PBX circuit switched network designs differ between each manufacturer’s product portfolio and even among models within a portfolio. Although there are differences in the individual PBX system switch network designs, the main functional elements are the same. All port circuit interface cards transmit and receive communications signals via a directly connected TDM bus, but the time and talk slot capacities are likely to differ between systems. A very small or small PBX system switching network design may consist of a single TDM bus backplane connected to every port interface circuit card, but a larger PBX system with more than one TDM bus must be designed to provide connections between the TDM bus segments. The TDM bus connections may be direct connections or center stage switch connections. The center stage switching system complex may be based on a space switch matrix design using circuit switched connections or a broadband TDM bus interconnecting lower bandwidth TDM buses. Two of the leading suppliers of PBX systems, Avaya and Alcatel, also offer customers of their very large PBX system models a center stage ATM switching option that can also support switched LAN data communications applications.
Center Stage Switch Complex
The primary function of the center stage switching complex is to provide connections between the local TDM buses, which support port carrier interface transmission requirements across the internal switching network. Complex center stage switching systems may be used in PBX systems designed for 100 user stations, although the smaller systems typically have a single TDM bus design or multiple TDM buses with direct link connections between each bus. A center stage switching complex may consist of a single large switching network or interconnected switching networks.
A very small PBX system usually does not require a center stage switching complex because the entire switching network might consist of a single TDM bus. Individual TDM bus switch network designs require a TDM bus with sufficient bandwidth (talk slots) to support the typical communications needs of a fully configured system at maximum port capacity. Most small PBX systems based on a single TDM bus design can provide nonblocking access to the switch network at maximum port capacity levels. If the TDM bus has fewer talk slots than station and trunk ports, the switch network can still support the communications traffic requirements, if properly engineered.
There are a few small and intermediate PBX systems that have multiple TDM buses but no center stage switching complex. For example, an Avaya Definity G3si can support up to 2,400 stations and 400 trunks using three-port equipment cabinets, each with a dedicated TDM bus, but does not use a center stage switching complex to connect the TDM buses. PBX system designs like the Definity G3si use direct cabling connections between each TDM bus for intercabinet connections between ports. This type of design can support a limited number of TDM buses without a center stage switching complex, but more TDM buses require more direct connections between each bus. When the system design includes more than three TDM buses, the switch network connection requirements may become unwieldly and often very costly. During the 1980s the Rolm CBX II 9000 supported up to 15 port equipment nodes that required dedicated fiber optic cabling connections to link each cabinet’s TDM bus switching network because it lacked a center stage switching complex. A fully configured system required 105 direct link connections (fiber cabling, fiber interface cards), resulting in a very costly alternative to a center stage switching complex. Every new nodal addition to the system required new fiber optic connections to every existing cabinet node. The advantage of a center stage switching com- plex in an intermediate/large PBX system design is to simplify switch network connections between endpoints.
There are several center stage switch designs typically used in digital circuit switched PBXs:
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Broadband (very large bandwidth) TDM bus
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Single-stage switch matrix
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Multistage switch matrix
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