An apparatus, and method therefor, relates generally to a transmitter. In such an apparatus, a decoder is configured to receive a data input and control signals and to generate state signals responsive to a control signal of the control signals and data polarity the data input. Select circuitry is configured to receive coded signals to replace the data input with a pull-up code and a pull-down code of the coded signals responsive to the state signals and the control signals for propagation of the pull-up code and the pull-down code in place of the data input.

An apparatus, and method therefor, relates generally to a transmitter. In such an apparatus, a decoder is configured to receive a data input and control signals and to generate state signals responsive to a control signal of the control signals and data polarity the data input. Select circuitry is configured to receive coded signals to replace the data input with a pull-up code and a pull-down code of the coded signals responsive to the state signals and the control signals for propagation of the pull-up code and the pull-down code in place of the data input.

Transport of differential signals is provided. In one aspect, a telecommunications system includes a first unit and a second unit. The first unit can calculate a differential signal from an original signal. The differential signal can represent a change in signal levels between constant time intervals in the original signal. The second unit can estimate the original signal from the differential signal received from the first unit over a communication medium.

A system for transmitting a wireless countermeasure signal to disrupt third party communications is disclosed that include an antenna configured to receive wireless signals and transmit wireless counter measure signals such that the wireless countermeasure signals are responsive to the received wireless signals. A receiver processes the received wireless signals to create processed received signal data while a spectrum control module subtracts known source signal data from the processed received signal data to generate unknown source signal data. The unknown source signal data is based on unknown wireless signals, such as enemy signals. A transmitter is configured to process the unknown source signal data to create countermeasure signals and transmit a wireless countermeasure signal over the first antenna or a second antenna to thereby interfere with the unknown wireless signals.

A method for transmitting data over a single-wire bus wherein a first communication channel is defined by pulses of different durations according to the state of the transmitted bit and depending on a reference duration, and a second communication channel is defined by the reference duration.

Transport of differential signals is provided. In one aspect, a telecommunications system includes a first unit and a second unit. The first unit can calculate a differential signal from an original signal. The differential signal can represent a change in signal levels between constant time intervals in the original signal. The second unit can estimate the original signal from the differential signal received from the first unit over a communication medium.

A clock sending apparatus and method, and a clock receiving apparatus and method are disclosed. The clock sending apparatus may include, an input unit configured to input a first and second input clocks; a sampling unit configured to acquire a first and second sampling clocks, and determine a first frequency control word according to the first and second sampling clocks, the first frequency control word is indicative of a relationship between the first and second sampling clocks, the first sampling clock is determined by the first input clock according to a preset rule, and the second sampling clock is determined by the second input clock according to a preset rule; and a sending unit configured to generate a clock signal according to the first input clock and send the clock signal that carries at least the first frequency control word to a receiving side.

A clock sending apparatus and method, and a clock receiving apparatus and method are disclosed. The clock sending apparatus may include, an input unit configured to input a first and second input clocks; a sampling unit configured to acquire a first and second sampling clocks, and determine a first frequency control word according to the first and second sampling clocks, the first frequency control word is indicative of a relationship between the first and second sampling clocks, the first sampling clock is determined by the first input clock according to a preset rule, and the second sampling clock is determined by the second input clock according to a preset rule; and a sending unit configured to generate a clock signal according to the first input clock and send the clock signal that carries at least the first frequency control word to a receiving side.

A system for transmitting a wireless countermeasure signal to disrupt third party communications is disclosed that include an antenna configured to receive wireless signals and transmit wireless counter measure signals such that the wireless countermeasure signals are responsive to the received wireless signals. A receiver processes the received wireless signals to create processed received signal data while a spectrum control module subtracts known source signal data from the processed received signal data to generate unknown source signal data. The unknown source signal data is based on unknown wireless signals, such as enemy signals. A transmitter is configured to process the unknown source signal data to create countermeasure signals and transmit a wireless countermeasure signal over the first antenna or a second antenna to thereby interfere with the unknown wireless signals.

A system for transmitting a wireless countermeasure signal to disrupt third party communications is disclosed that include an antenna configured to receive wireless signals and transmit wireless counter measure signals such that the wireless countermeasure signals are responsive to the received wireless signals. A receiver processes the received wireless signals to create processed received signal data while a spectrum control module subtracts known source signal data from the processed received signal data to generate unknown source signal data. The unknown source signal data is based on unknown wireless signals, such as enemy signals. A transmitter is configured to process the unknown source signal data to create countermeasure signals and transmit a wireless countermeasure signal over the first antenna or a second antenna to thereby interfere with the unknown wireless signals.