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Starplus Triad Xts Installation Digital Key Telephone System Instructions Guide
Starplus Triad Xts Installation Digital Key Telephone System Instructions Guide
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ProgrammingC-27 Appendix C - Networking Systems Station User Impacts Digital Station Displays Node to Node When dialing from one Node to another Node, the display of the dialing station reflects the station dialed (e.g., 3400). The display then updates with either the name or the number of the dialed station. When receiving a call from another Node, it resembles a station call. Node to Node - DND or Forwarding In Use When calling from one Node to another, it is possible to encounter a station that is in DND or in a forwarding mode. When this happens, one of the following displays appears. -or- -or- -or- Node 1 (Paul at Station 2000) dials William ext. 3400Node 2 at Station 3400 receives the following display The display updates as shown: -or- - or- WILLIAM IN DND LINE 023 hh:mm:ss STA3400 IN DND LINE 023 hh:mm:ss FWD TO WILLIAM LINE 023 hh:mm:ss FWD TO STA1234 LINE 023 hh:mm:ss STA 2000 MMM DD YY HH:MM am CALL TO WILLIAM LINE 023 HH:MM amPA U L C A L L I N G LINE 023 HH:MM am Call To STA3400 LINE 023 HH:MM amSTA2000 CALLING LINE 023 HH:MM am
C-28Quick Start Procedure Appendix C - Networking Systems Conference When a conference is established between several extensions, either local or remote, the display will show the following message: Quick Start Procedure Networking uses PRI cards for connecting the systems together; however the telco circuit is a point-to-point T1,nota PRI. Most telco circuits will reverse the transmit and receive pairs fromendtoend,soitisimportantthatthisiscorrectedbyswappingtransmitandreceiveat thehubnetwork PRI(s). The connection should end up asstraight throughfrom hub to node(s). Enable LCR on all systems for outbound dialing. (See the LCR programming section of this Quick Start procedure) Extension range 9000-9999 is reserved for speed dial. Programming Flash 09–System Parameters Button #8 - Identify system node (1-16) Each system in the network must be identified e.g.,Hubis always system Node 1, the first Nodeis system Node 2, the secondNodeis system Node 3, etc. Button #9–Enter leading digit (0-8) Each system needs it’s own numbering plan. This will place leading digit before all3-digit codes, 2-digit codes are not affected. Example: Hub numbers are 1000’s, so enter 1 HOLD. Flash 16–Network tables Select table number (Table 01 will always contain the numbering plan for the system you are programming and will use CO group 00 (internal)).CO group 01 is reserved for outdialing and dial ‘9’ access. Button #1–Select CO group (group assigned tonetworkPRIB) Button #2–Station range START (1000-8999) Button #3–Station range END (1000-8999) Button #5–External BLF (1-9) This is programmed at theHubonly. You identify the PRIB slot locations in theHubthat are associated with eachNodein the network, other than the node being defined by the table number you are programming. Youdo notidentify External BLF slot locations in theNode(s) programming because theHubcontrols passing of this information.If you only have 1 Node you do not have to program the external BLF.All unused tablesmustbe programmed for CO group 00 and contain the entire numbering range (1000-8999). This will prevent any invalid numbers from trying to dial across the network, the system will check the networking tables in order before attempting to dial. CONFERENCE LINE 023 hh:mm:ss
Quick Start ProcedureC-29 Appendix C - Networking Systems Example: Hub and 3 Nodes Hub Programming: Node 1 Programming: Node 2 Programming: Node 3 Programming: Table No CO Group Ext. Range External BLF 01 00 Ext. range for Hub NA 02 02 Ext. range for Node 1 PRIB slots for Node 2,3 03 03 Ext. range for Node 2 PRIB slots for Node 1,3 04 04 Ext. range for Node 3 PRIB slots for Node 1,2 05-16 00 Entire Ext. range NA Table No CO Group Ext. Range External BLF 01 00 Ext. range for Node 1 NA 02 02 Ext. range for Hub and Node 1, 2, 3 NA 03-16 00 Entire Ext. range NA Table No CO Group Ext. Range External BLF 01 00 Ext. range for Node 2 NA 02 02 Ext. range for Hub and Node 1, 2, 3 NA 03-16 00 Entire Ext. range NA Table No CO Group Ext. Range External BLF 01 00 Ext. range for Node 3 NA 02 02 Ext. range for Hub and Node 1, 2, 3 NA 03-16 00 Entire Ext. range NA
C-30Quick Start Procedure Appendix C - Networking Systems Flash 24–Cabinet/Card programming Partial signaling is allowed on PRIBs (8). Normally a PRIB uses 24 time slots each. You can limit the number of time slots per card to four (4), or multiples of four (4) up to 20. To use the feature, program the card ID followed by the number of CO lines to be used in groups of four (4). A group of four (4) is called a cluster.If a card number is programmed without a cluster number, all COs on that card are active.This feature is useful if data is to be shared with voice using a CSU/DSU. 1. Select cabinet (Button 17-19). 2. Select slot for PRIB (Button #1-#8). 3. Entercardnumber(08). 4. Enter cluster number (1-5) e.g., 081=PRIB4, 082=PRIB8, 083=PRIB12, etc. 5. Press the reset button on the MPB (make sure switch 8 is off!). Flash 40–CO line attributes Enter CO range for the PRIB(s). Page A, Button #12–Trunk direction (at theHubset the first half of the trunks to incoming only, at theNode(s)set the second half of the trunks to incoming only) this will prevent collisions from occurring. Page B, Button #1–T1/ISDN Signaling type Enter 5 HOLD for TIE. Flash 45, Page A–ISDN Programming Enter PRIB slot number, e.g., for slot 1, enter 11 HOLD. Button #2–Enter 2 HOLD (PPNI2) Button #4–Enter 0 HOLD (NT=Hub), 1 HOLD (TE=Node) Flash 67–Remote Voice Mail Programming Button #4–VMID–set to4digits Button #5–Enter valid number (1000-8999) Pilot VM group number of centralized VM.This is not entered in the system where the voice mail is connected. NOTE:If flexible numbering is done, be sure to go toFlash 06, Button #15and press HOLD. (VMID same as station number).
Quick Start ProcedureC-31 Appendix C - Networking Systems LCR Programming When outbound trunks reside in only one system on the network (i.e., Hub), then LCR must be activated on all systems to allow dialing out. This is accomplished by routing all outgoing calls over the network and inserting a 9 in front of the number being dialed to access the main trunk group of the Hub. LCR Programming(Hub) Flash 05 Button 7–Enable LCR programming(Node) Flash 05 Button 7–Enable Flash 75 Button 4–Route List Table Enter 001xx001 HOLD Enter 011xx001 HOLD Where xx = Trunk group for PRIB Button 7–Week ly Schedule Table Enter 01111 HOLD Enter 11111 HOLD Enter 21111 HOLD Enter 31111 HOLD Enter 41111 HOLD Enter 51111 HOLD Enter 61111 HOLD Button 5–Enter 0019 HOLD
C-32Quick Start Procedure Appendix C - Networking Systems Call Park Programming Park zones need to be set up for each system in the network so that calls can be parked and retrieved from any system. The following is an example of how to set this up for a 2-system network. Hub Flash 52–Flexible numbering Node Flash 52–Flexible numbering You need to divide the park zone locations and allow all systems to dial each other’sparkand retrieve codes. In this example, the 16 park zones were divided in half.You can only park a call in the system you are on. Fixed Flex 430-437 2430-2437 (to park call) #430-#437 3430-3437 (to retrieve call) Fixed Flex 430-437 2438-2445 (to park call) #430-#437 3438-3445 (to retrieve call)
D Voice Over the Internet Protocol This chapter contains detailed information about Voice Over the Internet Protocol.
Product DescriptionD-3 Appendix D - Voice Over the Internet Protocol Product Description TheDiscoveryVoice Over the Internet Protocol (VoIP) printed circuit board (PCB) is for use on Vodavi key service units (KSUs), that includes the Vodavi telephone systems. It provides an Ethernet interface to connect the KSU to an Internet Protocol (IP) network. The latest in voice processing protocols and hardware technologies are used to provide the highest quality voice over an IP network. In addition to supporting a Vodavi KSU, compatible IP phones can establish calls with theDiscoveryVoIP card, allowing calls to be made to and from the IP phone. TheDiscoveryVoIP card allows voice communication to other devices via an IP network such as an internal Local Area Network (LAN), the Internet, or a Wide Area Network (WAN) using the Ethernet interface. TheDiscoveryVoIP card employs H.323 Revision 2 fast protocol to ensure Quality of Service (QoS). This protocol reduces echo, jitter, and latency whether the voice traffic is travelling via the Internet or a dedicated WAN. The result is a QoS that can be equal to or better than“Toll Quality”.* Voice, call transfer, call conference, and DTMF capabilities for Interactive Voice Response (IVR) and Voice Mail (VM) systems are provided by theDiscoveryVoIP card through the IP network. By taking advantage of the existing telephony infrastructure, theDiscoveryVoIP card extends the reach of the KSU to remote and home offices. Bandwidth is allocated only when a call is established and can be managed through programmable voice encoder standards. * Assumes high network availability and performance (
D-4Specifications Appendix D - Voice Over the Internet Protocol Specifications TheDiscoveryVoIP card uses Transmission Control Protocol/Internet Protocol (TCP/IP) for packet delivery over an IP network. Additional standards and protocols are used to provide DTMF, voice processing, and compression. TheDiscoveryVoIP card can accommodate up to fourDiscoveryVoIP modules. EachDiscovery VoIP module provides capability for two ports, resulting in a maximum of eight ports when all four modules are installed. Features The following describes many of the features built into theDiscoveryVoIP card. On-Board Processor 50 Mhz PowerPC RISC Processor Protocols