Embodiments are directed to apparatuses and methods involving communication between a first circuit and a second circuit over a wired-data bus. An example apparatus includes an integrated circuit (IC) chip within one of the first and second circuits and a logic circuit. The IC has a first data-communication port and a second data-communication for connection to respective first and second conductors of the wired-data bus. The logic circuit communicates a code multi-bit word out of a set of code multi-bit words over the wired-data bus by using signal transitions communicated on the first and second conductors. The code multi-bit word conveys clocked data bits indicated by the signal transitions, and information unique relative to other ones of the set of code multi-bit words by a known sequential pattern of the signal transitions defined relative to timing associated with the clocked data bits.

Embodiments are directed to apparatuses and methods involving communication between a first circuit and a second circuit over a wired-data bus. An example apparatus includes an integrated circuit (IC) chip within one of the first and second circuits and a logic circuit. The IC has a first data-communication port and a second data-communication for connection to respective first and second conductors of the wired-data bus. The logic circuit communicates a code multi-bit word out of a set of code multi-bit words over the wired-data bus by using signal transitions communicated on the first and second conductors. The code multi-bit word conveys clocked data bits indicated by the signal transitions, and information unique relative to other ones of the set of code multi-bit words by a known sequential pattern of the signal transitions defined relative to timing associated with the clocked data bits.

Methods and systems are described for receiving, at a data-driven phase comparator circuit, a plurality of data signals in parallel and one or more phases of a local oscillator signal, the data-driven phase comparator circuit comprising a plurality of partial phase comparators, generating a plurality of partial phase-error signals using the partial phase comparators, each partial phase-error signal generated by receiving (i) a corresponding phase of the local oscillator signal and (ii) a corresponding data signal of the plurality of data signals and responsive to a determination that a transition occurred in the corresponding data signal, generating the partial phase-error signal based on a comparison of the corresponding phase of the local oscillator signal and the corresponding data signal, and generating a composite phase-error signal by summing the plurality of partial phase error signals for setting a local oscillator in a lock condition.

A reception device according to the present disclosure includes: a receiver that generates a symbol signal indicating a sequence of symbols on the basis of a plurality of transmission signals; a transition signal generator that generates a transition signal indicating a sequence of symbol transitions on the basis of the symbol signal; and a converter that repeats an operation of converting transition data including a predetermined number of the symbol transitions into reception data to convert the sequence of the symbol transitions into a sequence of reception data, and generates, in a case where the sequence of the symbol transitions includes first transition data that is not convertible into the reception data, candidate data as a candidate of the reception data on the basis of the first transition data.

A reception device according to the present disclosure includes: a receiver that generates a symbol signal indicating a sequence of symbols on the basis of a plurality of transmission signals; a transition signal generator that generates a transition signal indicating a sequence of symbol transitions on the basis of the symbol signal; and a converter that repeats an operation of converting transition data including a predetermined number of the symbol transitions into reception data to convert the sequence of the symbol transitions into a sequence of reception data, and generates, in a case where the sequence of the symbol transitions includes first transition data that is not convertible into the reception data, candidate data as a candidate of the reception data on the basis of the first transition data.

Disclosed is a baud rate tracking and compensation apparatus comprising: a clock generating component generating a clock; a sampling circuit sampling a reception signal according to the clock and thereby generating a sampled result, and the sampling circuit generating a transition notification signal when the sampled result indicates a transition of the reception signal; a clock counting circuit counting cycles of the clock between a first transition of the reception signal and a second transition of the reception signal according to the clock and the transition notification signal; a bit counting circuit counting bit(s) between the first transition and the second transition according to the clock and a bit cycle; and a calculation circuit dividing the number of the cycles by the number of the bit(s) to obtain a calculation value, and then updating the bit cycle according to the calculation value.

Disclosed is a baud rate tracking and compensation apparatus comprising: a clock generating component generating a clock; a sampling circuit sampling a reception signal according to the clock and thereby generating a sampled result, and the sampling circuit generating a transition notification signal when the sampled result indicates a transition of the reception signal; a clock counting circuit counting cycles of the clock between a first transition of the reception signal and a second transition of the reception signal according to the clock and the transition notification signal; a bit counting circuit counting bit(s) between the first transition and the second transition according to the clock and a bit cycle; and a calculation circuit dividing the number of the cycles by the number of the bit(s) to obtain a calculation value, and then updating the bit cycle according to the calculation value.

System, methods and apparatus are described that facilitate transmission of data, particularly between two devices within electronic equipment. Transmission lines are selectively terminated in an N-phase polarity encoded transmitter when the transmission lines would otherwise be undriven. Data is mapped to a sequence of symbols to be transmitted on a plurality of wires. The sequence of symbols is encoded in three signals. A first terminal of a plurality of terminals may be driven such that transistors are activated to couple the first terminal to first and second voltage levels. The first terminal may further be driven such that a dedicated transistor is activated to couple the first terminal to an intermediate voltage level.

System, methods and apparatus are described that facilitate transmission of data, particularly between two devices within electronic equipment. Transmission lines are selectively terminated in an N-phase polarity encoded transmitter when the transmission lines would otherwise be undriven. Data is mapped to a sequence of symbols to be transmitted on a plurality of wires. The sequence of symbols is encoded in three signals. A first terminal of a plurality of terminals may be driven such that transistors are activated to couple the first terminal to first and second voltage levels. The first terminal may further be driven such that a dedicated transistor is activated to couple the first terminal to an intermediate voltage level.

Embodiments of a method and a device are disclosed. In an embodiment, a method for operating a wired communications device involves including a frame boundary bit sequence and a random data sequence as a preamble of a bit stream, encoding the bit stream into an encoded bit stream, and transmitting the encoded bit stream using the wired communications device.