NEC UNIVERGE SV 9500 Presentation February 2016 NEC
NEC UNIVERGE SV 9500 Presentation February 2016 NEC Enterprise Solutions
NEC SV 9500 Enterprise Communication Solution 2 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
UNIVERGE SV 9500
Evolution of the SV 9500 Investment Protection for partners & customers is the key designing concept of NEC’s Voice platform 1978 1983 1989 1993 1995 1996 1997 NEAX 22 Time Division, Stored Prog ( CPU 8 Bit 8080) NEAX 2400 RDS Non Blocking TDSW, Stored Prog ( CPU 16 Bit 8086 ) NEAX 2400 HDS / MDS Non Blocking TDSW, Stored Prog ( CPU 32 Bit V 70 ) NEAX 2400 ICS (CPU 32 Bit V 70) NEAX 2400 ICS (CPU 32 Bit 486) NEAX 2400 ICS (CPU Pentium) • • NEAX 2400 IMX Fusion (CPU Pentium 133) 2000 NEAX 2400 IPX (CPU Pentium III 600) 2005 UNIVERGE SV 7000 (T 10 & S 10 CPUs) 2006 UNIVERGE NEAX 2400 IPX (CPU Pentium 1 G) 2007 UNIVERGE SV 7000 (T 20 & S 20 CPUs) 2009 UNIVERGE SV 8500 (CPU Core 2 Duo) 2013 4 Product Life Cycle Future Ready © NEC Corporation 2016 UNIVERGE SV 8500 (CPU Core i 3 ) SV 9500 Sales Presentation (February 2016) 2015: SV 9500
UNIVERGE SV 9500 at a Glance 2 Deployment Models: Appliance Server Model § Appliance Server Model NEC proprietary hardware Standard Server Model § Standard Server Model SV 9500 software virtualize on standard IT server or NEC Express 5800 (FT) server 19 -inch stackable chassis architecture § Standard Server and Appliance Server Model § System capacity up to 4, 000 IP/TDM Stations § Expandable to 24, 576 ports in UMGi Architecture (Project-Base, available Feb 2016) § 192, 000 ports in a FCCS/Fusion Network high level feature transparency 5 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 Appliance Server Model: Mixed Configuration IP & TDM 4. 000 stations and trunks TDM stations and trunks on MC, MG, and UG 50 connected via LAN/WAN or on PIR connected via local system bus Remote MC/MG PSTN SV 9500 Appliance Server + Port Interface Rack PIR IP-DECT WLAN PSTN Analog UG 50 Digital Analog Applications 7 U-PIRs Server(s) TSW-box Analog & Digital terminals an trunks SV 9500 LAN/WAN Media Converter / Media Gateway Desktop Apps Analog 6 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) PSTN
SV 9500 Standard Server Model: Network Overview 4. 000 stations and trunks TDM stations and trunks on MC, MG, and UG 50 connected via LAN/WAN Remote MC/MG PSTN IP-DECT WLAN Standard Server Model SV 9500 and Applications Virtualized on IT Server(s) Analog UG 50 Analog & Digital terminals an trunks SV 9500 LAN/WAN Media Converter / Media Gateway Desktop Apps Analog 7 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) PSTN
SV 9500 Appliance Server Model - High Availability High Available Hardware (Appliance Server) • High-reliable Components & High density LSI´s reducing number of failure points • Flash Technology (No Hard Disk) • Extremely High MTBF Ratings (up to 99, 999+% with Dual CPU) FAN High Available Software • Multi-level Monitoring Architecture • Software Initialization Capability without disconnecting the Existing Calls Power x 2 + Fan High Available Power CPU x 2 ar e m ain ta ine d Dual Power Source For CPU Dual Power Source For Each Peripheral Interface Rack (PIR) Dual Power on Media Gateway /Media Convertor chassis Traditional -48 VDC, Long-Hours Power Backup DC-A • • 8 Remote Office Local System Redundancy (Dual CPU) Spatial System Redundancy (Location Diversity) Remote Office Redundancy (SR-MGC) Hot pluggable modules in SV 9500 Appliance Server © NEC Corporation 2016 lls Primary Server System Redundancy Location Diversity Changeover by re-registration Secondary Server DC-B SV 9500 Sales Presentation (February 2016) Peripheral Ca • • Peripheral SR-MGC Maintenance FREE! PSTN
SV 9500 Standard Server Model - High Availability High Available Hardware • • NEC 5800 Express FT Server with High MTBF Ratings (99, 999%) Fully Redundant CPU/Memory/HDD/Power Platform Lockstep Fault Tolerance, zero time fail-over Comprehensive Fault Tolerant solution including Applications High Available Software • Multi-level Monitoring Architecture • Software Initialization Capability without disconnecting the Existing Calls High Available Power • Redundant Power on NEC 5800 Express FT Server • Dual Power on Media Gateway/Media Convertor chassis • Power back-up on UG 50 System Redundancy • Redundant CPUs on NEC 5800 Express FT Server • Spatial System Redundancy (Location Diversity and/or VMware VSphere HA) • Remote Office Redundancy (SR-MGC) 9 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
UNIVERGE SV 9500 Features (snapshot) [1 -2] ▌Networking l. CCIS-IP, FCCS-IP, QSIG, SIP, E&M (MFC), AMI ▌Redundancy /Resilience/High-Availability l. IP-fail-over for IP-peripherals (Terminals, MGs, MCs) l. Location Diversity (Spatial Redundancy) l. SR-MGC (Branch Office Survivability) l. Power-Failure trunk ▌Security l. End-to-end Encryption (Terminals, MGs, MCs); Media and Signaling Encryption l. Login User/Password l. Security Key l. Separated LANs for Peripherals and Management 10 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
UNIVERGE SV 9500 Features (snapshot) [2 -2] ▌Very extensive feature set with over 900 features l. Extensive Hotel Features (SV 9500 Hotel Package) l. Extensive Group features: e. g. , Multi-Boss-Secretary, UCD, Pickup, etc. l. Advanced Routing features: LCR, Time of day routing, MA-IDs, Auth Code dialing, Free Numbering, etc. l. Multi-Tenant features: IP-Centrex, MA-IDs, Tenants; forming a virtual IPT-server concept for Centralised IPT-servers to enable Managed Services and easy Migration scenario’s l. Multi-Line terminal features l. Extensive Call Forward features l. Build in ACD features l. SIP: 3 rd-party SIP terminals (RFC 3261, and others), NEC-Enhanced SIP terminals, SIP-trunk (MG-SIP) l. SIP terminal feature enhancements in SV 9500 ØNEC proprietary features e. g. Groups, Presence, etc. now also available for 3 rdparty SIP terminals ØNEC-IP and 3 rd-party SIP terminals apply same license in SV 9500 11 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 License Model remains roughly the same as the SV 8500 License Model, but more flexible: ▌ NEC-IP and 3 rd-party SIP terminal have same license, enhancing flexibility “SV 9500 Lic Client BASIC Voice” ▌ OAI License part of SV 9500 System License Net-OAI license still required for FCCS/Fusion Networks ▌ Different SV 9500 System license for SV 9500 Appliance Server e. g. “SV 9500 Lic Sys Appliance V 1 -768” and SV 9500 Software Model e. g. “SV 9500 Lic Sys Software V 1 -768” + “SV 9500 Lic Virtualization Option” ▌ SV 9500 capacity license incorporated in SV 9500 System license “SV 9500 Lic Sys Software V 1 -384”, “SV 9500 Lic Sys Software V 1 -768”, “SV 9500 Lic Sys Software V 1 -1536”, etc. ▌ SV 9500 capacity license introduced for expansion ▌ SV 8500=>SV 9500 license migration process being created; process will be described in a DA; SV 8500=>SV 9500 Migration option will become available in March 2016 Prophix release. 12 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
Introduction of new NEC terminals DT 400 / DT 800
UNIVERGE DT 400/DT 800 Desktop Terminals 14 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
UNIVERGE DT 800 Series Desktop IP Terminal 15 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
DT 430 – DT 830 BCA-Z (Bluetooth Connection Adapter) ▌BCA-Z (Bluetooth Connection Adapter): allows a Smart Device to communicate with the DT 430/DT 830 l User can receive a call to Smart Device via handset on DT Terminal • Incoming call to the Smart Device also rings the DT Terminal • Answer and End the call by Handset or Speaker key on DT terminal. • Volume can be controlled from DT terminal l User can place a call through PBX from a contact list on Smart Device via DT Terminal Bluetooth Smart Device 16 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 Roadmap
SV 9500 Roadmap – 2016 UMGi Architecture - SV 9500 V 2 Project-Base Feb 2016 9500 UG 50 Enhancement Planned GA June 2016 Data Center Headquarters 9500 Remote Location 9500 UG 50 main CPU 9500 Survivable card 8 x SV 9500 nodes/instances into one Polycom MCU Video Conferencing solution - SV 9500 V 3 planned GA Q 4 2016 18 © NEC Corporation 2016 Virtualized SIP trunk - SV 9500 V 2 GA Jan 2016 SV 9500 Sales Presentation (February 2016) SIP trunk network
SV 9500 V 2 GA Jan 2016 ▌Only software update with new features l UMGi Architecture (Project-Base) • Centralized Resource license control – distributed license by programming • Deployment on SV 9500 Appliance Server chassis, Virtual Machine l Geographical Redundancy feature (Project-Base) l [I-21] Internal Zone Paging – Enhancement l [P-89] Progressive Paging – VS 32 l Virtualized MG-SIP l USB Memory Stick Voice Recording on DT 830 DG/CG ▌PCPro l Windows 8. 1 & Windows 10 l Windows Server 2012 R 2 ITY-6 D/6 DG ▌New DT 820 Jade terminals l ITY-6 D – 6 line key display 10/100 l ITY-6 DG – 6 line key display 10/1000 l ITY-8 LDX – 8 line key single page DESI-less 10/100 l ITY-32 LDG – 32 line key DESI-less 10/1000 19 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) ITY-8 LDX/32 LDG
SV 9500 UMGi Architecture – SV 9500 V 2 SV 9500 Remote Node (Appliance Server Model) SV 9500 Central Control Node (Standard Server Model) SV 9500 Remote Node (Appliance Server Model) LAN/WAN or SV 9500 Remote Node (Standard Server Model) 1 SV 9500 Central Node + max 3 SV 9500 Remote Nodes (all Standard Server Model) on ONE IT Server ▌ UMGi System can consist of up to 8 SV 9500 Nodes; i. e. , the SV 9500 Central Control Node with up to 7 Remote Nodes (Appliance Server Model or Standard Server Model) ▌ SV 9500 Central Control Node and up to 3 Remote Nodes (all Standard Server Model) can be combined on ONE NEC Express 5800 FT or standard IT Server(s) ▌ Remote Nodes offer Survivability in case of Central Node or LAN/WAN failure ▌ Can support up to 24, 576 ports (20. 000 Stations and 4000 Trunks) ▌ Maintains “one PBX office data” for all UMGi Nodes ▌ Full feature transparency among nodes – It is truly one system UMGi available in SV 9500 V 2 on Project-Base only, UMGi licenses available in Feb 2016 Prophix 20 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
Virtualized SIP trunk - SV 9500 V 2 SIP trunk network Up to 128 SIP Trunk channels per VM instance MG-SIP SV 9500 MG-SIP Virtual Machine VMware ESXi Hypervisor Virtualized SIP Trunk available in SV 9500 V 2, available in Feb 2016 Prophix 21 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 Prophix / GA June 2016* ▌ TSWBOX – IMG/MMG ▌ 7 U-PIR and CH-type circuit boards * New TSWBOX and 7 U-PIR and CH-type circuit boards can be ordered and delivered from March 2016 onwards by means of an ordering spreadsheet until they can be ordered in Prophix 22 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 Appliance Server Model – New Hardware ▌ New Port Interface Rack (PIR) Planned GA June 2016 l 7 U 19 -inch stackable chassis l Dual power unit goes bottom l Fan unit now integrated in each rack l One L/T slot more than old 8 U PIR l New Line Cards for terminals (Analogue and Digital) and trunks l New MUX/IPPAD/RST cards l 384 ports per PIR ▌ New TSW box (Switching Network for PIRs) Planned GA June 2016 l Need to mount TDSW card(s) l TSW-Box model 1 -IMG up to 4 PIRs l TSW-Box mode 4 -IMG up to 16 PIRs ▌ New CPU chassis component Available since June-2015 l TSW-box power supply card is the only card new on CPU chassis 23 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
UG 50 Universal Gateway Enhancement Data Center Headquarters Location Diversity UG 50 main CPU UG 50 with Survivability option, Planned GA June 2016 24 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) Remote Location Survivability SR-MGC card
SV 9500 Hardware components
SV 9500 Hardware Components Telephony Server (3 U Height) Telephony Server • CPU: Intel Core i 3 330 E CPU, Memory: 2 GB • Combines TP (Proprietary) and SP (Linux) into one CPU • SIP Embedded • Diskless storage device: 8 GB Compact Flash • Redundant Gigabit ether port • Redundant CPU Configuration • Redundant Power Supply Configuration (Parallel) same a s SV 8500 CPU (chassis black) (except: TSWPWR Card in case of 7 U PIR) Time Division Switch Box (2 U Height) TSW-BOX (2 models) • Required for IMG configuration (model 1 -IMG) • Required for MMG configuration (model 4 -IMG) • Power supply: +12 VDC input from Telephony Server • Replaces TSW in PIR 0 (model 1 -IMG) • Replaces TSWR (model 4 -IMG) 7 U-PIR(Port Interface Rack: High Density GW module) 7 U-PIR • 18 L/T universal card slots • Power supply: -48 VDC input or AC 100 V-240 V input • Selectable AC/DC or DC/DC power blade • Redundant power supply configuration (Parallel) • FAN Unit slot • Mountable CH-Card Base Unit (2 U) BASE UNIT 26 © NEC Corporation 2016 • Connector for DC Power Supply Equipment SV 9500 Sales Presentation (February 2016)
Hardware Components Option slot Optional Interfaces Option slot MPC GW(1 U Height) • Several Option interface support • Chassis have 2 slots for option interface • Redundant power supply configuration (Option) Voice conferencing (3/8/30 parties), Announcements and MOH: VS-32 Media Gateways: MG-BRI, MG-PRI (E 1/T 1 ISDN/QSIG), MG-SIP 16 (16 channel SIP Trunk) Media Convertors: MC-8 LC (8 analogue extension interfaces, T. 38 FAX), MC-2 A (2 analogue extension interfaces) UG 50(2 U Height) UG 50 GW • 5 L/T universal card slots • Support LC/DLC/COT/PRT interface • Mixed interface configuration is available • AC Powered supply (single power only) • Mountable CD/PZ type blade and daughter board (Common in SV 9100/SV 9300) MG-128 SIP (1. 5 U) MG-128 SIP • SIP Trunk Interface for 128 ch • AC powered SR-MGC(Survivable Remote – MG Controller)(1. 5 U) SR-MGC(E)-B 27 © NEC Corporation 2016 • Full Feature Functionality of SV 9500 • Supports 2000 IP Ports • Rescue Media Gateway / UG 50 / MG-SIP / VS-32 SV 9500 Sales Presentation (February 2016)
SV 9500 IP-based Media Gateways and Media Convertors Universal Gateway UG 50 § UG 50 Media Gateway can mount a mix of cards (5 card positions, maximum 96 ports) for cost effective deployments. • • • Digital Line card - ELC, 8 or 16 digital extension/card Max 80 extensions per UG 50 Analog Line card - LC, 8 or 16 analogue extension/card ISDN - PRI Trunk card - max 2 PRI per UG 50 ISDN - BRI Trunk card Analog Trunk card with ETSI Caller ID FSK (DTMF on Roadmap) § Based on SV 9100 hardware with special UG 50 CPU; • SV 9100 can be re-used by replacing CPU § Survivability supported by using SR-MGC § UG-50 with on-board survivability feature on Roadmap, requires 1 card position in UG 50, planned GA June 2016) SV 9500 Appliance Server SR-MGC survivability for stations and trunks 28 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) PSTN Trunk (PRI/ BRI/ Analog)
7 U PIR
New Port Interface Rack (PIR) ▌New PIR l 7 U high l Integrated Power unit (dual) for AC and DC. Similar to Shingdengen. l Integrated Fan unit l One L/T slot more than old 8 UPIR l New L/T cards l New MUX/IPPAD/RST cards ▌Reason for renewal: l Use the latest Technology. (EOL components) l Use Low voltage parts. l Maintenance function added (Firmware download possible). l Reduce size of card. l Variety Reduction (less cards-50%). l It reduces the total amount of usable space in a 19 -inch rack. 30 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SV 9500 PIR Configurations 1 per system. Type 1 -IMG for 1 -IMG system, Type 4 -IMG for 4 -IMG (MMG) system Re-use in case of Migration Note 1: AC-powered model is only available in 1 -IMG configuration. Note 2: AC power and DC power cannot coexist in a system. 31 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
1 -IMG Configuration - Front View 32 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
1 -IMG Configuration up to 4 PIRs with TSW-BOX Model 1 -IMG 33 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
4 -IMG Configuration up to 16 PIRs with TSW-BOX Model 4 -IMG DC Powered Model 34 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
7 U-PIR Slot Configuration Unit 0/2 No power cards inside the Shelf /Rack ! 35 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016) Unit 1/3
New PIR - Front View 7 U-PIR Power Unit. There are AC and DC types. 36 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
SN 1770 PWRMAE - DC Power Supply 37 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
TSW-BOX Model 1 -IMG
TSW-BOX Model 1 -IMG ▌The TSW-BOX model 1 -IMG is a chassis that can house: l one SPZ-SW 25 -A (TSW) card for a Single TSW configuration or l two SPZ-SW 25 -A (TSW) cards for a Dual TSW configuration. ▌SPZ-SW 25 -A card is used for a 1 -IMG configuration and provides: l Time Division Switch (TSW). It is capable of 2048 x 2048 Time Slot (TS) switching. l PLO base clock. It is used when the system is connected with a digital network. l Digital Tone Generator (DTG) for sending tones such as Ringback Tone, Busy Tone, Service Set Tone. l Music-On-Hold to send a hold tone 39 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
TSW-BOX Front Section (Model 1 -IMG) The TSW-BOX can consist of 2 main cards (SPZ-SW 25 -A) 40 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
TSW-BOX Model 4 -IMG
TSW-BOX Model 4 -IMG ▌The TSW-BOX model 4 -IMG is a chassis that can house: l one SPZ-SW 26 -A (TSW) card for a Single TSW configuration or l two SPZ-SW 26 -A (TSW) cards for a Dual TSW configuration. ▌SPZ-SW 26 -A card is used for a 4 -IMG configuration and provides: l Time Division Switch (TSW). It is capable of 8192 x 8192 Time Slot (TS) switching. l PLO base clock. It is used when the system is connected with a digital network. l Digital Tone Generator (DTG) for sending tones such as Ringback Tone, Busy Tone, Service Set Tone. l Music-On-Hold to send a hold tone l Data Link Controller (DLKC). For Attendant Consoles (ATTcon). 42 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
TSW-BOX Front Section (Model 4 -IMG) 43 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
TSW-BOX for 4 -IMG (Model 4 -IMG) l The TSW-BOX model 4 -IMG will replace the TSWR. (V 2 and later) l The (PH-SW 12) × 4, GT (PH-GT 09), PLO (PH-CK 20), DLKC (PH-PC 20 -B) cards will be integrated into the SW 26 -A card of the TSW-BOX. l TSW-Box model 4 -IMG and model 1 -IMG use same chassis: SN 8179 TSWBEA-A TSWR TSW-BOX (Model 160) 44 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
Circuit Cards 7 U PIR
7 U Cards 46 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
7 U Cards 47 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
7 U Cards 48 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
7 U Cards E&M Trunk | | Loop Dialing (LD), Direct Inward Dialing (DID), 2 -wire E&M, 4 -wire E&M CH-8 ODTEL will become Generally Available in June 2016 49 CH-8 ODTEL © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
7 U Cards 50 © NEC Enterprise Solutions 2015 © NEC Corporation 2016 SV 9500 Sales Presentation (February 2016)
- Slides: 51