Patents Assigned to Alloptic, Inc.
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Patent number: 7386236Abstract: A passive optical network which employs multiple wavelengths to increase overall system bandwidth, with each wavelength being shared by multiple optical network units (ONUs) according to a time division multiple access (TDMA) protocol. The upstream TDMA traffic therefore includes multiple TDMA data streams at different wavelengths. An optical line terminal (OLT) preferably receives the multiple TDMA data streams and separates them to different detectors before ultimately combining all data into a single data stream using a multiplexer after performing clock and data recovery functions. In this manner, the upstream bandwidth in a passive optical network can be markedly increased without requiring an increase in data transmit speeds, and while using low cost/low speed detectors in the OLT, and low cost/low speed transceivers in the ONUs. System bandwidth can be further improved by using higher cost, higher speed components.Type: GrantFiled: September 27, 2000Date of Patent: June 10, 2008Assignee: Alloptic, Inc.Inventors: Jer-Chen Kuo, Gerald A. Pesavento
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Patent number: 7272321Abstract: A passive optical network. The optical network has an optical fiber ring with ends terminating at an optical line terminal. The optical line terminal transmits signals through the fiber ring to optical network units passively connected to the fiber ring. The optical network units receive signals from the optical line terminal through the fiber ring. In one embodiment, the optical line terminal transmits redundant signals in opposite directions through the fiber ring and the optical network units receive the redundant signals from opposite directions through the fiber ring. In another embodiment, the optical network units receive TDM signals from and transmit TDMA signals to the optical line terminal through a fiber line. A first WDM coupler passively connected to the fiber line multiplexes an overlay signal with at least one of the TDM signals and the TDMA signals for transmission through the fiber line. The overlay signal has a wavelength different than the signals with which it is multiplexed.Type: GrantFiled: May 10, 2000Date of Patent: September 18, 2007Assignee: Alloptic, Inc.Inventors: Jer-Chen Kuo, Gerald A. Pesavento
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Publication number: 20070195772Abstract: The present invention implements a distributed IGMP implementation. It connects to one or more multicast data sources from one node within a collection of cooperating computing devices. Other computing devices within the collection of cooperating computing devices connect to one or more IP hosts who wish to receive the multicast data. The IGMP implementation is divided between the computing device that connects to the multicast data sources and the computing devices that connect to the consumers of that source.Type: ApplicationFiled: June 14, 2004Publication date: August 23, 2007Applicant: ALLOPTIC, INC.Inventor: Bryan Shadish
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Patent number: 7031343Abstract: A point-to-multipoint passive optical network transmits downstream data from an optical line terminal (OLT) to multiple optical network units (ONUs) in variable-length packets and upstream data from the ONUs to the OLT in variable-length packets utilizing time division multiplexing to avoid transmission collisions. In an embodiment, the variable-length downstream packets and the variable-length upstream packets are formatted according to IEEE 802.3. In an embodiment, the length of the variable-length downstream and upstream packets is related to the length of Internet protocol (IP) datagrams carried within the packets.Type: GrantFiled: November 17, 2000Date of Patent: April 18, 2006Assignee: Alloptic, Inc.Inventors: Jerchen Kuo, Dumitru Gruia, Glen Kramer, Gerry Pesavento
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Patent number: 6859624Abstract: A laser diode optical transmitter and a method of operating the optical transmitter utilize a transistor to quickly enable and disable a laser diode by selectively shorting the laser diode. In an embodiment, the transistor is separated from the laser diode by an inductor. The inductor provides a high impedance between the transistor and the laser diode to at least reduce the effect of a parasitic capacitance associated with the transistor when the laser diode is driven to generate optical signals of different power levels. The use of the transistor and the inductor (i) reduces the amount of leakage light generated by the laser diode when in a disabled state, (ii) shortens the enable and disable times of the optical transmitter, and (iii) allows the laser diode to be modulated at a high rate of speed.Type: GrantFiled: November 17, 2000Date of Patent: February 22, 2005Assignee: Alloptic, Inc.Inventors: Jerchen Kuo, Michael Anthony O'Brien
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Patent number: 6546014Abstract: An optical access network and method for transmitting optical data in the network utilizes an interleaved polling scheme to efficiently use the available bandwidth of the network. The use of the interleaved polling scheme allows a central terminal of the network to dynamically allocate upstream bandwidth from remote terminals of the network to the central terminal in response to the amount of data that is waiting at the remote terminals to be transmitted to the OLT. In one embodiment, the optical access network is based on Passive Optical Network (PON) technology. In another embodiment, the optical access network utilizes Ethernet protocol to encapsulate data in Ethernet frames for transmission. Thus, in these embodiments, the optical access network includes all of the advantages associated with the PON technology and/or the Ethernet protocol. In addition, since the allocation of upstream bandwidth is on an as needed basis, loss of bandwidth due to unfilled time slots is substantially eliminated.Type: GrantFiled: January 12, 2001Date of Patent: April 8, 2003Assignee: Alloptic, Inc.Inventors: Glen Kramer, Gerry Pesavento
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Patent number: 6470032Abstract: A system and method for synchronizing clocks related to telecommunications throughout s point-to-multipoint optical network utilizes downstream data timed using a high frequency transmission clock to distribute timing information of a central telecom-based clock to remote terminals. In an exemplary embodiment, the point-to-multipoint optical network system is an Ethernet-based passive optical network (PON) system that operates in accordance with a Gigabit Ethernet standard. The timing information of the central telecom-based clock is extracted from the downstream data at each remote terminal by recovering the high frequency transmission clock and then, deriving a reference clock, which is synchronized with the central telecom-based clock, from the recovered transmission clock. The reference clock is then used to generate one or more telecom-related clocks that are needed by the remote terminal.Type: GrantFiled: March 20, 2001Date of Patent: October 22, 2002Assignee: Alloptic, Inc.Inventors: Thaddeus J. Dudziak, Dumitru Gruia, Joseph G. DeCarolis