the network that a change in a transmission parameter of the mobile station is desired. The network can then change a transmission parameter to reduce interference observed by the second receiver.

Abstract: An apparatus controlling multiple radio processes for simultaneous operation At least one of the radio processes uses a substantially continuous transmitter. A controller is configured to determine an interference level and change parameters in the transmitter in order to reduce the interference level. Parameters controlled by the controller include the transmission frequency, modulation method, signal level and a received signal quality.

Abstract: A device 1 comprises a communication system transmitter 30 for transmitting signals via a radio interface in a first frequency band. The device further comprises a receiver 10 for receiving signals via a radio interface in a second frequency band. The receiver 10 includes an attenuating component 13 for attenuating signals received by the receiver 10. Moreover, the device comprises a controlling portion 50 setting an attenuation which is applied by the attenuating component 13 to received signals to a higher value, in case the communication system transmitter 30 transmits signals with a power level exceeding a certain value, and setting an attenuation which is applied by the attenuating component 13 to received signals to a lower value, in case no signal is transmitted by the communication system transmitter 30. The invention relates equally to a corresponding method.

Abstract: A device 20 includes a receiver 21 for receiving and processing signals at least in a first frequency band and an antenna 216 which is connected to the receiver 21. In order to improve the performance of such a receiver, the device 20 in addition includes a tuning component 217 for shifting a frequency response of the antenna 216 from the first frequency band to a second frequency band. Further, the device 20 includes a controlling portion 221 causing the tuning component 217 to shift the frequency response of the antenna 216 from the first frequency band to the second frequency band, in case a wideband noise is expected in the first frequency band. A corresponding method is shown as well.

Abstract: A receiver 650 operates in close proximity to at least one other component 610, 611, 612 causing interferences in signals received by the receiver 650. It is determined (steps 2002; 2003) whether and at which frequency a higher harmonic of and/or an inter-modulation product with signals generated by the other component 610 causes interference in signals received by the receiver 650, based on information about signals generated by the other component 610, 611, 612. At least one characteristic of the receiver 650 is adjusted to diminish an influence by a determined interference.

Abstract: A method is disclosed for operating a multi-mode mobile station, wherein each mode shares at least one common band of frequencies. The method includes transmitting a signal from a first antenna circuit of the mobile station in the common band of frequencies and, while transmitting, electronically detuning a second antenna circuit of the mobile station such that the second antenna circuit is not resonant in the common band of frequencies. As an example, the common band of frequencies includes 1900 MHz. The step of detuning includes varying an impedance of at least one component that forms a part of the second antenna circuit, where the at least one component can be a stripline or a PIN diode of a FET diode uses as switch for making an impedance change. The at least one component can also be a normally active component that is put into a passive state.

Abstract: A device 22 includes a communication system transceiver 40 for exchanging signals in a first frequency band and a receiver 30 for receiving signals in a second frequency band. In order to improve the performance of the receiver. A processing portion 34 of the devices detects the presence of signals interfering with the signals in the second frequency band and also determines a timing pattern for interfering signals based on a timing information which is indicative of the timing for transmissions employed by the transceiver 40. A manipulation of signals reaching the receiver 30 during intervals defined by the determined timing pattern is then done, in order to reduce a performance degradation due to interfering signals originating from a transmitter 21 employing the same timing for transmissions as the transceiver 40. A corresponding method is also disclosed.

Abstract: The present invention relates to a radio communication apparatus for checking antenna interface connections of first antenna means of the radio communication apparatus, wherein a predetermined signal is transmitted at a frequency within a reception band of the first antenna means by using a second antenna means of the radio communication apparatus. The transmitted predetermined signal is received through the first antenna means to obtain a reception output which is compared with the predetermined signal. Thereby, a self-test option can be provided in the communication apparatus, e.g. mobile phone, so that no extra components are required during manufacturing and antenna operation can be continuously monitored during usage.

Abstract: A device 20 includes a receiver 21 for receiving and processing signals at least in a first frequency band and an antenna 216 which is connected to the receiver 21. In order to improve the performance of such a receiver, the device 20 in addition includes a tuning component 217 for shifting a frequency response of the antenna 216 from the first frequency band to a second frequency band. Further, the device 20 includes a controlling portion 221 causing the tuning component 217 to shift the frequency response of the antenna 216 from the first frequency band to the second frequency band, in case a wideband noise is expected in the first frequency band. A corresponding method is shown as well.

Abstract: A device 1 comprises a communication system transmitter 30 for transmitting signals via a radio interface in a first frequency band. The device further comprises a receiver 10 for receiving signals via a radio interface in a second frequency band. The receiver 10 includes an attenuating component 13 for attenuating signals received by the receiver 10. Moreover, the device comprises a controlling portion 50 setting an attenuation which is applied by the attenuating component 13 to received signals to a higher value, in case the communication system transmitter 30 transmits signals with a power level exceeding a certain value, and setting an attenuation which is applied by the attenuating component 13 to received signals to a lower value, in case no signal is transmitted by the communication system transmitter 30. The invention relates equally to a corresponding method.

Abstract: A data communication method in a communication system is provided. Speech and/or data is transmitted and received by a mobile device of the communication system using a predetermined transmission resource. The location of the mobile device of the communication system is determined. Information about the location of the mobile device is transmitted, with the speech or data, to a predetermined group of users by using the predetermined transmission resource.

Abstract: A device that has an antenna and an internal RF circuit is connected by an electrical conductor that has a first portion coupled to the RF circuit and an opposed, flexibly resilient second portion. The second portion defines a contact point and a testing point. The contact point is normally electrically coupled to the antenna by a bias in the second portion. When a biasing force such as a RF testing probe exerts force on the testing point through an aperture of a device housing, the normal bias of the second portion is overcome and contact is temporarily interrupted between the antenna and the contact point. The RF probe is placed in electrical contact with the RF circuit by contact with the testing point, which may be directly when a cover over the aperture is removable, or via a conductive pathway imposed through a flexible membrane that is fixed to the housing as a cover over the aperture.

Abstract: A device that has an antenna and an internal RF circuit is connected by an electrical conductor that has a first portion coupled to the RF circuit and an opposed, flexibly resilient second portion. The second portion defines a contact point and a testing point. The contact point is normally electrically coupled to the antenna by a bias in the second portion. When a biasing force such as a RF testing probe exerts force on the testing point through an aperture of a device housing, the normal bias of the second portion is overcome and contact is temporarily interrupted between the antenna and the contact point. The RF probe is placed in electrical contact with the RF circuit by contact with the testing point, which may be directly when a cover over the aperture is removable, or via a conductive pathway imposed through a flexible membrane that is fixed to the housing as a cover over the aperture.

Abstract: A method is disclosed for operating a multi-mode mobile station, wherein each mode shares at least one common band of frequencies. The method includes transmitting a signal from a first antenna circuit of the mobile station in the common band of frequencies and, while transmitting, electronically detuning a second antenna circuit of the mobile station such that the second antenna circuit is not resonant in the common band of frequencies. As an example, the common band of frequencies includes 1900 MHz. The step of detuning includes varying an impedance of at least one component that forms a part of the second antenna circuit, where the at least one component can be a stripline or a PIN diode of a FET diode uses as switch for making an impedance change. The at least one component can also be a normally active component that is put into a passive state.