Abstract: A communications system includes at least one telecommunications access module coupled to a plurality of communications subscriber line pairs and comprising at least one bonding engine. A module is configured to receive a provisioning request and determine the total number of communications subscriber line pairs available to form a bonding group and select at least one bonding engine for the bonding group. A data processor is configured to determine a maximum packet fragment size for the data packets based on the total number of available subscriber line pairs forming the bonding group. A maximum packet fragment size is adapted to the number of communications line pairs within the bonding group and the bonding engine fragments the data packets into the packet fragments. A transmitter receives the packet fragments and transmits the packet fragments over the communications subscriber line pairs forming the bonding group.
Type:
Grant
Filed:
July 15, 2010
Date of Patent:
June 11, 2013
Assignee:
Adtran, Inc.
Inventors:
Darrin L. Gieger, Kevin W. Schneider, Arlynn Wilson, Robert A. Barrett
Abstract: A communication system for propagating a congestion notification of a frame relay network through a packet network has a first interworking function (IWF). In addition, the system has a second IWF, the second IWF receives a first frame from a first frame relay node, the first frame having payload data and a header, the header comprising a frame relay congestion notification. The second IWF de-encapsulates the payload data from the first frame and encapsulates the payload data thereby forming a data packet compatible for transmission via the packet network. In addition, the second IWF transmits continuity check messages (CCMs) and the data packet via the packet network to the first IWF and controls at least one of the CCMs such that the frame relay congestion notification is propagated to the first IWF.
Abstract: The present disclosure generally pertains to systems and methods for passing timing information over packet networks. In one exemplary embodiment of the present disclosure, a transmitter inserts a timestamp into various packets being transmitted. A receiver determines the packet delay for each of these packets. The receiver monitors the packet delays of received packets over time to estimate a minimum packet delay for the network. Thereafter, the receiver uses the timestamps of received packets in order to update a local receiver clock signal so that the local receiver clock signal is synchronous to the clock signal used by the transmitter to generate the timestamps. However, the receiver filters the received timestamps such that the effects of packet delay variation to the synchronization of the local clock signals are reduced.
Type:
Grant
Filed:
April 2, 2008
Date of Patent:
May 14, 2013
Assignee:
ADTRAN, Inc.
Inventors:
Richard Goodson, Stacy Murphree, Jason Morgan, Stuart Venters
Abstract: At least one existing neighboring network device is connected to a newly deployed network device in a communications network. A network manager is connected remotely. The newly deployed network device is configured to determine its physical network connectivity by propagating a discovery protocol frame to the at least one existing neighboring network device. The frame in an example includes a field having a query that solicits from the existing neighboring network device the physical network connectivity data of the newly deployed device. This device is also configured to receive in response to the query, its physical network connectivity data and network data address of the network manager in a response, transmit its physical network connectivity data to the remote network manager, which in turn is configured to transmit provisioning data to the newly deployed network device based on the received physical network connectivity data.
Abstract: A current limiter in one exemplary embodiment of the present disclosure has a protection element that protects a current limiting element from excessive power dissipation. The protection element senses a parameter that is indicative of an amount of power being dissipated by the current limiting element. The protection element controls the current limiting element based on the sensed parameter such that power dissipation for the current limiting element is reduced to a safe level during a fault condition thereby protecting the current limiting element from damage during the fault condition.
Abstract: In accordance with a non-limiting example, an electrical protection device includes a fuse housing and a plurality of fuses carried by the fuse housing and arranged in a plurality of Tip/Ring fuse pairs. The Tip/Ring fuse pairs are arranged in vertical and horizontal orientation of Tip/Ring fuse pairs and spaced to each other such that differential crosstalk among the Tip/Ring fuse pairs is cancelled.
Abstract: A system and method routes a call within a communications network. A call routing device is interconnected to a plurality of trunks forming trunk groups and receives a call. A database stores a dialing plan having data related to restrictions as to which outbound trunk from the call routing device can be used based on an originating account as either a station or trunk of a caller or the number of a caller. A call router processor determines an outbound trunk from the call routing device to which a call from a caller is routed at the call routing device if the configured dial plan permits the originating account or number of the caller to access the selected outbound trunk. A call router routes the call from the caller onto the selected outbound trunk.
Abstract: A passive optical network (PON) has an optical line termination (OLT) that terminates an optical fiber servicing a plurality of optical network units (ONUs). Each ONU has one or more traffic containers (TCONTs) addressable by the OLT. The PON dynamic bandwidth allocation (DBA) implements a scheduling hierarchy, including several scheduling layers, such that disjoint sets of TCONTs can be grouped together, then disjoint sets of groups can be grouped, and so on. In such hierarchy, the residential traffic can be grouped separately from the business traffic. Further, within either the residential or business group, traffic may be grouped to define scheduling layers (“sub-groups”) within the residential or business group. Scheduling in one group or sub-group is performed independently of the scheduling in other groups or sub-groups, subject to the available bandwidth for each group.
Abstract: An amplifier circuit has an input stage, a current mirror stage, and an output stage. The output stage has a transistor for which a non-linear and/or linear Miller capacitance exists across the transistor. A capacitive element, referred to herein as a “negative Miller capacitor,” is coupled between an input node of the current mirror stage and the transistor's collector or drain causing the current flowing through the negative Miller capacitor to be inverted, supplying the current taken by the usual Miller capacitance of the output stage. Thus, the negative Miller capacitor cancels the usual Miller capacitance across the transistor of the output stage, and such cancellation occurs without significantly increasing the amplifier's input power and costs. In some embodiments, both linear and non-linear components of the usual Miller capacitor are cancelled.
Abstract: A communication system adaptively cancels noise and/or interference from signals communicated through a communication channel, such as signals communicated by a telecommunication network. The system, based on a common mode signal of a received signal, generates an estimate of noise or interference within a differential mode signal of the received signal. The system then subtracts the estimate from the differential mode signal in an effort to remove noise from the differential mode signal thereby providing a differential mode signal that is substantially free of the estimated noise or interference.
Type:
Grant
Filed:
August 30, 2010
Date of Patent:
April 23, 2013
Assignee:
ADTRAN, Inc.
Inventors:
Ayman Ghobrial, Michael D. Turner, Daniel M. Joffe
Abstract: An enclosure for outside plant equipment includes a base unit and first Printed Circuit Board (PCB) carried by the base unit and having a circuit side and opposing component side on which electronic components are mounted. A heat sink is connected to the first PCB at the circuit side and configured to dissipate heat from any electronic components mounted on the first PCB at the component side. A cover is attached to the base unit and has an inside surface covering the enclosure. A second PCB has a circuit side and opposing component side on which electronic components are mounted. The second PCB is supported by the inside surface of the cover. A heat sink is connected to the second circuit board at the circuit side and configured to dissipate heat from any electronic components mounted on the second PCB. A PCB finger connector interconnects the first and second PCB's at the component side.
Abstract: The present disclosure generally pertains to systems and methods for communicating data. In one exemplary embodiment, a system has a high-speed channel, such as an optical fiber, between a network facility, such as a central office (CO), and a first intermediate point between the network facility and a plurality of customer premises (CP). Digital communication links, such as DSL links, are used to carry data between the first intermediate point, such as a feeder distribution interface (FDI), and a second intermediate point, such as the Distribution Point (DP). Non-shared links may then carry the data from the second intermediate point to the CPs. The links between the two intermediate points are bonded to create a high-speed, shared data channel that permits peak data rates much greater than what would be achievable without bonding. In some embodiments, multicast data flows may be prioritized and transmitted across a set of connections to each of the intermediate points.
Abstract: Quiescent current control for Class AB output stages is provided that is responsive to a sum of current of the pull-up and pull-down transistors in the crossover region, and responsive to a minimum of the pull-up or pull-down transistors otherwise. Replicating transistors operate responsive to activation of the pull-up and pull-down transistors. Additional circuit elements provide a summed current output that corrects for quiescent current variation, while having good operation over PVT variations, and having minimal distortive effects. Use of scaled replicating transistors reduces the current in the quiescent current control circuit. Additionally, a current limiter or topology change may be used to reduce current spikes in replication of the output stage current. Adjustment of a reference current can also prevent turning off a non-active output element to reduce the need to stew the element back on.
Abstract: A system and method in accordance with a non-limiting aspect minimizes echo return loss in a communications system. The dial tone is broken on an analog telephone line connected to a hybrid circuit having selectable impedance configurations and that interfaces a digital communications circuit and the analog telephone line. After the telephone line is quiet, a white noise signal as a test call is inserted through the hybrid circuit onto the analog telephone line corresponding to a selected impedance setting configuration. The returned white noise signal is used for measuring the echo return loss corresponding to the selected impedance setting configuration. The test call is dropped. This process is repeated with multiple test calls each at a selectively different impedance setting configuration to obtain echo return loss measurements at each of the impedance setting configurations. The optimum impedance setting configuration is determined based on the results determined from the different test calls.
Abstract: In accordance with a non-limiting example, a communications method and system locates a network device that has been misconfigured by propagating within the same broadcast domain of an Ethernet communications network to which the network device is connected a discovery protocol frame and determining the Media Access Control (MAC) address of the remote device. A remote console terminal is connected for communications to the Ethernet communications network to the network device after discovering the network device. The remote console terminal communicates with the network device using Ethernet packets and configures correctly the network device such as by configuring a correct internet protocol (IP) address of the remote device.
Abstract: In accordance with a non-limiting example, a system and method minimizes collisions between transmitted connectivity fault management (CFM) packets. Maintenance association endpoints are formed from a plurality of network switch elements to form a maintenance association. The clocks between each network switch element within the maintenance association are synchronized. A unique transmission window is assigned to each maintenance association endpoint as part of the maintenance association. A respective CFM packet is transmitted as a continuity check message (CCM) within the unique transmission window.
Abstract: An enclosure for electronics includes a chassis and an interface connector positioned within the chassis and configured to provide power. A fan shelf module is received within the chassis and has at least one fan to provide air flow through the chassis. The fan shelf module includes a pinout connector along a horizontal or vertical line of symmetry and configured to engage the interface connector and receive power therefrom, such that the fan shelf module is selectively installed in one of two opposing directions allowing a fan air flow direction to the chassis to be selected as either pulling air or pushing air through the chassis depending on the installed direction of the fan shelf module.
Abstract: A system and method detects within an IP network an offending network device that has been adversely affecting the IP network performance. A discovery protocol frame is propagated to successive network switches and is formed as a field having a query for inquiring within each network switch to which the frame is propagated whether the network switch has a database entry regarding the MAC address and switch port for the offending network device to locate the offending network device. This discovery protocol frame includes a command for any network switch that has the offending network device connected thereto to disable the switch port to which the offending network device is connected or block all data traffic from the MAC address of the offending network device.
Type:
Grant
Filed:
January 21, 2010
Date of Patent:
February 19, 2013
Assignee:
Adtran, Inc.
Inventors:
Timothy J. Schlichter, David Perkinson, Mark Rudolph
Abstract: Improved digital driver with transition time control of an output stage output transistor of the digital driver. A predriver circuit has a resistor that forms an RC time constant with a feedback capacitor of the output transistor. The RC time constant is adjusted to control corner resolution of the output transistor in output switching. The RC time constant can be controlled by a digitally-controlled variable capacitor. Additionally, a delay may be introduced in the turning on of the output transistor as compared with the turn off time to reduce simultaneous conduction or shoot-through current.
Abstract: A communication system comprises a network server connected to a telephone at a customer premises via a subscriber line. The server is further connected to a cellular communication device through a cellular network. Upon installation of telephony equipment at the customer premises, a service technician uses a cellular communication device to communicate with the server of the network such that the server initiates a voice call to the telephone via the subscriber line. The technician then takes the telephone off hook, aligns a speaker of the cellular communication device with a microphone of the telephone, and aligns a microphone of the cellular device with a speaker of the telephone such that the telephone and the cellular device are acoustically coupled. A plurality of acoustic tones are communicated between the telephone and the cellular communication device in order to test the quality of the inbound and/or outbound connections for the telephone.