A carrier generator includes a phase accumulator configured to generate a phase reference signal based on a frequency command word (FCW) signal, a time to digital converter (TDC) configured to generate a feedback signal based on a divided signal, a loop filter configured to generate a filtered command signal based on the phase reference signal and the feedback signal, and a plurality of tuning arrangements. Each tuning arrangement includes an oscillator configured to receive the filtered command signal and output an adjustment signal, and is configured to output a carrier signal of a corresponding plurality of carrier signals based on the adjustment signal. The divided signal is based on the adjustment signal of a first tuning arrangement.

A carrier generator includes a phase accumulator configured to generate a phase reference signal based on a frequency command word (FCW) signal, a time to digital converter (TDC) configured to generate a feedback signal based on a divided signal, a loop filter configured to generate a filtered command signal based on the phase reference signal and the feedback signal, and a plurality of tuning arrangements. Each tuning arrangement includes an oscillator configured to receive the filtered command signal and output an adjustment signal, and is configured to output a carrier signal of a corresponding plurality of carrier signals based on the adjustment signal. The divided signal is based on the adjustment signal of a first tuning arrangement.

A method of dynamic range extension for heterodyne fiber-optic Interferometers, and more particularly towards the use of instantaneous carrier to extend the dynamic range of heterodyne fiber-optic interferometers. The method includes the providing of a heterodyne fiber-optic interferometer having a demodulator and an associated carrier frequency. The method also includes the determining of demodulator excessions. The detecting of the demodulator excessions and the determining of an appropriate correction factor is based on information from the instantaneous carrier frequency. The method also includes the introduction of the appropriate correction factor to the demodulator.

A digital I/Q reprocessing demodulator and a process for significantly reducing arctangent computational loads. This is done by ensuring that all calculations are carried out in the linear part of the curve. The architecture of the demodulator is such that the demodulator 100 utilizes two I/Q stages. The first stage is utilized to determine a phase offset with regards to the free-running I/Q clocks. In the second processing stage, the phase of the I/Q reference signals are phase shifted based on the initial estimate such that the incoming carrier signal is nearly in-phase.

A carrier generator includes a phase accumulator configured to receive a frequency command word (FCW) signal. The carrier generator includes an adder connected to the phase accumulator; and a loop filter configured to receive an output of the adder. The carrier generator includes a plurality of tuning arrangements, each tuning arrangement is configured to receive an output of the loop filter. Each tuning arrangement includes an electronic oscillator configured to receive the output of the loop filter. Each tuning arrangement includes a voltage controlled delay line (VCDL) configured to receive an output of the electronic oscillator, and to provide a tuning arrangement output. Each tuning arrangement includes a phase detector configured to receive a corresponding recovered clock signal and a feedback from a corresponding tuning arrangement output. Each tuning arrangement includes a counter configured to receive an output of the phase detector and to provide an output to the VCDL.