Patent application number | Description | Published |
20100159829 | Tightly-coupled near-field communication-link connector-replacement chips - Tightly-coupled near-field transmitter/receiver pairs are deployed such that the transmitter is disposed at a terminal portion of a first conduction path, the receiver is disposed at a terminal portion of a second conduction path, the transmitter and receiver are disposed in close proximity to each other, and the first conduction path and the second conduction path are discontiguous with respect to each other. In some embodiments of the present invention, close proximity refers to the transmitter antenna and the receiver antenna being spaced apart by a distance such that, at wavelengths of the transmitter carrier frequency, near-field coupling is obtained. In some embodiments, the transmitter and receiver are disposed on separate substrates that are moveable relative to each other. In alternative embodiments, the transmitter and receiver are disposed on the same substrate. | 06-24-2010 |
20120263244 | INTEGRATED CIRCUIT WITH ELECTROMAGNETIC COMMUNICATION - A system for transmitting or receiving signals may include an integrated circuit (IC), a transducer operatively coupled to the IC for converting between electrical signals and electromagnetic signals; and insulating material that fixes the locations of the transducer and IC in spaced relationship relative to each other. The system may further include a lead frame providing external connections to conductors on the IC. An electromagnetic-energy directing assembly may be mounted relative to the transducer for directing electromagnetic energy in a region including the transducer and in a direction away from the IC. The directing assembly may include the lead frame, a printed circuit board ground plane, or external conductive elements spaced from the transducer. In a receiver, a signal-detector circuit may be responsive to a monitor signal representative of a received first radio-frequency electrical signal for generating a control signal that enables or disables an output from the receiver. | 10-18-2012 |
20120286049 | SCALABLE HIGH-BANDWIDTH CONNECTIVITY - A scalable, high-bandwidth connectivity architecture for portable storage devices and memory modules may utilize EHF communication link chip packages mounted in various two-dimensional and three-dimensional configurations on planar surfaces such as printed circuit boards. Multiple electromagnetic communication links between devices distributed on major faces of card-like devices may be provided with respectively aligned pairs of communication units on each device. Adjacent communication units on a printed circuit board may transmit or receive electromagnetic radiation having different polarization, such as linear or elliptical polarization. Power and communication between communication devices may both be provided wirelessly. | 11-15-2012 |
20120290760 | SCALABLE HIGH-BANDWIDTH CONNECTIVITY - A scalable, high-bandwidth connectivity architecture for portable storage devices and memory modules may utilize EHF communication link chip packages mounted in various two-dimensional and three-dimensional configurations on planar surfaces such as printed circuit boards. Multiple electromagnetic communication links between devices distributed on major faces of card-like devices may be provided with respectively aligned pairs of communication units on each device. Adjacent communication units on a printed circuit board may transmit or receive electromagnetic radiation having different polarization, such as linear or elliptical polarization. Power and communication between communication devices may both be provided wirelessly. | 11-15-2012 |
20120295539 | EHF COMMUNICATION WITH ELECTRICAL ISOLATION AND WITH DIELECTRIC TRANSMISSION MEDIUM - A system for transferring electrical signals while providing electrical isolation may include a first circuit and a second circuit electrically isolated from the first circuit. The first circuit may provide a first electrical signal path for conveying a transmit electrical signal and including a first EHF communication unit. The first EHF communication unit may be configured to receive the transmit electrical signal and to electromagnetically transmit an electromagnetic EHF signal representative of the electrical signal. The second circuit may provide a second electrical signal path and including a second EHF communication unit. The second EHF communication unit may be configured to electromagnetically receive the transmitted electromagnetic EHF signal, extract a received electrical signal from the received electromagnetic EHF signal, and apply the received electrical signal to the second electrical signal path. A dielectric element may conduct the electromagnetic EHF signal between the first and second EHF communication units. | 11-22-2012 |
20120307932 | DELTA MODULATED LOW POWER EHF COMMUNICATION LINK - A system for communicating modulated EHF signals may include a modulation circuit responsive to a bi-level transmit information signal for generating a transmit output signal. The transmit output signal may have an EHF frequency when the transmit information signal is at a first information state and may be suppressed when the transmit information signal is at a second information state. A transmit transducer operatively coupled to the modulation circuit may be responsive to the transmit output signal for converting the transmit output signal into an electromagnetic signal. | 12-06-2012 |
20120319496 | PROXIMITY SENSING USING EHF SIGNALS - A system for sensing proximity using EHF signals may include a communication circuit configured to transmit via a transducer an EM signal at an EHF frequency, and a proximity sensing circuit configured to sense a nearby transducer field-modifying object by detecting characteristics of a signal within the communication circuit. A system for determining distance using EHF signals may include a detecting circuit coupled to a transmitting communication circuit and a receiving communication circuit, both communication circuits being mounted on a first surface. The transmitting communication circuit may transmit a signal toward a second surface, and the receiving communication circuit may receive a signal relayed from the second surface. The detecting circuit may determine distance between the first surface and a second surface based on propagation characteristics of the signals. | 12-20-2012 |
20120319890 | DISTANCE MEASUREMENT USING EHF SIGNALS - A system for sensing proximity using EHF signals may include a communication circuit configured to transmit via a transducer an EM signal at an EHF frequency, and a proximity sensing circuit configured to sense a nearby transducer field-modifying object by detecting characteristics of a signal within the communication circuit. A system for determining distance using EHF signals may include a detecting circuit coupled to a transmitting communication circuit and a receiving communication circuit, both communication circuits being mounted on a first surface. The transmitting communication circuit may transmit a signal toward a second surface, and the receiving communication circuit may receive a signal relayed from the second surface. The detecting circuit may determine distance between the first surface and a second surface based on propagation characteristics of the signals. | 12-20-2012 |
20130070817 | WIRELESS COMMUNICATION WITH DIELECTRIC MEDIUM - An electronic device may include a dielectric substrate, an electronic circuit supported by the substrate, for processing data, and a communication unit having an antenna. The communication unit may be mounted to the substrate in communication with the electronic circuit for converting between a first EHF electromagnetic signal containing digital information and a data signal conducted by the electronic circuit. The electromagnetic signal may be transmitted or received along a signal path by the antenna. An electromagnetic signal guide assembly may include a dielectric element made of a dielectric material disposed proximate the antenna in the signal path. The electromagnetic signal guide may have sides extending along the signal path. A sleeve element may extend around the dielectric element along sides of the dielectric element. The sleeve element may impede transmission of the electromagnetic signal through the sides of the dielectric element. | 03-21-2013 |
20130106673 | LOW-PROFILE WIRELESS CONNECTORS | 05-02-2013 |
20130109303 | CONTACTLESS SIGNAL SPLICING | 05-02-2013 |
20130157477 | CONNECTORS PROVIDING HAPTIC FEEDBACK - A first connector may include a housing defining a first connector face to be positioned in a first position or a second position proximate to a second connector face of a second connector. A first extremely high frequency (EHF) communication unit may be disposed in the housing for communicating with a second EHF communication unit of the second connector when the first connector face is positioned in first or second position relative to the second connector face. A first magnet may be disposed in the housing. The first magnet may align with and repel a second magnet disposed relative to the second connector face when the first connector face is positioned in the second position. The first magnet may be configured not to align with and not to repel the second magnet when first connector face is positioned in the first position relative to the second connector face. | 06-20-2013 |
20130183903 | SCALABLE HIGH-BANDWIDTH CONNECTIVITY - A scalable, high-bandwidth connectivity architecture for portable storage devices and memory modules may utilize EHF communication link chip packages mounted in various two-dimensional and three-dimensional configurations on planar surfaces such as printed circuit boards. Multiple electromagnetic communication links between devices distributed on major faces of card-like devices may be provided with respectively aligned pairs of communication units on each device. Adjacent communication units on a printed circuit board may transmit or receive electromagnetic radiation having different polarization, such as linear or elliptical polarization. Power and communication between communication devices may both be provided wirelessly. | 07-18-2013 |
20130196598 | LINK EMISSION CONTROL - Establishing a communication link may include transmitting by a first device an unmodulated first electromagnetic EHF signal and receiving by a second device the first electromagnetic EHF signal. The second device may determine whether the received first electromagnetic EHF signal indicates that a first shield portion and a second shield portion are in alignment. The transmission of a modulated second electromagnetic EHF signal may be enabled when the received first electromagnetic EHF signal indicates that both the shield portions are in alignment. The transmission of a modulated second signal may be disabled when the received first electromagnetic EHF signal indicates that the first and second shield portions are not in alignment. | 08-01-2013 |
20130217336 | CONTACTLESS DATA TRANSFER SYSTEMS AND METHODS - Data may be transferred from a communication subsystem of a first device to a communication subsystem of a second device contactlessly, at high speed, and without intervention by host processors of either device. Devices may be programmed or personalized at the factory or warehouse, and may personalized at a warehouse or at a point of sale while in the box. Various modes of operation and use scenarios are described. Portions of the devices themselves, or a transmission path between the devices may be shielded against snooping by a material which degrades an EHF signal passing therethrough. | 08-22-2013 |
20130257670 | REDIRECTION OF ELECTROMAGNETIC SIGNALS USING SUBSTRATE STRUCTURES - A system for transmitting or receiving signals may include a dielectric substrate having a major face, a communication circuit, and an electromagnetic-energy directing assembly. The circuit may include a transducer configured to convert between RF electrical and RF electromagnetic signals and supported in a position spaced from the major face of the substrate operatively coupled to the transducer. The directing assembly may be supported by the substrate in spaced relationship from the transducer and configured to direct EM energy in a region including the transducer and along a line extending away from the transducer and transverse to a plane of the major face. | 10-03-2013 |
20130266026 | CONTACTLESS REPLACEMENT FOR CABLED STANDARDS-BASED INTERFACES - A contactless, electromagnetic (EM) replacement (substitute, alternative) for cabled (electric) Standards-based interfaces (such as, but not limited to USB) which effectively handles the data transfer requirements (such as bandwidth, speed, latency) associated with the Standard, and which is also capable of measuring and replicating relevant physical conditions (such as voltage levels) on data lines so as to function compatibly and transparently with the Standard. A contactless link may be provided between devices having transceivers. A non-conducting housing may enclose the devices. Some applications for the contactless (EM) interface are disclosed. A dielectric coupler facilitating communication between communications chips which are several meters apart. Conductive paths may provide power and ground for bus-powered devices. | 10-10-2013 |
20130266154 | CONTACTLESS AUDIO ADAPTER, AND METHODS - A contactless, electromagnetic (EM) replacement for cabled Standards-based interfaces (such as USB, I2S) which handles data transfer requirements associated with the Standard, and capable of measuring and replicating relevant physical conditions on data lines so as to function compatibly and transparently with the Standard. A contactless link between devices having transceivers. A non-conducting housing enclosing the devices. A dielectric coupler facilitating communication between communications chips. Conductive paths or an inductive link providing power between devices. An audio adapter communicates over a contactless link with a source device, and via a physical link with a destination device such as a conventional headset. Power may be provided to the adapter from the source device, and by the adapter to the destination device. | 10-10-2013 |
20130278360 | DIELECTRIC CONDUITS FOR EHF COMMUNICATIONS - Dielectric conduits for the propagation of electromagnetic EHF signals include an elongate body of a dielectric material extending continuously along a longitudinal axis between a first terminus and a second terminus. At each point along the longitudinal axis, an orthogonal cross-section of the elongate body has a first dimension along a major axis of the cross-section, where the major axis extends along the largest dimension of the cross-section. The orthogonal cross-section also has a second dimension along a minor axis of the cross-section, where the minor axis extends along a widest dimension of the cross-section that is at a right angle to the major axis. For each cross-section of the elongate body, the first dimension is greater than the wavelength of the electromagnetic EHF signals and the second dimension is less than the wavelength of the electromagnetic EHF signals. | 10-24-2013 |
20130308501 | SYSTEMS AND METHODS FOR DUPLEX COMMUNICATION - A communication device includes an EHF communication unit, a data signal line, and a protocol bridge element. The EHF communication unit includes a transceiver, and an antenna coupled to the transceiver. The data signal line carries a data signal conforming to a first communication protocol. The protocol bridge element is coupled to the data signal line and EHF communication unit, and configured to receive a first protocol-compliant data signal from the data signal line, translate the first protocol-compliant data signal to an outbound binary signal, time-compress the outbound binary signal, and transmit the outbound time-compressed signal to the transceiver. The protocol bridge element is further configured to receive an inbound time-compressed signal from the transceiver, time-decompress inbound time-compressed signal to an inbound binary signal, translate inbound binary signal to conform to a second communication protocol, and provide second protocol-compliant signal to the first data signal line. | 11-21-2013 |
20130316653 | SYSTEM FOR CONSTRAINING AN OPERATING PARAMETER OF AN EHF COMMUNICATION CHIP - An EHF communication system including an EHF communication chip. The EHF communication chip may include an EHF communication circuit having at least one controllable parameter-based module having a testable and controllable operating parameter The EHF communication chip may further include a test and trim circuit coupled to the EHF communication circuit, where the test and trim circuit includes a logic circuit having one or more memory elements, where the logic circuit is coupled to the controllable parameter-based module. | 11-28-2013 |
20140024314 | SMART CONNECTORS AND ASSOCIATED COMMUNICATIONS LINKS - “Smart” connectors with embedded processors, measurement circuits and control circuits are disclosed for establishing a “contactless” radio frequency (RF) electromagnetic (EM) Extremely High Frequency (EHF) communications link between two electronic devices having host systems. The connectors are capable of monitoring, controlling, and directing (managing) link operation to dynamically adapt to conditions, as well as monitoring and altering (or modifying) data passing through the connector, and selecting a protocol suitable for a communications session. The connectors are capable of identifying the type of content being transferred, providing authentication and security services, and enabling application support for the host systems based on the type of connection or the type of content. The connectors may operate independently of the host systems, and may perform at least one of sensing proximity of a nearby object; detecting a shape of a nearby object; and detecting vibrations. | 01-23-2014 |
20140038521 | TIGHTLY-COUPLED NEAR-FIELD COMMUNICATION-LINK CONNECTOR-REPLACEMENT CHIPS - Tightly-coupled near-field transmitter/receiver pairs are deployed such that the transmitter is disposed at a terminal portion of a first conduction path, the receiver is disposed at a terminal portion of a second conduction path, the transmitter and receiver are disposed in close proximity to each other, and the first conduction path and the second conduction path are discontiguous with respect to each other. In some embodiments of the present invention, close proximity refers to the transmitter antenna and the receiver antenna being spaced apart by a distance such that, at wavelengths of the transmitter carrier frequency, near-field coupling is obtained. In some embodiments, the transmitter and receiver are disposed on separate substrates that are moveable relative to each other. In alternative embodiments, the transmitter and receiver are disposed on the same substrate. | 02-06-2014 |
20140043208 | DIELECTRIC COUPLING SYSTEMS FOR EHF COMMUNICATIONS - Dielectric coupler devices and dielectric coupling systems for communicating EHF electromagnetic signals, and their methods of use. The coupler devices include an electrically conductive body having a major surface, the electrically conductive body defining an elongate recess, and the elongate recess having a floor, where a dielectric body is disposed in the elongate recess and configured to conduct an EHF electromagnetic signal. | 02-13-2014 |
20140043745 | EHF ENABLED DISPLAY SYSTEMS - Display systems that use contactless connectors for transmitting data are provided. The contactless connectors are electromagnetic connectors that form an electromagnetic communications link. The electromagnetic communications link can be established within different locations of the same device, or between two different devices. The communications link can be established using at least two transceivers. The transceivers can be incorporated in different enclosures that are hinged together, or the transceivers can be incorporated within a hinge that enables two enclosures to move with respect to each other. A transceiver can be incorporated into a display device that can receive data from an active surface that has a transceiver. When the display device is placed on the active surface, the display device may serve as an access point to content contained within the active surface. | 02-13-2014 |
20140080417 | WIRELESS CONNECTIONS WITH VIRTUAL HYSTERESIS - Circuit connectors for establishing EHF communication include a receiver configured to receive a transmitted EHF electromagnetic signal, and an output circuit coupled to the receiver. The output circuit has two states of operation that correspond to enabling a signal output and disabling the signal output. The output circuit is also configured to change its state of operation responsive to a state of a control signal, and a controller is coupled to the receiver and configured to produce the control signal. The control signal has two states that correspond to a first condition when the received signal exceeds a first threshold and a second condition when the received signal is less than a second threshold. | 03-20-2014 |
20140106680 | SHIELDED EHF CONNECTOR ASSEMBLIES - Shielded extremely high frequency (EHF) connector assemblies are disclosed herein. In some embodiments, a first extremely high frequency (EHF) shielded connector assembly configured to be coupled with a second EHF shielded connector assembly. The first EHF connector assembly can include a first EHF communication unit operative to contactlessly communicate EHF signals with a second EHF communication unit included in the second EHF shielded connector assembly. The first connector can include a connector interface that includes a configuration to interface with a respective connector interface of the second EHF shield connector assembly, and several different material compositions that, in conjunction with the configuration, provide shielding to prevent or substantially reduce EHF signal leakage when the first EHF assembly connector is coupled to the second EHF assembly connector and the first EHF communication unit is contactlessly communicating EHF signals with the second EHF communication unit. | 04-17-2014 |
20140170982 | CONTACTLESS DIGITAL RIGHTS MANAGEMENT DATA TRANSFER SYSTEMS AND METHODS - One or more files may be transmitted from a first electronic device to a second electronic device via an EHF communication link. The first and second electronic devices may each include a processor coupled to a memory and to an EHF communication unit. The processors may be configured to establish the EHF communication link between the EHF communication unit of the first electronic device and the EHF communication unit of the second electronic device, and to transmit a copy of the one or more files via the EHF communication link. | 06-19-2014 |
20140273833 | PHYSICAL LAYER ADAPTED FOR EHF CONTACTLESS COMMUNICATION - A Physical Layer (PHY) of a host system of an electronic device may be implemented as a contactless PHY (Host-cPHY) for extremely high frequency (EHF) contactless communication and the operation of EHF transmitters (TX), receivers (RX) and transceivers (EHF-XCVR) in an extremely high frequency integrated circuit (EHF IC) of the electronic device. The Host-cPHY translates logical communications requests from the Link Layer (LINK) into hardware-specific operations to affect transmission or reception of signals over an EHF contactless link). The Link Layer (LINK) may also be optimized as a contactless Link Layer (cLINK) for EHF contactless communication. Multiple data streams may be transported over the EHF contactless link over a range of frequencies. | 09-18-2014 |
20140273837 | CONTACTLESS EHF DATA COMMUNICATION - An electronic device may include an auxiliary circuit providing an operative function, a data signal circuit, and an extremely high frequency (EHF) wireless transmitter. The auxiliary circuit may produce a first low frequency data signal. The data signal circuit may be coupled to the auxiliary circuit for encoding a first composite data signal including the first low frequency data signal and the first base high frequency data signal. The EHF wireless transmitter may transmit the first encoded composite data signal to an external device over a wireless EHF communication link. The transmitted encoded composite data signal may have a predefined rate of carrier modulation. | 09-18-2014 |
20140273852 | VIRTUALIZED PHYSICAL LAYER ADAPTED FOR EHF CONTACTLESS COMMUNICATION - A Physical Layer (PHY) of a host system of an electronic device may be implemented as a contactless PHY (cPHY) for extremely high frequency (EHF) contactless communication and the operation of EHF transmitters (TX), receivers (RX) and transceivers (EHF-XCVR) in an extremely high frequency integrated circuit (EHF IC) of the electronic device. The Host-cPHY translates logical communications requests from the Link Layer (LINK) into hardware-specific operations to affect transmission or reception of signals over an EHF contactless link. The Link Layer (LINK) may also be optimized as a contactless Link Layer (cLINK) for EHF contactless communication. A virtualized contactless Physical Layer (VcPHY) may comprise a contactless Physical Layer (Host-cPHY), and a contactless Link Layer (cLINK) for coupling a conventional Link Layer (LINK) with the contactless Physical Layer (Host-cPHY). Multiple data streams may be transported over the EHF contactless link over a range of frequencies. | 09-18-2014 |
20140273856 | EXTREMELY HIGH FREQUENCY SYSTEMS AND METHODS OF OPERATING THE SAME - Embodiments discussed herein refer to systems, methods, and circuits for establishing EHF contactless communications links. The EHF contactless communication link may serve as an alternative to conventional board-to-board and device-to-device connectors. The link may be a low-latency protocol-transparent communication link capable of supporting a range of data rates. The link may be established through a close proximity coupling between devices, each including at least one EHF communication unit. Each EHF unit involved in establishing an EHF communication link may progress through a series of steps before data can be transferred between the devices. These steps may be controlled by one or more state machines that are being implemented in each EHF communication unit. | 09-18-2014 |
20140273894 | EXTREMELY HIGH FREQUENCY COMMUNICATION CHIP - An electromagnetic Extremely High Frequency (EHF) communication chip includes one or more local oscillator circuits, a transducer circuit and at least one of a modulator or a demodulator coupled to the transducer circuit. Each of the local oscillator circuits may have a local oscillator and configured collectively to generate first and second carrier signals having respective first and second EHF frequencies. The first EHF frequency may be different than the second EHF frequency.The transducer circuit may have a first transducer for transmitting and receiving EHF communication signals. The modulator may be coupled to the local oscillator circuits for modulating the first carrier signal or the second carrier signal with a first transmit base data signal. The demodulator may be for demodulating the first carrier signal or the second carrier signal to produce a first receive base data signal. | 09-18-2014 |
20140341232 | EXTREMELY HIGH FREQUENCY CONVERTER - An extremely high frequency (EHF) protocol converter may include a transducer, an EHF communication circuit, a protocol conversion circuit, and a circuit port. The transducer may be configured to convert between an electromagnetic EHF data signal and an electrical EHF signal. The EHF communication circuit may be configured to convert between a baseband data signal and the electrical EHF signal. The protocol conversion circuit may be adapted to convert between the baseband data signal having data formatted according to a first data protocol associated with a first external device and a second baseband data signal having data formatted according to a second data protocol associated with a second external device. The second data protocol may be different from the first data protocol. The circuit port may conduct the second baseband data signal to the second external device. | 11-20-2014 |
20140342579 | Connectors Providing Haptic Feedback - A first connector may include a housing defining a first connector face to be positioned in a first position or a second position proximate to a second connector face of a second connector. A first extremely high frequency (EHF) communication unit may be disposed in the housing for communicating with a second EHF communication unit of the second connector when the first connector face is positioned in first or second position relative to the second connector face. A first magnet may be disposed in the housing. The first magnet may align with and repel a second magnet disposed relative to the second connector face when the first connector face is positioned in the second position. The first magnet may be configured not to align with and not to repel the second magnet when first connector face is positioned in the first position relative to the second connector face. | 11-20-2014 |
20140355700 | Delta Modulated Low-Power EHF Communication Link - A system for communicating modulated EHF signals may include a modulation circuit responsive to a bi-level transmit information signal for generating a transmit output signal. The transmit output signal may have an EHF frequency when the transmit information signal is at a first information state and may be suppressed when the transmit information signal is at a second information state. A transmit transducer operatively coupled to the modulation circuit may be responsive to the transmit output signal for converting the transmit output signal into an electromagnetic signal. | 12-04-2014 |
20150048907 | CONTACTLESS COMMUNICATION UNIT CONNECTOR ASSEMBLIES - Contactless extremely high frequency connector assemblies, passive cable connector assemblies, and active cable connector assemblies are disclosed herein. In one embodiment, a contactless connector assembly can include several (EHF) contactless communication units operable to selectively transmit and receive EHF signals, and several signal directing structures coupled to the EHF CCUs. The signal directing structures can direct the EHF signals along a plurality of EHF signal pathways. | 02-19-2015 |
20150065069 | Wireless Communication With Dielectric Medium - An electronic device may include a dielectric substrate, an electronic circuit supported by the substrate, for processing data, and a communication unit having an antenna. The communication unit may be mounted to the substrate in communication with the electronic circuit for converting between a first EHF electromagnetic signal containing digital information and a data signal conducted by the electronic circuit. The electromagnetic signal may be transmitted or received along a signal path by the antenna. An electromagnetic signal guide assembly may include a dielectric element made of a dielectric material disposed proximate the antenna in the signal path. The electromagnetic signal guide may have sides extending along the signal path. A sleeve element may extend around the dielectric element along sides of the dielectric element. The sleeve element may impede transmission of the electromagnetic signal through the sides of the dielectric element. | 03-05-2015 |