Abstract: A system and method for clock recovery from an input data stream recovers the clock signal in a manner that preserves the signal strength of the input signal. The measure of signal strength, referred to herein as the “signal strength indicator” is in turn used to normalize the output of a phase detector in a phaselocked loop (PLL), and the normalized signal is used as an input to the PLL oscillator to recover the clock signal from the input data signal. In this manner, the phaselocked loop is used to perform narrow band filtering, while baseband amplifiers are used to compensate for reference signal power variations. In one aspect, the present invention is directed to a clock recovery system for recovering a clock signal from an input data signal. The system comprises a primary phase detector for receiving an input data signal, and for combining the input data signal with a feedback signal to generate a phase difference signal.

Abstract: An apparatus and method for cleaving optical waveguides to precise differential length are described. A first end of a waveguide is coupled to an input port of a reflectometer. A reference mirror is then positioned in a path of radiation propagating through the second end of the waveguide. A waveguide cutting tool is then positioned proximate to the waveguide and at a distance relative to a reference mirror. A first reflectometry measurement is performed on the waveguide to a second end of the waveguide. A second reflectometry measurement is performed on the waveguide to the reference mirror. The waveguide is then positioned relative to the reference mirror and waveguide cutting tool so that the first reflectometery measurement is a measurement increment apart from the second reflectometry measurement. The waveguide is then cut with the cutting tool positioned at the distance relative to the reference mirror.

Abstract: A high-connector density interface plate comprising a curved outer surface having a plurality of interface connections is described. Each of the plurality of interface connections is adapted to receive a cable at an angle relative to a normal line extending from a normal angle to the curved outer surface. The curved outer surface increases the interface plate surface area available for interface connections relative to an interface plate having a flat outer surface.

Abstract: An apparatus and method for cleaving optical waveguides to precise differential length are described. A first end of a waveguide is coupled to an input port of a reflectometer. A reference mirror is then positioned in a path of radiation propagating through the second end of the waveguide. A waveguide cutting tool is then positioned proximate to the waveguide and at a distance relative to a reference mirror. A first reflectometry measurement is performed on the waveguide to a second end of the waveguide. A second reflectometry measurement is performed on the waveguide to the reference mirror. The waveguide is then positioned relative to the reference mirror and waveguide cutting tool so that the first reflectometery measurement is a measurement increment apart from the second reflectometry measurement. The waveguide is then cut with the cutting tool positioned at the distance relative to the reference mirror.