Patent application number | Description | Published |
20100325432 | COUNTERFEIT PREVENTION STRATEGY FOR PLUGGABLE MODULES - A method is provided, including (a) upon a standard small form-factor pluggable (SFP) module being inserted into an SFP jack on a network host device, determining if the SFP module is a legacy device or a smart device, (b) upon determining that the SFP module is a legacy device, receiving a magic code from the SFP module and determining if the magic code is a valid magic code, and (c) upon determining that the SFP module is a smart device, performing a smart authentication process with the SFP module. Associated apparatuses and additional methods are also provided. | 12-23-2010 |
20110255574 | Converter Device to Convert Between Different Small Form Factor Pluggable Standards - 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. A controller in the converter apparatus is configured to be coupled to the signal processor, to the first connector and to the second connector. The controller configures the signal processor as to parameters used for converting signals between the first and second form factor pluggable standards. | 10-20-2011 |
20120087675 | Compact small form-factor pluggable transceiver - An apparatus, in accordance with particular embodiments, includes an interface configured to establish connections within a copper network. The apparatus also includes a receptacle configured to receive a conventional small form-factor pluggable (SFP) module or a compact SFP module and to direct the SFP modules to a first connector. The first connector connects either of the SFP modules to the node. A pin of the first connector is configured to receive a module detection signal and to transmit data to the compact SFP module. The apparatus also includes a low pass filter coupled to the pin of the first connector that passes the module detection signal to the node. The apparatus is further configured to establish two duplex connections with an optical fiber network if the compact SFP module is connected and to establish one duplex connection with the optical fiber network if the conventional SFP module is connected. | 04-12-2012 |
20120249871 | HDMI-SFP+ ADAPTER/EXTENDER - The practical transmission range of an electrical cable can be extended by converting between electrical and optical signals using an HDMI-optical converter that receives an SFP+ optics transceiver. A pair of SFP+-based HDMI adapters/extenders can connect to a pair of HDMI cables, where one of the HDMI cables is connected to an HDMI Source and one of the HDMI cables is connected to an HDMI Sink. Each of the SFP+-based HDMI cable extenders can terminate with an SFP+ port to house a hot pluggable SFP+ transceiver. The apparatus can transmit 10 G video data to the distance that is supported by the SFP+ product. | 10-04-2012 |
20120250735 | X2 Form Factor 10GBASE-T Transceiver Module - An apparatus includes a transceiver device mounted on a printed circuit board and configured to transmit and receive signals that comply with a 10GBASE-T standard. A pluggable connector is disposed at one end of the printed circuit board and is coupled to the transceiver device. The pluggable connector is configured to plug into an X2 system port to convey signals that comply with the 10GBASE-T standard between the transceiver device and a system device. A port device is disposed at an opposing end of the printed circuit board and is coupled to the transceiver device. The port device is configured to receive a transmission cable to convey signals that comply with the 10GBASE-T standard between the transceiver device and a network device. | 10-04-2012 |
20120254495 | X2 10GBASE-T Transceiver with 1 Gigabit Side-Band Support - An apparatus includes a transceiver device mounted on a printed circuit board and configured to selectively transmit and receive signals at a first data rate or signals at a second data rate. An X2 form factor pluggable connector disposed at one end of the printed circuit board includes first and second pins that respectively convey signals at the first and second data rates between the transceiver device and a system device. A port device disposed at an opposite end of the printed circuit board conveys signals between the transceiver device and a network device. A management circuit determines which of the first and second data rates is selected based on transmissions between the system device and the network device and controls the transceiver device to transmit and receive signal at the first data rate via the first pins and at the second data rate via the second pins. | 10-04-2012 |
20120263460 | ADAPTIVE SETTING OF TRANSMIT POWER IN OPTICAL TRANSCEIVERS - Adaptive power setting techniques for optical transceivers are provided. Optical signals are received at a first optical transceiver device that are transmitted from a second optical transceiver device. A receive power of the optical signals received at the first optical transceiver device from the second optical transceiver device is determined. A characteristic of optical signals transmitted by the first optical transceiver device to the second optical transceiver device is modulated to indicate to the second optical transceiver device a disparity of the receive power with respect to a target receive power level at the first optical transceiver device. Conversely, the first optical transceiver device adjusts a power level of optical signals transmitted by the first optical transceiver device to the second optical transceiver device based on a characteristic of the optical signals received at the first optical transceiver device. | 10-18-2012 |
20120331320 | Wake-on-LAN Between Optical Link Partners - Embodiments described herein achieve Wake-on-LAN to allow optical modules the ability to wake up link partners instantaneously when there is data to be transmitted or received. As such, Wake-on-LAN features are provided for a side-band handshaking protocol and channel that is independent from the normal data traffic path. | 12-27-2012 |
20130058444 | Fault Tolerant Communications Over a Two-Wire Interface - Techniques are provided for fault-tolerant communications over a two-wire interface. A method for such communications includes iteratively initiating transfer of data between a master device and a slave device via a two-wire interface, and, prior to each iteration, transmitting a flushing bit-stream from the master device to the slave device. The flushing bit-stream is configured to align the operations of the slave device with the operations of the master device. | 03-07-2013 |
20130115803 | SYSTEM AND METHOD FOR PROVIDING A VISUAL INDICATOR FOR CABLES - A method is provided in one example and includes receiving a signal at an indicator activator provided on a first end of a data cable. The data cable comprises a second end that includes an indicator. The method also includes activating the indicator such that at least a portion of the data cable is illuminated. In more particular embodiments, the indicator activator is a switch, and the signal causes the switch to close such that a current is provided to the indicator. | 05-09-2013 |
20130202289 | METHOD AND DEVICE FOR PROVIDING ON-BOARD FAILURE LOGGING FOR PLUGGABLE OPTICAL MODULES - A method of capturing a failure log for an optical module may be provided. The optical module may have an optical monitoring circuit and a buffer memory. The method may include measuring environment variables of the optical module using the optical monitoring circuit, and storing the measured environment variables in the buffer memory. In addition, the method may also include receiving time of day information. The measured environment variables may then be associated with the time of day information. | 08-08-2013 |
20130215936 | Two-In-One CFP Form-Factor Pluggable Adapter - Techniques are provided describing a first connector unit that receives first data from a first transceiver and a second connector unit that receives second data from a second transceiver. A switch unit is configured to receive first switch data from the first connector unit at a first data rate and second switch data from the second connector unit at the first data rate. A third connector unit receives the first switch or the second switch data from the switch unit and a second portion of the second data from the second connector unit. The third connector unit also sends the first switch data to a host port when the first connector unit receives the first data and to send the second switch data and the second portion of the second data to the host port when the second connector unit receives the second data. | 08-22-2013 |
20130222688 | High-Definition Multimedia Interface Copper Adapter - Techniques are provided for communications between high-definition multimedia interface (HDMI) devices. The techniques describe a system comprising a first or transmitter adapter device that is electrically connected to a source HDMI device. The first adapter device is configured to receive one or more source HDMI signals from the source device across a first HDMI link and to convert the source HDMI signals to corresponding one or more 10GBase-T data signals configured to be transmitted across a data link. A second or receiver adapter device electrically connected to the first adapter device across the data link. The second adapter device is configured to receive the 10GBase-T data signals from the first adapter device across the data link, convert the 10GBase-T data signals to corresponding one or more destination HDMI signals and send the destination HDMI signals to a destination HDMI device electrically connected to the second adapter device. | 08-29-2013 |
20130223484 | Two-Channel Compact Small Form-Factor Pluggable Module - An apparatus and method are provided for two-channel bidirectional communications between devices for enhanced data signals. In particular, the techniques describe a first transceiver channel configured to receive first data communications from a first transceiver port. A second transceiver channel is also configured to receive second data communications from a second transceiver port. A set of signal pins are configured to receive the first data communications from the first transceiver port at a first group of signal pins and to receive the second data communications from the second transceiver port at a second group of signal pins. The first group of signal pins comprises signal pins in a signal-signal-ground configuration and the second group of signal pins comprises signal pins in a ground-signal-signal-ground configuration. | 08-29-2013 |
20130243438 | Ultra High Density Pin-Compatible Four-Channel Enhanced Small Form-Factor Pluggable Module - An enhanced small form-factor pluggable (SFP+) transceiver module and an SFP+ host port are provided. The enhanced SFP+ transceiver module receives a reception data signal at a data rate of 40 gigabits per second (40 G). The reception data signal is sent to a transceiver bidirectional transmission unit. The transceiver bidirectional transmission unit comprises a first SFP+ connector unit configured to interface with a second SFP+ connector unit of an SFP+ host port. The reception data signal is sent from the transceiver bidirectional transmission unit to the second SFP+ connector unit of the SFP+ host port via the first SFP+ connector unit. | 09-19-2013 |
20130251052 | CXP TO QSFP+ MODULE FORM FACTOR ADAPTER - Techniques are provided for an adapter device configured to enable communications between a quad small form-factor pluggable (QSFP) transceiver unit and a CXP host port. The adapter device comprises a first connector unit, a second connector unit, a microcontroller unit and a plurality of reception equalizer units. Data signals are sent by the transceiver unit to a first equalizer unit via the first connector unit. The first equalizer unit adjusts the data signals and sends the data signals to the host port via the second connector unit. Likewise, data signals are sent by the host port to a second equalizer unit via the second connector unit. The second equalizer unit adjusts the data signals and sends the data signals to the transceiver unit via the first connector unit. | 09-26-2013 |
20130272348 | QSFP to SFP+ Adapter Cable - Techniques are provided for sending and receiving data communications across management data channels. The techniques comprise a quad small form-factor pluggable (QSFP) transceiver module configured to send and receive a plurality of data signals, a plurality of enhanced small form-factor pluggable (SFP+) transceiver cage devices, and a plurality of management cables. Each of the SFP+ transceiver cage devices is configured to interface with an SFP+ transceiver module. Each of the management cables is configured to interface with the QSFP transceiver module and corresponding ones of the SFP+ transceiver cage devices. Furthermore, each of the management cables operates as a data channel to manage data flow between the QSFP transceiver module and the corresponding ones of the SFP+ transceiver cage devices. | 10-17-2013 |
20130279122 | Universal Pull Tab Release For Modules Including Fiber Optic And Cable Accessibilities - A pluggable module for releasable engagement with a computing device includes a first end portion, a second end portion and a release tab structure. The release tab structure connects with the first end portion to facilitate removal of the module from the port of the computing device and has a generally U-shaped profile including two elongated arms spatially distanced from each other and extending transversely from the first end portion and terminating at a crossbar that connects between the elongated arms. Portions of the elongated arms and the crossbar extend within a plane that is separated a sufficient distance from the cable connector so as to facilitate 360° of access around the cable connector during connection and removal of the cable connector with the cable connection port. | 10-24-2013 |
20140003448 | LOW LATENCY NX10G FORM FACTOR MODULE TO AN ENHANCED SMALL FORM-FACTOR PLUGGABLE UPLINK EXTENDER TO MAXIMIZE HOST PORT DENSITY | 01-02-2014 |
20140219652 | Compact Small Form-Factor Pluggable Transceiver - An apparatus, in accordance with particular embodiments, includes an interface configured to establish connections within a copper network. The apparatus also includes a receptacle configured to receive a conventional small form-factor pluggable (SFP) module or a compact SFP module and to direct the SFP modules to a first connector. The first connector connects either of the SFP modules to the node. A pin of the first connector is configured to receive a module detection signal and to transmit data to the compact SFP module. The apparatus also includes a low pass filter coupled to the pin of the first connector that passes the module detection signal to the node. The apparatus is further configured to establish two duplex connections with an optical fiber network if the compact SFP module is connected and to establish one duplex connection with the optical fiber network if the conventional SFP module is connected. | 08-07-2014 |
20140248059 | QSFP+ to SFP+ Form-Factor Adapter with Signal Conditioning - Techniques are provided for sending and receiving data communications between an enhanced Quad Small Form-Factor Pluggable (QSFP+) transceiver module and an enhanced Small Form-Factor Pluggable (SFP+) transceiver module. An adapter device is provided that has a first set of signal pins configured to interface with an SFP+ transceiver module and a second set of signal pins is provided that is configured to interface with a QSFP+ host port. A retimer unit is also provided that is configured to modify a 10G signal of a first electrical signal standard associated with the SFP+ transceiver module to a 10G signal of a second electrical standard associated with a QSFP+ transceiver module and to enhance a 10G signal of the second electrical signal standard to a 10G signal of the first electrical signal standard. | 09-04-2014 |
20140363171 | QSFP to 4x10GBASE-T Converter Cable Assembly - A Quad Small Form-Factor Pluggable (QSFP) transceiver module is provided that is configured to interface with a QSFP host and to send and receive a plurality of data signals at a data rate of up to forty gigabits per second (40 G). A plurality of 10GBase-T ports with Registered Jack (RJ) 45 connectors is also provided, wherein each of the 10GBase-T ports is configured to interface with a 10GBase-T device to send and receive a plurality of data signals at a data rate of ten gigabits per second (10 G). Cables are configured to interface with the QSFP transceiver module and with corresponding ones of the 10GBase-T ports with the RJ45 connectors. Each of the plurality of cables operates as a data channel for data flow between the QSFP transceiver module and the corresponding ones of the 10GBase-T ports with the RJ45 connectors. | 12-11-2014 |