Patent application number | Description | Published |
20080205437 | MULTI-MODE INTEGRATED CIRCUIT FOR USE IN OPTOELECTRONIC DEVICES - A multi-mode SerDes may be implemented in at least two different optoelectronic device architectures. The serializer includes a dual-mode bypass block for allowing data signals to go straight from input nodes to a multiplexing block or for decoding encoded data signals. A final dynamic high speed multiplexer multiplexes two data signals into one serial signal, or allows a single signal to go through. The deserializer includes an input dynamic high speed demultiplexer for demultiplexing one serial signal into two, or for allowing a serial signal through. A dual-mode bypass block is provided to allow data signals to go straight through from a demultiplexing block to output nodes or to encode data signals prior to providing them to the output nodes. | 08-28-2008 |
20080205900 | STATUS LINK FOR MULTI-CHANNEL OPTICAL COMMUNICATION SYSTEMS - A robust and redundant status link is established by a first multi-channel optoelectronic device with a second multi-channel optoelectronic device in a multi-channel communication link. Transmitter bias currents are effectively modulated with a status link modulation signal representative of status data and subsequently modulated with primary data modulation signals. The resulting signals are transformed into optical signals and transmitted over the link as main communication links combined with a status link. At the second device, the optical signals are received and converted to electrical signals. The receipt of the optical signals creates multiple receiver bias currents, which may be monitored to detect the status link modulation signal. The second device may adjust various operating parameters in response to the information conveyed by the status link. For instance, devices can use status links to operate above nominal eye safety limits and/or to adjust transmit power to compensate for degradation effects. | 08-28-2008 |
20080267620 | EYE SAFETY AND INTEROPERABILITY OF ACTIVE CABLE DEVICES - An integrated cable configured to communicate over much of its length using one or more optical fibers includes an electrical connector at least one end. The electrical connector at a first end of the integrated cable and an optoelectronic device coupled to or included in the other end of the integrated cable may utilize a bidirectional status link to transmit status data to each other. If the status data indicates that optical signals transmitted over the optical channels between the two devices are not potentially exposed to view, the two devices may operate above nominal eye safety limits. Otherwise, the two devices may operate at or below nominal eye safety limits. If the second optoelectronic device is not status-link enabled, the first optoelectronic device may operate at or below nominal eye safety limits. | 10-30-2008 |
20090060520 | REDUNDANCY AND INTEROPERABILITY IN MULTI-CHANNEL OPTOELECTRONIC DEVICES - A multi-channel optoelectronic device is configured to establish a redundant status link with a remote device. The optoelectronic device can transmit N transmit optical signals to the remote device over a plurality of transmit channels and receive N receive optical signals from the remote device over a plurality of receive channels. The optoelectronic device includes one or more spare transmit and receive channels. When used with a remote device having spare transmit and receive channels, each device can establish a status link with the other and use the status link to switch out transmit and/or receive channels to identify and permanently switch out the worst transmit and/or receive channels. Alternately, the device can interoperate with a non-status-link enabled remote device by determining that the remote device is not status-link enabled, transitioning to a low transmit power mode, and transmitting and receiving over a plurality of default transmit and receive channels. | 03-05-2009 |
20090060522 | PARALLEL HIGH-SPEED COMMUNICATION LINKS WITH REDUNDANT CHANNEL ARCHITECTURES - An optical transmission system includes more optical channels than electrical channels. If an optical channel is not functioning, the signals may be diverted to another optical channel since there are more optical channels than electrical channels. Embodiments of the present invention also relate to switches for switching the electrical channels to particular optical channels on either or both of the transmission and reception side. The switches include switching elements and selector elements for routing the electrical signals between the electrical channels and optical channels. In one embodiment, the multiple optical channels are incorporated into a single cable. The single cable may have the electrical interface for a number of electrical channels exposed for mechanical and electrical coupling with an external port, whereas the optical channels may be hidden within the cable coating. | 03-05-2009 |
20100061069 | OPTOELECTRONIC MODULE FORM-FACTOR ADAPTER - In one example embodiment, an adapter module includes a body having a first form-factor and multiple receptacles extending into the body. Each of the receptacles is configured to receive an optoelectronic module having a second form-factor. The second form-factor is smaller than the first form-factor. The first form-factor may substantially conform to the CFP MSA, for example. The second form-factor may substantially conform to the SFP+ or QSFP MSA, for example. | 03-11-2010 |
20100097942 | SERIALIZER/DESERIALIZER TEST MODES - Serializer, deserializer, and/or serdes ICs are configured to support one or more test modes to enable end-to-end testing in communication links in which the ICs are implemented. To support the end-to-end testing, the ICs can include a multiplexing stage with means for deterministically mapping a plurality of input parallel data signals to at least one output serial data signal and/or a demultiplexing stage with means for deterministically mapping at least one input serial data signal to a plurality of output parallel data signals. When used in combination in a communication link, the means included in the multiplexing stage and demultiplexing stage deterministically map specific input parallel data signals to specific output parallel data signals. | 04-22-2010 |
20120020674 | STATUS LINK FOR MULTI-CHANNEL OPTICAL COMMUNICATION SYSTEMS - A robust and redundant status link is established by a first multi-channel optoelectronic device with a second multi-channel optoelectronic device in a multi-channel communication link. Transmitter bias currents are effectively modulated with a status link modulation signal representative of status data and subsequently modulated with primary data modulation signals. The resulting signals are transformed into optical signals and transmitted over the link as main communication links combined with a status link. At the second device, the optical signals are received and converted to electrical signals. The receipt of the optical signals creates multiple receiver bias currents, which may be monitored to detect the status link modulation signal. The second device may adjust various operating parameters in response to the information conveyed by the status link. For instance, devices can use status links to operate above nominal eye safety limits and/or to adjust transmit power to compensate for degradation effects. | 01-26-2012 |
20140270765 | PLUGGABLE OPTICAL HOST AND NETWORK I/O OPTOELECTRONIC MODULE - In an embodiment, a pluggable optical host and network I/O optoelectronic module (hereinafter “module”) includes a first optical-electrical-optical (OEO) converter and a second OEO converter. The first OEO converter is configured to convert N inbound optical signals to M inbound optical signals and includes N network-side optical receivers, first signal processing circuitry communicatively coupled to the N network-side optical receivers, and M host-side optical receivers communicatively coupled to the first signal processing circuitry. The second OEO converter is configured to convert M outbound optical signals to N outbound optical signals and includes M host-side optical receivers, second signal processing circuitry communicatively coupled to the M host-side optical receivers, and N network-side optical receivers communicatively coupled to the second signal processing circuitry. | 09-18-2014 |
20150030321 | REDUNDANCY AND INTEROPERABILITY IN MULTI-CHANNEL OPTOELECTRONIC DEVICES - A multi-channel optoelectronic device is configured to establish a redundant status link with a remote device. The optoelectronic device can transmit N transmit optical signals to the remote device over a plurality of transmit channels and receive N receive optical signals from the remote device over a plurality of receive channels. The optoelectronic device includes one or more spare transmit and receive channels. When used with a remote device having spare transmit and receive channels, each device can establish a status link with the other and use the status link to switch out transmit and/or receive channels to identify and permanently switch out the worst transmit and/or receive channels. Alternately, the device can interoperate with a non-status-link enabled remote device by determining that the remote device is not status-link enabled, transitioning to a low transmit power mode, and transmitting and receiving over a plurality of default transmit and receive channels. | 01-29-2015 |