Скачать презентацию Office Serv SPNet Course Technical Training Course Samsung Скачать презентацию Office Serv SPNet Course Technical Training Course Samsung

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Office. Serv SPNet Course Technical Training Course Samsung Telecommunications America BCS – Training Group Office. Serv SPNet Course Technical Training Course Samsung Telecommunications America BCS – Training Group

Office. Serv 7200/7400 Systems • Cell phones and laptops to silent mode. • Limit Office. Serv 7200/7400 Systems • Cell phones and laptops to silent mode. • Limit your usage of the internet and texting to before class, during lunch time, during scheduled breaks, and after class. • There will be breaks to return any calls or emails. • If you must make or take a call, step outside to avoid disturbing anyone in the training room. • Class hours are from 8: 30 am to 5: 00 pm each day. • Flights out on Friday must be scheduled after 5: 00 PM Thank you 2

Introductions • Introduce yourself • Telephony Experience • Data Experience • Samsung Experience • Introductions • Introduce yourself • Telephony Experience • Data Experience • Samsung Experience • Expectations from this course? 3

Contact Numbers Training: 972 -652 -2098 972 -652 -2091 fax bcs. training@samsung. com Tech Contact Numbers Training: 972 -652 -2098 972 -652 -2091 fax bcs. training@samsung. com Tech Support: 800 -737 -7008 U. S. A. 972 -652 -2091 fax bcs. support@samsung. com 4

Office. Serv 7000 SPNet Hardware Overview 5 Office. Serv 7000 SPNet Hardware Overview 5

Office. Serv 7000 Hardware Ø OS 7030 Ø MGI Channel License [1 – 4] Office. Serv 7000 Hardware Ø OS 7030 Ø MGI Channel License [1 – 4] Ø SPNet License 6

Office. Serv 7000 Hardware OS 7100 OS 7200 S Ø Ø Ø Ø SPNet Office. Serv 7000 Hardware OS 7100 OS 7200 S Ø Ø Ø Ø SPNet License MGI Channel License [1 – 8] OAS MGI 16 SPNet License MGI Channel License [1 – 6] OAS MGI 16 7

Office. Serv 7000 Hardware OS 7200 OS 7400 Ø SPNet License Ø OAS Ø Office. Serv 7000 Hardware OS 7200 OS 7400 Ø SPNet License Ø OAS Ø MGI 16 Ø Ø SPNet License OAS MGI 16 MGI 64 8

Networking with 7000 Series Systems HQ Branch SPNet Office. Serv 7400 Office. Serv 7100 Networking with 7000 Series Systems HQ Branch SPNet Office. Serv 7400 Office. Serv 7100 Office. Serv 7200 SPNet Branch SPNet Office. Serv 7200 -S SPNet = Samsung Proprietary Network Protocol Office. Serv 7030 SPNet Supports up to 15 Nodes using Q-SIG PRI Networking and up to 99 nodes using IP Networking 9

Resources • MGI • MPS • RTG 10 Resources • MGI • MPS • RTG 10

MGI Channels • MGI – Media Gateway Interface • Converts IP to TDM, SPNet, MGI Channels • MGI – Media Gateway Interface • Converts IP to TDM, SPNet, SIP, H. 323, T. 38 fax, Inband or Out-ofband signaling of DTMF tones, Qo. S (To. S/Diffserv), 802. 1 q/802. 1 p VLAN Tagging/Priority and IP-UMS • Supports Codecs = G. 729, G. 729 A, G. 723. 1 & G. 711 • The MGI does nothing but handle the “voice” part of the network call. It converts the TDM voice to IP packets and vice versa so that the networked sites can talk to each other. 11

MPS Channels • MPS = Media Proxy Server • Provides IP to IP conversations MPS Channels • MPS = Media Proxy Server • Provides IP to IP conversations without using MGI channels • If both nodes have IP sets and a call is established MPS can/is used to free up MGI channels • An MGI resource is required to supply Ringback tone even during IP to IP communications • 7030, 7100 = built on processor 7200 S = on processor + OAS 7200 & 7400 = OAS only 12

RTG • RTG = Ring Tone Generation • RTG channels are specialized MPS channels RTG • RTG = Ring Tone Generation • RTG channels are specialized MPS channels that provide ringback tone, hold tone and MOH (only internal chimes) • 1 RTG call is equivalent to 1 MPS call (2 MPS ports) • RTG channels are only available when MPS Service is enabled 13

SPNet Features 14 SPNet Features 14

SPNet Features • • • Auto Answer Across Network Call Completion, Busy Station (CCBS) SPNet Features • • • Auto Answer Across Network Call Completion, Busy Station (CCBS) Call Completion, No response (CCNR) Call Intrusion (Barge In) Call Offer / Call Waiting (Camp On) Call Pick-up Across the Network Call Transfer Caller ID Centralized Auto Attendant Centralized Operator / Attendant Centralized Voicemail with Message Waiting Lights • • • • DID with Pass Through DSS and BLF Across the Network Do Not Disturb Forward External Station Group Overflow Across the Network Intercom Calling / Discrete Dialing Plan Message Key Across the Network Page Key Network trunk Ring Destination Remote Hold Across the Network Transfer recall Transfer Retrieve VM Transfer Key 15

SPNet Programming Overview 16 SPNet Programming Overview 16

SPNet Programming Overview We will cover the following: • Numbering Plan • Trunk Groups SPNet Programming Overview We will cover the following: • Numbering Plan • Trunk Groups • MGI Groups • Networking • LCR • DID Translation 17

Networking with 7000 Series Systems HQ Branch SPNet Office. Serv 7400 Office. Serv 7100 Networking with 7000 Series Systems HQ Branch SPNet Office. Serv 7400 Office. Serv 7100 Office. Serv 7200 SPNet Branch SPNet Office. Serv 7200 -S Office. Serv 7030 The Numbering scheme (station & station group), node identification, inbound & outbound call routing have to be defined and programmed 18

DM 2. 1. 0 / MMC 830 • System Selection • Assign the Private DM 2. 1. 0 / MMC 830 • System Selection • Assign the Private / LAN side IP address: IP Address Gateway Subnet Mask 19

DM 2. 1. 2 / MMC 830 • LAN Parameter • IP Type: Private DM 2. 1. 2 / MMC 830 • LAN Parameter • IP Type: Private Only Private with Public • Public IP Address 1: IP address of the system 20

DM 2. 1. 4 / MMC 860 • License key • Enter the SPNet DM 2. 1. 4 / MMC 860 • License key • Enter the SPNet license in the Service License Key field • This license is based on the MAC address of the processor • Enables the switch to network up to 99 nodes 21

DM 2. 2. 14 / MMC 853, 858 • Assign the Service that the DM 2. 2. 14 / MMC 853, 858 • Assign the Service that the OAS card will provide • If there are multiple cards, select the C/S then select the Service type 22

DM 2. 2. 2 / MMC 616, 831 • Assign the MGI/OAS: IP Address DM 2. 2. 2 / MMC 616, 831 • Assign the MGI/OAS: IP Address Gateway Subnet Mask Public IP Address • Local & Public RTP Ports: – If multiple cards are installed offset the starting port number per card 23

DM 2. 1. 5 / MMC 843 • System Options Vo. IP RTP Option DM 2. 1. 5 / MMC 843 • System Options Vo. IP RTP Option • DTMF Type Inband (RFC 2833) Outband Inband (In Voice) • MPS Service = On or Off • No MPS >> MGI = On or Off 24

DM 2. 2. 15 / MMC 843 • MPS/RTG Card • MPS: IP Type DM 2. 2. 15 / MMC 843 • MPS/RTG Card • MPS: IP Type Local Port = 40000 Public IP Public Port = 40000 • RTG: Local Port = 45000 Public Port 25

DM 2. 8. 0 / MMC 724 • Assign the Station (TDM, IP, WIP, DM 2. 8. 0 / MMC 724 • Assign the Station (TDM, IP, WIP, Virtual) ports so they are unique to the site • Assign the Station Group ports so they are unique to the site 26

DM 2. 8. 0 / MMC 724 • Features: set LCR as 9 • DM 2. 8. 0 / MMC 724 • Features: set LCR as 9 • Features *+code this will expand the numbering options to the systems that will be networked together 27

DM 2. 8. 0 / MMC 724 • NLCR • Assign the pilot number DM 2. 8. 0 / MMC 724 • NLCR • Assign the pilot number of the stations and station groups in the other nodes 28

DM 5. 14. 6 / MMC 210 • Intercom External Forward enables a station DM 5. 14. 6 / MMC 210 • Intercom External Forward enables a station to call forward to another node 29

DM 4. 1. 2 / MMC 603 • Trunk Group: Type = SPNet Members DM 4. 1. 2 / MMC 603 • Trunk Group: Type = SPNet Members = MGI Channels to be used for SPNet 30

DM 4. 1. 4 / MMC 615 • MGI Groups: Verify all services are DM 4. 1. 4 / MMC 615 • MGI Groups: Verify all services are assigned to all MGI channels 31

DM 3. 3. 1 / MMC 820 • System Link ID: set the unique DM 3. 3. 1 / MMC 820 • System Link ID: set the unique network node identifier • IP Address: set the public IP address for the remote nodes • System Name: assign the site name • No MGI: Yes = use MPS service 32

DM 3. 3. 2 / MMC 824 • Network Translation • Translation Digits = DM 3. 3. 2 / MMC 824 • Network Translation • Translation Digits = Assign the node destination for each pilot number from NLCR • Wait Length = the number of digits a station will dial • Max Digit = the node number + the extension number • STN Display = send the station name to the other node 33

DM 3. 3. 4 / MMC 210, 501, 825, 861 • Networking Options • DM 3. 3. 4 / MMC 210, 501, 825, 861 • Networking Options • Remote Voice Mail • Remote Attendant 34

DM 3. 1. 1 / MMC 210 • Enable LCR 35 DM 3. 1. 1 / MMC 210 • Enable LCR 35

DM 3. 1. 2 / MMC 710 • LCR Routing Digits • LCR Digit: DM 3. 1. 2 / MMC 710 • LCR Routing Digits • LCR Digit: the digits that will be analyzed when making a call • Length: the number of digits to expect • Route Table: use table 1 – 32 to route the call 36

DM 3. 1. 3 / MMC 711 • LCR Time Table • Predefined for DM 3. 1. 3 / MMC 711 • LCR Time Table • Predefined for 24/7 operation 37

DM 3. 1. 4 / MMC 712 • LCR Route Table • Route No DM 3. 1. 4 / MMC 712 • LCR Route Table • Route No = 1 – 32 • Class No = LCR Co. S used for trunk advance • Zone = 1 – 4, time change from MMC 711. Always use Zone 1 Group = Trunk Group to use Modify = the table entry number in DM 3. 1. 5 38

DM 3. 1. 5 / MMC 713 • LCR Modify Digit Table • Entry DM 3. 1. 5 / MMC 713 • LCR Modify Digit Table • Entry No = entry from DM 3. 1. 4 • Delete Count = number of digits to delete counting from the first digit dialed • Insert Digits = digits added to the beginning of the dialed number • Append Digits = digits added after the dialed number 39

DM 3. 2. 3 / MMC 714 • DID Routing • Incoming Digits = DM 3. 2. 3 / MMC 714 • DID Routing • Incoming Digits = the digits received from the carrier • Ring Port = the destination station, station-group or B (repeat the digits received • Max Count = the number of active calls per DID entry • Call Wait = recommend using Yes on all entries • Delete Count = number of digits to delete starting with the 1 st digit received 40

DM 4. 7. 3 / MMC 823 • Network COS • Enable/Disable SPNet features DM 4. 7. 3 / MMC 823 • Network COS • Enable/Disable SPNet features per COS • Follows the COS in DM 4. 7. 2 / MMC 701 • Follows the assignment per station in DM 4. 7. 1 / MMC 301 41

DM 4. 9. 2 / MMC 722 DM 4. 9. 1 / MMC 723 DM 4. 9. 2 / MMC 722 DM 4. 9. 1 / MMC 723 • Station/Default Key Programming • NS = Network Station (DSS/BLF) • NPG = Network Page NS+2 xxx NPG+01+Zone 42

Lab Hardware OS 7400 • • • MP 40 LP 40 OAS MGI 64 Lab Hardware OS 7400 • • • MP 40 LP 40 OAS MGI 64 16 DLI 2 16 MWSLI TEPRI 2 8 TRK SVMi-20 i GWIMT GLIMPT OS 7200 • • • MP 20 8 COMBO PLIM MGI 16/OAS SVMi-20 E TEPRIa 43

SPNet Lab 1 – Instructor Led 45 SPNet Lab 1 – Instructor Led 45

SPNet Lab 1 – Instructor led lab • 2 node setup with 7200 & SPNet Lab 1 – Instructor led lab • 2 node setup with 7200 & 7400 WAN Station Range = 2000 Station Group = 5000 Node = 001 Station Range = 2100 Station Group = 5100 Node = 002 46

SPNet Lab 1 DM 2. 1. 0 / MMC 830 7200 Private IP Address SPNet Lab 1 DM 2. 1. 0 / MMC 830 7200 Private IP Address • Assign the: IP Address – 192. 168. 100. 50 Gateway – 192. 168. 100. 1 Subnet Mask – 255. 0 47

SPNet Lab 1 DM 2. 1. 2 / MMC 830 IP Type Public IP SPNet Lab 1 DM 2. 1. 2 / MMC 830 IP Type Public IP address 7200 • IP Type: Private Only Private with Public • Public IP Address 1: IP address of the system 48

SPNet Lab 1 DM 2. 1. 4 / MMC 860 7200 See text file SPNet Lab 1 DM 2. 1. 4 / MMC 860 7200 See text file for license key for the MAC address for your switch • Enter the SPNet license in the Service License Key field • This license is based on the MAC address of the processor • Up to 99 nodes can be networked 49

SPNet Lab 1 DM 2. 2. 14 / MMC 853, 858 7200 Select Service SPNet Lab 1 DM 2. 2. 14 / MMC 853, 858 7200 Select Service Type • Assign the Service that the OAS card will provide 50

SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 7200 MGI/OAS IP SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 7200 MGI/OAS IP Address • Assign the: IP Address – 192. 168. 100. 51 Gateway – 192. 168. 100. 1 Subnet Mask – 255. 0 Public IP Address – none • Local & Public RTP Ports: – If multiple cards are installed offset the starting port number per card 51

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 Station Numbering 2001 SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 Station Numbering 2001 – 20 xx • Assign the Station (TDM, IP, WIP, Virtual) ports so they are unique to the site • Assign the Station Group ports so they are unique to the site 52

SPNet Lab 1 DM 2. 8. 0 / MMC 724 continued 7200 Station Group SPNet Lab 1 DM 2. 8. 0 / MMC 724 continued 7200 Station Group Numbering 5000 - 5039 • Assign the Station (TDM, IP, WIP, Virtual) ports so they are unique to the site • Assign the Station Group ports so they are unique to the site 53

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 Feature Codes • SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 Feature Codes • Features: LCR set as 9 • Features *+code this will expand the numbering options to the systems that will be networked together 54

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 NLCR • Assign SPNet Lab 1 DM 2. 8. 0 / MMC 724 7200 NLCR • Assign the pilot number of the stations and station groups in the other nodes 55

SPNet Lab 1 DM 5. 14. 6 / MMC 210 7200 • Intercom External SPNet Lab 1 DM 5. 14. 6 / MMC 210 7200 • Intercom External Forward – set to On 56

SPNet Lab 1 DM 4. 1. 2 / MMC 603 7200 • Trunk Group: SPNet Lab 1 DM 4. 1. 2 / MMC 603 7200 • Trunk Group: Type = SPNet Members = MGI Channels 57

SPNet Lab 1 DM 4. 1. 4 / MMC 615 7200 • MGI Groups: SPNet Lab 1 DM 4. 1. 4 / MMC 615 7200 • MGI Groups: Verify all services are assigned to all MGI channels 58

SPNet Lab 1 DM 3. 3. 1 / MMC 820 7200 • System Link SPNet Lab 1 DM 3. 3. 1 / MMC 820 7200 • System Link ID: set the unique network node identifier • IP Address: set the public IP address for the remote nodes • System Name: assign the site name 59

SPNet Lab 1 DM 3. 3. 2 / MMC 824 7200 • Network Translation SPNet Lab 1 DM 3. 3. 2 / MMC 824 7200 • Network Translation Entries from DM 2. 8. 0 60

SPNet Lab 1 DM 3. 3. 2 / MMC 824 continued 7200 • Network SPNet Lab 1 DM 3. 3. 2 / MMC 824 continued 7200 • Network Translation Node Number + NLCR 61

SPNet Lab 1 DM 3. 3. 4 / MMC 210, 501, 825, 861 7200 SPNet Lab 1 DM 3. 3. 4 / MMC 210, 501, 825, 861 7200 Leave as default • Networking Options 62

SPNet Lab 1 DM 3. 1. 1 / MMC 210 7200 • Enable LCR SPNet Lab 1 DM 3. 1. 1 / MMC 210 7200 • Enable LCR 63

SPNet Lab 1 DM 3. 1. 2 / MMC 710 7200 Node number to SPNet Lab 1 DM 3. 1. 2 / MMC 710 7200 Node number to route to • LCR Routing Digits 64

SPNet Lab 1 DM 3. 1. 3 / MMC 711 7200 • LCR Time SPNet Lab 1 DM 3. 1. 3 / MMC 711 7200 • LCR Time Table 65

SPNet Lab 1 DM 3. 1. 4 / MMC 712 7200 • LCR Route SPNet Lab 1 DM 3. 1. 4 / MMC 712 7200 • LCR Route Table Route 5 used for SPNet 66

SPNet Lab 1 DM 3. 1. 5 / MMC 713 7200 • LCR Modify SPNet Lab 1 DM 3. 1. 5 / MMC 713 7200 • LCR Modify Digit Table No entry required for this application 67

SPNet Lab 1 DM 3. 2. 3 / MMC 714 7200 • The pilot SPNet Lab 1 DM 3. 2. 3 / MMC 714 7200 • The pilot digits of the stations and station groups of this switch 68

SPNet Lab 1 DM 4. 7. 3 / MMC 823 7200 Leave as default SPNet Lab 1 DM 4. 7. 3 / MMC 823 7200 Leave as default • Network COS 69

SPNet Lab 1 DM 4. 9. 2 / MMC 722 DM 4. 9. 1 SPNet Lab 1 DM 4. 9. 2 / MMC 722 DM 4. 9. 1 / MMC 723 7200 • NS • NPG Will add extenders after both systems are programmed 70

SPNet Lab 1 DM 2. 1. 0 / MMC 830 7400 192. 168. 100. SPNet Lab 1 DM 2. 1. 0 / MMC 830 7400 192. 168. 100. 75 • Assign the: IP Address Gateway Subnet Mask 71

SPNet Lab 1 DM 2. 1. 2 / MMC 830 7400 Private Only • SPNet Lab 1 DM 2. 1. 2 / MMC 830 7400 Private Only • IP Type: Private Only Private with Public • Public IP Address 1: IP address of the system 72

SPNet Lab 1 DM 2. 1. 4 / MMC 860 7400 See text file SPNet Lab 1 DM 2. 1. 4 / MMC 860 7400 See text file for license key for the MAC address for your switch • Enter the SPNet license in the Service License Key field • This license is based on the MAC address of the processor • Up to 99 nodes can be networked 73

SPNet Lab 1 DM 2. 2. 14 / MMC 853, 858 7400 Select MGI-04 SPNet Lab 1 DM 2. 2. 14 / MMC 853, 858 7400 Select MGI-04 + MOBEX-48 • Assign the Service that the OAS card will provide 74

SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 7400 C 1 SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 7400 C 1 -S 6 = 192. 168. 100. 76 • Assign the: IP Address Gateway Subnet Mask Public IP Address • Local & Public RTP Ports: – If multiple cards are installed offset the starting port number per card 75

SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 cont. 7400 C SPNet Lab 1 DM 2. 2. 2 / MMC 616, 831 cont. 7400 C 1 -S 9 = 192. 168. 100. 77 Local & Public RTP Port = 30032 • Assign the: IP Address Gateway Subnet Mask Public IP Address • Local & Public RTP Ports: – If multiple cards are installed offset the starting port number per card 76

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 Extension Range = SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 Extension Range = 2101 – 21 xx Station Group = 5100 – 5179 • Assign the Station (TDM, IP, WIP, Virtual) ports so they are unique to the site • Assign the Station Group ports so they are unique to the site 77

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 LCR = 9 SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 LCR = 9 • Features: LCR set as 9 • Features *+code this will expand the numbering options to the systems that will be networked together 78

SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 Assign the pilot SPNet Lab 1 DM 2. 8. 0 / MMC 724 7400 Assign the pilot digits of the other nodes • Assign the pilot number of the stations and station groups in the other nodes 79

SPNet Lab 1 DM 5. 14. 6 / MMC 210 7400 Set Intercom External SPNet Lab 1 DM 5. 14. 6 / MMC 210 7400 Set Intercom External Forward = On • Intercom External Forward = enable (On) 80

SPNet Lab 1 DM 4. 1. 2 / MMC 603 7400 • Trunk Group: SPNet Lab 1 DM 4. 1. 2 / MMC 603 7400 • Trunk Group: Type = SPNet Members = MGI Channels 81

SPNet Lab 1 DM 4. 1. 4 / MMC 615 7400 • MGI Groups: SPNet Lab 1 DM 4. 1. 4 / MMC 615 7400 • MGI Groups: Verify all services are assigned to all MGI channels 82

SPNet Lab 1 DM 3. 3. 1 / MMC 820 7400 Self = 002 SPNet Lab 1 DM 3. 3. 1 / MMC 820 7400 Self = 002 Sys 01 = 001 / 192. 168. 100. 50 • System Link ID: set the unique network node identifier • IP Address: set the public IP address for the remote nodes • System Name: assign the site name 83

SPNet Lab 1 DM 3. 3. 2 / MMC 824 7400 • Network Translation SPNet Lab 1 DM 3. 3. 2 / MMC 824 7400 • Network Translation Node Number + NLCR 84

SPNet Lab 1 DM 3. 3. 4 / MMC 210, 501, 825, 861 7400 SPNet Lab 1 DM 3. 3. 4 / MMC 210, 501, 825, 861 7400 Leave as default • Networking Options 85

SPNet Lab 1 DM 3. 1. 1 / MMC 210 7400 • Enable LCR SPNet Lab 1 DM 3. 1. 1 / MMC 210 7400 • Enable LCR 86

SPNet Lab 1 DM 3. 1. 2 / MMC 710 7400 • LCR Routing SPNet Lab 1 DM 3. 1. 2 / MMC 710 7400 • LCR Routing Digits Enter the node numbers for all remote systems 87

SPNet Lab 1 DM 3. 1. 3 / MMC 711 7400 Leave as default SPNet Lab 1 DM 3. 1. 3 / MMC 711 7400 Leave as default • LCR Time Table 88

SPNet Lab 1 DM 3. 1. 4 / MMC 712 7400 • LCR Route SPNet Lab 1 DM 3. 1. 4 / MMC 712 7400 • LCR Route Table Route 5 used for SPNet 89

SPNet Lab 1 DM 3. 1. 5 / MMC 713 7400 No entries required SPNet Lab 1 DM 3. 1. 5 / MMC 713 7400 No entries required • LCR Modify Digit Table 90

SPNet Lab 1 DM 3. 2. 3 / MMC 714 7400 • The pilot SPNet Lab 1 DM 3. 2. 3 / MMC 714 7400 • The pilot digits of the stations and station groups of this switch 91

SPNet Lab 1 DM 4. 7. 3 / MMC 823 7400 Leave as default SPNet Lab 1 DM 4. 7. 3 / MMC 823 7400 Leave as default • Network COS 92

SPNet Lab 1 DM 4. 9. 2 / MMC 722 DM 4. 9. 1 SPNet Lab 1 DM 4. 9. 2 / MMC 722 DM 4. 9. 1 / MMC 723 7400 • NS • NPG Will add extenders after both systems are programmed 93

SPNet Lab 1 Additional programming 7200 7400 • Create the Operator group with the SPNet Lab 1 Additional programming 7200 7400 • Create the Operator group with the 1 st digital station • Create 2 station groups with 1 or 2 members • Create the SVM group with the first 4 ports as members • Assign the NS keys with numbers from the other node 94

SPNet Lab 1 – Test Functions 7200 • • Call an extension in the SPNet Lab 1 – Test Functions 7200 • • Call an extension in the 7400 Call a station group in the 7400 Call the SVM in the 7400 Test the NS keys 7400 • • Call an extension in the 7400 Call a station group in the 7400 Call the SVM in the 7400 Test the NS keys 95

SPNet Lab 2 – 2 Node network 96 SPNet Lab 2 – 2 Node network 96

SPNet Lab 2 • Instructions for 2 node network 97 SPNet Lab 2 • Instructions for 2 node network 97

SPNet Lab 2 7200 • • • MP 20 IP address = 192. 168. SPNet Lab 2 7200 • • • MP 20 IP address = 192. 168. 1. 10 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 OAS/MGI IP address = 192. 168. 1. 11 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 Extension Range = 3000 – 30 xx Station Group Range = 5100 – 51 xx SVMi ports Range = 3080 – 30 xx IP set Range = 3100 – 31 xx 7400 • • MP 40 IP address = 192. 168. 1. 30 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 OAS IP address = 192. 168. 1. 31 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 MGI 64 IP address = 192. 168. 1. 32 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 SVMi-20 i IP address = 192. 168. 1. 33 Gateway = 192. 168. 1. 1 Subnet Mask = 255. 0 Extension Range = 3200 – 32 xx Station Group Range = 5200 – 52 xx SVMi ports Range = 3280 – 32 xx IP set Range = 3300 – 33 xx 98

SPNet Lab 2 Questions 7200 7400 • Can you call the 7400? • When SPNet Lab 2 Questions 7200 7400 • Can you call the 7400? • When answered on the 7400 do you have 2 way audio? • Do the NS keys work? • Can you call the 7200? • When answered on the 7200 do you have 2 way audio? • Do the NS keys work? 99

SPNet Lab 3 - Multisite 100 SPNet Lab 3 - Multisite 100

SPNet Lab 3 – Multisite 7200 • • System A: node 001 IP Address SPNet Lab 3 – Multisite 7200 • • System A: node 001 IP Address 192. 168. 1. 10 - 29 Gateway 192. 168. 1. 1 Extension 2000 – 2099 Station Group 5000 – 5039 System B: node 003 IP Address 192. 168. 1. 30 - 49 Gateway 192. 168. 1. 1 Extension 2100 – 2199 Station Group 5100 – 5139 System C: node 005 IP Address 192. 168. 1. 50 - 69 Gateway 192. 168. 1. 1 Extension 2200 – 2299 Station Group 5200 – 5239 System D: node 007 IP Address 192. 168. 1. 70 - 89 Gateway 192. 168. 1. 1 Extension 2300 – 2399 Station Group 5300 – 5339 7400 • • System A: node 002 IP Address 192. 168. 1. 100 - 129 Gateway 192. 168. 1. 1 Extension 2400 – 2499 Station Group 5400 – 5479 System B: node 004 IP Address 192. 168. 1. 130 - 149 Gateway 192. 168. 1. 1 Extension 2500 – 2599 Station Group 5500 – 5579 System C: node 006 IP Address 192. 168. 1. 150 - 169 Gateway 192. 168. 1. 1 Extension 2600 – 2699 Station Group 5600 – 5679 System D: node 008 IP Address 192. 168. 1. 170 - 189 Gateway 192. 168. 1. 1 Extension 2700 – 2799 Station Group 5700 – 5779 101

SPNet Lab 3 – Multisite • • • Create group 5 x 00 = SPNet Lab 3 – Multisite • • • Create group 5 x 00 = 1 st digital station Create group 5 x 01 = all sets Create group 5 x 03 = UCD, set SMT phone as member, any associated programming for UCD, assign keys associated with UCD to stations Analog trunks ring group 5 x 01 during day & SVMi at night Set all stations to page zone 0 DID calls ring ………… Assign NS keys (ability to see one station per node) Centralized Attendant for night mode to system B – 7400 Assign NPG key on the operator station of each node, extender for a 7400 node NPG+01+0 [01 = Sys 01 entry in DM 3. 3. 1, varies per node] 102

SPNet Lab 3 Function test • Call multiple systems to verify routing and audio SPNet Lab 3 Function test • Call multiple systems to verify routing and audio • Setup multiple NS keys for different nodes on one of your systems and test functionality • Test NPG functionality • Test UCD functionality 103

SPNet Lab 4 – Tandem Trunking 104 SPNet Lab 4 – Tandem Trunking 104

SPNet Lab 4 Tandem Trunking: • Route outbound calls to utilize trunks in another SPNet Lab 4 Tandem Trunking: • Route outbound calls to utilize trunks in another node • LCR is used to modify (insert digits) and route the call to the proper node 105

SPNet Lab 4 Tandem Trunking Routing Digits DM 3. 1. 2 / MMC 710 SPNet Lab 4 Tandem Trunking Routing Digits DM 3. 1. 2 / MMC 710 • 10 digit local dialing • Local area codes: 972, 214 &469 • Route 1 used for all calls using local trunks • LD area code 512 to go out another node • A new route is created for 512 in order to modify the number dialed 106

SPNet Lab 4 Tandem Trunking Routing Table DM 3. 1. 4 / MMC 712 SPNet Lab 4 Tandem Trunking Routing Table DM 3. 1. 4 / MMC 712 • Route 2 was selected in DM 3. 1. 2 • Trunk Group 803 (SPNet) is used • Modify entry 1 is selected to insert required digits 107

SPNet Lab 4 Tandem Trunking Modify Digits DM 3. 1. 5 / MMC 713 SPNet Lab 4 Tandem Trunking Modify Digits DM 3. 1. 5 / MMC 713 • Entry Number = table location assigned in the Routing Table • Delete Count = the number of digits to delete from the caller entry • Insert Digits = digits to be inserted in front of what the caller dialed. > in this case we are inserting the node number + 9 • Append Digits = insert digits at the end of what the caller dialed 108

SPNet Lab 4 Tandem Trunking DID Ringing in remote node • • Incoming Digit SPNet Lab 4 Tandem Trunking DID Ringing in remote node • • Incoming Digit = 9 Ring Port = 9 (LCR Feature Code) Max Count = up to the client (how many active calls max) Delete Count = 1 [the 9 is removed] (the node number is removed automatically) DM 3. 2. 3 / MMC 714 109

SPNet Lab 5 – DID Pass Thru 110 SPNet Lab 5 – DID Pass Thru 110

SPNet Lab 5 DID Pass Thru • DID Pass Thru: • In the node SPNet Lab 5 DID Pass Thru • DID Pass Thru: • In the node that has the PRI/SIP trunks assign the DID digits received in DM 3. 2. 3 / MMC 714 and direct them to the pilot digits (station or station group) of the node the call is to terminate in • The node that the DID is pointed to, an entry in DM 3. 2. 3 / MMC 714 of the DID digits (i. e. 6703) is directed to a station or station group 111

SPNet Lab 6 – Centralized Operator 112 SPNet Lab 6 – Centralized Operator 112

SPNet Lab 6 Centralized Operator • DM 3. 3. 4 / MMC 825 Remote SPNet Lab 6 Centralized Operator • DM 3. 3. 4 / MMC 825 Remote Attendant • Status: No = local attendant Yes = remote attendant assigned per Ring Plan • Trunk Number = pilot number from NLCR of the remote attendant group (i. e. 50) • Outgoing Digit = last digits of the target group (i. e. 00) 113

SPNet Lab 7 – Centralized VMAA 114 SPNet Lab 7 – Centralized VMAA 114

SPNet Lab 7 Centralized VMAA • DM 3. 3. 4 / MMC 825 Remote SPNet Lab 7 Centralized VMAA • DM 3. 3. 4 / MMC 825 Remote Voice Mail [Remote Nodes] • Status = use remote VM Yes or No [set to Yes in those nodes that will use the remote VMAA] • Trunk Number = pilot number from NLCR of the remote attendant group (i. e. 50) • Outgoing Digit = last digits of the target group (i. e. 00) 115

SPNet Lab 7 Centralized VMAA • DM 3. 3. 2 / MMC 824 Network SPNet Lab 7 Centralized VMAA • DM 3. 3. 2 / MMC 824 Network Dial Translation [Node that has the VMAA] • Mailbox = Set to Yes in order to create mailboxes/subscribers for that range in NLCR • This includes stations and station groups 116

SPNet Lab 7 Centralized VMAA cont. • DM 2. 1. 6 /MMC 740 SVMi SPNet Lab 7 Centralized VMAA cont. • DM 2. 1. 6 /MMC 740 SVMi Options [Node that has the VMAA] • SVM Auto Setup = set to Yes when the SVM is restarted it will create the required subscribers • SPNet STN = set to Yes create all subscribers as assigned in DM 3. 3. 2 / MMC 824 • SPNet Trunk = set to Yes write all SPNet trunks to the SVM Trunk table 117

SPNet Lab 8 – Router / Firewall 118 SPNet Lab 8 – Router / Firewall 118

SPNet Lab 8 with Routers Router / Firewall Node 003 Node 002 Pub IP SPNet Lab 8 with Routers Router / Firewall Node 003 Node 002 Pub IP 10. 1. 1. 2/24 Pub IP 10. 1. 1. 1/24 Pub IP 10. 1. 1. 3/24 Pub IP 10. 1. 1. 4/24 MP 192. 168. 1. 10 Node 001 MP 192. 168. 1. 10 OAS 192. 168. 1. 11 Gateway 192. 168. 1. 1 Node 004 119

SPNet Lab 8 • • Assign the following Public IP addresses to the 7400 SPNet Lab 8 • • Assign the following Public IP addresses to the 7400 systems: System A = 10. 1. 1. 2 System B = 10. 1. 1. 4 System C = 10. 1. 1. 6 System D = 10. 1. 1. 8 • • • System A: node 002 IP Address 192. 168. 1. 100 - 129 Gateway 192. 168. 1. 1 Extension 2400 – 2499 Station Group 5400 – 5479 System B: node 004 IP Address 192. 168. 1. 130 - 149 Gateway 192. 168. 1. 1 Extension 2500 – 2599 Station Group 5500 – 5579 System C: node 006 IP Address 192. 168. 1. 150 - 169 Gateway 192. 168. 1. 1 Extension 2600 – 2699 Station Group 5600 – 5679 System D: node 008 IP Address 192. 168. 1. 170 - 189 Gateway 192. 168. 1. 1 Extension 2700 – 2799 Station Group 5700 – 5779 120

SPNet Lab 8 with Routers Ports required for SPNet Module Service Protoc ol Port(s) SPNet Lab 8 with Routers Ports required for SPNet Module Service Protoc ol Port(s) SPNet TCP 6100 ITP UDP 6000, 9000 MGI UDP 30000 ~ (2 ports/channel) MPS UDP 40000 ~ (2 ports/channel) RTG UDP 45000 ~ (2 ports/channel) VM Control TCP 6001, 6002 VM UDP 30000 ~ (2 ports/channel) FTP TCP 21 Upgrade Port TCP 60024 MP MGI 16/64, OAS SVMi-20 i Notes Used to pass SPNet signaling, call setup, BLF status & other info between nodes OAS provides 64 MPS channels 121

Log Into Router Launch Internet Explorer and go to https: //192. 168. 1. 1 Log Into Router Launch Internet Explorer and go to https: //192. 168. 1. 1 ID : admin Password : root 122

Firewall Menu 123 Firewall Menu 123

Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward port 6100 to your MP. Then click the OK button. 124

Port Forward • The Firewall/Port Forward rule to forward port 6100 to your MP Port Forward • The Firewall/Port Forward rule to forward port 6100 to your MP should show up in the Configuration List. Does SPNet work now? 125

Ports to Open for MGI IP Ports That MUST be Open When Going Through Ports to Open for MGI IP Ports That MUST be Open When Going Through a Firewall Service Type MGI 16/OAS Card Port Number 30000~30031 MGI 64 Card 30000~30128 Protocol RTP Remarks Even port: for each MGI channel RTCP Odd port : for each MGI channel RTP Even port: for each MGI channel RTCP Odd port : for each MGI channel 126

Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward ports 30000 thru 30127 to your MGI. Then click the OK button. 127

Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward Port Forward • Click the Firewall/Port Forward sub-menu. Then enter a rule to forward port 30000 – 30127 to your MGI 64. Then click the OK button. 128

Port Forward • The Firewall/Port Forward rule to forward port 30000 thru 30127 to Port Forward • The Firewall/Port Forward rule to forward port 30000 thru 30127 to your MGI should show up in the Configuration List. • Does SPNet work now? 129

SPNet Lab 8 with Routers Function Test • Call a station in another node, SPNet Lab 8 with Routers Function Test • Call a station in another node, did you receive two way audio? • Do the NS keys function properly? 130

SPNet Lab Final Instructions to be provided by Instructor 131 SPNet Lab Final Instructions to be provided by Instructor 131

Office. Serv Advanced Course 132 Office. Serv Advanced Course 132