Post on 17-May-2020
Chapter 0 1
OptoSpan OTS-10
Advanced C/DWDM
Platform
System Overview
Chapter 0 i
OTS-10 System Overview System Overview
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Chapter 0 i
OTS-10 System Overview
Contents
Contents ..................................................................................................................... i
List of Tables ........................................................................................................... iv
List of Figures ........................................................................................................... v
About This Guide ...................................................................................................... 8
Introduction ........................................................................................................................ 8
Conventions ....................................................................................................................... 8
System Architecture ................................................................................................. 9
1.1 Overview ...................................................................................................................... 9
OTS-10 Introduction ...................................................................................................... 9
1.2 System Main Control Panel ....................................................................................... 10
Panel Function ............................................................................................................ 10
Main Control Panel Faceplate ..................................................................................... 11
1.3 Slot 1 - 1G/s ~10G Multi-rate Channels (1GbE, 2.5G, OC48, OC192, 10GE,) ........ 13
Channel Function ........................................................................................................ 14
Channel Faceplate ...................................................................................................... 15
1.4 Slots 2-3 Booster - Mini EDFA Card.......................................................................... 15
Card Function .............................................................................................................. 16
Card Faceplate ............................................................................................................ 17
1.5 Slots 2-3 Pre - Mini EDFA Card ................................................................................ 18
Card Function .............................................................................................................. 19
Card Faceplate ............................................................................................................ 19
1.6 Slot 4 MUX/DEMUX Card ......................................................................................... 20
Card Function .............................................................................................................. 21
Card Faceplate ............................................................................................................ 22
Card Function .............................................................................................................. 28
Card Faceplate ............................................................................................................ 28
1.7 Fan and Power .......................................................................................................... 29
Chapter 0 ii
OTS-10 System Overview
Power Supply .............................................................................................................. 29
DC-48V power corresponding type ............................................................................. 30
AC power corresponding type ..................................................................................... 30
System Functions and Features ............................................................................ 32
2.1 System Functions ...................................................................................................... 32
2.2 System Features ....................................................................................................... 35
System Access Capability ........................................................................................... 36
Ethernet Service Processing Capability ...................................................................... 36
Administration and Management........................................................................... 38
3.1 Introduction ................................................................................................................ 38
3.2 Web Graphical User Interface (WebGUI) .................................................................. 38
3.3 Command Line Interface (CLI) .................................................................................. 47
3.4 Helpful Tips ................................................................................................................ 48
Networking Applications and Configurations....................................................... 49
4.1 Application Advantages ............................................................................................. 49
High Integration ........................................................................................................... 49
Flexible Configuration .................................................................................................. 49
Network Management ................................................................................................. 50
4.2 Networking Application .............................................................................................. 53
Point-to-Point Network ................................................................................................ 53
Ring Application .......................................................................................................... 54
Stack Application ......................................................................................................... 56
Advanced Management .......................................................................................... 58
5.1 Fault Management .................................................................................................... 58
Alarm Hierarchy ........................................................................................................... 58
Alarm List..................................................................................................................... 59
5.2 Performance Monitoring ............................................................................................ 62
Performance Data ....................................................................................................... 62
Performance Data Reporting and Collection............................................................... 62
5.3 Memory Backup......................................................................................................... 63
Chapter 0 iii
OTS-10 System Overview
5.4 Configuration Management ....................................................................................... 63
Equipment Configuration ............................................................................................. 63
Chapter 0 iv
OTS-10 System Overview
List of Tables
Table 1 Names and functions of all parts at the front panel...................................................... 11
Table 2 Names and functions of all parts at the back panel ..................................................... 13
Table 3 1G/s ~ 10G/s Multi-Rate Card Faceplate Description .................................................. 15
Table 4 1G/s ~ 10G/s Multi-Rate Card Interface Description ................................................... 15
Table 5 Booster – Mini EDFA Card Spec Rated Gain ............................................................... 16
Table 6 Booster – Mini EDFA Card Faceplate Description ....................................................... 17
Table 7 Booster – Mini EDFA Interface Description ................................................................. 17
Table 8 Pre – Mini EDFA Card Spec ........................................................................................ 18
Table 9 Pre – Mini EDFA Card Faceplate Description .............................................................. 19
Table 10 Pre – Mini EDFA Interface Description ...................................................................... 20
Table 11 Card Faceplate Description ........................................................................................ 22
Table 12 Card Faceplate Description ........................................................................................ 29
Chapter 0 v
OTS-10 System Overview
List of Figures
Figure 1 OTS-10 Appearance ..................................................................................................... 9
Figure 2 Slot Arrangement ........................................................................................................ 10
Figure 3 Slot numbering............................................................................................................ 11
Figure 4 Indicates all parts of the front panel............................................................................ 11
Figure 5 Names of all parts at the back panel .......................................................................... 13
Figure 6 1G/s ~ 10G/s multi-rate card Slots ............................................................................. 13
Figure 7 1G/s ~ 10G/s multi-rate channel Faceplate ................................................................ 15
Figure 8 Booster – Mini EDFA card Slots ................................................................................. 15
Figure 9 Booster – Mini EDFA card Faceplate ......................................................................... 17
Figure 10 Pre – Mini EDFA card Slots ...................................................................................... 18
Figure 11 Pre – Mini EDFA card Faceplate .............................................................................. 19
Figure 12 Mux/Demux card Slots ............................................................................................. 20
Figure 13 Mux/Demux Faceplate .............................................................................................. 22
Figure 14 Mux/Demux Faceplate .............................................................................................. 28
Figure 15 DC power .................................................................................................................. 30
Figure 16 DC power .................................................................................................................. 30
Figure 17 Connecting the power cord ....................................................................................... 31
Figure 18 Login Prompt ..............................................................Error! Bookmark not defined.
Figure 19 Web GUI .....................................................................Error! Bookmark not defined.
Figure 20 Homepage ..................................................................Error! Bookmark not defined.
Figure 21 System Information .....................................................Error! Bookmark not defined.
Figure 22 Time ............................................................................Error! Bookmark not defined.
Figure 23 Overview .....................................................................Error! Bookmark not defined.
Figure 24 Interface ......................................................................Error! Bookmark not defined.
Figure 25 IP&Routing ..................................................................Error! Bookmark not defined.
Figure 26 Manage SNMP ...........................................................Error! Bookmark not defined.
Figure 27 Alarm ..........................................................................Error! Bookmark not defined.
Figure 28 Timeout .......................................................................Error! Bookmark not defined.
Chapter 0 vi
OTS-10 System Overview
Figure 29 Account .......................................................................Error! Bookmark not defined.
Figure 30 Save ............................................................................Error! Bookmark not defined.
Figure 31 Upload/Download .......................................................Error! Bookmark not defined.
Figure 32 System Log .................................................................Error! Bookmark not defined.
Figure 33 Fault Log .....................................................................Error! Bookmark not defined.
Figure 34 Reboot ........................................................................Error! Bookmark not defined.
Figure 35 Logout Prompt ............................................................Error! Bookmark not defined.
Figure 36 SNMP manager maps .............................................................................................. 50
Figure 37 Traps transmission ................................................................................................... 51
Figure 38 Static route solution .................................................................................................. 52
Figure 39 Dynamic route solution ............................................................................................. 52
Figure 40 Basic CWDM application .......................................................................................... 53
Figure 41 Figure 24 Basic DWDM applications ........................................................................ 53
Figure 42 DWDM applications with big span loss .................................................................... 53
Figure 43 DWDM 8 channel single fiber bi-directional transmission ........................................ 54
Figure 44 Single fiber, bi-directional, 1+1 protection or Ring without EDFA ............................ 55
Figure 45 Single fiber, bi-directional, 1+1 protection or Ring with pre-EDFA ........................... 55
Figure 46 Network management port stacking ......................................................................... 56
Figure 47 Block diagram of optical wavelength stack ............................................................... 57
Figure 48 Alarm Hierarchy Map ................................................................................................ 58
Chapter 1 7
OTS-10 System Overview
Warning!
Do not open the cover
Opening the cover of this equipment will void the warranty.
This product has an electric shock hazard.
Do not use if equipment is defective
In case of abnormal conditions like fumes, peculiar smell, strange sounds, etc., stop use of equipment immediately in case
fire or electric shock occurs
Unplug from its source. Do not damage the power wires
Do not scratch, damage, or stretch the power wires—the power wires may break and fire or electric shock may occur.
Hold the plug when plugging it in/out
When plugging in or pulling out the power wires, please make sure to hold the plug with your hand. Stretching the wires
may damage them and cause electric shock or fire.
Plug/junction board cleaning
Please note that if the plug and junction board are dusty upon connection, fire or electric shock may occur.
Don’t interfere with ventilation
Do not place the equipment in positions that will block ventilation, or place objects on or near the vents. The internal temperature may increase and cause fire or defects.
Placing the equipment at the following type of locations will shorten the life of the product and thereby cause faults: Very damp or dusty locations, locations which experience continuous vibration, direct sunlight, high-temperature locations
Chapter 1 8
OTS-10 System Overview
About This Guide
Introduction
This document includes an introduction to the OptoSpan exclusive OTS-10, including system architecture, card functions,
configuration, features, and network application.
Conventions
This section includes notes, diagrams, and images. These examples contain sample data that may vary from the actual
data on an installed system.
Chapter 1 System Architecture 9
OTS-10 System Overview
System Architecture
This chapter provides a system level overview of OptoSpan’s OTS-10 optical transport system.
This chapter contains the following topics:
OptoSpan’s OTS-10 overview
System Architecture
1.1 Overview
OTS-10 Introduction
The OTS-10 is a 1U mini-chassis multi-service platform with a flexible design. It supports 3 modular slots with two hot-
swappable EDFA cards and one MUX/DEMUX card. It has 8 channels of 1G support transport, 10G Ethernet services, and
OC48 and OC192 SONET services. The OTS-10 is a cost-effective solution specifically designed for carriers who require a
highly reliable network.
Sub-rack
The OTS-10 Unit is designed to be mounted on two vertical rack mounting rails in a standard 19” wide cabinet. Two front
mounting rails are used for four mounting points, using the flanges provided at the front of each OTS-10.
The positions for rails and how to install the OTS-10 are shown in Figure 1:
Figure 1 OTS-10 Appearance
With a design based on the 19-inch standard for widespread compatibility, OTS-10 can be installed in a 19-inch rack. The
OTS-10 unit is 44.4mm x 440mm x 393mm (height x width x depth). The OTS-10 chassis frame weight is 7.5kg without
cards.
1
Chapter 1 System Architecture 10
OTS-10 System Overview
Slot Description
The OTS-10 has a modular structure, utilizing pluggable cards that can be plugged into or pulled out of a sub-rack. There
are 4 slots in the OTS-10 unit chassis. Figure 2 illustrates the slot arrangement of an OTS-10 sub-rack.
Figure 2 Slot Arrangement
1. Slot 1: virtual slot with 8 channels - 1G, 10GE and other services.
2. Slots 2 – 3: mini-EDFA Cards.
3. Slot 4: Mux/Demux card
1.2 System Main Control Panel
The system main control panel integrates main control, real-time system control, terminal interface, network management
function, stacking function, and the auxiliary interface.
Panel Function
Main Control Module
The control module is equipped with communication CPU
CPU externally connects the following types of storage devices: large-capacity SDRAM and FLASH. Critical data of the
key databases is saved in the storage media.
OSC channel processing capability
Real-time clock function. The clock functions with Gregorian calendar dates between years 2000 to 2099
LOG information query
Auxiliary Interfaces
One Ethernet interface for network management system (10M BASE-T, RJ-45 connector)
One RS-232 standard serial interface is provided for debugging
OTS-10
Slot4
Slot2 Slot3
Chapter 1 System Architecture 11
OTS-10 System Overview
Main Control Panel Faceplate
The OTS-10 is a 1U Mini-chassis type Multi-service platform with a flexible configuration for various network applications.
The slots numbering is shown in Figure 3.
Figure 3 Slot numbering
The front panel is equipped with a variety of LED, CONSOLE ports, and expansion slots, as shown in Figure 4.
Figure 4 Indicates all parts of the front panel corresponding to Table 1
Table 1 Names and functions of all parts at the front panel
No. Names Silk Display Colors Description
(1) Power status LED PWR1 Green The output voltage of power supply unit 1 is normal.
Off The output voltage of power supply unit 1 is defective
or the corresponding power supply unit is not
installed.
PWR2 Green The output voltage of power supply unit 2 is normal
Off The output voltage of power supply unit 2 is defective
or the corresponding power supply unit is not installed
(2) Power and Fan fault
LED
PWR FAULT Red The two power supplies have low output or are not
installed
VViirrttuuaall SSlloott 11
Slot 2 Slot 3
Slot 4
Chapter 1 System Architecture 12
OTS-10 System Overview
Off The two power supplies have normal output
FAN FAULT Red One or more fans have stopped
Off All 6 fans are running normally
(3) CR LED Alarm Off No critical defect in the chassis
Red At least one critical alarm (such as LOS, bias alarm) is generated
(4) MJ LED Alarm Off No major alarm in the chassis.
Red At least one major alarm (such as Power, Fan alarm) is generated
(5) MN LED Alarm Off No minor alarm in the chassis.
Red At least one minor major alarm (such as Power, Fan alarm) is generated
(6) Node controller NC Green Node controller is NC
Off Node controller is not NC
(7) Mng LED LINK Green Management port link is established
Off Management port link is not established
ACT Blinking Green Management port send/receive frame is active
Off Management port is idle
(8) Up LINK Green Up port link is established
Off Up port link is not established
ACT Blinking Green Up port send/receive frame
(9)
Down LINK Green Down port link is established
Off Down port link is not established
ACT Blinking Green Down port send/receive frame
(10) Slot 2-4 2-3: EDFA slots
4: MUX/DEMUX slot
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OTS-10 System Overview
Figure 5 Names of all parts at the back panel
Table 2 Names and functions of all parts at the back panel
No Name Description
(1) Device Plate Displays the device’s model number
(2) Warning label Displays warning information
(3) DC/AC Terminal Terminal for connecting the power cable. There is no power switch. The Power turns on as soon as the cable is connected.
1.3 Slot 1 - 1G/s ~10G Multi-rate Channels (1GbE, 2.5G, OC48, OC192, 10GE,)
The 1G/s ~ 10G/s multi-rate channels provide 8 channels, each of which support multiple services in virtual slot 1. Long
Haul (LH) ports are the top ports and Short Haul (SH) ports are the bottom ports on the system. Compatibility is virtually
guaranteed as the OTS-10 can support many services, rates and protocols.
Figure 6 illustrates the slots used by the 1G/s ~ 10G/s multi-rate card in the OTS-10 system.
Figure 6 1G/s ~ 10G/s multi-rate card Slot
The following is the user-site’s spec of the 1G/s ~ 10 G/s multi-rate channels:
Supports the SFP/SFP+ standard
Supports Line port with 8 channels CWDM or DWDM
VViirrttuuaall SSlloott 11
Slot 2 Slot 3
Slot 4
Slot 2 Slot 3
Slot 4
Chapter 1 System Architecture 14
OTS-10 System Overview
Supports the user’s port with 1G ~ 10G
Performance monitoring: TX power monitoring, Rx power monitoring, LOS, bias, and SFP temperature
For example:
eight user ports with SFP/SFP+
Rate: 1 G/s ~ 10G/s
Transmitter power: -9.5dBm ~ -4dBm (850nm), -5dBm ~ -11dBm(1310nm)
Receiver sensitivity: -18dBm(850nm), -20dBm(1310nm)
Max receiver power: 0dBm(850nm), -3dBm(1310nm)
Following is the LH site’s spec of the 1G/s ~ 10 G/s multi-rate cards
8 long reach ports with CWDM or DWDM SFP/SFP+: Standard SFP for either CWDM or ITU DWDM
Rate: 1G/s ~ 10G/s
Transmitter power: >+1dBm (specified by optical module)
Max receiver power: -8dBm (specified by optical module)
Receiver sensitivity: -30dBm (specified by optical module)
Path penalty: 2dB@1600ps/nm (1550 nm)
Performance monitoring: TX power monitor, Rx power monitoring, LOS, bias, and SFP temperature
CWDM/DWDM Wavelength: 1471nm, 1491nm, 1511nm, 1531nm, 1551nm, 1571nm, 1591nm, 1611nm, or100G grid ITU
DWDM wavelength
Wavelength range: Central wavelength +/6.5 nm for CWDM, +/0.1 nm for DWDM
Channel Function
The 1G/s ~ 10 G/s multi-rate channels support the following functions:
For CWDM applications, the OTS-10 can support 80 km SM fiber distance with a 26dB loss budget; the limitation will
come by either the fiber distance or fiber loss, whichever is reached first.
For DWDM applications, the OTS-10 uses Pre-mini EDFA and Post mini EDFA so that the loss budget can be increased
to 38dB. The fiber distance is 100km without DCF usage and 140km with DCF usage. With DCF and multiple in-line EDFA
usage, the fiber transmission distance can be 800~1000km.
Hot Swappable
Laser optical transmission power detection
Chapter 1 System Architecture 15
OTS-10 System Overview
Laser bias current detection
Channel Faceplate
The 1G/s ~ 10G/s multi-rate channel faceplate is shown in Figure 7
Figure 7 1G/s ~ 10G/s Multi-Rate Channel Faceplate
Symbols and indicators on the 1G/s ~ 10G/s multi-rate channel faceplate are described in Table 3
Table 3 1G/s ~ 10G/s Multi-Rate Card Faceplate Description
Symbol Color Status Description
SD (SH 1-8) Green OFF Optical Module of SH 1-8 port has a bad signal
ON Optical Module of SH 1-8 port has a normal signal
SD (LH 1-8) Green OFF Optical Module of LH 1-8 port has a bad signal
ON Optical Module of LH 1-8 port has a normal signal
Table 4 1G/s ~ 10G/s Multi-Rate Card Interface Description
Symbol Description
SH 1-8 Insert SFP/SFP+ into it, it is LC optical interface.
LH 1-8 Insert SFP/SFP+ into it, it is LC optical interface
1.4 Slots 2-3 Booster - Mini EDFA Card
Figure 8 illustrates the slots used by the Booster – Mini EDFA card in the OTS-10 system.
Figure 8 Booster – Mini EDFA card Slots
VViirrttuuaall SSlloott 11
Slot 2 Slot 3
Slot 4
Chapter 1 System Architecture 16
OTS-10 System Overview
The following lists the physical parameters of the Booster - Mini EDFA
Weight: 0.21kg
Dimensions : 203mm x 82mm x 16.3mm (D x W x H)
The spec of Booster – Mini EDFA card is shown in Table 5
Table 5 Booster – Mini EDFA Card Spec Rated Gain
Name Minimum Default Maximum Unit
Rated Gain 12 15 18 dB Gain tuning step is 0.5dB Input signal power (Pin) -7 5 6 dBm gain=12dB
-10 2 3 dBm gain=15dB -13 -1 0 dBm gain=18dB
Signal wavelength Range
1546 1561 nm Vacuum Nominal BW for 8 channels
Total Output Power (Pout)
17 17.5 dBm Gain range from 12dB to 18dB At the APC mode, the output power can be set and work well in the actual gain range 12~18dB
Booster output Power(channel)
8 10 dBm Including connector Gain range from 12dB to 18dB
Noise Figure 6 6.8 dB This noise figure does not include the insertion loss for the OSC Filter
Amplifier Gain ripple 1.75 dB Gain range from 12dB to 18dB Room temperature
Output Power Stability -0.15 0.15 dB -13dBm<Pin<6dBm Output Power Stability over temperature
-0.35 0.35 dB -13dBm<Pin<6dBm
OSC Wavelengths:1510nm and 1570nm
Card Function
The Booster – Mini EDFA card supports the following functions:
EDFA cards are used for DWDM applications when a longer link is desired. EDFA cards are not used in CWDM
application.
For DWDM application, the OTS-10 uses Pre-mini EDFA and Post mini EDFA so that the loss budget can be increased
to 38dB. The fiber distance is 100km without DCF usage, 140km with DCF usage. With DCF and multiple in-line EDFA
usage, the fiber transmission distance can be 800~1000km.
Hot Swappable
Laser optical transmission power detection
Chapter 1 System Architecture 17
OTS-10 System Overview
Laser bias current detection
Mux OSC signal and traffic signal
Card Faceplate
The Booster – Mini EDFA card faceplate is shown in Figure 9.
Figure 9 Booster – Mini EDFA Card Faceplate
Symbols and indicators on the Booster – Mini EDFA card faceplate are described in Table 6.
Table 6 Booster – Mini EDFA Card Faceplate Description
Symbol Color Status Description
SD Green OFF Optical Module has a bad signal
ON Optical Module has a normal signal
ALM Red OFF No alarm
ON There is an alarm
Table 7 Booster – Mini EDFA Interface Description
Symbol Description
IN Input optical interface of traffic of the LC interface.
Out Output optical interface of traffic and OSC of the LC interface.
OSC1 Input OSC channel of 1511nm
OSC2 Input OSC channel of 1571nm
Chapter 1 System Architecture 18
OTS-10 System Overview
1.5 Slots 2-3 Pre - Mini EDFA Card
Figure 10 illustrates the slots used by the Pre – Mini EDFA card in the OTS-10 system.
Figure 10 Pre – Mini EDFA card Slots
Following are the physical parameters of the Pre - Mini EDFA
Weight: 0.21kg
Dimensions : 203mm x 82mm x 16.3mm (D x W x H)
The spec of Pre – Mini EDFA card is shown in Table 8
Table 8 Pre – Mini EDFA Card Spec
Rated Gain 20 25 30 dB Gain tuning step is 0.5dB Input signal power (Pin)
-20 -8 -7 dBm gain=20dB -25 -13 -12 dBm gain=25dB -30 -18 -17 dBm gain=30dB
Signal wavelength Range
1546 1561 nm Vacuum Nominal BW for 8 channels
Total Output Power (Pout)
12 12.5 dBm Gain range from 20dB to 30dB At the APC mode, the output power ca be set and work well in the actual gain range 20~30dB
Pre-amp output Power(channel)
5 dBm Including connector Gain range from 20dB to 30dB
Noise Figure 6 6.8 dB This noise figure does not include the insertion loss for the OSC Filter
Amplifier Gain ripple 1.75 dB Gain=25dB @Room temperature Output Power Stability
-0.15 0.15 dB 30dBm<Pin<-7dBm
Output Power Stability over temperature
-0.35 0.35 dB 30dBm<Pin<-7dBm
OSC Wavelengths:1510nm and 1570nm
VViirrttuuaall SSlloott 11
Slot 2 Slot 3
Slot 4
Chapter 1 System Architecture 19
OTS-10 System Overview
Card Function
The Pre – Mini EDFA card supports the following functions:
EDFA cards are used for DWDM applications when a longer link is desired. EDFA cards are not used in CWDM
application.
For DWDM application, the OTS-10 uses Pre-mini EDFA and Post mini EDFA so that the loss budget can be increased
to 38dB. The fiber distance is 100km limitation without DCF usage,140km with DCF usage. With DCF and multiple in-line
EDFA usage, the fiber transmission distance can be 800~1000km.
Hot Swappable
Laser optical transmission power detection
Laser bias current detection
Demux OSC signal and traffic signal
Card Faceplate
The Pre – Mini EDFA card faceplate is shown in Figure 11.
Figure 11 Pre – Mini EDFA Card Faceplate
Symbols and indicators on the Pre – Mini EDFA card faceplate are described in Table 9.
Table 9 Pre – Mini EDFA Card Faceplate Description
Symbol Color Status Description
SD Green OFF Optical Module has a bad signal
ON Optical Module has a normal signal
ALM Red OFF No alarms
ON There is an alarm
Chapter 1 System Architecture 20
OTS-10 System Overview
Table 10 Pre – Mini EDFA Interface Description
Symbol Description
IN Input optical interface of traffic and OSC of the LC interface.
OUT Output optical interface of traffic of the LC interface.
OSC1 Output OSC channel of 1511nm
OSC2 Output OSC channel of 1571nm
1.6 Slot 4 MUX/DEMUX Card
Figure 12 illustrates the slots used by the Mux/Demux card in the OTS-10 .
Figure 12 Mux/Demux Card Slots
The OTS-10 uses different MUX/DEMUX for each kind of point-to-point or ring applications. Users can customize the
specific MUX/DEMUX for their own application.
OTS-DW-08-DSx
OTS-DW-08-DSx is an 8 channel DWDM MUX/DEMUX card used in dual fiber, bi-directional transmission. Sx (x=1 – 5)
represents one of five sub-bands. OSC channel (1511nm) add/drop is integrated in the MUX/DEMUX card.
OTS-DW-08-DS1: CH21 – CH28; OSC (1511nm)
OTS-DW-08-DS2: CH29 – CH36; OSC (1511nm)
OTS-DW-08-DS3: CH37 – CH44; OSC (1511nm)
OTS-DW-08-DS4: CH45 – CH52; OSC (1511nm)
OTS-DW-08-DS5: CH53 – CH60; OSC (1511nm)
Following are the physical parameters of Mux/Demux
VViirrttuuaall SSlloott 11
Slot 2 Slot 3
Slot 4
Chapter 1 System Architecture 21
OTS-10 System Overview
Weight: 0.5kg
Dimensions : 272 mm x 79.4 mm x 40.4mm (D x W x H)
The spec of OTS-DW-08-DS1 is provided in the following tables.
Note: IL excludes connector loss
* S1: Sub-band 1
PARAMETER SPECIFICATION UNITS NOTE Operation Temperature -5~ +65 °C
Operation Humidity 5 to 90%RH Not condensed %RH
Storage Temperature -40 ~ +85 °C
Storage Humidity 0 to 95%RH Not condensed %RH
Card Function
Extended temperature range
PARAMETER SPECIFICATION UNITS NOTE MIN. TYP. MAX.
Channel spacing 100 GHz Channel number 8 Port number 20 Pass band width λc ± 0.11 nm OSC 1511 wavelength range 1504.5 ~ 1517.5 m Insertion Loss Add/Drop demux mux dB
CH21 - CH28 3.5 3.5 OSC: 1511nm 0.8 dB
Isolation Adjacent Channel 30 dB non-adjacent Channel 45 dB
OSC 1511 Isolation 30 dB @1528 ~ 1568 Pass band ripple 0.5 dB Channel uniformity 1 dB Insertion loss thermal stability 0.005 dB/℃
Wavelength thermal stability 0.002 nm/℃
Directivity 55 dB PDL 0.15 dB PMD 0.10 ps Return loss 45 dB Optical operating power 300 mW
Chapter 1 System Architecture 22
OTS-10 System Overview
Flat and wide pass band
High mux/demux channel isolation
Card Faceplate
The Mux/Demux faceplate is shown in Figure 13.
Figure 13 Mux/Demux Faceplate
Symbols and indicators on the Mux/Demux faceplate are described in Table 11
Table 11 Card Faceplate Description
Symbol Description
CH-IN (1-8) Input optical interface of channel, LC interface.
CH-OUT (1-8) Output optical interface of channel, LC interface.
OSC-IN Input optical interface of OSC, LC interface.
OSC-OUT Output optical interface of OSC, LC interface.
COM-IN Input optical interface of traffic and OSC, LC interface.
COM-OUT Output optical interface of traffic and OSC, LC interface.
OTS-DW-08-DB series
The OTS-10 series WDM transport platform supports single fiber, bi-directional transmissions for which the OTS-DW-08-DB
series MUX/DEMUX cards are designed..
OTS-DW-08-DB includes two types of products: OTS-DW-08-DBU and OTS-DW-08-DBR. OTS-DW-08-DBU is a universal
MUX/DEMUX which covers most of the single fiber, 4 channels, 8 channel, point to point, 1+1 protection, and ring
applications. OTS-DW-08-DBR is used for single fiber, 4 channels, 1+1 protection, or ring applications with EDFA.
Following are the physical parameters of Mux/Demux:
Dimensions : 272 mm x 79.4 mm x 40.4mm (D x W x H)
Chapter 1 System Architecture 23
OTS-10 System Overview
The block diagram of OTS-DW-08-DBU is featured below.
Note: IL excludes connector loss.
OSC: 1491nm, 1511nm, 1571nm, 1591nm:
Chapter 1 System Architecture 24
OTS-10 System Overview
Specification of 8 channel MUX/DEMUX in OTS-DW-08-DBU:
Parameters Unit Value Note
100G Channel number NA 8
CWDM channel number NA 2
Central wavelength M/D: CH21 – CH28; CH31 - CH38;
Port Number NA 22
Channel Spacing GHz 100
100G Band Width@-0.5dB nm ≥0.3
100G Pass Band nm λ ITU-T±0.11
CWDM OSC pass band mm λ C±6.5
Ripple over Pass Band dB ≤0.5
Channel Insertion Loss dB ≤4.0
Uniformity dB ≤1.0
Adjacent Channel Isolation dB ≥28
Non-Adjacent Channel Isolation dB ≥45
OSC port Insertion Loss dB ≤1.5
OSC port Isolation dB ≥30
Insertion Loss Thermal Stability dB/℃ ≤0.008 *
Wavelength Thermal Stability nm/℃ ≤0.001 *
Return loss dB ≥45
Directivity dB ≥50 *
PDL dB ≤0.25 *
PMD PS ≤0.20 *
Power Handling mW 500 *
Chapter 1 System Architecture 25
OTS-10 System Overview
Specification of Red/Blue sub-band filter in OTS-DW-08-DB series:
Parameters Unit Value Note
Port Number NA 3
DWDM Channel Spacing GHz 100
100G Band Width@-0.5dB Nm ≥0.3
100G Pass Band Nm λ ITU-T±0.11
CWDM OSC pass band Mm λ C±6.5
Ripple over Pass Band dB ≤0.5
Insertion Loss
COM to C21~C28&1571 dB ≤2.0
COM to C31~C38&1511&1491 ≤1.2
Isolation C21~C28@other dB >25dB
1571@other >30dB
C31~C38@C21~C28&1571 >13dB
1491@C21~C28&1571 >13dB
1511@C21~C28&1571 >13dB
Return loss dB ≥45
Directivity dB ≥50 *
PDL dB ≤0.30 *
PMD PS ≤0.20 *
Power Handling mW 500 *
Chapter 1 System Architecture 26
OTS-10 System Overview
Block diagram of OTS-DW-04-DBR is featured below.
OSC: 1511nm; 1571nm
Chapter 1 System Architecture 27
OTS-10 System Overview
Specification of OTS-DW-04-DBR:
Parameters Unit Value Note
100G Channel number NA 2X4
CWDM channel number NA 1
Central wavelength M/D: CH21 – Ch24; CH31 – CH34
Port Number NA 22
Channel Spacing GHz 100
100G Band Width@-0.5dB nm ≥0.3
100G Pass Band nm λ ITU-T±0.11
CWDM OSC pass band mm λ C±6.5
Ripple over Pass Band dB ≤0.5
Channel Insertion Loss dB ≤2.5
Uniformity dB ≤0.5
Adjacent Channel Isolation dB ≥28
Non-Adjacent Channel Isolation dB ≥45
OSC port Insertion Loss dB ≤1.0
OSC port Isolation dB ≥30
Insertion Loss Thermal Stability dB/℃ ≤0.008 *
Wavelength Thermal Stability nm/℃ ≤0.001 *
Return loss dB ≥45
Directivity dB ≥50 *
PDL dB ≤0.25 *
PMD PS ≤0.20 *
Power Handling mW 500 *
Chapter 1 System Architecture 28
OTS-10 System Overview
PARAMETER SPECIFICATION UNITS NOTE Operation Temperature -5~ +65 °C
Operation Humidity 5 to 90%RH Not condensed %RH
Storage Temperature -40 ~ +85 °C
Storage Humidity 0 to 95%RH Not condensed %RH
Card Function
Extended temperature range
Flat and wide pass band
High mux/demux channel isolation
Card Faceplate
The Mux/Demux faceplate is shown in Figure 14.
Figure 14 Mux/Demux Faceplate
Chapter 1 System Architecture 29
OTS-10 System Overview
Table 12: Symbols and indicators on the Mux/Demux faceplate as described in Figure 14
Table 12 Card Faceplate Description
Symbol Description
CH (21-28) Optical interface of channel, LC interface.
CH (31-38) Optical interface of channel, LC interface.
1451/1471/1591/1571 Optical interface of OSC, LC interface.
RED Optical interface of RED band of R/B splitter, LC interface.
BLUE Optical interface of BLUE band of R/B splitter, LC interface.
R-COM Common port of RED band, SC interface.
B-COM Common port of BLUE band, SC interface.
COM Common port of R/B splitter, SC interface.
1.7 Fan and Power
Fan Alarm LED
The OTS-10 has a pluggable fan tray that includes five fans, an Alarm LED for the fans, and an Alarm LED for the power
supplies.
The OTS-10 provides a Fan Fault LED feature. This feature comprises of an LED light that stays off when the fans are
functioning normally but will turn red if the software detects any defects in a fan.
Power Alarm LED
The OTS-10 system provides two power supply modules. The monitoring system can monitor defects of the power supply
voltage and report the alarm information to the Network Management System.
The OTS-10 provides the PWR Fault LED feature. This feature comprises of an LED light that stays off when the power is
functioning normally but will turn red if the software detects any defect in association with the power supply.
Power Supply
The power supply must be stable with a voltage range as follows:
DC Power range: -48V~-55V DC 5.2A; 7A (The DC power itself has a fuse.)
Chapter 1 System Architecture 30
OTS-10 System Overview
AC Power range: 100/200V, 50/60Hz. 2.75/1.375A; (The AC power itself has no fuse)
DC-48V power corresponding type
Use power wires corresponding to the power distribution equipment. The recommended power wires should be AWG19
thickness or higher. Connect the equipment terminal of the power wire with the terminal panel on the back of the OTS-10.
1. Connect the power terminal of the power wire with DC power.
2. Connect the terminal indicated [0V] with DC 0V, the terminal indicated [-48V] with DC -48V, and the terminal indicated
[FG] with the ground of the setting site. It shows the power connection method of the OTS-10 (DC-48V power
corresponding types).
Figure 15 DC power
DC power connection
The DC power connection -48VDC is made in accordance with the -48V terminal lug for both power feeds.
Figure 16 DC power
Warning!
Power cables must be plugged in while there is no power running through the cables.
Note: If the power output does not stop, do not directly touch the metal parts of the OTS-10 DC power terminal or power cable terminal to prevent personal injury and damage to the system.
AC power corresponding type
When using AC power as the OTS-10 Series power source:
For power supply redundancy, two AC sources (preferably independent) are required. Each source should be capable of
supplying 100 watts per OTS-10 system. The AC power cables from the AC source attach to the AC power module that is
mounted at the rear of the OTS-10 system.
Chapter 1 System Architecture 31
OTS-10 System Overview
An AC circuit breaker is recommended for the AC power source. This circuit breaker should protect against excess currents
and short circuits and should adhere to national and local electrical codes.
Insert the device-side of the power cord into the OTS-10 Series AC inlet and insert the power source-side of the power cord
into the power source outlet.
Figure 17 Connecting the Power Cord
1. Insert the power cord plug firmly into the appropriate outlet.
2. Always use a grounded outlet.
3. Always connect both power cords.
Chapter 2 System Functions and Features 32
OTS-10 System Overview
System Functions and Features
This chapter provides an overview of the OTS-10’s functions and features.
OptoSpan’s OTS-10 Functions
OptoSpan’s OTS-10 Features
2.1 System Functions
Media Converter Function
Service frame transmission between the devices’ Mux/Demux occurs when connecting the Long Haul(LH) ports of two
OTS-10 devices with a pair of single mode fibers (SMF) or dispersion shift fibers (DSF). Transmission span loss is 35dB
with EDFA (when FEC is enabled). Dispersion tolerance is ±800 ps/nm (zero chirp) or 0 to +1600 ps/nm (negative chirp
depending on what SFP/SFP+ is used).
Network Management Function
When the SNMP manager requests MIB information or settings, the device conducts the appropriate processing to fulfill the
request and sends the response data to the SNMP manager.
The SNMP managers that connect to the OTS-10 can be restricted as follows:
SNMP manager access restriction
SNMP manager IP address
If an IP address is set, all access—except from the registered SNMP manager—will be ignored.
Read-only community name
Read-write community name
Setting and updating of management information (MIB)
Using the Internet standard MIB prescribed by MIB RFC1213 (MIB II Revision 2), a user can adjust the system and
interface settings.
2
Chapter 2 System Functions and Features 33
OTS-10 System Overview
OptoSpan proprietary MIB such as the operation management MIB for displaying the status of each port can be
adjusted and set.
Using the MIB prescribed by RFC2863 (interface group MIB), the device ifXEntry can be adjusted and set.
Trap send function
The OTS-10 system can send the following traps to a manager that has been set as the trap receiver:
Cold trap on startup
Power failure and recovery status
Cooling fan failure and recovery status
Self-diagnostic test failure
SNMP authentication failure
Link Up/Down
Sending short frames (63 bytes or less) or long frames (9,217 bytes or more) with the Long-Haul (LH) port.
In-band Management function
By connecting the local equipment’s management port to a management device, the remote OTS-10 can be managed
through In-band OSC channels.
Protect Switch Function
PSW Group
channel 1 and channel 2 are PSW group, peer of channel 1 is channel 2 and vice versa
channel 3 and channel 4 are PSW group, peer of channel 3 is channel 4 and vice versa
channel 5 and channel 6 are PSW group, peer of channel 5 is channel 6 and vice versa
channel 7 and channel 8 are PSW group, peer of channel 7 is channel 8 and vice versa
In a PSW group, one channel is a working channel while the other is a protection channel. These channels can be set up using the CLI or SNMP manager.
Configure PSW group Rule
PSW mode setting
The OTS-10 has three settings:
Chapter 2 System Functions and Features 34
OTS-10 System Overview
1. Standalone (default)
2. Working
3. Protection
The standalone mode is the default mode for the OTS-10. The OTS-10 needs to be in standalone mode prior to switching to working or protection modes.
Switch from working to protection
There are two ways to switch from the working to protection mode: one is the automatic switch and the other is the manual
switch.
Automatic switch
Must satisfy the following conditions to automatically switch:
PSW availability
Working channel generated LOS alarm in the LH port or the working/active daughter card was pulled out
Manual switch
The OTS-10 can switch from working to protection manually via command line when the PSW group is active. If the PSW
group is not active, the OTS-10 cannot switch manually.
Switch from protection to working
One method to switch from protection to working mode is via the command line, but the following conditions would need
to be met:
PSW availability
The working channel must not have an LOS alarm in the LH port
Pulling out a daughter card which is in protection/active mode, the system will automatically switch to another card.
Must satisfy the following conditions to switch from protection to working:
PSW availability
Protection/active channel generated LOS alarm in the LH port or protection/active SFP module was pulled out of the
LH port.
Working/standby channel power LH port, while LH port no LOS Alarm
Note: Unplugging an SH port SFP module or SH port LOS alarm will not lead to an automatic switch.
Chapter 2 System Functions and Features 35
OTS-10 System Overview
2.2 System Features
Performance Monitoring
Via the performance monitoring function, the OTS-10 can monitor the Long Haul (LH) and Short Haul (SH) port loss of
signal operational status items. This function also allows for users to check normal values from a MIB (OptoSpan
proprietary MIB), which monitors the performance of the system every 15 minutes and automatically generates daily logs.
Loopback Test
This device features a loopback test function implemented between the local device and the remote device to check the
status of the port connection. A loopback test is conducted by sending a test from the OTS-10 local device to the remote
device and then back to the local device. The test results are then recorded in a log. The following are different methods
one can conduct a loopback test:
Through the terminal using a serial connection with the loopback terminal command after entering configuration mode.
Through a telnet connection once a management IP address has been established.
Request the loopback test using an SNMP manager (MIB).
File Transfer
The OTS-10 features a TFTP client function, allowing it to download firmware updates, transfer logs, and upload and
download information to a server on the network.
Log Record
The OTS-10 can save log information when the reboot command is executed. A key feature of the OTS-10 is that it is
SYSLOG compatible. This feature enables logs to be sent automatically to a network-connected SYSLOG server.
Note: If the power is turned off without executing the reboot command, the log will not be saved.
NTP and Clock
Incorporating a real-time clock, the OTS-10 allows logs to be recorded at a time specified by the user. It is also NTP
compatible, allowing the use of a user-prepared server to synchronize the internal clock. The lithium battery saves the time
setting even when the power is turned off.
OSC
The main board in the OTS-10 main shelf consists of CPU and control circuit. This main board also supports in-band
capability by use of an Optical Service Channel (single OSC). With dual OSC, OTS-10 can be used in RING application.
Chapter 2 System Functions and Features 36
OTS-10 System Overview
System Access Capability
The interface types are as follow:
CWDM 10GbE optical interfaces
DWDM 10GbE optical interfaces
CWDM OC192 optical interfaces
DWDM OC192 optical interfaces
OC48 optical interfaces
1GbE optical interfaces
2.5GbE optical interfaces
EDFA interfaces
Ethernet Service Processing Capability
Network Interface Protocols
The following section lists the OTS-10 supported protocols:
IEEE802.3: 1000BASE-X
IEEE802.3/IEEE802.3u: 10BASE-T, 100BASE-TX
IEEE802.3ae: 10GBASE-R
Console Interfaces
ITU-T V.24/V.28
Network Management Protocols
RFC1157: SNMP (Simple Network Management Protocol)
Objects managed by the network
RFC1213: Internet standard MIB (Management Information Base) (system, interface)
RFC2863: Interface group MIB(ifXEntry)
OptoSpan private mib: OTS-10 -mibs.mib
Chapter 2 System Functions and Features 37
OTS-10 System Overview
Communication protocols
RFC793: TCP (Transmission Control Protocol)
RFC768:UDP(User Datagram Protocol)
RFC791: IP (Internet Protocol)
RFC826: ARP (Address Resolution Protocol)
RFC854: TELNET
RFC792: ICMP (Internet Control Message Protocol)
RFC1305: NTP
RFC3164: SYSLOG
Chapter 3 Administration and Management 38
OTS-10 System Overview
Administration and Management
The following chapter provides a detailed listing of how to manage and use the OTS-10 system through either the web
graphical user interface (GUI) or the command line interface (CLI).
Web Graphical User Interface (GUI)
Command Line Interface (CLI)
3.1 Introduction The OTS-10 has two default accounts set up. One is username “adpro” and the other is username “user”. Adpro is the
default admin account and user is the default user account. Both default accounts have no password, but a password can
be configured through the admin account.
The admin account has no restrictions when configuring the OTS-10. The user account does not have permissions to make
changes on the system but has permission to view all settings.
3.2 Web Graphical User Interface (WebGUI) The OTS-10 has a user-friendly GUI for users to configure the system. To access the web GUI the management IP address
must be configured using a serial port connection and the command line interface. Once the management IP address is
configured; the management IP address can be entered into any internet browser to access the web GUI.
To configure the OTS-10 through the GUI the account must have admin rank since user accounts only have access to view
setting. The GUI works by clicking to change a setting. Clicking on a field may either bring up a dropdown box for the user
to choose from or an empty textbox where the user must type in the information they wish to change the setting to.
Below are screenshots of each tab of the GUI when the system is running without any errors. The configuration of the
system during the screenshots is one SFP transceiver plugged into Long Haul (LH) port 1 and one SFP transceiver plugged
into Short Haul (SH) port 1.
3
Chapter 3 Administration and Management 39
OTS-10 System Overview
Figure 18 Login Prompt
Figure 18: Login prompt after management IP address entered into internet browser.
Figure 19 Web GUI
Figure 19: Web GUI after a successful logon.
Chapter 3 Administration and Management 40
OTS-10 System Overview
Figure 20 Homepage
Figure 20: Homepage of the GUI, which is the default page when a user logs in with proper credentials.
Figure 21 System Information
Figure 21: Systems information tab of the current running system. It displays all system pertinent information such
as model name, service number, service up time, and current modules plugged into the system.
Chapter 3 Administration and Management 41
OTS-10 System Overview
Figure 22 Time
Figure 22: Time tab which is used to alter the time and date information of the system.
Figure 23 Overview
Figure 23: Overview of the system with port and port setting information.
Chapter 3 Administration and Management 42
OTS-10 System Overview
Figure 24 Interface
Figure 24: Interface tab which configures the individual ports of the system. Here settings such as TLLF and tx-
sync can be configured.
Figure 25 IP&Routing
Figure 25: IP & Routing tab which configures the IP information of the system. The user can set up multiple IP
servers, a syslog server, and a radius server from this tab.
Chapter 3 Administration and Management 43
OTS-10 System Overview
Figure 26 Manage SNMP
Figure 26: SNMP tab where the user can configure a SNMP server to help maintain the system.
Figure 27 Alarm
Figure 27: Alarm tab where users can monitor alarms of the system. Shown is a system with no alarms.
Chapter 3 Administration and Management 44
OTS-10 System Overview
Figure 28 Timeout
Figure 28: Timeout tab where the user may set the timeout value of the system if the system does not receive a
response.
Figure 29 Account
Figure 29: Account tab which displays all account information for the system.
Chapter 3 Administration and Management 45
OTS-10 System Overview
Figure 30 Save
Figure 30: Save tab where saving current configuration, current logs, or restoration of previous configurations
happen.
Figure 31 Upload/Download
Figure 31: Upload/download tab where uploading and downloading through a TFTP server occurs.
Chapter 3 Administration and Management 46
OTS-10 System Overview
Figure 32 System Log
Figure 32: System log which tracks any modifications made on the system and when users log in and out.
Figure 33 Fault Log
Figure 33: Fault log which displays all fault information of the system.
Chapter 3 Administration and Management 47
OTS-10 System Overview
Figure 34 Reboot
Figure 34: Reboot tab where the system can be rebooted.
Figure 35 Logout Prompt
Figure 35: Prompt given before logging out of the system.
3.3 Command Line Interface (CLI)
Following are the two methods to connect with OTS-10 series for general parameter configuration via PC:
The managed device must first be configured correctly using the serial port. When connecting through the RS-232 port,
the entire auto configuration can be completed using RS-232 protocol. Using putty, the user can connect to the device
through the serial connection and configure the system.
The second method is to connect your computer with the management port of the OTS-10, then login to the OTS-10 via
Telnet session. This second method only works when the OTS-10 management port is connected to an existing LAN and
the IP address has been configured through the serial port.
Below is a list of the main menu commands in the OTS-10. For an all-encompassing list of commands available refer to the
OTS series command line document which provides detailed explanations and examples of all commands.
Show – show various system information
Configure – configure parameters
Chapter 3 Administration and Management 48
OTS-10 System Overview
Restore-config - Sets configurations to defaults except ip, ip mask & route.
Flush-config - Set all configurations to default
Write – write configurations/logs to memory
Upload – upload configurations/logs via TFTP, or output to display
Download – download configurations vis TFTP
Delete – delete a sub-card configuration
Ping – ping a destination ip (ctrl+c to exit)
Reboot – reboot system
System-download – download new system firmware via tftp
Version – show OS version and expansion card information
telnet – telnet to a destination ip
No – negate a command or reset to default values
Exit – logoff the system.
3.4 Helpful Tips Possible errors may arise when using the command line. If an “Ambiguous command” error appears, pressing TAB key will
show what information is needed to continue with the command. Another error may be “Invalid input detected” which simply
means the command you have entered is not a valid command.
When using the command line, it is highly recommended to consistently press the TAB key for any confusion as it will
directly state what the command is looking for or which commands are valid in the operation mode.
If the user wishes to logoff the system, they may do so using the EXIT command on the main menu.
Chapter 4 Networking Applications and Configurations 49
OTS-10 System Overview
Networking Applications and
Configurations
The OTS-10 is a cost-effective solution specially designed for carriers or service providers who require a highly reliable network.
It supports the transport of 1G-10G Ethernet services and OC48, OC192 SONET services.
This chapter contains the following topics regarding the typical network configurations and applications of the OTS-10:
Equipment Application Advantages
Typical Deployment Configurations
Network Design with OTS-10
4.1 Application Advantages
The OTS-10 is a 1U Mini-chassis type Multi-service platform with a flexible configuration compatible with various network
applications. The OTS-10 has the following remarkable application advantages brought about by the implementation of new
technologies.
High Integration
The cabinet is 44.4mm x 440mm x 450mm (height x width x depth). The OTS-10 chassis frame weight is 7.3kg without
cards, and it is 9kg with two mini EDFA cards. With this 1U design, multiple OTS-10s can fit in the average network
equipment room.
Flexible Configuration
The OTS-10 provides 8 data traffic expansion channels. These data channels can be plugged in any combination of any
type of high speed 10 G module (OC192, and 10 GbE) or low speed multi-rate module (1 GbE, 1xFC, 2xFC, OC48) for
widespread compatibility.
4
Chapter 4 Networking Applications and Configurations 50
OTS-10 System Overview
Network Management
When the SNMP manager of the OTS-10 requests MIB information or settings, the device conducts the appropriate
processing to fulfill the request and sends response data to the SNMP manager. The OTS-10 contains management
information and responds to requests from the manager for retrieving information and when settings to be adjusted. SNMP
supports both V1 and V2 versions at the same time, allowing for the Client side to determine the version according to
preference.
The SNMP managers that connect to the OTS-10 can be restricted as follows:
• SNMP manager access restriction: read-only, read-write.
If an IP address is set, all access except from the registered SNMP manager will be ignored.
Read-only community name
Read-write community name
Managing via SNMP
When the SNMP manager requires reading or setting of the MIB contents the OTS-10 will transmit the response data to the
SNMP manager according to the request.
Figure 36 SNMP manager maps
• Setting and updating of management information (MIB)
OTS-10
Chapter 4 Networking Applications and Configurations 51
OTS-10 System Overview
Using the internet standard MIB prescribed by MIB RFC1213, the device can set and change system and interface settings.
OptoSpan proprietary MIB—such as the operation management MIB for displaying the status of each port— can be set and changed.
Using the MIB prescribed by RFC2863 (interface group MIB), the device can set and change ifXEntry.
• Trap sends function
The OTS-10 can send the following traps to a manager that has been set as the trap receiver.
Cold trap on startup
Power failure and recovery status
Cooling fan failure and recovery status
SNMP authentication failure
LINK UP/DOWN
Traps Transmission
The equipment works as a trap source and transmits the traps to the preset managers. The connection method is as follow Figure 37.
Figure 37 Traps transmission
OTS-10
Chapter 4 Networking Applications and Configurations 52
OTS-10 System Overview
The OTS-10 connection method includes both ring and point-to-point configurations.
Two methods of in band management are outlined:
1) Static route configuration:
Figure 38 Static route solution
2) Dynamic route solution:
Figure 39 Dynamic route solution
OTS-10 A OTS-10 B
OTS-10 A OTS-10 B
Chapter 4 Networking Applications and Configurations 53
OTS-10 System Overview
4.2 Networking Application
Point-to-Point Network
The OTS-10 connection method includes both ring and point-to-point configurations.
Four methods of in band management are outlined:
Figure 40 Basic CWDM application
Figure 40 illustrates the basic 8 channel CWDM 80km P2P application, where the user traffic can be 1G ~10G multi-rate,
or mixed.
Figure 41 Basic DWDM applications
Figure 41 illustrates the basic 8 channel DWDM 80km P2P application, where the user traffic can be 1G ~10G multi-rate,
or mixed.
Figure 42 DWDM applications with big span loss
OTS-10 OTS-CW-08-C
OTS-10 OTS-CW-08-C
80km
OTS-10 OTS-DW-08-
DS1
OTS-10 oW2208D
80km
Wavelength: 1471nm, 1491nm, 1511nm, 1531nm, 1551nm, 1571nm, 1591nm, 1611nm OSC channel: 1451nm MUX/DEMUX: OTS-CW-08-C
Wavelength: D21, D22, D23, D24, D25, D26, D27, D28 OSC channel: 1510nm MUX/DEMUX: OTS-DW-08-DS1
OTS-10 OTS-DW-08-DS1
OTS-10 OTS-DW-08-DS1
EDFA EDFA EDFA EDFA
Wavelength: D21, D22, D23, D24, D25, D26, D27, D28 OSC channel: 1510nm MUX/DEMUX: OTS-DW-08-DS1 Pre-EDFA: OTS-AMP-12-RP Boost EDFA: OTS-AMP-17-RB
OTS-DW-08-DS1 OTS-DW-08-DS1
OTS-DW-08-DS1 OTS-DW-08-DS1
Chapter 4 Networking Applications and Configurations 54
OTS-10 System Overview
Figure 42 is an application when the span loss can be up to 38dB. When using DWDM, both mini EDFA for Boost optical
amplifier and pre-amplifier can be used. External DCF or DCM card can also be used for long distance transmissions.
Figure 43 DWDM 8 channel single fiber bi-directional transmission
Figure 43 is an example of the 8 channel, single fiber bi-directional DWDM transmission. For this transmission, the user
traffic can mix with10 GbE (or 10 G SONET OC192) and the low bit rate. EDFA can be where power may be limited.
External DCF or DCM card is used in the case of long distance.
Ring Application
General Description
The OTS-10 supports 2 types of Ring or linear protection application: single fiber bi-direction or dual fiber bi-direction. OTS-
DW-04-DBR supports dual fiber bi-direction protection, which divides 8 channels into two groups, one for WEST direction,
and the other for EAST direction. Each group can be configured as a working protection path by software. OSC channel is
set as 1510nm for DWDM application in both working and protection paths. For single fiber bi-direction, there are two
MUX/DEMUX used. OTS-DW-08-DBU supports signal fiber bi-directional protection without EDFA. For signal fiber bi-
directional protection with EDFA, OTS-DW-04-DBR should be used.
OTS-10
OTS-10
OTS-DW-08-DBU
OTS-DW-08-DBU
Red Band: CH21 – Ch28
Blue Band: CH31 – CH38 EDFA EDFA
EDFA EDFA
Wavelength: Red Band (A-B): CH21 – Ch28 Blue Band (B-A): CH31 – CH38 OSC channel: 1511nm, 1571nm MUX/DEMUX: OTS-DW-08-DBU EDFA: OTS-AMP-17-RB, OTS-AMP-12-RP
Chapter 4 Networking Applications and Configurations 55
OTS-10 System Overview
Figure 44 Single fiber, bi-directional, 1+1 protection or Ring without EDFA
Figure 44 is an example of single fiber bi-direction protection without EDFA, in which case OTS-DW-08-DBU is used. This is suitable for a low cost, yet highly reliable application. Four channel DWDM transmissions with 1+1 protection are supported. User ports support 1-10G, or mixed.
Figure 45 Single fiber, bi-directional, 1+1 protection or Ring with pre-EDFA
Figure 45 shows the case of single fiber bi-direction protection with pre-EDFA where OTS-DW-04-DBR is used. This is very suitable for low cost, high reliable applications. 4 channel DWDM transmissions with 1+1 protection are supported. User ports support 1-10G, or mixed.
OTS-10
OTS-10
OTS-DW-08-DBU
OTS-DW-08-DBU
CH25 – Ch28
CH21 – CH24
CH31 – Ch34
CH35 – CH38
WEST EAST
WEST EAST Working Protection
Wavelength: Working (W -> E): CH21 – Ch24 Working (E -> W): CH25 – CH28 Protection (W -> E): CH35 – Ch38 Protection (E -> W): CH31 – Ch34 OSC channel: Working -- 1511nm, 1571nm Protection -- 1491nm, 1511nm MUX/DEMUX: OTS-DW-08-DBU
OTS-10
OTS-10
OTS-DW-04-DBR
OTS-DW-04-DBR
CH31 – Ch34
CH21 – CH24
CH31 – Ch34
CH21 – CH24
WEST EAST
WEST EAST Working Protection
Wavelength: Working (W -> E): CH21 – Ch24 Working (E -> W): CH31 – CH34 Protection (W -> E): CH21 – Ch24 Protection (E -> W): CH31 – Ch34 OSC channel: Working -- 1511nm, 1571nm Protection -- 1511nm, 1571nm MUX/DEMUX: OTS-DW-04-DBR Pre-EDFA: OTS-AMP-12-RP
EDFA
EDFA
EDFA
EDFA
Chapter 4 Networking Applications and Configurations 56
OTS-10 System Overview
Stack Application
General Description
Not including the OSC channel, the OTS-10 can support a maximum of 8 channels. To support an application beyond 8
channels per one node, the OTS-10 can stack at least 5 mini-chassis, which means it can support at least 32 channels,
known as network management port stacking and optical wavelength stacking.
Stack of Management port
The OTS-10 features two 10M/100M management ports for network management stacking. Connecting the UP port to the
DOWN port of each stacking mini-chassis allows for a simpler, streamlined software management of each mini-chassis.
Figure 46 displays the network management stack.
Figure 46 Network management port stacking
Stack of optical wavelength
When stacking the management ports, a band filter card is used. A band filter card divides all wavelengths into several sub-
bands. Every OTS-10 mini-chassis supports one sub-band. For example, for the DWDM system, five mini-chassis can be
stacked to support 100G grids allowing for the transmission 40 channels, as displayed in Figure 47. OTS-10-BF-05-D is the
5 sub-band band filter card which divides the full C-band (from CH21 to CH60) into a 5 sub-band. Every sub-band feeds
into one 1RU mini-chassis. Through this arrangement, a 5RU mini-chassis can support 400G transmission.
Chapter 4 Networking Applications and Configurations 57
OTS-10 System Overview
Figure 47 Block diagram of optical wavelength stack
OTS-10
OTS-10
OTS-10
Wavelength: Totally 40 channel. ITU D21 – D60 OSC: 1510nm Band filter: OTS-10-BF-05-D (can be plugged into EDFA slot) MUX/DEMUX: OTS-DW-08-DS1 OTS-DW-08-DS2 OTS-DW-08-DS3 OTS-DW-08-DS4 OTS-DW-08-DS5
OTS-DW-08-DS5
OTS-10
OTS-10
OTS-10-BF-05-D
ITU 21, 22…28
ITU 29, 30…36
ITU 37, 38…44
ITU 45, 48, 52
ITU 53, 54, 60
OTS-DW-08-DS4
OTS-DW-08-DS3
OTS-DW-08-DS2
OTS-DW-08-DS1
Chapter 5 Advanced Management 58
OTS-10 System Overview
Advanced Management
The following chapter is an overview of additional details of the OTS-10 management.
5.1 Fault Management
Alarm surveillance involves detection and report of the related events and conditions happening in the network. An alarm is
generated automatically by each event and input signal. There are 5 severity levels of the alarms in the OTS-10. They are
Critical, Major, Minor, Information and Clear. The alarm and its level are shown through the alarm indicator on the OTS-10
sub-rack. After the alarm is sent to the network management system, the system can automatically analyze the detailed
description of the alarm and determine the probable cause to help with troubleshooting.
Alarm Hierarchy
Figure 48 Alarm Hierarchy Map
The following should be noted:
• There is no alarm hierarchy for OAMP interface.
• Wavelength Mismatch includes reading wavelength failure.
• “LC HW Failure” alarms can indicate a problem regardless of the configured state of the LC.
• Alarm hierarchy is used for reporting the highest priority failure for defects appearing at the same time and does not apply
to independent failures happening at different times.
5
Transceiver Absent
Bias Alarm Temperature Alarm
LOS FSR Force Down
LC HW Failure
Chapter 5 Advanced Management 59
OTS-10 System Overview
Alarm List
Supported alarms are as follows:
Alarm Level
(1) Critical (2) Major (3) Minor (4) Information (5) Clear
“*” means trap only, there is no associated condition
Table 13 System Alarm List
Content Level
System Alarm List
* System Cold Reboot Information
* System Warm Reboot Information
* Authentication Failure Information
Shelf alarm lists---shelf
Fan Fault Major/ Critical
* Fan Fault Clear Clear
Power Fault Major
* Power Fault Clear Clear
* SC Disconnection Information
* SC Connection Information
* Duplicate SC Conflict Information
* Duplicate NC Conflict Information
* Shelf Delete Information
* Shelf Cold Reboot Information
* Shelf Warm Reboot Information
Line Card or MUX/DEM Alarm List---shelf/slot
Chapter 5 Advanced Management 60
OTS-10 System Overview
* Line Card Insert Information
* Line Card Remove Information
* Line Card Delete Information
Line Card hw Fault Critical
* Line Card hw Fault clear Clear
XCVR Alarm List---shelf/slot/port(1G/2.5G/10G-SH,1G/2.5G-LH)
Transceiver Module Absent Information
* Transceiver Module Absent clear Clear
Transceiver Module Mismatch Major
* Transceiver Module Mismatch clear Clear
1G card Alarm List---shelf/slot/port
Loss of Signal Critical
* Loss of Signal Clear Clear
Laser Temperature Failure Critical
* Laser Temperature Clear Clear
Laser Bias Failure Critical
* Laser Bias Clear Clear
Remote Defect Indication Information
* Remote Defect Indication Clear Clear
DB Alarm List
* DB LC Change Information
* DB Change Information
* DB Corruption Critical
Management Port
Chapter 5 Advanced Management 61
OTS-10 System Overview
* Port Link Up Clear
Port Link Down Information
OSC Port---shelf
* Link Up Clear
Link down Information
Transceiver Module Absent Information
* Transceiver Module Absent clear Clear
Laser Temperature Failure Critical
* Laser Temperature Clear Clear
Laser Bias Failure Critical
* Laser Bias Clear Information
EDFA OAMP Port---shelf/slot/port
EDFA Pump Temperature Alarm Critical
* EDFA Pump Temperature Alarm Clear Clear
EDFA Pump Bias Alarm Critical
* EDFA Pump Bias Alarm Clear Clear
EDFA Input Power Alarm Critical
* EDFA Input Power Alarm Clear Clear
EDFA Output Power Alarm Critical
* EDFA Output Power Alarm Clear Clear
EDFA Temperature Alarm Critical
* EDFA Temperature Alarm Clear Clear
PSW---shelf
* PSW switch Information
Chapter 5 Advanced Management 62
OTS-10 System Overview
* PSW mode mismatch Information
* PSW status mismatch Information
Note: When an interface is disabled, Bias alarm should not be raised.
5.2 Performance Monitoring
The OTS-10 can monitor the following operational status items: Long Haul and Short Haul port loss of signal. The
performance monitor function can also check normal values from an MIB (OptoSpan proprietary MIB). This function can
separately count in every 15 minutes and log daily.
Performance Monitoring (PM) collects the NE performance primitive data and status of the equipment by continuously
tracking system, network, and service activities to report and evaluate the performance of network and NE. The PM
parameters are derived from performance primitives associated with SDH frame formats defined in ITU-T G.707. The
performance parameters specified for Section and Path layers are included. Two tables are provided, one for SDH and the
other for the Ethernet interface.
Performance Data
The OTS-10 uses one 15-minute register and one 24-hour register for every performance parameter to save current performance data. After the sampling period, data will be saved to the history register which is composed of ninety-six 15-minute registers (one previous and fifteen recent) and seven 24-hour registers (one previous and five recent). Further, there is a register for saving the current performance value for each Ethernet performance parameter.
The card PM data information is as follows:
1GBE Card
Performance Monitoring Data contents include Loss of Signal Seconds (LOSS), Laser bias current (LBC), Optical power TX
(OPT) and Optical power RX (OPR).
Performance Data Reporting and Collection
Performance Monitoring records information every 15 minutes, with statistics gathered from the system within the first 15-
minute border. Statistic times should be real-time RTC of the system and the point of collection should be 15-minute
intervals, such as 12:00, 12:15, 12:30. Time stamps should adopt the ending time of each 15-minute period and the PM
function retains the last 96 historical statistics.
Chapter 5 Advanced Management 63
OTS-10 System Overview
The PM function retains historical statistical data of up to 7 days prior.
5.3 Memory Backup
The OTS-10 provides multiple backup methods for data configuration. This system supports “write flash-memory” command.
Configuration data in the RAM can be backed up to FLASH database through the network management system, or CLI, to
prevent the loss of configuration in case of a power failure.
5.4 Configuration Management
The OTS-10 provides a configuration log to store all operation commands.
Equipment Configuration
The OTS-10 supports off-line card configuration and allows the operator to configure its card type and associated software.
This software can be backed up and upgraded without interrupting the services. The OTS-10 also boasts a built-in failover
mechanism. The software can roll back to the previous working version by re-load.
For any further questions feel free to contact us at (877) 819-0484 or sales@optospan.com or visit our website at
optospan.com.