Abstract: A signalling system providing communications between a controller and a remote unit in a network element is provided. The signalling system comprises a first communication module associated with the controller, a second communication module associated with the remote unit and a communication link for the first and second communication modules. The first communication module generates a command signal and a downstream monitoring signal for the remote unit. The second communication module receives the command signal and the downstream monitoring signal and generates the status signal and the upstream monitoring signal. The communication link carries the signals. The first communication module monitors for receipt of the upstream monitoring signal and the status signal and determines status of the communication link and the remote unit utilizing results of monitoring for the receipt of the upstream monitoring signal, the status signal and the command signal.

Abstract: A communication switch is provided for customer premise equipment. The switch comprises a communication module which processes communications between elements in the communication switch, a shelf module which has an interface point for the customer premise equipment to the communication module, and a chassis. The shelf module comprises an I/O card providing the interface point, a line processing card, a midplane providing a connections to the I/O card and the line processing card and connections for the midplane to the communication module. The shelf module communicates with the communication module via a communication link. The link may be connected and disconnected without disrupting operation of other shelf modules connected to said communication module.

Abstract: High-speed signaling pins are often at a premium in Field Programmable Gate Arrays and minimizing the number of high-speed signals crossing a midplane is desirable to simplify system design and improve reliability. The method disclosed herein provides a more pin-efficient high-speed data path interface with per-queue backpressure signaling than what is available in prior art, leading to reduced system design and manufacturing costs and improved perfonnance. The invention improves upon an industry standard protocol, the SPI 4.2 protocol, for high speed data transmission between switching system components by adding advanced functionality from a widely supported standards proposal, the CSIX level 2. In doing so, the invention offers a hybrid of the two interfaces that is more pin-efficient than either of them.

Abstract: The method described herein is a more efficient way to transmit non-user data over a SPI 4.2 interface. During single PHY mode, the transmission occurs between single ports, eliminating the need for a port address in the control word portion of the SPI 4.2 data word. Consequently, the address bits can be used to indicate the type of data being transmitted in single PHY mode, either user or non-user data. Since non-user data is transmitted periodically, the bandwidth granularity is improved by using bandwidth when required for the non-user data as opposed to dedicating bandwidth to it. The bandwidth granularity is reduced to remain within the specifications for any type of SPI 4.2 packet, including OC-192.

Abstract: A master-slave communication system for a communication switch is provided. The system comprises a master controller generating commands and receiving status signals and slave devices associated with the master controller. Each slave receives commands, executes local commands responsive to the commands and generates status signals for the master controller. Each slave has a communication arrangement for signals transmitted between it and the master controller. The arrangement comprises a communication controller associated with the master controller. The communication controller receives commands, transmits commands to each slave, receives status signals and provides information relating to the status signals to the master controller; also the controller has a communication link which transmits commands to each slave and the status signals to the controller. The system allows local commands executed by the slaves to replace other commands directed by the master controller to the slave.

Abstract: The present invention comprises a method and apparatus for optimizing redundant link usage so as to allow a portion of the wasted bandwidth in a redundant link system to be utilized for additional data traffic without compromising the ability of the system to respond to and correct for a failure of a link. In one embodiment, two independent, individually addressable links are established between to endpoints. One of the links is selected as a nominal communication path, and the other as a standby communication path. Data traffic between the endpoints is divided into path independent traffic and path dependent traffic. The path independent traffic is sent via the nominal communication path, while the path dependent data is sent via the nominal communication path or the standby path, in accordance with the dependence of the traffic. In another embodiment, the nominal communication path and standby communication path each comprise a time sensitive path and a normal path.

Abstract: A communication switch is provided for customer premise equipment. The switch comprises a communication module which processes communications between elements in the communication switch, a shelf module which has an interface point for the customer premise equipment to the communication module, and a chassis. The shelf module comprises an I/O card providing the interface point, a line processing card, a midplane providing a connections to the I/O card and the line processing card and connections for the midplane to the communication module. The shelf module communicates with the communication module via a communication link. The link may be connected and disconnected without disrupting operation of other shelf modules connected to said communication module.

Abstract: A signalling system providing communications between a controller and a remote unit in a network element is provided. The signalling system comprises a first communication module associated with the controller, a second communication module associated with the remote unit and a communication link for the first and second communication modules. The first communication module generates a command signal and a downstream monitoring signal for the remote unit. The second communication module receives the command signal and the downstream monitoring signal and generates the status signal and the upstream monitoring signal. The communication link carries the signals. The first communication module monitors for receipt of the upstream monitoring signal and the status signal and determines status of the communication link and the remote unit utilizing results of monitoring for the receipt of the upstream monitoring signal, the status signal and the command signal.

Abstract: A multi-shelf communication system for a communication switch having shelves is provided. There is a master generating commands and receiving status signals, slaves associated with the master, a communication controller per slave, a downstream communication link providing a multiplexed signal of communications from each controller and providing a demultiplexed signal split from the multiplexed signal to each slave, an upstream communication link from each slave to its controller, and a timing arrangement controlling transmission times for the downstream communication link. Each slave can be located on one the shelves and receives commands, executes local commands responsive to the commands and generates status signals for the master. Each controller receives commands, transmits commands to its slave and receives status signals and provides information relating to the status signals to the master controller. Local commands replace other commands directed by the master to the slave.

Abstract: The present invention comprises a method and apparatus for providing a common support services infrastructure that allows a network element shelf to be used with circuit card configurations that provide enhanced and/or new data path functionality without requiring the expensive and time consuming redesign of the entire shelf unit. In one embodiment, the invention provides support services including common control and housekeeping services to a subshelf bay into which one or more subshelves may be installed. In one embodiment, the common support services that are provided include power supply services, environmental control services, information display services, and operational control and management services. In one embodiment, the subshelf bay is provided with standardized means used to supply the common support services to the subshelves. In one embodiment, each sub-shelf contains its own midplane and is operationally independent from other subshelves.

Abstract: A connection system for a communication switch is provided. The switch comprises a controller and shelves providing communication capabilities for the switch. The controller is able to communicate with each shelf shelves utilizing categories of communication signals. The connection system comprises connections providing signalling links for the categories of communication signals between the controller and the each shelf. The connections are bundled together in a single, collective span of cable and each connection provides its individual category communication signals independently of the other connections.