Abstract: A bidirectional interface for multimode optical fiber includes a receive/transmit optical fiber port operable to connect to a multimode optical fiber, a wavelength separating module in communication with the receive/transmit optical fiber port, an optical receiver module in communication with the wavelength separating module and configured to receive optical signals at a first wavelength via the wavelength separating module and the receive/transmit optical fiber port, and an optical transmit module in communication with the wavelength separating module and configured to transmit at a second wavelength via the wavelength separating module and the receive/transmit optical fiber port.

Abstract: A converter apparatus is provided enabling conversion of data between different form factor pluggable standards. The converter comprises a first connector that connects to a first device according to a first form factor pluggable standard, and a second connector that connects to a second device according to a second form factor pluggable standard. The converter further comprises a signal processor coupled between the first connector and the second connector. The processor converts at least one of transmit signals in the first form factor pluggable standard to transmit signals in the second form factor pluggable standard and receive signals in the second form factor pluggable standard to receive signals in the first form factor pluggable standard. A controller in the converter is coupled to the processor and to the first and second connector. The controller configures the processor to be used for converting signals between the form factor pluggable standards.

Abstract: A feeder for robots, automation systems, comprising a frame that has a supporting bed for the parts to be fed and optical cameras for recognizing the parts to be fed, the supporting bed being rotatable about a direction that is substantially perpendicular to the plane of arrangement of the parts to be fed.

Abstract: A method includes delivering an electrical signal over an electrical conductor to a transmitter module, which includes a memory holding compensation values corresponding respectively to different conductor lengths. One or more of the compensation values is retrieved from the memory of the transmitter module, and a waveform of the electrical signal is modified responsively to the retrieved compensation values. The electrical signal having the modified waveform is transmitted using the transmitter module over a communication link.

Abstract: According to an example implementation, a universal tester includes a host interface slot connected to a first pluggable host card during an electrical test mode of operation to provide a stressed electrical signal to a host under test. The host interface slot is connected to a second pluggable host card during an optical test mode of operation, the second pluggable host card including an electrical-optical conversion block to convert a stressed electrical signal to a stressed optical signal that is provided to a host under test. A stressor generator may operation in pass-through mode or a loop-back mode.

Abstract: An apparatus is provided comprising a small form factor pluggable module having an optical connector configured to be coupled to a plurality of transmit and receive single mode optical fibers and an optical transmitter comprising a plurality of uncooled laser diodes configured to transmit optical signals to a plurality of transmit single mode optical fibers via the optical connector. The small form factor pluggable module is a quad small form factor pluggable plus (QSFP+) 40GBASE-SR4 module that has been converted for use with single mode fibers by substituting their vertical-cavity surface emitting laser diodes (VCSEL) with longer range uncooled laser diodes. Example replacement lasers may include uncooled Fabry-Perot (FP) laser diodes or Distributed Feedback (DFB) laser diodes. To connect the module to lower grade fibers, a single mode-to-multimode mode conditioning patch cord is provided with a plurality of inline physical offsets, one for each pair of fibers.

Abstract: Methods and apparatus for reducing distortion in signals propagating through cables at data rates of at least 10 gigabits per second (Gbps) are provided. By connecting such direct attach cables with an active cable extender assembly described herein, data signals may be reshaped, retimed, and/or emphasized in an effort to increase the cable length between network devices while still complying with the signal quality requirements of communication standards, such as the SFF-8431 MSA, the SFF-8461 MSA, and the IEEE 802.3ba CR4/10 standards for Ethernet communications. Copper cable solutions with such increased cable length possible between network devices may provide substantial cost reduction when compared to optical cable solutions. Furthermore, by potentially increasing the signal quality effectively transmitted by a host, solutions utilizing embodiments of the present invention may guarantee host-to-host interoperability.

Abstract: An apparatus for testing multiple Small Form-Factor Pluggable Plus (SFP+) ports comprising: a first testing module; a second testing module; and a communications link coupled with the first and the second testing modules; wherein each of the testing modules includes: a SFP+ interface connectable to a port under test (PUT), a signal processing circuit including: a signal compensator configured to perform signal compensation on a signal received from the other testing module, and a signal modifier configured to: modify the compensated signal according to a set of predetermined modification parameters, and transmit the modified signal to the PUT.

Abstract: In one embodiment an apparatus is provided for supporting 100GBASE-SR10 data communications over an optical link. The apparatus includes a receptacle configured to receive an optical fiber cable comprising at least 10 OM3 optical fibers, the receptacle including individual channels for receiving respective ones of the at least 10 optical fibers, a plurality of optical receiver/transmitter pairs, and a plurality of wave division multiplexers configured to couple individual ones of the channels with respective ones of the optical receiver/transmitter pairs.

Abstract: Various example embodiments are disclosed. According to one example embodiment, a method may include transmitting a semiconductor laser-generated optical signal from a first end of a multi-mode fiber (MMF) optical link to a second end of the link. The optical signal may have a reference bandwidth at the first end of the link. The method may further include converting the optical signal to an electrical signal. The method may further include analyzing the electrical signal with an electronic dispersion compensator to determine an effective modal bandwidth (EMBW) of the received optical signal. The method may further include analyzing the electrical signal with an electronic dispersion compensator to determine an intersymbol interference (ISI) penalty of the optical link.

Abstract: A host device is provided that can leverage multiple optical modulation scheme capabilities of the optical module. The host device comprises an electrical modulator unit configured to generate electrical transmit signals comprising modulated data in a modulation format, and a connector configured to connect to the optical module that transmits optical signals to an optical fiber. The host device comprises a controller that is configured to select one of a plurality of optical modulation schemes for an optical reach, and to generate a control signal for supply to the optical module via the connector. The control signal is configured to cause the optical module to generate optical signals from the electrical transmit signals according to the selected optical modulation scheme.

Abstract: A converter apparatus is provided that enables conversion of data (traffic) between different form factor pluggable standards. The converter apparatus comprises a first connector configured to connect to a first device according to a first form factor pluggable standard, and a second connector configured to connect to a second device according to a second form factor pluggable standard. The converter apparatus further comprises a signal processor configured to be coupled between the first connector and the second connector. The signal processor is configured to convert at least one of transmit signals in the first form factor pluggable standard received at the first connector to transmit signals in the second form factor pluggable standard and receive signals in the second form factor pluggable standard received at the second connector to receive signals in the first form factor pluggable standard.

Abstract: A feeder for robots, automation means and the like, comprising a frame that has a supporting bed for the parts to be fed and vision means for recognizing the parts to be fed, the supporting bed being connected to elements for rotation about a direction that is substantially perpendicular to the plane of arrangement of the parts to be fed.

Abstract: Methods and apparatus for reducing distortion in signals propagating through cables at data rates of at least 10 gigabits per second (Gbps) are provided. By connecting such direct attach cables with an active cable extender assembly described herein, data signals may be reshaped, retimed, and/or emphasized in an effort to increase the cable length between network devices while still complying with the signal quality requirements of communication standards, such as the SFF-8431 MSA, the SFF-8461 MSA, and the IEEE 802.3ba CR4/10 standards for Ethernet communications. Copper cable solutions with such increased cable length possible between network devices may provide substantial cost reduction when compared to optical cable solutions. Furthermore, by potentially increasing the signal quality effectively transmitted by a host, solutions utilizing embodiments of the present invention may guarantee host-to-host interoperability.

Abstract: A bidirectional interface for multimode optical fiber includes a receive/transmit optical fiber port operable to connect to a multimode optical fiber, a wavelength separating module in communication with the receive/transmit optical fiber port, an optical receiver module in communication with the wavelength separating module and configured to receive optical signals at a first wavelength via the wavelength separating module and the receive/transmit optical fiber port, and an optical transmit module in communication with the wavelength separating module and configured to transmit at a second wavelength via the wavelength separating module and the receive/transmit optical fiber port.

Abstract: A method includes delivering an electrical signal over an electrical conductor to a transmitter module, which includes a memory holding compensation values corresponding respectively to different conductor lengths. One or more of the compensation values is retrieved from the memory of the transmitter module, and a waveform of the electrical signal is modified responsively to the retrieved compensation values. The electrical signal having the modified waveform is transmitted using the transmitter module over a communication link.

Abstract: A bi-directional configuration is employed to implement a hybrid ultra long haul (ULH)/long haul (LH) optical transmission system. The link carries ULH channels and LH channels in opposite directions in different bands. Raman amplification is employed for the ULH band while Erbium-doped fiber amplification (EDFA) is used for both the LH and ULH bands. Optical circulators are employed for multiplexing and demultiplexing. This solution does not incur the ripple penalty of prior art solutions based on interferential filters while providing excellent isolation between the ULH and LH channels and bi-directional communication within a single fiber.

Abstract: End of line dispersion compensation is applied on a sub-band by sub-band basis. Adequate end-of-line dispersion compensation may be provided for high data rate WDM systems even for optical link lengths of 1000 km or more. Dispersion compensating gratings (DCGs) may be used as the dispersion compensating components. There is a great savings in cost and package volume compared to per-channel compensation schemes.

Abstract: Optical amplification bandwidth is improved by providing an economical and practical way of multiplexing together multiple Raman pump energy sources at disparate wavelengths. An arrayed waveguide grating (AWG) may be used to implement a double multiplexer. The insertion loss of the AWG is very low, allowing a reduction in the necessary power. Also, a single AWG may be used to combine numerous pump wavelengths.

Abstract: A partially configurable optical add/drop multiplexer (OADM) is provided. Fixed single channel and wideband tunable fiber Bragg gratings may be used in combination. OADM channel configuration may be changed by tuning one or more tunable fiber Bragg gratings.