Aspects of methods and systems for a matching circuit for a broadband bus in automotive applications are provided and may include a twisted pair wiring bus comprising a main line for coupling two end nodes and one or more stub lines, with each stub line coupling a stub node to the main line via a junction impedance on each wire in the stub line. Electrical signals may be communicated between devices coupled to the end nodes and the stub nodes. A subset of the stub nodes may be coupled to the main line in a star configuration. The junction impedance may comprise a resistor on each wire in the stub line where the resistor may have a resistance that is two to three times a nominal impedance of the main line. The junction impedance may comprise a resistor in parallel with an inductor on each wire in the stub line.

In a communication apparatus, an analog circuit executes an analog process to a differential signal in a condition that a potential of a first conductor is a reference. A communication circuit receives, via a connection circuit, a differential signal obtained by the execution of the analog process of the analog process is executed and generates, based on the received differential signal, a signal with a reference corresponding to a potential of a second conductor. An inductor (a connection element) is connected between the first conductor and the second conductor. The connection circuit includes a circuit element other than a capacitor.

The present application relates to a transceiver, TX/RX PHY, and a method of operating the TX/RX PHY arranged for bi-directional data communication of a node with a counterpart node connected to in a point-to-point network using differential mode signaling over a single twisted-pair cable. A TX adjustment component is arranged in a TX path of the TX/RX PHY and configured to adjust a TX data communication signal generated by the TX/RX PHY for transmittal to the counterpart node. The TX adjustment component is further configured to accept information about a common mode signal detected on the single twisted-pair cable and to adjust the TX data communication signal to at least weaken the common mode signal occurring at the counterpart node in response to transmitting the TX data communication signal.

The present application relates to a transceiver, TX/RX PHY, and a method of operating the TX/RX PHY arranged for bi-directional data communication of a node with a counterpart node connected to in a point-to-point network using differential mode signaling over a single twisted-pair cable. A TX adjustment component is arranged in a TX path of the TX/RX PHY and configured to adjust a TX data communication signal generated by the TX/RX PHY for transmittal to the counterpart node. The TX adjustment component is further configured to accept information about a common mode signal detected on the single twisted-pair cable and to adjust the TX data communication signal to at least weaken the common mode signal occurring at the counterpart node in response to transmitting the TX data communication signal.

A common-mode in-line radio frequency (RF) filter isolator includes one or more modules that incorporate a respective RF filter circuit. The one or more modules are configured to be electrically coupled in-line with a communication link, such as an Ethernet cable for example. Accordingly, the filter isolator device is enabled to reduce or eliminate the presence of common-mode noise that is present on the network communication link.

A method and system are provided for communication between in each case at least two communication terminal devices that are connected to a respective one of at least two coupled communication lines in which a communication protocol is utilized for communication over the respective one of the communication lines and the communication protocol controls transmitting and receiving of communication signals of the respective ones of the at least two communication terminal devices, for which purpose signal carriers are utilized.

A method and system are provided for communication between in each case at least two communication terminal devices that are connected to a respective one of at least two coupled communication lines in which a communication protocol is utilized for communication over the respective one of the communication lines and the communication protocol controls transmitting and receiving of communication signals of the respective ones of the at least two communication terminal devices, for which purpose signal carriers are utilized.

An electronic communication device comprises a first transceiver capable of a bi-directional communication session on a first communication medium; a second transceiver capable of a bi-directional communication session on a second communication medium; and a control logic coupled to the first transceiver and the second transceiver and capable of implementing a convergence layer, wherein the control logic is configured to receive, from the first transceiver, a first signal; and cause, in response to the first signal, data received and transmitted by the first transceiver on the first communication medium as part of a communication session to be received and transmitted instead by the second transceiver on the second communication medium.

An electronic communication device comprises a first transceiver capable of a bi-directional communication session on a first communication medium; a second transceiver capable of a bi-directional communication session on a second communication medium; and a control logic coupled to the first transceiver and the second transceiver and capable of implementing a convergence layer, wherein the control logic is configured to receive, from the first transceiver, a first signal; and cause, in response to the first signal, data received and transmitted by the first transceiver on the first communication medium as part of a communication session to be received and transmitted instead by the second transceiver on the second communication medium.

A transmission device, method, and program for signal transmission with reduced intersymbol interference are disclosed. In one example, a mapping unit maps binary data to symbols and a generating unit generates a signal from the mapped symbols. A transmission band-limiting filter performs band limitation of the signal at a corner frequency higher than half a frequency of a symbol rate. A frequency modulating unit performs frequency modulation on a carrier wave on the basis of the band limitation and the signal.