iritel catalogue otn/dwdm sdh/sonet wdm pdh

iritel catalogue otn/dwdm sdh/sonet wdm pdh
CATALOGUE
OTN/DWDM Systems
Next Generation SDH Systems
Access Systems
Network Management System
VoIP Devices
Radio Communications
Power Electronics
IR IT E L
B EO G R A D
IRITEL a.d. BEOGRAD
Batajnički put 23, 11080 Beograd, Serbia
General Manager: (+381 11) 3073 515, Sales: (+381 11) 3073 555
Marketing: (+381 11) 3073 544, Exchange: (+381 11) 3073 400, Fax: (+381 11) 3073 434
http://www.iritel.com, e-mail: info@iritel.com
IRITEL was founded in 1967.
Today, with 160 highly educated and skilled employees, IRITEL represents the leading
company in the fields of communications and electronics in South-East Europe.
IRITEL a.d. BEOGRAD
IRITEL has accreditation at Ministry of Science and Technological Development as research
and development institute.
2
IRITEL has a Management System: IQNet ISO 9001:2008, IQNet ISO 14001:2004
and IQNet OHSAS 18001:2007.
The main areas of activity in communications and electronics:
„„ Transmission systems
„„ Switching systems
„„ Radio communications
„„ Power Electronics
„„ Engineering
TABLE OF CONTENTS
21/06/2017
KFE INTERFACE CONVERTOR SERIES Ethernet over TDM . . . . . . . . . . . . . . 68
KG Universal TDM, E1 interface converter platform, fractional
multiplexer, cross connect device with exchangeable user
interface module and optional built-in AES encryption . . . . . . . . . . . . . . 70
OTN/DWDM Systems
OTP100G Optical Transport Platform OTN/DWDM up to 8 Tbit/s . . . . . . . . . . . 4
OTP10G Optical Transport Platform OTN/DWDM up to 800 Gbit/s . . . . . . . . . 8
ODS2G5 SDH/SONET Multiservice Optical Digital Systems . . . . . . . . . . . . . . 12
OTS622 SDH/SONET Multiservice Optical Transport Systems . . . . . . . . . . . . 16
WDM/CWDM/OADM Passive Optical Mux/Demux & Optical
Add/Drop Multiplexers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Managed Ethernet Switch Series
SMH884 - FPX High Performance, 20 port, PoE enabled L2/L3
Fully Managed Ethernet Switch with Fast Hardware based
Failover on Optical Links . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MGE41/84/88/168F L2/L3 Managed Ethernet Switch
with 16 x FE and 8 x E1 media converters . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MGE168FS L2/L3 Managed Ethernet Switch with 16 x FE
and 8 x E1 media converters with Encryption . . . . . . . . . . . . . . . . . . . . . . . .
MGE88/168G Stackable Gigabit L2/L3 Managed Ethernet
Switch with 16xFE, 4xGE and 8xE1 media converters . . . . . . . . . . . . . . . . .
Access Systems
FM-MSAN (FM8x2)
MULTISERVICE ACCESS MULTIPLEXER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PIU 4 ISDN tributaries with U interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PET 3 digital nx64 kbit/s Ethernet Bridge subscribers with
10/100BaseT or 100BaseFX interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PN64 4 digital interfaces of X.21/V.11 type, n x 64 kbit/s . . . . . . . . . . . . . .
PCO 10 digital G.703 64 kbit/s codirectional interfaces . . . . . . . . . . . . . . .
PN64A 8 digital interfaces of V.24/V.28 type . . . . . . . . . . . . . . . . . . . . . . . . .
FMOP FLEXIBLE MULTIPLEXER OPTICAL PLATFORM . . . . . . . . . . . . . . . . . . . . .
FOP4/8/16 4/8/16xE1 + 2xFE over Fiber Multiplexer . . . . . . . . . . . . . . . . . . . .
FMTP FLEXIBLE MULTIPLEXER TDMoIP PLATFORM . . . . . . . . . . . . . . . . . . . . . .
FTP4/8/16 4/8/16xE1 TDM over IP Multiplexer . . . . . . . . . . . . . . . . . . . . . . . . . .
FMVP FLEXIBLE MULTIPLEXER VoIP PLATFORM . . . . . . . . . . . . . . . . . . . . . . . . .
V5CAS PROTOCOL CONVERTOR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
22
26
28
30
32
34
36
38
40
42
44
46
Modems
PSH - SHDSL modem 4 x SHDSL, 4 x E1, 1 x Ethernet . . . . . . . . . . . . . . . . . 50
NTX iDSL modem with X.21 interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
Ethernet Access and Interface Converter Series
KGET TWO INTERFACE CONVERTORS Ethernet over E1 . . . . . . . . . . . . . . . 54
KGET8 INTERFACE CONVERTOR Ethernet over 8 x E1 . . . . . . . . . . . . . . . . . 56
Ethernet Access and Managed Interface Converter Series
KGET4/8/16 ETHERNET ACCESS INTERFACE CONVERTOR
Ethernet over up to 16x E1 with GFP, VCAT and LCAS . . . . . . . . . . . . . . . . .
KGET4/8/16S ETHERNET ACCESS INTERFACE CONVERTOR
Ethernet over up to 16x E1 with GFP, VCAT, LCAS and Encryption . . . . .
KTP INTERFACE CONVERTOR SERIES TDM over IP . . . . . . . . . . . . . . . . . . . .
KTG INTERFACE CONVERTOR SERIES TDM over IP . . . . . . . . . . . . . . . . . . . .
GMC-2U Unmanaged Gigabit SFP Media Converter . . . . . . . . . . . . . . . . . .
58
60
62
64
66
72
74
76
78
Network Management System
SUNCE+ Network Management System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
SUNCE-M Integrated Network Management System . . . . . . . . . . . . . . . . . . . . 82
VoIP Devices
SIPDAT SIP Interactive Voice Response Device . . . . . . . . . . . . . . . . . . . . . . . . . . 86
IMG Media Gateway . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
IMG95 VoIP IVR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90
Radio Communications
CJ-1P Cellular Jammer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92
ARK3000 Antenna Distribution System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Power Electronics
SDNU System for Remote Monitoring & Control of
Power Electronic Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
SNN12 Power Supply System 54 Vdc / 3 x 7.5 A . . . . . . . . . . . . . . . . . . . . . . . . 100
SN12/110 Power Supply System 110 Vdc / 3 x 7.5 A . . . . . . . . . . . . . . . . . . . . 104
NN301/48 Vdc Small DC Power Supply System . . . . . . . . . . . . . . . . . . . . . . . . 108
DC UPS Uninterruptible Power Supply with DC Output Voltage 300 Vdc 112
SF25 Phase Selector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114
Contract Manufacturing
Manufacturing and Assembly of Electronic Devices . . . . . . . . . . . . . . . . 116
Management System
IRITEL reserves the right to make technical changes without notice
Quality Assurance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118
TABLES OF CONTENTS
Next Generation SDH Systems
3
OTP100G
OTN/DWDM Systems
Optical Transport Platform OTN/DWDM up to 8 Tbit/s
4
„„ Multiservice OTN/DWDM Platform
„„ Line Side Coherent Tunable CFP 100G
DWDM Transceiver with
Integrated CD Compensation
„„ Universal Ports - Plugable Interfaces
Any service – Any rate – Any port – Any λ
„„ Universal Unit
Single Unit Solution =>
Muxponder, Transponder,
ODUk Cross connect, 3R Regeneration
„„ Unif ied Platform for 80
Optical Channels
DWDM multiplexers, optical amplifiers,
dispersion compensation modules
„„ Integrated Optical
Transport Solution
OTNSDH/SONETpoint-to-point
DWDMEthernetchain
Fibre Channelring
Videomesh
CPRI
„„ 100G client/line interfaces are implemented
using CFP modules:
ƒƒ OTN OTU4
ƒƒ Ethernet 100GE
„„ 10G client/line interfaces support
Any service – Any rate – Any port – Any λ
using XFP modules:
ƒƒ OTN OTU2/OTU2e
ƒƒ Ethernet 10GE LAN, 10GE WAN
ƒƒ SDH STM-64 SONET OC-192
ƒƒ Fibre Channel 8GFC, 10GFC
ƒƒ CPRI Option 7
„„ Client/line interfaces for bitrates up to 5 Gb/s are
implemented using SFP modules as
Any service – Any rate – Any port – Any λ:
ƒƒ ОТN OTU1
ƒƒ Ethernet GE, FE
ƒƒ SDH STM-16/4/1, SONET OC-48/12/3
ƒƒ SAN: ESCON, FICON, Fibre Channel
FC-12/25/50/100/200/400
ƒƒ Video DVB-ASI, SD-SDI, HD-SDI
ƒƒ CPRI Option 1, 2, 3, 4, 5
ƒƒ Bit-transparent protocol-independent
client services
„„ All SFP, SFP+, XFP and CFP interfaces are
universal and software configurable with fixed
(1310nm, 1550nm, CWDM, DWDM) or tunable
(DWDM) lasers
„„ Support for client signals mapping into
OTN ОDU0, ODUflex, ODU1, ODU2, ODU2e,
ODU3, ODU4 structures
„„ Multistage multiplexing
„„ Mapping into ODU1/OPU1 tributary slots of
n x 155.52 Mb/s capacity for efficient mapping of
client signals at sub-ОDU0 granularity
„„ OTN client signal mapping procedures
ƒƒ AMP – Asynchronous Mapping Procedure
ƒƒ BMP – Bit-synchronous Mapping Procedure
ƒƒ GMP – Generic Mapping Procedure
ƒƒ GFP – Generic Framing Procedure:
Framed and Transparent
„„ Traffic grooming based on client signal
requirements by using ODUflex, OTN VCAT (Virtual Concatenation) (OPUk-Xv, k=0, 1, 2), and/or
n x 155Mb/ѕ tributary slots
„„ ОТN non-blocking ODUk cross connect supports
arbitrary mix of ODUk traffic for each muxponder/
transponder unit, down to ODU0 granularity
„„ FEC (Forward Error Correction) functionality for
detecting and correcting transmission errors,
supports: ITU-T G.709 FEC, ITU-T G.975.1 I.4 FEC
and ITU-T G.975.1 I.7 FEC, SD-FEC (for coherent
DWDM 100G line interfaces)
„„ Transparent transfer of timing information for all
client signals
„„ Synchronization support
ƒƒ SyncE
ƒƒ PTP1588v2
„„ Carrier class traffic protection is implemented
at multiple levels and protocols on optical and
electrical levels
„„ DWDM multiplexing supports up to 80 channels
of С-band wavelengths (192ТHz – 196ТHz) with
50GHz spacing
„„ DWDM filters with low attenuation upgrade
ports allow DWDM multiplex configuration in
steps of 4, 8 or 40 wavelengths, up to 80 wavelengths
„„ The system can utilize active and/or passive optical
filters. Active multiplexers are implemented using
software configurable variable optical attenuators
(VOA)
„„ Use of EDFA and RAMAN optical amplifiers
extends the maximum length of optical sections
„„ Module for chromatic dispersion compensation
is based on FBG (Fiber Bragg Gratings)
„„ Up to 8 degrees ROADM connectivity
„„ DCN is implemented using GCC and ОЅС channels
„„ Support for in-system optical parameters
monitoring
„„ External monitoring points provide access for
OSA instrument measurements
„„ Performance monitoring
„„ Power supply
DC power supply -48V DC or -60V DC
EMS/NMS Software
„„ SUNCE+ Module ОТN
„„ Based on client-server architecture
„„ SNMPv3 based
Network Management System (NMS)
Element Management System (EMS)
OTP100G Optical Transport Platform OTN/DWDM up to 8 Tbit/s
MAIN FEATURES
5
OTP100G Optical Transport Platform OTN/DWDM up to 8 Tbit/s
6
BASIC CONFIGURATION
UNITS
„„ OTP100Gs is compact 1U system
„„ ОТ-CMU unit is the system control-management unit
Applications: Implementing ОТN networks at different
hierarchy levels, inter-connecting networks based on
different technologies, regeneration systems and local
ОDUk cross connect
„„ OT10G-3 unit has the following universal softwareconfigurable client/line interfaces: 16 SFP and 3
10G XFP interfaces. OT10G-3 features muxponder,
transponder, cross connect, synchronization and
traffic protection functionalities
„„ OTP100G-C4 is four-slot subrack (shelf) module
Applications: In building ОТN at different hierarchy
levels, inter-connecting networks based on different
technologies, regeneration systems, local ОDUk cross
connect and building passive DWDM optical networks
with local wavelength switching
„„ OTP100G-C15 is 15-slot subrack (shelf ) with
the basic application in building ОТN/DWDM
networks with the maximum traffic capacity of
the device is up to 80 wavelengths per pair of
optical fibers, and with several hundreds of client
interfaces
„„ OTP100G-C14 is 14-slot subrack (shelf ) with
the basic application in building ОТN/DWDM
networks with the maximum traffic capacity of
the device is up to 80 wavelengths per pair of
optical fibers, and with several hundreds of client
interfaces. This subrack has possibility for hardware protection of control and monitoring unit.
Applications OTP100G-C14/C15: Implementing all
network configurations with all interface types, at
different hierarchy levels, inter-connecting networks
based on different technologies, regeneration systems,
local ОDUk cross connect, building DWDM optical
networks and local wavelength switching
MECHANICAL DESIGN
OTP100G-C15/C14 subrack: 586.2 mm x 437 mm x 298 mm
OTP100G-C4 subrack: 225 mm x 485.5 mm x 298.6 mm
OTP100Gs system:
44,4 mm x 437 mm x 280 mm
„„ OT10G-4 is a transponder unit with 4 softwareconfigurable client/line XFP interfaces. OT10G-4
features transponder, cross connect, synchronization and traffic protection functionalities
„„ OT10G-12 is high density transponder unit with
12 software-configurable client/line SFP+/XFP
interfaces. OT10G-12 features transponder, cross
connect, synchronization and traffic protection
functionalities
„„ OT100G-1 is high density muxponder unit with 10
software-configurable client SFP+ interfaces and
one line CFP 100G interfaces. OT100G-1 features
muxponder, cross connect, synchronization and
traffic protection functionalities
„„ OT100G-2 is high density transponder unit with
2 CFP 100G interfaces (one client and one line).
OT100G-2 features transponder, cross connect, synchronization and traffic protection functionalities
„„ рDWDM-4Cx and рDWDM-8Cx are passive units
for DWDM multiplexing and demultiplexing of
4 or 8 optical signals. The upgrade ports enable
capacity increase
„„ DWDM-x are units for DWDM multiplexing and
demultiplexing of 4 (DWDM-4Cx) or 8 (DWDM-8Cx)
or 40 (DWDM-40CM, DWDM-40CD, DWDM-40HM,
DWDM-40HD) optical signals with variable optical
attenuator and photo detector for optical signal
level adjustment. The upgrade ports enable capacity increase. Using interleaver unit DWDM-IL can be
created multiplex of 80 wavelengths. DWDM-IL is
used to combine and separate odd and even wavelengths to create a 50GHz system.
„„ ОМА-xy unit performs the function of amplification
optical signal using ЕDFA and RAMAN amplifiers
with Booster, Preamplifier and Inline applications
„„ DCM-DxDy unit performs chromatic dispersion
compensation based on FBG
„„ ОТVOА-x unit has 4 or 8 variable optical attenuators
and photo detectors for optical signal level
adjustments
„„ OPS-x unit implements of 1+1 on optical level
protection of up to 4 or 8 optical signals
CFP INTERFACES
OI.100G-CT coherent tunable DWDM 50GHz GRID
OI.100G-4x28 tunable DWDM 4x28Gb/s 50GHz GRID
OI.100G-ER4 40km
OI.100G-LR4 10km
OI.100G-SR10 100m
The optical transport platform OTP100G is line of
IRITEL’s devices for digital signal transmission over
optical fibers, based on OTN and DWDM technologies,
designed for implementation of local, metropolitan
and regional networks of various configurations:
ƒƒ Point-to-point connections
ƒƒ Linear add/drop networks
ƒƒ Ring networks at different hierarchy
levels
Business
Customer
Residential
The OTP100G enables inter-connecting networks
based on different technologies: ОТN, SDH, Ethernet,
SAN (ESCON, FICON, Fibre Channel), video, CPRI, bittransparent protocol-independent client services, etc.
The OTP100G platform is designed and manufactured
with modern modular technology, making it a very
flexible solution for building, expanding and upgrading
networks. It enables efficient and profitable delivery of
telecommunications services.
Internet
Provider
Exchange
MetroWiFi
Online
gaming
Voice
PBX
Office
Data
10
Video server
2G/3G/WIMAX
Mobile Station
Video
Data Storage
Server
DSLAM
Fibre
Channel
100GE
10GbE
OTU-2
10GbE
NxGbE
NxFE
STM-x
NxE1, E3
Softswitch
PSTN
VoIP
E-Lin
e
DSL
OTN/DWDM
OTU2
SDH
STM- 4/1
10
0
LA 10 GE
N/ G b
W E
AN
Internet
OTN/DWDM
OTU4/2/1
Set top box
CPRI
VoIP
CPRI
Terminal
Mobile Base Station
Mobile Base Station
CPRI
Mobile Base Station
CPRI
Mobile Base Station
Broadband
Internet
10
10G
Router Ethernet / MPLS
MSAN/DSLAM
SyncE
PTPG
OTN/DWDM
OTU4/OTU2/OTU1
OTN/DWDM
OTU4/OTU2/OTU1
DVB
TV studio
Video
IPTV
Mobile
TV/application
FE/GbE
SDH
STM-4/1
Video on
demand
E1
FE/GbE
SDH STM - 16
WDM/CWDM/OADM
SDH STM - 4/1
WDM/CWDM/OADM
3G/3.5G/WIMAX
Mobile Station
CCTV
OTP100G Optical Transport Platform OTN/DWDM up to 8 Tbit/s
ƒƒ For inter-connecting networks based on
different technologies
ƒƒ Mesh networks
ƒƒ Regeneration systems
ƒƒ For local switching at ОDUk level
ƒƒ For implementation of passive and
active optical networks
ƒƒ For local switching at optical wavelength
level
APPLICATIONS IN TRANSPORT NETWORKS
7
OTP10G
OTN/DWDM Systems
Optical Transport Platform OTN/DWDM up to 800 Gbit/s
8
„„ Multiservice OTN/DWDM Platform
„„ Universal Ports
Any service – Any rate – Any port – Any λ
„„ Universal Unit
Single Unit Solution =>
Muxponder, Transponder,
ODUk Cross connect, 3R Regeneration
„„ Unified Platform for 80
Optical Channels
DWDM multiplexers, optical amplifiers,
dispersion compensation modules
„„ Integrated Optical
Transport Solution
OTNSDH/SONETpoint-to-point
DWDMEthernetchain
Fibre Channelring
Videomesh
„„ 10G client/line interfaces support
Any service – Any rate – Any port – Any λ
using XFP modules:
ƒƒ OTN OTU2/OTU2e/OTU1e/OTU2f/OTU1f
ƒƒ Ethernet 10GE LAN, 10GE WAN
ƒƒ SDH STM-64 SONET OC-192
ƒƒ Fibre Channel 8GFC, 10GFC
„„ Client/line interfaces for bitrates up to 5 Gb/s are
implemented using SFP modules as
Any service – Any rate – Any port – Any λ:
ƒƒ ОТN OTU1
ƒƒ Ethernet GE, FE
ƒƒ SDH STM-16/4/1, SONET OC-48/12/3
ƒƒ SAN: ESCON, FICON, Fibre Channel
FC-12/25/50/100/200/400
ƒƒ Video DVB-ASI, SD-SDI, HD-SDI
ƒƒ Bit-transparent protocol-independent
client services
„„ All SFP and XFP interfaces are universal and
software configurable with fixed (1310nm,
1550nm, CWDM, DWDM) or tunable (DWDM)
lasers
„„ Support for client signals mapping into
OTN ОDU0, ODUflex, ODU1, ODU2, ODU2e
structures
„„ Mapping into ODU1/OPU1 tributary slots of n
x 155.52 Mb/s capacity for efficient mapping of
client signals at sub-ОDU0 granularity
„„ OTN client signal mapping procedures
ƒƒ AMP – Asynchronous Mapping Procedure
ƒƒ BMP – Bit-synchronous Mapping
Procedure
ƒƒ GMP – Generic Mapping Procedure
ƒƒ GFP – Generic Framing Procedure:
Framed and Transparent
„„ Traffic grooming based on client signal
requirements by using ODUflex, OTN VCAT (Virtual Concatenation) (OPUk-Xv, k=0, 1, 2), and/or
n x 155Mb/ѕ tributary slots
„„ ОТN non-blocking ODUk cross connect supports
arbitrary mix of ODUk traffic for each muxponder/
transponder unit, down to ODU0 granularity
„„ FEC (Forward Error Correction) functionality for
detecting and correcting transmission errors,
supports: ITU-T G.709 FEC, ITU-T G.975.1 I.4 FEC
and ITU-T G.975.1 I.7 FEC
„„ Transparent transfer of timing information for all
client signals
„„ Synchronization support
ƒƒ SyncE
ƒƒ PTP1588v2
„„ Carrier class traffic protection is implemented
at multiple levels and protocols on optical and
electrical levels
„„ DWDM multiplexing supports up to 80 channels
of С-band wavelengths (192ТHz – 196ТHz) with
50GHz spacing
„„ DWDM filters with low attenuation upgrade
ports allow DWDM multiplex configuration in
steps of 4 or 8 wavelengths, up to 80 wavelengths
„„ The system can utilize active and/or passive optical
filters. Active multiplexers are implemented using
software configurable variable optical attenuators
(VOA)
„„ Use of EDFA and RAMAN optical amplifiers
extends the maximum length of optical sections
„„ Module for chromatic dispersion compensation
is based on FBG (Fiber Bragg Gratings)
„„ Up to 8 degrees ROADM connectivity
„„ DCN is implemented using GCC and ОЅС channels
„„ Support for in-system optical parameters
monitoring
„„ External monitoring points provide access for
OSA instrument measurements
„„ Performance monitoring
„„ 100G ready platform
EMS/NMS Software
„„ SUNCE+ Module ОТN
„„ Based on client-server architecture
„„ SNMPv3 based
Network Management System (NMS)
Element Management System (EMS)
OTP10G Optical Transport Platform OTN/DWDM up to 800 Gbit/s
MAIN FEATURES
9
OTP10G Optical Transport Platform OTN/DWDM up to 800 Gbit/s
10
BASIC CONFIGURATION
MECHANICAL DESIGN
„„ OTP10Gs is compact 1U system with:
OTP10G-C15 subrack:
ƒƒ
ƒƒ
ƒƒ
ƒƒ
up to 2 OTN ОТU2/2e/1e/2f/1f,
up to 8 OTN OTU1,
up to 2 universal 10G clients,
up to 16 universal clients with bitrates
from 16Mb/s to 5Gb/s each
Applications: Implementing ОТN networks at different
hierarchy levels, inter-connecting networks based on
different technologies, regeneration systems and local
ОDUk cross connect
„„ OTP10G-C4 is four-slot subrack (shelf) module
with:
ƒƒ
ƒƒ
ƒƒ
ƒƒ
up to 12 OTN ОТU2/2e/1e/2f/1f,
up to 16 OTN OTU1,
up to 12 universal 10G clients,
up to 32 universal clients with bitrates
from 16Mb/s to 5Gb/s each,
ƒƒ up to 16 DWDM channels add/drop in
two directions
Applications: In building ОТN at different hierarchy
levels, inter-connecting networks based on
different technologies, regeneration systems, local
ОDUk cross connect and building passive DWDM
optical networks with local wavelength switching
„„ OTP10G-C15 is 15-slot subrack (shelf) with the
basic application in building ОТN/DWDM
networks with the maximum traffic capacity of
the device is up to 80 wavelengths per pair of
optical fibers, and with several hundreds of client
interfaces
Ap p l i c at i o n s : I m p l e m e n t i n g a l l n e t wo r k
configurations with all interface types, at different
hierarchy levels, inter-connecting networks based on
different technologies, regeneration systems, local
ОDUk cross connect, building DWDM optical networks
and local wavelength switching
Dimensions (H x W x D) 586.2 mm x 437 mm x 298 mm
OTP10G-C4 subrack:
Dimensions (H x W x D) 225 mm x 485.5 mm x 298.6 mm
OTP10Gs system:
Dimensions (H x W x D) 44,4 mm x 437 mm x 280 mm
UNITS
„„ ОТ-CMU unit is the system control-management
unit
„„ OT10G-3 unit has the following interfaces:
16 universal software-configurable client/line SFP
interfaces and 3 universal software-configurable
client/line 10G XFP interfaces. OT10G-3 features
muxponder, transponder, cross connect,
synchronization and traffic protection functionalities
„„ DWDM-4Cx and DWDM-8Cx are units for
DWDM multiplexing and demultiplexing of 4 or 8
optical signals with variable optical attenuator and
photo detector for optical signal level adjustment.
The upgrade ports enable capacity increase
„„ ОМА-x y unit per forms the func tion of
amplification optical signal using ЕDFA and
RAMAN amplifiers with Booster, Preamplifier and
Inline applications
„„ DCM-DxDy unit performs chromatic dispersion
compensation based on FBG
„„ ОТVOА-x unit has 4 or 8 variable optical attenuators
and photo detectors for optical signal level
adjustments
„„ OPS-x unit implements of 1+1 protection of up to
4 or 8 optical signals
XFP INTERFACES
OI.10G-x 1310nm, 1550nm 10-80km
„„ OT10G-4 is a transponder unit with 4 softwareconfigurable client/line XFP interfaces. OT10G-4
features transponder, cross connect, synchronization and traffic protection functionalities
OI.D10G-x-CHx DWDM band 40-88km
„„ OT10G-12 is high density transponder unit with
12 software-configurable client/line SFP+/XFP
interfaces. OT10G-12 features transponder, cross
connect, synchronization and traffic protection
functionalities
DC power supply -48V DC or -60V DC
„„ рDWDM-4Cx and рDWDM-8Cx are passive units
for DWDM multiplexing and demultiplexing of
4 or 8 optical signals. The upgrade ports enable
capacity increase
OI.D10G-x-CHT tunable DWDM 40-80km
POWER SUPPLY
The optical transport platform ОТP10G is line of
IRITEL’s devices for digital signal transmission over
optical fibers, based on OTN and DWDM technologies,
designed for implementation of local, metropolitan
and regional networks of various configurations:
ƒƒ Point-to-point connections
ƒƒ Linear add/drop networks
ƒƒ Ring networks at different hierarchy
levels
Business
Customer
Residential
The OTP10G enables inter-connecting networks based
on different technologies: ОТN, SDH, Ethernet, SAN
(ESCON, FICON, Fibre Channel), video, bit-transparent
protocol-independent client services, etc.
The OTP10G platform is designed and manufactured with
modern modular technology, making it a very flexible
solution for building, expanding and upgrading networks. It enables efficient and profitable delivery of
telecommunications services.
Internet
Provider
Exchange
MetroWiFi
Online
gaming
Voice
PBX
Office
Data
10
Video server
2G/3G/WIMAX
Mobile Station
Video
Data Storage
Server
DSLAM
Fiber
Channel
OTU-2
10GbE
10GbE
NxGbE
NxFE
STM-x
NxE1, E3
Softswitch
PSTN
VoIP
E-Lin
e
DSL
SDH
STM-4/1
L A 10
N/ Gb
W E
AN
IPTV
SyncE
PTPG
OTN/DWDM
OTU-2
OTN/DWDM
OTU-2
Internet
10
10G
Router Ethernet / MPLS
MSAN/DSLAM
Set top box
Mobile
TV/application
3G/3.5G/WIMAX
Mobile Station
CCTV
C
Video on
demand
E1
FE/GbE
FE/GbE
SDH
STM-4/1
DVB
TV studio
Video
OTN/DWDM
OTU-2
OTN/DWDM
OTU-1
VoIP
Terminal
Broadband
Internet
SDH STM - 16
WDM/CWDM/OADM
SDH STM - 4/1
WDM/CWDM/OADM
OTP10G Optical Transport Platform OTN/DWDM up to 800 Gbit/s
ƒƒ For inter-connecting networks based on
different technologies
ƒƒ Mesh networks
ƒƒ Regeneration systems
ƒƒ For local switching at ОDUk level
ƒƒ For implementation of passive and
active optical networks
ƒƒ For local switching at optical
wavelength level
APPLICATIONS IN TRANSPORT NETWORKS
11
ODS2G5
Next Generation SDH Systems
SDH/SONET Multiservice Optical Digital Systems
12
„„ Next generation SDH Optical Digital Systems for STM-16/4/1,
E1, E3, 10/100 BaseTx, 100 BaseFx, 1000 BaseX,
1000 BaseT services
„„ Add/drop, cross-connect and terminal multiplexer
„„ Ethernet over SDH, GFP/VCAT/LCAS technologies
„„ Compact and flexible SDH equipment, easily expandable from
small to full capacity, for metro and access network applications
„„ Network management system SUNCE-M or SNMP-based
management
E1 Line
interface #63
E1 Line
interface #2
E1 Line
interface #1
E1 Line
interface #2
E1 Line
interface #1
100 bFx
link #1
10/100 bTx
link #4
10/100 bTx
link #3
LOCAL CROSS-CONNECT MATRIX
4 x 4 STM-4
S4ADM-2
S4ADM-2
ODS2G5 functional block diagram
GB Eth
PHY
100 bFx
link #1
10/100 bTx
link #5
10/100 bTx
link #4
10/100 bTx
link #3
10/100 bTx
link #2
Ethernet PHY
CROSS-CONNECT
MATRIX
40 x 40 STM-4
(working)
SYNC block
(working)
GFP
Mapper
GFP Mapper
10/100 bTx
link #1
STM-4/STM-1
Optical interface #2
GB Eth
PHY
STM-4/STM-1
Optical interface #1
STM-4/1
Optical interface #3
STM-16/4/1
Optical interface #2
S16LE-2
S16LE-2
GFP
Mapper
10/100/1000
GB Eth link #1
„„ Plug-in SFP optical or electrical transceivers,
provide STM-16, STM-4 or STM-1 interface
configuration on the same unit
SDH E1
Mapper
Telecom bus
STM-16/4/1
Optical interface #1
„„ Optical line interface 2.5 Gbit/s, 622 Mbit/s and
155 Mbit/s provides transmission over
single-mode optical fiber at 1310 nm for section
length of up to 50 km, or at 1550 nm for section
length of up to 120 km
SDH E1
Mapper
GFP Mapper
μP bus
Main features
„„ Multiservice SDH optical digital system for voice
and data transmission of up to STM-16 (2.5 Gbit/s)
Ethernet PHY
SDH E3
Mapper
Working unit
Working unit
Working unit
Protecting unit
Protecting unit
„„ Local cross- connect at VC12 (2 Mbit/s),
VC3 (34 Mbit/s) and VC4 levels
STI2-63
Working unit
SYNC block
(local)
„„ All types of fiber rings and complex network
structure at STM-16, STM-4 and STM-1 level
E1 Line
interface #21
μP block
„„ Linear fiber optic networks, providing
add-and-drop capability
E3 Line
interface #3
OTS
10/100 bTx
link #2
„„ Point-to-point fiber optic links
10/100 bTx
link #1
„„ Line protection at multiplex section, 1+1 MSP,
higher order path or lower order path protection
(VC12, VC3, VC4), subnetwork protection SNCP
Working unit
Protecting unit
ODS2G5 SDH/SONET Multiservice Optical Digital Systems
„„ ODS2G5 has been designed in compliance with
new ITU-T recommendation and ETSI standards
E3 Line
interface #2
Applications
„„ Static and dynamic Ethernet traffic capacity
adjustment, LCAS procedure
E3 Line
interface #1
up to: 6 x STM-16, 30 x STM-4/1, 273 x 2 Mbit/,
3 x 34 Mbit/s and 20 x 10/100 BaseTx,
3 x 100 BaseFx, 15 x 1000 BaseT/1000 BaseX
(cross connect card protection, sync module
protection, E1 line protection)
„„ SONET option (OC-48/OC-12/OC-3, T1, T3) is
software configurable
10/100/1000
GB Eth link #2
„„
„„ Unit’s configuration parameters are stored in
backplane memory, that enable “plug & play”
change of units
„„ Ether net over SDH via GFP/VC AT/LC AS
technologies
STM-4/STM-1
Optical interface #2
„„ ODS2G5C12 configuration for 12 units:
„„ Full non blocking cross-connect matrix, capacity 24.88 Gbit/s (160 x 160 VC4) up to VC12 level,
S4ADM-2 unit or 44.78 Gbit/s (288 x 288 VC4) up
to VC12 level, S16ADM-2 unit
10/100/1000
GB Eth link #1
up to: 4 x STM-16, 20 x STM-4/1, 273 x 2 Mbit/s,
3 x 34 Mbit/s and 13 x 10/100 BaseTx,
2 x 100 BaseFx, 10 x 1000 BaseT/1000 BaseX
„„ PDH tributary interfaces for 2 Mbit/s and 34 Mbit/s
STM-4/STM-1
Optical interface #1
„„
„„ Protection configurations (working and reserve
modules or units) are possible for cross-connect
matrix, synchronization modules, STM-16, STM-4
and STM-1 interfaces and tributary units STI2-63
(1:N 2 Mbit/s tributary protection)
10/100/1000
GB Eth link #2
„„ ODS2G5C8 configuration for 8 units:
„„ C W D M o p t i o n - w a v e l e n g t h d i v i s i o n
multiplexing (1471, 1491, 1511, 1531, 1551, 1571,
1591, 1611 nm +1310 nm), passive optical filters
10/100/1000
GB Eth link #1
up to: 4 x STM-16, 18 x STM-4/1, 21 x 2 Mbit/s,
3 x 34 Mbit/s and 4 x 10/100 BaseTx,
1 x 100 BaseFx, 9 x 1000 BaseT/1000 BaseX
DCC block
„„
„„ Advanced fault diagnosis (integrated BER tester,
etc)
OHA block
„„ ODS2G5C3 configuration for 3 units:
„„ WDM option - two way single fiber transmission
(1310 and 1550 nm), passive optical filter
STM-4/1
Optical interface #4
Basic configuration
13
Control and monitoring
„„ Integrated network management system
SUNCE-M provides continuous management
of ODS2G5 and all other IRITEL’s SDH and PDH
equipment (OTS622, ODS155, FM-MSAN, ...)
Exchange
OTS622-84E1
Exchange
OTS622-84E1
-4 l
ODS2G5C12
„„ SNMP northbound and southbound interfaces
ODS2G5C3
„„ SNMP MIB
„„ Control and monitoring using standard SNMP
viewer
link
STM-16
ring
OTS2G5C3
STM
-4
Data storage
Power supply
OTS622s-21E1
ODS2G5C8
M1l
ink
Ethernet
over SDH
ST
Mobile
base station
OTS622s-21E1
„„ NMS interconnections of collocated IRITEL’s
devices using Q2 (RS485) or Q2Et (10/100BaseTx)
interfaces
„„ Additional G.703 2 Mbit/s interfaces used for
connections of independent subnetworks to one
centralized management system SUNCE-M
ODS2G5C8
STM-16
ring
„„ The computer (PC) in management operations
centre is connected to one network element
(ODS2G5) using Ethernet 10/100BaseTx or RS232
interface (F interface)
„„ NMS interconnection of remote IRITEL’s SDH
equipment using DCC channels (192 kbit/s, 576
kbit/s)
ODS2G5C8
ink
14
STM-4
ring
STM
ODS2G5 SDH/SONET Multiservice Optical Digital Systems
OTS622-84E1
„„ DC power supply –48 V DC or –60 V DC
Mechanical design
Exchange
„„ Unit’s dimension: 277 x 175 mm
„„ Module’s dimension
Exchange
Video distribution
ODS2G5 application in complex STM-16 network
„„
ODS2G5C3 (3 units): 150 x 436.6 x 238 mm
„„
ODS2G5C8 (8 units): 400 x 436.6 x 238 mm
„„
ODS2G5C12 (12 units): 482 x 436.6 x 238 mm
„„ ETSI or 19” cabinet’s dimension:
2200 x 600 x 300 mm
OTS main unit
S4LI-4 unit
TMN interface
4 x 155/622 Mbit/s interface
RS232/V.24, 10/100 BaseTX,
Q2 (RS485), Q2Et (10/100 BaseTX), 2 Mbit/s / G.703
EOW telephone interface
Z (2-wire)
DCC (F1 or E2) interface
64 kbit/s, V11
Performance management
G.826, G.783
G.957, G.703
Jitter and wander
G.825
2 x10/100 BaseTx (IEEE 802.3)
Ethernet interface
2 x1000 BaseT/1000 BaseX (IEEE 802.3)
Power consumption
max 27 W
G.703 (120/75 Ω)
Mapping/multiplexing
G.707 at paths:
VC12/TU-12/TUG-2/TUG-3/VC4/AU-4/AUG/STM-N
S16LI-8 unit
3 x 34 Mbit/s interface
Jitter and wander
Power consumption
21 x 2 Mbit/s interface
G.703 (75 Ω)
Mapping/multiplexing
G.707 at paths:
VC3/TU3/TUG-3/VC4/AU-4/AUG/STM-N
4 x10/100 BaseTx (IEEE 802.3)
Ethernet interface
1 x100 BaseFx (IEEE 802.3)
Mapping
GFP-F G.7041 (n x VC12, n x VC3 or VC4)
Capacity adjustment, LCAS
static, dynamic
2 x 155/622 Mbit/s interface
Jitter and wander
Power consumption
G.957, G.703
G.825
max 30 W
OTS-G main unit
Same as OTS except:
Ethernet interface 1x1000 BaseT/BaseX (IEEE 802.3)
S4ADM-2 unit
Cross-connect
non blocking matrix
capacity 160x160 VC4 (up to VC12 level)
Synchronization
according to G.813
2 x 155/622 Mbit/s interface
G.957, G.703
Jitter and wander
G.825
5 x10/100 BaseTx (IEEE 802.3)
Ethernet interface
1 x100 BaseFx (IEEE 802.3)
1 x1000 BaseT/1000 BaseX (IEEE 802.3)
Power consumption
max 30 W
up to 2 x 2.5 Gbit/s interface
up to 8 x 155/622 Mbit/s interface
G.957, G.703
G.957, G.703
G.825
max 28 W
S16LE-2 unit
up to 2 x 2.5 Gbit/s interface
up to 4 x 155/622 Mbit/s interface
Jitter and wander
G.957, G.703
G.957, G.703
G.825
Ethernet interface
4 x1000 BaseT/1000 BaseX (IEEE 802.3)
Power consumption
max 30 W
STI2-63 tributary unit
63 x E1 interface
G.703 (120/75 Ω)
Jitter and wanderG.823
Mapping/multiplexing
G.707 at paths:
VC12/TU-12/TUG-2/TUG-3/VC4/AU-4/AUG/STM-N
Power consumption
max 25 W
Plug-in SFP transceivers
STM-16:
OI.S16A
OI.L16A
OI.S16B
OI.L16B
ITU-T G.957
LC/FPLD 1310 nm/15 km
LC/FPLD 1310 nm/48 km
LC/FPLD 1550 nm/15 km
LC/FPLD 1550 nm/80 km
STM-4:
OI.S4A
OI.L4A
OI.L4B
OI.L4B1
STM-1:
OI.S1A1
OI.S1A
OI.S1B
OI.S1 electrical
FE:
OI.S1A1
OI.S1A
OI.S1B
GbE:
OI.GbE-AS
OI.GbE-A
OI.GbE-ZX
EI.GbE-RJ45
ITU-T G.957
LC/FPLD 1310 nm/15 km
LC/DFBLD 1310 nm/48 km
LC/DFBLD 1550 nm/80 km
LC/DFBLD 1550 nm/120 km
ITU-T G.957
LC/FPLD 1310 nm/15 km
LC/FPLD 1310 nm/40 km
LC/DFBLD 1550 nm/93 km
CMI/12.7 dB at 78 MHz
IEEE 802.3
LC/FPLD 1310 nm/15 km
LC/FPLD 1310 nm/40 km
LC/DFBLD 1550 nm/93 km
IEEE 802.3
LC/MQW FPLD 1310 nm/10 km
LC/DFBLD 1310 nm/40 km
LC/DFBLD 1550 nm/60 km
RJ45/CAT5/CATe/CAT6/100 m
Traffic protection
Line protection
1+1 MSP
Path protection
VC12, VC3, VC4
Subnetwork protectionSNCP
ODS2G5 SDH/SONET Multiservice Optical Digital Systems
T E C H N I C A L D ATA
15
OTS622
Next Generation SDH Systems
SDH/SONET Multiservice Optical Transport Systems
16
„„ Next generation SDH Optical Transport Systems for
STM-4/1, E1, E3, 10/100BaseTx, 100BaseFx, 1000BaseX,
1000BaseT services
„„ Add/drop, terminal multiplexer and cross-connect
„„ Ethernet over SDH, GFP/VCAT/GFP/LCAS technologies
„„ Compact, flexible and cost-effective SDH equipment
for metro and access network applications
„„ Network management system SUNCE-M or
SNMP-based management
GbE-2 module for OTS622s-21E1 or
OTS622s-21E1/E3: 1 x 1000BaseX/BaseT
„„ Full non blocking cross-connect matrix, capacity
16x16 VC4 (2.5 Gb/s) up to VC12 level
„„ OTS622-21E1 “two slots - two OTS/OTSG units”:
„„ 2 x (2 x STM-4/1), 2 x (21 x 2 Mbit/s) ,
2 x (3 x 34 Mbit/s), 2 x [(4 x 10/100BaseTx,
1 x 100BaseFx) or (1 x 1000BaseX/T)]
„„ PDH tributary interfaces for 2 Mbit/s and 34 Mbit/s
Applications
„„ SONET option (OC-12/OC-3, T1, T3) is software
configurable
E1 Line
interface #63
SDH E1
Mapper
GFP Mapper
E1 Line
interface #2
Ethernet PHY
SDH E3
Maper
STI2-63
E1 Line
interface #1
10/100 bTx
link #1
E3 Line
interface #3
E3 Line
interface #2
E3 Line
interface #1
STM-4/STM-1
Optical interface #2
STM-4/STM-1
Optical interface #1
DCC block
„„ Unit’s configuration parameters are stored in
backplane memory, which enables “plug & play”
change of units
„„ OTS622 has been designed in compliance with
new ITU-T recommendation and ETSI standards
OTS/OTS-G
OHA block
„„ OTS622-84E1 “two slots system”:
„„ 2 x STM- 4/1, 84 x 2 Mbit/s
(OTS/OTSG unit 21 x 2 Mbit/s and one
tributary unit 63 x 2 Mbit/s), 3 x 34 Mbit/s,
(4 x 10/100BaseTx, 1 x 100BaseFx) or
(1 x 1000BaseX/T)
„„ Ethernet over SDH via GFP/VCAT/LCAS
technologies
SYNC block
(local)
„„
„„ Advanced fault diagnosis (integrated BER tester,
etc)
SDH E1
Mapper
LOCAL CROSS-CONNECT MATRIX
4 x 4 STM-4
„„ Point-to-point fiber optic transmission
„„ Linear fiber optic networks, providing add-and-drop
capability
Telecom bus
„„ Connecting to the same or higher order SDH
networks
„„ Optical line interfaces 622 Mbit/s and 155 Mbit/s
provide transmission over single-mode optical
fiber at 1310 nm for section length of up to 50 km,
or at 1550 nm for section length of up to 120 km
1000 bX
link #1
GbE-2 module
1000 bT
link #1
Ethernet PHY
SDH E3
Maper
E1 Line
interface #21
E1 Line
interface #2
E1 Line
interface #1
100 bFx
link #1
10/100 bTx
link #4
10/100 bTx
link #3
10/100 bTx
link #2
10/100 bTx
link #1
E3 Line
interface #3
E3 Line
interface #2
STM-4/STM-1
Optical interface #2
STM-4/STM-1
Optical interface #1
DCC block
„„ Multiservice SDH optical transport system for
voice and data transmission at STM-1 (155 Mbit/s)
and STM-4 (622 Mbit/s) level
OTS622s-21E1/E3
OHA block
Main features
FE-5 module
SYNC block
(local)
„„ Local cross-connect at VC12, VC3 and VC4 levels
OTS622-84E1 block diagram
E3 Line
interface #1
„„ Add-drop fiber ring at STM-1 or STM-4 level
SDH E1
Mapper
GFP Mapper
OTS622 SDH/SONET Multiservice Optical Transport Systems
„„ C W D M o p t i o n - w a v e l e n g t h d i v i s i o n
multiplexing (1471, 1491, 1511, 1531, 1551, 1571,
1591, 1611 nm +1310 nm), passive optical filter
E1 Line
interface #21
FE-5 module for OTS622s-21E1 or
OTS622s-21E1/E3: 4 x 10/100BaseTx,
1 x 100BaseFx
E1 Line
interface #2
„„
E1 Line
interface #1
OTS622s-21E1/E3: 2 x STM-4/1, 21 x 2 Mbit/s,
3 x 34 Mbit/s
„„ Line protection at multiplex section, 1+1 MSP,
higher order path or lower order path protection
(VC12, VC3, VC4), subnetwork protection SNCP
100 bFx
link #1
„„
„„ WDM option-single fiber transmission (1310 and
1550 nm), passive optical filter
10/100 bTx
link #4
OTS622s-21E1: 2 x STM-4/1, 21 x 2 Mbit/s
„„ Static and dynamic Ethernet traffic capacity
adjustment, LCAS procedure
10/100 bTx
link #3
„„
„„ Plug-in SFP optical or electrical tranceivers,
provide STM-1 or STM-4 interfaces configurations
on the same unit
10/100 bTx
link #2
Basic configurations
„„ OTS622s compact 1U system, options:
GB Ethernet PHY
LOCAL CROSS-CONNECT MATRIX
4 x 4 STM-4
OTS622s-21E1/E3 block diagram
17
Control and monitoring
OTS622 SDH/SONET Multiservice Optical Transport Systems
„„ Integrated network management system
SUNCE-M provides continuous management
of OTS622 and all other IRITEL’s SDH and PDH
equipment (ODS2G5, ODS155, FM-MSAN ...).
„„ The computer (PC) in management operations
centre is connected to one network element
(OTS622) using Ethernet 10/100BaseTx or RS232
interface (F interface).
Exchange
Exchange
„„ NMS interconnections of collocated IRITEL’s
devices using Q2 (RS485) or Q2Et (10/100BaseTx)
interfaces
OTSS622-84E1
ODS2G5C8
OTSS622s-21E1/E3
+FE-5 module
„„ Additional G.703 / 2 Mbit/s interfaces used for
connections of several independent subnetwork
on one centralized management system SUNCE-M.
ODS2G5C8
STM-4
OTSS622-84E1
Exchange
STM-4
„„ SNMP northbound and southbound interfaces
„„
„„
SNMP MIB
Control and monitoring using standard SNMP
viewer
Power supply
OTSS622-84E1
„„ DC power supply –48 V DC or –60 V DC
OTSS622-84E1
OTSS622s-21E1
Ethernet
over SDH
Exchange
„„ Optional 230 V AC internal power supply for
OTS622s systems
Mechanical design
Exchange
„„ Unit: 20 x 277 x 175 mm (H x W x D)
„„ Mechanical modules
Exchange
„„
„„
„„
OTS622 application in complex STM-4 network
18
„„ NMS interconnection of remote IRITEL’s SDH
equipment using DCC channels (192 kbit/s, 576
kbit/s)
OTS622s: 44.5 x 436.6 x 238 mm
OTS622-21E1: 150 x 436.6 x 238 mm
OTS622-84E1: 150 x 436.6 x 238 mm
„„ ETSI or 19”cabinet: 2200 x 600 x 300 mm
T E C H N I C A L D ATA
OTS622s-21E1
TMN interface
RS232/V.24, 10/100 BaseTX,
Q2 (RS485), Q2Et (10/100 BaseTX), 2 Mbit/s / G.703
EOW telephone interface
Z (2-wire)
DCC (F1 or E2) interface
64 kbit/s, V11
Performance management
G.826, G.783
21 x 2 Mbit/s interface
G.703 (120/75 Ω)
Mapping/multiplexing
G.707 at paths:
VC12/TU-12/TUG-2/TUG-3/VC4/AU-4/AUG/STM-N
3 x 34 Mbit/s interface
G.703 (75 Ω)
Mapping/multiplexing
G.707 at paths:
VC3/TU3/TUG-3/VC4/AU-4/AUG/STM-N
4 x10/100 BaseTx (IEEE 802.3)
Ethernet interface
1 x100 BaseFx (IEEE 802.3)
Mapping
GFP-F G.7041 (n x VC12, n x VC3 or VC4)
Capacity adjustment, LCAS
static, dynamic
2 x 155/622 Mbit/s interface
Jitter and wander
Power consumption
G.957, G.703
G.825
max 30 W
OTS-G main unit
Same as OTS except:
Ethernet interface 1x1000 BaseT/BaseX (IEEE 802.3)
STI2-63 tributary unit
63 x E1 interface
G.703 (120/75 Ω)
Jitter and wanderG.823
Mapping/multiplexing
G.707 at paths:
VC12/TU-12/TUG-2/TUG-3/VC4/AU-4/AUG/STM-N
Power consumption
max 25 W
compact 1U system
same functionalities as OTS unit,
but without interfaces for 34 Mbit/s and Ethernet
OTS622s-21E1/E3 compact 1U system
same functionalities as OTS unit,
but without interfaces for Ethernet
FE-5 Ethernet interface
Fast Ethernet interfaces module
for OTS622s systems
4 x10/100 BaseTx (IEEE 802.3)
1 x100 BaseFx (IEEE 802.3)
GbE-2
Gigabit Ethernet interface module
for OTS622s systems
Ethernet interface 1x1000 BaseT/BaseX (IEEE 802.3)
Traffic protection
Line protection
1+1 MSP
Path protection
VC12, VC3, VC4
Subnetwork protectionSNCP
Plug-in SFP transceivers
STM-4:
OI.S4A
OI.L4A
OI.L4B
OI.L4B1
STM-1:
OI.S1A1
OI.S1A
OI.S1B
OI.S1 electrical
FE:
OI.S1A1
OI.S1A
OI.S1B
GbE:
OI.GbE-AS
OI.GbE-A
OI.GbE-ZX
EI.GbE-RJ45
ITU-T G.957
LC/FPLD 1310 nm/15 km
LC/DFBLD 1310 nm/48 km
LC/DFBLD 1550 nm/80 km
LC/DFBLD 1550 nm/120 km
ITU-T G.957
LC/FPLD 1310 nm/15 km
LC/FPLD 1310 nm/40 km
LC/DFBLD 1550 nm/93 km
CMI/12.7 dB at 78 MHz
IEEE 802.3
LC/FPLD 1310 nm/15 km
LC/FPLD 1310 nm/40 km
LC/DFBLD 1550 nm/93 km
IEEE 802.3
LC/MQW FPLD 1310 nm/10 km
LC/DFBLD 1310 nm/30 km
LC/DFBLD 1550 nm/60 km
RJ45/CAT5/CATe/CAT6/100 m
OTS622 SDH/SONET Multiservice Optical Transport Systems
OTS main unit
19
WDM/CWDM/OADM
WDM/CWDM/OADM Passive Optical Mux/Demux & Optical
Add/Drop Multiplexers
Passive Optical Mux/Demux & Optical Add/Drop Multiplexers
20
λ3
λ3
OADM-1
λ4
λ1
λ1
λ2
CWDM
λ2
OADM-2
CWDM4
„„ Passive optical modules for increasing the capacity
of a single optical fiber using wavelength-division
multiplexing
„„ Passive WDM multiplexers for increasing the
capacity of a single optical fiber, for up to 2
wavelengths 1310/1550 nm
„„ Passive CWDM Mux/Demux for increasing the
capacity of a single optical fiber, for up to 4 or 8
wavelengths 1471/1491/1511/1531/1551/1571/1591/1611 nm
„„ Passive optical add/drop multiplexer for one or
two wavelengths
λ4λ3
λ4 λ3 λ2 λ1
λ2 λ1
λ4
OADM-1
λ11511
λ21531
λ31551
λ41571
T E C H N I C A L D ATA
CWDM8e MUX/DEMUX modules
2 wavelengths per one fiber [nm]
1310, 1550
Isolation
25 dB/45* dB
(*high isolation option)
Maximum insertion loss
0.4 dB
Optical connector
LC or FC/PC
8+1 wavelengths [nm]
1471, 1491, 1511, 1531,
1551, 1571, 1591,1611 +1310
Maximum insertion loss
2.8 dB, (0.8 dB for 1310)
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
CWDM4 MUX/DEMUX modules
OADM-1 ADD/DROP module
4 wavelengths [nm]
1511, 1531 1551, 1571
optionally any combination from CWDM8
Maximum insertion loss
1.2* dB/1.8 dB
(*ultra low insertion loss option)
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
CWDM4e MUX/DEMUX modules
4+1 wavelengths [nm] 1511, 1531 1551, 1571 +1310
optionally any combination from CWDM8
Maximum insertion loss
1.8 dB, (0.8 dB for 1310)
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
CWDM8 MUX/DEMUX modules
8 wavelengths [nm]
1471, 1491, 1511, 1531,
1551, 1571 1591, 1611
Maximum insertion loss
1.8* dB/2.8 dB
(*ultra low insertion loss option)
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
add and drop 1 selected wavelength
from CWDM range 1417-1611 nm
(*option add/drop 1310 channel - module OADM-1e)
Maximum insertion loss
1 dB for add/drop channel
1.2 dB for pass through channel
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
OADM-2 ADD/DROP module
add and drop 2 selected wavelengths
from CWDM range 1417-1611 nm
(*option add/drop 1310 channel - module OADM-2e)
Maximum insertion loss
1.2 dB for add/drop channel
1.6 dB for pass through channel
Isolation30 dB adjacent, 50 dB non-adjacent channels
Optical connector
LC
WDM-8
Rack mechanical construction for up to eight
WDM/CWDM/OADM modules
19”/ETSI/1U height
Power supply NO (passive modules)
Mechanical dimensions
WDM-8
44.5 x 436.6 x 200 mm
WDM/CWDM/OADM modules
17,3 x 90 x 140 mm
WDM/CWDM/OADM Passive Optical Mux/Demux & Optical
Add/Drop Multiplexers
WDM
21
FM-MSAN (FM8x2)
MULTISERVICE ACCESS MULTIPLEXER
„„ Multiservice Access Node (MSAN)
„„ Universal access PSTN
„„ 8 to 72 external and 16 to 80 internal links 2 Mbit/s
Access Systems
„„ Digital channel cross-connect between all 88 links
(non blocking)
22
„„ Concentrator according to V5.2 up to 2400 subscribers, for
remote multiplexers and/or V5.2 access nodes
„„ Protocol conversion V5.2-CAS
„„ Built in optical transmission, TDMoIP access,
multiple conference and service channels avaible
User interfaces
FM-MSAN access multiplexer is designed to allow
transmission of voice and data in access telecommunication networks. It can be configured as access
multiplexer, drop/insert, cross-connect and fractional
multiplexer and concentrator according to V5.2.
„„ 2w/4w analog voice interface with E/M signaling
„„ 2w analog voice interface ATA – for direct
connection to a phone
„„ 2w analog voice interface ATC – for direct
connection to a exchange
„„ 2w analog voice interface LB – for direct
connection to a phone with local battery supply
„„ FMV– multiplex, cross-connect, control and power
supplay unit with V5.2 interface
„„ Various types of channel units with up to 20 user
interfaces
„„ PE1 – 8xE1 interfaces unit, up to 8 units per
FM-MSAN
„„ Rack configuration – 1 to 4 subracks, 21 (19, 12)
universal unit slots, 2 special slots for central unit
8 x E1
G.703, 2 Mb/s
Optical
Fibre TDMoIP
PC
O
≤115,6 kb/s V.24/V.28 PN6
4A
P
PT
LTS-E1
PSH
SHDSL
n x 64 kb/s LTS-ET
n x 64 kb/s V.11/X.21 PN64
SAN
FM-M
PIU-NT
PET
n x 64 kb/s
Ethernet 10/100 BaseTx
PO
T
PE-1
64 kb/s G.703
LTS-X
PL
B
T
PA
Configurations
8 x E1
G.703, 2 Mb/s, V5.2
PIU-LT
PEM
„„ Supports over 15 different transmission and
subscriber, analog and digital interfaces
„„ Redudant central unit
„„ Cross-connect non-blocking switching fabric for
up to 88 E1 links, CAS signalling includid
„„ Up to 21 universal unit slots per subracks
„„ Up to 20 channels per unit
„„ Advanced traffic protection mechanism for E1
links
„„ Line test access
„„ Concentrator according V5.1/V5.2 protocol for
POTS and ISDN-BRI/PRI
„„ Intergarted Optical Transmission Unit
„„ Intergrated TDM over IP Line Card
„„ NMS based on client server application with data
base replication
„„ SNMP based agent
PA
C
Features
„„ 64 kbit/s digital interface, codirectional G.703
„„ n x 64 kbit/s digital interface with X.21 interfece
„„ Asynhronous/synhronous digital interface V.24,
up to 38.4 kbit/s
„„ ISDN basic rate access U interface
„„ SHDSL, n×64 kbit/s interface
„„ Ethernet 10/100 BaseT and 100 BaseFX interface
„„ Conference connection
ATC E/M
n x 64 kb/s
Ethernet 10/100 BaseTx
n x 64 kb/s
X.21
LB
ATA
ATC
ATC U ISDN, 2B+D
n x 64 kb/s
E1 G.703
U ISDN, 2B+D
ISDN
NT
NTX
NTI-X
NTI-CO
64/128 kb/s, X.21
NTI-ET
64/128, 144 kb/s
Ethernet 10/100 BaseTx
NTI-R
64 kb/s, G.703
V.24/V.28
FM-MSAN (FM8x2) MULTISERVICE ACCESS MULTIPLEXER
Applications
23
Channel units
„„ PEM10 – 10 channels 2w/4w with E/M signaling
„„ PAT10 – 10 channels, ATA interface
„„ PAT20 – 20 channels, ATA interface
„„ PAC10 – 10 channels, ATC interface
FM-MSAN (FM8x2) MULTISERVICE ACCESS MULTIPLEXER
„„ PLB10 – 10 channels, LB interface
24
„„ PCO – 10 channels, 64 kbit/s digital interface,
codirectional G.703
„„ PN64 – 4 channels, n×64 kbit/s, V.11/X.21 interface
„„ PN64A – 8/4 channels, asynchronous/synchronous
transmission from 2.4 up to 115.6 kbit/s, V24/V.28
„„ PIU-LT – 4 channels, ISDN U interface, 2B1Q for
direct connection to a ISDN phone
„„ PIU-NT – 4 channels, ISDN U interface, 2B1Q for
direct connection to a ISDN exchange
„„ PSH – 4 channels, SHDSL n×64 kbit/s interface or
2 Mbit/s or Ethernet over SHDSL
„„ PET – 3 channels, n×64 kbit/s Ethernet bridge with
10/100 BaseT or/and 100 Base FX interface
Control and monitoring
Integrated network management system SUNCE-M
provides continuous management of FM-MSAN and
all other IRITEL’s SDH and PDH equipment (ODS155,
OTS622 ...)
For NMS system integration we support standard
interface based on SNMP protocol
„„ PIO - 8 x digital I/O
Synhronization
„„ PCF – up to 5 conferences with up to 60 users
„„ From internal built-in oscillator (± 25 ppm)
„„ POT - Integrated Optical Transmission unit with
1+1 APS and additional 2xE1
„„ From external 2 048 kHz clock
„„ PTP - TDM over IP Transmission Unit with
additional 2xE1
„„ From received clock on a chosen digital channel
interface
„„ From received clock on any external link
Mechanical design
„„ Unit (233×160×20 mm) and (233×175×20mm)
„„ 19”/ETSI cabinet’s rack (300×483/533×230 mm)
„„ 19”/ETSI cabinet for 4 subracks
(2200×600×300 mm)
„„ ETSI cabinet for 3 subracks (1200×600×400 mm)
„„ Wall mount cabinet for 17 or 14 units and
uninteruptable power supply (650×600×300 mm)
T E C H N I C A L D ATA
2048 kbit/s according to ITU-T G.703, G.704 and G.706
2w/4w analog voice interface
with E/M signaling
Impedance 600 Ω
Relative levels
2w/4w input and output levels –16 up to +4 dBr
in steps
0.1 dB
E/M signaling
output (E)≤ 50 mA/150 V
input (M)≤ 500 Ω (2 mA)
2 wire analog voice interface ATC
Impedance
600 Ω
Relative levels
output
–4 dBr±3 dB (in 0.1 dB steps)
input
–3 dBr±3 dB (in 0.1 dB steps)
Loop current
≤ 60 mA
Loop resistance
≤ 350 Ω
Ringing load impedance
> 1 kΩ + 0.47µF
Ringing detection level
15 up to 35 Veff /25 Hz
Maximum ringing voltage
90 Veff
Ringing frequency
16 up to 50 Hz
Metering
frequency(standard/option)
16/12 kHz ± 1%
sensitivity level
85 mV
2 wire analog voice interface ATA
Impedance
ETSI/600 Ω
Relative levels
output
–7 dBr±3 dB (in 0.1 dB steps)
input
0 dBr±3 dBr (in 0.1 dB steps)
Loop feeding
48 V/2x400 Ω,
loop resistance up to 1200 Ω,
Ringing signal from
ring generator (GZV15)
50 do 75 Veff/25 Hz
Metering
frequency (standard/option)
16/12 kHz ± 1%
2 wire analog voice interface LB
Impedance
600 Ω
Relative levels
output
–4 dBr±3 dB (in 0.1 dB steps)
input
–3 dBr±3 dB (in 0.1 dB steps)
Ringing load impedance
> 1 kΩ + 0.47µF
Ringing detection level
15 up to 35 Veff /25 Hz
Maximum ringing voltage
90 Veff
Ringing frequency
16 do 50 Hz
Ringing signal from
ring generator (GZV15)
50 do 75 Veff/25 Hz
64 kbit/s digital interface
according to ITU-T G.703, codirectional
n x 64 kbit/s digital interface
according to ITU-T V.11/X.21 or V.35
Asynchronous/synchronous digital
interface V.24/V.28
transparent transmission up to 115.6 kbit/s
ISDN interface
U interface
channel structure: 2B+D
line code: 2B1Q
according to ETSI ETR 080
SHDSL interface
according to ETSI TS 101 524 and ITU-T G.991.2
Ethernet bridge interface
10/100 BaseT and 100 BaseFXaccording to IEEE 802.3
External clock reference
2048 kHz according to ITU-T G.703/10
TMN interface
SUNCE-M (proprietary)
F (RS232/V.24 or
10/100 BaseTX Ethernet),
Q2 (RS485), Q2Et (10/100 bT)
SNMP/V1/V2/V3
RFC 3895 (DS1/E1),
RFC 2494 (DS0), RFC 4316 (SHDSL)
Proprietary MIB extension for DS0
Operating temperature range
-50 C up to +450 C
(class 3.2)
FM-MSAN (FM8x2) MULTISERVICE ACCESS MULTIPLEXER
E1 Tributaries
25
PIU
4 ISDN tributaries with U interface
„„ Provides connection to ISDN exchange for 4 remote
subscribers, via multiplexers FM2x2, FM-MSAN
„„ Single pair subscriber loop with 2B1Q line code
Access Systems
„„ PIU-LT (Line Termination) and PIU-NT
(Network Termination) options
4 x ISDN U
Alarms
Main
Alarms
26
T echnical data
Control and monitoring
PIU unit, as tributary unit within multiplexers FM2x2
and FM-MSAN provides connection of remote customer to ISDN exchange. User NT1 equipment is NT
(network termination), whereas U-interface at exchange side is LT. Therefore, PIU unit at customer side
must be PIU-LT, and PIU unit at exchange side PIU-NT.
PIU unit within multiplexers FM2x2 and FM-MSAN
can be controlled by PC software SUNCE-M (Network
Manager):
Remote subscriber can be connected with ISDN
exchange via more than one PIU-LT/PIU-NT pair, but
maximum number of regenerators is six (i.e. three LT/
NT pairs). For test purposes ISDN exchange can send
diagnostic commands through EOC channel to each
PIU unit in chain. 3 bits are reserved for address. “0” is
address of NT1 equipment, “1” to “6” are for PIU units in
chain, and “7” is for all stations in chain (broadcast).
Basic functions
ISDN U interface
ITU-T G.960, G.961 compliant
Transport type
duplex
Transport medium
„„ PIU unit configuration
one twisted-pair
Line code
„„
time slot assigning
„„
remote power feed control
„„
performance monitoring control
„„
alarm monitoring control
2B1Q
Line speed
80 kboud ± 100 ppm
64kbit/s channels per interface
„„ Alarm monitoring
ISDN exchange has loopback control over PIU unit by
means of EOC.
Activation and deactivation of U-interfaces is initiated
from NT1 or exchange.
2.5
Maximum line attenuation
at 40 kHz
at 80 kHz
36 dBm
45 dBm
Maximum line resistance
without repeaters
with repeaters
1048 Ω
1300 + 700 Ω
Synchronization
frame
multiframe
„„ 4 ISDN U interfaces on PIU unit
Scrambling
„„ One U-ISDN occupies 2.5 64kbit/s channels in
FM2x2 and FM-MSAN multiplex
CRC12
1.5 ms
12 ms
1 + X-18 + X-23
X12 + X11 + X3 + X + 1
Remote power
105 V
„„ Position of U-ISDN in multiplex is configurable by
management software
„„ Transport via single pair is accomplished by use of
2B1Q line code with near-end echo cancellation
PIU/FM2x2 regenerator chain between remote subscriber and ISDN exchange
„„ PIU-LT is equipped with remote power feed source,
which can provide power feeding of NT1 without
local power supply
„„ Performance monitoring
FM2x2
PIU (LT)
G.703
2 Mbit/s
ISDN U
PIU (NT)
FM2x2
FM2x2
Embeded Operations Channel (EOC)
PIU (LT)
G.703
2 Mbit/s
ISDN U
NT1
FM2x2
EOC = 0
FM2x2
PIU (NT)
EOC = 6
G.703
2 Mbit/s
ISDN U
EOC = 5
FM2x2
PIU (LT)
EOC = 4
PIU (NT)
EOC = 3
„„ Remote loopback control from ISDN exchange
through EOC
ISDN U
EOC = 2
„„ Short-circuited copper-pair detection
U ISDN
Exchange
(LT)
EOC = 1
„„ Copper-pair interruption detection
2B+D Transparency
PIU ISDN subscriber unit with U interface
Applications
27
PET
3 digital nx64 kbit/s Ethernet Bridge subscribers with 10/100BaseT or 100BaseFX interface
„„ Provides connection of remote LAN network with Ethernet
10/100Base-TX or 100Base-FX interface via telecommunication
network with n x 64 kbit/s data rate.
28
Main
alarms
FX
0b
10
/10
10
Ethernet
Bridge #2
0b
T
10
0b
FX
/10
10
Ethernet
Bridge #1
0b
T
FX
10
0b
1
10 0/
0b
T
Access Systems
„„ Programming the number (1 do 31) of 64 kbit/s channels for any
of 3 digital subscribers.
Ethernet
Bridge #3
Control
signals
T echnical data
Applications
PET unit, as tributary unit within multiplexers, is
used when subscriber want to connect devices with
Etherent 10/100 Base-T or 10/100 Base FX interfaces
through the transport telecommunication network.
Any of 3 ports realize the Switch function on level
2 (MAC level). PET unit can be programmed at nx64
kbit/s rate on Ethernet Bridge interface to the transport network.
Ethernet 10/100 BaseT
Transport type
Electrical characteristics Transmission Section length (UTP cable class 5) Connector duplex
IEEE 802.3
symmetrical
135 m
RJ45
Ethernet 100 BaseFX
SFP plug-in module
Transport type
Optical characteristics Transmission Section length Connector duplex
IEEE 802.3
singlemode optical fiber
2000 m
SC
„„ 3 independent Ethernet Switches on one unit,
10/100 Base T/100 Base FX interface and one
internal WAN interface for nx64 kbit/s Ethernet
Brigde function
„„ Electrical Ethernet interfaces (10/100 BaseT) support auto negotiation procedure which determine
the type of interface (10 or 100 Mbit/s, full or half
duplex)
ISP
Internet
Switch
Remote
stations
Eth
FMP
Eth
„„ Support for QoS priority choice according to the
port or IEE802.1p
„„ LED diodes for links activity, full/half duplex transmission and data rate
„„ Integrated control and monitoring
„„ When autonegotation is switched off it is possible to programme all three 10/100 BaseT ports
independently
„„ Flow control for full duplex transmission according
to IEE802.3x or back pressure flow control for half
duplex transmission
„„ Automatic address learning for MAC frame switching
Switch
PET
Eth
Multiplexer
FMP
E1
E1
E1
PET
FMP
Eth
Switch
SDH/PDH
network
E1
LAN
Eth
E1, E3
STM1/4
Eth
PET
„„ All three Ethernet Switches can be configurated
for VLAN
LAN
E1, E3
STM1/4
FMP
PET
Internet
Corporate
LAN
PET n x 64 kbit/s Ethernet Bridge subscriber unit
Basic functions
29
PN64
4 digital interfaces of X.21/V.11 type, n x 64 kbit/s
Access Systems
„„ Provides connection of terminal equipment (DTE) with
n x 64kbit/s X.21/V.11 interface to telecommunication
network via multiplexers FM2x2 and FM-MSAN (DCE)
„„ Independent selection of number (1 to 31) of 64 kbit/s
channels for each interface
n x 64
X.21
n x 64
X.21
Control
Signals
Main
Alarms
30
Control
Signals
n x 64
X.21
n x 64
X.21
T echnical data
Control and monitoring
PN64 unit, as tributary unit within multiplexers FM2x2,
and FM-MSAN, provides network access to customer
equipment based on X.21 interface. Bit rate n x 64
kbit/s on X.21 interface is programmable and not dependant on protocol type used for providing service
to customer.
PN64 unit within multiplexers FM2x2 and FM-MSAN
is controlled by PC software SUNCE-M (Network
Manager):
Basic functions
„„ 4 n x 64kbit/s X.21 interfaces on one board
„„ Programmable position in multiplex for each
n x 64 kbit/s channel, independent
X.21 interface
Transportduplex
Transport medium
„„ PN64 unit configuration:
Connector
„„
time slot assigning
„„
contradirectional/codirectional selection
Maximum line length
„„
referent clock selection
up to128 kbit/s
up to 2048 kbit/s
No. of 64kbit/s intervals per interface
Line rate
„„ Alarm monitoring
n x 64 kbit/s
1300 m
60 m
Transmit (R, S, B and I signals)
120 Ω
Receive (T, X, C signals)
120 Ω
n x 64 kbit/s
PDH
SDH
Subscriber
(DTE)
X.21
X.25
Frame Relay
(DTE)
„„ Selectable Byte Timing signal type: time slot (byte)
or PCM frame of FM2x2 and FM-MSAN
„„ States of near (DCE) and far (DTE) end are displayed
by front LEDs
1 to 31
Copper-pair termination
„„ Byte Timing signal (B) is available for contradirectional interface type
„„ Unused interfaces can be switched off for power
saving
15-pin SUBD, female
activation/deactivation of interfaces
„„ Independent selection of X.21 interface type:
codirectional or contradirectional
„„ Asymmetric capacity is possible for codirectional
interface type
6 twisted-pairs
„„
„„ Number of 64 kbit/s channels, n per interface can
be 1, 2,..., 31
„„ Codirectional interface type can be referent clock
source for multiplexers FM2x2 and FM-MSAN
ITU-T X.27, V.11 compliant
PN64
FMP
E1
E1
n x X.21
64
kb
it/s
FMP
PN64
PN64
E1
SDH/PDH
Network
FMP
Multiplexer
PDH
SDH
E1
FMP
PN64
X.21
n x 64 kbit/s
TCP/IP
Router
(DTE)
n x X.21
64
kb
it/s
X.21
Audio
video
service
(DTE)
PN64 subscriber unit, n x 64 kbit/s, X.21/V.11
Applications
31
PCO
10 digital G.703 64 kbit/s codirectional interfaces
Access Systems
„„ Provides connection for 10 independent subscribers with
G.703 64 kbit/s codirectional interfaces via multiplexers
FM2x2 and FM-MSAN
5x64 kbit/s
G.703
Tributaries
Alarms
32
Main
Alarms
Tributaries
Alarms
5x64 kbit/s
G.703
T echnical data
PCO unit, as a tributary unit within multiplexers FM2x2
and FM-MSAN provides connection between remote
customers having equipment based on ITU-T G.703
64 kbit/s codirectional interface though TDM based
telecommunication network. Each interface is absolutely transparent regarding the protocol that gives
particular service to the customer.
Basic characteristics
„„ 10 independent 64 kbit/s G.703 codirectional
interfaces accessible from rear side
„„ Each channel could be programmed to occupy
any time slot into any external E1 link
„„ Octet framing programming capability for each
channel
Output
G.703 64kbit/s codirectional
Transmission
Transmission medium
Line speed
Framing
Input
Impedance
Loss at 128 kHz
Return loss:
Impedance
full duplex
2 pairs
256 kbit/s±100 pmm
unframed
octet framing
Impulse level
Impulse width
120 Ω
0 do 3 dB
4 to 13 kHz
13 to 256 kHz
256 to 384 kHz
120 Ω
1 V ±0,1 V
single 3900 ns
double 7800 ns
according to ITU-T G.703
single 5a/G.703
double 5b/G.703
800m or better
With 24AWG twisted pairs
Impulse shape
Section length
Connector
25-pin, D-type, female
jointly for 5 interfaces
≥12 dB
≥18 dB
≥14 dB
„„ Power saving mode for the unused interfaces
„„ Each channel can be programmed to be
synchronization source for multiplexers FM2x2
and FM-MSAN
G.703
„„ PCO unit configuration:
„„
Interface activation and deactivation
„„
Time slot allocation
„„
Framing type definition
„„
Alarm monitoring
„„
Synchronization
„„ Centralized alarm monitoring and acquisition
functions
FMP
Mainframe
Control and monitoring
PCO unit within multiplexers FM2x2 and FM-MSAN
is controlled by PC software SUNCE-M (Network
Manager):
PCO
64 kbit/s
E1
Subscriber
(DTE)
64
E1
G.7
kb
FMP
PCO
03
it/s
PCO
E1
SDH/PDH
Network
FMP
Multiplexer
E1
FMP
PCO
G.703
64 kbit/s
G
64 .703
kb
it/s
Audio
video
service
(DTE)
PCO subscriber unit with G.703 64 kbit/s codirection interface
Applications
33
PN64A
8 digital interfaces of V.24/V.28 type
„„ Asynchronous transmission independent from code
and data rate
„„ Data rate in multiplex 64 kbit/s to 384 kbit/s
Access Systems
„„ Submultiplexing up to 8 channels in 64 kbit/s
„„ Interface data rate: 2400 bit/s up to 115.6 kbit/s
V.24
#1
34
V.24
#2
V.24
#3
V.24
#4
V.24
V.24 #7
V.24 #6
#5
V.24
#8
Control
Signals
T echnical data
Applications
Control and monitoring
PN64A unit, as tributary unit within multiplexers
FM2x2 and FM-MSAN, provides network access to
customer equipment based on V.24/V.28 interface for
transparent asynchronous data transmission. Used
multiplex data rate for transmission is software programmed and can be 64 kbit/s up to 384 kbit/s and
submultiplexing up to 8 channels in 64 kbit/s.
PN64A unit within multiplexers FM2x2 and FM-MSAN
is controlled by PC software SUNCE-M (Network
Manager):
„„ PN64A unit configuration:
Basic functions
8
Digital interface (TD, RD, RTS, DCD)
Transmission method
ITU-T V.24/V.28
asynchrounos transparent
(ITU-T R.111)
„„
activation/deactivation of interfaces
Connector (EIA-561)
RJ-45
„„
time slots assigning
No. of 64kbit/s time slots
1 to 6
„„
submultiplex assigning
Interface data rate
Asynchronous distortion
„„ Alarm monitoring
„„ 8 interfaces V.24/V.28 on one unit
Number of interfaces
2400 bit/s up to 115.6 kbit/s
<8%
„„ Programmable position of used channels in
multiplex
„„ Selection of data rate in multiplex for transmission:
64 to 384 kbit/s
„„ Submultiplexing up to 8 channels in 64 kbit/s
X.21
X.25
Frame Relay
(DTE)
n x 64 kbit/s
PDH
SDH
2.4
15
FMP
E1
E1
V.2
4
to
1
PN64
PN64A
/V.
.6
FMP
28
kb
it/s
PN64A
E1
SDH/PDH
Network
FMP
Multiplexer
PDH
SDH
E1
FMP
PN64
X.21
n x 64 kbit/s
TCP/IP
Router
(DTE)
2.4
V
.2
to 4/V
.
11
5.6 28
kb
it/s
PN64 subscriber unit, V.24/V.28
„„ Asynchronous transmission independent from
code and data rate
35
FMOP
FLEXIBLE MULTIPLEXER OPTICAL PLATFORM
„„ Universal TDM narrowband and packet broadband optical
transmission platform
„„ Up to 400 equivalent 64 kbit/s subscribers
Access Systems
„„ Wire speed broadband Ethernet Services
36
„„ Point to point leased line or switched TDM services over
optical transmission medium
„„ 1+1 optical Automatic Protection Switch (APS)
FMOP is flexible multiplexer specially designed to
allow transmission of TDM narrowband voice and
data signals and broadband Ethernet packet data in
point to point configurations over optical transmission medium.
Device enables reliable and high quality TDM
voice and data services with low latency and guaranteed throughput. FMOP helps user to protect their
existing investments in legacy TDM based CO and
CPE equipment and at the same time enable smooth
transition to a new broadband services. For the users
who requires guaranteed quality of services FMOP
represents unparallel solution compared to a VoIP
technology.
„„
„„
„„
„„
„„
4 E1 PDH tributary interfaces for 2 Mbit/s
Full non-blocking cross-connect
Up to 21 universal unit slots per subracks
Up to 20 channels per unit
Various synchronization sources are available,
received clock from line, from a subchannel, from
internal oscillator or from external reference
„„ Line test access
„„ Integrated network management system, SNMP
and SUNCE support
„„ Supports fiber rings and complex network structure
„„ Plug-in SFP optical transceivers, provides different
fiber type and section lengths
„„ Wire speed Ethernet bridge functionality
„„ Optical Line protection, 1+1
„„ Advanced fault diagnosis (integrated BER tester)
User interfaces
„„ Analog: 2w/4w with E/M signaling, 2w FXS, 2w
FXO, Magnetic
„„ Digital 64 and nx64 kbit/s: X.21, asynhronous/
synhronous V.24, ISDN U, SHDSL, Ethernet
Typically FMOP find application for:
„„ Connecting remote analog subscribers, FXS, FXO
„„ Connecting remote ISDN BRA subscribers
„„ Leased line access to Internet Service Providers
(ISP)
„„ Leased line services over E1 for corporate PABX
connections
„„ IP DSLAM connections to remote IP SWITCH
FMOP multiplexer is suitable to be used by:
„„
„„
„„
„„
Public telecommunication networks operators
Public utility companies
Large and medium sized companies
Government offices and agencies
CENTRAL OFFICE
BRANCH
OFFICE
Lea
s
E1 S ed Lin
e
erv
ices
POTS
FMOP
M
TD
d es
e
h ic
itc rv
Sw Se
E1
POTS
ISDN BRI
Modem
Subscriber
units for
analog and
digital
narrowband
switched and
leased line
services
FMOP
WDM/DWDM
Dark Fiber
E1
Leased Line
g and
Leased Line Analo
Digital Services
Lea
sed
Ethernet
Lin
eD
Ethernet
Router
E1 Services
igit
al S
CORPORATE
HEADQUARTERS
erv
ices
Features
„„ Supports over 15 different transmission and
subscriber, analog and digital interfaces. Shares
the same channel units with other multiplexers
from IRITEL.
IP SWITCH
Class 4/5
IP DSLAM
ISP
FMOP FLEXIBLE MULTIPLEXER OPTICAL PLATFORM
Applications
37
FOP4/8/16
4/8/16xE1 + 2xFE over Fiber Multiplexer
„„ Local displaying of remote device alarms
„„ Simultaneously multiplexes 16 E1 and one
10/100 Mbit/s Ethernet tributaries
„„ Compact 1U, stand alone or 19”/ETSI
mount options
Access Systems
„„ Plug in optical transceivers supporting short,
medium, long, dual or single fiber options
„„ Up to 120 km section length
„„ 220V AC and/or -48V DC options
(dual power protection)
„„ 1+1 optical Automatic Protection Switch (APS)
option
„„ Embedded BER Built In Self Test (BIST) on
all E1 tributaries and Optical line
„„ Ring topology support
„„ Control and monitoring over Embedded Web
server and SNMP (MIB: RFC-2495, RFC 2233,
RFC 2493) support for NMS
8 x E1
E1 LED
2 x 10/100 Eth
38
„„ External office/environmental dry contact
alarm inputs and orderwire option
IP reset
MNG Eth
2 x SFP
FOP16 is optical transmission equipment that combines up to 16 TDM E1 signals and one packet oriented
100 Mbit/s Ethernet signal through the fiber link.
Besides, optical multiplexer FOP16 provides many
value-added functions and interfaces in order to meet
different customers needs. It is a very flexible and efficient way to use the FOP16 in optical transmission
network for voice, data, and wireless applications.
FOP16 provides network management system for
local/remote maintenance purpose by a well known
and friendly GUI based Web Server and standard
SNMP. FOP16 also provide switch and LED indications
for field application.
On optical transmission line, the FOP16 provide
two fiber links for 1+1 protection or ring configuration.
Application
„„ Point-to-point fiber optic links
„„ Linear fiber optic networks, providing add-and
drop capability
„„ Supports fiber rings and complex network structure
„„ Local cross-connect at E1 (2 Mbit/s) levels
Main features
„„ Plug-in SFP optical transceivers, provides different
fiber type and section lengths
„„ 16 E1 PDH tributary interfaces for 2 Mbit/s
„„ Full non blocking cross-connect matrix at E1
level
„„ Wire speed Ethernet bridge functionality
„„ Optical Line protection, 1+1
„„ Advanced fault diagnosis (integrated BER tester)
„„ Integrated network management system
„„ SNMP northbound and southbound interfaces
SNMP MIB
Ethernet interface
„„ Control and monitoring using standard SNMP
viewer
Power supply
DC input voltage Power consumption T echnical data
Optical interface 155520 kbit/s
Number of interfaces
up to 2xSFP
proprietary
Frame
ITU-TG.472 like
Multiplexing method
depends on plug in module
Optical characteristics
characteristics
option -S1A
optical connector LC
light source
FPLD, 1310 nm
–5 dBm
output power
49 km
typical section length option -S1B
optical connector LC
light source DFBLD, 1550 nm
–5 dBm
output power 100 km
typical section length -10
–34 dBm
sensitivity for 10 BER
–10 dBm
maximum input level Interface G.703 2 Mbit/s
Type of signal 2048 kbit/s ±50 ppm HDB3
75 Ω asymmetric
Nominal impedance 120 Ω symmetric
Input
0 - 6 dB at 1024 kHz
Max. cable attenuation ITU-T G.823
Input jitter tolerance
Input return loss
50 kHz to 100 kHz
12 dB in range 100 kHz to 2 MHz
18 dB in range 2 Mhz
14 dB above Output
Nominal impulse amplitude2.37 V ± 0.237 V, 75 .
ITU-T 15/G.703
Impulse shape according to 0.25 UI p-p
Output jitter up to 100 kHz 0.05 UI p-p
in range 18 kHz to 100 kHz Environmental conditions
Climatic conditions Temperature
2 x10/100 BaseTx
(IEEE 802.3)
–36 to –72 V
<4 W
class 3.1 ETSI
-5ºC to +45ºC
Physical dimensions (H x W x D)
Unit 440 x 257 x 43.2 mm
3.15 kg
Weight
rack-mountable hardware included
FOP4/8/16 4/8/16xE1 + 2xFE over Fiber Multiplexer
Description
39
FMTP
FLEXIBLE MULTIPLEXER TDMoIP PLATFORM
„„ Universal TDM narrowband and packet broadband TDM over IP
transmission platform
„„ Up to 400 equivalent 64 kbit/s subscribers
Access Systems
„„ High speed broadband Ethernet Services
40
„„ Point to point or point to multipoint leased line or switched
TDM services over Ethernet packet based transmission network
„„ Various protection mechanisms
„„ SUNCE and SNMP based TMN support
FMTP is flexible multiplexer specially designed to
allow transmission of narrowband voice and data
signals in point to point or point to multipoint configurations Ethernet packet core network.
Device enables reliable and high quality TDM voice
and data services with low latency and guaranteed
throughput. FMTP helps user to protect their existing
investments in legacy TDM based CO and CPE equipment and to avoid costly E1 leased lines necessary for
existing equipment operation. For the users who requires guaranteed quality of services FMTP represents
unparallel solution compared to a VoIP technology.
Typically FMTP find application for:
„„ Various synchronization sources are available,
received clock from line, from a subchannel, from
internal oscillator or from external reference
„„ Line test access
„„ Integrated network management system, SNMP
and SUNCE support
„„ Plug-in SFP optical transceivers, provides different
fiber type and section lengths
„„ Wire speed Ethernet bridge functionality
„„ Various protection mechanisms
„„ Advanced fault diagnosis (integrated BER tester)
„„ Connecting remote analog subscribers, FXS, FXO
„„ Connecting remote ISDN BRA subscribers
„„ Leased line services over E1 for corporate PABX
connections
„„ Wireless base station backhauling
FMTP multiplexer is suitable to be used by:
„„
„„
„„
„„
Public telecommunication networks operators
Public utility companies
Large and medium sized companies
Government offices and agencies
Features
„„ Analog: 2w/4w with E/M signalling, 2w FXS, 2w
FXO, Magnetic
„„ Digital 64 and nx64 kbit/s: X.21, asynchronous/
synchronous V.24, ISDN U, SHDSL, Ethernet
BRANCH
OFFICE
Le
E1 ase
Se d L
rv ine
ice
s
BTS
FMTP
E1
M
TD
d es
e
h ic
itc rv
Sw Se
E1
Branch Office
Router
Subscriber
units for
analog and
digital
narrowband
switched and
leased line
services
POTS
POTS
100 BTX
100 BFX
ISDN BRI
FMTP
Ethernet
IP
Core network 100 BTX
E1
Modem
CENTRAL OFFICE
E1
Leased Line
BX
Services PA
g and
Leased Line Analo
Digital Services
100 BFX
E1
Ethernet
TX
0B
10 BFX
0
10
„„ Supports over 15 different transmission and
subscriber, analog and digital interfaces. Shares
the same channel units with other multiplexers
from IRITEL.
„„ 2 E1 PDH tributary interfaces for 2 Mbit/s
„„ Full non-blocking cross-connect
„„ Up to 21 universal unit slots per subracks
„„ Up to 20 channels per unit
User interfaces
Ethernet
10
10 0 B
0 B TX
FX
CORPORATE
HEADQUARTERS
Lea
s
E1 S ed Lin
e
erv
ices
BSC
IP DSLAM
ISP
FMTP FLEXIBLE MULTIPLEXER TDMoIP PLATFORM
Applications
41
FTP4/8/16
42
Ethernet Access and Managed Interface Converter Series
Access Systems
4/8/16xE1 TDM over IP Multiplexer
„„ Simultaneously performs TDM circuit emulation over
enterprise or carrier packet-switched Ethernet L2/L3 networks
for 4, 8 or 16 E1
„„ At the Ethernet line side supports both electrical Fast and
optical 100 FX Ethernet interface
„„ Multiprotocol encapsulation supporting IPv4, IPv6, UDP, RTP,
L2TPv3, MPLS and Metro Ethernet.
„„ Compliant with IETF, ITU-T, MFA Forum and Metro Ethernet
Forum Technical Specifications
„„ Recovered clock jitter and wander compliant to ITU-T G.823,
G.824. Supports adaptive clock recovery, differential clock
(common clock) (using RTP), external clock
„„ Lost/misordered packet compensation
„„ FTP4/816 provide traditional leased-line and TDM switched
services transparently over IP with higher voice quality with
much lower latency than VoIP and can support all applications
that run over E1 circuits, not just voice
Description
Basic features
100 BaseFx
FTP4/8/16 is TDM circuit emulation over Ethernet
packet switched network transmission unit. It combines 4, 8 or 16 TDM E1 signals over IP based network.
FTP4/8/16 enables transparent services for E1 signals
from central unit transmission over enterprise or carrier Ethernet network.
„„ 4, 8 or16 E1, framed or unframed, PDH tributary
interfaces
Number of interfaces
„„ One 10/100 electrical and one 100 optical Ethernet
interface
Connector
„„ Recovered clock jitter and wander compliant to
ITU-T G.823, G.824 synchronization interface
„„ Lost/misordered packet compensation
„„ Compliant with:
„„
IETF PWE3 Internet drafts for SAToP, TDMoIP, CESoPSN, HDLC
„„ In carrier network FTP4/8/16 typically fins applications for:
„„
„„
TDM services over Ethernet MAN, broadband
wireless, CATV
ITU-T Recommendations Y.1413 and Y.1414
(clause 10)Y.1453, Y.1452.
„„
„„
2G / 2.5G cellular backhaul over IP/MPLS
MFA Forum Implementation Agreements 4.1,
5.1 and 8.0.0
„„
„„
HDLC-based traffic (ex. Frame Relay) trunking
over IP/MPLS
Metro Ethernet Forum Technical Specification
MEF8
„„
PSTN-IP network bridging
„„
SS7 transport over IP
Applications
„„ In enterprise applications FPT4/8/16 is suitable
to be used for:
„„
Private line/toll bypass via Ethernet MAN
„„
TDM PBX migration to Ethernet MAN
„„ In access networks FTP4/816 typically fins
application as Multi Tenant Multi Dwelling Unit
MTU/MDU
„„ Supports adaptive clock recovery, differential clock
(common clock) (using RTP), external clock and
loopback timing modes
„„ Integrated network management system, SNMP
and SUNCE support
T echnical data
Ethernet interfaces
Standards
Maximum Frame size
IEEE 802.3, IEEE 802.3u
IEEE 802.1p, IEEE 802.1Q
1536 bytes
10/100 BaseTx
Number of interfaces
Data rate
1
10 or 100 Mbits
Full/Half duplex
ConnectorRJ45
100 Mbits Full duplex
SFP plug in module
option -S1A
optical connector LC
light source
FPLD, 1310 nm
output power
–5 dBm
typical section length 49 km
option -S1B
optical connector LC
light source DFBLD, 1550 nm
output power –5 dBm
typical section length 100 km
-10
–34 dBm
sensitivity for 10 BER
maximum input level –10 dBm
Interface G.703 2 Mbit/s
Number of interfaces
4, 8, 16
Type of signal 2048 kbit/s ±50 ppm HDB3
75 Ω asymmetric
Nominal impedance 120 Ω symmetric
Input
0 - 6 dB at 1024 kHz
Max. cable attenuation ITU-T G.823
Input jitter tolerance
Input return loss
50 kHz to 100 kHz
12 dB in range 100 kHz to 2 MHz
18 dB in range 2 Mhz
14 dB above Output
Nominal impulse amplitude2.37 V ± 0.237 V, 75 .
ITU-T 15/G.703
Impulse shape according to 0.25 UI p-p
Output jitter up to 100 kHz 0.05 UI p-p
in range 18 kHz to 100 kHz Power supply
DC input voltage Power consumption Environmental conditions
Climatic conditions Temperature
–36 to –72 V
<5 W
FTP4/8/16 4/8/16xE1 TDM over IP Multiplexer
Besides TDM traffic transmission over IP based
networks FTP4/8/16 provides many value-added
functions in order to meet different customers needs
including different network management capabilities,
traffic protection, synchronization etc.
„„ Multiprotocol encapsulation supporting IPv4, IPv6,
UDP, RTP, L2TPv3, MPLS and Metro Ethernet
Data rate
1
class 3.2 ETSI
-5ºC to +45ºC
43
FMVP
FLEXIBLE MULTIPLEXER VoIP PLATFORM
„„ Universal VoIP Residential Gateway Solution
„„ Up to 400 POTS analog subscribers
(simultaneous VoIP-POTS conversions)
„„ High speed broadband Ethernet Services
Access Systems
„„ Media engine supports various voice coders
44
„„ Enhanced voice processing and quality enhancement
„„ Signalling engine - SIP
„„ SUNCE and SNMP based TMN support
FMVP is flexible multiplexer specially designed to
enable voice services to residential subscriber over
packet switched Ethernet and IP based network.
The main 4 function of FMVP multiplexer are: Media
Engine works on voice coding, Signalization Engine
deals with signalization, Application Engine controls
software applications and TDM Engine deals with
analog and digital subscribers.
Device enables premium voice quality utilizing versatile voice quality enhancement like voice
detection, echo cancellation, packet loss concealment, comfort noise generation etc. FMVP helps user
to protect their existing investments in subscribers
CPE equipment and enables smooth transition to
new packet voice services while keeping subscriber
infrastructure intact. Besides of VoIP services FMVP
offers high speed Ethernet connection suitable to be
used for IP DSLAM connectivity thus making the FMVP
ideal packet voice and data provisioning platform.
Typically FMVP find application for:
„„ Connecting residential subscribers to VoIP Soft
Swtich
FMVP multiplexer is suitable to be used by:
„„
„„
„„
„„
Public telecommunication networks operators
Public utility companies
Large and medium sized companies
Government offices and agencies
Features
„„ Supports up to 400 subscribers
„„ Supports different voice coders: PCM, ADPCM,
GSM, Fax Relay
„„ Echo cancellation: per ITU-T G.168-2000
ECAN 10 ms, 16 ms, 32 ms, 128 ms
„„ Voice detection: analyses voice activity to detect
silence
„„ Packet Loss Concealment:
per ITU-T G.711 Appendix 1
„„ Comfort Noise Generation:
per ITU-T G.711 Appendix 2
„„ Adaptive Jitter Buffer Manager: fully adaptive or
static; dejitter and packet reordering
„„ Audio Conferencing: support for 3 to N party audio
conferences
„„ DTMF Detect and Generate:
per Bellcore GR-506-CORE, TIA 464-B, ITU-T Q.23
and Q.24
„„ DTMF Relay: per RFC 2833
„„ Call Progress Tone Handling:
per Bellcore GR-506-CORE, ITU-T Q.35
„„ Integrated network management system, SNMP
and SUNCE support
User interfaces
„„ Subscriber: analog: 2w FXS, 2w FXO, ISDN U Line
Termination side
„„ Auxiliary: Fast Ethernet
SOFT SWITCH
E1
FMVP
POTS
POTS
Subscriber
units for
analog and
digital
narrowband
switched and
leased line
services
POTS
ISDN BRI
ISDN BRI
100 BTX
100 BFX
Ethernet
IP
Core network
X
BT X
0
F
10 0 B
0
1
100
100 BTX
BFX
Ethernet
TX
0B
10 0 BFX
10
ISP
FMVP FLEXIBLE MULTIPLEXER VoIP PLATFORM
Applications
IP DSLAM
45
V5CAS
PROTOCOL CONVERTOR
„„ 1 to 8 E1 links (V5)
„„ Up to 24 E1 links (CAS)
„„ Digital channel cross-connect (non blocking)
Access Systems
„„ Remote multiplexers (CAS) connectivity to V5 interface
(up to 660 subscribers)
46
„„ Concentrator according to V5.2 up to 2400 subscribers,
for remote multiplexers and/or V5.2 access nodes
„„ Factory customerable CAS interface for non IRITEL multiplexers
Applications
V5CAS Protocol convertor application
V5CAS Protocol convertor provide connection of
access multiplexers FM-MSAN and FM2x2 with CAS
signalling to telephone exchange with V5 protocol
(V5.1/V5.2).
ATA
400
„„ Connections of remote access nodes:
FM2x2 (multiplexer), FM-MSAN (concentrator) to
exchange V5.2 interface
„„ Digital channel cross-connect including
corresponding signaling bits between all 24 links
(2 Mbit/s) (non blocking)
„„ Control channel (20 kbit/s or 64 kbit/s)
transsmision via V5.2 interface
Configurations
„„ FMV– multiplex, cross-connect, control and power
supplay unit with V5.2 interface
„„ PE1 – 8xE1 interfaces unit
V5CAS
Protocol
Convertor
ISDN BRI
V5CAS enable digital channel cross-connect
(64 kbit/s) between all 24 E1 links.
Basic functions
3 x E1 (c)
FM-MSAN
ATA
200
1 - 8 x E1
V.5.2
2 x E1 (c)
ISDN BRI
FM-MSAN
ATA 200
2 x E1 (c)
ISDN BRI
FM-MSAN
4 x E1
Exchange
2 x E1
ATA 120
ISDN BRI
„„ PSH – 4 x SHDSL interface unit
FM2x2
c - concentration up to 1:10
ATA
60
FM2x2
ISDN BRI
V5CAS PROTOCOL CONVERTOR
V5CAS enable economic solution to use
telephone exchange’s V5.2 interfaces for connection
access multiplexer with small number of subscribers
(60 to 120).
47
Control and monitoring
Integrated network management system SUNCE-M
provides continuous management of V5CAS and all
other IRITEL’s SDH and PDH equipment (FM-MSAN,
FM2x2, ODS155, OTS622 ...).
For NMS system integration we support standard
interface based on SNMP protocol.
Synhronization
„„ From internal built-in oscillator (± 25 ppm)
„„ From external 2 048 kHz clock
„„ From received clock on any external link
Mechanical design
„„ Unit (233x175x20 mm and 233x100x20mm)
V5CAS PROTOCOL CONVERTOR
„„ V5CAS module (120x437x205 mm)
48
„„ 19”/ETSI cabinet (2200x600x300 mm)
Control and monitoring software
T E C H N I C A L D ATA
TMN interface
2048 kbit/s according to ITU-T G.703, G.704 and G.706
E1 Service alarms
according to E/M signalization standard
SUNCE-M (proprietary)
F (RS232/V.24 or
10/100 BaseTX Ethernet),
Q2 (RS485), Q2Et (10/100 bT)
SNMP/V1/V2/V3
RFC 3895 (DS1/E1)
External clock reference
Operating temperature range
2048 kHz according to ITU-T G.703/10
-50 C up to +450 C
(class 3.2)
(8 x E1, V5.2)
(8 x E1, V5.2)
FMV
PE1
4 x E1 E1(E/M) 4 x E1
V5.2 Alarms V5.2 Alarms F(Et)/Q2Et
F(RS232)
4 x E1
V5.2
4 x E1
V5.2
Alarms
E1(E/M)
Alarms
V5CAS PROTOCOL CONVERTOR
E1 Tributaries
49
PSH - SHDSL modem
4 x SHDSL, 4 x E1, 1 x Ethernet
„„ G.shdsl interface: fractional n x 64 kbit/s from cross-connect
field or 2 Mbit/s G.703 – G.shdsl interface converter
„„ G.703 interface: unframed transparent mode or E1 framer mode
„„ Ethernet over 1 to 4 SHDSL
„„ LTU or NTU mode of G.shdsl operation
„„ 1 or 2 pairs G.shdsl operation
„„ Multiplexers subscriber unit or standalone unit
Modems
Access Systems
„„ Non-blocking 336 channels cross-connect field
4 x E-1
G.703
Ethernet
RS232
50
Remote
Supply
Alarms
SHDSL
#1,2
SHDSL
#3,4
Application
Monitoring and management
Each G.shdsl interface has two modes of operation.
PSH unit management is integrated in IRITEL network
management system SUNCE-M, which incorporates:
Second mode is 2.048 Mbit G.703 (without E1
framer/deframer) to G.shdsl transparent interface
converter, with fixed line rate of 2.056 Mbit/s (G.703
range extension application), when paired with one
of four G.703 interfaces.
G.shdsl interfaces can be paired to operate
in 4-wire mode with maximum total data rate of
2.320 Mbit/s (shared between two copper pairs,
1160 Mbit/s each), if longer loop is needed.
„„ Configuration
„„ Alarm monitoring
„„ Performance monitoring
G.shdsl interface
G.703 (2 Mbit/s)
ITU-T G.703/G.704
Input
Signal
Impedance
Jitter
Return loss
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω Loss
0 to 6 dB at 1024 kbit/s
according to ITU-T G.823
according to ITU-T G.703/9.3
Basic characteristics
SHDSL
FMP
LTS-X
X.21
Router
1-4xE1
SDH/PDH
network
..
.
„„ High symmetric line rate of maximum 2320
kbit/s utilizes 16-level TC-PAM modulation, with
near-end echo-cancellation
E1
FMP
PSH
..
.
PSH
„„ LTU and NTU modes of G.shdsl
SHDSL
PSH
..
.
„„ Line rates from 152 to 2320 kbit/s
(144 to 2312 kbit/s subscriber data rate)
FMP
„„ Flexible synchronization options
„„ LED alarm indication
PSH
E1
„„ Four G.shdsl interfaces on board (ETSI SHDSL: ETSI
TS 101 524, ITU-T G.shdsl: ITU-T G.991.2)
ETSI TS 101 524, ITU-T G.991.2
Transmission
symmetrical duplex
Transmission medium
one or two (4-wire mode)
twisted pairs
ModulationTC-PAM
Line rate
152 kbit/sto 2320 kbit/s
Maximum loop length
- 0.4 mm copper wire
152 kbit/s
6000 m
2320 kbit/s
2200 m
- 0.8 mm copper wire
152 kbit/s
17000 m
2320 kbit/s
6300 m
T echnical data
PSH unit can operate as separate unit without
FM-MSAN if all four G.703 – G.shdsl pairs operate as
interface converters.
„„ Connector for external remote power feed
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω
2.37 V ±0.237 V, 75 Ω
3 V ±0.3 V, 120 Ω
244 ns
according to ITU-T 15/G.703
according to ITU-T G.823
E1
E1
Multiplexer
Pxx
X.21
ISDN
Eth
SHDSL
LTS-E1
E1
FMP
E1
Multiplexer
CENTRAL
OFFICE
PSH
E1
SHDSL
LTS-ET
PBX
Eth
Switch
PSH SHDSL modem
First mode is n x 64 kbit/s fractional operation,
with bit-rate in range from 144 to 2312 kbit/s (G.shdsl
subscriber application). In this mode some number
of 64kbit/s channels can be assigned to Ethernet
(Ethernet-over-G.shdsl application).
Output
Signal
Impedance
Impulse level
Impulse width
Impulse shape
Jitter
Router
ATA
LAN
51
NTX
iDSL modem with X.21 interface
„„ NTX is ISDN NT1 modem with U interface (2B+D),
64, 128, 144 kbit/s
52
„„ Point to point connection of devices based on X.21
interface using single twisted pair transmission medium
(NTX LT and NT mode)
Modems
Access Systems
„„ Enables connectivity of distant DTE devices with X.21
interface to telecommunication network, using existing
access multiplexers FM2x2 or FM-MSAN with PIU-LT or
PN64 tributary units
Applications
„„ One ISDN BRI U Line Termination (LT) or Network
Termination (NT) interface with maximum user
throughput of 144 kbit/s
NTX is basic ISDN NT1 modem with U interface
(2B+D). In modem version NTX enables connectivity
of distant DTE devices with X.21 interface by using
the existing telecommunication network. Access
to the existing network could be realized by using
Flexible Multiplexer FM2x2 or FM-MSAN through the
proper tributary units like PIU-LT or PN64. In this particular application NTX is Network Terminating (NT)
device while tributary unit performs ISDN BRA Line
termination (LT). Line Termination side, PIU-LT cards,
besides of all other LT functionality provides remote
power for NTX devices.
„„ Single copper pair transmission by using 2B1Q line
code with near end echo cancellation
„„ Automatic or manual Embedded Operation
Channel management
„„ Accepts remote power supply provided by LT
side
„„ One X.21 interface, contradirectional, DCE or DTE
type for 64, 128 or 144 kbit/s transmission
„„ In DCE mode synchronization is on internal
reference
„„ In DTE mode synchronization on X.21 S timing
signal
„„ Management thought the PC Graphical User Interface based application via RS232 interface
„„ Front panel LED alarm and basic configuration
status display
„„ Testing and performance facility
„„
Built In Self Test
„„
Local and Remote test loops.
„„
Far End and Near End Block Error monitoring
„„ Desktop mountable case
„„ External (220/110V AC/unregulated 5V DC) or
(-48 V DC/5V DC) adapter options
Another typical NTX devices application is
bidirectional point to point connection by using
single twisted pair transmission medium. Typically this
configuration is suitable for direct routers connection
in campus or other similar inter-building applications.
In order to connect distant routers it is necessary to
configure NTX device in one, for instance central or
corporate site, in X.21 DCE and ISDN U LT mode. The
other NTX, remote device, have to be configured as,
X.21 DCE and ISDN U NT. In this case synchronization
is obtained from internal reference at the ISDN U LT
side; NT side is always synchronized to the peering LT
device. Also by adding Remote Power Supply (RPS)
device it is possible to power both NTX devices.
T echnical data
ISDN U interface
ITU-T G.960, G.961
Transport type
duplex
Transport medium
one twisted-pair
Line code
2B1Q
Line speed
80 kboud ± 100 ppm
64kbit/s channels per interface
2,5
Maximum line attenuation
at 40 kHz
36 dBm
at 80 kHz
45 dBm
Maximum line resistance
without repeaters
1048 Ω
with repeaters
1300 + 700 Ω
Synchronization
frame
1.5 ms
multiframe
12 ms
Scrambling
1 + X-18 + X-23
CRC12X12 + X11 + X3 + X + 1
Remote power
105 V
RS232 interface
X.21 interface
Transport type
Transport medium
Connector
Line rate
Maximum line length
128 kbit/s
Copper pair termination
DCE Transmit (R, S, I)
DCE Receive (T, X, C)
ITU-T V.24, V.28
ITU-T X.21/27, V.11
duplex
6 twisted-pair
15 pin SUBD female
64, 128, 144 kbit/s
1300 m
120 Ω
120 Ω
Power
External AC/DC adapter
Remote power supply
Power consumption
220V ac/6V dc
40-105 V
up to 1 W
Temperature
-50 C to +450 C
Dimensions
178 x 131.5 x 36 mm
NTX iDSL modem with X.21 interface
Basic features
53
KGET
TWO INTERFACE CONVERTORS
Ethernet over E1
Ethernet Access and Interface Converter Series
Access Systems
„„ Two independent Ethernet E1 Bridge
„„ Provides connection of remote LAN networks with Ethernet
10/100 BaseTX or 100 BaseFX interface via telecommunication
network with G.703, 2 Mbit/s interface
„„ Easy configuration
„„ Integrated control and monitoring, SUNCE-M
2 x 2 Mbit/s
G.703
54
100 bFX
0 bT
bFX
Eth. Bridge #1
10/10
Main alarms
100
10/
100
bT
Control
signals
Control signals
Eth. Bridge #2
The main application of KGET Interface Convertor is
to connect devices with Ethernet interface through
telecommunication network. Any of two Interface
Convertor realize Ethernet Bridge function or Switch
function at layer 2.
Basic functions
„„ Two independent Interface Convertors on one
unit.
„„ Any of two Interface Convertor realize Ethernet
Bridge function with 2048 kbit/s maximum WAN
interface capacity.
„„ At Ethernet side there are two ports: electrical
10/100 BaseTX interface and optical 100 BaseFX
interface.
„„ Electrical Ethernet interfaces are half/full duplex
with auto negotiation procedure which define the
type of interface 10 or 100 Mbit/s.
Transport type
G.703 (2 Mbit/s)
Input
Signal type
Impedance
Cable attenuation
Input jitter
Reflection attenuation
Output
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω
0 to 6 dB at 1024 kbit/s
according to ITU-T G.823
according to ITU-T G.703/9.3
Signal type
Impedance
Impulse level
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω
2,37 V ±0,237 V, 75 Ω
3 V ±0,3 V, 120 Ω
244 ns
according to ITU-T 15/G.703
according to ITU-T G.823
Impulse width
Impulse shape
Output jitter
IEEE 802.3
symmetrical
135 m
RJ45
Ethernet 100 BaseFX
SFP plug-in module
Transport type
duplex
Optical characteristics Transmission Section length Connector IEEE 802.3
singlemode optical fiber
2000 m
SC
Switch
Switch
Router
Router
„„ Support for QoS priority choice according to the
port or IEE802.1p
„„ Integrated control and monitoring using OLC
unit.
Electrical characteristics Transmission Section length (UTP cable class 5) Connector LAN
„„ VLAN can be configured for any port
independently.
„„ Loop test possibility.
duplex
LAN
„„ Interface Convertors are transparent for all higher
order protocol (TCP-IP, XNS, ISO,...).
„„ Synchronization: local clock or external clock from
received G.703 signal.
Ethernet 10-100 BaseTX
Eth
Eth
LAN
Switch
Router
Eth
KGET
E1
E1
Switch
E1
SDH/PDH
network
E1
KGET
Eth
Router
LAN
KGET INTERFACE CONVERTORS - Ethernet over E1
T echnical data
Applications
55
KGET8
56
Ethernet Access and Interface Converter Series
Access Systems
INTERFACE CONVERTOR
Ethernet over 8 x E1
„„ Provides connection of remote LAN networks with Ethernet
10/100 BaseTX or 100 BaseFX interface via telecommunication
network with G.703, 2 Mbit/s interface
„„ Easy configuration
„„ Integrated control and monitoring, SUNCE-M
„„ Connection of remote LAN networks with Ethernet
interface
„„ Support for QoS priority choice according to the
port or IEE802.1p
Ethernet 10-100 BaseTX
„„ Loop test and signal generation possibility
Electrical characteristics Transmission Section length (UTP cable class 5) Connector „„ Connection of small capacity IP DSLAM to IP
Switch
„„ Integrated control and monitoring using OLC or
FMV unit.
„„ IP DSLAM and IP Base station backup/backhaul
„„ Card option ready to be used in standard ETSI or
19” shelves
„„ Remote corporative networks LAN connection
„„ Stand alone, rack or desktop mounting options
Basic functions
„„ Enables connection of remote Ethernet networks
with 8 x E1 links
„„ Broadband service based on Ethernet technology
for existing TDM PDH and SDH network
T echnical data
G.703 (2 Mbit/s)
Input
„„ Interface Convertor realize Ethernet Bridge
function with 8 x 2048 kbit/s maximum WAN
interface capacity
Signal type
Impedance
Cable attenuation
Input jitter
Reflection attenuation
Output
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω
0 to 6 dB at 1024 kHz
according to ITU-T G.823
according to ITU-T G.703/9.3
„„ At Ethernet side there are two ports: electrical
10/100 BaseTX interface and optical 100 BaseFX
interface
Signal type
Impedance
Impulse level
„„ Electrical Ethernet interfaces are half/full duplex
with auto negotiation procedure which define the
type of interface 10 or 100 Mbit/s
2048 kbit/s ±50 ppm (HDB3)
75 Ω/120 Ω
2,37 V ±0,237 V, 75 Ω
3 V ±0,3 V, 120 Ω
244 ns
according to ITU-T 15/G.703
according to ITU-T G.823
„„ For TDM transmission maximum capacity of non
framing E1 signal is used
„„ Interface Convertors are transparent for all higher
order protocol (TCP-IP, XNS, ISO,...)
Impulse width
Impulse shape
Output jitter
Transport type
duplex
SFP plug-in module
Ethernet 100 BaseFX
Transport type
duplex
Optical characteristics IEEE 802.3
Transmission singlemode optical fiber
Section length up to 2000 m
Connector SC
Protocols
HDLC X.86/LAPS ML-PPP
IEEE 802.1D bridging
IEEE 802.1p QoS
IEEE 802.1Q VLAN
Power supply
48 Vdc or 220 Vac
Operating temperature range
-5⁰ C up to +45⁰ C
(class 3.2)
„„ VLAN can be configured for any port
independently
LAN
Switch
Eth
1-8xE1
KGET8
..
.
Switch
1-8xE1
SDH/PDH
network
..
.
IEEE 802.3
symmetrical
up to135 m
RJ45
KGET8
Eth
Router
KGET8 INTERFACE CONVERTOR - Ethernet over 8 x E1
Applications
LAN
Router
57
KGET4/8/16
58
Ethernet Access and Managed Interface Converter Series
Access Systems
ETHERNET ACCESS INTERFACE CONVERTOR
Ethernet over up to 16x E1 with GFP, VCAT and LCAS
„„ Transparent Ethernet connection over existing
TDM infrastructure
„„ Provides Ethernet connection over up to 16 E1
„„ GFP, VCAT and LCAS encapsulation and bonding
for up to 16 groups
„„ QoS and SLA Support for Ethernet subscribers
„„ Feature rich diagnostics and fault management on
all TDM and Ethernet ports
„„ Monitoring and Configuration via embedded
Web Server and SNMP
„„ High Capacity Transparent Ethernet Service over
existing PDH/SDH networks
„„ IP DSLAM, WiMAX and Mobile Base station
backhaul
„„ Remote corporative networks LAN connection
Basic features
„„ KGET16 complies to the latest NG-PDH
standards
„„ KGET16 provides local port and in band
capacity for remote management via embedded
Web Server. For TMN purposes device provides
SNMP agent
„„ E1 port test facility includes loop tests and signal
generation and error measurements. All E1 ports
under tests are excluded from VCAT LCAS groups
thus preventing Ethernet loop storms.
„„ KGET16 provides transparency for all higher order
protocols (TCP-IP, XNS, ISO,...)
„„ Generic Framing Procedure (GFP) enables
efficient Ethernet packet encapsulation and TDM
bandwidth utilization
Connector
Signal type
2048 kbit/s ±50 ppm (HDB3)
„„ Virtual Concatenation (VCAT) provides flexible
bandwidth allocation for different subscribers by
bonding multiple E1 links into single virtual pipe
Impedance
75 Ω/120 Ω
„„ Link Capacity Adjustment Scheme (LCAS)
enables smooth virtual pipe capacity change, by
adding or removing E1 links from the pipe, without
traffic loss
„„ VLAN capabilities includes stacking and striping
for both ingress and egress traffic for all ports
independently thus keeping user VLAN settings
unchanged. Management traffic can be isolated
from user traffic with separate VLAN
„„ QoS support includes per port VLAN based
priority or QoS based on IEE802.1p enabling
fine traffic shaping in order to fulfill user
requirements for delay sensitive real time voice or
video applications
4, 8, 16
RJ45
Input
Input jitter
Reflection attenuation
0 to 6 dB at 1024 kHz
according to ITU-T G.823
according to ITU-T G.703/9.3
Output
Signal type
2048 kbit/s ±50 ppm (HDB3)
Impedance
75 Ω/120 Ω
Impulse level
2.37 V ±0.237 V, 75 Ω
3 V ±0,3 V, 120 Ω
Impulse width
244 ns
Impulse shape
according to ITU-T 15/G.703
Output jitter
2, 4
Transport type
duplex
Electrical characteristics
IEEE 802.3
Transmission
Section length
symmetrical
(UTP cable class 5)
up to135 m
Connector
Number of ports
E1, G.703 (2 Mbit/s)
Cable attenuation
Number of ports
RJ45
Ethernet 100 BaseFX SFP plug-in module
T echnical data
Number of ports
Ethernet 10-100 BaseTX
according to ITU-T G.823
Transport type
Optical characteristics
Transmission
Section length
Connector
0, 2
duplex
IEEE 802.3
singlemode optical fiber
up to 2000 m
SC
Protocols
Encapsulation
GFP, G.7041
GFPoPDH, G.8040
Bonding
VCAT G7043
LCAS, G.7042
Delay Compensation
up to 250 ms
KGET4/8/16 ETHERNET ACCESS INTERFACE CONVERTOR
Applications
59
KGET4/8/16S
60
Ethernet Access and Managed Interface Converter Series
Access Systems
ETHERNET ACCESS INTERFACE CONVERTOR
Ethernet over up to 16x E1 with GFP, VCAT, LCAS and Encryption
„„ Transparent Ethernet connection over existing TDM
infrastructure with built in AES Encryption
„„ Per E1 port configurable AES128/192/256 encryption
module with flexible key and access management
„„ Provides Ethernet connection over up to 16 E1
„„ GFP, VCAT and LCAS encapsulation and bonding
for up to 16 groups
„„ QoS and SLA Support for Ethernet subscribers
„„ Feature rich diagnostics and fault management on
all TDM and Ethernet ports
„„ Monitoring and Configuration via embedded
Web Server and SNMP
„„ Secured High Capacity Transparent Ethernet
Service over existing PDH/SDH networks for
government, financial and other institutions that
requires secured data transmission over public
telecommunication network.
„„ IP DSLAM, WiMAX and Mobile Base station
backhaul for public and private users
„„ Secured remote corporative networks LAN
connection
Basic features
„„ KGET16S complies to the latest NG-PDH
standards
„„ KGET16S provides transparency for all higher order
protocols (TCP-IP, XNS, ISO,...)
„„ Advanced Encryption Standard (AES) provides
high confidence level of data security over public
telecommunication network. Each E1 link at the
device is possible to configure to perform data
encryption with different key length, key management and key schedule. Encryption procedure includes key exchange, authentication and user data
encryption. Each phase of encryption procedure
uses their own key.
„„ Generic Framing Procedure (GFP) enables efficient Ethernet packet encapsulation and TDM
bandwidth utilization
„„ VLAN capabilities includes stacking and striping
for both ingress and egress traffic for all ports
independently thus keeping user VLAN settings
unchanged. Management traffic can be isolated
from user traffic with separate VLAN
Impulse width
244 ns
Impulse shape
according to ITU-T 15/G.703
„„ QoS support includes per port VLAN based
priority or QoS based on IEE802.1p enabling
fine traffic shaping in order to fulfill user
requirements for delay sensitive real time voice or
video applications
Number of ports
„„ KGET16S provides local port and in band
capacity for remote management via embedded
Web Server. For TMN purposes device provides
SNMP agent
„„ E1 port test facility includes loop tests and signal
generation and error measurements. All E1 ports
under tests are excluded from VCAT LCAS groups
thus preventing Ethernet loop storms
Connector
4,8,16
RJ45
Signal type
2048 kbit/s ±50 ppm (HDB3)
Impedance
75 Ω/120 Ω
0 to 6 dB at 1024 kHz
„„ Virtual Concatenation (VCAT) provides flexible
bandwidth allocation for different subscribers by
bonding multiple E1 links into single virtual pipe
Input jitter
„„ Link Capacity Adjustment Scheme (LCAS) enables
smooth virtual pipe capacity change, by
adding or removing E1 links from the pipe, without
traffic loss
Signal type
2048 kbit/s ±50 ppm (HDB3)
Impedance
75 Ω/120 Ω
Reflection attenuation
according to ITU-T G.823
according to ITU-T G.703/9.3
Output
Impulse level
duplex
Electrical characteristics
IEEE 802.3
Transmission
Section length
symmetrical
(UTP cable class 5)
up to135 m
Connector
RJ45
Ethernet 100 BaseFX SFP plug-in module
Number of ports
Transport type
Optical characteristics
Transmission
0,2
duplex
IEEE 802.3
singlemode optical fiber
up to 2000 m
SC
Protocols
Input
Cable attenuation
2,4
Transport type
Connector
E1, G.703 (2 Mbit/s)
according to ITU-T G.823
Ethernet 10-100 BaseTX
Section length
T echnical data
Number of ports
Output jitter
2.37 V ±0.237 V, 75 Ω
3 V ±0,3 V, 120 Ω
Encapsulation
GFP, G.7041
GFPoPDH, G.8040
Bonding
VCAT G7043
LCAS, G.7042
Delay Compensation
up to 250 ms
AES
NIST, FIPS197
KGET4/8/16S ETHERNET ACCESS INTERFACE CONVERTOR
Applications
61
KTP
62
Ethernet Access and Managed Interface Converter Series
Access Systems
INTERFACE CONVERTOR SERIES
TDM over IP
„„ Performs TDM circuit emulation over enterprise or carrier
packet-switched Ethernet L2/L3 networks for different
types of user interfaces
„„ At the Ethernet line side supports both electrical Fast
and optical 100 FX Ethernet interface
„„ Multiprotocol encapsulation supporting IPv4, IPv6, UDP,
RTP, L2TPv3, MPLS and Metro Ethernet.
„„ Compliant with IETF, ITU-T, MFA Forum and Metro
Ethernet Forum Technical Specifications
„„ Recovered clock jitter and wander compliant to ITU-T G.823,
G.824. Supports adaptive clock recovery, differential clock
(common clock) (using RTP)
„„ Lost/misordered packet compensation
„„ Embedded Web Server and SNMP Agent
„„ Optional AES 128/192/256 Encryption of TDM Stream
Basic functions
Ordering codes
KTP devices performes TDM circuit emulation
over packet switched network thus enabling
transparent TDM services over enterprise or carrier
Ethernet network.
„„ Broad range of, framed or unframed, PDH tributary
interfaces
KTP- I - P - S
Besides TDM traffic transmission over IP based
networks KTP provides many value-added functions
in order to meet different customers needs including
different network management capabilities, traffic
protection, synchronization etc.
„„ Multiprotocol encapsulation supporting IPv4,
IPv6, UDP, RTP, L2TPv3, MPLS and Metro Ethernet
„„ Embedded Web Server and SNMP Agent
t
Etherne
et
ern
Eth
(V5.2)
L x E1
K x E1 (SS7)
IP = 10.0.1.2
`
g
alo
An
IETF PWE3 Internet drafts for SAToP, TDMoIP,
CESoPSN, HDLC
„„ ITU-T Recommendations Y.1413 and Y.1414
(clause 10) Y.1453, Y.1452.
„„ MFA Forum Implementation Agreements 4.1,
5.1 and 8.0.0
„„ Metro Ethernet Forum Technical Specification
MEF8
„„ Supports adaptive clock recovery, differential clock
(common clock) (using RTP)
„„
Analog
„„ Compliant with:
g
alo
An SL
/AD
Residential User
ISDN BRA
/ADSL
MSAN
AD
/SH SL
DS
L
`
Residential User
et
rn
he
Et
Soft
Switch
Ethernet
IP = 10.0.1.1
Ethernet IP
METRO Ethernet
MPLS
E-Commerce
PHONE - GSM
PDA - GPRS
t
e
rn
he
Et
.2)
(V5
7)
(SS
E1
E1
Lx
Kx
E1
Private line/toll bypass via Ethernet MAN
„„ TDM PBX migration to Ethernet MAN
„„ In access networks KTP typically finds application
as Multi Tenant Multi Dwelling Unit MTU/MDU
„„
„„ Lost/misordered packet compensation
N
D
IS RA
B
TDM services over Ethernet MAN, broadband
wireless, CATV
„„ 2G / 2.5G cellular backhaul over IP/MPLS
„„ HDLC-based traffic (ex. Frame Relay) trunking
over IP/MPLS
„„ PSTN-IP network bridging
„„ SS7 transport over IP
„„ In enterprise applications KTP is suitable to be
used for:
„„
„„ Recovered clock jitter and wander compliant to
ITU-T G.823, G.824 synchronization interface
nx
„„ In carrier network KTP typically finds applications
for:
„„ One 10/100 electrical and one 100 optical Ethernet
interface
I - interface:
X - X21/V.11 codirectional or contradirectional
n x 64 kbit/s over IP
V - V.35
N - NRZ, NATO, 75 Ω, n x 64 kbit/s over IP
E1 - E1 over IP
2E1 - 2 x E1 over IP
4E1 - 4 x E1 over IP
E3 - E3 over IP
P - power option:
D - 48 Vdc desktop unit
N - 220 Vac with external AC/DC adapter
R - card - rack version
S -encryption option:
- no encryption
S
- with encryption
IP = 10.0.1.3
PHONE - GSM
E1
BTS
BSC
TDM
CO Switch
PHONE - GSM
KTP INTERFACE CONVERTOR SERIES TDM over IP
Applications
PHONE - GSM
63
KTG
64
Ethernet Access and Managed Interface Converter Series
Access Systems
INTERFACE CONVERTOR SERIES
TDM over IP
„„ Performs TDM circuit emulation over enterprise or carrier
packet-switched 1G Ethernet L2/L3 networks for different
types of user interfaces
„„ At the Ethernet line side supports one 10/100 BaseTx,
one 100 BaseFx, two 1000 BaseT and one 1000 BaseX
Ethernet interfaces
„„ Multiprotocol encapsulation supporting IPv4, IPv6, UDP, RTP,
L2TPv3, MPLS and Metro Ethernet.
„„ Compliant with IETF, ITU-T, MFA Forum and Metro Ethernet
Forum Technical Specifications
„„ Recovered clock jitter and wander compliant to ITU-T G.823,
G.824. Supports adaptive clock recovery, differential clock
(common clock) (using RTP)
„„ ToS support for IP level priority, VLAN 802.1p and 802.1Q
support for MAC level priority
„„ Lost/misordered packet compensation
„„ Embedded Web Server and SNMP Agent
„„ Optional AES 128/192/256 Encryption of TDM Stream
Basic functions
Ordering codes
KTG devices performes TDM circuit emulation
over packet switched network thus enabling
transparent TDM services over enterprise or carrier
Ethernet network.
„„ Broad range of, framed or unframed, PDH tributary
interfaces
KTG- I - P - S
IETF PWE3 Internet drafts for SAToP, TDMoIP,
CESoPSN, HDLC
„„ ITU-T Recommendations Y.1413 and Y.1414
(clause 10) Y.1453, Y.1452.
„„ MFA Forum Implementation Agreements 4.1,
5.1 and 8.0.0
„„ Metro Ethernet Forum Technical Specification
MEF8
„„ Supports adaptive clock recovery, differential clock
(common clock) (using RTP)
„„
„„ Embedded Web Server and SNMP Agent
1G t
Etherne
L
IP = 10.0.1.2
t
x Farns et
16 h
e
Et
5.2)
x E1 (V
t
as
x F et
16 ern
h
Et
KTG
IP = 10.0.1.1
1G
Ethernet
MSAN
Ethernet IP
METRO Ethernet
MPLS
AD
/SH SL
DS
L
Residential User
`
Residential User
E-Commerce
PHONE - GSM
PDA - GPRS
et
rn
he
Et
S7)
.2)
(V5
E1
(S
E1
Lx
Kx
1G
IP = 10.0.1.3
KTG
PHONE - GSM
E1
BTS
BSC
TDM
CO Switch
`
g
alo
An SL
/AD
ISDN BRA
/ADSL
K x E1 (SS7)
KTG
Soft
Switch
alo
g
„„ Compliant with:
An
„„ Lost/misordered packet compensation
N
D
IS RA
B
Private line/toll bypass via Ethernet MAN
„„ TDM PBX migration to Ethernet MAN
„„ In access networks KTP typically finds application
as Multi Tenant Multi Dwelling Unit MTU/MDU
„„
„„ Recovered clock jitter and wander compliant to
ITU-T G.823, G.824 synchronization interface
Analog
TDM services over Ethernet MAN, broadband
wireless, CATV
„„ 2G / 2.5G cellular backhaul over IP/MPLS
„„ HDLC-based traffic (ex. Frame Relay) trunking
over IP/MPLS
„„ PSTN-IP network bridging
„„ SS7 transport over IP
„„ In enterprise applications KTG is suitable to be
used for:
„„
„„ Multiprotocol encapsulation supporting IPv4,
IPv6, UDP, RTP, L2TPv3, MPLS and Metro Ethernet
E1
„„ In carrier network KTG typically finds applications
for:
„„ One electrical Fast Ethernet 10/100 BaseTx and one
optical Fast Ethernet 100 BaseFx interfaces, two 1G
electrical and one 1G optical Ethernet interfaces
nx
Besides TDM traffic transmission over IP based
networks KTP provides many value-added functions
in order to meet different customers needs including
different network management capabilities, traffic
protection, synchronization etc.
I - interface:
X - X21/V.11 codirectional or contradirectional
n x 64 kbit/s over IP
V - V.35
N - NRZ, NATO, 75 Ω, n x 64 kbit/s over IP
E1 - E1 over IP
2E1 - 2 x E1 over IP
4E1 - 4 x E1 over IP
E3 - E3 over IP
P - power option:
D - 48 Vdc desktop unit
N - 220 Vac with external AC/DC adapter
R - card - rack version
S -encryption option:
- no encryption
S
- with encryption
PHONE - GSM
KTG INTERFACE CONVERTOR SERIES TDM over IP
Applications
PHONE - GSM
65
GMC-2U
Unmanaged Gigabit
SFP Media Converter
„„ Configurable Link-Fault-Pass-Through and
fiber auto/force mode
Access Systems
„„ 8192 MAC addresses
66
„„ Supports 802.3/802.3u/802.3ab/802.3z/802.3x.
Auto-negotiation and Auto MDI/MDIX.
„„ Full wire-speed forwarding rate
„„ Supports 10k Jumbo packet size
„„ Suitable for traffic control and industrial
applications in hazardous environment
Introduction
IRITEL GMC-2U Hardened SFP Media Converter
provides solution for rugged environments,
transportation road-side cabinets, industrial shop
floors, multi tenant dwellings or Fiber To The
Home (FTTH) applications. Capable of operating at
temperature extremes of -20°C to +60°C, this is by far
the media converter of choice for harsh environments
in which space constraints exist.
„„ Fiber Mode-Conditioning
Gigabit Fiber Mode-Conditioning and/or extend
the network distance between two twisted
pair Gigabit Switches and optical Gigabit
Switches/File Servers.
„„ Connect copper port
Plug RJ-45 jack
„„ Connect optical port
„„
Use SFP transceivers supplied by IRITEL or other
manufacturers of MSA compliant SFPs.
„„ Insert 1G SFP module into the cage.
„„ Plug optical connector into the SFP.
Supports Desktop, DIN-Rail, Panel, or Rack Mounting
installation
The hardened media converter is a plug-and-play
compact media converter which doesn’t have any
complicated software to set up.
„„ Network distance extension
Extend the network distance between two
twisted pair Gigabit Switches and/or a Gigabit
File Servers with 1000 Base-T interfaces.
Connecting Ethernet Ports
„„
Plug-and-Play Solution:
Applications
Technical data
Specifications
Applicable Standards
Fixed Ports
Speed
10Base-T
10Base-TX
1000Base-T
1000Base-SX/LX/BX
Cable 1000Base-T
Fiber 1000Base-X
LED Indicators
Multi mode
Single mode
Per unit
Fiber port
Copper port
Dimensions
Width
Depth
Height
Weight
Power
Power Consumption
Operating Temperature
Storage Temperature
Humidity
DC Jack
Max. Current
IEEE 802.3 10Base-T
IEEE 802.3u 10Base-TX
IEEE 802.3ab 1000Base-T
IEEE 802.3z 1000Base-SX/ LX/ BX
One copper port, one fiber port
10/20Mbps for half/full-duplex
100/200Mbps for half/full-duplex
2000Mbps for full-duplex
2000Mbps for full-duplex
4-pair UTP/STP Cat. 5 up to 100m
50 or 62.5μm
9 or 10μm
Power Good (PG)
Link and Activity (LINK/ACT)
Link and Activity (LINK/ACT)
Speed 10/100/1G (SPEED)
78mm
27mm
120mm
220.5 gr
5VDC, External AC/DC reqired
0.88A
3W
-20°C ~ 60°C
-40°C ~ 85°C
5 ~ 95%, non-condensing
67
KFE
68
Ethernet Access and Managed Interface Converter Series
Access Systems
INTERFACE CONVERTOR SERIES
Ethernet over TDM
„„ Ethernet over TDM Bridge
„„ Provides connection of remote LAN networks with
Ethernet 10/100 BaseTX or 100 BaseFX interface via
PDH/SDH telecommunication network
„„ Different TDM interface support:
„„ G.703, E1, E3, DS-3, OC-3, V.11, V.35, NRZ
„„ SHDSL, SHDSL.bis compliant to EFM applications
„„ Embedded Web Server and SNMP Agent
„„ Optional AES 128/192/256 Encryption of TDM Stream
„„ For traffic control at
Ordering codes
KFE devices enables connectivity of different
equipment with Ethernet interface by utilizing
existing TDM or copper infrastructure.
Big junctions, crossroads
„„ Bridges and tunnels
„„ Crowded roads
„„ Highways
„„ In special systems requiring data encryption
KFE- I - P - S
I - interface:
X - Ethernet over X21/V.11 codirectional or
contradirectional n x 64 kbit/s
Interface converter KFE basically performs L2 (layer
2) Ethernet Bridge/Switch functionality thus making
them transparent for all higher layer protocols.
KFE devices in both, public and private networks,
typically find applications for:
„„ Remote LAN segments connection
Campus
„„ Corporate
„„ Interbuilding
„„ Subscriber connection to Internet Service Provider
„„
ISP hosting
„„ Remote terminal connections.
„„
Point of Sell, POS, and info terminals
„„ Automated Teller Machine (ATM)
„„ Electronic payment systems, parking, pay tool…
„„ Remote video surveillance
„„
Schools, universities
„„ Stadiums or sport arenas
„„ Cultural and other public institutions, museums,
„„ Galleries
„„ Warehouses, shopping centres
„„ Process control in private in public utility
companies
„„
„„
„„
„„
Railway
Distribution and transmission of electricity
Oil and gas utilities
„„
„„
„„
„„
Army
Police
Government institutions and agencies
V
- V.35
N
- Ethernet over NRZ, NATO, 75 Ω, n x 64 kbit/s
E1
- Ethernet over E1
E3
- Ethernet over E3
2E3 - Ethernet over 2 x E3
Basic functions
S1
- Ethernet over one copper pair
„„ Enable transparent Ethernet service over
TDM/copper infrastructure
S2
- Ethernet over 2 copper pairs
S4
- Ethernet over 4 copper pairs
„„ At Ethernet side there are two ports: electrical
10/100 BaseTX interface and optical 100 BaseF
interface
„„ Electrical Ethernet interfaces are half/full duplex
with auto negotiation procedure which define the
type of interface 10 or 100 Mbit/s
„„ Interface Convertors are transparent for all higher
order protocol (TCP-IP, XNS, ISO,...)
„„ V L A N c a n b e co n f i g u re d fo r a ny p o r t
independently
„„ Support for QoS priority choice according to the
port or IEE802.1p
„„ Synchronization: local clock or external clock from
received signal
„„ Optional AES 128/192/256 Encryption of TDM
Stream
„„ Loop test possibility
P - power option:
D - 48 Vdc with external DC/DC adapter
N
- 220 Vac with external AC/DC adapter
R
- card - rack version
S -encryption option:
- no encryption
S
- with encryption
KFE INTERFACE CONVERTOR SERIES Ethernet over TDM
Applications
69
KG
70
Ethernet Access and Managed Interface Converter Series
Access Systems
Universal TDM, E1 interface converter platform, fractional multiplexer, cross connect
device with exchangeable user interface module and optional built-in AES encryption
„„ Device enables user to connect their equipment over
exchangeable user interface module via TDM E1 based
telecommunication network
„„ Built in non blocking cross connect enables easy and cost
effective add-drop of user interface traffic over spare, non used,
E1 time slots with minimum delay including CAS signalling
„„ Basic Features:
„„ 2 Е1 framed or non framed interfaces.
„„ 1 factory exchangeable user interface module with
different number and/or interface types
„„ Non blocking cross connect between E1 links and user
interface modules including CAS signaling, where applicable
„„ Different user interface modules with: X.21/V11, V.35,
NRZ/NATO, RS232 synchronous and asynchronous interfaces
„„ Embedded Web server for local managamnet
„„ Embedded SNMP agent for TMN application
„„ Optional AES 128/192/256 encryption of user interface data
Ordering codes
KG Series Interface Converter is usually used for
connecting different devices through a transport TDM
digital network that is based on the E1 interface.
„„ The device convert user signal from removable
interface modules to E1 signal in one of two E1
network interfaces and vice versa
In public and private telecommunication networks
KG Series typically finds application for:
„„ Е1 links can be configured to work in framed and
unframed mode
„„ Connecting remote LAN segments
„„ Maximum conversion speed in unframed mode is
2048 kbit/s
KG-I-P-S
I - Digital Interface:
E
– Ethernet
X
– X.21 codirectional or contradirectional
V
– V.35
R/2R – 1/2 x RSR232 asynchronous and
synchronous
N
– NRZ/NATO, 75/50 Ω
C/2C – 1/2 x G.703 codirectional
DIO – 8 digital inputs / outputs
- Analog interfaces:
FXS – analog telephone, user side
FXO – analog telephone, exchange side
E&M – 2w/4w analog exchange side
AIO – 8 analog inputs / outputs
P - Power Option
D
– 48 Vdc with external DC/DC adapter
N
– 220 Vac with external AC/DC adapter
R
– card - rack version
S - Encryption Option
– no encryption
S
– with encryption
„„ Connecting users to ISP
„„ In framed mode it is possible to perform the capacity allocation of user signal from removable
module to one of the E1 network interface in 64
kbit/s steps
„„ Connecting remote terminals
„„ Remote video surveillance
„„ Industrial process control.
„„ Traffic control.
„„ SCADA systems
„„ In special service networks which requires data
encryption.
„„ Unassigned capacity of E1 link can be mutually
cross-connect or unlocated E1 link can be used
as a protection link (1+1)
„„ Advanced fault diagnosis (loop test, integrated
BER tester) of E1 and user interfaces
„„ The device can be synchronized from received E1,
external reference or from received signal of user
(synchronous serial) interface
Video
Surveillance
RS232
X.21
E1
KG-X
KG-N
Info
terminal
KG-R
E1
NRZ
NATO
„„ Control of remote devices in framed mode;
allocating appropriate capacity of E1 signal to the
system for centralized monitoring
E1
KG-N
E1
KG-X
E1
SDH/PDH
E1
network
„„ Content from the user interface can be encrypt
or decrypt before mapping to the desired E1
direction
NRZ
NATO
KG-R
E1
„„ The desktop version of the device can be used
independently as an interface converter
X.21
RS232
Server
E1
E1
LAN
V.35
KG-V
Router
Switch
KG-V
Switch
V.35
Router
LAN
„„ In board version of the device can be used as an
independent interface converter, or as a part of
fractional multiplexer, which in itself combines
multiple interface converters with an appropriate
user interfaces
„„ Centralized monitoring and supervision based on
the standard packet protocols, SNMP, HTTP, ICMP...
multiplexer, cross connect device and optional AES encryption
Basic features
KG Universal TDM, E1 interface converter platform, fractional
Application
71
SMH884 - FPX
72
Managed Ethernet Switch Series
Access Systems
High Performance, 20 port, PoE enabled L2/L3 Fully Managed Ethernet Switch
with Fast Hardware based Failover on Optical Links
„„ Provides 8 electrical Ethernet 10/100 BaseTX,
8 electrical PoE 10/100 BaseTX and 4 Optical SFP
100 BaseFX interfaces
„„ Provides up to 125 W of power and automatic
sensing and power consumption classification for
8 remotely powered devices (PD), 15.4 W per port
„„ Optical SFP 100 BaseFX interfaces can be
configured to work in pure hardware controlled,
1+1 protection mode, thus enabling fast,
less than 50 ms, traffic restoration
„„ Compliant with IEE802.3, IEE802.3u and
IEE802.3af standards
„„ Performs wire speed Ethernet Switching function
between all user ports, Ethernet 10/100 BaseTX
and 100 BaseFX
„„ Traffic protection through STP, RSTP and
MSTP protocol
„„ Class of service (CoS) with 4-level priority queuing
„„ Full duplex, Half duplex Flow Control
„„ Automatic address learning, address aging
and address migration
„„ Static MAC address filtering, MAC address management
„„ Up to 12 K MAC address space
(different MAC addresses)
„„ Storm control, broadcast and multicast flooding
„„ GARP VLAN registration protocol (GVRP)
„„ Port trunking support, Link Aggregation Group (LAG)
„„ Software/Firmware field upgrade support,
gold configuration backup and restore
„„ SNMP1/2 based network management interface
„„ Management thought Embedded Web Server
accessible via standard WEB browser
„„ User name and password based security
„„ 19” Rack and Desktop mountable metal
housing, IP30 protection
„„ Rear access to all user connectors, LED
indication at front panel of device
„„ External input and output alarm contacts
„„ Extended temperature and tropicalized interior
against excessive humidity
„„ Redundant DC 48V power supply option
T echnical data
Ethernet Interface
According to IEEE 802.3 Ethernet 10/100Base-TX:
Interface type
Electrical characteristics
Transfer Range(UTP CAT5)
Isolation
Connector
duplex
IEEE 802.3
symmetrical
135 m
1500 Vrms/50Hz/60s
according to IEC EN 60950
standard RJ45
Power over Ethernet:
Power delivery mode
Power range
Maximum delivered power
Maximum power at PD
Maximum current
Maximum cable resistance (CAT 3
Voltage Range
Mode A, phantom
Type 1
15.40 W
12.95 W
350 mA
20 Ω
7.7 nm (RMS)
PINFET
Max -28 dBm
14 dB
Min -8 dBm
15 km
SFP Plug in Tranceiver Type 2
OI.S1A
Connector type
LC
Transmitter type 1310 nm FPLD
Output power
-5 to 0 dBm
Maximum spectral
width of the optical tranceiver
4 nm (RMS)
Receiver typePINFET
Guaranteed sensitivity of
the optical receiver
Max -34 dBm
Optical budget
29 dB
Maximum level of the
input signal
Min -10 dBm
Section length
40 km
PoE IP Camera
44 - 57 V
Alarm Interface
Input
Activation current
Maximum current
Maximum voltage
5 mA
30 mA
70 V
Output
Maximum current
Type
Maximum voltage 0.5 A
Relay
110 V
Power
DC Power Supply
Dissipation (PoE not included)
up to 12 W
Environment conditions
Extended operation class
Temperature
Relative Humidity
System Configuration
- 25º tо +60º C
5-95% (non condensing)
1U Metal Case Dimension 440 mm x 257 mm x 43.2 mm
(17.32” x 10.11” x 1.70”)
Case Weight 3.15 kg
Non-PoE Camera
APPLICATION
PoE Splitter
PoE IP Camera
DC
Ethernet 10/100Base-FX:
IP Camera
Transport type
duplex
Electrical characteristics
IEEE 802.3
Transport medium
single mode optical fiber
multimode fiber (option)
PoE IP Camera
PoE
DC
PoE Splitter
IP Camera
PoE
Optical SFP Ethernet interfaces
SFP Plug in Tranceiver Type 1
Connector type
Transmitter type Output power
without PoE 48V (40 ~ 72V)
with PoE IEEE 802.af, 48V (45 ~ 57V)
OI.S1A1
LC
1310 nm FPLD
-15 to -8 dBm
SMH884 - FPX
PoE
PoE IP Camera
PoE
100Base-TX UTP
PC
Campus
DVR
Centre of Surveillance
PoE IP Camera
PoE IP Camera
PoE
100Base-TX UTP with PoE
DC
Power Line (DC)
Managed Ethernet Switch
IRITEL SMH884-FPX is hardened, 20 port, fully Managed,
Power over Ethernet (PoE) enabled, High Performance
Ethernet L2/L3 Switch designed to operate in harsh
environments.
Maximum spectral
width of the optical tranceiver
Receiver type
Guaranteed sensitivity of
the optical receiver
Optical budget
Maximum level of the
input signal
Section length
SMH884 - FPX High Performance, 20 port, PoE enabled L2/L3 Fully
Description
73
MGE41/84/88/168F
L2/L3 Managed Ethernet Switch with 16 x FE and 8 x E1 media converters
„„ Compliant with IEEE802.3, IEEE802.3u standards
Managed Ethernet Switch Series
Access Systems
„„ Up to16 10/100 Mbit/s Auto-Negotiation RJ45
ports supporting Auto-MDI/MDX
„„ Static MAC address and filtering MAC address
management
„„ Static Port Priority and IEEE 802.1p Class of
Service (CoS) with 4-level priority queuing
„„ Up to 8xE1 2048 kbit/s ITU-T G.703 ports with
EoE1 media converters, HDCL encapsulation
„„ Firmware upgrade, gold configuration
backed up and restored
„„ Port-Based VLAN and IEEE 802.1Q tag VLAN
„„ Rack/Desktop - mountable case options
„„ Management through Embedded Web Server
(EWS) which can be accessed via WEB browser
„„ GARP VLAN Registration Protocol (GVRP)
„„ Storm control, broadcast and multicast flooding
„„ Per port ingress and egress rate control
Power LED
8 x Fast Ethernet
IP reset
E1 LED
8 x E1
„„ STP, RSTP, MSTP
„„ Trunking, Link Aggregation Group (LAG)
„„ Test facilities, Virtual cable tester and PRBS BIST
„„ Internal power supply, -48 Vdc or 220 Vac option
Power LED
74
16 x Fast Ethernet
IP reset
E1 LED
8 x E1
Management and Monitoring
16 x Fast Ethernet, electrical interface
WEB
8 x E1, 2048 kbit/s G.703 interfaces
RFC 1157 SNMPv1/v2c
T echnical data
RFC 2570 SNMPv3
RFC1213 MIB-II
Performance
RFC1493 Bridge MIB
Application
Wire speed switching on all Ethernet and E1 ports
RFC 2863 Interfaces group MIB
MGExxxF devices provides edge connectivity
utilizing existing E1 and copper infrastructure,
applicable in midsized and large scaled campus,
corporate and metro access networks, MGExxxF series
especially tailored to provide connectivity and LAN
extensions between numerus remote sites
Store and forward mode
RFC 1643 Ethernet like MIB
Non blocking switch fabric
Stats, History, Alarms, Events
Port speed:
RFC 2674 802.1Q MIB
10/100-TX RJ-45
IP address allocation
E1 2048 kbit/s RJ-45
Security
Management
Management can be performed through an
embedded Web Server (EWS) by using standard
internet browser. The well known WEB interfaces
significantly reduce learning time and minimize the
cost of deployment.
For the Centralized Network Management we offer
embedded SNMPv1//2/3 agent.
Available options
Internal power supply
Interface Standards
802.3 10Base-T & 10Base-FL
Management Security: user name and password
protection
Fault Protection
Broadcast Storm Control
802.3u 100Base-TX
Ingress egress rate control
E1 ITU-T G.703, HDLC encapsulation
Quality of Services (QoS)
General Standards
QoS in layer 2
802.1d Bridging
Traffic prioritization using 802.1p
802.3x Backpressure/ Flow Control
System Configuration
Redundancy Standards
W x D x H 440mm x 257mm x 43.2mm
802.1D Spanning Tree Protocol
(17.32” x 10.11” x 1.70”)
802.1W Rapid Spanning Tree
Weight 3.15kg (6.94lb)
4 x Fast Ethernet, electrical interface
802.1s Multiple Spanning Tree
Mounting 19” rack-mountable hardware included
1 x E1, 2048 kbit/s G.703 interfaces
Link Aggregation, Static port trunk
Power supply
„„ MGE41F
„„ MGE84F
VLANs
8 x Fast Ethernet, electrical interface
IEEE 802.1Q VLAN Tagging
4 x E1, 2048 kbit/s G.703 interfaces expandable with
additional 4 x E1
Port-based VLANs
„„ MGE88F
8 x Fast Ethernet, electrical interface
MAC-based VLANs
GARP VLAN Registration Protocol (GVRP)
Internal – 48 Vdc, or 220 Vac option
Operating temperature range
– 5⁰ C up to +45⁰ C, (class 3.2)
8 x E1 media converters
IRITEL MGExxxF series of High performance Managed
Ethernet Switching devices besides of the true Ethernet access, offers versatile combination of user interfaces integrated together with media converters, thus
reducing the need for external media converters.
„„ MGE168F
MGE41/84/88/168F L2/L3 Managed Ethernet Switch with 16 x FE and
Description
8 x E1, 2048 kbit/s G.703 interfaces
75
MGE168FS
L2/L3 Managed Ethernet Switch with 16 x FE and 8 x E1 media converters with Encryption
„„ Compliant with IEEE802.3, IEEE802.3u standards
Managed Ethernet Switch Series
Access Systems
„„ Up to16 10/100 Mbit/s Auto-Negotiation RJ45
ports supporting Auto-MDI/MDX
„„ Static MAC address and filtering MAC address
management
„„ Static Port Priority and IEEE 802.1p Class of
Service (CoS) with 4-level priority queuing
„„ Up to 8xE1 2048 kbit/s ITU-T G.703 ports with
EoE1 media converters, HDCL encapsulation
„„ Firmware upgrade, gold configuration
backed up and restored
„„ Port-Based VLAN and IEEE 802.1Q tag VLAN
„„ Rack/Desktop - mountable case options
„„ Per E1 port configurable AES128/192/256
encryption module with flexible key and
access management
„„ Management through Embedded Web Server
(EWS) which can be accessed via WEB browser
„„ GARP VLAN Registration Protocol (GVRP)
„„ Storm control, broadcast and multicast flooding
„„ Per port ingress and egress rate control
„„ STP, RSTP, MSTP
„„ Trunking, Link Aggregation Group (LAG)
„„ Test facilities, Virtual cable tester and PRBS BIST
„„ Internal power supply, -48 Vdc or 220 Vac option
Power LED
76
16 x Fast Ethernet
IP reset
E1 LED
8 x E1
Performance
Encryption Standard (AES) provides high
confidence level of data security over public
telecommunication network. Each E1 link at the device
is possible to configure to perform data encryption
with different key length, key management and
key schedule. Encryption procedure includes key
exchange, authentication and user data encryption.
Each phase of encryption procedure uses their own
key.
10/100-TX RJ-45
Application
802.1d Bridging
MGE168FS provides edge connectivity utilizing
existing E1 and copper infrastructure, applicable in
midsized and large scaled campus, corporate and
metro access networks. MGE168FS is especially
tailored to provide connectivity and LAN extensions
between numerus remote sites with encryption.
Wire speed switching on all Ethernet and E1 ports
Store and forward mode
Non blocking switch fabric
Port speed:
E1 2048 kbit/s RJ-45
Internal power supply
Interface Standards
WEB
RFC 1157 SNMPv1/v2c
RFC 2570 SNMPv3
RFC1213 MIB-II
RFC1493 Bridge MIB
RFC 2863 Interfaces group MIB
RFC 1643 Ethernet like MIB
Stats, History, Alarms, Events
RFC 2674 802.1Q MIB
802.3 10Base-T & 10Base-FL
IP address allocation
802.3u 100Base-TX
Security
E1 ITU-T G.703, HDLC encapsulation
General Standards
802.3x Backpressure/ Flow Control
AES:
NIST FIPS197
Redundancy Standards
802.1D Spanning Tree Protocol
802.1W Rapid Spanning Tree
802.1s Multiple Spanning Tree
Management Security: user name and password
protection
Fault Protection
Broadcast Storm Control
Ingress egress rate control
Quality of Services (QoS)
QoS in layer 2
Traffic prioritization using 802.1p
System Configuration
W x D x H 440mm x 257mm x 43.2mm
Management
Link Aggregation, Static port trunk
(17.32” x 10.11” x 1.70”)
Management can be performed through an
embedded Web Server (EWS) by using standard
internet browser. The well known WEB interfaces
significantly reduce learning time and minimize the
cost of deployment.
VLANs
Weight 3.15kg (6.94lb)
For the Centralized Network Management we offer
embedded SNMPv1//2/3 agent.
IEEE 802.1Q VLAN Tagging
Port-based VLANs
MAC-based VLANs
GARP VLAN Registration Protocol (GVRP)
Mounting 19” rack-mountable hardware included
Power supply
Internal – 48 Vdc, or 220 Vac option
Operating temperature range
– 5⁰ C up to +45⁰ C, (class 3.2)
media converters with Encryption
IRITEL MGE168FS high performance Managed
Ethernet Switching device besides of the true Ethernet
access offers versatile combination of user interfaces
integrated together with media converters with
encryption, thus reducing the need for external media
converters.
Management and Monitoring
MGE168FS L2/L3 Managed Ethernet Switch with 8 x FE and 4 x E1
T echnical data
Description
77
MGE88/168G
Stackable Gigabit L2/L3 Managed Ethernet Switch with 16xFE,
4xGE and 8xE1 media converters
Managed Ethernet Switch Series
Access Systems
„„ Up to 4 10/100/1000 Mbit/s Auto-Negotiation RJ45
ports supporting Auto-MDI/MDX, 1 G SFP optional
„„ Up to 16 10/100 Mbit/s Auto-Negotiation RJ45 ports
supporting Auto-MDI/MDX
„„ Up to 8xE1 2048 kbit/s ITU-T G.703 ports with EoE1
media converters, HDCL encapsulation
„„ Stacked devices are fully manageable and behaves
as a single device
„„ Static MAC address and filtering MAC
address management
„„ Static Port Priority and IEEE 802.1p Class of
Service (CoS) with 4-level priority queuing
„„ Firmware upgrade, gold configuration
backed up and restored
„„ Rack/Desktop - mountable case options
„„ Internal power supply, -48 Vdc or 220 Vac option
Power LED
16 x Fast Ethernet
IP reset
4 x 1G Ethernet
78
„„ Port-Based VLAN and IEEE 802.1Q tag VLAN
8 x E1
E1 LED
Application
MGExxxF devices provides edge connectivity utilizing existing E1 and copper infrastructure, applicable
in midsized and large scaled campus, corporate and
metro access networks, MGxxxG is especially tailored
to provide connectivity and LAN extensions between
numerus remote sites. MGxxxG devices are scalable
and they are ideal for extending port count in order
to fulfil network growing requirements.
Management
Management can be performed through an embedded Web Server (EWS) by using standard internet
browser. The well known WEB interfaces significantly
reduce learning time and minimize the cost of deployment.
For the Centralized Network Management we offer
embedded SNMPv1//2/3 agent.
Available options
„„ MGE88G
8 x Fast Ethernet, electrical interface
Management and Monitoring
16 x Fast Ethernet, electrical interface
WEB
8 x E1, 2048 kbit/s G.703 interfaces
RFC 1157 SNMPv1/v2c
2 x 1G Electrical interfaces
RFC 2570 SNMPv3
2 x 1G Optical (SFP) interfaces
RFC1213 MIB-II
T echnical data
Performance
RFC1493 Bridge MIB
RFC 2863 Interfaces group MIB
RFC 1643 Ethernet like MIB
Wire speed switching on all Ethernet and E1 ports
Stats, History, Alarms, Events
Store and forward mode
RFC 2674 802.1Q MIB
Non blocking switch fabric
IP address allocation
Port speed:
Security
10/100-TX RJ-45
E1 2048 kbit/s RJ-45
Internal power supply
Interface Standards
802.3 10Base-T & 10Base-FL
802.3u 100Base-TX
E1 ITU-T G.703, HDLC encapsulation
General Standards
802.1d Bridging
802.3x Backpressure/ Flow Control
Redundancy Standards
802.1D Spanning Tree Protocol
802.1W Rapid Spanning Tree
802.1s Multiple Spanning Tree
Link Aggregation, Static port trunk
VLANs
8 x E1, 2048 kbit/s G.703 interfaces
IEEE 802.1Q VLAN Tagging
2 x 1G Electrical interfaces
Port-based VLANs
2 x 1G Optical (SFP) interfaces
MAC-based VLANs
GARP VLAN Registration Protocol (GVRP)
Management Security: user name and password
protection
Fault Protection
Broadcast Storm Control
Ingress egress rate control
Quality of Services (QoS)
QoS in layer 2
Traffic prioritization using 802.1p
System Configuration
W x D x H 440mm x 257mm x 43.2mm
(17.32” x 10.11” x 1.70”)
Weight 3.15kg (6.94lb)
Mounting 19” rack-mountable hardware included
Power supply
Internal – 48 Vdc, or 220 Vac option
Operating temperature range
– 5⁰ C up to +45⁰ C, (class 3.2)
16xFE, 4xGE and 8xE1 media converters
IRITEL MGExxxG series of High performance Managed Ethernet Switching devices besides of the true
Ethernet access MGExxxG offers versatile combination
of user interfaces integrated together with media
converters thus reducing the need for external media
converters. Stacked switches behaves as larger switch
managed as a single device.
„„ MGE168G
MGE88/168G Stackable Gigabit L2/L3 Managed Ethernet Switch with
Description
79
SUNCE+
Network Management System
Network Management System
80
„„ Continuous hierarchical management of complex
networks, subnetworks, stations, and devices
„„ Service and network monitoring
„„ Operation and maintenance tool, essential for
network design
„„ Enables evolutionary network management
redesign
„„ OSS/BSS system integration
SUNCE+
SUNCE-M
SUNCE-M
SUNCE-M
Applications
Module Remote Access
Module Performance
„„ Enables integration of all IRITEL transmission
systems
„„ Remote access to SUNCE-M system, with local
operator rights
„„ Provides service availability information on
selected customer
„„ Integration of all elements in network or their
subset
„„ View or change network element parameters and trail
management in network
„„ Presents information on point to point free
transport capacity
„„ Network topology is presented in hierarchical tree
view, from a sub-network layer to a single location
and elements in it
Integration
Module Accounting
„„ Integration with OSS/BSS system (Northbound
interface)
„„ Provides services remuneration through access to
accounting data
„„ Direct access to new device types through
Southbound interface
ITU-T Recommendations
„„ Client-server architecture enables multi-user
access
„„ Distributed hardware platform
„„ Operations on IRITEL OTN, SDH and PDH network
elements
„„ Distributed hardware platform, depending on
number and complexity of managed systems
„„ M series: M.3010, M.3300, M.3400
„„ Open management interfaces: SNMP, XML...
Module OTN
„„ Network management system for IRITEL OTN
devices
Module Inventory
„„ Automatic database failover
„„ Collecting service data from network elements
„„ Web browser for application access, over LAN or
VPN
„„ Device reports and statistics (unit types, hardware
and software versions...)
System
Integrator
„„ FCAPS management functions (Fault, Configuration,
Accounting, Performance, Security)
client
„„ Monitoring of current network state and its history
client
„„ Monitoring user actions in SUNCE+
Base Module
„„ Enables database integration, access using
Web browser and system administration. Other
functions are supported in separate modules.
SUNCE+
client
SUNCE-M
SUNCE-M
S622
OD
OLM
FM-MSAN
S622
OD
OLM
S622
OD
Module Alarms
„„ Presents filtered set of current alarms on
hierarchical levels
client
client
client
S2G5
OD
S2G5
OD
P10 G
OT
P10 G
OT
FM2x2
S2G5
OD
P10 G
OT
SUNCE+ Network Management System
„„ Fast identification of network resource problems
improves quality of service
„„ Monitoring of predefined set of alarms
„„ Reports of any subset of alarms are generated
from history log
81
SUNCE-M
Network Management System
Integrated Network Management System
82
„„ Management system covering the full range of
IRITEL SDH and PDH equipment
„„ Easy to use – from network views to functional
blocks on a single board
„„ Trail manager featuring automatic route calculation
Basic Functions
„„ Integrated solution for continuous centralized
monitoring of the entire network and individual
network element
D S 2 G5
STM-16
O
S 62 2
OT
„„ The computer in Management Operations
Center is connected to one network element using
Ethernet or RS232 serial interface (F interface)
OD
KGXV
„„ Optical Terminal and Secondary Multiplexer OTSM
4x2Mbit/s
„„ Interface Convertors:
KGXV, 2 Mbit/s G.703 to X.21/V.35 and KGET,
KGET8, 2 Mbit/s G.703 to Ethernet
KGET/8
LTH-E1
OTSM
Multiservice Access Node
„„ Access Systems: FM-MSAN, IP µDSLAM,
IAM-MSAN, V5CAS and FM2x2
„„ DSL modems: PSH (SHDSL) and LTH-E1 (HDSL)
LAN
S6 2 2
IAM-MSAN
Each network element is equipped with System
Management Unit that exchanges information
with SUNCE-M. Supported products in Network
Management System:
„„ SDH (STM-16/4/1) Optical Digital Systems:
ODS2G5, ODS622/ODS622C, OTS622, ODS155
D S 2 G5
SDH Optical Ring
„„ Provides integration in Network Management
System SUNCE+
V5.2
D S 2 G5
OTSM
LTH-E1
PSH
LAN
FM-MSAN
FM2x2
FM-MSAN
PSH
SUNCE-M Integrated Network Management System
O
SUNCE-M
„„ Provides functions of Network Management
Layer and Element Management Layer of the TMN
functional architecture
Network Elements
D S 2 G5
TCP/IP
O
„„ Enables TMN (Telecommunications Network
Management) management functions – fault,
configuration, per formance and security
management
O
„„ Intuitive Graphical User Interface facilitates a
range of operations, from network view and
containment tree view, to functional blocks on a
single board
83
Fault Management
Alarm reports from each of the network elements are
received automatically and displayed as visual and
textual information
SUNCE-M Integrated Network Management System
„„ Alarms classification:
„„ Communication alarms
(transmission and synchronization)
84
„„
Performance alarms
„„
Equipment alarms
„„ Alarm summar y is available on various
layers - from network element to equipment
functional blocks
„„ Assign alarm severity
„„ Acknowledge active alarms
„„ Testing:
„„ Close local and remote loops on various levels
„„
Configure PMP (Protected Monitoring Point)
„„
Use built-in PRBS generators and detectors
„„ Fault event history for the entire network is
stored in database, with filtering options for any
set of network elements categorized by type of
network element, time, classification, severity,
acknowledgement and status of the event
Configuration Management
„„ Create and change network topology using visual
network editor
„„
Create and delete network elements
„„
Connect elements using optical and electrical
links
„„
Elements can be grouped upon their location
„„ Edit network element properties
„„
Network parameters
„„
Module equipping
„„
Synchronization parameters
„„
Cross-connections
„„
Quick configuration using configuration files
„„ Trail manager with complete trail lifecycle
management:
„„ Simple point and click to create, change and
delete trails
„„
Automatic calculation of possible trail routes
between network elements
„„
Visual presentation of existing trails in network
topology view
„„ Inventory management capabilities include:
„„ Tributaries - configuration and services
„„
Network status
„„
Serial numbers, hardware and software
versions
Performance Management
Security Management
„„ Analyze and aggregate network performance data
on a per network element basis
„„ Collect performance events grouped in 15 minutes
and 24 hours intervals according to ITU-T G.826
„„ User-based security model
ES – Errored Seconds
„„
SES – Severely Errored Seconds
„„
BBE – Background Block Error
„„
UAS – UnAvailable Seconds
„„ User data editing (add, delete, change)
„„ Review of user actions log with filtering
„„ Adjust performance alarms thresholds
„„ Examine UAT (UnAvailable Time) intervals
T E C H N I C A L D ATA
System requirements
Operating System
RAM
Free Hard disk capacity
Windows 8
Windows 7
Windows Vista
Windows XP
2 GB (4 GB recommended)
> 1 GB
ITU-T Recommendations
G series
M series
G.781, G.783, G.784, G.826, G.841
M.3010, M.3300, M.3400
SUNCE-M Integrated Network Management System
„„
„„ Role based user access control
85
SIPDAT
SIP Interactive Voice Response Device
„„ IVR (Interactive Voice Response)
„„ PC in local network
INTERNET
„„ SIPDAT “speaks” your data
Router
„„ Great capacity of concurrent calls
(default 8, up to 64)
VoIP Devices
PSTN
„„ SIPDAT is accessible through
PSTN and Internet
Proxy,
Firewall
SIPDAT
„„ Easily changeable voice messages
IRIS
„„ Easy programming
Gateway
„„ Remote access
FXO
„„ Tailored to customer needs
IRINET
ippbx
SIP 1
PC n
PC 1
SIP 2
PBX
IRISIPNET
PC 2
PDA
PC m
PC n+1
86
LET YOUR DATA SPEAK !
„„
„„
„„
„„
„„
„„
Automatic reading of storehouse data over
phone
Public information on changeable data
(temperature, exact time, number of cars on
the road section, ...)
Private data with authorisation (credit card
balance, personal documents, ...)
Hosting
„„
SIPDAT Customers
„„
„„
„„
„„
„„
„„
„„
„„
Telecommunication providers
Government institutions and agencies
Power plant companies
Banks and other financial institutions
Trade organizations
Any company which needs:
„„ Fast and cheap access to
important data,
„„ Surveillance of automated
processes,
„„ Control of unattended objects
„„
„„
„„
SIPDAT test configuration in IRITEL
INTERNET
„„
„„
„„
„„
„„
„„
Web server
Web browser access
Configuration data:
„„ Recording and playing of messages
„„ SQL query input
„„ Administration
Supervision
SIPDAT in IRITEL
„„
Router
„„
„„
Proxy,
Firewall
SIPDAT
IRIS
„„
SIP RFC 3261
SDP RFC 4566
Other references: RFC 2617, RFC
2976, RFC 3262, RFC 3263, RFC
3966,….
Oracle data base client
„„ MySQL data base client
„„ Remote data base access
„„ Remote SQL query formatting
Remote SIPDAT configuration
„„
PSTN
Voice messages:
„„
Data base access
„„
Basic features
Easy recording – wav format
„„ Correct pronunciation of data
(grammar)
„„ Us e r c a n r e co r d h is ow n
messages
Communication:
Families of codecs (G.711, Speex, GSM, L16)
Various improvements:
„„ Voice Activity Detector (VAD)
„„ Comfort Noise Generator (CNG)
„„ Perceptual Enhancement (PENH)
„„ Packet Lost Concealment (PLC)
„„ Echo cancelation
SIPDAT can be reached from public and mobile
telephone networks
Conference
Recording and playing of speech
RTP and RTCP
Security – SRTP and SRTCP
Tone generation
Gateway
FXO
IRINET
ippbx
SIP 1
PC n
PC 1
SIP 2
PBX
PC 2
Voice
PC m
PC n+1
If you want to test SIPDAT in test
configuration in IRITEL please
contact: Ivan Vidaković
Phone: 381 11 3073 412
Mob: 381 65 3073 412
IRISIPNET
PDA
Data
Oracle client – connected with IRIS
(information system)
SIP client connected with ippbx
(SIP server)
Accessible from IRINET (LAN),
Internet, PSTN and PLMN
Reading of any data from IRIS, for
instance:
„„ Number of a certain component
in storehouse
„„ Number of employees in the
company at the moment
Mail: ivica@iritel.com
sip: 712@ippbx.iritel.com
712@193.203.19.248
SIPDAT SIP Interactive Voice Response Device
Using SIPDAT
87
IMG
Media Gateway
„„ VoIP – TDM to IP telephony switch
„„ Up to 200 simultaneous VoIP-POTS conversions
for 2400 subscribers
„„ Stand-alone device or part of Access Multiplexer
VoIP Devices
„„ Signalization: SIP or MEGACO (H.248)
„„ Network management system SUNCE-M or
SNMP-based management
TDM
ISDN
POTS
n x E1
Acc
ess
TDM
CA
S)
1/
(E
M E1
nx
TD
Mul
tipl
exe
r
(H.1
10)
TDM Switch
IMG
Media Gateway
48/
IP
SoftSwitch
SIP
/RT
CP
RTP
R
TDM Switch
SIP
8/
24
H.
H.2
Router
RT
P/R
TC
P
R
Router
R
CORE
Router
R
Router
R
Router
88
„„ IMG connects POTS subscribers with IP network
by transforming classic telephone traffic to VoIP
and vice versa
„„ IMG can be realized as a stand-alone device or
as a unit of Integrated access multiplexer Access
Multiplexer
„„ Access Multiplexer enables different subscribers
(POTS, ISDN, xDSL, Ethernet, X.21, V.35...) to access
PSTN and IP networks
Configuration
IMG consists of Engines – software units that can be
executed on different hardware platforms and are
connected by UDP/TC/IP protocols. This organisation
enables big flexibility and skalability.
IMG contains:
„„ ME (Media Engine): is working on voice
coding/encoding
„„ SE (Signalization Engine): is dealing with
signalization
„„ AE (Application Engine): controls software
applications and functions
„„ TE (TDM Engine): is dealing with POTS
When IMG is a part of Access Multiplexer it
cantains ME, SE and AE, and TE functions are
performed by Access Multiplexer
T echnical data
Voice packetisation
Voice coders/encoders
G.711 Appendix 1 and 2: Linear PCM 64 kbit/s
A law/μ law, VAD/CNG, and PLC
G.723.1: MP-MLQ 6.3 kbit/s / ACELP 5.3 kbit/s
G.726: ADPCM 16, 24, 32, 40 kbit/s
G.729 A/B: CS-ACELP 8 kbit/s
GSM-AMR: 4.75-12.2 kbit/s
T.38 Fax Relay: G3 Fax Relay 2.4-14.4 kbit/s
SMV: 0.8-8.55 kbit/s
EVRC: 0.8-8.55 kbit/s
Voice processing, quality enhancements
Echo cancelation: per ITU-T G.168-2000 ECAN
10 ms, 16 ms, 32 ms, 128 ms tail sparse window
Voice detection: analyzes voice activity to detect
silence intervals
Packet Loss Concealment: per ITU-T G.711 Appendix 1
Comfort Noise Generation: per ITU-T G.711 Appendix 2
Adaptive Jitter Buffer Manager: fully adaptive or
static; de-jitter and packet reordering
Audio Conferencing: support for 3 to N party audio
conferences per DSP core
Prompts: playback of prompts from local memory
Telephony Algorithms
DTMF Detect and Generate: per Bellcore GR-506CORE, TIA 464-B, ITU-T Q.23 and Q.24
DTMF Relay: per RFC 2833
Call Progress Tone Handling:
per Bellcore GR-506-CORE, ITU-T Q.35
Caller Identification:
per ETSI, NTT and Telcordia algorithms
DSP data transfer
RTP/RTCP: per RFC 1889 and 3550
UDP: per RFC 768
IP: per RFC 791
Signalization
SIP: per RFC 3261
SDP: per RFC 2327
MEGACO: per RFC 3525 – option
Capacity
IMG can handle up to max. 200 simultaneous VoIP
connections
TDM H.110 bus capacity (IAM-MSAN) is 2400
subscribers
IMG has: 2 x 10/100 BaseTx interfaces
IAM-MSAN supports up to 6 IMG Media Gateway
Software
Operating system: eLinux (Freescale)
Applications: written in C
Hardware
Processor Power PC II MSC8260
VoIP cores 1 to 2 x DSP MSC8122
Aggregator: DSP MSC 8103
SDRAM 64 MB, FLASH 64 MB
Digital Switch: MT90866
Ethernet Switch: ZL50405
IMG Media Gateway
Implementation
89
IMG95
VoIP IVR
„„ First VoIP device belonging to a family of IMG
devices developed by IRITEL for use in
NGN (Next Generation Network)
VoIP Devices
„„ Used to support service 95 (exact time
speaking service) in Telekom Srbija
„„ Contemporary IVR (Integrated Voice Response)
system with adequate number of voice channels
(VoIP channels to IVR channels ratio is 1:1)
S TV
„„ Connected to NGN via SIP protocol
IP/ MP LS
PS TN
IMT
S BC
IMG 95
S IP
S IP
ROUTER
switch
LN
R TP
S IP/ R T P
MG W
SS7
S IP/ R T P
IMG 95
T C P/ IP
switch
T C P/ IP
ROUTER
IT
NU (O&M)
90
Interfaces:
FE
GE
Optical
Z
NT P S E R V E R
„„ Media transfer is performed using
RTP/RTCP protocol
„„ Exact time is established using NTP protocol
T echnical data
Configuration
Basic references and standards
Exact time speaking function is supplied by Exact Time
System – STV which consists of two IMG95 devices
and two switches connected in order to increase the
reliability of a system.
SIP/SDP:
Traffic
RFC 3261 - SIP: Session Initiation Protocol
RFC 2327/4566 - SDP: Session Description
Protocol
RFC 2617 - HTTP Authentication: Basic and Digest
Access Authentication
RFC 3310 - Hypertext Transfer Protocol (HTTP)
Digest Authentication Using Authentication and
Key Agreement (AKA)
Media flow
Number of VoIP channels
STV is maintained by computer NU from IT
network.
IMG95 contains printed boards:
„„ IMG – basic board with embedded Linux
„„ PFC – DSP processors for voice packing
„„ VMU – voice machine unit
Operation and maintenance
Operation and maintenance is performed by
computer NU from IT network.
NU functions are:
„„ Statistics – data on number of calls, duration, etc.
is gathered every 15 minutes
„„ Alarms – heavy, medium and light alarms are
gathered and displayed
„„ Archives – all gathered data are archived in daily
reviews (15 min. statistics, from-until statistics,
alarms)
„„ Web – IMG95 devices have their own web pages
with configuration data
„„ Docs – help documentation
„„ NU transfers data to higher level of hierarchy by
ftp protocol or writes them in database using SQL
language
RFC 3550 - A Transport Protocol for Real-Time
Applications
RFC 2833 - Telephony Signals
RFC 3605 - Real Time Control Protocol (RTCP)
attribute in Session Description Protocol (SDP)
Codec’s:
G.711 App. 1 & 2 - Linear PCM 64 kbps
A Law/μ Law, VAD/CNG, and PLC
G.729 A/B - CS-ACELP 8 kbps
ITU-T G.168-2000 - Echo cancelation -ECAN
10 ms, 16 ms, 32 ms, 128 ms window
Other:
RFC 791 - Internet protocol
RFC 768 - User Datagram Protocol
RFC 1305 - Network Time Protocol: Specification,
Implementation and Analysis
120 (up to 200)
BHCA - Busy Hour Call Attempts
around 10.000 (17.000)
Connection to IP/MPLS network
4 x 100 BaseTx Fast Ethernet IEEE 802.3μ
Codec’s
G.711, G.729
VQE – Voice Quality Enhancements
EC, VAD, PLC, CNG,AJBM
Power supply internal converter 220 V~ to 48V=
Dimensions
rack 19’’ wide, 1 U high, 300 mm deep
Weight
around 2 kg
IP/MPLS network connections:
„„ ETH – IT network connection (maintenance, ntp)
„„ SIGN – SIP signalization
„„ DATA – RTP/RTCP media transfer
„„ VMU – voice machine unit control
VQE techniques are:
„„
„„
„„
„„
„„
EC – echo cancelation
VAD – voice activity detection
PLC – packet loss concealment
CNG – comfort noise generation
AJBM – adaptive jitter buffer manager
IMG Media Gateway
STV is working in active/stand-by mode and fulfils
the “no single point of failure” criteria.
86 Erl (up to 147 Erl)
91
CJ-1P
Cellular Jammer
Radio Communications
„„ High quality jamming equipment for mobile
communications
92
„„ Blocking up to three frequency bands simultaneously
GSM 900, GSM 1800 and UMTS
„„ Various applications
„„ Compact and modular design
CJ-1P is a high quality jamming equipment for
mobile communications. The CJ-1P cell phone
jammer unit is intended for blocking all mobile phone
types within designated indoor or outdoor areas. Its
unique design combines effective jamming and strict
compliance with international standards of safety and
electromagnetic compatibility.
CJ-1P is a ‘plug and play’ unit, its installation is
quick and its operation is easy. Once the CJ-1P cellular
jammer is operating, all mobile phones present within
the jamming coverage area are blocked, and cellular
activity in the immediate surroundings (including
incoming and outgoing calls, SMS, pictures sending,
etc.) is jammed.
Prisons
„„ Conference rooms
„„ Embassies
„„ Government facilities
„„ Financial institutions
„„ Sensitive locations, churches, faculties
„„ Acoustic isolation:
„„
Theatres / cinemas
Concert halls
„„ Lecture rooms / libraries
„„ Exclusive restaurants
„„ Trains
„„ Gaming facilities
„„ Sensitive locations
„„ Secret services
„„
„„
„„ Government agencies
Basic features
„„ Police Negotiation Team
„„ Fully digitalized
„„ Military facilities and forces
„„ Effective jamming in a radius between 5-100 meters
(depending on cellular signal strength at site)
„„ Police Special Forces
„„ Can block up to three frequency bands
simultaneously GSM 900, GSM 1800 and UMTS
„„ Elite units
„„ Remote controlled
„„ Blocking range selection
„„ Can be operated via 12 Vdc power source
Applications
„„ Prevention of eavesdropping and information
transfer:
„„
„„
„„
Briefing rooms
Military and governmental offices
Interrogation rooms
„„ VIP protection agencies
T echnical data
Frequency ranges:
GSM 900
925 - 960 MHz
GSM 1800
1805 - 1880 MHz
UMTS
1920 - 2170 MHz
Synthesizer typedigital
Jamming signal type
white noise with
uniform distribution
Output power
ON/OFF possibility and adjustable
0 - 30 dB for every band independently
Resolution output power
1 dB
Antenna system
three PCB antennas
Frequency ranges:
АNTENNA1
925 - 960 MHz
АNTENNA1
1805 - 1880 MHz
АNTENNA3
1920 - 2170 MHz
Impedance
50 Ω unbalanced
Radiation (H-plane), beamwidth at -3 dB
70° at 920; 60° at 1920 MHz
Radiation (E-plane), beamwidth at -3 dB
70° at 920; 60° at 1920 MHz
Radiation angle0°
Front to back ratio ≥ 15 dB from 880 to 960 MHz
≥ 15 dB from 1710 to 2000 MHz
≥ 10 dB from 2000 to 2170 MHz
Polarizationvertical
Gain
9 dBi
S.W.R. in bandwidth ≤ 2.0:1 from 880 to 960 MHz
≤ 1.8:1 from 1710 to 2170 MHz
Max. power
2 Watts (CW) at 50° C
Connector SMA-male
Material FR4 substratum the depth of 1.6 ± 10 %
Cu + Sn plate
Dimensions
АNTENNA1
148.3 x 127 x 45 mm
ANTENNA2
148.3 x 127 x 30 mm
АNTENNA3
120.5 x 75.5 x 20 mm
JAMMER UNIT
300 x 265 x 80 mm
BRIEFCASE
500 x 400 x 130 mm
Power supply
12 Vdc/battery 12 Ah
Consumption
30 VA
Operated temperature range
-40°C to + 85°C
CJ-1P Cellular Jammer
Description
93
ARK3000
Antenna Distribution System
„„ 8 antenna inputs and 16 receiver outputs
„„ Frequency range 20 – 3000 MHz
Radio Communications
„„ Solid state switching matrix
94
„„ Seamless Integration
„„ Local and remote control (Ethernet)
as RoIP element
„„ Modular structure
„„ Compact and modular design
General characteristics
Input SWR
Antenna Distribution System ARK3000 receives signals
from the eight antennas in the frequency range from
20 MHz to 3 GHz and distributes / switches received
signal to the sixteen receivers whereby any of RF
outputs can be assign any antenna, or pre-defined
combination of antennas.
„„ Control
Maximum input level
+ 17 dBm
Local via front panel (touchscreen)
„„ Remote via Ethernet link, using any Internet
browser via the intuitive user interface
„„ Easy integration into automated systems for
monitoring radio spectrum and radio-surveillance
Attenuation of input to output
„„ Working in an autonomous / manual mode
RF outputs
„„ Options
Number of RF outputs
„„ Digitally controlled attenuators on inputs
Output impedance
50 Ω
„„ DC power supply 12 V/24 V/48 V
Output SWR
≤ 1.5
„„ Different types of input connectors
1dB compresion point
„„ Different types of input filters
Attenuation between any two outputs
„„ Control via RS232 or USB interface
VHF1
VHF2
VHF/UHF1
UHF1
UHF2
IP2 (the second order intercept)
„„
„„ Adaptation of protocols and structure of
management posts in order to emulate the
existing antenna distributor
T echnical data
Control over Internet
≤3
Gain Number of inputs
8
Frequency subband input
– 88 MHz
– 180 MHz
– 470 MHz
– 1400 MHz
– 3000 MHz
≥ 60 dB
≥ 50 dB
≥ 50 dB
≥ 50 dB
≥ 50 dB
16
> +10 dBm
≥ 50 dB
≥ 45 dB
≥ 45 dB
≥ 45 dB
≥ 40 dB
min 35 dB
Type of connectors (input/output) N
Antenna Inputs
VHF1:
20
VHF2:
110
VHF/UHF1: 225
UHF1:
100
UHF2:
500
Input impedance
VHF1
VHF2
VHF/UHF1
UHF1
UHF2
2 inputs
2 inputs
2 inputs
1 input
1 input
50 Ω
Noise ratio
Interface for remote control Power Consumption
Dimensions
Weight
Operating temperature range
min 1 dB
≤ 5 dB
Ethernet 10/100 Mbit/s
220V ±10 %, 50 Hz
50 VA
480 x 133 x 365 mm
15 kg
-5 do +45 °C
ARK3000 Antenna Distribution System
Description
95
SDNU
System for Remote Monitoring & Control of Power Electronic Devices
„„ Simultaneous monitoring and control of power
electronics from different vendors, technologies
and generation
Power Electronics
„„ Modular system for monitoring and control of power
electronic devices in remote locations:
96
„„ Peripheral device for monitoring and control - DNU24
„„ Monitoring and control center (local)
„„ Main monitoring operations center
„„ Peripheral device for monitoring and control - DNU24:
„„ Continuous measures of electrical and non-electric
values in the remote objects and data forwarding
to the monitoring center at its request
„„ Measured electric and non-electrical values can be
wireless send to DNU24
„„ Monitoring of alarms and in the case of their appearance
forwarding to the monitoring center
„„ Control signals from the monitoring center are forwarded
to power electronic devices which is possible to control
„„ Communication between monitoring and control
center and DNU24 through TDM, IP and GSM
telecommunication network
„„ Communication between monitoring and control
center (local)and main monitoring operations
center through SNMP
„„ Remote control of batteries quality with and
without additional load
Battery capacitive test
„„ Optionally connecting of batteries to
additionally test load
„„ Recording batteries current discharge curves
„„ Comparison with
discharge curve
DNU24 is connected with monitoring and control
center over TDM (modem, ISDN), IP (Ethernet 10/100
baseTx) or GSM (GPRS) telecommunication network.
Type of connection is defined by user in accordance
with technical availability.
GSM
network
„„ Capacity of DNU24 are 16 analogue and 8 digital
signals
DNU24
„„ Measurement and sending data related to electrical values: dc voltage, ac voltage, dc current
RS232
Monitoring & Control
Center (local)
„„ Capturing, and sending to the monitoring and
control center, signal wave shapes with 1 ms
resolution
„„ Measurement and transmission of different
values - temperature, pressure, liquid level and
other non electrical values
Analog signals
Digital signals
Rectifier
IP
network
IP
network
DNU24
TDM
network
Analog signals
Digital signals
RS232
„„ Data are collected and memorized in internal
memory of DNU24 every 1 s
„„ Monitoring and control center collects data from
DNU24 every 15 minutes
„„ Digital alarm signals, generated from
devices under monitoring, DNU24 send to
monitoring and control center immediately after
their detection
catalogue
„„ Estimation of batteries quality
DNU24
„„ Capturing, and sending data related to incident
situations: measuring values 250 sec after and
before incident happened
manufacturer
Main Monitoring
Operations Center
DNU24
SNN12
Analog signals
Digital signals
RS232
„„ DNU24 have capacity of control over 4 output
digital signals and over RS232 interface
Battery capacity test
Batteries
Power Electronic Devices
Monitoring and control system, for power electronics devices at remote locations, contains different
number of DNU24 devices. Each device collecting and
transmitting data to monitoring and control center.
„„ In case the power electronic devices have own
ability for their remote control, DNU24 send their
collected data to the monitoring and control
center
SDNU System for Remote Monitoring & Control of
System Description
97
Monitoring and Control Center
PC with installed necessary software are located in
center for remote monitoring and control. Measured
data from DNU24 are periodically collecting. Data is
stored in the particular database.
„„ The structure of the system for remote monitoring and control
Control of power electronics devices are available
in two ways: through the digital control signals directly
from DNU24 and through a defined communication
protocol (given from manufacturer of the device
which is under control in the object); in that case, communication flows through special ports of DNU24).
Commands are given from the center for monitoring
and control (sent to DNU24). When the command is
executed by a digital signal from DNU24, it is realized
as a time switch (time-limited duration with the possibility of interruption).
„„ The structure of device that is monitored and
controlled for each object
Monitoring and Control Network
Power Electronic Devices
SDNU System for Remote Monitoring & Control of
In the monitoring center, all data are presented in a
clear manner so that the operator have a clear picture
about the current state of the system. It is possible to
generate a report with the results of measurements
over a defined period of time.
98
Oracle, ...) for further processing and eventual integration into other systems for monitoring users.
„„ The measured values of all parameters
„„ The on/off values on remote devices that are
controlled
„„ The data required for system administration
„„ Statistical data
All data are presented in tabular and graphical way.
Measurement ranges can be changed from the
monitoring and control center.
Alarms are present in the monitoring and control
center until the authorized person terminate them or
until they disappear because the cause is disappeared.
No matter how alarms go away, the date and time of
an alarm condition are registered and the moment
and the reason when the are gone. Low battery alarm
is combined with an estimation of how much time the
object will have to work on battery.
Monitoring and control center and main monitoring operations center allow statistical analysis of all
collected data and generating of reports on all the
alarms and the measured values deviations from the
nominal value.
Information stored in the database can be transferred to a standard format database (Access, SQL,
Centers for monitoring and control can be connected
in a hierarchical network for monitoring and control
via an IP network to communicate with the main
center.
Protocol for communication with the main monitoring operations center is standardized (SNMP).
Safety Procedures
„„ Authorization of access by user name and
password
„„ Assigning user accounts that have limit access to
options in the system
„„ Administration of system user - adding, deleting
and changing data
„„ Over viewing of the user history (log files, filtering)
T echnical data
Constructed and tested according to
Safety
DNU24:
EMC Analog measurement
DC voltage (0 - 1000 V) 5 inputs
Environmental conditions
AC voltage (0 - 300 Veff)
6 inputs
Working temperature
DC currents (-1000 - 1000 A)
Dimensions (W x D x H)
or AC currents (0 - 1000 A)
3 inputs
Temperature
2 inputs
Weight
EN 60950 (UL1950)
EN 55022/CISPR22, class A
0 to +50°C
440 x 210x 55 mm
3 kg
4 inputs
Digital outputs control signals
Opticaly isolated
2 outputs
Realised with relays
2 outputs
Monitoring and Control center:
PC computer with Windows XP Professional
Software
GUI software for monitoring and control center
Software for control of AC voltage wave shapes
Communication software
Software for control
Administration software
Statistical data analysis software
Database software
Software for connecting with main center
for monitoring and control
Interfaces
Local communication with
other equipment
Communication with control
and monitoring center
RS232, RS485
ISDN,
Ethernet, GPRS
Power Electronic Devices
Alarms (galvanic isolation)
SDNU System for Remote Monitoring & Control of
Digital inputs
99
SNN12
Power Supply System 54 Vdc / 3 x 7.5 A
„„ Compact modular power supply system:
„„ SN12 - one shelve (3 rectifiers modules), power 1200 W
„„ SNN12 - two shelves (6 rectifiers modules), power 2400 W
Power Electronics
„„ Full front access design – ease of installation and operation
100
„„ Parallel working of rectifiers – active current sharing,
true redundant configuration (N+1)
„„ Natural convection cooling – no fans
„„ Power factor 0.98 (IEC 1000-3-2)
„„ Two independent battery breaker, up to six load breakers
„„ Optimal Charging of Batteries
„„ Programmable low voltage disconnect (LVD)
„„ Integrated control and monitoring system, SUNCE-M
Protections include:
Batteries are paralleled with load and system output. Battery management includes controlled current
charging of batteries independent of load current, IU
characteristic, automatic temperature compensation
with additional cable and sensor and programmable
low voltage disconnect.
„„ Electronic Low Voltage Disconnect (LVD) - over
discharging protection; value of battery turn-off
threshold is programmable through keyboard or
RS232 interface
IM400
230 Vac
ACD
The main parts of SNN12 system are: cabinet, up
to two shelves (main and for expansion), and batteries
(working and reserve). SNN12 is modular and configurable for different load power: 400, 800 and 1200 W
(SN12- main shelf, up to 3 rectifiers units) or 1600, 2000
and 2400 W (two shelves, up to 6 rectifiers units) or 2
ETSI shelves (up to 6 rectifiers). In redundant configuration off power supply system (N+1), reserve rectifier
is in parallel work with others rectifiers. Accuracy of
rectifiers active current sharing is 5%.
„„ Overload (current limit) and short circuit
protection, active and passive, programmable
„„ Up to 6 rectifier modules (IM400), power of each
rectifier 400 W (nominal)
„„ Batteries
1
Loads
6
Batteries
Main
configuration
„„ Up to two AC distribution (ACD)
„„ BCU – basic control unit (module) for control,
monitoring and communications with LCD display
and keyboard for self-guided controller operation,
LEDs, RS232 and other interfaces
54.6 Vdc
IM400
SNN12 system is composed of:
BCU/SCU
Q bus
RS232
IM400
230 Vac
ACD
„„ Low Voltage Disconnect module (battery
board - BB) with battery breakers and terminal
connectors (double)
„„ Thermal rectifier protection (active)
IM400
System overview
„„ Load (DC) distribution (DCD2/6) with two or six
output fuses (terminals ended with connectors)
„„ Over Voltage Protection (OVP) – output dc voltage
and input ac voltage, active and passive
IM400
IM400
SNN12 Block diagram
SNN12 Power Supply System 54 Vdc / 3 x 7,5 A
SNN12 system is power solution designed for telecom,
datacom and network applications (48 Vdc nominal)
which need to have reliable and permanent DC power
supply regardless on main supply failure.
„„ Battery current overcharging – value of charging current is controlled (apart of control
module - BCU) and programmable through
keyboard or RS232 interface (BCU)
DCD6
Protections
BB
Description
101
Batteries charging
process
SNN12 Power Supply System 54 Vdc / 3 x 7.5 A
Charging current
102
System monitoring
„„
System monitoring and control can be achieved locally
or remotely - integrated through telecommunication
network.
Battery voltage less than 44.5 Vdc i.e. rest
capacity ≤10% (under voltage alarm – UVA)
„„
Battery alarm less than 53 Vdc (under charge
alarm – UCA)
All main voltages and currents in system are
measured and can be readout on display (also alarms)
or via remote user PC-based software package; accidental data, independently of usual measurements
are buffered in history files.
„„
Input ac fuse failure (main fuse failure – MFA)
„„
Battery fuse failure (battery fuse alarm – BFA)
„„
Output load fuse failure (distribution fuse
alarm – DFA)
„„ Through keyboard and LCD display (local monitoring and control) next values are enable to adjust:
„„
Rack door open (open door alarm – ODE)
„„
Number of shelves and number of rectifiers
„„
Maximal load voltage and current
„„
Battery turn-off threshold
„„
Maximal battery charging current
„„ Light indication of basic system alarms are realized
with LEDs and also monitored with BCU. These
alarms are:
„„
Low ac input voltage
(main supply alarm – MSA)
„„
Rectifier fail (rectifier error alarm – REA)
„„ Green and red LED on each rectifier indicates
correct work or rectifier fail.
„„ Green and red LED on battery board indicates
correct connection and battery employing.
„„ Integrated System monitoring of basic alarms
through telecommunication network is achieved
in conjunction with other Iritel equipment
using:
REA
UCA
Rectifier module
IM400
„„
Q2 bus, with graphic oriented PC based
software package (SUNCE-M option – network
manager),
„„
SN12 connection with flexible multiplexer
FM2x2, using RS232 interface.
Max. Output voltage protection
(adjustable using BCU)
Input data
AC Input voltage
230 Vac (175 — 255 V)
AC Frequency
50 Hz (47 — 63 Hz)
Inrush current according to
Power factor
Rectifier IM400
EN61000-3-2
≥ 0.98
up to 6 p.
Output voltage (main ac supply present)
54.6 Vdc
48 Vdc nominal
Output power
Output current limit
400 W nominal (7.5 A/54.6 Vdc)
7.8 A
Output dynamic responce
(change load 20% to 100%)1.5%
Output load line response±1%
Output voltage noise
Psohometric noise
Efficiency
≤50 mVeff, ≤100 mVp-p
50—58 Vdc
Max. Load current protection
(adjustable using BCU)
n - number of rectifier modules
n x 7.5 A
F - remotes alarms interface (DB9 connector)
InterfaceRS232
Number of signals (alarms)8
Isolationoptoisolation
Batteries
Output specifications under absence
of main ac supply
Output voltage
40 — 56 Vdc
Low voltage battery disconnect (LVD)
turn-off threshold adjustable
40 — 44 Vdc
Battery turn-on threshold
49 — 52 Vdc
Designed and tested according to
Safty standard
EN 60950 (UL1950)
EMC standard
EN 55022/CISPR22, class A
Environmental
Ambient operating temperature
DC (load) distribution
DCD2 2 terminal connectors,
up to 30A (automatic) fuse
DCD6
6 terminal connectors,
up to 10A (slow) fuse
Charging current
0 to +50°C
Dimensions (V x L x H)
Rectifier (IM400)
150 x 105 x 200 mm
ETSI shelf (RE-SN1/2)
150 x 533 x 220 mm
ETSI cabinet Ueff ≤ 2 mV
(according to CCITT norms)
η > 87%
System data
Output voltage
48 V/24 —180 Ah
54.6 Vdc, nominal
3 A, standard (30 Ah capacity)
adjustable: 2.2—22 A
Temperature compensation
4 mV/C°/cell standard,
adjustable: 1—5mv/C°/cell
SN12
1000/1200/2200 x 600 x 300 mm
SNN12 Power Supply System 54 Vdc / 3 x 7.5 A
T echnical data
103
SN12/110
Power Supply System 110 Vdc / 3 x 7.5 A
„„ Compact modular power supply system - one rack
with 3 rectifier modules, power up to 2400 W
Power Electronics
„„ Full front access to supply system – easy installation
and operation
104
„„ Parallel working of rectifiers – active current sharing,
true redundant configuration (N+1)
„„ Power factor ≥0.98
„„ Optimal Charging of Batteries
„„ Additional output for extra battery charging - optionally
„„ Two independent battery breakers and two load breakers
„„ Programmable battery low voltage disconnect (LVD) - optionally
„„ Communication with remote monitoring center
„„ Use of IRITEL SDNU System for remote monitoring and
control of power electronic devices – optionally
Description
System overview
Protections
SN12/110 system is power solution designed
for measurement, control, regulation and
telecommunication applications with 110 Vdc
(nominal) on output. Voltage supplied to load need
to be reliable and permanent DC power supply
regardless on main supply failure.
SN12/110 system is composed of:
Protections include:
„„ AC distribution (ACD)
„„ Overload (current limit) and short circuit
protection, active and passive, programmable
and with fuses
„„ Module for connection with additional battery
set - delivered optionally
IM800
230 Vac
„„ Over Voltage Protection (OVP) – output dc voltage
and input ac voltage, active and passive
„„ Thermal rectifier protection (active)
110 Vdc
1
Loads
2
IM800
IM800
BCU
Battery
RS232
Power supply system
SN12/110
block diagram
SN12/110 Power Supply System 110 Vdc / 3 x 7.5 A
Temperature compensation with additional cable and sensor is available, also, programmable low
voltage disconnect (optionally).
„„ BCU – basic control unit for control, monitoring
and communications, with LCD display and
keyboard for selfguided controller operation, LEDs,
RS232 and other interfaces
„„ Battery current overcharging – value of charging current is controlled independently of load
current (even in the case BCU is not active for some
reason) and programmable through keyboard or
RS232 interface (BCU)
DCD2
Batteries are paralleled with load and system
output. Battery management includes controlled
current charging of batteries independent of load
current (IU characteristic), automatic temperature compensation. Up to two battery sets can be
connected to SN12/110 (parallel to each other).
„„ Battery board (BB) with double battery fuses
and terminals (for two battery sets) – delivered
optionally with Low Voltage Disconnect (LVD) part
inside module
„„ Electronic Low Voltage Disconnect (LVD) – battery over discharging protection; value of battery
turn-off threshold is programmable (through
keyboard or RS232 interface) – this is optionally
BB
SN12/110 are delivered in two configurations:
basic (described above) and extended for additional
batteries charging. Second version going when
additional string of batteries is present at user. That
auxiliary battery string is connected with primary
set of batteries when battery voltage goes under
107 V (without presence of main ac voltage). In this
configuration, additional battery charger is delivered
with SN12/110 V.
„„ Load (DC) distribution (DCD2) with two fuses (two
equal terminals for user)
ACD
Power supply system SN12/110 is modular and
consists from up to 3 rectifier modules in one rack.
System is positioned inside cabinet (with additional
place inside for other devices included monitoring
and control equipment and/or smaller batteries).
SN12/110 can be configured for different load power:
800, 1600 or 2400 W. In redundant configuration of
power supply system (N+1), reserve rectifier is also
active and work in parallel work with others rectifiers.
Accuracy of rectifiers active current sharing is 5%.
„„ Up to 3 rectifier modules (IM800), power of each
rectifier 800 W (nominal)
(Ethernet)
105
SN12/110 with other
equipment in closed cabinet
System monitoring
System monitoring and control can be achieved locally
(display and keyboard on BCU) or remotely through
existing telecommunication network. All voltages and
currents in system are measured and can be readout
on BCU display (also alarms if exist) or via remote user
PC-based software; accidental data, independently of
usual measurements can be buffered in databases.
SN12/110 Power Supply System 110 Vdc / 3 x 7.5 A
Local monitoring and control through keyboard
and LCD display on BCU module allows:
„„ Measuring of voltages and currents in the system
„„ Adjusting of next working parameters:
Number of shelves and number of rectifiers
„„
Maximal load voltage and current
„„
Battery turn-off threshold (optionally)
„„
Maximal battery charging current
„„
Floating and boost voltage and value of current
when system goes from boost to float voltage
on output
„„
Low ac input voltage (main supply alarm – MSA)
„„
Rectifier fail (rectifier error alarm – REA)
„„
Battery voltage less than 93 Vdc i.e. rest capacity
≤10% (under voltage alarm – UVA)
REA
Battery voltage less than 107 Vdc (under charge
alarm – UCA)
„„
Input ac fuse failure (main fuse failure – MFA)
„„
Battery fuse failure (battery fuse alarm – BFA)
„„
Output load fuse failure (distribution fuse alarm
– DFA)
Green and red LED on each rectifier indicates
correct work or rectifier failure.
Green and red LED on battery board indicates
correct connection and battery employing.
Connection with system for remote
monitoring and control
„„
Local light indication of basic system alarms are
realized with LEDs on BCU mask. These alarms are:
Rectifier module IM800
„„
SN12/110 can be connected with any other communication system. Data formatting and protocol are
known to end user. For example, System for remote
monitoring and control of power electronics – SDNU
(IRITEL) or monitoring system SUNCE-M (Network
Manager, IRITEL) can be used to communicate with
SN12/110 (monitoring of values, control of system
by changing system working parameters, data
collecting). Also, some already existing monitoring
system at user or just PC based software (delivered
with SN12/110) are also suitable.
Batteries charging process
Vboost
Vfloat
Icharging
UCA
Battery
voltage
“I” part of charging
106
characteristics
Battery
current
Time
“U” part of charging
characteristics
DC (load) distribution
DCD2
Input data
Input voltage
230 Vac (175 — 255 V)
Frequency
50 Hz (47 — 63 Hz)
Inrush current according to
EN61000-3-2
Power factor
≥ 0.98
Rectifier IM800
up to 3 pc.
Output voltage (nominal) 110 Vdc
Output power
800 W nominal (7.5 A/110 Vdc)
Output current limit 7.5 Adc
Output dynamic response
(change load 20% to 100%)1.5%
Output load line stability
Output voltage noise ±1%
≤ 50 mVeff, ≤ 100 mVp-p
Efficiency
η > 87%
System data
Output voltage
Max. Output voltage
(adjustable using BCU) Max. Load current (adjustable using
BCU, n - number of rectifier modules)
Charging current
110 Vdc, nominal
n x 7.5 A
0.1C standard
adjustable: 2—16 A
Temperature compensation
4 mV/C°/cell (standard),
adjustable: 1—5mv/C°/cell
Output specifications under absence of main ac
supply
Output voltage
Low voltage battery disconnect
(LVD), adjustable, optionally
Battery turn-on threshold, adjustable
F - remote alarms interface (DB9 connector)
Interface
90 — 120 Vdc
88 — 96 Vdc
98 — 104 Vdc
RS232
Number of signals (alarms)
8
Isolation
optoisolation
Designed for Batteries with capacity 110 V/24 – 200 Ah
Designed and tested according to
Safety standard EMC standard EN 60950 (UL1950)
EN 55022/CISPR22, class A
Environmental
Ambient operating temperature
0 to +50°C
Dimensions (L x W x H)
Rectifier (IM800) 150 x 105 x 200 mm
ETSI rack with fan unit
195 x 533 x 220 mm
ETSI cabinet 116 - 128 Vdc
2 terminal connectors, up to 30 A fuse
(ceramic, 6.3x32 mm)
SN12/110 with extra battery charging,
additional devices and system for remote
monitoring and control (DNU24)
in one cabinet (1000 mm)
1000/1200 x 600 x 450 mm
SN12/110 Power Supply System 110 Vdc / 3 x 7.5 A
T echnical data
107
NN301/48 Vdc
Small DC Power Supply System
„„ Compact uninterruptible
dc power supply system - in one enclosure:
„„ Rectifier 230 Vac/48 Vdc, up to 175 W
„„ Battery Charger 220 Vac/40,5 — 56 Vdc, up to 125W
Power Electronics
„„ Batteries 48 Vdc/12 Ah/17 Ah/24 Ah
108
„„ Low Voltage Disconnect block
„„ Optimal Charging of Batteries
„„ Each system is completely wired, charged and ready to go
Applications
„„ Control block:
DC power supply system NN301 is designed for:
„„ Applications in which electronic equipment need
to have reliable and permanent DC power supply
regardless on main supply failure
„„ Equipment to be used in telecom, datacom, and
network applications
„„ Battery set (up to 24 Ah)
„„ Controlling system of semiconductor switches
mentioned above
„„ Enclosure
„„ N301 can be used separately
„„ Detection
of system failures – overload
detection, loss of AC detection, battery
damage
„„ Equipment to be used in security and monitoring
applications
Batteries voltage
Typical Applications
„„ Fiber Optic Networks
„„ Data communications
„„ Industrial
„„ Customer premises
System overview
Batteries charging process
NN301 contains:
„„ Rectifier/ Charger N301:
„„ Rectifier - DC/DC converter (MN175) providing
DC output power to load
„„ Charger – DC/DC converter (MP125) providing
battery charging:
„„ Battery
charging is independent of rectifier
and move according to optimal charging
characteristics given by battery manufacturer
„„ It
works like current/voltage source (IU characteristics)
2x4A
Fuse
DC/DC Convertor
MN 175
230
is loss (rectifier off)
„„ Assuring
permanent power to load
Load
Control
2x4A
DC/DC Convertor
Fuse
„„ System of semiconductor switches providing
uninterruptible DC output power to load:
„„ Connecting load and batteries when ac power
Fuse
Batteries
NN301 Small DC Power Supply System
charging current
„„ PABX/ISDN
NN301 Block diagram
109
Protections
Batteries and charging
System Monitoring
Protections include:
Inside NN301 are stored set of four sealed lead-acid
batteries, standard dimensions, with maximum 24 Ah
capacity. These kinds of batteries do not need special
maintenance. Optimal charging process increasing
working life (5 to 12 years) and protect from determination. Automatic temperature compensation is
accomplished using temperature sensor on batteries.
Charging process has next stages:
With LED indicators user can monitoring status of
correct NN301 functioning:
„„ Soft start, charging with constant current, Imax
(charger working like current source)
„„ Green LED1 – charging of batteries in
Current/Boost Voltage mode
„„ Charging in two-stage voltage mode:
„„ Yellow LED2 – charging of batteries in float mode
„„ Overload (current limit) and short circuit
protection - both rectifier and charger
„„ Over Voltage Protection (OVP) - both rectifier and
charger
„„ Electronic Low Voltage Disconnect (LVD) - Disconnect the battery to the load when the battery
drops below 40.5 V
110
„„ Green LED OUT – power to load from rectifier
(ac lines)
„„ Green LED BATT – power to load from batteries
„„
Boost mode - after reaching Vblk voltage,
constant voltage of that value is maintained
„„ Red LED3 – failure of batteries or decreasing of
battery capacity
„„
Float mode - after charging current fall under
Imin value, voltage become Vfloat (keeping that
value), batteries are fully charged
Remote alarms - optoisolated interface:
NN301 Small DC Power Supply System
„„ Output fuse, one 5 A in-line with system negative
output,
„„ Red neon light on main switch – presence of ac
voltage
„„ Failure (loss or incorrect) main supply voltage
„„ Output power from batteries (rectifier do not
work)
„„ Battery low level (remain battery capacity low)
„„ Non-correct charging of battery (failure of charger
or batteries)
LED
OUT
LED
BAT
LED3
LED2
LED1
Remote
Alarms
T echnical data
Input data:
AC Input Voltage
230 Vac +10%/–15%
AC Frequency
50 Hz ±5%
Output data (MN175)
Output voltage (main ac supply present)
Output power
48 Vdc, nominal,
adjustable: 48 – 49.5 Vdc
175 W nominal, (3.7 A/48.6 V)
Output current limit
4 A, nominal,
adjustable: 4.2 – 1.8 A
Output dynamic response
(change load 20% to 100%)±1.5%
Output data under failure of main ac supply:
Designed and tested according to:
Output voltage
Safety standard
40.5 – 56 Vdc
EMC standard
EN60950 (UL1950)
EN55022/CISPR22, class A
Low voltage battery disconnect
(LVD) threshold adjustable
40 – 44 Vdc
Environmental:
Threshold of battery connect
45 – 47 Vdc
Ambient operating temperature+50C to +500C
Standard battery delivered within NN301:
NP24-12, 12V/24Ah, Yuasa, 4 pcs. in set
Battery recharge time
10h (±1h)
Dimensions:
Physical Size (WxLxH)
Weight
415 x 250 x 301 mm
50 kg (with batteries)
Remote alarms interface (DB9 connector):
Number of signals (alarms)4
Isolationoptoisolation
Output voltage
5 – 10 V
Output load line response±1%
±50 mVmax
Psohometric noiseUeff ≤1mV
Efficiency
η >80%
Output data (MP125)
Output battery voltage
54 Vdc, nominal
Output battery voltage in charging process
Vfloat: 54.6 Vdc, nominal, adjustable: 51 – 55 Vdc
(2.275 V/cell, adjustable: 2.12 – 2.3 V/cell)
Vbulk: 57.5 Vdc, nominal, adjustable: 53.5 – 58 Vdc
(2.4 V/cell, adjustable: 2.2 – 2.4 V/cell)
Charging current:
Temperature
compensation:
2.4 A standard/nominal,
adjustable: 2.4 A-1A
4 mV – /C/cell standard,
adjusatable: 1 – 8 mV/C/cell
NN301 Small DC Power Supply System
Output voltage ripple and noise
111
DC UPS
Uninterruptible Power Supply with DC Output Voltage 300 Vdc
„„ 300/400/600/800 W power uninterruptible power supply
Power Electronics
„„ Provide uninterruptible working of computer and
telecommunication equipment supplying from line ac voltage
112
„„ DC UPS is applicable in systems which already have
equipment supplying from uninterruptible 24/36/48/110 V dc
voltage sources
„„ Protection of batteries from under voltage
„„ Protection of devices from ac line disturbances and
low line voltages
DC UPS provides uninterruptible working of
computer and telecommunication equipment
normally supplying from 230 Vac line voltage,
300/400/600/800 W power.
LED1
Modern equipment, on their input, have rectification of line voltage, without line transformer. From the
line voltage rectifier generates about 300 Vdc, which
means that such devices could be supply with 300 Vdc
(approximately) instead 230 Vac line voltage.
DC UPS use this possibility. On its output, when
line voltage exists, DC UPS generates dc voltage
(about 300 Vdc), made by rectification of 230 Vac line
voltage. When line voltage is not present, dc output
voltage is generated by converting reserve 48 Vdc
input voltage (batteries). Reserve 48 Vdc is available in
systems, which have uninterruptible dc power supply
(for example, telecommunication companies, railroad
companies, power distribution companies, etc.).
DC UPS-400 with built in charger (4.5 A/48 V) is
marked DC UPS-400/P.
Switching from ac line supplying to reserve battery
supplying and vice-versa, is going without time period
of output voltage interrupt (that happens with classic
off-line UPSs - at output of classic AC UPS exist interrupt in energy supply in period 5-15 ms, because of
adding ac voltages, which are not synchronous). That
can be accomplished because, on output of DC UPS,
dc voltage generated from rectified ac line voltage and
dc voltage generated from dc/dc converter are connected in parallel; their sum is output DC UPS voltage.
DC UPS-300
Batteries are low
(Vbat < 44 Vdc)
and
disconnected
~
–
+
310 Vdc
•
Batteries are low (Vbat < 46 Vdc)
LED3
Line ac voltage is incorrect (not exist or the
line is to low), load supplying come from
batteries energy
•
+
~
LED2
LED4
230 Vac
•
48 Vdc
DC/DC
Line is correct, load supplying come from
line energy
310 Vdc/300 Vdc
•
300 Vdc
DC UPS Block diagram
T echnical data
Input voltage
230 Vac (205 — 252 V)
Line voltage frequency
48 — 64 Hz
Input dc voltage (batteries)
48 Vdc
Optional
24/36/110/220 Vdc
Output dc voltage
working “on” line voltage
310 — 340 Vdc
working “on” batteries
300 Vdc
Load power
300/400/600/800 Wmax
Switch time from working on line
to working on batteries
Protection of batteries from overdischarge
Batteries charging time (48 V/38 Ah)
DC UPS-400/P
DC UPS-400
0 ms
<44 Vdc
Number of output connections
DC UPS-300
DC UPS-400
DC UPS-600/800
EMC standard
4
5
3
Class B
Safety standard
EN 60950
Dimension (H x W x L)
DC UPS-300
DC UPS-400/ 600/800
57 x 237 x 335 mm
88 x 258 x 423 mm
Weight
DC UPS-300
DC UPS-400/600/800
2 kg
5 kg
<10 h
DC UPS-600/800
Voltage 300 Vdc
Signalization
DC UPS Uninterruptible Power Supply with DC Otput
Applications
113
SF25
Phase Selector
„„ SF25 - additional level of security in the overall power
supply system
Power Electronics
„„ Monitoring the voltage of each phase from the three-phase
mains connection
114
„„ Supplying one-phase user by choosing priority phase
(Vac>180Vac) from a three-phase main connection
„„ Maximum load current 25A
„„ Voltage and time hysteresis during restore of the correct phase
Phase Selector is a device whose input is three-phase
voltage and one phase is forwarded to the output.
Neutral is directly forwarded to the output.
„„ SF25 continuously monitors all present phases
present and based on the fact the phases are
correct or not and their mutual priorities, determine which phase will be forwarded to the user
(output).
„„ Line is correct if the phase voltage is greater than
the minimum. In this way, phase selector plays the
role of an additional level of security throughout
the whole power supply system.
„„ With disappearance of one or two phases, user did
not stay without main power supply
Basic functions
„„ The user is connected to one phase only. The
control electronics determines which phase
form the input will be forwarded to the output.
Selector switches off the active phase when
registering their disappearance or too low voltage.
After that connects the load to the next correct
phase, in accordance with the priority of the phase
that is determined in advance.
„„ Switching is performed by relays. The time
between fault phase detection, the incorrect
phase switch-off and move to the next correct
phase, is about 100 msec.
„„ For each phase there is a voltage and time
hysteresis.
„„ Voltage hysteresis means that, when the phase
come on again, after disappearance, voltage must
be greater than the upper threshold of hysteresis
(eg. 200 Vac), to forward this phase to user again.
During the work, phase voltage must be greater
than the lower hysteresis threshold (eg. 170 Vac),
to consider the phase is correct.
„„ Time hysteresis means that, after the detection
of phase failure, during the one period of time
(about 7-8 seconds), return of the same phase to
user is stopped (although it is correct and have a
greater priority than the current active phase). In
this way, it overcomes the problem of instability
of the main power network during disappearance
of one of the phases.
„„ Local monitoring of the SF25 functioning and
situation with phases can be done via leds.
„„ SF25 can be delivered to customer already wired
R
S
0
Input
Input voltage per phase
230 Vac nom.
Frequency 50 Hz nom.
Input current per phase 25 Aac max
Phase selector operating parameters
Time hysteresis 5 sec min.
Hysteresis voltage 40 V min.
Phase switch-off (for European standard) 180 Vac nom.
Fixed Adjustable 165 – 210 Vac
Input/output terminal connections
Terminals, for cable cross-section (min) Control
electronics
Local LED signalization
Control electronics
230 Vac
T
T E chnical data
Control
electronics
Control
electronics
SF25 Block diagram
Load
(user)
Correct phase 6 mm2
green LED
green LED (one per phase)
Designed and tested according to
Safety standard EN60950 (UL1950)
Environmental
Ambient operating temperature Air circulation – 25C⁰ to +50C⁰
Natural
Dimensions
Plastic box (WxDxH) 200 x 155 x 80 mm
Enclosure protection IP55, IP56
SF25 Phase Selector
Applications
115
Manufacturing and Assembly of Electronic Devices
Contract Manufacturing
SMT ASSEMBLY
116
„„ Continuous flow SMT line
„„ Complete electronic & mechanical design
„„ Components QFP, QFN, CSP,
0201 to  55mm, fine pitch ≥0.4 mm
„„ PCB design service
„„ BGA, μBGA ≥0.5 mm
„„ Electronic and electromechanical assemblies
„„ RoHS & non-RoHS Services
„„ Wire/cable assembly
„„ PTH, SMT & mixed technology,
Hi-Tech assembly
„„ Funcitonal testing
„„ Temperature cycling
„„ Top and bottom placement with
Single & double-sided assembly
„„ Burn-in test
„„ Selective soldering of TH components
„„ No-Clean flux process and closed
loop aqueous cleaning system
„„ Repair and rework including BGA & QFP
„„ Automated Optical Inspection
„„ Two surface mount manufacturing lines
„„ Line for manufacturing prototype
Manufacturing possibilities
„„ Automatic continuous flow SMT line with
70,000 chp/h capacity:
„„Dual
„„Two
vision screen printer
SMD automatic pick & place machines
„„Reflow
soldering processes - 7 and 9
temperature zones
optical inspection
„„Automation
„„ Other manufacturing equipment:
„„Automatic
„„Selective
„„Di
wave soldering, two waves
soldering of TH components
water cleaning, 4 chambres
„„Alcohol
„„Four
solvent cleaning
clima chambres
„„Assembled
PCB rework system
„„ Prototype and low volume manufacturing line:
„„Semi-automatic
„„Automatic
„„Reflow
screen printer
pick and place components (SMD)
soldering process with
4 temperature zones
Manufacturing and Assembly of Electronic Devices
„„Automatic
117
Quality Assurance
„„ Reliability prediction of component parts, equipment
and systems
Management System
„„ Reliability testing of component parts, equipment
and systems
118
„„ Burn-in testing of component parts, equipment and systems
„„ Environmental testing of component parts, equipment
and systems
„„ Attesting of component parts, equipment and systems
Quality Assurance
Permanently quality improvement of ours existing
products and service, and quality assurance of new
products represent one of our basis business policy
(politics).
IRITEL’s Quality and Environmental management’s
policies are based on national and international
reference standards SRPS ISO 9001:2008, IQNet
ISO 9001:2008, SRPS ISO 14001:2005, IQNet
ISO 14001:2004, SRPS OHSAS 18001:2008 and IQNet
OHSAS 18001:2007.
Testing determin conformity of product characteristics to standards, technical regulations and specification: Serbian standards (SRPS), international standards
(ISO, IEC, CEE) and military standards (SNO, MIL).
Environmental Testing
In our environmental testing laboratory we simulate
the environmental conditions to which various products are exposed.
We simulate the conditions to which electrical
devices are exposed during both, transportation and
operation.
Climatic exposures:
„„ Cooling up to –80°C,
„„ Heating up to +100°C,
„„ Humidification study state and cyclic, from +10°C
to +90°C, and 10% to 98% relative humidity
„„ Salt mist testing,
Mechanical resistance:
„„ Test samples can be exposed to diverse mechanical impacts on all three axes:
„„ Sinusoidal vibrations at constant frequency
„„ Sinusoidal vibrations at changing frequencies
(frequency range from 5 Hz to 2000 Hz with accelerations up to 50 g)
„„ Bump testing with accelerations up to 40 g
IP testing:
IP testing helps us to confirm the level of protection
against access to dangerous parts, ingress of solid
foreign objects (major objects, testing finger, thorn,
wire, dust), and ingress of water.
Quality Assurance
We simulate extreme temperature and humidity
in various combinations.
119
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertising