Abstract: Example registration procedures for Ethernet Passive Optical Network Over Coax (EPOC) are provided. The procedures are compliant with the Ethernet Passive Optical Network (EPON) standard. The procedures cover initial coaxial media converter (CMC) registration; physical layer discovery and link up over a coaxial link of an EPOC network; and medium access control (MAC)-level discovery and link up over an EPOC network. As such, the procedures can he used to fully bring air EPOC network to user traffic readiness. In addition, the procedures, or a variation thereof, can be used to enable periodic maintenance of the coaxial link of the EPOC network, thereby maintaining adequate communication conditions over the coaxial link.
Type:
Application
Filed:
June 22, 2012
Publication date:
August 8, 2013
Applicant:
Broadcom Corporation
Inventors:
Edward W. BOYD, Sanjay Goswami, Josh Melcon
Abstract: An OLT operable in a PON and structured to perform OTDR measurements. The OLT comprises an electrical module for generating continuous downstream signals and processing received upstream burst signals according to a communication protocol of the PON; an optical module for transmitting continuous optical signals over a first wavelength, receiving optical upstream burst signals over a second wavelength, and transmitting optical upstream burst signals over a third wavelength, wherein the optical module further includes an ONU traffic processing module being electrically coupled to the optical module and the electrical module, wherein the ONU traffic processing module is configured to emulate one of a plurality of ONUs of the PON, to generate an analysis pattern to be transmitted as an optical upstream burst signal over a third wavelength, and analyze an analysis pattern received in an optical upstream burst signal for the purpose of performing the OTDR measurements.
Abstract: Protection switching methods, systems, and architectures are provided for hybrid Ethernet Passive Optical Network (EPON)-Ethernet Passive Optical Network Over Coaxial (EPOC) networks. Protection switching embodiments enable protection of the EPON portion and/or the EPOC portion of the hybrid network. In embodiments, protection switching may be initiated by an Optical Line Terminal (OLT), a coaxial media converter (CMC), or an optical network unit (ONU)/coaxial network unit (CNU) in the hybrid network.
Abstract: Systems and methods for Ethernet Passive Optical Network Over Coaxial (EPOC) power saving modes are provided. The EPOC power savings modes allow an EPOC coaxial network unit (CNU) to enter a sleep mode based on user traffic characteristics. The sleep mode may include powering down one or more module of the EPOC CNU, including radio frequency (RF) transmit/receive circuitry and associated circuitry. In embodiments, the EPOC CNU may enter sleep mode based on instructions from an optical line terminal (OLT) or based on its own determination. Embodiments further include systems and methods that allow the EPOC CNU to maintain synchronization with a servicing coaxial media converter (CMC) when it enters a sleep mode.
Type:
Application
Filed:
March 30, 2012
Publication date:
August 8, 2013
Applicant:
Broadcom Corporation
Inventors:
Edward Wayne BOYD, Sanjay GOSWAMI, Andrew BOYCE
Abstract: Aspects of the invention comprise a remote tracking and control server operable to transparently activate control of resources and to monitor operations on a target handheld communication device utilizing code installed on the handheld device. The resources may comprise a camera, microphone, GPS receiver, input device, display, speaker, wireless and/or wire-line transmitter and/or receiver. The monitoring and/or controlling activity is protected from interruption. The handheld device may be accessed by a securely stored unique identifier. Access to the controlling function and/or the resources by a user of the handheld device may be restricted. Monitored information is stored on the handheld device and communicated to the tracking server. The control server may receive monitored information from the handheld device whenever the device is coupled to a communication network. Monitoring may be initiated based on detected motion, sound, user input, video and/or touch.
Abstract: An RF front-end with on-chip transmitter/receiver isolation using a gyrator is presented herein. The RF front end is configured to support full-duplex communication and includes a gyrator and a transformer. The gyrator includes a metal plate and an inductor that are configured to isolate the input of a low-noise amplifier (LNA) from the output of a power amplifier (PA) using the Hall effect. The gyrator is further configured to isolate the output of the PA from the input of the LNA. The gyrator is at least partially or fully capable of being integrated on silicon-based substrate.
Abstract: A circuit and method for debouncing an electrical signal are disclosed. A representative embodiment of the present invention may be set to remove (i.e., filter) noise or glitches in the low and high portions of an input signal, where the width of the noise or glitches while in the high or low state may be set using a programming interface. The filtering is done in a manner that results in a clean, debounced output signal having a low portion approximately equal to the low portion of the input signal, and a high portion approximately equal to the high portion of the input signal. Noise or glitches of less than programmable high or low glitch widths are filtered from the input signal and do not appear in the output signal.
Abstract: Aspects of a method and system for compensation of interference cancellation delay are provided. In this regard, a wireless communication device may receive one or more signals and may be operable to select, whether dynamically or statically, a processing path for processing the one or more received signals. The selected processing path may comprise one of an interference cancellation processing path and a pass-through processing path. A delay introduced by the pass-through processing path may be approximately equal to a processing delay introduced by the interference cancellation processing path. The one or more received signals may comprise HSDPA signals. The selection of processing path may be based on a measure of interference present in the one or more received signals.
Type:
Grant
Filed:
November 3, 2009
Date of Patent:
August 6, 2013
Assignee:
Broadcom Corporation
Inventors:
Wei Luo, Karthik Rajagopalan, Andrew du Preez, Bin Liu, Shuangquan Wang
Abstract: A method of directing an audio signal to an intended user by a remote-control device coupled to an audio/video device is described. The remote-control device sends an instruction to the audio/video device to transmit an audio signal. The remote-control device receives the audio signal and processes the audio signal to generate a directional audio. The directional audio is then routed to an intended user such that the directional audio signal is audible to the intended user, but not to other recipients in the vicinity.
Abstract: A method and system are provided in which a first device may directionally transmitting signals to a second device utilizing beamforming operations on multiple antennas. The first device may receive signals from the second device to establish an anonymous directional peer-to-peer wireless communication link with the second device. The transmitted signals may comprise a request-to-send (RTS) signal and the received signals may comprise a clear-to-send (CTS) signal. In some instances, the direction in which the transmitted signals are sent may be adjusted by changing the weights in the beamforming operation and/or by rotating the plurality of antennas. The transmitted signals may comprise an association identification (ID) corresponding to the first device, which may be embedded in a preamble or other portion of a frame structure. When the link is established, user information, such as profile information, for example, and/or messages may be sent from one device to the other.
Abstract: A system and method in a multimode mobile communication device for providing communication configuration update capability. Various aspects of the present invention may comprise establishing a first communication link characterized by a first communication mode of a plurality of communication modes in which the multimode communication device is capable of communicating. Such a first communication link may, for example, be established utilizing a first communication interface module. Communication configuration (or profile) information for a second communication mode may be received over the first communication link. The communication configuration information for the second communication mode may then be utilized to configure the mobile communication device to perform communications in the second communication mode (e.g., utilizing a second communication interface module).
Abstract: A Voice-Data-RF IC includes a baseband processing module, an RF section, and an interface module. The baseband processing module converts an outbound voice signal into an outbound voice symbol stream, converts an inbound voice symbol stream into an inbound voice signal, converts outbound data into an outbound data symbol stream, and converts an inbound data symbol stream into inbound data. The interface module provides selective coupling between the baseband processing module, the RF section, and with off-chip circuits.
Type:
Grant
Filed:
November 30, 2012
Date of Patent:
August 6, 2013
Assignee:
Broadcom Corporation
Inventors:
Ahmadreza Rofougaran, Maryam Rofougaran, Hooman Darabi, Frederic Christian Marc Hayem, Claude G. Hayek, Vafa James Rakshani, Nelson R. Sollenberger, Yossi Cohen
Abstract: A vertically stacked, planar junction Zener diode is concurrently formed with epitaxially grown FET raised S/D terminals. The structure and process of the Zener diode are compatible with Gate-Last high-k FET structures and processes. Lateral separation of diode and transistor structures is provided by modified STI masking. No additional photolithography steps are required. In some embodiments, the non-junction face of the uppermost diode terminal is silicided with nickel to additionally perform as a copper diffusion barrier.
Abstract: A system and method for enhanced physical layer device interface capability for backward support of fast retrain. The enhanced physical layer device is configurable in its leveraging of an identified legacy signaling mechanism. The identified legacy signaling mechanism can be used by the enhanced physical layer device to suspend transmission by the media access control device to facilitate the fast retrain.
Abstract: Aspects of a method and system for dynamic adjustment of power, antenna direction and frequencies in a femtocell network are provided. In this regard, a communication system may comprise a plurality of femtocells, one or more base stations, and a femtocell management entity that coordinates operation of the plurality of femtocells. One or more parameters may be communicated from one of the plurality of femtocells and/or one or more base stations to the femtocell management entity. The femtocell management entity may be enabled to utilize the one or more parameters to determine configuration information for one of the plurality of femtocells and/or for one or more remaining ones of the plurality of femtocells. One of the plurality of femtocells may be enabled to receive the determined configuration information from the femtocell management entity. One of the plurality of femtocells may be configured utilizing the received determined configuration information.
Type:
Grant
Filed:
May 30, 2012
Date of Patent:
August 6, 2013
Assignee:
Broadcom Corporation
Inventors:
Vinko Erceg, Charles Abraham, Xuemin Chen, Wael William Diab, Victor Hou, Jeyhan Karaoguz, Mark Kent
Abstract: A method for processing signals in a communication system includes selecting, from a plurality of users, a first user having a channel gain that is greater than a channel gain corresponding to a remaining portion of the plurality of users. At least a second user may be selected from a portion of the remaining portion of the plurality of users, based on a feedback channel gain of the second user. The selected second user may have a channel direction that is approximately orthogonal to a channel direction of the first user. System capacity may be determined based on the selecting of the first user and the selecting of the second user. The channel gain may be defined by a quantized channel gain. A quantized channel direction of the selected first user may be determined for the selecting of the second user.
Type:
Grant
Filed:
November 2, 2010
Date of Patent:
August 6, 2013
Assignee:
Broadcom Corporation
Inventors:
Jun Zheng, Chengjin Zhang, Pieter van Rooyen
Abstract: Certain aspects for protecting image data in a video compression system may include encrypting image data utilizing counter-mode scrambling. The encrypted image data may be buffered in at least one frame buffer. The buffered encrypted image data may be decrypted by utilizing counter-mode descrambling.
Abstract: Certain aspects of a method and system for motion compensated temporal filtering using both finite impulse response (FIR) and infinite impulse response (IIR) filtering may include blending at least one finite impulse response (FIR) filtered output picture of video data and at least one infinite impulse response (IIR) filtered output picture of video data to generate at least one blended non-motion compensated output picture of video data. A motion compensated picture of video data may be generated utilizing at least one previously generated output picture of video data and at least one current input picture of video data. A motion compensated picture of video data may be blended with at least one current input picture of video data to generate a motion compensated output picture of video data. The generated motion compensated output picture of video data and the generated non-motion compensated output picture of video data may be blended to generate at least one current output picture of video data.
Abstract: A method for processing network information may include performing by one or more processors and/or circuits integrated within a single chip, classifying a header portion of a received packet based on connection context information within the received packet. The connection context information may be acquired by the single chip from a memory external to the single chip. The connection context information for the received packet may be updated based on the classifying. At least a payload portion of the received packet may be communicated to a destination, based on the updated connection context information. The classifying, updating and communicating may be performed asynchronously. The header portion of the received packet may be parsed and/or validated. The connection context information of the received packet may be evaluated.
Abstract: A method and apparatus is disclosed to map a sequence of data to Quadrature Amplitude Modulation (QAM) constellation symbols. The method and apparatus encodes only a portion of the sequence of data and leaves a remaining portion of the sequence of data unencoded. The encoded portion of the sequence of data and the remaining unencoded portion of the sequence of data are then mapped into modulation symbols of the QAM constellation. The encoded portion of the sequence of data selects subsets of the QAM constellation, and the remaining unencoded portion of the sequence of data determines a specific modulation symbol within each subset of the QAM constellation.
Type:
Grant
Filed:
September 14, 2012
Date of Patent:
August 6, 2013
Assignee:
Broadcom Corporation
Inventors:
Lin He, Thomas J. Kolze, Ba-Zhong Shen, Gottfried Ungerboeck, Bruce J. Currivan