Download Manual NEO

©2008 NEC Corporation
MTD-PL-040
200706
6/7/8/10/11/13/15/18/23/26/28/32/38/52 GHz
5 x E1 ~ 48 x E1, 2 x 40/48 x E1, 1 ~ 2 x E3,
1 ~ 2 x STM-1, 2 ~ 4 x 10/100 BASE-T(X), GbE
DIGITAL RADIO SYSTEM
(1+0/1+1 system)
NEC Corporation
Pl040_t.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
TABLE OF CONTENTS
LIST OF ABBREVIATIONS............….…...........………........…...…….......................iii
1.
INTRODUCTION .............................................................................................. 1
2.
FEATURES ...................................................................................................... 3
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
2.10
2.11
2.12
2.13
Advanced Technologies and Superb Performance .......................................... 3
High System Gain / High spectrum efficiency................................................... 3
Easy and Quick Installation .............................................................................. 3
Frequency Agility and Easy Tuning .................................................................. 3
System Flexibility.............................................................................................. 3
Maintenance Facilities ...................................................................................... 4
Service Channels (Refer to Table 1) ................................................................ 4
APS (Automatic Protection Switch) function (Option) ....................................... 5
XPIC (Cross Polarization Interference Canceller) ............................................ 6
Cross Connect (XC) ...................................................................................... 7
PASOLINK Network Management System (PNMSj)................................... 10
PASOLINK Network Management Terminal (PNMTj) ................................. 10
Flexible ODU Mounting Configuration ......................................................... 11
2.13.1
1+0 SYSTEM .................................................................................................................... 11
2.13.2
1+1 SYSTEM .................................................................................................................... 11
2.13.3
2+0 SYSTEM (Dual Pol. Antenna System for Adjacent channel or Co-Channel
assignment) ....................................................................................................................... 12
2.14
Simple Choice in Indoor Menu .................................................................... 19
3.
BLOCK DIAGRAM AND DESCRIPTION ...................................................... 21
4.
NETWORK MANAGEMENT SYSTEM .......................................................... 27
4.1
4.2
General........................................................................................................... 27
Features ......................................................................................................... 28
4.2.1
Any platform ...................................................................................................................... 28
4.2.2
User-friendly operation...................................................................................................... 28
4.2.3
Link oriented Management and Control............................................................................ 29
4.2.4
Remote access and control .............................................................................................. 29
4.2.5
Event logging..................................................................................................................... 29
4.2.6
Alarm Management........................................................................................................... 29
4.2.7
ITU-T G.826 performance monitor.................................................................................... 29
4.2.8
Security ............................................................................................................................. 30
4.2.9
SNMP interface ................................................................................................................. 30
5.
PERFORMANCE ........................................................................................... 31
5.1
5.2
General........................................................................................................... 31
Baseband Interface ........................................................................................ 32
5.2.1
Pl040_c.doc
Digital Signal Interface [replaceable] ................................................................................ 32
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.2.2
LAN Interface (10/100 Base-T(X)) .................................................................................... 33
5.2.3
LAN Interface (GbE).......................................................................................................... 40
5.2.4
VLAN Function .................................................................................................................. 41
5.2.5
Service Channel (SC) ....................................................................................................... 44
5.2.6
LCT (PNMT) Interface....................................................................................................... 44
5.2.7
PNMS Interface ................................................................................................................. 44
5.2.8
RF I/O Port ........................................................................................................................ 44
5.2.9
Parallel Alarm Interface..................................................................................................... 45
5.2.10
Wayside............................................................................................................................. 45
5.2.11
Interface Card Menu ......................................................................................................... 46
5.2.12
Interface Card Combination .............................................................................................. 46
5.3
5.4
5.5
ODU (Outdoor Unit) and System performance............................................... 47
IDU (Indoor Unit) and System performance ................................................... 52
Hybrid Combiner/Divider ................................................................................ 57
5.5.1 Specifications.......................................................................................................................... 58
5.5.2 Physical dimensions ............................................................................................................... 59
5.5.3 Installation guide ..................................................................................................................... 61
5.6
10 dB Coupler ................................................................................................ 62
5.6.1 Specifications.......................................................................................................................... 63
5.6.2 Physical dimensions ............................................................................................................... 64
5.7
OMT (Ortho-Mode Transducer)...................................................................... 66
5.7.1 Features.................................................................................................................................. 66
5.7.2 Specifications.......................................................................................................................... 67
5.7.3 Physical dimensions ............................................................................................................... 67
5.8
PASOLINK Antenna ....................................................................................... 68
5.8.1
Antenna configuration ....................................................................................................... 68
5.8.2
Antenna Menu for direct mount and performance ............................................................ 68
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Pl040_c.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
LIST OF ABBREVIATIONS
AC
Alternating Current
DIR.
Direction
ACK
Acknowledgement
DMR
Digital Microwave Radio
AGC
Automatic Gain Control
DPU
Digital Processor Unit
AIS
Alarm Indication Signal
DSC
Digital Service Channel
ALM
Alarm
DSCP
Differentiated Services Code Point
ANT, Ant.
Antenna
DTE
Data Transfer Element
APC
Automatic Phase Control
DUP
Duplexer
APS
Automatic Protection Switch
DXC
Digital Cross Connect
ASYNC
Asynchronous
E
Electrical
ATPC
Automatic Transmitter Power
Control
EMC
Electro Magnetic Compatibility
EOW
Engineering Order Wire
BBE
Background Block Error
EQL
Equalizer
BER
Bit Error Rate
ES
Errored Seconds
BPF
Band Pass Filter
ETSI
CBL
Cable
European Telecommunications
Standards Institute
CCDP
Co-Channel Dual Polarization
F/B
Front Back Ratio
CEPT
Conference of European Postal &
Telecommunication Administration
FEC
Forward Error Correction
Freq.
Frequency
CH, ch
Channel
GbE, GBE
Gigabit Ethernet
CKT
Circuit
H
Horizontal
CLK
Clock
HDB
High Density Bipolar
CMI
Code Mark Inversion
HK
House Keeping
CONV
Converter
HYB
Hybrid
CoS
Class of Service
I/O
Input/Output
CPU
Central Processing Unit
ID
Identification
CRC
Cycle Redundancy Check
IDU
Indoor Unit
CTRL
Control
IE
Internet Explorer
DC
Direct Current
IEC
DEM
Demodulator
International Electrotechnical
Commission
Pl040_c.doc
- iii -
PASOLINK NEO STD 1+0/1+1 SYSTEM
IEEE
Institute of Electrical and
Electronics Engineers
IF
Intermediate Frequency
IN
Input
INTFC
Interface
ITU
International Telecommunication
Union
MTD-PL-040/200706
MSP
Multiplex Section Protection
MTBF
Mean Time Between Failure
MUX
Multiplexing Equipment
NE
Network Element
NMS
Network Management System
O
Optical
ODU
Outdoor Unit
OFS
Out of Frame Second
OMT
Ortho-Mode Transducer
OPN
Open
OS
Operation System
OSC
Oscillator
OUT
Output
OW
Order Wire
P
Port
PA
Power Amplifier
PC
Personal Computer
PCM
Pulse Code Modulation
PDH
Plesiochronous Digital Hierarchy
PLL
Phase Locked Loop
PMON
Performance Monitor
PNMSj
PASOLINK Network Management
System Java Version
ITU-R
Radio Communication Sector of
ITU
ITU-T
Telecommunication Sector of ITU
L
Low, lower
L2
Layer 2
LAN
Local Area Network
LCT
Local Craft Terminal
LED
Light Emitting Diode
LEV
Level
LLF
Link Loss Forwading
LNA
Low Noise Amplifier
LO
Local Oscillator
LOF
Loss of Frame
LSI
Large Scale Integrated Circuit
MAINT
Maintenance
MD
Modulator Demodulator
MIC
Microwave Integrated Circuit
MIX
Mixer
PNMTj
PASOLINK Network Management
Terminal Java Version
MMIC
Monolithic Microwave Integrated
Circuit
Pol.
Polarization
MOD
Modulator
ppm
parts per million
MODEM
Modulator Demodulator
PPP
Point to Point Protocol
MON
Monitor
PQ
Priority Queuing
MPX
Multiplexer
PS
Power Supply
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Pl040_c.doc
MTD-PL-021/200706
PASOLINK 2x2/2x4/8 MB 1+0/1+1 SYSTEM
PSU
Power Supply Unit
ToS
Type of Service
PWR
Power
TX
Transmitter
QAM
Quadrature Amplitude Modulation
U
Unit
QoS
Quality of Service
U
Upper
QPSK
Quadrature Phase Shift Keying
UAS
Unavailable Seconds
RCVD
Received
USB
Universal Serial Bus
REF
Reference
V
Vertical
RF
Radio Frequency
V
Volt
RL
Relay
VID
VLAN ID
RSL
Received Signal Level
VLAN
Virtual LAN
RST
Regenerator Section Termination
VLSI
Very Large Scale Integrated
Circuit
RU
Rack Unit
VSWR
Voltage Standing Wave Ratio
RX
Receiver
Web
World Wide Web
SC
Service Channel
WG
Waveguide
SDH
Synchronous Digital Hierarchy
WRR
Weighted Round Robin
SEP
Severely Errored Period
WS
Wayside
SES
Severely Errored Seconds
XC
Cross Connect
SNMP
Simple Network Management
Protocol
XCTRL
XPIC Control
STD
Standard
XPD
Cross Polarization Discrimination
Ratio
STM
Synchronous Transport Module
XPIC
SV
Supervisory
Cross Polarization Interference
Canceller
SW
Switch
XREF
XPIC Reference
SYNC
Synchronous
TF
Transmitter Failure
TNC
Threaded Neil Councilman
Pl040_c.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Note: This technical description shows all available functions. The specific functions are made
available with eligible combination of hardwares and softwares. Please refer to the valid price
list to be ordered to activate the specific functionality.
This document describes the current version of NEC standard equipment. If there is any conflict between
this document and the System Description and/or the Compliance statement, the latter will supersede this
document.
The specifications or configuration contained in this document are subject to change without notice due to
NEC's continuing design improvement.
“Windows” is a registered trademark of Microsoft Corporation. “UNIX” is a registered trademark of The Open
Group.
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Pl040_c.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
1. INTRODUCTION
To provide reliable digital access links and fully exploit the potential of end-to-end advanced
networks, NEC has developed the PASOLINK NEO, a narrow band point-to-point digital
microwave relay system operating at radio frequency (RF) bands of
6/7/8/10/11/13/15/18/23/26/28/32/38/52 GHz.
This system meets an increasing demand for digital transmission services, and will satisfy
the needs for common carrier access links, private links, urban area networks, rural area
networks, temporary networks or emergency links for data and transmissions.
The PASOLINK equipment offers very high performance with large system flexibility, which is
easy to install and is a field proven to be very reliable.
The PASOLINK NEO system provides interface types of PDH, SDH and LAN. The
transmission signals are 5 to 48 x E1, 2 x 40/48 x E1, and 1 to 2 x E3, 1 to 2 x STM-1, 2 to 4
x 10/100 Base-T(X) and GbE signals.
The systems consist of antennas, outdoor unit (ODU) and Indoor unit (IDU) same as
PASOLINK series. They are connected through a coaxial cable for each radio channel.
Available configurations are non-protected type (1+0) and protected type (1+1). The
protected type is available for twin-path type and hot-standby type.
Figure 1. Antenna and ODU (direct mount 1+0) (6 - 52 GHz)
Capacity Menu
Capacity (E1/STM-1)
5E1
10E1
16E1* /20E1
1
32E1* /40E1
2
32E1* /48E1
2
STM-1
(Mbps)
10
20
40
80
100
155
3
Modulation Scheme
Channel Separation* (MHz)
QPSK
7
14 (13.75)
28 (27.5)
16 QAM
3.5
7
14 (13.75)
32 QAM
28 (27.5)
128 QAM
28 (27.5)
*1: In case of using 16E1 interface card
*2: In case of using 32E1 interface card
*3: 13.75 or 27.5 MHz is also applied for 18 GHz.
Pl040_1.doc
28 (27.5)
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(a)1+1 1U height with PDH+LAN interface
(b)1+1 1U height with SDH interface
Figure 2. IDU
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Pl040_1.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
2. FEATURES
2.1
Advanced Technologies and Superb Performance
• High reliability and Quality
• Excellent field proven MTBF
• Low power consumption
• 10 Base-T/100 Base-TX, 1000 Base-SX/LX, 1000 Base-T (LAN interface)
• APS for STM-1 optical
• VLAN implementation
• E1 Line Digital Cross Connect (DXC)
2.2
High System Gain / High spectrum efficiency
• High System Gain achieved by each modulation with Forward Error Correction
(FEC) Technology and distortion cancelling technique called linearizer.
• High spectrum efficiency achieved by QPSK to 128 QAM selectable technology.
• Allowing smaller antennas and reducing system cost.
2.3
Easy and Quick Installation
• Interconnection : Only one coaxial cable and automatic equalization
• Very Compact and Light
• Various mounting methods for IDU, ODU and Antenna
• Easy Antenna direction adjustment
• Graphical User Interface for installation and monitoring
2.4
Frequency Agility and Easy Tuning
• Field tunable local oscillator (Synthesizer)
• RF point frequency can be changed through Local Craft Terminal (LCT).
• Sub-band of type is changeable by replacing RF Filter.
2.5
System Flexibility
• Non-protected (1+0) or Protected (1+1)
• 1+1 Hot Standby / Space Diversity / Twin Path System with Hitless switch
• IDU is used commonly for 6 - 52 GHz
• Changeable data transmission rate (5 to 48x2 Mbps, 2x40/48x2 Mbps, 1 to 2x34
Mbps, 155 Mbps, 2x155 Mbps, 10/100 Base-T(X), 1000 Base-SX/LX, 1000 BaseT) at the same IDU
• Software settable Modulation (QPSK/16 QAM/32 QAM/128 QAM) of IDU
• Common ODU for PDH/SDH/LAN, also Co-Channel Dual Polarization system
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
• Wide Input Line Voltage range is -40.5 to -57 VDC
The Power supply interface ±(20 to 60) VDC apply to additional unit.
2.6
Maintenance Facilities
• Local and remote supervision function on IDU through LCT or PNMTj
• Remote monitoring of ODU operating condition on IDU through PNMTj
• Full front access at IDU for all cabling and user interface
• Loop back facility
Near end baseband, Far end baseband
IF loop back
• Pre-settable BER alarm point: 10-3, 10-4 or 10-5 (ext. alarm/AIS injection point)
2.7
Service Channels (Refer to Table 1)
• Engineering Order Wire (EOW):
(Refer to Fig.3)
IDU- IDU and Party line
• Digital Port:
RS-232 9.6 kbps ASYNC 2ch
V.11, 64 kbps SYNC 2ch (Contra/Co-directional selectable)
• SV Line commonality: (Refer to Fig. 4)
OW (Party Line)
OW (Party Line)
Monitor
MonitorMonitor
Monitor
Head Set
HeadHead
Set Set
Head Set
ODU
ODU
ODU
IDU
ODU
IDU
IDU
IDU
Figure 3. Engineering Order Wire Connection
(EOW can be used under several tandem hops)
Table 1
SC1 and SC2
V.11, 64 kbps SYNC (Contra/Co-directional: Selectable)
SC3 and SC4
RS-232C, 9.6 kbps ASYNC
SC5
Engineering Order wire 1 ch
Connector
High Density D-sub 44 pins
LAN Interface
SC LAN Interface (Throughput: 64/128/256 kbps)
(in case of using 16E1/32E1/1E3 or WS-SC-LAN INTFC)
-4-
Pl040_2.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
SV line can be commonly used for PASOLINK NEO
PASOLINK NEO
PNMSj
SW
SV line
PASOLINK NEO
HUB
CTRL
NMS port (LAN)
Throughput 384 kbps
PASOLINK NEO
ASYNC
Current NEC radio
(PASOINK, PASOLINK+ etc.)
Figure 4. SV Line Commonality (SV LAN Interface)
2.8
APS (Automatic Protection Switch) function (Option)
APS realizes optical line protection for STM-1. This is simplified from conventional MSP
(Multiplex Section Protection) function in order to fit RST mode equipment. (ITU-T G.841,
Non-revertive Mode)
Dual optical interface for APS
Figure 5. APS System
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
2.9
MTD-PL-040/200706
XPIC (Cross Polarization Interference Canceller)
PASOLINK NEO can improve its transmission capacity up to dual STM-1 in 28 MHz (27.5
MHz for 18 GHz band) bandwidth by using XPIC technology. In case of this capacity
upgrading from one STM-1 system, the additional parts are dual polarized antenna, one
more ODU/ IDU set, some XPIC cable kit and additional firmware. The upgrading can be
realized with existing STM-1 equipment.
Single Polarize
STM-1
CCDP
V
H
2xSTM-1 with XPIC
Figure 6. XPIC System
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Pl040_2.doc
MTD-PL-040/200706
2.10
PASOLINK NEO STD 1+0/1+1 SYSTEM
Cross Connect (XC)
16E1 2 ways cross connect interface is used for E1 line exchange. This powerful
function is useful to apply for nodal network station with complex wiring.
Direction A
Direction B
Air Capacity
5/10/20/40 E1
Air Capacity
Repeater ch.
Cross Connection
5/10/20/40 E1
Max. 16 ch. Tributary Cross Connect
16E1
Figure 7.
Table 2
Direction A
E1 channel
Direction B
E1 channel
Cross Connect
Matrix channel
Maximum
Tributary channel
5/10/20/40
Selectable
5/10/20/40
Selectable
40x16x40
16 channels
Note: E1 channel number depends on modulation scheme and capacity setting.
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Cross connect functions can be described below four kinds configurations.
1) Terminal
Direction A
Terminal
Tributary
2) 2-Way Repeater
Direction A
2-Way
Direction B
Tributary
3) 2-Way Tree
Direction A
2-Way
Direction B
Tributary
4) 2-Way Star
Direction A
2-Way
Direction B
Tributary
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Pl040_2.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
Also cross connect function for LAN interface can be descried below three
configurations.
5) LAN One Way Shared Mode
L2 SW
Port 1
Port 2
Shared Mode
L2 SW
Port 1
L2 SW
Port 2
Shared Mode
Only one side transmission
10Mbps: 2-10Mbps, 2Mbps step
20Mbps: 2-20Mbps, 2Mbps step
40Mbps: 8-40Mbps, 2Mbps step
80Mbps: 48-80Mbps, 2Mbps step
Figure 8(a).
6) LAN Two Way Star Mode
L2 SW
Port 1
Port 2
L2 SW
L2 SW
Port 1
Port 2
L2 SW
Port 1
Port 2
Star Mode
Shared Mode
Shared Mode
10Mbps: 2-10Mbps, 2Mbps step
20Mbps: 2-20Mbps, 2Mbps step
40Mbps: 8-40Mbps, 2Mbps step
80Mbps: 48-80Mbps, 2Mbps step
Figure 8(b).
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
7) LAN Two Way Mixed Mode
L2 Switching by address learning
L2 SW
L2 SW
Port 1 Port 2
Port 1
L2 SW
L2 SW
Port 1
Port 2
Mixed Mode
Shared Mode
Port 2
Shared Mode
At first, LAN interface transmits all input
signals to both sides. Then the interface
transmits the input signal to the needed
direction only.
10Mbps: 2-10Mbps, 2Mbps step
20Mbps: 2-20Mbps, 2Mbps step
40Mbps: 8-40Mbps, 2Mbps step
80Mbps: 48-80Mbps, 2Mbps step
Figure 8(c).
2.11
PASOLINK Network Management System (PNMSj)
• User-friendly operation
®
®
• Free from OS limitations, PNMSj runs either Windows or UNIX
• Remote access and control to any PASOLINK Terminal in the network
• Link oriented (both sides of a microwave link) monitor and control
• ITU-T G.826/G.828 Performance monitor (Table/Graph presentation)
• SNMP Interface
2.12
PASOLINK Network Management Terminal (PNMTj)
• User-friendly operation as maintenance terminal
®
• Uses Windows 2000/XP, which enable use of Mobile PC
• Provides link oriented monitor and control to local or remotely accessed
PASOLINK terminal
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Pl040_2.doc
MTD-PL-040/200706
2.13
PASOLINK NEO STD 1+0/1+1 SYSTEM
Flexible ODU Mounting Configuration
Suitable configuration can be selected from various ODU mounting styles.
• Direct Mounting on Antenna
• Separate Mounting with Antenna using Waveguide or Coaxial Cable
• 1+1 system with Hybrid Combiner / Divider
• 2+0 system with Dual Pol. Antenna
2.13.1
1+0 SYSTEM
Configuration
Reference Drawings or Pictures
6 - 52 GHz
Direct Mount
Figure 1*
6 - 38 GHz
Remote Mount
Figure 9(a)
6/7/8 GHz
Remote Mount
Figure 9(b)*
*Standard Configuration
2.13.2
1+1 SYSTEM
Reference Drawings or Pictures
Configuration
Hybrid Combiner or Coupler
Two Antennas (for Space Diversity)
11 - 52 GHz
Direct Mount
Figure 9(c)*
Figure 9(d)*
11 - 38 GHz
Remote Mount
Figure 9(e)
Figure 9(f)
6/7/8 GHz
Remote Mount
Figure 9(g)*
Figure 9(i)*
Figure 9(h)*
*Standard Configuration
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
2.13.3
MTD-PL-040/200706
2+0 SYSTEM (Dual Pol. Antenna System for Adjacent channel or Co-Channel
assignment)
Reference Drawings or Pictures
Configuration
Direct Mount OMT
Dual Pol. Antenna
11 - 38 GHz
Direct Mount
Figure 9(j)
-
11 - 38 GHz
Remote Mount
-
Figure 9(k)
6/7/8 GHz
Remote Mount
-
Figure 9(l)
Antenna
Flexible waveguide
ODU Pole Mount Bracket
with Waveguide Adapter
ODU
Figure 9(a). 6 - 38 GHz Remote Mounting of 1+0 PASOLINK ODU
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Pl040_2.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
Antenna
Low Loss Cable (1 - 2 m)
ODU Pole Mount Bracket
ODU
Figure 9(b). 6/7/8 GHz Remote Mounting of 1+0 PASOLINK ODU
(6/7/8 GHz ODU has Waveguide Interface)
Hybrid
Combiner
Antenna
ODU 1
ODU 2
Figure 9(c). 11 - 52 GHz Direct Mounting of 1+1 PASOLINK ODU
(One Antenna with Hybrid Combiner unit)
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
ODU1
POLE
Antennas
ODU2
Figure 9(d). 11 - 38 GHz Direct Mounting of 1+1 PASOLINK ODU
with two Antennas
Antenna
Flexible Waveguide
ODU Pole Mount Bracket
with Waveguide Adapter
Hybrid Combiner
Figure 9(e). 11 - 38 GHz Remote Mounting of 1+1 PASOLINK ODU
with Hybrid Combiner
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Pl040_2.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
ODU 1
Antennas
Flexible
Waveguide
ODU Pole Mount
Bracket
ODU 2
Figure 9(f). 11 - 38 GHz Remote Mounting of 1+1 PASOLINK ODU with two
antennas
7/8 GHz Hybrid
Antenna
Low Loss Cable (1-2 m)
ODU 1
ODU Pole Mount
Bracket
ODU 2
Figure 9(g). 6/7/8 GHz Remote Mounting of 1+1 PASOLINK ODU with Hybrid
Combiner and one antenna
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
N connector Type (Typical outline is shown)
Figure 9(h). 6/7/8 GHz Hybrid Combiner of 1+1 PASOLINK System
ODU 1
Antennas
Low Loss Cable
(1 - 2 m)
ODU Pole Mount Bracket
ODU 2
Figure 9(i). 6/7/8 GHz Remote Mounting of 1+1 PASOLINK ODU with two
antennas
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Pl040_2.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
Antenna with Circular
Waveguide Interface
V Polarization
OMT
(Ortho-Mode
Transducer)
H Polarization
Figure 9(j). 11 - 38 GHz Direct Mount Dual Pol. System
Flexible Waveguide
Antenna
ODU 1
ODU 2
ODU Pole Mount Bracket
with Waveguide Adapter
Figure 9(k). 11 - 38 GHz Remote Mount Dual Pol. System
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Low Loss Cable
(1 - 2 m)
Dual Pol.
Antenna
ODU 1
ODU Pole
Mount Bracket
ODU 2
Figure 9(l). 6/7/8 GHz Remote Mount Dual Pol. System
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Pl040_2.doc
MTD-PL-040/200706
2.14
PASOLINK NEO STD 1+0/1+1 SYSTEM
Simple Choice in Indoor Menu
Simple selection is provided regarding IDU by below 2 items.
1) Radio protected type (1+0 Expandable or 1+1)
2) Digital data (PDH/SDH) with Ethernet (LAN) Interface or not.
Figure 10(a) to (k): IDU Front-face samples
Figure 10(a). Front View of 1+0 Expandable IDU 1U
2 port LAN interface (150 Mbps) + WS interface
Figure 10(b). Front View of 1+1 IDU 1U
SDH (Electrical) interface
Figure 10(c). Front View of 1+1 IDU 1U
SDH (Optical) interface
Figure 10(d). Front View of 1+1 IDU 1U
PDH (16xE1) with LAN interface
Figure 10(e). Front View of 1+1 IDU 1U
PDH (32xE1) with LAN interface
Pl040_2.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Figure 10(f). Front View of 1+1 IDU 1U
PDH (48xE1) interface
Figure 10(g). Front View of 1+1 IDU 1U
4 Port LAN interface
Figure 10(h). Front View of 1+1 IDU 1U
1-2 x E3 interface
Figure 10(i). Front View of 1+1 IDU 1U
GbE interface
Figure 10(j). Front View of 1+1 IDU 1U
4 Port LAN interface equipped with VLAN
Figure 10(k). Front View of 1+1 IDU 1U
GbE interface equipped with VLAN
- 20 -
Pl040_2.doc
MTD-PL-040/200706
3.
PASOLINK NEO STD 1+0/1+1 SYSTEM
BLOCK DIAGRAM AND DESCRIPTION
In case of the N x 2 Mbps systems, each I/O port is independent; therefore the 2 Mbps signal
can be used for different applications - such as relaying a 2 Mbps trunk line or video
conferencing.
Transmitter-Receiver (ODU)
Block diagram of the ODU is shown in Figure 11.
TX: 340 MHz
RX: 140 MHz
Figure 11. Block Diagram of ODU (6 - 52 GHz)
The transmitter-receiver is designed to handle an 8-155 Mbps digital signal in the 6-52 GHz
bands. The equipment is designed to withstand severe weather conditions. To achieve high
system gain performance, quadrature phase-shift keying (QPSK) modulation is applied. And
to achieve high frequency efficiency performance, 16/32/128-quadrature amplitude
modulation (16/32/128 QAM) is applied. This ODU can apply to each modulation. Figure 13
shows the Outdoor unit with weight and measurements.
Advanced integrated circuit technology, e.g., MMIC and MIC, is applied to the entire RF
circuit in ODU.
Pl040_3.doc
- 21 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Indoor Unit (IDU)
A basic block diagram of the IDU is shown in Figure 12.
MODULATOR/DEMODULATOR
USER INTERFACE
ODU INTERFACE
FEC/MOD
PDH INTFC
SDH INTFC
MPX
DPU
MODEM
FROM/TO
ODU
LAN INTFC
FEC/DEM
DSC
PSU
CONTROL
Figure 12. Basic Block diagram of IDU
The Indoor Unit has 6 functions (MPX, MODEM, DPU, INTFC, CONTROL and PSU). The
Multiplexer function (MPX) is interface to Outdoor Unit (ODU). The Modulator/Demodulator
function (MODEM) can select modulation type of QPSK or 16/32/128 QAM by software
setting. And MODEM has Forward error correction (FEC) also. The User interface function
(INTFC) is provided for PDH, SDH and LAN interface. A digital service channel (DSC) is
made by stuffing technique, and a PCM codec is employed to provide an Engineering order
wire (EOW). All digital processing functions have been assembled onto printed circuit boards
using LSI, VLSI and integrated circuit technology.
Protected system
The PASOLINK system is available in a non-protected 1+0 or protected using Hitless switch
1+1 Hot-Standby, Hot-Standby/space diversity, twin path configuration. The protected
system duplicates the vital system components in order to increase the system performance.
The indoor unit for a non-protected system is 1RU height which can be mounted in a
standard 19” rack and ETSI rack. For a protected system, 1+1 indoor unit is also 1RU height
equipment. Two types are possible for the outdoor configuration. The first is hybrid combiner
as a branching circuit using a single antenna. The second is to use a two antennas
configuration, without a branching unit, mounting two antennas directly on the Outdoor unit.
In case of space diversity system, 2 antennas system is essential. In both cases, the
standard 1+0 ODU can be used, which is 100% identical for the 1+0 and 1+1 configuration
(please refer to Figure 9(a) to 9(l)).
Detailed block diagrams of the non-protected system and protected system are shown in
Figure 14(a) and Figure 14(b).
- 22 -
Pl040_3.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
Coaxial Cable
A coaxial cable serves as the interconnection between transmitter-receiver (ODU) and MPX
function within IDU. The cable exchanges I/O data signals, DC power, alarm signals, TX
power, control signals for frequency, TX power, RX level and ODU primary voltage
monitoring signals. Depending on the cable type, IDU - ODU distance of over 300 m can be
supported.
Due to the use of different IF (Intermediate Frequency) for TX (340 MHz) and RX (140 MHz),
a single coaxial cable is sufficient. This results in quicker and easier installation.
Power Supply
The nominal power supply voltage is -48 VDC. However, the range of the unit is able to fit for
nominal voltages of +24 VDC by additional unit.
Pl040_3.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
170
mm
Weight: 3.5 kg
68.6
mm
170 mm
Figure 13(a). Outdoor unit (6 - 11, 28, 32 and 52 GHz)
170 mm
Weight: 3 kg
60
mm
165 mm
Figure 13(b). Outdoor unit (13 - 26 and 38 GHz)
Note: Above figures show the external flat dimensions except the mounting arms,
projections, handle, wave-guide flange and connectors.
- 24 -
Pl040_3.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
IDU
Data
INTFC
ODU
MODEM
DPU/FEC
MOD
TX
BPF
RX
BPF
TX
BPF
RX
BPF
IN
MPX
EQL DEM
OUT
PSU
10/100Base-T
PSU
LAN INTFC
ODU
MODEM
DPU/FEC
MOD
MPX
CTRL
EQL
DEM
CONTROL
SC,OW
ALM
MPX
IF
AGC
ALM/SC
MPX
IF
AGC
PSU
PSU
DC -48V
Figure 14(a). Block Diagram of Non-protected System (1 + 0 Expandable)
IDU
Data
INTFC
ODU
MODEM
DPU/FEC
MOD
IN
MPX
OUT
EQL
PSU
10/100Base-T
DEM
TX
BPF
RX
BPF
MPX
IF
AGC
PSU
LAN INTFC
CTRL
CONTROL
SC,OW
ALM
ALM/SC
DC -48V
Figure 14(b). Block Diagram of Protected System (1 + 1)
Pl040_3.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
This page is intentionally blank.
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Pl040_3.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
4.
NETWORK MANAGEMENT SYSTEM
4.1
General
The PASOLINK Network Management System Java version (PNMSj) provides easy-to-use
monitoring, control, configuration and management of PASOLINK family radio networks.
PNMSj has the features as bellow:
Monitor PASOLINK family radio equipment status.
Control and configure PASOLINK family radio equipment.
Collect Link Performance data.
Update PASOLINK family radio network configuration data.
The Key elements of NMS for PASOLINK are as follows.
Central Computer: PASOLINK Network Management System
The PNMSj is located at a central or a regional operation center and enables network
operators to monitor and control the PASOLINK family network elements (NEs) using most
Web browsers.
PNMSj provides a single access point from where to monitor and control an entire network
continuously. The PNMSj software contains overview maps of the network and its subnetworks to provide an easy, single glance, overview of an entire network.
Mobile Terminal: PASOLINK Network Management Terminal
®
A mobile terminal, consisting of a Mobile PC with Windows 2000/XP Operating system and
a simplified version of the PASOLINK Network Management software, called PNMTj, can be
provided for maintenance purpose.
This configuration can monitor and control a single PASOLINK link at a time. Any link in the
network, connected via the digital service channel, can be monitored and controlled remotely
from the Mobile PC.
PASOLINK Management function
The PASOLINK Management function is mounted on the MAIN BOARD module for the
PASOLINK IDU. It takes care of the communication between the PASOLINK terminal and
Network Management system. In addition, it collects event and performance data from the
PASOLINK equipment and stores it. They can communicate with each other via one of the
service channels to enable remote access to any PASOLINK in a network from a single
access point. Figure 15 shows the concept of NMS for PASOLINK.
Pl040_4.doc
- 27 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Digital Service Channel, 64 kbps~2 Mbps*
ODU
IDU
USB
10 Base-T
PNMTj
*In case of using SDH SC LAN or PDH LAN,
2 Mbps available
PNMSj
Figure 15. NMS CONCEPT
4.2
Features
4.2.1 Any platform
®
®
Free from OS limitations, PNMSj runs on either Windows 2000/XP or UNIX . PNMSj is
based on SNMP Manager/Agent Technology.
4.2.2 User-friendly operation
PNMSj displays a network overview with click and pull down menus to obtain detailed status
information and to change the configuration of the network elements.
The multiple level window structure provides easy guidance to pinpoint the PASOLINK
station of concern and subsequently the component of concern.
Starting with a map showing the sub-groups, followed by maps showing the various subgroup configurations, an operator can find an overview window for any PASOLINK station
quickly.
- 28 -
Pl040_4.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
4.2.3 Link oriented Management and Control
For operational convenience, the PNMSj/PNMTj automatically displays the status of the
opposite PASOLINK station together with key link parameters.
4.2.4 Remote access and control
PNMSj Clients are able to monitor and control NEs using most Web browsers (IE, etc).
Remote NEs can be accessible using either PPP serial interface or LAN interface.
4.2.5 Event logging
This PNMSj is useful for monitoring all events occurring within the network. It is designed to
ease the maintenance and troubleshooting work on the PNMSj. The events are listed in an
easy–to-view formats giving the user information about the date and time it occurred, the
network element where it occurred, its item and status. The User column has offered for
event log that the user controlled, and showing login user name is also supported.
The event log window is incorporated in the PNMSj main window. The logs are displayed at
the bottom of the PNMSj screen.
4.2.6 Alarm Management
The Active Alarm function supports monitoring of active alarms on all connected network
elements. Alarms that have been cleared in the NE will remove on the Active Alarm window
and logged in the Alarm History window.
The Alarm Information View is used to view the summary of current active alarms. This
screen shows the list of active alarm information of NEs belonging to the same group. The
list also shows what alarm severities are currently active in the NE and whether it has been
acknowledged or not.
The total count of current active alarms (Not Ack and Total) in each category is shown at the
top of the main window.
4.2.7 ITU-T G.826 performance monitor
The PNMSj is able to retrieve the performance data of all listed PASOLINK stations and their
associated microwave link in accordance with ITU-T specification G.826.
- Scheduled or on-demand upload
- Report or chart presentation
- Threshold setting and alerts
Pl040_4.doc
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
4.2.8 Security
Users are registered by means of a login name and password.
To protect the network and network management system from unauthorized access or
unauthorized modifications, the privileges are assigned to the groups rather than to the
individual user. A user will have the privilege provided to the group where it belongs.
Moreover, the control of network elements can be customized and provided only to specific
groups. This allows the administrator a high-flexibility of assigning not only the PNMSj
functions but also the control and management of individual NE.
Lastly, users and groups created in PNMSj are internal to PNMSj only and do not correspond
to Windows users and groups.
4.2.9 SNMP interface
PNMSj provides an SNMP interface to make the PASOLINK equipment an integral part of a
higher level of network management system.
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Pl040_4.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5. PERFORMANCE
5.1 General
STANDARD (STD) type
Item
Capacity
PDH
SDH
LAN(*1)
Up to 100/2x100 Mbps(*2)
155/2x155 Mbps (*2)
Up to 100 Mbps for PDH
Up to 150 Mbps for SDH
Optical: LC
Electrical: IEC 169-29(1.0/2.3)
Up to 2xSTM-1 (*3)
RJ-45
10/100/1000 Base-T(X)
LC: 1000 Base-SX/LX
D-sub 37: 5/10/16xE1
MDR68:
5/10/20/32/40/48xE1
Interface
QPSK
XPIC function
IEC 169-29 (1.0/2.3)
2xE3
-
-
-
16 QAM
2x40E1
-
-
32 QAM
2x48E1
-
-
128 QAM
-
2xSTM-1
2x150 Mbps
2 Way (Radio transmission capacity up to 80 Mbps, Tributary up to 16E1,
LAN transmission available with L2 switch function)
DXC function
Interconnecting Connector, Cable
impedance and Cable length
(IDU-ODU)
Channel Spacing
(*4)
ODU side: N type female, 50 ohms (Coaxial)
IDU side: TNC type female, 50 ohms (Coaxial)
300m (in case of 8D-FB cable or equivalent cable)
QPSK
7 MHz, 14 (13.75)
MHz, 28 (27.5) MHz
28 (27.5) MHz
-
7 MHz, 14 (13.75) MHz,
28 (27.5) MHz
16 QAM
3.5 MHz, 7 MHz,
14 (13.75) MHz,
28 (27.5) MHz
14 (13.75) MHz,
28 (27.5) MHz
-
3.5 MHz, 7 MHz, 14 (13.75)
MHz, 28 (27.5) MHz
32 QAM
28 (27.5) MHz
-
28 (27.5) MHz
-
128 QAM
Environmental
Requirement
-
28 (27.5) MHz
ODU: -33 to +50°C
IDU: -5 to +50°C
Workable
Operation
ODU:-40 to +55°C
IDU: -10 to +55°C
Transportation/
Storage
ODU, IDU: -40 to +70°C
Relative humidity
ODU: 100% applicable
IDU: Less than 95% at +50°C (Non-condensing)
EMC
Conforms to EN301 489-4
Safety
Conforms to EN60950-1
Power Requirement
-48 VDC (-40.5 to -57 VDC) , Conforms to EN300 132-2
Power Consumption(Typical)
ODU
IDU Card/Unit
(1+0 =
MODEM +
INTFC + CTRL
(1+0))
1+0 Expandable
1+1
30 W (6 - 11 GHz), 23 W (13 - 52 GHz)
30 W x 2 (6 - 11GHz), 23 W x 2 (13 - 52 GHz)
PDH/SDH
MODEM
10 W
2M INTFC (48xE1)
8W
0.4 kg
2M INTFC (32xE1 + 2P LAN)
8W
0.4 kg
2M INTFC (16xE1 + 2P LAN)
8W
0.4 kg
34M INTFC (1/2xE3)
8W
0.4 kg
4P LAN INTFC
8W
0.4 kg
4P VLAN INTFC
8W
0.4 kg
PDH
(1+1 =
MODEM x 2 +
INTFC +
CTRL (1+1))
SDH
Common
Mechanical Dimentions
ODU
IDU
28 (27.5) MHz
Guaranteed
Operation
0.5 kg
STM-1O INTFC
5W
0.3 kg
STM-1E INTFC
5W
0.3 kg
LAN/WS INTFC
5W
0.3 kg
GbE INTFC
5W
0.3 kg
GbE VLAN iNTFC
9W
0.4 kg
CTRL
1+0: 7W, 1+1: 9W
1.0 kg
1+0 Expandable
1+1
6-11, 28, 32, 52
GHz
237(W)x237(H)x101(D): Approx.3.5 kg ;One ODU
Double ODU
13-26, 38 GHz
239(W)x247(H)x68(D): Approx.3 kg ;One ODU
Double ODU
482(W)x44(H)x230(D): Approx.4 kg
Only to add MODEM from 1+0 Expandable
- : Not available
*1: For 48E1 INTFC, LAN is not applicable.
*2: Using 2 sets for XPIC
Pl040_5.doc
*3: For APS configuration
*4: 13.75 or 27.5 MHz is also applied for 18 GHz.
- 31 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.2 Baseband Interface
The NEC PASOLINK system has the ITU-T standard interface conditions as listed
below:
5.2.1
Digital Signal Interface [replaceable]
(1) E1 Interface
• Signal Rate
:
5, 10, 16xE1 (2.048 Mbps) / D-sub 37 pins
5, 10, 20, 32, 40, 48 x E1 (2.048 Mbps) / MDR68
• Interface
:
• Impedance
HDB-3 (ITU-T G.703)
:
75 ohms / 120 ohms (switchable)
(2) E3 Interface
• Signal Rate
:
1 to 2 (max) x 34.368 Mbps
• Interface
:
HDB-3 (ITU-T G.703)
• Impedance
:
75 ohms
• Connector
:
IEC 169-29 (1.0/2.3)
(3) STM-1 Optical Interface
• Signal Rate
:
155.52 Mbps
• Interface
:
S-1.1/L-1.1 (ITU-T G.957)
Wave length 1.3 µm (single mode optical fiber cable)
• SDH type
:
RST
• Connector
:
LC
(4)STM-1 Electrical Interface
• Signal Rate
:
155.52 Mbps
• Interface
:
CMI (ITU-T G.703)
• Impedance
:
75 ohms (Electrical)
• SDH type
:
RST
• Connector
:
IEC 169-29 (1.0/2.3)
- 32 -
Pl040_5.doc
MTD-PL-040/200706
5.2.2
PASOLINK NEO STD 1+0/1+1 SYSTEM
LAN Interface (10/100 Base-T(X))
• Type
: 10 Base-T/100 Base-TX (Auto-sensing or fixed)
• Port Number and Interface : 2 to 4 (Each port is separated), RJ-45
• Transmission Rate
: Selectable and rest E1 channels
• Flow control
: 802.3 x (Full duplex) or Back Pressure (Half
duplex)
• Forwarding Mode
: Store-and-Forwarding
(This interface card is worked as “LAN Bridge”
and compliant with IEEE802.3)
Note: In case of employing main traffic LAN interface, LAN ports and E1
ports can be used at the same time. However, the numbers of E1 port are
limited depending on the selected LAN transmission rate as shown in the
following tables.
(1) 2 Port LAN with WS INTFC
150 Mbps (128 QAM)
LAN Setting
Port 1
LAN capacity [Mbps]
Port 2
P1 & P2 = 150 Mbps Best effort (separated)
Pl040_5.doc
150
P1 = 75 Mbps separated
P2 = 75 Mbps separated
150
P1 = 100 Mbps separated
P2 = 50 Mbps separated
150
P1 = 100 Mbps separated
Disabled
100
- 33 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(2) 2 Port LAN with 32E1 INTFC
100 Mbps (32 QAM)
LAN Setting
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 100 Mbps shared (*1)
100
0
P1 & P2 = shared from 100 Mbps to 36 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 36 Mbps shared
36
32
Port 1
Port 2
P1 = 50 Mbps separated
P2 = 50 Mbps separated
100
0
P1 = 40 Mbps separated
P2 = 40 Mbps separated
80
10
P1 = 30 Mbps separated
P2 = 30 Mbps separated
60
20
P1 = 20 Mbps separated
P2 = 20 Mbps separated
40
30
P1 = 18 Mbps separated
P2 = 18 Mbps separated
36
32
Disabled
Disabled
0
32
*1: LAN capacity can be set in 2 Mbps step. (P1 & P2 Shared mode)
80 Mbps (16 QAM)
LAN Setting
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 80 Mbps shared (*1)
80
0
P1 & P2 = shared from 80 Mbps to 16 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 16 Mbps shared
16
32
Port 1
Port 2
P1 = 40 Mbps separated
P2 = 40 Mbps separated
80
0
P1 = 30 Mbps separated
P2 = 30 Mbps separated
60
10
P1 = 20 Mbps separated
P2 = 20 Mbps separated
40
20
P1 = 10 Mbps separated
P2 = 10 Mbps separated
20
30
P1 = 8 Mbps separated
P2 = 8 Mbps separated
16
32
Disabled
Disabled
0
32
*1: LAN capacity can be set in 2 Mbps step. (P1 & P2 Shared mode)
- 34 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
40 Mbps (16 QAM/QPSK)
LAN Setting
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 40 Mbps shared (*1)
40
0
P1 & P2 = shared from 40 Mbps to 2 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 2 Mbps shared
2
19
Port 1
Port 2
P1 = 20 Mbps separated
P2 = 20 Mbps separated
40
0
P1 = 10 Mbps separated
P2 = 10 Mbps separated
20
10
Disabled
Disabled
0
20
*1: LAN capacity can be set in 2 Mbps step. (P1 & P2 Shared mode)
20 Mbps (16 QAM/QPSK)
LAN Setting
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 20 Mbps shared
20
0
P1 & P2 = shared from 20 Mbps to 2 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 2M shared
2
9
Port 1
Port 2
P1 = 10 Mbps separated
P2 = 10 Mbps separated
20
0
Disabled
Disabled
0
10
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 10 Mbps shared
10
0
P1 & P2 = shared from 10 Mbps to 2 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 2M shared
2
4
0
5
10 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Port 2
Disabled
Pl040_5.doc
Disabled
- 35 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(3) 2 Port LAN with 16E1 INTFC
80 Mbps (16 QAM)
LAN Setting (*2)
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 80 Mbps shared (*1)
80
0
P1 & P2 = shared from 80 Mbps to 48 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 48 Mbps shared
48
16
Port 1
Port 2
P1 = 40 Mbps separated
P2 = 40 Mbps separated
80
0
P1 = 30 Mbps separated
P2 = 30 Mbps separated
60
10
P1 = 24 Mbps separated
P2 = 24 Mbps separated
48
16
Disabled
Disabled
0
16
*1: LAN capacity can be set in 2 Mbps step. (P1 & P2 Shared mode)
*2: For Star and Mixed mode in 2 WAY, P1 & P2 capacities are the same values with shared
mode.
40 Mbps (16 QAM/QPSK)
LAN Setting (*2)
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 40 Mbps shared (*1)
40
0
P1 & P2 = shared from 40 Mbps to 8 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 8 Mbps shared
8
16
Port 1
Port 2
P1 = 20 Mbps separated
P2 = 20 Mbps separated
40
0
P1 = 10 Mbps separated
P2 = 10 Mbps separated
20
10
P1 = 4 Mbps separated
P2 = 4 Mbps separated
8
16
Disabled
Disabled
0
16
*1: LAN capacity can be set in 2 Mbps step. (P1 & P2 Shared mode)
*2: For Star and Mixed mode in 2 WAY, P1 & P2 capacities are the same values with shared
mode.
- 36 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
20 Mbps (16 QAM/QPSK)
LAN Setting (*2)
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 20 Mbps shared
20
0
P1 & P2 = shared from 20 Mbps to 2 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 2M shared
2
9
Port 1
Port 2
P1 = 10 Mbps separated
P2 = 10 Mbps separated
20
0
Disabled
Disabled
0
10
*2: For Star and Mixed mode in 2 WAY, P1 & P2 capacities are the same values with shared
mode.
10 Mbps (16 QAM/QPSK)
LAN Setting (*2)
LAN capacity [Mbps]
E1 capacity [channels]
P1 & P2 = 10 Mbps shared
10
0
P1 & P2 = shared from 10 Mbps to 2 Mbps
(2 Mbps step)
(1 CH step)
P1 & P2 = 2M shared
2
4
0
5
Port 1
Port 2
Disabled
Disabled
*2: For Star and Mixed mode in 2 WAY, P1 & P2 capacities are the same values with shared
mode.
Pl040_5.doc
- 37 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(4) 2 Port LAN with E3 INTFC
80 Mbps (16 QAM)
LAN capacity
[Mbps]
E3 capacity
[channels]
WS (E1)
capacity
[channels]
P1 & P2 = 16 Mbps shared
16
2
0
P1 & P2 = shared from 16 Mbps to 2 Mbps
(2 Mbps step)
2
(1 CH step)
P1 & P2 = 2M shared
2
2
1
0
2
8
LAN capacity
[Mbps]
E3 capacity
[channels]
WS (E1)
capacity
[channels]
P1 & P2 = 8 Mbps shared
8
1
0
P1 & P2 = shared from 8 Mbps to 2 Mbps
(2 Mbps step)
1
(1 CH step)
P1 & P2 = 2 Mbps shared
2
1
1
0
1
4
LAN Setting
Port 1
Port 2
Disabled
Disabled
40 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Disabled
Port 2
Disabled
- 38 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
(5) 4 Port LAN with 4 or 8E1 INTFC
100 Mbps (32 QAM)
LAN Setting
Port 1
Port 2
Port 3
E1 capacity
[channels]
100
4
100
4
Port 4
P1 ~ P4 = 100 Mbps shared
P1 & P2 = 50 Mbps separated
LAN capacity
[Mbps]
P3 & P4 = 50 Mbps separated
P1 = 25 Mbps
separated
P2 = 25 Mbps
separated
P2 = 25 Mbps
separated
P2 = 25 Mbps
separated
100
4
Disabled
Disabled
Disabled
Disabled
0
4
(Total capacity: 108 Mbps)
80 Mbps (16 QAM)
LAN Setting
Port 1
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 80 Mbps shared
80
0
P1 ~ P4 = shared from 64 Mbps to 80 Mbps
(2 Mbps step)
(1 CH step)
Port 2
Port 3
Port 4
P1 & P2 = 40 Mbps shared
P3 & P4 = 40 Mbps shared
80
0
P1 & P2 = 32 Mbps shared
P3 & P4 = 32 Mbps shared
64
8
P1 = 20 Mbps
separated
P2 = 20 Mbps
separated
P3 = 20 Mbps
separated
P4 = 20 Mbps
separated
80
0
P1 = 16 Mbps
separated
P2 = 16 Mbps
separated
P3 = 16 Mbps
separated
P4 = 16 Mbps
separated
64
8
Disabled
Disabled
Disabled
Disabled
0
8
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 40 Mbps shared
40
0
P1 ~ P4 = shared from 24 Mbps to 40 Mbps
(2 Mbps step)
(1 CH step)
40 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Port 2
Port 3
Port 4
P1 & P2 = 20 Mbps shared
P3 & P4 = 20 Mbps shared
40
0
P1 & P2 = 12 Mbps shared
P3 & P4 = 12 Mbps shared
24
8
P1 = 10 Mbps
separated
P2 = 10 Mbps
separated
P3 = 10 Mbps
separated
P4 = 10 Mbps
separated
40
0
P1 = 6 Mbps
separated
P2 = 6 Mbps
separated
P3 = 6 Mbps
separated
P4 = 6 Mbps
separated
24
8
Disabled
Disabled
Disabled
Disabled
0
8
Pl040_5.doc
- 39 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
20 Mbps (16 QAM/QPSK)
LAN Setting
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 20 Mbps shared
20
0
P1 ~ P4 = shared from 4 Mbps to 20 Mbps
(2 Mbps step)
(1 CH step)
20
0
0
8
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 10 Mbps shared
10
0
P1 ~ P4 = shared from 2 Mbps to 10 Mbps
(2 Mbps step)
(1 CH step)
0
5
Port 1
Port 2
Port 3
Port 4
P1 & P2 = 10 Mbps shared
P3 & P4 = 10 Mbps shared
Disabled
Disabled
Disabled
Disabled
10 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Port 2
Disabled
5.2.3
Disabled
Port 3
Port 4
Disabled
Disabled
LAN Interface (GbE)
Interface type
1000 Base-SX (*1)
(IEEE 802.3z)
1000 Base-LX (*1)
(IEEE 802.3z)
1000 Base-T (*1, 2)
(IEEE 802.3ab)
Gigabit Ether signal,
Optical Interface
Gigabit Ether signal,
Optical Interface
Gigabit Ether signal,
Electrical Interface
Throughput
150 Mbps
150 Mbps
150 Mbps
Connector type
LC
LC
RJ-45
Optical fiber cable
multi mode
single mode
Port Number
1 port
1 port
1 port
*1: 1000 Base-SX/LX or 1000 Base-T is exclusive use.
*2: 1000 Base-T port can be used as 10 Base-T/100 Base-TX.
- 40 -
Pl040_5.doc
MTD-PL-040/200706
5.2.4
PASOLINK NEO STD 1+0/1+1 SYSTEM
VLAN Function
• LAN Interface: (a)Fast Ethernet
10 Base-T/100 Base-TX (IEEE 802.3/802.3u/802.3x),
64 to 1536 Bytes frame size, RMON (Option)
(b)Gigabit Ethernet
1000 Base-SX/LX (IEEE 802.3z) or 1000 Base-T (IEEE 802.3ab),
64 to 9600 Bytes frame size, RMON (Option),
Link Aggregation up to 300 Mbps
• Link Down Control: Selectable
(a)Disabled (Default)
(b)Radio Only
(c)Radio + LLF (Any Port)
(d)Radio + LLF (All Port)
• MAC Address Learning
: 1024 (max)
• VLAN Mode : (a)Port VLAN
Port group
:8
(b)TAG VLAN
VID
: 1 to 4094
VID group : 64
Non Tag Framing Handling/Un Tag Map Drop function
(c)Port + TAG VLAN
Port group : 8
VID
: 1 to 4094
VID group : 64
Non Tag Framing Handling/Un Tag Map Drop function
(d)Double TAG VLAN
VID
: 1 to 4094
VID group : 64
Un Tag Map Drop function
• QoS Mode
: (a)IEEE802.1q CoS
Priority Level : 4 Classes (PQ3 (High) - PQ0 (Low))
Scheduling
: Weighted Round Robin (WRR) or
Strict Priority (PQ3) + WRR (PQ2-0)
(b)DSCP
Priority Level : 4 Classes (PQ3 (High) - PQ0 (Low))
Scheduling
: Weighted Round Robin (WRR) or
Strict Priority (PQ3) + WRR (PQ2-0)
(c)ToS
Priority Level : 4 Classes (PQ3 (High) - PQ0 (Low))
Scheduling
: Weighted Round Robin (WRR) or
Strict Priority (PQ3) + WRR (PQ2-0)
Pl040_5.doc
- 41 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(1) 4 Port VLAN with 4 or 8E1 INTFC
100 Mbps (32 QAM)
LAN Setting
Port 1
Port 2
Port 3
LAN capacity
[Mbps]
E1 capacity
[channels]
100
4
Port 4
P1 ~ P4 = 100 Mbps shared
(Total capacity: 108 Mbps)
80 Mbps (16 QAM)
LAN Setting
Port 1
Disabled
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 80 Mbps shared
80
0
P1 ~ P4 = shared from 64 Mbps to 80 Mbps
(2 Mbps step)
(1 CH step)
0
8
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 40 Mbps shared
40
0
P1 ~ P4 = shared from 24 Mbps to 40 Mbps
(2 Mbps step)
(1 CH step)
0
8
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 20 Mbps shared
20
0
P1 ~ P4 = shared from 4 Mbps to 20 Mbps
(2 Mbps step)
(1 CH step)
0
8
LAN capacity
[Mbps]
E1 capacity
[channels]
P1 ~ P4 = 10 Mbps shared
10
0
P1 ~ P4 = shared from 2 Mbps to 10 Mbps
(2 Mbps step)
(1 CH step)
0
5
Port 2
Port 3
Disabled
Port 4
Disabled
Disabled
40 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Disabled
Port 2
Port 3
Disabled
Port 4
Disabled
Disabled
20 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Disabled
Port 2
Port 3
Disabled
Port 4
Disabled
Disabled
10 Mbps (16 QAM/QPSK)
LAN Setting
Port 1
Disabled
Port 2
Disabled
Port 3
Port 4
Disabled
Disabled
- 42 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
(2) GbE VLAN INTFC
Normal mode: 150 Mbps (128 QAM)
Port Shared Setting
LAN Setting
Port 1
Port 2
Port 3
LAN capacity
[Mbps]
WS (E1)
capacity
[channels]
150
1
Port 4
P1 ~ P4 = 150 Mbps shared
Stack mode (Link Aggregation): 2x150 Mbps (128 QAM) CCDP within 28 MHz bandwidth
Master IDU: Stack Master (Port Shared) Setting
LAN Setting
Port 1
Port 2
Port 3
LAN capacity
[Mbps]
WS (E1)
capacity
[channels]
300
1
LAN capacity
[Mbps]
WS (E1)
capacity
[channels]
-
1
Port 4
P1 ~ P4 = 300 Mbps shared
Slave IDU: Stack Slave Setting
LAN Setting
Port 1
Port 2
Port 3
Port 4
-
-: Not used (Each port is used as LAN band of Master IDU Port.)
Port 1
Interface type
1000 Base-SX (*1)
(IEEE 802.3z)
1000 Base-LX (*1)
(IEEE 802.3z)
1000 Base-T (*1, 2)
(IEEE 802.3ab)
Gigabit Ether signal,
Optical Interface
Gigabit Ether signal,
Optical Interface
Gigabit Ether signal,
Electrical Interface
Throughput
150 Mbps
150 Mbps
150 Mbps
Connector type
LC
LC
RJ-45
Optical fiber cable
multi mode
single mode
*1: 1000 Base-SX/LX or 1000 Base-T is exclusive use.
*2: 1000 Base-T port can be used as 10 Base-T/100 Base-TX.
Port 2 to 4: 10 Base-T/100 Base-TX
Pl040_5.doc
- 43 -
-
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.2.4
5.2.5
MTD-PL-040/200706
Service Channel (SC)
• Port SC1 and SC2
:
V.11, 64 kbps SYNC (Contra/Co-directional: Selectable)
• Port SC3 and SC4
:
RS-232C, 9.6 kbps ASYNC
• Port SC5
:
Engineering order wire 1 channel
• Connector
:
High Density D-sub 44 pins
• LAN Interface
:
SC LAN Interface (Throughput: 64/128/256 kbps)
(In case of using PDH-16E1/32E1/1E3 or WS-SC-LAN
INTFC)
LCT (PNMT) Interface
• USB 1.1
5.2.6
Connector type B
:
Connector RJ-45
PNMS Interface
• 10 Base-T
5.2.7
:
RF I/O Port
• Interface Flange
:
Antenna direct mount type
:
6 GHz: N/A
7/8 GHz: PDR84
11-52 GHz: NEC original interface
Coaxial connector interface type : 6/7/8 GHz: N (Female)
Wave-guide interface type
: 6 GHz:
PDR70
7/8 GHz: PDR84
10/11 GHz: PDR-100
13 GHz: PBR120 or PBR140
15 GHz: PBR140
18/23 GHz: PBR220
26 GHz: PBR260
28/32/38 GHz: PBR320
52 GHz: N/A
Polarization
:
Field changeable (Vertical or Horizontal)
- 44 -
Pl040_5.doc
MTD-PL-040/200706
5.2.9
PASOLINK NEO STD 1+0/1+1 SYSTEM
Parallel Alarm Interface
• Output port
:
Relay Contact (Form-C); 6 outputs max.
(Assignable 4 outputs for multiple items)
• Input port
:
Photo coupler; 6 items max.
• Cluster ALM port
:
IN/OUT pair
4 items max.
Up to 4 cluster alarms are provided. Cluster ALM signal
received at IN port is automatically transmitted to the
opposite site of OUT port. Each cluster port shall be
assigned per your requirement.
• Connector
:
High Density D-sub 44 pins
5.2.10 Wayside
(1) PDH (PDH-1E3 INTFC)
In case of 2 x E3 (34 Mbps), up to eight (8) wayside channels and in case of 1 x E3
capacity, up to four (4) wayside channels can be used as E1 or LAN interface.
(2) SDH (WS-SC-LAN INTFC)
In case of 155 Mbps capacity, one (1) wayside channel can be used as E1 or LAN
interface (using WS-SC-LAN INTFC on sub slot).
Note: E1 or LAN interface is exclusive use.
(3) LAN (SDH-GBE-( )-VLAN INTFC)
One (1) wayside channel can be used as E1 interface.
Pl040_5.doc
- 45 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.2.11 Interface Card Menu
Item
Main Interface
SDH Sub Interface
(Option)
Parameter
Panel Explanation
Available Capacity
PDH-16E1
16E1 + 2 port LAN (D-sub 37, 75/120 ohms selectable)
10 - 80 Mbps
PDH-16E1 DXC
16E1 + 2 port LAN (D-sub 37, 75/120 ohms selectable)
with 2-Way / Cross Connect function
10 - 80 Mbps
PDH-32E1
32E1 + 2 port LAN (MDR68, 75/120 ohms selectable)
10 - 100 Mbps
PDH-48E1
48E1 (MDR68, 75/120 ohms selectable)
10 -100 MbpsÀ
PDH-1E3
1 or 2E3 (34 Mbps) + WS (4 or 8E1) + 2 port LAN
PDH-4P-LAN
4 port LAN + 4 or 8E1
10 - 100 Mbps
PDH-4P-VLAN
4 port LAN + 4 or 8E1
10 - 100 Mbps
STM1-O-S11
STM-1 Optical S-1.1 (connector type LC)
155 Mbps
STM1-O-L11
STM-1 Optical L-1.1 (connector type LC)
155 Mbps
STM1-E
STM-1 Eelcrtrical (IEC 1.0/2.3 coaxial)
155 Mbps
SDH-2P-LAN
2 port 10/100 Base-T(X) (2xRJ-45)
155 Mbps
SDH-GBE-SX
1000 Base-T (RJ-45) or 1000 Base-SX (LC)
150 Mbps
SDH-GBE-LX
1000 Base-T (RJ-45) or 1000 Base-LX (LC)
150 Mbps
SDH-GBE-SX-VLAN
1000 Base-T (RJ-45) or 1000 Base-SX (LC) + 3Port LAN + WS (E1)
150 Mbps
SDH-GBE-LX-VLAN
1000 Base-T (RJ-45) or 1000 Base-LX (LC) + 3Port LAN + WS (E1)
150 Mbps
WS-SC-LAN
WS (E1) and WS/Service Channel LAN for STM-1
155 Mbps
WS
WS(E1) for STM-1
155 Mbps
NOT-USED
Blank Pannel
40/80 MbpsÀ
-
À: This mark shows the difference between the capacity set and the maximum interface capacity.
5.2.12 Interface Card Combination
Mounting Position
INTFC Type
Sub Slot
Remarks
STM1-O-( )*
STM1-E
SDH-GBE
V
V
-
-
-
V
-
-
-
-
V
-
-
-
V
V
-
-
-
-
V
-
-
-
V
V
-
-
-
-
V
-
-
-
V
V
-
-
-
-
V
-
-
-
V
Main Slot
WS-SC-LAN*
APS function (Option)
STM1-O-( )
STM1-E
Refer to 5.2.10
Refer to 5.2.10
SDH-GBE
Refer to 5.2.10
SDH-2P-LAN
Refer to 5.2.10
*: Option
V: Available, -: Not available
- 46 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.3 ODU (Outdoor Unit) and System performance
(1) QPSK
Frequency Band
(GHz)
Range (GHz)
Interface
type
Direct
Mount
Remote
mount
Output Power (dBm
nominal) (Measured at
Ant. port)
6
7-8
10-11
13
15
18
23
26
28
32
38
52
Guaranteed
5.9257.125
7.1258.5
10.15
-11.7
12.7513.25
14.215.35
17.719.7
21.223.6
24.25
-26.5
27.529.5
31.833.4
37.040.0
51.452.6
-
N/A
PDR 84
N type
or
PDR 70
N type
or
PDR 84
+29
-
NEC Original
PDR
100
PBR
120
PBR
140
+25
PBR
220
+23
PBR
220
PBR
260
PBR
320
+24
PBR
320
PBR
320
N/A
+18
+3
+22
-
6-28G: ± 1.5 dB
32-52G: +1.5/-2.5 dB
Power Control (1dB
step, variable)
0 to 30 dB
0 to 25 dB
0 to 10
dB
± 1.0 dB
ATPC (1dB step)
0 to 30 dB
0 to 25 dB
0 to 10
dB
-
± 6 ppm
Frequency Stability
±10 ppm
(dBm measured at Ant. port) BER = 10-6
Threshold Level
+ 3.0 dB
CS* = 28 (27.5)MHz
(40 Mbps)
-84
-83
-83.5
-83
-81.5
-78
14 (13.75) MHz
(20 Mbps)
-87
-86
-86.5
-86
-84.5
-81
7 MHz
(10 Mbps)
-90
-89
-89.5
-89
-87.5
-84
BER = 10-3
Above value -1.5 dB
(dB measured at Ant. port) BER = 10-6
System Gain
6-26G: - 3.0 dB
28-52G: -4.0 dB
CS* = 28 (27.5)MHz
(40 Mbps)
113
108
106.5
107.5
105
103.5
99.5
81
14 (13.75) MHz
(20 Mbps)
116
111
109.5
110.5
108
106.5
102.5
84
7 MHz
(10 Mbps)
119
114
112.5
113.5
111
109.5
105.5
87
BER = 10-3
Maximum Input Level
Residual BER
Above value +1.5 dB
-15 dBm (No Error)
-
Less than 10-12 at RSL = -30 dBm
-
*Channel Separation
Pl040_5.doc
- 47 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(2) 16 QAM
Frequency Band (GHz)
Range (GHz)
Interface type
Direct
Mount
Remote
mount
Output Power (dBm
nominal) (Measured at
Ant. port)
6
7-8
10-11
13
15
18
23
26
28
32
38
Guaranteed
5.9257.125
7.125-8.5
10.15
-11.7
12.7513.25
14.215.35
17.719.7
21.223.6
24.2526.5
27.529.5
31.833.4
37.040.0
-
N/A
PDR 84
N type
or
PDR 70
N type
or
PDR 84
+27
-
NEC Original
PDR
100
PBR
120
+21.5
PBR
140
PBR
220
+22.5
PBR
220
PBR
260
PBR
320
PBR
320
PBR
320
+20
+18
+17
+14.5
+22
6-28G: ± 1.5 dB
32-38G: +1.5/-2.5 dB
Power Control (1dB step,
variable
0 to 24 dB
± 1.0 dB
ATPC (1dB step)
0 to 24 dB
-
± 6 ppm
±10 ppm
Frequency Stability
(dBm measured at Ant. port) BER = 10-6
Threshold Level
+ 3.0 dB
CS*=28(27.5)MHz
(80 Mbps)
-77
-76
-76.5
-76
-74.5
14(13.75)MHz
(40 Mbps)
-80
-79
-79.5
-79
-77.5
7MHz
(20 Mbps)
-83
-82
-82.5
-82
-80.5
3.5MHz
(10 Mbps)
-86
-85
-85.5
-85
-83.5
BER = 10-3
Above value -1.5 dB
(dB measured at Ant. port) BER = 10-6
System Gain
- 3.0 dB
CS*=28(27.5)MHz
(80 Mbps)
104
97.5
98.5
99
98.5
96
94
91.5
89
14(13.75)MHz
(40 Mbps)
107
100.5
101.5
102
101.5
99
97
94.5
92
7MHz
(20 Mbps)
110
103.5
104.5
105
104.5
102
100
97.5
95
3.5MHz
(10 Mbps)
113
106.5
107.5
108
107.5
105
103
100.5
98
BER = 10-3
Above value +1.5 dB
Maximum Input Level
-20 dBm for the BER less than 10-3
-
Residual BER
Less than 10-12 at RSL = -30 dBm
-
*Channel separation
- 48 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
(3) 32 QAM
Frequency Band (GHz)
Range (GHz)
Interface type
Direct
Mount
Remote
mount
Output Power (dBm
nominal) (Measured at
Ant. port)
6
7-8
10-11
13
15
18
23
26
28
32
38
Guaranteed
5.9257.125
7.1258.5
10.1511.7
12.7513.25
14.215.35
17.719.7
21.223.6
24.2526.5
27.529.5
31.833.4
37.040.0
-
N/A
PDR 84
N type
or
PDR 70
N type
or
PDR 84
PDR
100
PBR
120
+25
PBR
140
PBR
220
+19
PBR
260
PBR
320
+18
0 to 23 dB (*1)
ATPC (1dB step)
Frequency Stability
PBR
320
PBR
320
+17
+14.5
-75.5
0 to 23 dB (*2)
-
± 6 ppm
±10 ppm
-74.5
BER = 10-3
6-28G: ± 1.5 dB
32-38G: +1.5/-2.5 dB
± 1.0 dB
0 to 23 dB (*2)
(dBm measured at Ant. port) BER = 10-6
Threshold Level
-75
+ 3.0 dB
-74.5
-73
Above value -1.5 dB
(dB measured at Ant. port) BER = 10-6
System Gain
CS* = 28(27.5)MHz
PBR
220
+21
Power Control (1dB step,
variable
CS* = 28 (27.5)MHz
-
NEC Original
100.5
95.5
BER = 10-3
96
94
- 3.0 dB
92.5
90
87.5
Above value +1.5 dB
Maximum Input Level
-20 dBm for the BER less than 10-3
-
Residual BER
Less than 10-12 at RSL = -30 dBm
-
*Channel Separation
*1: Additional attenuation (5 dB maximum) is available
*2: Additional attenuation is not available.
Pl040_5.doc
- 49 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
(4) 128 QAM
Frequency Band (GHz)
Range (GHz)
Interface type
Direct
Mount
Remote
mount
Output Power (dBm
nominal) (Measured at
Ant. port)
6
7-8
10-11
13
15
18
23
26
28
32
38
Guaranteed
5.9257.125
7.1258.5
10.1511.7
12.7513.25
14.215.35
17.719.7
21.223.6
24.2526.5
27.529.5
31.833.4
37.040.0
-
N/A
PDR 84
N type
or
PDR 70
N type
or
PDR 84
NEC Original
PDR
100
PBR
120
+25
Power Control (1dB step,
variable
PBR
140
+21
PBR
260
PBR
320
+18
0 to 20 dB (*1)
Frequency Stability
PBR
320
PBR
320
+17
+14.5
-69.5
0 to 20 dB (*2)
-
± 6 ppm
±10 ppm
-68.5
-69
BER = 10-3
6-28G: ± 1.5 dB
32-38G: +1.5/-2.5 dB
± 1.0 dB
0 to 20 dB (*2)
(dBm measured at Ant. port) BER = 10-6
Threshold Level
+ 3.0 dB
-68.5
-67
Above value -1.5 dB
(dB measured at Ant. port) BER = 10-6
System Gain
CS*=28(27.5)MHz
PBR
220
+19
ATPC (1dB step)
CS* = 28 (27.5)MHz
PBR
220
-
94.5
89.5
90
BER = 10-3
88
- 3.0 dB
86.5
84
81.5
Above value +1.5 dB
Maximum Input Level
-20 dBm for the BER less than 10-3
-
Residual BER
Less than 10-12 at RSL = -30 dBm
-
*Channel Separation
Note: 2xSTM-1 (XPIC) has the same condition as above.
*1: Additional attenuation (5 dB maximum) is available
*2: Additional attenuation is not available.
- 50 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
(5) Frequency Band
Frequency
Band
(GHz)
L6
U6
7
7.5
5.9256.425
6.4307.110
7.1257.725
7.4257.900
7.7258.275
8.2758.500
7.9008.400
10.15010.650
10.50010.680
Frequency
Plan
ITUR/CEPT
F.383
CEPT/ERC
REC T/R 14
Annex 1
F.384
CEPT/ERC
REC T/R 14
Annex 1
F.385
Annex 4
F.386
Annex 1
F.386
Annex 3
F.386
Annex 4
F.1568
Annex 1
F.747
Annex 1
Channel
Separation
[MHz]
29.65
40
28
3.5/7
RF TX/RX
Spacing
[MHz]
252.04
340
161
154
245
311.32
119
126
266
151.614
350
91
Frequency
Band
(GHz)
11
13
15
18
23
26
28
32
38
52
10.70011.700
12.75013.250
14.50015.350
17.70019.700
21.20023.600
24.50026.500
27.50029.500
31.80033.400
37.00039.500
51.40052.600
Frequency
Plan
ITUR/CEPT
F.387
F.497
CEPT/ERC
REC T/R 12
F.636
CEPT/ERC
REC T/R 12
F.595
F.191
CEPT/ERC
REC T/R 12
F.637
CEPT/ERC
REC T/R 13
Annex A
F.748
CEPT/ERC
REC T/R 13
Annex B
F.748
CEPT/ERC
REC T/R 13
Annex C
F.1520
CEPT/ERC
REC T/R (01)
F.749
Annex 1
CEPT/ERC
REC T/R 12
F.1496
Annex 1
CEPT/ERC
REC T/R 12
Annex A
Channel
Separation
[MHz]
5/10/20/40
RF TX/RX
Spacing
[MHz]
490
530
Range
(GHz)
Range
(GHz)
Pl040_5.doc
F.385
3.5/7/14/28
3.5/7/14/28
266
F.385
Annex 1
8
3.5/7/14/28
3.5/7/13.75
/27.5
315
420
490
644
728
10
3.5/7/14/28
1008
1010
1560
1008
1200
1232
- 51 -
1008
3.5/7/14/28
1008
812
1260
616
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.4 IDU (Indoor Unit) and System performance
(1) IDU (Indoor Unit)
No.
Specification
Item
PDH
1
IDU Type
1+0 Expandable / 1+1
2
Modulation Type
QPSK/16/32 QAM
3
Baseband Interface
E1: 2.048 Mbps ±
50 ppm
SDH
LAN
128 QAM
QPSK/16/32/128 QAM
E3: 34.368 Mbps ± 20
ppm
155.52 Mbps ± 20
ppm
10/100 Base-T(X)
1000 Base-SX/LX
1000 Base-T
75 ohms/120 ohms
75 ohms
75 ohms/S-1.1/L-1.1
D-sub37/MDR68
IEC 169-29 (1.0/2.3)
IEC 169-29 (1.0/2.3)
RJ-45 (10/100/1000 Base-T(X))
LC (1000 Base-SX/LX)
Channel Number
5/10/16/20/40/48
1/2
1/2
2/4
Total Capacity
5/20/32/40/80/96
Mbps
34/68 Mbps
155 / 2 x 155 Mbps
10/20/40/80/100/100+50, 75+75
Mbps
4
Service Channel
V.11 64 kbps SYNC (Contra/Co-Directional: selectable) x 2 channels,
RS-232 9.6 kbps ASYNC x 2 channels
5
EOW
IDU-IDU
6
External Alarm & House keeping
See tables of 3 (p47) and 4 (p49)
7
Security level by LCT
2 levels
8
Control & Setting by LCT/PNMT
USB Interface
Loop Back
a) Far End Baseband Loop Back
b) Near End Baseband Loop Back
c) IF Loop Back
9
BER Alarm
Adjustable 10-3/10-4/10-5
Frequency changing
Direct entry or Table Download entry: Available
TX output Control
Manual control, Automatic control, Mute control
Performance Monitoring
(PMON)/Metering
PMON Items;
a) OFS, b) BBE, c) ES, d) SES, e) SEP, f) UAS
Metering Items
a) Output power level (TX PWR), b) Received signal level (AGC V), c) Bit error rate (BER MON)
LAN monitoring Items;
a) RX Unicast, b) RX Broadcast, c) RX Multicast, d) RX Pause, e) RX CRC error
10
LED Display
CTRL
• IDU Alarm (Red)
• Maintenance (Yellow)
• Memory Access (Yellow)
MODEM
• Operating PWR (Green)
• ODU Alarm (Red)
• MD/CBL Alarm (Red)
• TX status ((Green)
• RX status (Green)
• XPIC Reset ( Yellow)*
PDH INTFC
• Module Alarm (RED)
SDH INTFC
• Module Alarm (RED)
• Online (Green)**
LAN/WS INTFC
• Module Alarm (Red)
*This indication is available with XPIC system.
**Indicates the online status selected from Working/Standby in APS system or
Working in without APS system.
- 52 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
(2) Interconnection between ODU and IDU
No.
Item
Specification
1
Interconnection
Single coaxial cable (per channel)/50 ohms
2
Example Type of Cable
IF cable adapter
5D-FB, 8D-FB or 10D-FB
3
Signals
IF signal, alarms, control, monitoring and
power source
4
Maximum Cable Length
150 m (5D-FB)
300 m (8D-FB)
350 m (10D-FB)
5
Cable Equalization
Automatic level equalization
6
Guaranteed temperature range
-33ºC to +50ºC (workable : -40ºC to +55ºC)
<Note 1> In case of employing hitless protection, set each length of two IF cables same or
the difference of their cable length shall be less than 100 meters.
<Note2> Salt damage (custom order)
In case of operating in the sea or around the coast area (within 3 km from
coastline),measure must be taken for the ODU against salt damage. Please ask
NEC for the countermeasure.
<Note 3> Water Proof N type connector
The waterproof N type connectors must be used for IF cable of ODU side, because
DC voltage power is supplied in it.
<Note 4> IDU IF connector = TNC (Female), ODU IF connector = N (Female)
<Note 5> ODU AGC Monitor connector = F (Female)
Pl040_5.doc
- 53 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Table 3. Alarm & House keeping output Items
#
Alarm Item displayed
on LCT/PNMT
Condition
ALM Indication
(IDU’s front)
Summarized Alarm Output
(Form-C) <Note 3, 4, 5, 10>
RL1
1
MAINT
System under maintenance
2
IDU CPU ALM
IDU CPU failure
3
PS ALM1
4
PS ALM2
5
ODU ALM1
ODU1 total alarm
6
ODU ALM2
7
ODU CPU/CBL OPN ODU1 CPU failure or IF cable is open
ALM1
8
ODU CPU/CBL OPN
ODU2 CPU failure or IF cable is open
ALM2
RL2
RL3
RL4
RL5
RL6
MAINT
FX
x
MASK
MASK
MASK
MASK
-
x
FX
x
x
x
x
PS1 failure (only1+1)
PWR
x
FX
x
x
x
x
PS2 failure (only1+1)
-
x
FX
x
x
x
x
ODU
x
x
FS
AP
AP
AP
x
x
FS
AP
AP
AP
x
x
AP
FS
AP
AP
x
x
AP
FS
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
ODU2 total alarm
9
TX PWR ALM1
ODU1 output power decrease
10
TX PWR ALM2
ODU2 output power decrease
11
TX INPUT ALM1
ODU1 TX IF input level decrease
12
TX INPUT ALM2
ODU2 TX IF input level decrease
13
APC ALM1
ODU1 LO OSC APC loop out of lock
14
APC ALM2
ODU2 LO OSC APC loop out of lock
15
RX LEV ALM1
ODU1 Receiving level decrease
16
RX LEV ALM2
ODU2 Receiving level decrease
17
IF CABLE SHORT
ALM1
IF Cable connected to ODU1 short
18
IF CABLE SHORT
ALM2
IF Cable connected to ODU2 short
19
IDU ALM
IDU total alarm
20
MOD ALM1
MOD PLL APC loop out of lock, MOD
output level down or TX DPU CLK
loss in MODEM1
21
MOD ALM2
MOD PLL APC loop out of lock, MOD
output level down or TX DPU CLK
loss in MODEM2
22
DEM ALM1
Carrier Asynchronous,
Frame Asynchronous at DPU in
MODEM1
23
DEM ALM2
Carrier Asynchronous,
Frame Asynchronous at DPU in
MODEM2
24
HIGH BER ALM1
BER > 10-3 to 10-5 (selectable) in
MODEM1
25
HIGH BER ALM2
BER > 10-3 to 10-5 (selectable) in
MODEM2
26
LOW BER ALM1
BER > 10-6 to 10-9 (selectable) in
MODEM1
27
LOW BER ALM2
BER > 10-6 to 10-9 (selectable) in
MODEM2
28
LOF1
Loss of Radio frame synchronization
in MODEM1
29
LOF2
Loss of Radio frame synchronization
in MODEM2
30
INPUT LOSS
CH 1-48
Loss of input data stream
from DTE <Note 1>
31
AIS RCVD
CH 1-48
32
AIS GENERATED
CH 1-48
ODU Blinking
ODU
ODU
ODU
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
IDU
x
x
AP
AP
FS
AP
IDU
MD/CBL
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
FS
x
x
AP
AP
AP
FS
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
x
x
AP
AP
AP
AP
IDU INTFC
<Note 7>
x
x
AP
AP
AP
AP
AIS (all “1”) is received
from DTE <Note 1>
IDU INTFC
<Note 7>
x
x
AP
AP
AP
AP
AIS (all “1”) is sent to
DTE <Note 1>
IDU INTFC
<Note 7>
x
x
AP
AP
AP
AP
ODU
IDU
MD/CBL
Blinking
IDU
MD/CBL
IDU
MD/CBL
IDU
MD/CBL
IDU
MD/CBL
- 54 -
Pl040_5.doc
MTD-PL-040/200706
#
Alarm Item displayed
on LCT/PNMT
PASOLINK NEO STD 1+0/1+1 SYSTEM
Condition
Use of a channel set as not used (E1
channel) <Note 2>
ALM Indication
(IDU’s front)
Summarized Alarm Output
(Form-C) <Note 3, 4, 5, 10>
RL1
RL2
RL3
RL4
RL5
RL6
IDU INTFC
<Note 7>
x
x
AP
AP
AP
AP
33
CH USAGE ERROR
CH 1-48
34
LAN LINK PORT 1-4 Loss of Main LAN Link <Note 3>
IDU INTFC
x
x
AP
AP
AP
AP
35
STM-1(1/2) LOS
(MUX)
Loss of input data stream
from MUX <Note 3>
IDU INTFC
<Note 8>
x
x
AP
AP
AP
AP
36
STM-1(1/2) LOS
(DMR)
Loss of input data stream
from DMR <Note 3>
IDU INTFC
<Note 8>
x
x
AP
AP
AP
AP
37
STM-1(1/2) TF ALM
Loss of STM-1 signal output to
MUX <Note 3>
IDU INTFC
<Note 8>
x
x
AP
AP
AP
AP
38
WS INPUT LOSS
Loss of Wayside signal input
IDU INTFC
<Note 8>
x
x
AP
AP
AP
AP
39
INTFC (1/2) LAN
LINK PORT
Loss of SC LAN Link
IDU INTFC
<Note 8>
x
x
AP
AP
AP
AP
40
XCTRL ALM1
Control failure or REF
Signal failure
IDU INTFC
<Note 9>
x
x
AP
AP
AP
AP
41
XCTRL ALM2
Control failure or REF
Signal failure
IDU INTFC
<Note 9>
x
x
AP
AP
AP
AP
42
XREF ALM1
Control failure or REF
Signal failure
IDU INTFC
<Note 9>
x
x
AP
AP
AP
AP
43
XREF ALM2
Control failure or REF
Signal failure
IDU INTFC
<Note 9>
x
x
AP
AP
AP
AP
44
HK-OUT1
House keeping Control out1
Only shown
on PNMT
x
x
x
x
x
AP
45
HK-OUT2
House keeping Control out2
Only shown
on PNMT
x
x
x
x
AP
x
46
HK-OUT3
House keeping Control out3
Only shown
on PNMT
x
x
x
AP
x
x
47
HK-OUT4
House keeping Control out4
Only shown
on PNMT
x
x
AP
x
x
x
48
Cluster ALM out1
This item received from
Opposite site. Item 1<Note 11>
Only shown
on PNMT
x
x
x
x
x
AP
49
Cluster ALM out2
This item received from
Opposite site. Item 2 <Note 11>
Only shown
on PNMT
x
x
x
x
AP
x
50
Cluster ALM out3
This item received from
Opposite site. Item 3 <Note 11>
Only shown
on PNMT
x
x
x
AP
x
x
51
Cluster ALM out4
This item received from
Opposite site. Item 4 <Note 11>
Only shown
on PNMT
x
x
AP
x
x
x
<Note 1> Apply to each channel of E1/E3.
<Note 2> Unused channel/interface is masked according to the bit rate.
<Note 3> It is possible to change capacity between E1 and Ethernet under working condition.
<Note 4> In MAINT status, excepting HK-OUT and Cluster ALM, alarm outputs are masked to normal condition.
<Note 5> The summarization of alarm outputs is fully user programmable; The sign (FX) in above table shows fixed item and can not be changed.
The sign (FS) only shows the factory settings. The sign (AP) output can be assigned for plural items. The sign (x) input/output can not be
assigned. Either HK output or Cluster ALM output in each channel can be assigned.
<Note 6> Above Table shows Alarm output matrix for 1+1 configuration
<Note 7> Only apply to PDH system.
<Note 8> Only apply to SDH system.
<Note 9> Only apply to XPIC system.
<Note 10> Assign to relays 4 to 6 only one category, either Pasolink Alarm, House Keeping Control out or Cluster Alarm out.
<Note 11> In the 2-Way mode
Dir.-A: Cluster ALM out 3(RL4) and Cluster ALM out 4(RL3)
Dir.-B: Cluster ALM out 1(RL6) and Cluster ALM out 2(RL5)
Relay
Event/ Alarm Open
(Normally closed)
Port condition
OUTPUT logic
:
Interface circuit : Relay Form C
Maximum Current: 0.2 A
Maximum Voltage: 100V (AC+DC)
Pl040_5.doc
Event/ Alarm Close
(Normally open)
COM
- 55 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Table 4. House keeping input Items
#
House keeping Item
displayed
on LCT/PNMT
Condition
Event Indication
Summarized Alarm Input
(Photo coupler)
IN1
IN2
IN3
IN4
IN5
IN6
1
HK-IN1
House keeping Event inport1
Only shown on PNMT
FX
x
x
x
x
x
2
HK-IN2
House keeping Event inport2
Only shown on PNMT
x
FX
x
x
x
x
3
HK-IN3
House keeping Event inport3
Only shown on PNMT
x
x
FX
x
x
x
4
HK-IN4
House keeping Event inport4
Only shown on PNMT
x
x
x
FX
x
x
5
HK-IN5
House keeping Event inport5
Only shown on PNMT
x
x
x
x
FX
x
6
HK-IN6
House keeping Event inport6
Only shown on PNMT
x
x
x
x
x
FX
7
Cluster ALM input1
This item transmits to opposite site. Item 1
Only shown on PNMT
x
x
x
x
x
AP
8
Cluster ALM input2
This item transmits to opposite site. Item 2
Only shown on PNMT
x
x
x
x
AP
x
9
Cluster ALM input3
This item transmits to opposite site. Item 3
Only shown on PNMT
x
x
x
AP
x
x
10
Cluster ALM input4
This item transmits to opposite site. Item 4
Only shown on PNMT
x
x
AP
x
x
x
<Note 1> Unused channel/interface is masked according to the bit rate.
<Note 2> In the 2-Way mode, Cluster ALM is transmitted in parallel for Dir.-A and Dir.-B.
<Note 3> The summarization of alarm outputs is fully user programmable. The sign (FX) in above table only shows the factory settings. The sign
(AP) Input in above table can be assigned for plural items. The sign (x) input/output can not be assigned. Either HK output or Cluster
ALM output in each channel can be assigned.
Port condition
INPUT Logic: Normal OPEN (> 200 k ohms)
Event CLOSE (< 50 ohms)
Interface circuit: Photo coupler with bias circuit
+3.3 V
+3.3 V
Normally Open
Control Closed
- 56 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.5 Hybrid Combiner/Divider
NEC has developed Hybrid Combiner/Divider over the full range of microwave frequencies
for PASOLINK Series digital microwave radio point-to-point fixed wireless systems. This
Hybrid Combiner/Divider comprises directional coupler, antenna interface, radio mounting
interfaces and polarizers. The RF signal power received by the single polarized antenna is
equally distributed and sent to two outdoor units through the Hybrid Combiner/Divider for 1+1
protected systems.
There are two types of NEC Hybrid Combiner/Divider, one is coaxial cable connection type
for 6/7/8 GHz Bands and the other is WG connection type for 11 - 52 GHz Bands. NEC
Hybrid Combiner/Divider is suited for Andrew or RFS Antenna, and all NEC ODUs.
Figure 16 (a).
L6/U6 GHz Hybrid (N connector Type)
Figure 16 (b).
7/8 GHz Hybrid (N connector Type)
Figure 17. 11 - 52 GHz Hybrid
Pl040_5.doc
- 57 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.5.1 Specifications
Hybrid Combiner/Divider
Frequency
Band
[GHz]
Frequency
Range
[GHz]
1-2 PORT
Variation
Max.(dB)
Loss Max. (dB)
Isolation
Min.(dB)
L6
5.925 - 6.425
0.5
3.7
20
U6
6.43 - 7.11
0.5
3.7
7/8
7.125 – 8.5
0.5
11
10.15 - 11.7
13
VSWR Max.
Interface
Figure
No.
(ANT Side)
(ODU Side)
1.3
UDR70
N Connector
18 (a)
20
1.3
UDR70
N Connector
18 (a)
3.7
20
1.3
UDR84
N Connector
18 (b)
0.5
3.5
20
1.2
19
12.75 - 13.25
0.5
3.5
20
1.2
19
15
14.5 - 15.35
0.5
3.5
20
1.2
19
18
17.7 - 19.7
0.5
3.5
20
1.2
23
21.2 - 23.6
0.5
3.5
20
1.2
19
26
24.5 - 26.5
0.5
3.8
20
1.2
19
32
31.8 - 33.4
0.5
3.8
20
1.2
19
38
37 - 39.5
0.5
3.8
20
1.2
19
52
51.4 - 52.6
0.5
4.5
20
1.3
19
19
NEC original
NEC original
Note: Custom ordered for 28 GHz.
- 58 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.5.2 Physical dimensions
(a)
L6/U6
GHz Hybrid (N connector Type)
(b) 7/8 GHz Hybrid (N connector Type)
Approx. Weight: 1kg
Frequency Band (GHz)
A
B
C
L6
230
45
103
U6
216
45
103
7/8
205.5
31
99
Figure 18. 6/7/8 GHz Hybrid Combiner/Divider
Pl040_5.doc
- 59 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
Approx. Weight: 4kg
Frequency Band (GHz)
A
B
C
11
278.3
217
192
13/15/18/23/26/32/38/52
263.3
202
182
Figure 19. 11 - 38 GHz Hybrid Combiner/Divider
- 60 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.5.3 Installation guide
N Connector
Figure 20. 6/7/8 GHz Combiner/Divider
Figure 21.
Figure 22.
Antenna and Hybrid Combiner/Divider
(Side view)
ODU and Hybrid/Divider (over view)
Note: ODU for 6/7/8 GHz: Separate type, ODU for 11 - 52 GHz: Direct mount type
Pl040_5.doc
- 61 -
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.6 10 dB Coupler
NEC has developed 10 dB Coupler over the full range of microwave frequencies for
PASOLINK Series digital microwave radio point-to-point fixed wireless systems. This 10 dB
Coupler comprises directional coupler, antenna interface, radio mounting interfaces and
polarizer. The RF signal power received by the single polarized antenna is unequally
distributed to two outdoor units in the ratio of 9 to 1 through the 10 dB Coupler for 1+1
protected systems. Using this 10 dB Coupler, regular side signal level could be kept higher
than in using 3 dB equal Combiner/Divider.
There are two types of NEC 10 dB Coupler; one is coaxial cable connection type for 6/7/8
GHz bands and the other is WG connection type for 11 - 38 GHz Bands. NEC 10 dB Coupler
is suited for Andrew or RFS Antenna, and all NEC ODUs.
Figure 23(a).
L6/U6 GHz Coupler (N connector)
Figure 23(b).
7/8 GHz Coupler (N connector)
Figure 24. 11 - 38 GHz Coupler
- 62 -
Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.6.1 Specifications
10 dB Coupler
Frequency
Band
[GHz]
Frequency Range
[GHz]
1-2 PORT
Variation
Max.(dB)
Loss Max.
(dB)
L6/U6
Isolation
Min.(dB)
5.925 - 7.125
0.5
1.2
20
7/8
7.125 - 8.5
0.5
1.2
11
10.15 - 11.7
0.5
1.2
13
12.75 - 13.25
0.5
15
14.5 - 15.35
0.5
18
17.7 - 19.7
23
26
VSWR Max.
Interface
Figure
No.
(ANT Side)
(ODU Side)
1.3
UDR70
N Connector
25 (a)
20
1.3
UDR84
N Connector
25 (b)
20
1.2
26
1.2
20
1.2
26
1.2
20
1.2
26
0.5
1.2
20
1.2
21.2 - 23.6
0.5
1.2
20
1.2
26
24.5 - 26.5
0.5
1.2
20
1.2
26
32
31.8 - 33.4
0.5
1.2
20
1.2
26
38
37 - 39.5
0.5
1.2
20
1.2
26
Note 1: ODU for 6/7/8 GHz: Separate Type
Note 2: ODU for 11 - 38 GHz: Direct Mount Type
Note 3: Custom ordered for 28 GHz.
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NEC original
NEC original
26
PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.6.2 Physical dimensions
A
B
C
D
(a) L6/U6 GHz Coupler (N connector Type)
(b) 7/8 GHz Coupler (N connector Type)
Dimension (mm)
Freq. band [GHz]
Approx.
A
B
C
D
Weight (kg)
L6/U6
260
213.2
33
40
1.2
7/8
237.3
195
30
-
1.2
Figure 25. 6/7/8 GHz Coupler
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Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
Dimension (mm)
Freq. band [GHz]
Approx.
A
B
C
Weight (kg)
11
268.3
207
182
4.5
13/15/18/23/26/32/38
263.3
202
182
4.5
Figure 26. 11 - 38 GHz Coupler
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
5.7 OMT (Ortho-Mode Transducer)
NEC has developed Ortho-Mode Transducer (OMT) over the full range of microwave
frequencies for Waveguide (WG) interface of PASOLINK Series digital microwave radio
point-to-point fixed wireless systems. The OMT comprises Ortho-Mode transducer, antenna
interface and radio mounting interfaces. The two independent RF signals received by dual
polarized antenna are separated and sent to two outdoor units (ODUs) through the OMT for
2+0 systems.
OMT enables dual polarization feature to double the transmission capacity for the PASOLINK
system. NEC OMT has WG connection type for 11-38 GHz Bands, which is suited for RFS
Antenna and all NEC ODUs.
Figure 27. OMT
5.7.1 Features
•
Direct mount integration with smart design for PASOLINK Series
•
Easy Installation
•
High XPD (cross polarization discrimination ratio)
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Pl040_5.doc
MTD-PL-040/200706
PASOLINK NEO STD 1+0/1+1 SYSTEM
5.7.2 Specifications
OMT
Frequency
BAND
[GHz]
Frequency Range
[GHz]
XPD
Min.[dB]
LOSS
Max.[dB]
P-P ISOLATION
Min.[dB]
VSWR
Max.
INTERFACE WG
INNER DIA. (mm)
(ANT Side)
11
10.7 - 11.7
35
0.6
38
1.3
18.0
13
12.75 - 13.25
35
0.6
38
1.3
15.0
15
14.5 - 15.35
35
0.6
38
1.3
13.5
18
17.7 - 19.7
35
0.6
38
1.3
10.5
23
21.2 - 23.6
35
0.6
38
1.3
9.0
26
24.5 - 26.5
35
0.8
38
1.3
8.0
32
31.8 - 33.4
35
1.0
38
1.3
6.5
38
37 - 39.5
35
1.0
38
1.3
5.5
INTERFACE
(ODU Side)
NEC original
5.7.3 Physical dimensions
Approx. Weight: 4 kg
Approx. Weight: 4 kg
Frequency Band [GHz]
A
B
C
11
278.3
217
192
269.3
208
188
263.3
202
182
13
15
18
23
26
32
38
Figure 28. OMT
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PASOLINK NEO STD 1+0/1+1 SYSTEM
5.8
MTD-PL-040/200706
PASOLINK Antenna
5.8.1 Antenna configuration
The antenna configurations for protection type, two types are selectable. The one is a oneantenna system that is the method employing hybrid (HYB) RF combiner and divider, and the
other is a two-antenna system that is the method using each antenna for two ODUs
independently. The hybrid means the passive device that combines and divides the signals
between two ODUs and an antenna. Therefore, the one-antenna system requires only single
antenna, however, additional loss between ODUs and antenna have to be considered. On
the other hand, two-antenna has high system gain as same as non-protection type.
The complete menu of PASOLINK antennas includes antennas with diameters of 0.3m up to
1.8m. They are designed to meet stringent requirements on mechanical rigidity. All
PASOLINK antennas with diameters of 0.3m to 1.8m can directly be mounted to the ODU in
case of 1+0 configuration. This has relevant cost and reliability merits and makes the
installation quicker and easier. The PASOLINK pole mounting structure is designed in a way
that the ODU can be replaced while keeping the antenna and mounting bracket, including
orienteering, in place. The reflectors of the antennas are covered with white diffusive paint
and the mounting structure is hot-dip galvanized.
5.8.2 Antenna Menu for direct mount and performance
Frequency
Band [GHz]
11
13
15
18
23
Diameter
Typical Performance
(m)
Middle Band Gain
(dB)
F/B (dB)
XPD (dB)
VSWR
0.6
34.1
61
30
1.3
1.2
40.2
67
30
1.3
0.6*
35.2
61
30
1.3
0.8
37.8
63
30
1.3
1.2*
41.5
67
30
1.3
1.8
45.0
70
32
1.3
0.3*
31.1
53
30
1.3
0.6*
36.3
58
30
1.3
0.8
38.9
64
30
1.3
1.2*
42.5
70
30
1.3
1.8
46.0
71
30
1.3
0.3*
33.3
55
30
1.3
0.6*
38.6
60
30
1.3
0.8
41.0
63
30
1.3
1.2*
44.6
67
30
1.3
1.8
48.0
70
30
1.3
0.2
30.6
51
30
1.4
0.3*
34.9
61
30
1.3
0.6*
40.1
66
30
1.3
0.8
42.6
68
30
1.3
1.2*
46.0
72
30
1.3
1.8
49.4
75
30
1.3
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Pl040_5.doc
MTD-PL-040/200706
Frequency
Band [GHz]
26
32
38
52
PASOLINK NEO STD 1+0/1+1 SYSTEM
Diameter
Typical Performance
(m)
Middle Band Gain
(dB)
F/B (dB)
XPD (dB)
VSWR
0.2
31.5
52
30
1.4
0.3*
35.0
62
30
1.3
0.6*
41.1
67
30
1.3
0.8
43.6
70
30
1.3
1.2*
46.9
73
30
1.3
0.3
38.0
63
30
1.3
0.6
43.2
68
30
1.3
0.2
34.3
54
30
1.3
0.3*
39.6
60
30
1.3
0.6*
44.5
63
30
1.3
0.3
41.8
62
30
1.3
Note 1: 18-38 GHz antennas are provided with standard waveguide flange (PBR) and PASOLINK original
interface.
(13-15GHz antennas are provided with PASOLINK original interface and without standard waveguide
flange.)
Note 2: In case of 7, 8, 13 and 15 GHz remote mount configuration, please don’t use this table.
Note 3: This table shows typical values for reference.
Note 4: In case of Dual Pol. Direct Mount Antenna System, * marked Diameters are available.
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PASOLINK NEO STD 1+0/1+1 SYSTEM
MTD-PL-040/200706
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MTD-PL-040/200706
Pl040_r.doc
NEC Corporation, Tokyo, Japan