Cisco Prisma II HD-LRMW Installation And Operation Manual
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Cisco Prisma II HD-LRMW Installation And Operation Manual

Cisco Prisma II HD-LRMW Installation And Operation Manual

1.2 ghz high density long reach multiwave and hybrid modulation qam transmitters
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Cisco Prisma II 1.2 GHz High Density
Long Reach Multiwave (HD-LRMW)
and Hybrid Modulation QAM (HQT)
Transmitters
Installation and Operation Guide

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Summary of Contents for Cisco Prisma II HD-LRMW

  • Page 1 Cisco Prisma II 1.2 GHz High Density Long Reach Multiwave (HD-LRMW) and Hybrid Modulation QAM (HQT) Transmitters Installation and Operation Guide...
  • Page 3 For Your Safety Explanation of Warning and Caution Icons Avoid personal injury and product damage! Do not proceed beyond any symbol until you fully understand the indicated conditions. The following warning and caution icons alert you to important information about the safe operation of this product: You may find this symbol in the document that accompanies this product.
  • Page 4 Trademark Acknowledgments Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and/or its affiliates in the U.S. and other countries. For a list of Cisco trademarks, go to this URL: www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners.

  • Page 5: Table Of Contents

    Contents Important Safety Instructions Laser Safety Laser Power and Warning Labels - Half Height Module Introduction Description .......................... 3 Features ........................3 Operation ........................ 3 Optical Output ......................4 Transmitter Block Diagram ................... 4 High Density Transmitter Front and Back Panel.............. 6 High Density Transmitter Illustration ..............
  • Page 6 Contents Installing the HD Module in the Chassis ................ 21 To Install the Transmitter Modules in the Host Module ........21 To Install the Host Module in the Chassis ............22 To Install the Module in a Prisma II XD Chassis ..........23 Routing Optical Cables .....................
  • Page 7 Contents Operating the ICIM ......................48 Using the ICIM ..................... 48 To Access the ICIM LCD Contrast ..............48 ICIM MAIN Menu ....................48 ICIM MAIN Menu Illustration ................48 Prisma II ICIM Menu ................... 49 Prisma II MAIN Menu and ICIM Menu Structure ..........50 Prisma II High Density Long Reach Multiwave Transmitter Software Menus .........................
  • Page 8 Contents Checking the Operating Status ..................76 To Check the Operating Status using LCI ............76 Configuring the Module using LCI ................. 78 To Configure Parameters using LCI ..............78 Checking the Module Alarms using LCI ................ 80 To Check Alarms using LCI................. 80 Modifying Module Alarm Limits using LCI ..............

  • Page 9: Important Safety Instructions

    Important Safety Instructions Important Safety Instructions Read these instructions. Keep these instructions. Heed all warnings. Follow all instructions. Only use attachments/accessories specified by the manufacturer. Read and Retain Instructions Carefully read all safety and operating instructions before operating this equipment, and retain them for future reference. Follow Instructions and Heed Warnings Follow all operating and use instructions.
  • Page 10 Important Safety Instructions Electric shock can cause personal injury or even death. Avoid direct contact with dangerous voltages at all times. The protective ground connection, where provided, is essential to safe operation and must be verified before connecting the power supply. Know the following safety warnings and guidelines: Dangerous Voltages ¾...
  • Page 11 Important Safety Instructions To protect against equipment damage or injury to personnel, comply with the following: Install this equipment in a restricted access location. ¾...
  • Page 12 Important Safety Instructions Do not install near any heat sources such as radiators, heat registers, stoves, or ¾ other equipment (including amplifiers) that produce heat. Place this equipment close enough to a mains AC outlet to accommodate the ¾ length of this equipment’s power cord. Route all power cords so that people cannot walk on, place objects on, or lean ¾...
  • Page 13 Important Safety Instructions CAUTION: Installation of this equipment in a rack should be such that the amount of airflow required for safe operation of this equipment is not compromised. Elevated Operating Ambient Temperature Only install this equipment in a humidity- and temperature-controlled environment that meets the requirements given in this equipment’s technical specifications.
  • Page 14 Important Safety Instructions To properly ground this equipment, follow these safety guidelines: Grounding-Type Plug - For a 3-terminal plug (one terminal on this plug is a ¾ protective grounding pin), insert the plug into a grounded mains, 3-terminal outlet. Note: This plug fits only one way. If this plug cannot be fully inserted into the outlet, contact an electrician to replace the obsolete 3-terminal outlet.
  • Page 15 Important Safety Instructions AC Power Important: If this equipment is a Class I equipment, it must be grounded. If this equipment plugs into an outlet, the outlet must be near this equipment, ¾ and must be easily accessible. Connect this equipment only to the power sources that are identified on the ¾...
  • Page 16 Important Safety Instructions Be aware of the following general precautions and guidelines: Servicing - Servicing is required when this equipment has been damaged in any ¾ way, such as power supply cord or plug is damaged, liquid has been spilled or objects have fallen into this equipment, this equipment has been exposed to rain or moisture, does not operate normally, or has been dropped.
  • Page 17 Important Safety Instructions Batteries This product may contain batteries. Special instructions apply regarding the safe use and disposal of batteries: Safety Insert batteries correctly. There may be a risk of explosion if the batteries are ¾ incorrectly inserted. Do not attempt to recharge ‘disposable’ or ‘non-reusable’ batteries. ¾...
  • Page 18 Important Safety Instructions Accessories Use only attachments or accessories specified by the manufacturer. Electromagnetic Compatibility Regulatory Requirements This equipment meets applicable electromagnetic compatibility (EMC) regulatory requirements. Refer to this equipment's data sheet for details about regulatory compliance approvals. EMC performance is dependent upon the use of correctly shielded cables of good quality for all external connections, except the power source, when installing this equipment.
  • Page 19 Important Safety Instructions Industry Canada - Industrie Canadiene Statement This apparatus complies with Canadian ICES-003. Cet appareil est confome à la norme NMB-003 du Canada. CENELEC/CISPR Statement with Respect to Class A Information Technology Equipment This is a Class A equipment. In a domestic environment this equipment may cause radio interference in which case the user may be required to take adequate measures.

  • Page 21: Laser Safety

    Laser Safety Laser Safety Introduction This equipment contains an infrared laser that transmits intensity-modulated light and emits invisible radiation. Warning: Radiation WARNING: ¡ Avoid personal injury! Use of controls, adjustments, or procedures other than those specified herein may result in hazardous radiation exposure. ¡...
  • Page 22 Laser Safety equipment designed to transmit video, voice, or data signals. Certain safety precautions must be observed when operating equipment of this nature. For equipment specific safety requirements, refer to the appropriate section of the equipment documentation. For safe operation of this software, refer to the following warnings. WARNING: ¡...

  • Page 23: Laser Power And Warning Labels - Half Height Module

    Laser Power and Warning Labels - Half Height Module Laser Power and Warning Labels - Half Height Module Warning Labels The following labels are located on this product. Laser Warning Label * Laser Classification Label * Located on host module (part number 4008281) only. Product and Laser Information Label Location of Labels on Equipment The following illustrations display the location of warning labels on this...
  • Page 24 Laser Power and Warning Labels - Half Height Module 1 ITU Wavelength Label (value shown 3 Product and Laser Information Label is example only) on Side of Module 2 Laser Aperture Output 4 Laser Classification Label xxii...

  • Page 25: Introduction

    Chapter 1 Introduction Overview This chapter describes the Cisco Prisma II 1.2 GHz High Density Long Reach Multiwave (HD-LRMW) and Hybrid Modulation QAM (HQT) Transmitters. Purpose This guide provides information about the transmitter. It describes the front and back panels and presents a setup summary for the transmitter.
  • Page 26 Scope This guide discusses the following topics: Description of the transmitter ¾ Installation procedures ¾ Operation using the ICIM ¾ Operation using LCI ¾ Maintenance and troubleshooting ¾ In This Chapter ¡ Description ......... Error! Bookmark not defined. ¡ High Density Transmitter Front and Back PanelError! Bookmark not defined. ¡...

  • Page 27: Description

    Description Description The Prisma II 1.2 GHz HD-LRMW and HQT Transmitters are plug-in modules for the Prisma II and the Prisma II XD platforms. These modules are part of the Prisma II optical network, an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost effectiveness.

  • Page 28: Optical Output

    Chapter 1 Introduction to the incident RF power. A controller monitors this voltage level to evaluate the input power level. The transmitter generates an alarm condition if the input power is over or under a specified level. The amplified RF signal is also routed to a variable attenuator, which is used to reduce RF power in an overdrive condition or compensate for gain variations in the transmitter.
  • Page 29 Description...

  • Page 30: High Density Transmitter Front And Back Panel

    Chapter 1 Introduction High Density Transmitter Front and Back Panel High Density Transmitter Illustration Alarm Indicator Optical Output Laser Indicator -20dB Test Point ITU Wavelength Label (value shown is example only)

  • Page 31: High Density Transmitter Front Panel Features

    High Density Transmitter Front and Back Panel High Density Transmitter Front Panel Features Part Function Alarm Indicator Illuminates or blinks when an alarm condition occurs. Laser Indicator Illuminates when laser is active. Optical Output Connects the output signal to the optical cable. -20 dB Test Point Provides a -20 dB sample of the RF output signal.

  • Page 32: Back Panel Connectors

    Chapter 1 Introduction Back Panel Connectors Blind-mate connectors make it easy to install this module. The push-on connector on the back of the module mates with the back plane bus connector inside the chassis or host module. This 55-pin connector and the RF connector provide the following facilities.

  • Page 33: Host Module

    Host Module Host Module A host module is required to mount high density application modules in a standard Prisma II Chassis. The host module doubles the density of the Prisma II Chassis by providing two high density module slots for each current Prisma II slot.

  • Page 34: Host Module Back Panel Connectors

    Chapter 1 Introduction Side View Host Module Back Panel Connectors Blind-mate connectors make it easy to install the host module. The push-on connector on the back of the module mates with the back plane bus connector inside the chassis. This 110-pin connector provides the following facilities: RF signal input connection ¾...

  • Page 35: Module Configuration

    Module Configuration Module Configuration The transmitter ships from the factory with operational parameters set to factory defaults. However, you may choose to configure the operating parameters so that they are best suited for your application. Configuration and Monitoring Methods The module may be controlled and monitored using any of the following methods.
  • Page 36 Chapter 1 Introduction Enable or disable the “RF input low” alarm ¾ Configure the module as master or slave ¾ Set the relative RF drive level into the transmitter ¾ Return to the factory default settings (except LCI) ¾ Turns automatic gain control (AGC) on or off ¾...

  • Page 37: Module Installation

    Chapter 2 Module Installation This chapter provides instructions and identifies the site requirements, tools, and equipment needed to install this module. Qualified Personnel WARNING: Allow only qualified personnel to install, operate, maintain, or service this product. Otherwise, personal injury or equipment damage may occur.

  • Page 38: Preparing For Installation

    Unpacking and Inspecting the Module As you unpack the module, inspect it for shipping damage. If you find any damage, contact Cisco Services. Refer to Customer Information (on page 91) for contact information. Equipment and Tools Needed Before you begin, make sure that the module is in good condition.

  • Page 39: Site Requirements

    Site Requirements Site Requirements Before you begin, be sure that your installation site meets the requirements discussed in this section. Access Requirements Ensure that only authorized personnel have access to this equipment. Otherwise, personal injury or equipment damage may occur. WARNING: Use this product in locations that restrict access to all persons who are not authorized.

  • Page 40: Power Requirements

    Chapter 2 Module Installation Power Requirements Prisma II modules receive their electrical power from the Prisma II Chassis. The module may be installed with the chassis under power. Space Requirements This is a single-width, half-height module. Actual space requirements depend on whether the module is installed in a Prisma II standard or a Prisma II XD chassis.
  • Page 41 Site Requirements Rear-Access Chassis - Front Panel Illustration The following illustration shows the front of the rear-access Prisma II standard chassis with two power supplies, 10 full-height modules, and the ICIM installed. Front-Access Chassis - Front Panel Illustration The following illustration shows the front of the front-access Prisma II standard chassis with two power supplies, 10 full-height modules, and the ICIM installed.

  • Page 42: Prisma Ii Xd Chassis Style

    Chapter 2 Module Installation Prisma II XD Chassis Style The Prisma II XD chassis back panel serves as both a connector panel and a receptacle for AC power supply modules and the ICIM2-XD, when installed. The RF connectors are arranged in numbered pairs to identify the corresponding application module slot.

  • Page 43: Connecting The Rf Cables To The Chassis

    Connecting the RF Cables to the Chassis Connecting the RF Cables to the Chassis To Connect RF Cables for Each Module Complete the appropriate procedure below to connect RF cables for the module. Note: These procedures assume that the chassis is mounted in a rack. Standard Prisma II Chassis Attach a 75-ohm RF cable to the appropriate RF source.
  • Page 44 Chapter 2 Module Installation Prisma II XD Chassis Attach a 75-ohm RF cable to the appropriate RF source. Locate the RF ports at the back of the chassis. Attach the other end of the RF cable to Port A connector (RF IN) of the corresponding slot where the module is to be installed.

  • Page 45: Installing The Hd Module In The Chassis

    Installing the HD Module in the Chassis Installing the HD Module in the Chassis To Install the Transmitter Modules in the Host Module Note: All Prisma II high-density application modules must be installed in a host ¾ module before they can be mounted in a standard Prisma II Chassis. Prisma II host modules prior to Rev C (date codes through A2006) do not ¾...

  • Page 46: To Install The Host Module In The Chassis

    Chapter 2 Module Installation Host Module Empty Host Module Populated To Install the Host Module in the Chassis Note: This procedure assumes that the chassis is mounted in a rack. Locate the fiber guides at the bottom of the chassis and the module guide slots inside the chassis as shown in the following illustration.

  • Page 47: To Install The Module In A Prisma Ii Xd Chassis

    Installing the HD Module in the Chassis Align the ridges on the top and bottom of the host module with the guide slots on the chassis. Be careful to keep the host module level as you slide it into the chassis to avoid bending the pins on the back plane bus. Gently slide the host module into the chassis until you feel the connections on the back of the host module join connectors on the back plane bus.
  • Page 48 Chapter 2 Module Installation CAUTION: Always use a screwdriver to loosen or tighten the screws holding the application modules, ICIM2-XD, fan assembly, power supply modules, DC-to-DC converters, or blanking panels in place. Do not attempt to loosen or tighten these screws solely by hand. Locate the fiber tray at the bottom of the chassis and the application module slots inside the chassis as shown in the following illustration.
  • Page 49 Installing the HD Module in the Chassis Gently slide the module into the chassis until its power and communications connections join connectors on the midplane bus. Do not force the module into the chassis. If properly aligned, it should slide in with minimal force.

  • Page 50: Routing Optical Cables

    Chapter 2 Module Installation Routing Optical Cables Before connecting fiber optic cables, you may need to route the fiber to the module. Use the tools and procedures in this section to route fiber as needed. Fiber Fish Tool WARNING: Unterminated fiber cables and connectors may emit invisible laser radiation. Avoid direct exposure to the laser light source.
  • Page 51 Routing Optical Cables At the front of the chassis, pull the Fiber Fish tool (with cable attached) to the front of the chassis. Disengage the optical cable from the Fiber Fish tool and attach to the appropriate connector on the desired module.

  • Page 52: Cleaning Optical Connectors

    Chapter 2 Module Installation Cleaning Optical Connectors CAUTION: Proper operation of this equipment requires clean optical fibers. Dirty fibers will adversely affect performance. Proper cleaning is imperative. The proper procedure for cleaning optical connectors depends on the connector type. The following describes general instructions for fiber optic cleaning.

  • Page 53: To Clean Optical Connectors

    Cleaning Optical Connectors To Clean Optical Connectors Warning: ¡ Avoid personal injury! Use of controls, adjustments, or procedures other than those specified herein may result in hazardous radiation exposure. ¡ Avoid personal injury! The laser light source on this equipment (if a transmitter) or the fiber cables connected to this equipment emit invisible laser radiation.

  • Page 54: Connecting Optical Cables

    Chapter 2 Module Installation Connecting Optical Cables To Connect Optical Cables to an HD Module Note: This procedure assumes that the chassis is mounted in a rack. Important: Observe laser safety precautions. Refer to the Laser Safety information earlier in this guide. Complete the following steps for each optical cable to be connected to the module.

  • Page 55: Connecting The Icim To Additional Chassis

    Connecting the ICIM to Additional Chassis Connecting the ICIM to Additional Chassis Chassis-to-Chassis ICIM Connections The Prisma II platform allows the ICIM to be located in one chassis and control modules located in several other chassis. This communication “daisy-chain” can be enabled by connecting cables to the ICIM IN and ICIM OUT connectors located on the connector interface panel of the chassis.

  • Page 56: To Connect Chassis-To-Chassis Icim In And Icim Out Ports

    Chapter 2 Module Installation part number for a 6-foot DB9 Female to DB9 Male serial extension cable. The connectors are a serial 9-pin D-shell (EIA 574/232). To Connect Chassis-to-Chassis ICIM IN and ICIM OUT Ports Connect the serial extension cable from the ICIM OUT of the chassis containing the ICIM to the ICIM IN connector of the second chassis.

  • Page 57: External Alarm Connections

    External Alarm Connections External Alarm Connections Master/Slave Operation All Prisma II modules ship from the factory configured as a master. The LCI, or the ICIM can be used to reconfigure a module as a slave or as redundant. The Prisma II Chassis allows for local hard-wired redundancy by using the ALARM IN and ALARM OUT connectors located on the connector interface panel.

  • Page 58: Alarms In And Alarms Out Connector Illustration

    Chapter 2 Module Installation ALARMS IN and ALARMS OUT Connector Illustration Prisma II Standard Chassis Prisma II XD Chassis Master/Slave Illustration...

  • Page 59: Redundancy Interface Panel

    External Alarm Connections Redundancy Interface Panel The Prisma II Redundancy Interface Panel is an accessory to the Prisma II platform. It is intended to be used with the master/slave feature and the contact closure alarm feature of the Prisma II platform. The Prisma II Redundancy Interface Panel serves as an extension to the two DB-37 connectors labeled ALARM IN and ALARM OUT on the connector interface panel of the chassis.
  • Page 60 Chapter 2 Module Installation...

  • Page 61: Operation Using The Icim

    Chapter 3 Operation Using the ICIM Introduction The procedures in this chapter apply if you are using the Prisma II ICIM2 front-panel interface to configure and operate the module. For information on using CLI commands or the ICIM Web Interface to configure and operate the module, see the Prisma II Platform Remote User Interface Guide, System Release 2.03.

  • Page 62: Icim Introduction

    Chapter 3 Operation Using the ICIM ICIM Introduction Laser Warning WARNING: ¡ Avoid personal injury! Use of controls, adjustments, or procedures other than those specified herein may result in hazardous radiation exposure. ¡ Avoid personal injury! The laser light source on this equipment (if a transmitter) or the fiber cables connected to this equipment emit invisible laser radiation.

  • Page 63: Icim Block Diagram

    ICIM Introduction All chassis connected in a daisy-chain must be powered and have a fan tray ¾ installed. A chassis that is connected but is either not powered, or does not have a fan tray installed will cause faulty operation of the ICIM. All chassis connected in this daisy-chain must have a unique chassis ¾...

  • Page 64: Icim2 Front Panel

    Chapter 3 Operation Using the ICIM ICIM2 Front Panel ICIM2 Illustration (Front Panel)

  • Page 65: Icim2 Front Panel Features

    ICIM2 Front Panel ICIM2 Front Panel Features Part Function LCD screen Displays the ICIM2 menus, alarms, and status information. 12-key numeric Used to navigate the ICIM2 menus and configure the application keypad modules. Ethernet connector Directly connects the ICIM2 to an IP network. The ICIM2 Ethernet port is suitable for connection to intra-building wiring, non-exposed wiring or cabling only.

  • Page 66: Icim Keypad

    Chapter 3 Operation Using the ICIM ICIM Keypad The ICIM keypad has 12 keys that allow you to input and monitor operational parameters. Each key and a brief description of its function are shown here. Button Function Displays status information for the selected module. STAT Displays configuration information for the selected module.

  • Page 67: Icim Password

    ICIM Password ICIM Password The ICIM allows you to send configuration commands, change alarm thresholds, and restore factory default settings in Prisma II modules. To prevent unauthorized changes to these parameters, you have the option of using a password protection system. Password authorization only applies to configurable parameters.

  • Page 68: Expired Password Or Inactive Password Messages

    Chapter 3 Operation Using the ICIM ICIM Press the key. Use the key to scroll down until Password is highlighted. Press the key. The Password menu appears. User Psw is highlighted. M A I N I C I M I C I M I C I M S h e l f S h e l f...

  • Page 69: To Change The User Password

    ICIM Password SHIFT When User Psw/Shift Off appears, press the key to display Shift On, and then enter the eight digits of your password, using the 0-9 number keys. ¡ To change a digit you have just typed, use the CAN (Cancel) function ALRM by pressing the key.

  • Page 70: To Disable The User Password Using Icim

    Chapter 3 Operation Using the ICIM Press the key to select Change Psw. SHIFT When Change Psw /Shift Off appears, press the key to display Shift On, and then enter the eight digits of your new password, using the 0-9 number keys. If at any time you input a digit that is incorrect or wish to change a digit, use ALRM the CAN (Cancel) function by pressing the...
  • Page 71 ICIM Password If the current password is active, the menu displays Password Is Now Disabled. You can now make changes to parameters without any password. If the current password has expired (more than 10 minutes have passed since your last keystroke), the menu displays Failed, Password Not Active.

  • Page 72: Operating The Icim

    Chapter 3 Operation Using the ICIM Operating the ICIM Using the ICIM Once the module is installed, it runs without the aid of an operator. Unless alarms are generated or your system configuration changes, you should not need to make any adjustments to the module beyond the initial setup. To Access the ICIM LCD Contrast To access the ICIM LCD contrast control from the MAIN menu, press the ICIM...

  • Page 73: Prisma Ii Icim Menu

    Operating the ICIM Prisma II ICIM Menu To display the ICIM menu, press the ICIM key. The ICIM menu (shown below) appears. Press the key to select the specific option. Display Description Shelf Displays the location of the ICIM module. Slot Mfg Data Displays manufacturing data about the ICIM.

  • Page 74: Prisma Ii Main Menu And Icim Menu Structure

    Chapter 3 Operation Using the ICIM Prisma II MAIN Menu and ICIM Menu Structure MAIN Pressing the key initiates the MAIN software menu. Pressing the ICIM key initiates the ICIM software menu. The MAIN and ICIM software structures are shown below. MAIN Key ICIM Key ICIM...

  • Page 75: Checking The Operating Status Using The Icim

    Checking the Operating Status using the ICIM Checking the Operating Status using the ICIM To Check the Operating Status using ICIM You can use the ICIM to check the status of all operating parameters of this module. All status information is displayed on the ICIM LCD. At the MAIN menu, press the key to highlight the Shelf and Slot fields.
  • Page 76 Chapter 3 Operation Using the ICIM Note: For details on all operating status parameters, see Module Parameter Descriptions (on page 93).

  • Page 77: Configuring The Module Using The Icim

    Configuring the Module using the ICIM Configuring the Module using the ICIM To Configure Parameters using the ICIM You can use the ICIM to configure the parameters of this module. From the MAIN menu, press the key to highlight the Shelf and Slot fields.
  • Page 78 Chapter 3 Operation Using the ICIM CONFIG CONFIG CONFIG CONFIG Shelf Shelf Shelf Shelf Slot Slot Slot Slot P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM Enable LoRFInh Enable Master LoRFInh Master RFDrive Note: For details on all configurable parameters, see Module Parameter Descriptions (on page 93).

  • Page 79: Checking Module Alarms Using The Icim

    Checking Module Alarms using the ICIM Checking Module Alarms using the ICIM To Check Alarms using ICIM If the red ALARM LED on the front panel is blinking, a minor alarm condition is indicated. If the ALARM LED on the front panel is illuminated, a critical alarm conditions is indicated.

  • Page 80: To Set Adjustable Alarm Thresholds Using The Icim

    Chapter 3 Operation Using the ICIM ALARMS ALARMS ALARMS ALARMS Shelf Shelf Shelf Shelf Slot Slot Slot Slot P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM InRF OutPwr LasBias LasTemp MinL MinH MajL MajH Note: For details on all alarm parameters, see Module Parameter Descriptions (on page 93).
  • Page 81 Checking Module Alarms using the ICIM STATUS STATUS STATUS STATUS Shelf Shelf Shelf Shelf Slot Slot Slot Slot P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM LasTemp InRF LasBias Enable MajH n / a MajH 7 . 500 MajH n / a n / a MinH n / a MinH...

  • Page 82: Checking Manufacturing Data Using The Icim

    Chapter 3 Operation Using the ICIM Checking Manufacturing Data using the ICIM To Check Manufacturing Data You can display the manufacturing data for this module on the ICIM LCD. Complete the following steps to access the manufacturing data. From the MAIN menu, press the key to highlight the Shelf and Slot fields.
  • Page 83 Checking Manufacturing Data using the ICIM MFG . DATA MFG . DATA MFG . DATA MFG . DATA Shelf Shelf Shelf Shelf Slot Slot Slot Slot P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM P2HD1.215TXM Sw Ver Module Serial In Service Type MMAACUG Hours Script Ver Date Code 1067 B 06...

  • Page 84: Saving The Configuration Using The Icim

    Chapter 3 Operation Using the ICIM Saving the Configuration using the ICIM To Save the Current Configuration After you have changed a parameter or entered data, press the ENTER to save the changes and return to the MAIN menu. SHIFT If you do not save your changes for two minutes, or if you press the keys at the same time, changes are aborted and the display returns to the MAIN menu.

  • Page 85: Adjusting Alarm Thresholds

    Adjusting Alarm Thresholds Adjusting Alarm Thresholds To Adjust Alarm Thresholds This method for adjusting alarm thresholds lets you choose any valid increment size and adjust the alarm threshold to any valid value. You can use the ICIM to change the adjustable alarm thresholds of this module from their factory default values.

  • Page 87: Operation Using Lci

    Chapter 4 Operation Using LCI Introduction This chapter provides instructions for installing and using the LCI. This chapter applies if you are using the LCI to operate a module. In This Chapter ¡ LCI Introduction ........ Error! Bookmark not defined. ¡...

  • Page 88: Lci Introduction

    Chapter 4 Operation Using LCI LCI Introduction Laser Warning WARNING: ¡ Avoid personal injury! Use of controls, adjustments, or procedures other than those specified herein may result in hazardous radiation exposure. ¡ Avoid personal injury! The laser light source on this equipment (if a transmitter) or the fiber cables connected to this equipment emit invisible laser radiation.

  • Page 89: System Requirements

    System Requirements System Requirements You will need the following computer software and hardware to run LCI. Computer Requirements Pentium II 300 MHz processor or equivalent ¾ 128 MB RAM ¾ 10 MB available hard drive space ¾ CD-ROM Drive ¾ Windows 95 or later operating system software ¾...

  • Page 90: Installing Lci

    To Install the LCI Software Complete the following steps to install the LCI software. Obtain the LCI installation program from Cisco Services and copy the program file to your Windows desktop. Launch the LCI installation program. The Welcome screen appears as shown in the following illustration.
  • Page 91 Installing LCI Click Install to begin installation. After a moment, the Setup Status screen appears, displaying a progress indicator as shown in the following illustration.
  • Page 92 Chapter 4 Operation Using LCI When finished, the "wizard" asks if you want to install the Silicon Labs driver, which is required when using LCI with a node product. ¡ If you are using LCI with a node product, choose the Launch option, click Next, and follow steps of the wizard to install the driver.
  • Page 93 Installing LCI Click Finish to exit the Install wizard. An LCI shortcut is placed on your Windows desktop as shown in the following illustration. The LCI software is now ready to use.

  • Page 94: Connecting Your Computer To The Chassis

    Chapter 4 Operation Using LCI Connecting Your Computer to the Chassis Before you start LCI, you must first connect your computer to the chassis that contains the module(s) you want to check. Important: LCI only communicates with modules installed in the chassis to which your ¾...
  • Page 95 Connecting Your Computer to the Chassis Prisma II XD Chassis (Top Right Corner Detail)

  • Page 96: Starting Lci Software

    Chapter 4 Operation Using LCI Starting LCI Software When you start LCI, it polls the module(s) located in the chassis to which your computer is attached. For each module it finds, LCI does the following: Represents the module in the module tree of the main LCI window ¾...
  • Page 97 Starting LCI Software Result: LCI polls the modules in the chassis, and when finished, displays a Refresh Complete message. Click OK to continue with LCI startup. Result: The main LCI window appears as shown in the example below.

  • Page 98: Lci Module Tree

    Chapter 4 Operation Using LCI LCI Module Tree Introduction The LCI main window contains a tree that represents your system in a hierarchical manner. Module Tree Levels In the illustration above, the module tree represents a computer connected to a chassis that contains ten modules. The three tree levels are described in the following table.

  • Page 99: Accessing Module Details

    Accessing Module Details Accessing Module Details The Module Details window displays information about module parameters, alarms, and status. You can access this window from the module tree using one of several methods: Double-click the chassis to display a graphic image of the chassis, and then ¾...

  • Page 100: Checking The Operating Status

    Chapter 4 Operation Using LCI Checking the Operating Status To Check the Operating Status using LCI Using the LCI, you can check the status of all module operating parameters. In the module tree, right-click the module, and then click Details. The Module Details window appears as shown in the following example.
  • Page 101 Checking the Operating Status Check the operating parameters. Note: For details on all operating status parameters, see Module Parameter Descriptions (on page 93).

  • Page 102: Configuring The Module Using Lci

    Chapter 4 Operation Using LCI Configuring the Module using LCI To Configure Parameters using LCI Using LCI, you can configure any module parameters that allow for such changes. In the module tree, right-click the module, and then click Details. The Module Details window appears as shown in the following example. Under Controls, double-click the parameter you want to configure.
  • Page 103 Configuring the Module using LCI Depending on the parameter you chose, select or type a new value. Click Execute. The new value appears next to the parameter. Note: For details on all configurable parameters, see Module Parameter Descriptions (on page 93).

  • Page 104: Checking The Module Alarms Using Lci

    Chapter 4 Operation Using LCI Checking the Module Alarms using LCI Using LCI, you can check the alarm status of various parameters. Alarms limits fall into one of the following categories. Major low ¾ Minor low ¾ Minor high ¾ Major high ¾...
  • Page 105 Checking the Module Alarms using LCI Note: For details on all alarm parameters, see Module Parameter Descriptions (on page 93).

  • Page 106: Modifying Module Alarm Limits Using Lci

    Chapter 4 Operation Using LCI Modifying Module Alarm Limits using LCI To Modify Alarm Limits using LCI Using LCI, you can modify alarm limits for parameters that allow for such changes. In the module tree, right-click the module, and then click Details. The Module Details window appears as shown in the following example.
  • Page 107 Modifying Module Alarm Limits using LCI In the Command to box, type the value to use for the limit. Click Execute. The new value appears in the alarm limit column. Note: For details on all alarm limits, see Module Parameter Descriptions (on page 93).

  • Page 108: Checking Manufacturing Data Using Lci

    Chapter 4 Operation Using LCI Checking Manufacturing Data using LCI To Check Manufacturing Data using LCI Using LCI, you can check the manufacturing data of a module. In the module tree, right-click the module, and then click Details. The Module Details window appears as shown below. The manufacturing data is displayed under Properties.
  • Page 109 Checking Manufacturing Data using LCI Proceed with viewing the manufacturing data. Note: For details on all manufacturing data parameters, see Module Parameter Descriptions (on page 93).

  • Page 111: Maintenance And Troubleshooting

    Chapter 5 Maintenance and Troubleshooting This chapter describes the maintenance guidelines and troubleshooting procedures for this module. Qualified Personnel Only appropriately qualified and trained personnel should attempt to maintain or troubleshoot these products. WARNING: Allow only qualified personnel to install, operate, maintain, or service this product.

  • Page 112: Maintenance

    Chapter 5 Maintenance and Troubleshooting Maintenance The following maintenance is recommended to ensure optimal performance. Frequency Maintenance Required ¡ Check all parameters and test points. Yearly ¡ Record data. ¡ Make adjustments as needed. ¡ Make sure all cables are mated properly. ¡...

  • Page 113: General Troubleshooting Information

    General Troubleshooting Information General Troubleshooting Information This troubleshooting information describes the most common alarms and gives typical symptoms, causes, and items to check before contacting Customer Service. Equipment Needed You may need the following equipment to troubleshoot these modules. Digital voltmeter ¾...

  • Page 114: Troubleshooting Alarm Conditions

    If the red ALARM indicator is illuminated or is blinking, check the display on the front panel to determine the cause of the alarm. Alarm Function Possible Causes Possible Solutions Laser Bias Current Automatic power control Contact Cisco Services for LasBias Failed circuit failure. assistance. ¡ LasTemp Laser Temperature...

  • Page 115: Customer Information

    Chapter 6 Customer Information If You Have Questions If you have technical questions, call Cisco Services for assistance. Follow the menu options to speak with a service engineer. Access your company's extranet site to view or order additional technical publications. For accessing instructions, contact the representative who handles your account.

  • Page 117: Appendix A Module Parameter Descriptions

    Appx auto letter Appendix A Module Parameter Descriptions Introduction This appendix provides control, alarm, monitor, and manufacturing data parameters for this equipment. In This Appendix ¡ High Density Long Reach Multiwave and Hybrid Modulation QAM Transmitter Parameters ............94...

  • Page 118: High Density Long Reach Multiwave And Hybrid Modulation Qam Transmitter Parameters

    Appendix A Module Parameter Descriptions High Density Long Reach Multiwave and Hybrid Modulation QAM Transmitter Parameters Operating Status Parameters Parameter ICIM Function Typical Name (LCI) Abbreviation Value RF Input InRF Displays relative RF input power. 0 dB Optical Output OutPwr Displays HD-LRMW optical output +12.5 dBm Power...

  • Page 119: Configurable Parameters

    High Density Long Reach Multiwave and Hybrid Modulation QAM Transmitter Parameters Monitored values may vary from module to module. The values shown above ¾ are examples only. ITU values are set at the factory and cannot be changed in the field. ¾...

  • Page 120: Alarm Data Parameters

    Appendix A Module Parameter Descriptions Parameter ICIM Description Values Default Name (LCI) Abbreviation Master Master Configures the module as master or ON (1) = Master ON (1) = slave: OFF (0) = Slave Master ¡ If set to Master, the transmitter is controlled only by the Enable control above.

  • Page 121: Alarm Types

    Name (LCI) Abbreviation Generic Name Transmitter P2HD1.215TXM for Module Name HD-LRMW module P2HD1.2G15TXQP for HQT module Description Prisma II HD-LRMW Transmitter Prisma II 1.2 GHz iWDM HQT Optical Transmitter Software Revision Sw Ver 1.01.xx Script Version Script Ver Serial Number...
  • Page 122 Appendix A Module Parameter Descriptions Parameter ICIM Typical Values Name (LCI) Abbreviation Restore Factory Defaults Restores the module factory default configuration settings. Note: These values may vary from module to module. The values shown above are examples only.

  • Page 123: Glossary

    Glossary ac, AC alternating current. An electric current that reverses its direction at regularly recurring intervals. automatic gain control. A process or means by which gain is automatically adjusted in a specified manner as a function of input level or other specified parameters. cancel.
  • Page 124 Glossary association that provided standards for use between manufacturers and purchasers of electronic products until ceasing operations in February 2011. EIA standards continue to be recognized in the telecommunications industry. electromagnetic compatibility. A measure of equipment tolerance to external electromagnetic fields.
  • Page 125 Glossary for use in multi-wavelength systems. liquid crystal display. A display medium made of liquid crystal. Liquid crystal's reflectance changes when an electric field is applied. Commonly used in monitors, televisions, cell phones, digital watches, etc. local craft interface. light-emitting diode. An electronic device that lights up when electricity passes through it. Management Information Base.
  • Page 126 Glossary radio frequency. The frequency in the portion of the electromagnetic spectrum that is above the audio frequencies and below the infrared frequencies, used in radio transmission systems. return material authorization. A form used to return products. remote terminal. Remote equipment of a supervisory system. receive or receiver.
  • Page 128 Fax: 408 527-0883 This document includes various trademarks of Cisco Systems, Inc. Please see the Notices section of this document for a list of Cisco Systems, Inc., trademarks used in this document. Product and service availability are subject to change without notice.

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