Cisco ONS 15530 Hardware Installation Guide Corporate Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA http://www.cisco.
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
C O N T E N T S Preface vii Audience vii New and Changed Information Organization ix Conventions ix Related Documentation vii x Obtaining Documentation xi Cisco.
Contents OSC Modules and Carrier Motherboards 1-14 OSC Module LEDs 1-15 PSMs 1-15 PSM LEDs 1-16 Transponder Line Cards 1-17 Transponder Line Card LEDs 1-20 OADM Modules 1-20 Wide-Band Variable Optical Attenuator and Per-Band Optical Equalizer Modules ESCON Aggregation Cards 1-25 4-Port 1-Gbps/2-Gbps FC Aggregation Cards 1-27 8-Port FC/GE Aggregation Cards 1-30 8-Port Multi-Service Muxponders 1-33 2.
Contents Removing SFP from Aggregation Cards and Muxponders 2-19 Removing Pull Tab SFPs with RJ-45 Connectors 2-19 Removing Non-Pull Tab SFPs with RJ-45 Connectors 2-20 Removing SFP Optics with MT-RJ Connectors 2-21 Removing SFP Optics with LC Connectors 2-23 Removing SFPs with Mini SMB Coax Connectors 2-24 Installing and Removing Modules 2-24 Installing OADM Modules and PSMs 2-24 Installing OSC Modules, WB-VOA Modules, and PB-OE Modules Removing Modules 2-26 Replacing the Fan Assembly 2-27 Power Guideli
Contents Connecting the 8-Port FC/GE Aggregation Card Connecting the 8-Port Multi-Service Muxponder Connecting the 2.
Preface This preface describes the audience, new and changed information, organization, and conventions of the Cisco ONS 15530 Hardware Installation Guide. It also provides information about how to obtain related documentation and technical assistance. The information contained in this document pertains to the entire range of hardware supported on the Cisco ONS 15530 platform.
Preface New and Changed Information Feature Release Description Location 4-channel tunable 10-Gbps ITU trunk card 12.2(26)SV If the 10-Gbps ITU trunk cards are equipped with Universal Transponders (UT1) that have tunable lasers, the cards are programmable to one of the four supported frequencies belonging to one of the following bands: A, B, C, D, E, F, G, or H. “10-Gbps ITU Tunable Trunk Cards” section on page 1-42 8-port multi-service muxponder 12.
Preface Organization Feature Release Description Location 2.5-Gbps ITU trunk cards 12.1(12c)EV 2.5-Gbps ITU trunk card sends and receives the ITU grid wavelength signal to and from an OADM module. “2.5-Gbps ITU Trunk Cards” section on page 1-36 PSM (protection switch module) provides trunk fiber protection. “PSMs” section on page 1-15 Protection switch module 12.1(12c)EV “Connecting the 2.
Preface Related Documentation Convention Application boldface screen font Examples of information that the user must enter. < Command parameters that must be replaced by module-specific codes. > Notes and Cautions contain important information that you should be aware of. Note Caution Means reader take note. Notes contain helpful suggestions or references to material not covered in the publication. Means reader be careful.
Preface Obtaining Documentation Obtaining Documentation Cisco documentation and additional literature are available on Cisco.com. Cisco also provides several ways to obtain technical assistance and other technical resources. These sections explain how to obtain technical information from Cisco Systems. Cisco.com You can access the most current Cisco documentation at this URL: http://www.cisco.com/univercd/home/home.htm You can access the Cisco website at this URL: http://www.cisco.
Preface Documentation Feedback Documentation Feedback You can send comments about technical documentation to bug-doc@cisco.com. You can submit comments by using the response card (if present) behind the front cover of your document or by writing to the following address: Cisco Systems Attn: Customer Document Ordering 170 West Tasman Drive San Jose, CA 95134-9883 We appreciate your comments.
Preface Obtaining Technical Assistance In an emergency, you can also reach PSIRT by telephone: • 1 877 228-7302 • 1 408 525-6532 Obtaining Technical Assistance For all customers, partners, resellers, and distributors who hold valid Cisco service contracts, Cisco Technical Support provides 24-hour-a-day, award-winning technical assistance. The Cisco Technical Support Website on Cisco.com features extensive online support resources.
Preface Obtaining Additional Publications and Information To open a service request by telephone, use one of the following numbers: Asia-Pacific: +61 2 8446 7411 (Australia: 1 800 805 227) EMEA: +32 2 704 55 55 USA: 1 800 553-2447 For a complete list of Cisco TAC contacts, go to this URL: http://www.cisco.com/techsupport/contacts Definitions of Service Request Severity To ensure that all service requests are reported in a standard format, Cisco has established severity definitions.
Preface Obtaining Additional Publications and Information • iQ Magazine is the quarterly publication from Cisco Systems designed to help growing companies learn how they can use technology to increase revenue, streamline their business, and expand services. The publication identifies the challenges facing these companies and the technologies to help solve them, using real-world case studies and business strategies to help readers make sound technology investment decisions.
Preface Obtaining Additional Publications and Information Cisco ONS 15530 Hardware Installation Guide xvi OL-7706-01
C H A P T E R 1 Cisco ONS 15530 Overview The Cisco ONS 15530 is a modular and scalable optical switching and aggregation platform designed to supplement the Cisco ONS 15540 ESP. With the Cisco ONS 15530, users can take advantage of the availability of dark fiber to build a common infrastructure that supports data, storage area network (SAN), and time-division multiplexing(TDM) traffic.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Cisco ONS 15530 Chassis The Cisco ONS 15530 is available in two configurations. Both have two vertically stacked half-height slots specifically for the optical OADM (optical add/drop multiplexing) modules, and 10 vertically oriented slots that hold the CPU switch modules, line cards, and 2.5-G transponder trunk line cards. Slot 0 holds two half height optical OADM modules.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Cisco ONS 15530-CHAS-E Chassis The dimensions of the Cisco ONS 15530 CHAS-E chassis are 14.4 x 17.3 x 10.1 inches (H x W x D) See Figure 1-2. Handles for lifting the chassis are located on the sides.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Cisco ONS 15530 CHAS-E (with Air Ramp Baffle) 77825 F ST AN AT U S Figure 1-3 Cisco ONS 15530 Hardware Installation Guide 1-4 OL-7706-01
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Figure 1-4 Cisco ONS 15530 CHAS-E Chassis Airflow (with Air Ramp Baffle Installed) Exhaust air Top Rear Front Bottom 77824 Fan assembly Air ramp baffle Ambient air intake Cisco ONS 15530 CHAS-N Chassis The dimensions of the Cisco ONS 15530 CHAS-N chassis are 14.4 x 15.7 x 10.1 inches (H x W x D). (See Figure 1-5.) Handles for lifting the chassis are located on the top.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Cisco ONS 15530 CHAS-N Chassis Figure 1-6 Cisco ONS 15530 CHAS-N Chassis Airflow 77081 F ST AN AT U S Figure 1-5 Top Exhaust air Ambient air intake Fan assembly Bottom 77668 Rear Front Cisco ONS 15530 Hardware Installation Guide 1-6 OL-7706-01
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Fan Assembly The Cisco ONS 15530 fan assembly is located at the bottom of the chassis. The assembly contains six individual fans and a fan controller board (see Figure 1-7). Figure 1-7 Fan Assembly 77834 N US FA TAT S The controller board monitors the status of each fan and reports the status to the CPU switch modules.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Table 1-1 lists the fan assembly LED status describing the alarm reports for the fan assembly. The fan assembly is hot-swappable. Table 1-1 Fan Assembly Status Fan Failure LED Status None Green Normal One Yellow Minor Two or more Red Major Audible and Visible Alarms The Cisco ONS 15530 provides audible and visible alarm status to the Telco central office alarm equipment through hardware located on the fan assembly (see Figure 1-8).
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Chassis Power Supplies The Cisco ONS 15530 chassis supports redundant 120–240 VAC (see Figure 1-9) or –48 VDC (see Figure 1-10) power. The power supplies are located at the right of the chassis, next to the card slots (see Figure 1-1). Up to two power supplies can be installed for redundancy. Figure 1-9 120–240 VAC Power Supply FASTENERS MUST BE FULLY ENGAGED PRIOR TO OPERATING THE POWER SUPPLY FAIL GOOD ~ 77894 100-240V 8.0- 3.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Backplane The Cisco ONS 15530 backplane implements all board-to-board signal interconnects and provides power distribution within the chassis. Connections are present for two power supplies and the fan assembly. The backplane contains a total of 12 slots; two half-height slots for the OADM modules, two full height slots for the CPU switch modules, and eight full height slots for line cards and transponder cards.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components CPU Switch Modules The Cisco ONS 15530 supports two CPU switch modules for redundancy, one in active mode and the other in hot-standby mode. CPU switch modules are installed in slot 5 and slot 6.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-11 shows the front panel of the CPU switch module.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components CPU Switch Module Ports, LEDs, and Switches Table 1-3 lists the LEDs on the CPU switch module faceplate with a description of the status indication. Table 1-3 CPU Switch Module LEDs LED Status Description STATUS Green IOS is loaded and running. Yellow Card is in the process of booting. ACTIVE Green Module is the primary CPU switch module, otherwise the LED is off. STANDBY Green Module is in standby mode, otherwise the LED is off.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-4 shows the pinouts of the console and auxiliary ports. Table 1-4 Console and Auxiliary Port RJ-45 Pinout Pin No.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-12 OSC Module ST AT U 1 S T X 2 R X X TX 4 15530-OSCM 5 77667 R 3 1 Card status LED 4 Transmit LED 2 OADM port 5 Card handle 3 Receive LED OSC Module LEDs Table 1-5 lists the LEDs on the OSC module faceplate, their default conditions, and what the conditions indicate. Table 1-5 OSC Module LEDs LED Status Description STATUS Green OSC module initialization process is complete.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components The PSM for the Cisco ONS 15530 has a front panel with four MU connector pairs, as shown in Figure 1-13. Figure 1-13 PSM 1 2 3 4 85519 5 1 Rx/Tx West ports 4 East and West optical monitor ports 2 Rx/Tx East ports 5 Common IN/OUT ports 3 East and West status LEDs PSM LEDs Table 1-6 lists the LEDs on the PSM faceplate, their default conditions, and what the conditions indicate.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Transponder Line Cards The protocol-transparent and bit-rate transparent transponder line card converts a single client signal into an ITU wavelength, or channel. The transponder line cards have tunable lasers and you can configure the line cards to work in two different wavelengths. The Cisco ONS 15530 holds up to four transponder line cards, one for each wavelength supported by the OADM modules.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-14 Transponder Line Card LEDs (Nonsplitter) ST AT U S 1 3 T X T X R X 2 R X 4 5 7 T X T X 6 R X 8 77659 R X 1 Card status LED 5 Client side transmit LED 2 ITU side port 6 Client side transmit port 3 ITU transmit LED 7 Client side receive LED 4 ITU receive LED 8 Client side receive port Cisco ONS 15530 Hardware Installation Guide 1-18 OL-7706-01
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-15 Transponder Line Card LEDs (Splitter) ST AT U S 1 2 4 5 6 8 10 W E S T T X 3 R X T X R X E A S T T X 7 R X T X R X T X 9 R X 11 W ITU TX W ITU RX E ITU TX E ITU RX 1310 TX 77660 1310 RX 1 Card status LED 7 East side ITU port 2 West side ITU LED 8 Client side transmit LED 3 West side ITU port 9 Client side transmit port 4 ITU side transmit LED 10 Client side receive LED 5 ITU side receive LED
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components The transponder line cards are hot swappable, permitting in-service upgrades and replacement. All client signals on the transponders are supported in 3R (reshape, retime, retransmit) mode, regardless of protocol encapsulation type. The client interfaces also support the OFC (open fiber control) safety protocol for Fibre Channel, ISC compatibility mode, and FICON. The client side ports use SC-type connectors.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-16 OADM Module 1 2 3 4 5 6 91400 7 1 Trunk IN/OUT ports 5 Data channel IN/OUT ports 2 Thru IN/OUT ports 6 Data channel IN/OUT ports 7 Data channel IN/OUT ports 1 3 OSC IN/OUT ports 4 Data channel IN/OUT ports 1. Only on OADM modules with OSC. These ports are not used on other modules.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-17 Single WB-VOA Module 15500-VOA-0100 PM1 STA 1 2 IN 3 OUT 4 79166 5 1 PM1 LED 4 OUT port 2 Card status LED 5 Handle 3 IN port Table 1-8 lists the LEDs on the single WB-VOA module faceplate, their default conditions, and what the conditions indicate. Table 1-8 Single WB-VOA Module LEDs LED Status Description PM1 Green Light reception exists at the port. STA Green Card is properly initialized.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-18 Dual WB-VOA Module 2 15500-VOA-0200 PM2 PM1 STA 1 3 IN1 4 OUT1 5 7 IN2 6 79168 OUT2 8 1 PM2 LED 5 OUT1 port 2 PM1 LED 6 Handle 3 Card status LED 7 IN2 port 4 IN1 port 8 OUT2 port Table 1-9 lists the LEDs on the dual WB-VOA module faceplate, their default conditions, and what the conditions indicate.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-19 Single-Band PB-OE Module 1 2 3 4 5 6 79173 7 1 PM1 LED 5 OUT port 2 Card status LED 6 UPG IN port 3 IN port 7 UPG OUT port 4 Handle Table 1-10 lists the LEDs on the single-band PB-OE module faceplate, their default conditions, and what the conditions indicate. Table 1-10 Single-Band PB-OE Module LED Status Description PM1 Green Light reception exists at the port.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-20 Dual-Band PB-OE Module 2 15500-PEQ-02EF PM2 PM1 STA 1 3 IN 4 OUT 5 6 UPG IN UPG OUT 7 79006 8 1 PM2 LED 5 Handle 2 PM1 LED 6 OUT port 3 Card status LED 7 UPG IN port 4 IN port 8 UPG OUT port Table 1-11 lists the LEDs on the dual-band PB-OE module faceplate, their default conditions, and what the conditions indicate.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Note A patch cable to adapt MT-RJ connectors to standard ESCON connectors directly or intermediately to SC-type connectors may be required.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-12 describes the ESCON aggregation card LED status. Table 1-12 ESCON Aggregation Card LEDs LED Status Description STATUS Green Card is properly initialized. Blinking green Good system clock is present and card is out of reset state. Yellow System clock is not present. TX Green Port is up and transmit laser is enabled. RX Green Light reception exists at the port.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components be mapped into a single portgroup interface.The signal on the portgroup interfaces connects through the backplane and the switch fabric on the active CPU switch module to a 2.5-Gbps ITU trunk card, a 10-Gbps ITU trunk card, or a 10-Gbps uplink card, where the signal is converted to, and from, an ITU channel. The cross connections between the two cards through the backplane and switch fabrics are configured using the CLI.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-14 lists the LEDs on the 4-port 1-Gbps/2-Gbps FC aggregation card, their default conditions, and what the conditions indicate. Table 1-14 4-Port 1-Gbps/2-Gbps FC Aggregation Card LEDs LED Status Description STATUS Off No power to the board. Red Card is in reset or the LRC is not configured. Yellow Card is out of reset. Green Card is properly initialized. TX Green Port is up and transmit laser is enabled.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components 3. 1000BASE-LX 4. FC-0-100-SM-LC-S standard 8-Port FC/GE Aggregation Cards The Cisco ONS 15530 supports a line card specifically for ISC (compatibility and peer mode), FICON, FC (Fibre Channel) and GE (Gigabit Ethernet) traffic. The 8-port Fibre Channel/Gigabit Ethernet aggregation card accepts up to eight SFP (small form-factor pluggable) optics for client traffic.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-23 8-Port FC/GE Aggregation Card ST AT U S 1 0 0 T X R X 2 T X 3 R X 4 1 T X R X 2 T X R X 3 T X R X 4 T X R X 5 T X R X 6 T X R X 7 T X R X 85440 15530FCGE-8P 1 Card status LED 3 Receive Port status 2 Transmit Port status 4 Port number Note The 8-port FC/GE aggregation card also supports FICON traffic at 1 Gbps. Note We strongly recommend configuring port pairs as ISC, FICON, FC only or GE only.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components The Cisco ONS 15530 supports up to four 8-port FC/GE aggregation cards for a total of 32 client signals. Table 1-16 describes the LEDs on the 8-port FC/GE aggregation card. Table 1-16 8-Port FC/GE Aggregation Card LEDs LED Status Description STATUS Off No power to the board. Red Card is in reset or the LRC is not configured. Yellow Card is out of reset. Green Card is properly initialized.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components 8-Port Multi-Service Muxponders The 8-port multi-service muxponder aggregates up to eight ports of client traffic into 2.5-Gbps DWDM traffic to the trunk. The muxponder transports a mix of different protocols between sites in a metro DWDM network. The protocols that can be aggregated and transported range from high-speed services such as Fibre Channel and Gigabit Ethernet to low- speed services such as OC-3, Fast Ethernet, or even T1 or E1.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-25 shows a splitter protected 8-port multi-service muxponder.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-18 8-Port Multi-Service Muxponder LEDs LED Status Description Status Off No power to the muxponder. Red The functional image on the trunk is not configured. Yellow The system clock is not present. Blinking green The muxponder is out of reset, and the system clock is good and waiting for software initialization. Green The muxponder is initialized and operational. Rx green Port is operational. Rx off Rx link is down.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-19 8-Port Multi-Service Muxponder SFP Characteristics (continued) Part Number Protocols or Clock Rate Range Supported 15500-XVRA-10E12 15500-XVRA-11D1 4 Connector Type Fiber Type Wavelength SDI and DVB-ASI3 Video Copper Digital Video – Mini SMB Coax GE 1.25 Gbps, FE 1.25 Mbps Copper GE/FE – RJ-45 1. DSX-1 interface 2.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-26 U AT ST 3 S 1 2 2.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-27 S U AT ST 1 2 4 5 6 2.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-20 lists and describes the 2.5-Gbps ITU Trunk Card LEDs. Table 1-20 2.5-Gbps ITU Trunk Card LEDs LED Status Description STATUS Green Card is properly initialized. WEST Green Card is listening to the west side signal. TX Green Port is up and transmit laser is enabled. RX Green Light reception exists at the port. EAST Green Card is listening to the east side signal.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-28 10-Gbps ITU Trunk Card (Nonsplitter) ST AT U S 1 T X 3 R X 77661 4 2 R X T X 1 Card status LED 3 Transmit LED 2 ITU port 4 Receive LED Cisco ONS 15530 Hardware Installation Guide 1-40 OL-7706-01
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-29 10-Gbps ITU Trunk Card (Splitter) ST AT U S 1 2 4 5 6 W E S T T X T X 3 R X R X E A S T T X 7 R X W ITU TX W ITU RX 77662 E ITU TX E ITU RX 1 Card status LED 5 Receive LED 2 West side port LED 6 East side port LED 3 West side port 7 East side port 4 Transmit LED Cisco ONS 15530 Hardware Installation Guide OL-7706-01 1-41
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-21 describes the10-Gbps ITU trunk card LED status. Table 1-21 10-Gbps ITU Trunk Card LEDs LED Status Description STATUS Green Card is properly initialized. WEST Green Card is listening to the west side signal. TX Green Port is up and transmit laser is enabled. RX Green Light reception exists at the port. EAST Green Card is listening to the east side signal.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-30 10-Gbps ITU Tunable Trunk Card (Nonsplitter) ST AT U S 1 T X 3 R X 77661 4 2 R X T X 1 Card status LED 3 Transmit LED 2 ITU port 4 Receive LED Cisco ONS 15530 Hardware Installation Guide OL-7706-01 1-43
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-31 10-Gbps ITU Tunable Trunk Card (Splitter) ST AT U S 1 2 4 5 6 W E S T T X T X 3 R X R X E A S T T X 7 R X W ITU TX W ITU RX 77662 E ITU TX E ITU RX 1 Card status LED 5 Receive LED 2 West side port LED 6 East side port LED 3 West side port 7 East side port 4 Transmit LED Cisco ONS 15530 Hardware Installation Guide 1-44 OL-7706-01
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Table 1-22 describes the10-Gbps ITU tunable trunk card LED status. Table 1-22 10-Gbps ITU Tunable Trunk Card LEDs LED Status Description STATUS Green Card is properly initialized. WEST Green Card is listening to the west side signal. TX Green Port is up and transmit laser is enabled. RX Green Light reception exists at the port. EAST Green Card is listening to the east side signal.
Chapter 1 Cisco ONS 15530 Overview Cisco ONS 15530 Components Figure 1-32 10-Gbps Uplink Card ST AT U S 1 3 T X 4 T X 2 R X 5 R X 77665 15530-10GE-UPLINK 1 Card status LED 4 Receive LED 2 Transmit port 5 Receive port 3 Transmit LED Table 1-23 describes the 10-Gbps uplink line card LED status. Table 1-23 10-Gbps Uplink Line Card LEDs LED Status Description STATUS Green Card is properly initialized. TX Green Port is up and transmit laser is enabled.
C H A P T E R 2 Installing the Cisco ONS 15530 This chapter describes the installation procedures for the Cisco ONS 15530 chassis and its components.
Chapter 2 Installing the Cisco ONS 15530 Chassis-Lifting Guidelines Caution Use extreme care when removing or installing connectors so you do not damage the connector housing or scratch the end-face surface of the fiber. Always install protective covers on unused or disconnected components to prevent contamination. Always clean fiber connectors before installing them. Unpacking and Inspecting the Shelf The Cisco ONS 15530 comes with the standard mounting set.
Chapter 2 Installing the Cisco ONS 15530 Chassis-Lifting Guidelines • Lift the chassis slowly; never move suddenly or twist your body as you lift. • Keep your back straight and lift with your legs, not your back. If you must bend down to lift the chassis, bend at the knees, not at the waist, to reduce the strain on your back muscles. • Do not remove installed components from the chassis. • Always disconnect all external cables before lifting or moving the chassis.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Figure 2-2 Lifting the Cisco ONS 15530 CHAS-N CON CON T X R X 3 T X R X 0 T X R X 1 T X R X 2 T X R X 0 T X R X 1 T X R X 3 4 T X R X 3 T X R X 5 T X R X 4 T X R X 4 T X R X 5 T X R X 5 T X R X 6 T X R X 6 T X R X 6 T X R X 7 T X R X 7 T X R X 7 T X R X 8 T X R X 8 8 T X R X 8 T X R X 9 T X W E S T T X R X T X 9 T X R X FAIL FASTENER S MUST BE FULLY ENGAGED PRIOR OPERATING THE POWER
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf General Rack-Mount Installation Guidelines When planning your rack-mount installation, consider the following guidelines: • Allow a minimum of 11 rack units (17.7 inches or 45.0 cm) of vertical rack space for the Cisco ONS 15530 CHAS-E chassis with the air ramp baffle. The Cisco ONS 15530 CHAS-N chassis requires a minimum of 9 rack units (15.7 inches or 39.9 cm) of vertical rack space.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Note Warning The Cisco ONS 15530 CHAS-E chassis cannot be installed in a 19-inch rack. At least three people are required to mount the chassis in the equipment rack: two people are needed to hold the chassis in place while a third person tightens the mounting screws. When handling the chassis, always follow proper lifting practices as outlined in the “Chassis-Lifting Guidelines” section on page 2-2.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Figure 2-4 Attaching Shelf to Equipment Rack AT US N CO T X R X 0 T X R X 1 T X R X 2 3 4 T X R X 4 T X R X 5 T X R X 5 T X R X 6 T X R X 6 E A S T 2 T X R X 3 T X R X 4 T X R X 5 T X R X T X W E S T T X R X T X FAIL 6 7 T X R X 7 8 T X R X 8 T X R X 8 9 T X R X 9 15530-LCMB-0200 15530-LCMB-0200 9 77899 F ST AN AT U S T X R X FASTENERS FULLY ENGA MUST BE OPERATING GED PRIOR TO THE POWE R
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf To flush-mount the Cisco ONS 15530 CHAS-N chassis in a 19-inch equipment rack, use the following steps: Step 1 Attach the mounting brackets to the shelf (see Figure 2-5). Step 2 Lift the shelf into position between the rack posts (requires two people). Step 3 Align the mounting bracket holes with the rack post holes (see Figure 2-6) and attach the shelf to the rack (performed by the third person).
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Figure 2-6 Attaching Shelf to Equipment Rack US AT T X R X T X R X 4 CU FF ST HI R CL TO T X R X T X R X 1 2 T X 2 3 T X 3 E A S T T X T X R X R X W E S T T X R X 4 T X R X 5 0 T X 4 5 R X X S FD BP 0M 10 K LIN T X R X 6 T X R X 7 T X R X 7 T X R X 8 T X R X 8 T X R X FASTENERS FULLY ENGA MUST BE OPERATING GED PRIOR TO THE POWE R SUPPLY GOOD 5 6 FAIL T X R X 6 100-240V 8.0-3.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Attaching the Air Ramp Baffle The air ramp baffle redirects the intake of cooling air from directly below, to the front of the Cisco ONS 15530 CHAS-E chassis, while deflecting hot exhaust air from equipment installed below. To attach the air ramp baffle to the Cisco ONS 15530 CHAS-E chassis, follow these steps: Step 1 Attach the mounting brackets to the air ramp baffle as shown in Figure 2-7.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Figure 2-8 Installing the Air Ramp Baffle 7 T X T X R X T X R X 4 T X R X T X R X 1 2 T X 2 3 T X 3 E A S T T X T X R X R X W E S T T X R X 4 T X R X 5 0 T X 4 5 T X R X X S FD BP 0M 10 K LIN T X R X 6 T X R X 7 T X R X 7 T X R X 8 T X R X 8 T X R X FASTENERS FULLY ENGA MUST BE OPERATING GED PRIOR TO THE POWE R SUPPLY GOOD 5 6 FAIL T X N CO R X 6 100-240V 8.0-3.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Installing the Fiber Routing Management System The fiber routing management system contains two main components; the cable routing tray and the cable routing drawer. The fiber routing tray is installed directly over the fan assembly, and the fiber routing drawer is installed below the Cisco ONS 15530 chassis. (See Figure 2-9.
Chapter 2 Installing the Cisco ONS 15530 Rack-Mounting the Shelf Installing the Fiber Routing Tray To install the fiber routing tray, follow these steps: Step 1 Place the fiber routing tray (2) over the fan assembly, ensuring that the fan assembly can be accessed when the fiber routing tray is locked (1 and 2) in the raised position. (See Figure 2-10.
Chapter 2 Installing the Cisco ONS 15530 Grounding the Shelf Installing the Fiber Routing Drawer To install the fiber routing drawer, follow these steps: Step 1 Hold the drawer with both hands and position the drawer in the rack beneath the chassis. (See Figure 2-9.) Step 2 Align the mounting holes on the bracket with the mounting holes in the equipment rack. Step 3 Install the 12-24 or 10-32 screws through the elongated holes in the brackets and into the threaded holes in the mounting post.
Chapter 2 Installing the Cisco ONS 15530 Grounding the Shelf To ground the shelf, follow these steps: Step 1 Use a wire-stripping tool to remove approximately 0.75 inch (20 mm) of the covering from the end of the grounding wire (see Figure 2-11). Figure 2-11 Attaching the Grounding Wire to Grounding Lug 30020 0.75 in. (2 cm) Wire Grounding lug Step 2 Insert the stripped end of the grounding wire into the open end of the grounding lug (see Figure 2-11).
Chapter 2 Installing the Cisco ONS 15530 Grounding the Shelf Installing the Grounding Lug FF 7 T X R X X S FD BP 0M 10 K LIN T X R X T X R X T X R X 0 T X R X 1 T X R X 2 T X R X 3 5 6 T X R X 4 T X R X 5 T X R X 6 1 T X R X E A S T 2 T X R X 3 T X R X 4 T X R X 5 T X R X T X W E S T T X R X T X FAIL 6 7 7 T X R X 7 8 T X R X 8 T X R X 8 9 T X R X 9 15530-LCMB-0200 F ST AN AT U S 15530-LCMB-0200 15530-LCMB-0200 15530-CPU 15530-CPU 15530-LCMB-0200
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Preventing ESD Damage Electrostatic discharge (ESD) damage occurs when electronic cards or components are mishandled and can result in complete or intermittent failures. Note the following guidelines before you install or service the system: Note • Always wear an ESD-preventive wrist or ankle strap when handling electronic components.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Step 3 Use the release levers to push the line card or motherboard or processor card in until it is fully seated in the backplane connector. Step 4 Push the release levers in simultaneously to lock the line card or motherboard into the slot. Step 5 Use a number 1 Philips screwdriver to tighten the captive installation screws. Step 6 Check the LED to ensure proper installation while powered.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Installing the 15500-XVRA-10E1 SFP 113974 Figure 2-14 Step 3 Twist the cable to secure it in the SFP. Step 4 Install the SFP by inserting it in the muxponder.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Releasing the SFP 120369 Figure 2-15 Step 5 Pull the SFP out and place it in a container appropriate for shipping and storage. (See Figure 2-16.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Note SFPs with RJ-45 connectors require cabling after it is installed, and removal of cables is required before removing the SFP from the card. Removing SFP Optics with MT-RJ Connectors Note You need the SFP extraction and cable installation and removal tool to remove the SFP with the MT-RJ connector.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Figure 2-17 Removing the SFP with MT-RJ Connector S TA S TU T X 0 R X T X 1 2 R X T X 2 R X T X 3 3 R X T X 2 4 R X T X 5 1 R X T X 4 6 R X T X 7 R X T X 8 R X 9 15530-LCMB-0200 R X 94102 T X 1 SFP placement in the module 3 Hole where the SFP extraction end of the tool is inserted (two views) 2 Lever on the SFP (two views) 4 SFP extraction and cable installation and remo
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Line Cards or Motherboards Removing SFP Optics with LC Connectors To remove an SFP with an LC connector from the 8-port FC/GE aggregation card, follow these steps: Step 1 Remove the cable from the desired SFP. Step 2 Remove the SFP from the module by pulling the latch on top of the SFP to release it from the module. (See Figure 2-18.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Modules Removing SFPs with Mini SMB Coax Connectors To remove the 15500-XVRA-10E1 SFP with mini SMB coax connectors(MINISMB/BNC=) from the 8-port multi-service muxponder, follow these steps: Step 1 Use the thumb on your left hand to push against the SFP. Step 2 Use your right hand to pull the pull tab on the SFP. Step 3 Twist the SFP slightly to unlock it from the latch lock of the cage.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Modules Step 4 Attach the appropriate cables. Step 5 Check the LEDs to ensure proper installation. Installing OSC Modules, WB-VOA Modules, and PB-OE Modules Up to two OSC modules can be installed in the carrier motherboard, one module for the west direction and one for the east direction. The WB-VOA module and PB-OE module are also installed in the carrier motherboard.
Chapter 2 Installing the Cisco ONS 15530 Installing and Removing Modules Figure 2-19 Module Insertion in Carrier Motherboard 2 1 1 P M 15500-PEQ-02EF 2 S TA IN 79007 PM OUT UPG IN UPG OUT 2 1 Module 2 Module locking lever Step 5 Attach the appropriate cables. Step 6 Check the LEDs to ensure proper installation. Save the filler modules with the packaging material. Removing Modules Warning High-performance devices on this card can get hot during operation.
Chapter 2 Installing the Cisco ONS 15530 Replacing the Fan Assembly To remove a module from the Cisco ONS 15530 without interrupting system operation, follow these steps: Step 1 Remove all cables from the desired module. Step 2 Use a number 1 Philips screwdriver to loosen the module locking lever (see Figure 2-19). Step 3 Remove the module by carefully pulling it out of its slot. Step 4 Reinstall the blank filler module.
Chapter 2 Installing the Cisco ONS 15530 Replacing the Fan Assembly Step 3 Untwist the black fasteners in the drawers to loosen the cable guide spools. (See Figure 2-21) Figure 2-21 Loosening the Cables 2 2 1 79526 1 1 Fasteners 2 Spools Step 4 Push the spools down towards the black fasteners. Carefully pull out the cables from the spools towards the outside of the drawers. (See Figure 2-21.) Step 5 Flip the cable management tray up so that it no longer covers the fan tray. (See Figure 2-22.
Chapter 2 Installing the Cisco ONS 15530 Power Guidelines Step 9 Pull the fan assembly out of the bay and put it aside. See Figure 2-23. Figure 2-23 Fan Assembly 77834 N US FA TAT S Step 10 Place the new fan assembly into the front chassis cavity so it rests on the chassis. Lift the fan assembly up slightly and align the top and bottom guides. Step 11 Push the fan assembly into the chassis until the captive installation screws meet the chassis.
Chapter 2 Installing the Cisco ONS 15530 Power Guidelines Note The Cisco ONS 15530 installation must comply with all applicable codes and is approved for use with copper conductors only. The ground bond fastening hardware should be of compatible material and preclude loosening, deterioration, and electrochemical corrosion of hardware and joined material. Attachment of the chassis ground to a central office or other interior ground system should be made with a 6-AWG, copper ground conductor at a minimum.
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf If you use twisted-pair cable in your plant wiring with a good distribution of grounding conductors, the plant wiring is unlikely to emit radio interference. If you exceed the recommended distances, use a high-quality twisted-pair cable with one ground conductor for each data signal when applicable.
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf Connecting DC-Input Power Warning A readily accessible disconnect device must be incorporated in the building's installation wiring. Warning This product relies on the building’s installation for short-circuit (overcurrent) protection. Ensure that a Listed and Certified fuse or circuit breaker 25A, minimum 60 VDC, is used on all current-carrying conductors.
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf Step 4 Connect the negative DC power lead from the external power source to the negative (–) DC terminal (see Figure 2-25). Step 5 If you are installing redundant DC power, repeat Step 3 and Step 4 on the second power supply, connecting to a second external power source. Connecting AC-Input Power The Cisco ONS 15530 can be powered directly from the facility VAC input through the Cisco ONS 15530 120–240 VAC power supply (see Figure 2-26).
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf Figure 2-27 AC Power Cords North America NEMA 5-15P plug (15A) Australian plug AS 3112 10A European plug CEE 7/7 16A 85600 Argentina IRAM 2073 plug (10A) Italian plug CEI 23-16/VII 10A Table 2-1 United Kingdom plug BS 1363 13A Appliance coupler Hot IEC 320 C-15 10A AC Power Cord Options Label Description Product Number North America 120 VAC, 60 Hz AC power cord 15500-CAB-AC Argentina 250 VAC, 50 Hz AC power cord 15500-CAB-AC
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf Table 2-2 lists the nominal and acceptable value ranges for source AC power. Table 2-2 Source AC Power Specifications Specifications Nominal Value Acceptable Range AC input voltage 100 to 240 VAC, single phase 90 to 255 VAC AC input line frequency 50/60 Hz 47 to 63 Hz AC input current 8 A @100 VAC 3.
Chapter 2 Installing the Cisco ONS 15530 Powering Up the Shelf Cisco ONS 15530 Hardware Installation Guide 2-36 OL-7706-01
C H A P T E R 3 Connecting the Cisco ONS 15530 The Cisco ONS 15530 uses RJ-45, SC, MT-RJ and MU connectors on the faceplates of the line cards and modules. Fiber optic cables are routed to the cable management guides that are at the top and bottom of the shelf. The Cisco ONS 15530 is powered by 120–240 VAC or –48 VDC power. Positive, negative, and ground power terminals are accessible on the front of the chassis.
Chapter 3 Connecting the Cisco ONS 15530 Connector Types Note For power supply cable connecting information, see the “Powering Up the Shelf” section on page 2-31. Connector Types Various types of connectors are used to connect the line cards and modules of the Cisco ONS 15530 to each other and the Internet. Table 3-1 lists the connector types used on each line card and module. Figure 3-1 through Figure 3-4 show the connector types.
Chapter 3 Connecting the Cisco ONS 15530 Preparing for Network Connections Simplex SC-Type Connector Figure 3-3 MT-RJ Connector Figure 3-4 MU Connector 74773 14367 H2399 Figure 3-2 Preparing for Network Connections When preparing your site for network connections to the Cisco ONS 15530, consider the following for each type of interface: • Cabling required for each type • Distance limitations for each signal type • Additional interface equipment needed Before installing the component, have a
Chapter 3 Connecting the Cisco ONS 15530 Cleaning the Shelf and Connectors Cleaning the Shelf and Connectors If the cleaning process must be done while the system is running, be aware that the airflow system is in operation. Be careful of the following: Warning • Do not touch the airflow system while fans are operating. • Do not use wet tissues for cleaning the chassis. • Do not use any harsh or abrasive cleaning agents.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module Connecting the CPU Switch Module The CPU switch module has three RJ-45 ports on the front of the card.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module To connect the CPU switch module to a 10BASE-T Ethernet LAN, follow these steps: Step 1 Connect one end of the Ethernet cable to the RJ-45 port on the primary CPU switch module, labeled NME (see Figure 3-5).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module Connecting to a 100BASE-T Ethernet Network To make a 100BASE-T Ethernet connection, you need the following additional equipment (not included with your Cisco ONS 15530): • An Ethernet hub (such as a Cisco Micro Hub) • An Ethernet UTP cable that meets the following specifications: – RJ-45 (male) to RJ-45 (male) straight-through cable. – 100-ohm category 5 cable no longer than 328 feet (100 meters).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module To connect the CPU switch module to a 100BASE-T Ethernet LAN, follow these steps: Step 1 Connect one end of the Ethernet cable to the RJ-45 port on the primary CPU switch module, labeled NME (see Figure 3-6).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module Connecting a Terminal to the Console Port The Cisco ONS 15530 CPU switch module has an asynchronous serial (EIA/TIA-232) RJ-45 console port labeled CON on its front panel. You can connect this port to most types of terminals through use of the console cable kit that is included with your Cisco ONS 15530.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module To connect a terminal to the console port on a CPU switch module, follow these steps: Note Each CPU switch module must have a console port connection (typically to a terminal server) if you are running a redundant configuration in the chassis. Step 1 Connect one end of the RJ-45 crossover cable to the serial RJ-45 port (CON) on the CPU switch module (see Figure 3-7).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module Step 2 Run the cable up and through the cable management bracket (not supplied) and connect the other end of the RJ-45 crossover cable to the RJ-45 adapter (see Figure 3-8). If your terminal is equipped with one of the following: • DB-25 serial connector, use the RJ-45-to-DB-25 adapter. • DB-9 serial connector, use the RJ-45-to-DB-9 adapter.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the CPU Switch Module To connect the Cisco ONS 15530 to a modem, follow these steps: Step 1 Connect one end of the modem cable to the RJ-45 port on the primary CPU switch module, labeled AUX (see Figure 3-9).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the OSC Module Connecting the OSC Module One or two OSC modules can be installed in the carrier motherboard. When two OSC modules are installed, one module is for the west direction and one is for the east direction. The OSC modules are connected to the OADM modules before they terminate on a neighboring node. To install the OSC cables proceed as follows: Step 1 Connect the OSC module TX port to the OSC IN port of the OADM module (see Figure 3-10).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the PSM Figure 3-11 Dual OSC Module Cable Connections 1 2 3 ST 4 ST AT U S S S R AT ST U S AT 9 10 ST U AT U S S ES ET S AT 8 R ES U ST AT U U S ST 7 ST AT AT U S 6 ST ST AT U 5 ET R X E A S T R X TX T X AN E A S T D T X 1 T X T X R X R X T X T X R X R X R X R X T X 2 T X 3 C A M IN MA IRT L JO O IC R AL R A R M CU TO HIS S FF R X T C U TO FF R X C A M IN MA IRT L JO O IC R A
Chapter 3 Connecting the Cisco ONS 15530 Connecting the PSM Cabling PSMs To attach and route fiber optic cables for the PSM and OADM module, follow these steps: Route the MU fiber cables from the TRUNK IN and TRUNK OUT ports on the OADM module down through the cable management tray (see Figure 3-12).
Chapter 3 Connecting the Cisco ONS 15530 Connecting the PSM PSM Cabled to a 2.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the Transponder Line Card Connecting the Transponder Line Card The transponder line card receives a single client signal, converts it into an ITU wavelength or channel, and sends it to the OADM module. Figure 3-14 shows the cable connections in an unprotected configuration. The ITU transmit port of the transponder line card is connected to the Coexists IN port of the OADM module and the ITU receive port is connected to the Coexists OUT port.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the Transponder Line Card In a splitter configuration the connections are the same, with the addition of a second set of ITU ports on the transponder line card. In a splitter configuration the two sets of ITU ports are labeled WEST and EAST and two OADM modules are required. Figure 3-15 shows the cable connections in a splitter configuration.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the OADM Module Connecting the OADM Module The OADM module takes signals from the transponder line cards and the 10-Gbps ITU trunk cards, multiplexes the signals, and puts the multiplexed signal on the network. In the reverse direction, the OADM modules demultiplexes incoming signals and sends them to the transponder line cards and the 10G ITU line cards.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the ESCON Aggregation Card Connecting the ESCON Aggregation Card The ESCON aggregation card converts up to 10 client signals from optical to electrical and aggregates them into a single 2.5-Gbps signal. The aggregated signal is then sent through the backplane and the active switch fabric to either a 2.5-Gbps ITU trunk card, 10-Gbps ITU trunk card, or a 10-Gbps uplink line card. Figure 3-17 shows the connections.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 8-Port FC/GE Aggregation Card Figure 3-18 4-port 1-Gbps/2-Gbps FC Aggregation Card Cable Connections 0 1 2 3 ST AT U S ST AT U S 4 ST AT 5 ST U AT S ST 6 ST U AT S R AT ST U 10 ST ST AT AT U S 9 U S R X T X R X D T X R X R X C O FL MP AS AC H T C O FL MP AS AC H T 0 T X R X R X OUT R X TIV BY E AN D IN T X R X T X T X TX R X UPG IN 1 T X UPG OUT 15530-OSCM R X T X T X R X T X T X T X T
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 8-Port FC/GE Aggregation Card fabric are configured using the CLI. The 8-port FC/GE aggregation card has redundant connections over the backplane to the switch fabric on the active and standby CPU switch modules. Figure 3-19 shows the connections.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 8-Port Multi-Service Muxponder Connecting the 8-Port Multi-Service Muxponder The 8-port multi-service muxponder accepts up to eight Cisco-certified SFPs for client traffic. Each SFP supports different protocols that can be aggregated and transported ranging from high-speed services such as Fibre Channel and Gigabit Ethernet to low-speed services such as OC-3, Fast Ethernet, T1, or E1, depending on how it is configured in the CLI.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 2.5-Gbps ITU Trunk Card Connecting the 2.5-Gbps ITU Trunk Card The 2.5-Gbps ITU trunk card has three redundant interfaces to the backplane that pass signals to and from the line cards. The optical ports on the front of the line card are connected to the OADM module. The TX port of the 2.5-Gbps ITU trunk card is connected to the CHxxxIN port of the OADM module and the RX port is connected to the CHxxxOUT port.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 2.5-Gbps ITU Trunk Card Figure 3-22 shows these connections in a splitter configuration. The WEST port connections go to the first OADM module and the EAST port connections go to the second OADM module. Figure 3-22 2.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 10-Gbps ITU Tunable and Non tunable Trunk Card Connecting the 10-Gbps ITU Tunable and Non tunable Trunk Card The 10-Gbps ITU trunk card, both tunable and non tunable, has four separate redundant interfaces to the backplane that passes signals to and from the line cards. The optical ports on the front of the line card are connected to the OADM module.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 10-Gbps ITU Tunable and Non tunable Trunk Card Figure 3-24 shows these connections in a splitter configuration. The WEST port connections go to the first OADM module and the EAST port connections go to the second OADM module.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the 10-Gbps Uplink Card Connecting the 10-Gbps Uplink Card The 10-Gbps uplink card sends and receives a 10-GE 1310-nm signal to and from a 10-GE transponder module on a Cisco ONS 15540 ESP or Cisco ONS 15540 ESPx. This card accepts up to four 2.5-Gbps (3.125-Gbps line rate) electrical signals from ESCON line cards and combines them into a 10-GE signal. This signal is converted to a 1310 nm wavelength signal. Figure 3-25 shows the cable connections.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the WB-VOA and PB-OE Modules Per-Channel Equalization Figure 3-26 shows an example of per-channel equalization in an unprotected configuration. In this example, the WB-VOA is the top module in slot 9.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the WB-VOA and PB-OE Modules WB-VOA Attenuation on the Receive Side The WB-VOA module can be connected on the receive side to attenuate the signal. Figure 3-27 shows an example of WB-VOA attenuation on the receive side in an unprotected configuration. In this example, the WB-VOA is the top module in slot 9.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the WB-VOA and PB-OE Modules WB-VOA on the Trunk The WB-VOA module can be connected to attenuate the trunk signal leaving the node. Figure 3-28 shows an example of these cable connections on an unprotected configuration. In this example, the WB-VOA is the bottom module in slot 9.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the WB-VOA and PB-OE Modules PB-OE on the Trunk to Equalizing Add Channel Power to Pass Through Power The PB-OE provides per-band attenuation on the trunk. Figure 3-29 shows an example of an unprotected configuration of a PB-OE module cabled on the trunk. In this example, the PB-OE is the top module in slot 9, and the WB-VOA is the bottom module in slot 9.
Chapter 3 Connecting the Cisco ONS 15530 Connecting the WB-VOA and PB-OE Modules Using PB-OE Modules to Terminate Unused Bands PB-OE modules can be used to equalize power and terminate unused bands, eliminating potential lasing effects. This configuration is also known as an optical seam. Place optical seams in meshed ring topologies where there are no nodes equivalent to the hub node in a hubbed ring topology where all the used and unused bands terminate.
Chapter 3 Connecting the Cisco ONS 15530 Connecting a Multi-Shelf Node Step 6 Connect the TRUNK_IN and TRUNK_OUT ports of the first OADM module to the west side trunks. Step 7 Connect the TRUNK_IN and TRUNK_OUT ports of the second OADM module to the east side trunks. Note The IN ports on the OADM module (slot 0) are on the left, the OUT ports are on the right. (See Figure 1-16 on page 1-21). Connecting a Multi-Shelf Node There are a number of ways to configure a multi-shelf node.
Chapter 3 Connecting the Cisco ONS 15530 Connecting a Multi-Shelf Node Figure 3-31 Cascading the OADMs on a Multi-Shelf Node 0 1 2 3 ST U T X R X T X R X R X U S S R ES ET R ES ET STA AC N TIV D BY E STA AC N TIV D BY E S T X T X R X T X R X 6 7 8 9 10 7 8 9 10 7 8 9 10 ST AT U S AT U S AT 5 ST AT U ST 4 ST AT R X C O FL MP AS AC H T C O FL MP AS AC H T TX 15530-OSCM T X T X T X T X C A M IN MA IRTI L JO O C R AL R A R M CU TO HIS S C A M IN MA IRT
Chapter 3 Connecting the Cisco ONS 15530 Connecting a Multi-Shelf Node Figure 3-32 Basic Cable Connections on a Multi-Shelf Node 0 1 2 3 ST AT U S ST AT U S 4 5 ST T X T X R X T X R X X R X T X R X 7 8 9 10 7 8 9 10 S ES ET AC AC ST TIV BY E TIV BY E AN D T X 10 R ET S AN 9 U S ES U ST 8 AT U R AT 7 ST AT ST R 6 D R X C O FL MP AS AC H T C O FL MP AS AC H T TX 15530-OSCM T X T X T X A C A M IN MA IRT L JO O IC R AL R A R M CU TO HIS S F T X
Chapter 3 Connecting the Cisco ONS 15530 Connecting a Multi-Shelf Node To connect a three shelf node with cascaded OADMs, follow these steps: Step 1 Step 2 Step 3 Step 4 Step 5 Connect the cables of the first OADM module in slot 0 of shelf A as follows: a. Connect the TRUNK_IN and the TRUNK_OUT ports of the first OADM in shelf A to the west side trunk. b. Connect the MID_IN port of the first OADM in shelf A to the TRUNK_OUT port of the first OADM in shelf B. c.
Chapter 3 Connecting the Cisco ONS 15530 Connecting a Multi-Shelf Node To connect a three shelf node in a splitter configuration where the OSC modules are added and dropped on each shelf, follow these steps: Step 1 Step 2 Step 3 Step 4 Connect the cables of the first OADM module in slot 0 of shelf A as follows: a. Connect the OSC IN port of the OADM to the TX port of the OSC module. b. Connect the OSC OUT port of the OADM to the RX port of the OSC module. c.
Chapter 3 Connecting the Cisco ONS 15530 Cable Management Step 5 Step 6 In addition to the cables already connected to the first OADM module in slot 0 of shelf C, make the following connections: a. Connect the OSC IN port of the OADM to the TX port of the OSC module. b. Connect the OSC OUT port of the OADM to the RX port of the OSC module. c. Connect the MID_IN port of the first OADM on shelf C to the MID_OUT of the second OADM on the shelf C. d.
Chapter 3 Connecting the Cisco ONS 15530 Cable Management Step 1 Open the cable storage drawer by pushing the tabs in to release the lock on the drawer (see Figure 3-33). Opening the Cable Storage Drawer 77639 Figure 3-33 Step 2 Pull out the cable storage drawer (see Figure 3-34).
Chapter 3 Connecting the Cisco ONS 15530 Cable Management Step 3 Lock the drawer in the open position by pushing the latch at the back left of the drawer down into the locked position (see Figure 3-35). Locking the Cable Storage Drawer Open 85007 Figure 3-35 Step 4 Install the fiber optic cables as discussed in the preceding sections. Step 5 Route the excess cable of each connection down through the cable storage drawer.
Chapter 3 Connecting the Cisco ONS 15530 Cable Management Step 7 When all cables have been connected and neatly routed, unlock and close the drawer. To unlock the cable storage drawer, move the latch at the rear of the drawer into an upright position. (See Figure 3-36.) Step 8 Use the supplied cable ties to secure the cables to the rack.
A P P E N D I X A Specifications This appendix describes the specifications for the chassis, line cards, and the carrier motherboard and modules used in the Cisco ONS 15530 system.
Appendix A Specifications Chassis Specifications Chassis Specifications Table A-1 lists the specifications for the Cisco ONS 15530. Table A-1 Cisco ONS 15530 Specifications Description Specification Environmental Temperature, ambient operating 1 32 to 104°F (0 to +40°C) Humidity (RH ), ambient (non– condensing) operating 5 to 95% Altitude, operating and non-operating Minimum –197 ft (–60 m) Maximum 6500 ft (2000 m) Cisco ONS 15530 CHAS-E Dimensions (H x W x D) 14.4 x 17.3 x 10.1 in. (365.
Appendix A Specifications Channel to Wavelength Mapping Channel to Wavelength Mapping Table A-2 lists the channels, wavelengths, and frequencies for each band. Table A-2 Channel to Wavelength Mapping Cisco ONS 15530 Band Cisco ONS 15530 Channel ITU1 Channel ITU Wavelength2 ITU Frequency3 19 1562.23 191.9000 1 21 1560.61 192.100 2 22 1559.79 192.200 3 23 1558.98 192.300 4 24 1558.17 192.400 5 26 1556.55 192.600 6 27 1555.75 192.700 7 28 1554.94 192.800 8 29 1554.
Appendix A Specifications OADM Module Specifications Table A-2 Channel to Wavelength Mapping (continued) Cisco ONS 15530 Band Cisco ONS 15530 Channel ITU1 Channel ITU Wavelength2 ITU Frequency3 G 25 51 1536.61 195.100 26 52 1535.82 195.200 27 53 1535.04 195.300 28 54 1534.25 195.400 29 56 1532.68 195.600 30 57 1531.90 195.700 31 58 1531.12 195.800 32 59 1530.33 195.900 H 1. ITU = International Telecommunication Union 2. Wavelengths in vacuum in nm 3.
Appendix A Specifications PSM Specifications PSM Specifications Table A-4 and Table A-5 lists the PSM (protection switch module) card and optical specifications for the Cisco ONS 15530. Note The optical specifications described in this section are only for the individual components and should not be used to characterize the entire network performance. Table A-4 PSM Card Specifications Description Specification Dimensions 3.7 x 9 in. (9.4 x 22.9 cm) Weight 3.5 lbs (1.
Appendix A Specifications PB-OE and WB-VOA Module Specifications Table A-6 OSC Module Specifications Description Specification Fiber type SM1 9 micron Connector MU Output wavelength 1562.23 ITU channel Receiver Minimum Receive sensitivity –19 dBm Maximum Receive overload –1.5 dBm Input wavelength 1249 nm 1600 nm Transmitter Minimum Maximum Transmitter power 5 dBm 10 dBm Dispersion tolerance 3200 ps/nm 1. SM = single mode.
Appendix A Specifications Transponder Line Card Specifications Transponder Line Card Specifications Table A-9 lists the transponder line card receiver and transmitter specifications for the client side lasers. Note The optical specifications described in this section are only for the individual components and should not be used to characterize the entire network performance.
Appendix A Specifications ESCON Aggregation Card Specifications Table A-10 Trunk Side Optical Specifications (continued) Description Specification Transmitter Minimum Maximum Transmitter power 5 dBm 10 dBm Dispersion tolerance 3200 ps/nm3 1. OSNR = optical signal-to-noise ratio. 2. Add the proper network-level penalty to the OSNR and/or receive power based on your actual network topology characteristics, such as dispersion. 3. ps/nm = picoseconds per nanometer.
Appendix A Specifications 4-Port 1-Gbps/2-Gbps FC Aggregation Card Table A-12 Latency for ESCON Aggregation Cards Maximum Added End-to-End Latency1 Traffic Mix on Transmitting Node No GE ESCON only 8.5 µs ESCON and FC/FICON on the same 10-Gbps ITU trunk card 8.5 µs ESCON and GE only on the same 10-Gbps ITU trunk card 1518-Byte GE Packets 4470-Byte GE Packets 10,230-Byte GE Packets 10 µs 12.5 µs 17 µs 1.
Appendix A Specifications 8-Port FC/GE Aggregation Card Table A-14 and Table A-15 show the latency value for the various configurations on the transmitting node. FC and FICON traffic on interfaces with buffer credits enabled with the flow control command are not affected by latency. Table A-14 1-Gbps FC and FICON Latency Values for 4-Port 1-Gbps/2-Gbps Aggregation Cards Maximum Added End-to-End Latency 1518-Byte GE Packets 4470-Byte GE Packets 10,232-Byte GE Packets FC/FICON only on a 2.
Appendix A Specifications 8-Port FC/GE Aggregation Card Note The optical specifications described in this section are only for the individual components and should not be used to characterize the entire network performance.
Appendix A Specifications 8-Port Multi-Service Muxponder Specifications 3. FC = Fibre Channel 4. FICON = Fiber Connection 5. ITU = International Telecommunication Union 8-Port Multi-Service Muxponder Specifications Table A-18 lists the 8-port multi-service muxponder receiver and transmitter specifications. Optical loss because of splitter modules and connectors should be included in the optical budget calculation.
Appendix A Specifications 8-Port Multi-Service Muxponder Specifications Table A-19 SFPs Supported by the 8-Port Multi-Service Muxponder Part Number Protocols or Clock Rate Range Supported 15500-XVRA-10A2 Low band 8 Mbps to 200 Mbps 15500-XVRA-10B2 Low band 8 Mbps to 200 Mbps 15500-XVRA-11A2 Mid-band 200 Mbps to 622 Mbps 15500-XVRA-11B2 Mid-band 200 Mbps to 1.25 Gbps 15500-XVRA-12B1 High-band 1.062 Gbps to 2.488 Gbps 15500-XVRA-08D1 T1 1 1.544 Mbps 15500-XVRA-09D1 E1 2.
Appendix A Specifications 2.5-Gbps ITU Trunk Card Specifications SDI Jitter Performance SDI video signal is compliant to the ANSI/SMPTE 259M-1997 standard. Table A-21 lists the SDI jitter performance values for the 8-port multi-service muxponder. Table A-21 SDI Jitter Performance Values for the 8-Port Multi-Service Muxponder Hp Filter 10 Hz 1 kHz 10 kHz 100 kHz Jitter Generation (p-p) 0.5 UI1 0.06 UI 0.06 UI 0.06 UI UI / Time 1.85 ns 220 ps 220 ps 220 ps 1.
Appendix A Specifications 10-Gbps ITU Tunable and Non tunable Trunk Card Specifications 2. OSNR = optical signal-to-noise ratio. 3. Add the proper network-level penalty to the OSNR and/or receive power based on your actual network topology characteristics, such as dispersion. 4. ps/nm = picoseconds per nanometer. 10-Gbps ITU Tunable and Non tunable Trunk Card Specifications Table A-23 lists the specifications for tunable and non tunable 10-Gbps ITU trunk card for the client side lasers.
Appendix A Specifications 10-Gbps Uplink Card 10-Gbps Uplink Card Table A-24 lists the specifications for the 10-Gbps uplink cards supported by the Cisco ONS 15530 in the transmit and receive directions. Note The optical specifications described in this section are only for the individual components and should not be used to characterize the entire network performance. Table A-24 10-Gbps Uplink Card Specifications Description Specification Fiber type SM1 1310 nm Connector SC Dimensions 10.
Appendix A Specifications SFP Specifications Table A-25 Fixed Rate SFP Optics Specifications (continued) Description Specification Connector type MT-RJ Cladding diameter 125 µm Receiver Minimum Maximum Receive sensitivity –33 dBm –14 dBm Input wavelength 1280 nm 1380 nm Transmitter Minimum Maximum Transmitter power –19.
Appendix A Specifications SFP Specifications Table A-25 Fixed Rate SFP Optics Specifications (continued) Description Specification Transmitter power –9.5 dBm Part number 15500-XVRA-03B1 –4 dBm Gigabit Ethernet, Fibre Channel (1 Gbps), FICON (1 Gbps) SM Dimensions 0.486 x 0.522 x 2.24 in. (1.23 x 1325.9 x 5.69 cm) Data rate 1.0625 Gbps, 1.25 Gbps Wavelength 1310 nm Fiber type SM, 9/125 µm Connector type LC Receiver Minimum Maximum Input power -20.
Appendix A Specifications SFP Specifications Table A-26 Variable Rate SFP Optics Specifications Description Specification Part number 15500-XVRA-10A1 Supported protocol encapsulations ESCON (MM) Dimensions 0.486 x 0.522 x 2.24 in. (1.23 x 1325.9 x 5.69 cm) Data rate 8 to 200 Mbps Wavelength 1310 nm Fiber type MM 50/125 µm MM 62.
Appendix A Specifications SFP Specifications Table A-26 Variable Rate SFP Optics Specifications (continued) Description Specification Wavelength 1310 nm Fiber type SM, 9/125 µm Connector type LC Receiver Minimum Receive sensitivity @10–12 BER Receive overload @10 –12 Maximum –32 dBm BER –3 dBm Input wavelength 1100 nm 1600 nm Transmitter Minimum Maximum Transmitter power –8 dBm –4 dBm Output wavelength 1260 nm 1360 nm Part number 15500-XVRA-10B2 Supported protocol encapsul
Appendix A Specifications SFP Specifications Table A-26 Variable Rate SFP Optics Specifications (continued) Description Specification Transmitter Minimum Maximum Transmitter power -20 dBm -14 dBm Output wavelength 1270 nm 1380 nm Part number 15500-XVRA-11A2 Supported protocol encapsulations ESCON, OC-12/STM-4 Dimensions 0.486 x 0.522 x 2.24 in. (1.23 x 1325.9 x 5.69 cm) Data rate range 200 Mbps to 622 Mbps Wavelength 1310 nm Fiber type MM 62.
Appendix A Specifications SFP Specifications Table A-26 Variable Rate SFP Optics Specifications (continued) Description Specification Data rate range 200 Mbps to 1.
Appendix A Specifications SFP Specifications Table A-26 Variable Rate SFP Optics Specifications (continued) Description Specification Receive sensitivity @1.25 Gbps -20 dBm Receive sensitivity @1.06 Gbps -20 mW Maximum receive power 0 dBm Receiver Minimum Maximum Input wavelength 770 nm 860 nm Transmitter Minimum Maximum Transmitter power -9 dBm -3.5 dBm Output wavelength 830 nm 860 nm 1. BER = bit error rate 2.
Appendix A Specifications SFP Specifications Table A-27 lists the specifications for the copper SFPs supported on the 8-port multi-service muxponder. Table A-27 Copper SFP Specifications Description Specification Part number 15500-XVRA-08D1 T1 1.544 Mbps Dimensions 0.486 x 0.522 x 2.24 in. (1.23 x 1325.9 x 5.69 cm) Data rate 1.544 Mbps Fiber type Copper T1 Connector type RJ-45 CAT5K cable 600 ft (182.9 m) Part number 15500-XVRA-09D1 E1 2.044 Mbps Dimensions 0.486 x 0.522 x 2.24 in. (1.
I N D EX 3R Numerics description 10-Gbps ITU trunk cards 1-20 4-port 1-Gbps/2-Gbps FC aggregation cards connecting 3-26 cabling connectors 3-2 cabling (figure) description 1-39 description installing LEDs 2-17 figure 1-42 specifications 1-40, 1-43 A-15 splitter (figure) 1-41, 1-44 3-26 3-2 description installing LEDs 1-42 3-28 connectors 3-2 description 1-45 LEDs specifications 3-21 description 1-30 A-11, A-16 2-17 1-29, 1-32 1-27, 1-29, 1-32, 1-35 8-port multi-service
Index description figure straight-through Ethernet 1-9 cable storage drawers 2-33 specifications (table) A-2 AC power specifications 3-39 description 1-10 opening (figure) 3-41 3-40 unlocking (figure) 2-34 airflow 3-42 cabling cautions 10-Gbps ITU trunk cards 2-5 air ramp baffle description figure connecting locking open (figure) 2-35 AC power cords figure 3-7 10-Gbps uplink cards 2-10 4-port 1-Gbps/2-Gbps FC aggregation cards 1-8 8-port multi-service muxponders auxiliary p
Index transponder modules 3-28 E connectors DB-25 serial earthing. See grounding 3-11 DB-9 serial electromagnetic pulse 3-11 EMI connector types description predict and remedy 3-2 connecting 3-20 CPUs.
Index mapping (table) A-3 L LEDs G 10-Gbps ITU trunk cards 1-42 10-Gbps ITU tunable trunk cards GE aggregation card support 1-30 guidelines 1-39 4-port 1-Gbps/2-Gbps FC aggregation cards 2-14 required tools 8-port FC/GE aggregation cards 2-14 CPU switch modules 2-14 dual WB-VOA modules ESCON aggregation cards hot swapping fan assemblies OSC modules carrier motherboards 2-24 PB-OE modules CPU switch modules 2-17, 2-24 PSMs line card motherboard 2-17 line card motherboards transp
Index LEDs N 1-24, 1-25 removing 2-26 Network Management Ethernet ports.
Index system S components SFP mounting 4-port 1-Gbps/2-Gbps FC aggregation cards 8-port FC/GE aggregation cards 8-port multi-service muxponders description 1-10 2-2 1-29 1-32 T 1-35 1-27 temperature installing 2-18 removing 2-19 to 2-24 specifications A-2 terminal blocks shelf connecting DC-input power grounding 2-14 unpacking 2-2 transponder line cards connecting 3-17 show hardware command 1-10 connectors 3-2 show inventory command 1-10 description 1-17 single-band PB-OE
Index connectors 3-2 description 1-21 dual (figure) installing LEDs 1-23 2-25 1-22, 1-23 removing 2-26 single (figure) 1-22 specifications A-6 wiring plant 2-30 Cisco ONS 15530 Hardware Installation Guide OL-7706-01 IN-7
Index Cisco ONS 15530 Hardware Installation Guide IN-8 OL-7706-01
