Cisco ONS 15216 EDFA2 Operations Guide Product and Software Release 2.3 August 2003 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.
CONTENTS Preface xix Obtaining Documentation xix Cisco.com xix Optical Networking Product Documentation CD-ROM Ordering Documentation xix Documentation Feedback xx xix Obtaining Technical Assistance xx Cisco.com xx Technical Assistance Center xxi Obtaining Additional Publications and Information CHAPTER 1 Applications 1-1 1.1 Bandwidth On Demand 1-1 1.2 Wavelength Protection Switching 1.3 Key Features 1-2 1.3.1 Constant Gain 1-3 1.3.2 Gain Flattening 1-3 1.3.3 Transient Suppression 1.3.
Contents 3.2 Standard Precautions 3-1 3.3 Placement and Power Connection 3-1 3.3.1 General Rack Considerations 3-1 3.3.2 Rack Installation and Power Supply Connection Procedures 3.4 SC/UPC Optical Ports 3-3 3.4.1 Safety Requirements 3-3 3.4.2 Optical Connection Procedure 3-3 3.4.3 Optical Amplification Operation Verification Procedure 3.5 Communications 3-5 3.5.1 Alarm Out Relay Interface (RJ-45) 3-5 3.5.2 Alarm LEDs 3-6 3.5.3 Serial Interface (EIA/TIA-232) Communication 3-7 3.5.
Contents 5.1.4 Command Syntax Using the SNMP Agent 5-4 5.2 Enabling SNMP Remote Management Community Strings 5.2.1 Creating a View 5-6 5.2.2 Creating a Community Entry 5-7 5.3 Setup for CTM Access 5-5 5-10 5.4 Tables and Groups 5-11 5.4.1 CfgGroup Table 5-12 5.4.2 PumpCfgEntry Table 5-14 5.4.3 OverallStatusGroup Table 5-16 5.4.4 OverallControl Table 5-18 5.4.5 PumpStatusEntry Table 5-18 5.4.6 AlarmEntry Table 5-19 5.4.7 OpGroup Table 5-20 5.4.8 VersionGroup Table 5-21 5.5 Setting Up Traps 5-21 5.5.
Contents 6.2.6 pdm busmode modify Command 6-9 6.2.7 pdm cfg threshold bus display Command 6-9 6.2.8 pdm cfg threshold bus modify Command 6-9 6.2.9 gain gain display Command 6-9 6.2.10 gain gain modify Command 6-10 6.2.11 voa power input display Command 6-10 6.3 Administrative Commands 6-10 6.3.1 clear Command 6-11 6.3.2 exit Command 6-11 6.3.3 help Command 6-11 6.3.4 history Command 6-11 6.3.5 login and logoff Commands 6-12 6.3.6 processor reset Command 6-12 6.4 Shell Commands 6-12 6.4.
Contents 6.7.2 6.7.3 6.7.4 6.7.5 6.7.6 6.7.7 6.7.8 user entry edit Command 6-26 user entry delete Command 6-27 user file display and user name display Commands 6-27 user inactivity modify and user inactivity display Commands user passwd set Command 6-28 user active list Command 6-29 user active message send Command 6-29 6-28 6.8 Manufacturing Information Access Commands 6-30 6.8.1 snmp table display local entPhysicalEntry Command 6-30 6.8.
Contents CHAPTER 9 TL1 Commands 9-1 9.1 Introduction 9-1 9.2 Connection to the ONS 15216 EDFA2 9-1 9.3 Explanation of Command Parameters 9-1 9.3.1 Source Identifier (sid) and Target Identifier (tid) 9.3.2 Command Code Modifier (ccm) 9-2 9.3.3 Access Identifier (aid) 9-2 9.3.4 Correlation Tag (ctag) 9-2 9.4 Notation 9-1 9-2 9.5 Summary of Autonomous Alarms and Messages 9-3 9.6 Summary of Security Permissions for TL1 Commands 9-6 9.7 TL1 Commands and Autonomous Messages 9-9 9.7.
Contents 9.7.28 9.7.29 9.7.30 9.7.31 9.7.32 9.7.33 9.7.34 9.7.35 9.7.36 9.7.37 9.7.38 9.7.39 9.7.40 9.7.41 9.7.42 9.7.43 9.7.44 9.7.45 9.7.46 9.7.47 9.7.
Contents APPENDIX A Regulatory Compliance and Safety Information Regulatory Compliance A-1 A-1 Translated Safety Warnings A-2 Warning Definition A-4 DC Power Supply Warning A-6 Installation Warning A-7 Power Cord Warning A-7 No On/Off Switch Warning A-8 SELV Circuit Warning A-9 Laser Radiation Warning A-10 Laser Beam Warning A-11 Power Cabling Warning A-11 Grounded Equipment Warning A-12 Ground Connection Warning A-13 Jewelry Removal Warning A-14 Qualified Personnel Warning A-15 Supply Circuit Warning
Contents Class B EMC Warning A-35 Safety Requirements Warning A-35 Laser Radiation Warning A-36 Fiber Disconnect Sequence Warning A-37 Optical Connector Warning A-38 Optical Connector Disconnect Warning A-38 Eye Damage Warning A-39 Static Electricity Warning A-40 Connector Cleaning Warning A-41 Cable Connection Sequence Warning A-42 Module Removal Warning A-43 DC Power SELV Requirement Warning A-44 Reinforced Insulation Warning A-45 Power Supply Voltage Warning A-46 DC Power Supply Connection Warning A-46
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F I G U R E S Figure 1-1 Wavelength Protection Switching 1-2 Figure 1-2 ONS 15216 EDFA2 Block Diagram 1-2 Figure 1-3 Gain Flattening Filter Figure 2-1 ONS 15216 EDFA2 Dimensions 2-5 Figure 2-2 ONS 15216 EDFA2 Front Panel 2-5 Figure 3-1 ONS 15216 EDFA2 Optical Connections Figure 3-2 HyperTerminal Connect To Dialog Box Figure 3-3 HyperTerminal COM1 Properties Dialog Box Figure 3-4 Optical Amplifier Properties Dialog Box (Connect To Tab) Figure 3-5 Optical Amplifier Properties Dialog Bo
Figures Cisco ONS 15216 EDFA2 Operations Guide xiv 78-16033-01
T A B L E S Table 2-1 ONS 15216 EDFA2 Optical Specifications Table 2-2 Maximum Channel Power Table 2-3 ONS 15216 EDFA2 Electrical Specifications Table 2-4 ONS 15216 EDFA2 Mechanical Specifications Table 2-5 ONS 15216 EDFA2 Front Panel Features Table 3-1 Gain Range Table 3-2 Alarm Pinout and Definitions (RJ-45) Table 3-3 Equipment Checklist Table 3-4 Communication Component List Table 3-5 Modem DIP Switch Setting Table 3-6 Modem Settings Table 4-1 Alarm Threshold Attribute Definitions
Tables Table 9-1 Command Code Modifiers Table 9-2 Access Identifiers Table 9-3 TL1 Notation Symbols Table 9-4 TL1 Autonomous Alarms 9-3 Table 9-5 TL1 Autonomous Events 9-4 Table 9-6 TL1 Autonomous File Transfer Events Table 9-7 TL1 Autonomous Clear Alarms Table 9-8 TL1 Commands and Messages Security Permissions (Access Levels) Table 9-9 ACT-USER Syntax Description Table 9-10 ALW-MSG-ALL Syntax Description Table 9-11 CANC-USER Syntax Description 9-12 Table 9-12 COPY-RFILE Syntax De
Tables Table 9-36 RTRV-COND-DWDM Syntax Description Table 9-37 RTRV-COND-ENV Syntax Description Table 9-38 RTRV-COND-EQPT Syntax Description Table 9-39 RTRV-DFLT-SECU Syntax Description Table 9-40 RTRV-DWDM Syntax Description Table 9-41 RTRV-ENV Syntax Description 9-50 Table 9-42 RTRV-HDR Syntax Description 9-51 Table 9-43 RTRV-INV Syntax Description Table 9-44 RTRV-NE-GEN Syntax Description Table 9-45 RTRV-RFILE Syntax Description Table 9-46 RTRV-TH-DWDM Syntax Description Table 9-
Tables Cisco ONS 15216 EDFA2 Operations Guide xviii 78-16033-01
Preface Obtaining Documentation Cisco provides several ways to obtain documentation, 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 on the World Wide Web at this URL: http://www.cisco.com/univercd/home/home.htm You can access the Cisco website at this URL: http://www.cisco.com International Cisco web sites can be accessed from this URL: http://www.cisco.
Preface Documentation Feedback • Registered Cisco.com users can order the Documentation CD-ROM (Customer Order Number DOC-CONDOCCD=) through the online Subscription Store: http://www.cisco.com/go/subscription • Nonregistered Cisco.com users can order documentation through a local account representative by calling Cisco Systems Corporate Headquarters (California, U.S.A.) at 408 526-7208 or, elsewhere in North America, by calling 800 553-NETS (6387).
Preface Technical Assistance Center Technical Assistance Center The Cisco TAC is available to all customers who need technical assistance with a Cisco product, technology, or solution. Two levels of support are available: the Cisco TAC website and the Cisco TAC Escalation Center. The avenue of support that you choose depends on the priority of the problem and the conditions stated in service contracts, when applicable.
Preface Obtaining Additional Publications and Information Obtaining Additional Publications and Information Information about Cisco products, technologies, and network solutions is available from various online and printed sources. • The Cisco Product Catalog describes the networking products offered by Cisco Systems as well as ordering and customer support services. Access the Cisco Product Catalog at this URL: http://www.cisco.com/en/US/products/products_catalog_links_launch.
C H A P T E R 1 Applications This manual describes how to install and operate the Cisco Optical Network System (ONS) 15216 Erbium-Doped Fiber Amplifier 2 (EDFA2). The ONS 15216 EDFA2 is an optical amplifier that enables the migration to next-generation all-optical networks. It features bandwidth-on-demand and wavelength protection switching that extend dense wavelength division multiplexing (DWDM) links by hundreds of kilometers.
Chapter 1 Applications Key Features Figure 1-1 Wavelength Protection Switching Wavelength is rerouted C C D D B A A Before 61990 B Fiber Cut After After a protection switch occurs, the number of wavelengths on each fiber changes. In the example, the number of clockwise wavelengths increases to three, while the number of counter-clockwise wavelengths decreases to one. 1.3 Key Features Figure 1-2 shows a block diagram of the ONS 15216 EDFA2.
Chapter 1 Applications Key Features The ONS 15216 EDFA2 has the following key features: • Adjustable constant gain of 13 to 22 dB • Gain flattening < 2 dB (peak to valley) • Transient suppression • Low noise figure of < 7 dB at –5 dBm input • Simple Network Management Protocol (SNMP) MIBs • Transaction Language 1 (TL1) 1.3.1 Constant Gain Constant amplification (gain) per wavelength is important for ensuring that variations in power between channels at the receivers is minimized.
Chapter 1 Applications Key Features 1.3.3 Transient Suppression Transients in the performance of optical amplifiers are inevitable whenever the number of signals, or the relative power of signals, changes. The ONS 15216 EDFA2 uses transient suppression to reduce the amount of time required by an amplifier to recover from a change. This indicates the suitability of the amplifier for add/drop applications like those described earlier. 1.3.
C H A P T E R 2 Technical Specifications This chapter discusses the technical specifications for the Cisco ONS 15216 EDFA2. 2.1 Optical Specifications ONS 15216 EDFA2 optical specifications are listed and described in Table 2-1.
Chapter 2 Technical Specifications Optical Specifications 2.1.1 Maximum Input Power The ONS 15216 EDFA2 operates at a gain setting between 13 and 22 dB. Each gain setting has a maximum input power. The maximum input power is defined as 17 dBm (the maximum output power) minus the gain setting. For example, at a gain setting of 22 dB, the maximum input power is –5 dBm. At a gain setting of 13 dB, the maximum input power is 4 dBm.
Chapter 2 Technical Specifications Electrical Specifications Table 2-2 Maximum Channel Power (continued) Composite Input Power (dBm) 4 3 2 1 0 –1 –2 –3 –4 –5 Corresponding Max. Gain (dB) 13 14 15 16 17 18 19 20 21 22 Number of Channels at Full Loading Maximum per Channel Input Power at Maximum Gain Setting (dBm) 16 –8.0 –9.0 –10.0 –11.0 –12.0 –13.0 –14.0 –15.0 –16.0 –17.0 17 –8.3 –9.3 –10.3 –11.3 –12.3 –13.3 –14.3 –15.3 –16.3 –17.3 18 –8.6 –9.6 –10.
Chapter 2 Technical Specifications Mechanical Specifications 2.3 Mechanical Specifications Table 2-4 lists the ONS 15216 EDFA2 mechanical specifications. Table 2-4 ONS 15216 EDFA2 Mechanical Specifications Requirement Specification Dimensions (H x W x D) 1 3/4 in. x 17 3/16 in. x 11 in. (4.4 cm x 43.7 cm x 27.9 cm) Weight 5.45 lb (2.
Chapter 2 Technical Specifications Front Panel Figure 2-1 ONS 15216 EDFA2 Dimensions 17 3/16 in. Width 1 3/4 in. Height 71177 11 in. Dimension 2.5 Front Panel Figure 2-2 shows the ONS 15216 EDFA2 front panel in detail. The front panel provides an all-front access (fibers, power, alarm contact, and management interface) that complies with international standards.
Chapter 2 Technical Specifications Front Panel Table 2-5 ONS 15216 EDFA2 Front Panel Features Feature Description Terminal strip Terminal strip for supplying power to the ONS 15216 EDFA2. Attach AWG 18 stranded power wires to appropriate terminals. Threaded grounding holes Threaded grounding holes (#10-32) to ground the ONS 15216 EDFA2. Alarm Out RJ-45 connector used for alarm system connection. (See the “Alarm Out Relay Interface (RJ-45)” section on page 3-5 for additional information.
C H A P T E R 3 Installation 3.1 Introduction This chapter contains the installation procedures for the Cisco ONS 15216 EDFA2. The chapter is divided into the following sections: • Power (–48V A, RET A, –48V B, RET B, and chassis ground) • Optical (fiber input and output ports) • Communications (Alarm Out, LEDs, RS-232 (EIA/TIA-232), and LAN) 3.
Chapter 3 Installation Placement and Power Connection Warning • Mechanical Loading—Mounting of the equipment in the rack should be such that it avoids uneven mechanical loading. • Circuit Overloading—Consideration should be given to the connection of the equipment to the supply circuit and the effect that overloading of circuits might have on overcurrent protection and supply wiring. Appropriate consideration of equipment nameplate ratings should be used.
Chapter 3 Installation SC/UPC Optical Ports 3.4 SC/UPC Optical Ports SC/UCP optical ports are as follows: • Optical input signal to be amplified (INPUT) – Input must be between –27 dBm and +4 dBm • Optically amplified output (OUTPUT) • Optical monitored output signal (MONITOR OUT) – 1% tap of output or 20 dB below output signal 3.4.1 Safety Requirements Warning Procedures that require the fiber connections to be open must only be performed by service personnel trained in laser safety requirements.
Chapter 3 Installation SC/UPC Optical Ports Step 3 Step 4 Connect the second patchcord to TERMINAL OUTPUT. Measure and record the total optical power: a. DWDM/OADM output b. Terminal transmitter output If optical power at the end of the TERMINAL OUTPUT patchcord is less than or equal to +4 dBm, connect the end to the ONS 15216 EDFA2 input. If the optical power is greater than + 4 dBm, additional optical attenuation is required to bring optical power below + 4 dBm.
Chapter 3 Installation Communications 3.5 Communications The ONS 15216 EDFA2 can communicate in the following ways: • Alarm Out relay contacts (RJ-45) • Alarm LEDs • Serial interface (EIA/TIA-232) • Serial interface connected to a modem • LAN interface (RJ-45) 3.5.
Chapter 3 Installation Communications Step 2 Connect the alarm cable to the alarm system contacts: a. Cisco ONS 15454 medium-dependent interface (MDI) wire wrap pins b. Central office (CO) alarm panel Refer to Table 3-2 on page 3-5 for information concerning alarm contacts. Refer to Alarm LEDs, page 3-6 for information on the ONS 15216 EDFA2 alarm LEDs. 3.5.
Chapter 3 Installation Communications 3.5.2.3 LOS LED (Yellow) The loss of signal (LOS) LED is yellow. This LED functions as follows: • On: The optical input power to the ONS 15216 EDFA2 is below the loss of input threshold. (A LOS threshold decision occurs.) • Off: The optical input power is within the input threshold (or no –48 VDC power is present). In the on condition, the third pair of alarm relay contacts in the RJ-45 connector changes from a normally open condition to a closed condition.
Chapter 3 Installation Communications Step 5 In the Connect To dialog box (Figure 3-2), click Direct to Com1 in the Connect using field. Click OK. Figure 3-2 Step 6 HyperTerminal Connect To Dialog Box Configure the Port Settings in the COM1 Properties dialog box as shown in Figure 3-3 on page 3-9. The Port Settings must be configured as follows: • Bits per second—19200 • Data bits—8 • Parity—None • Stop bits—1 • Flow control—None Click OK when done.
Chapter 3 Installation Communications Figure 3-3 HyperTerminal COM1 Properties Dialog Box Step 7 In the HyperTerminal main window, click File > Properties. Step 8 Click Connect To tab in the Optical Amplifier Properties dialog box as shown in Figure 3-4. Figure 3-4 Optical Amplifier Properties Dialog Box (Connect To Tab) Step 9 Ensure that Direct to Com1 is selected in the Connect using field. Step 10 Click Settings (Figure 3-5 on page 3-10) and click ASCII Setup.
Chapter 3 Installation Communications Figure 3-5 Step 11 Configure the ASCII Setup window as shown in Figure 3-6. Click OK when done. Figure 3-6 Step 12 Optical Amplifier Properties Dialog Box (Settings Tab) HyperTerminal ASCII Setup Dialog Box Click OK to return to the main HyperTerminal window. The ONS 15216 EDFA2 login screen appears. The appearance depends on the shell the ONS 15216 EDFA2 is set to (TL1 is the default shell).
Chapter 3 Installation Communications 3.5.4 Serial Interface Remote Communication via Modem This section describes the procedure for establishing a remote dial-up connection to the ONS 15216 EDFA2. ONS 15216 EDFA2 remote communication requires two US Robotics 56K Fax modems set up to send data over a two-wire dial-up telephone line. (See Figure 3-7.) This section assumes the use of the US Robotics 56K Fax modem V.90.
Chapter 3 Installation Communications Table 3-4 Communication Component List (continued) Component Notes 1 RJ-11 to RJ-11 telephone cable For connection between the modem and PSTN dial-up telephone line. 1 PSTN dial-up telephone line 3.5.4.2 Modem Signals The only signals required for communication are TXD (transmit), RXD (receive), and SIGNAL GROUND. By adjusting the modem manufacturer settings, the other signals can be ignored. 3.5.4.
Chapter 3 Installation Communications Table 3-6 Modem Settings Modem Setting Description b0 ITU-T answer sequence e0 Echo off f1 Local echo off m1 Speaker on until CONNECT q1 Quiet mode; no results code v1 Verbal codes x1 Select result codes displayed y0 Use profile 0 setting in NVRAM &a3 Enable extra result codes &b1 Fixed DTE speed &c1 Normal CD operation &d0 DTR override &g0 No guard tone, U.S.
Chapter 3 Installation Communications Note Modem communication is not necessary unless dial-up remote communication is desired. 3.5.4.6 PC Connection via Modem The ONS 15216 EDFA2 and modem are connected through the RS-232 (EIA/TIA-232) port using a DB-9 connector. The modem, PC, and ONS 15216 EDFA2 should be physically set up as displayed in Figure 3-8. Use Figure 3-8 to properly connect the ONS 15216 EDFA2 to the modem.
Chapter 3 Installation Communications 3.5.5.1 LAN Connection Procedure Use the following procedure to configure the module to accept SNMP, CLI, and TL1 commands via its RJ-45 LAN port: Step 1 The ONS 15216 EDFA2 IP address is factory set at 0.0.0.0. The IP address must be set before the ONS 15216 EDFA2 can be accessed via the Ethernet port. See “Set IP Address” section on page 4-3. Step 2 Connect ONS 15216 EDFA2 to the network via the module LAN port.
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C H A P T E R 4 Provisioning Using ASH and SNMP This chapter discusses the provisioning procedures for the Cisco ONS 15216 EDFA2 using SNMP and a proprietary command line interface named the ASH shell. See Chapter 8, “Provisioning Using TL1” for provisioning information using TL1 commands in the TL1 shell. The provisioning procedure for the ONS 15216 EDFA2 in the ASH shell is as follows: 1. Log In via RS-232 (EIA/TIA-232) Port Using HyperTerminal, page 4-1 2. Set IP Address, page 4-3 3.
Chapter 4 Provisioning Using ASH and SNMP Log In via RS-232 (EIA/TIA-232) Port Using HyperTerminal Step 3 If you see the login window shown in Example 4-1 on page 4-2, skip to Step 4. By default the ONS 15216 EDFA2 is in TL1 shell, so this step may be required to proceed in ASH shell. When in TL1 shell, the screen opens to a simple prompt (sidtidname:ONS15216 EDFA2>).
Chapter 4 Provisioning Using ASH and SNMP Set IP Address 4.2 Set IP Address Before connecting the ONS 15216 EDFA2 to a LAN, it is mandatory to set the ONS 15216 EDFA2 IP address through a local serial communication interface using the RS-232 (EIA/TIA-232) port on the front of the module. Step 1 If you do not know the ONS 15216 EDFA2’s IP address, subnet mask, gateway address, or host name, contact your network administrator.
Chapter 4 Provisioning Using ASH and SNMP Set Date and Time Step 4 Log in again using Step 4 through Step 6 in “Log In via RS-232 (EIA/TIA-232) Port Using HyperTerminal” section on page 4-1. You are now connected to the ONS 15216 EDFA2 via Telnet. 4.4 Set Date and Time Use the snmp attribute set local cerent15216EdfaRtcDateAndTimeLocalString command to set the date, time, and time zone. Entries must follow this format: “yyyy-m-d,h:m:s.s +h:m”.
Chapter 4 Provisioning Using ASH and SNMP Set Gain The input power (signal) should be consistent with the input power measured during the optical connection procedure. See the “Optical Connection Procedure” section on page 3-3 for more information. The output power value should be 22 dB greater than the input, assuming that the default gain setting is 22 dB. Note An input power higher than –5 dBm will return a Gain Out of Range alarm that can be cleared by correctly setting the gain value.
Chapter 4 Provisioning Using ASH and SNMP Set Alarm Thresholds ONS 15216 EDFA2 Front Panel Fiber Fiber input output port port -48V A Status LEDs POWER FAIL LOS Alarm out ALARM OUT RS-232 CISCO ONS 15216 -48V B LAN RB RA -48V A RET A 71176 Figure 4-1 Fiber output monitor port Power level warning RS-232 LAN port (EIA/TIA-232) LAN LEDs -48V B RET B Alarms are reported for the following conditions: • Loss or degradation of electrical power • Laser pump overheating, excessive pump current
Chapter 4 Provisioning Using ASH and SNMP Set Alarm Thresholds Table 4-1 Alarm Threshold Attribute Definitions Attribute Variable Definition Syntax Maximum Access Description cerent15216Edfa CfgSaved Configurati True Value Read-only on saved status Indicates whether the current configuration has been saved. The value can be true or false. If false, the configuration is not saved.
Chapter 4 Provisioning Using ASH and SNMP Set Alarm Thresholds Table 4-1 Alarm Threshold Attribute Definitions (continued) Attribute Variable Definition Syntax Maximum Access Description Read-write Used to set the amount the input signal Integer must increase above the LOS Threshold (0 to 1000, level before the alarm is cleared. This 100 attribute, in conjunction with the loss of default) input signal alarm threshold, enables efficient clearing of alarms.
Chapter 4 Provisioning Using ASH and SNMP Set Alarm Thresholds Table 4-1 Alarm Threshold Attribute Definitions (continued) Attribute cerent15216Edfa CtmpMax Variable Definition Syntax Maximum Access Description Maximum Integer Read-write Alarm notifies operations personnel if case (20 to 70, the case temperature of the temperature 65 default) ONS 15216 EDFA2 is at a level that may impact proper operation of the optical network.
Chapter 4 Provisioning Using ASH and SNMP Set Password Table 4-1 Alarm Threshold Attribute Definitions (continued) Attribute Variable Definition cerent15216Edfa Power bus PowerBusDCVolt minimum ageMin voltage Syntax Integer (350 to 700, 400 default) Maximum Access Description Read-write Minimum allowable power bus DC voltage. The default minimum power bus voltage is set at –40 VDC. Valid entries are between 350 and 700 and are in negative volts times 10.
Chapter 4 Provisioning Using ASH and SNMP Add Users Password = **** New Password = ****** Confirm New Password = ****** Note The default user name for the administrator level is CISCO15 with no default password. To start a session for this user name, press Enter. 4.10 Add Users Use the user entry create command to add new users to the ONS 15216 EDFA2. The syntax is to enter the command followed by the user name and then the access level (read, read_write, read_write_admin) as shown in Example 4-10.
Chapter 4 Provisioning Using ASH and SNMP Log Off – cerent15216EdfaSromIpMgmtEnetSubNetMask – cerent15216EdfaSromIpMgmtDefaultRouterAddress – cerent15216EdfaSromIpMgmtHostName • BootTable attributes: – cerent15216EdfaBootModuleIndex – cerent15216EdfaBootEntryIndex – cerent15216EdfaBootType – cerent15216EdfaBootIpAddress – cerent15216EdfaBootFileName 4.12 Log Off At the end of a session, the user must log off of the ONS 15216 EDFA2. To log off, use the logoff command. This is shown in Example 4-12.
Chapter 4 Provisioning Using ASH and SNMP Restore System Configuration Step 2 If desired, use FTP to copy the file to a remote server. See “Example of FTP to a Remote Server” section on page 7-2. 4.14 Restore System Configuration The configuration information for the ONS 15216 EDFA2 can be restored form a file. During this process, all configuration information (such as alarm thresholds and pump mode) and the user database from the file are replaced in the ONS 15216 EDFA2 memory and FFS.
Chapter 4 Provisioning Using ASH and SNMP Recover Default Password 4.15 Recover Default Password If the root password for CISCO15 is lost, there is a procedure to reset it to regain full administrative control of the ONS 15216 EDFA2. The user must be connected to the ONS 15216 EDFA2 by serial communication, perform a hard power reset, and then performs a series of commands within 60 seconds of rebooting, according to the following procedure.
C H A P T E R 5 SNMP MIB Installation and Configuration This chapter explains how to read and understand SNMP MIB as it relates to the Cisco ONS 15216 EDFA2. This chapter is a reference of all ONS 15216 EDFA2 SNMP commands that are used in a network management system (NMS). For provisioning the ONS 15216 EDFA2, see Chapter 4, “Provisioning Using ASH and SNMP”. 5.
Chapter 5 SNMP MIB Installation and Configuration SNMP Overview 5.1.2 ONS 15216 EDFA2 SNMP Elements The following three SNMP elements are used with the ONS 15216 EDFA2: • SNMP agent • SNMP MIB • SNMP manager The SNMP elements are shown in Figure 5-1. Figure 5-1 SNMP Elements Management Entity Agent Agent Agent Management Database Management Database Management Database Managed Devices 33930 NMS 5.1.2.
Chapter 5 SNMP MIB Installation and Configuration SNMP Overview SNMP Agent and MIB NMS SNMP Manager Network device get, get-next, get-bulk get-response, traps MIB SNMP Agent 32632 Figure 5-2 5.1.2.2 SNMP MIB The SNMP MIBs (CERENT-15216-EDFA-MIB.mib and CERENT-GLOBAL-REGISTRY.mib) are files written in ASN.1 syntax. The CERENT-15216-EDFA-MIB.mib specifies what ONS 15216 EDFA2 information needs to be controlled and monitored. This MIB is pre-installed on the SNMP agent and is accessible via the CLI.
Chapter 5 SNMP MIB Installation and Configuration SNMP Overview The ONS 15216 EDFA2 SNMP agent communicates with an SNMP management application (a third-party application or the built-in SNMP manager) using SNMP messages. Table 5-1 describes SNMP operation types. Table 5-1 SNMP Operation Types Operation Description get-request Retrieves a value from a specific variable. get-next-request Retrieves the value following the named variable; this operation is often used to retrieve variables in a table.
Chapter 5 SNMP MIB Installation and Configuration Enabling SNMP Remote Management Community Strings Example 5-1 snmp Command Followed by the Tab Key ash:hostname:ONS15216 EDFA2> snmp agent attribute host mib pdu row session subtree table trap tree Continue to enter operations from the list until the complete command is created. (See Example 5-2.
Chapter 5 SNMP MIB Installation and Configuration Enabling SNMP Remote Management Community Strings • Creating a Community Entry, page 5-7 The ONS 15216 EDFA2 has the two default community strings listed in Table 5-2. Table 5-2 Default Community Strings Community String Default Privileges public read operations for all MIBs private read and write operations for all MIBs The privileges assigned to the default strings can be modified or new communities with custom privileges can be created. 5.2.
Chapter 5 SNMP MIB Installation and Configuration Enabling SNMP Remote Management Community Strings cerent15216EdfaViewIndex = 1; cerent15216EdfaViewSubtree = { sample }; cerent15216EdfaViewMask = '00'H; cerent15216EdfaViewType = included; cerent15216EdfaViewStatus = active; Access to the ONS 15216 EDFA2 can be restricted by IP address or community string using this command. Table 5-3 on page 5-7 describes the command and MIB view prompts.
Chapter 5 SNMP MIB Installation and Configuration Enabling SNMP Remote Management Community Strings After creating a view, use the snmp row set local cerent15216EdfaCommunityEntry command to create a community entry for that view. The SNMP manager prompts the user for each attribute. Press the Spacebar and then the Tab key after a prompt to view possible data inputs (Example 5-4). Refer to Table 5-4 on page 5-8 for information concerning data for each prompt.
Chapter 5 SNMP MIB Installation and Configuration Enabling SNMP Remote Management Community Strings 5.2.2.2 Display CommunityEntry Command snmp row display local cerent15216EdfaCommunityEntry Syntax Description snmp row display local cerent15216EdfaCommunityEntry community_index_# After creating a community string, use this command to view its parameters. The number in the command refers to the community index number created in the previous section.
Chapter 5 SNMP MIB Installation and Configuration Setup for CTM Access 5.3 Setup for CTM Access Use the following procedure to configure a new ONS 15216 EDFA2 for Cisco Transport Manager (CTM) access: Step 1 Log into the serial port. Use 19,000 bps, 8 bits, no parity, 1 stop, and no flow control over a male-to-female straight 9-pin cable.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups cerent15216EdfaCommTrapCommunity "private" cerent15216EdfaCommTrapDestIPAddress cerent15216EdfaCommTrapDestUDPPort 162 cerent15216EdfaCommTrapViewIndex 1 cerent15216EdfaCommTrapVersion v2 cerent15216EdfaCommTrapStatus 4 ash:hostname:ONS15216 EDFA2> snmp row set local cerent15216EdfaCommTrapEntry 2 cerent15216EdfaCommTrapCommunity "private" cerent15216EdfaCommTrapDestIPAddress cerent15216EdfaCommTr
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups 5.4.1 CfgGroup Table The cerent15216EdfaCfgGroup table is used to set or get alarm threshold configuration. The associated table command provides a summary of all alarm thresholds. See Table 5-6 for variable definitions. For more information on alarm thresholds, see the “Set Alarm Thresholds” section on page 4-5.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups Table 5-6 cerent15216EdfaCfgGroup Variable Descriptions (continued) Maximum Access Variable Syntax Description cerent15216EdfaCLEI Display String (0 to 10 characters) Read-only Indicates the factory setting of the Common Language Equipment Identifier (CLEI) code (established by Telcordia) of the Cisco ONS 15216 EDFA2. This attribute can be accessed but not changed by the user.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups 5.4.2 PumpCfgEntry Table The cerent15216EdfaPumpCfgEntry table is used to set or get laser pump control mode configuration. The associated table command displays a settings summary or allows you to set pumps. See Table 5-7 for variable definitions. The factory default pump control mode for the ONS 15216 EDFA2 is Constant Gain Temperature Compensated.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups To set the ONS 15216 EDFA2 to Constant Pump Current mode, use the following steps: Step 1 Set the pump value using cerent15216EdfaPumpCfgConstPumpCurrent attribute. a. Select pump 1. b. Set the value. Step 2 Repeat Step 1 for pump 2. Step 3 Set the pump mode of operation using cerent15216EdfaPumpCfgControlMode attribute. Step 4 a. Select pump 1. b. Set the mode. Repeat Step 3 for pump 2.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups For example, to change the value for Constant Pump Current mode, use the following steps: Step 1 Set the pump value using cerent15216EdfaPumpCfgConstPumpCurrent attribute. a. Select pump 1. b. Set the value. Step 2 Repeat Step 1 for pump 2. Step 3 Set the pump mode of operation using cerent15216EdfaPumpCfgControlMode attribute. Step 4 a. Select pump 1. b. Set the mode. Repeat Step 3 for pump 2.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups Table 5-8 Note cerent15216EdfaOverallStatusGroup Variable Descriptions Variable Syntax Maximum Access cerent15216EdfaInPoweruW Integer (0 to 99999) Read-only EDFA input power (*10 microW) cerent15216EdfaInPowerdBm Integer (–999999 to 999999) Read-only EDFA input power (*100 dBm) cerent15216EdfaOutPowermW Integer (0 to 999999) Read-only EDFA output power (*100 mW) cerent15216EdfaOutPowerdBm Integer (–99999 to 99999) Rea
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups 5.4.4 OverallControl Table The cerent15216EdfaOverallControl table allows the user to display and configure overall gain and pre-attenuation. Table 5-9 describes cerent15216EdfaOverallControl variables.
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups Table 5-10 cerent15216EdfaPumpStatusEntry Variable Descriptions (continued) Maximum Access Description Integer (0 to 9999) Read-only DC voltage (*10V) cerent15216EdfaPumpStatusInPoweruW Integer (0 to 99999) Read-only Input power (*10 microW) cerent15216EdfaPumpStatusInPowerdBm Integer Read-only Input power (*100 dBm) Variable Syntax cerent15216EdfaPumpStatusDCVoltage (–999999 to 999999) cerent15216EdfaPumpStatusOutPowermW
Chapter 5 SNMP MIB Installation and Configuration Tables and Groups Table 5-11 cerent15216EdfaAlarmEntry Variable Descriptions (continued) Maximum Access Variable Syntax cerent15216EdfaAlarmEnable Status cerent15216EdfaControl Description Read-write If the alarm is enabled/disabled. cerent15216EdfaAlarmDateAn cerent15216EdfaDateAndTime Read-only dTime String The local date and time when the alarm entered its current state. 5.4.
Chapter 5 SNMP MIB Installation and Configuration Setting Up Traps Table 5-12 cerent15216EdfaOpGroup Variable Descriptions (continued) Maximum Access Variable Syntax Description cerent15216EdfaOpSrcFile Name DisplayString (0 to 127 Read-write Source file name for the Load characters) operation. cerent15216EdfaOpTftpSrv Addr IpAddress cerent15216EdfaOpReset cerent15216EdfaAction Read-write When “perform” is written to this object, a software reset is performed.
Chapter 5 SNMP MIB Installation and Configuration Setting Up Traps Table 5-14 Notification Types that Initiate a Trap Notification MIB Items Description cerent15216EdfaAlarmActivated “Alarm Activate” is a notification indicating an cerent15216EdfaAlarmPrioriy alarm has changed to an cerent15216EdfaAlarmDateAndTime active state.
Chapter 5 SNMP MIB Installation and Configuration Setting Up Traps 5.5.2 Set Trap Command Command snmp row set local cerent15216EdfaCommTrapEntry Syntax Description snmp row set local cerent15216EdfaCommTrapEntry # The command followed by a community number permits the user to set the parameters for the SNMP trap. Example 5-9 on page 5-23 displays the prompts that appear after entering the command.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.5.4 Get Agent Trap Enable Command snmp attribute get local cerent15216EdfaAgentTrapEnable Syntax Description snmp attribute get local cerent15216EdfaAgentTrapEnable Gets the SNMP enable trap status. The system responds with either “enabled” or “disabled”. 5.6 Retrieving Information The following SNMP commands access ONS 15216 EDFA2 information. 5.6.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information Table 5-15 cerent15216EdfaSromIpMgmtGroup Command Attributes Attribute Description cerent15216EdfaSromIpMgmtEnetAddress The IP address used by the system Ethernet management port. If set to 0.0.0.0, IP traffic is not supported over the Ethernet interface. cerent15216EdfaSromIpMgmtDefaultRouterAd The default router (gateway) address for the dress network.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information Table 5-16 cerent15216EdfaRtcDateAndTime Command Attributes Attribute Description cerent15216EdfaRtcDateAndTimeLocal The current local time. cerent15216EdfaRtcDateAndTimeGMT The current GMT time. cerent15216EdfaRtcDateAndTimeLocalString The current local time. cerent15216EdfaRtcDateAndTimeGMTString The current GMT time. cerent15216EdfaRtcDateAndTimeTimezone The time zone in hours from GMT.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.4 Case Temperature 5.6.4.1 Case Temperature Value Command snmp attribute get local cerent15216EdfaPumpStatusAmbientTemp Syntax Description snmp attribute get local cerent15216EdfaPumpStatusAmbientTemp pump# Displays case temperature value (where pump# is the pump number).
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.4.2.2 CtmpMax snmp attribute get local cerent15216EdfaCtmpMax Syntax Description snmp attribute get local cerent15216EdfaCtmpMax This command displays maximum case temperature alarm threshold. The following command displays case temperature alarm threshold and other temperature data: • snmp row display local cerent15216EdfaCfgGroup command This command is shown in Example 5-14.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.4.3.2 CtmpMinHysteresis Command snmp attribute get local cerent15216EdfaCtmpMinHysteresis Syntax Description snmp attribute get local cerent15216EdfaCtmpMinHysteresis Displays the minimum case hysteresis temperature alarm threshold.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.5.2.2 PowerBusDCVoltageMin Command snmp attribute get local cerent15216EdfaPowerBusDCVoltageMin Syntax Description snmp attribute get local cerent15216EdfaPowerBusDCVoltageMin Displays the minimum allowable power bus DC voltage (multiplied by –10V). The following command displays power bus voltage and other data: • snmp row display local cerent15216EdfaCfgGroup command 5.6.6 Input Power (Signal) 5.6.6.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.6.2 Loss of Signal (Input Power) Alarm Threshold Command snmp attribute get local cerent15216EdfaLOSThreshold Syntax Description snmp attribute get local cerent15216EdfaLOSThreshold Displays the loss of signal (input power) alarm threshold.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information Displays output power value in milliwatts. The snmp row display local cerent15216EdfaOverallStatusGroup command displays the ONS 15216 EDFA2 output power value and additional pump status. For information about all of the parameters in the cerent15216EdfaOverallStatusGroup table, refer to Table 5-8 on page 5-17. 5.6.7.1.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information 5.6.7.2.2 LpoutDeviation Command snmp attribute get local cerent15216EdfaLpoutDeviation Syntax Description snmp attribute get local cerent15216EdfaLpoutDeviation This attribute is not required when operating in factory default Constant Gain Temperature Compensated mode. Setting of the loss of output power alarm deviation is only necessary when the amplifier is used in Constant Output Power mode.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information cerent15216EdfaCLEI = "WMAW27VLAA"; cerent15216EdfaPowerBusMode = duplex; cerent15216EdfaPowerBusDCVoltageMin = 420; cerent15216EdfaPowerBusDCVoltageMax = 700; }; Changes must be saved before terminating the session. See the “Save Changes” section on page 4-11. 5.6.7.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information The backup file is saved with cyclic redundancy code (CRC) to ensure data integrity, and the user names, passwords, and other system settings are encrypted for security. Only the configuration information and user database are copied back to the ONS 15216 EDFA2 during a restore. 5.6.8.1 Database Backup Procedure Step 1 Back up the system configuration to a file (in this case, dbbkup) on the FFS: a.
Chapter 5 SNMP MIB Installation and Configuration Retrieving Information Step 1 Restore from the backup database from a file (in this case, dbbkup) on the FFS: a. Set cerent15216EdfaOpDbFileName = "dbbkup". b. Set cerent15216EdfaOpRequestId = 1. c. Set cerent15216EdfaOpDbRestore = 2. d. Wait until cerent15216EdfaOpStatus goes from inprogress to idle. e. Verify that cerent15216EdfaOpResult is 0. Step 2 Save the changes by setting cerentEdfa15216OpSaveConfig = 2.
Chapter 5 SNMP MIB Installation and Configuration Summary of SNMP Alarms For information about all of the parameters in the cerent15216EdfaAlarmEntry table, refer to Table 5-11 on page 5-19. 5.7 Summary of SNMP Alarms Table 5-17 summarizes the ONS 15216 EDFA2 SNMP alarms. Table 5-17 SNMP Alarms Alarm Index Alarm ID Description Priority 1 lcrnt1 Excessive pump current for pump 1. Drive current Minor greater than 95% of end of life value.
Chapter 5 SNMP MIB Installation and Configuration Summary of SNMP Alarms Cisco ONS 15216 EDFA2 Operations Guide 5-38 78-16033-01
6 C H A P T E R ASH Commands ASH commands are available in the ASH shell command line interface. ASH commands consist of proprietary commands and command-line SNMP instructions. This chapter is a reference of ASH commands that are used in advanced setup and troubleshooting. For provisioning the Cisco ONS 15216 EDFA2 using ASH commands, see Chapter 4, “Provisioning Using ASH and SNMP.
Chapter 6 ASH Commands Summary of Security Permissions for ASH Commands Table 6-1 ASH Commands Security Permissions (Access Levels) (continued) User Access Levels Command Description R RW RWA ffs format Formats flash file system. No Yes Yes ffs status display Displays current flash file system status. No Yes Yes ffs tftp get Copies TFTP file to flash file system. No Yes Yes ffs tftp put Copies flash file to TFTP file system.
Chapter 6 ASH Commands Summary of Security Permissions for ASH Commands Table 6-1 ASH Commands Security Permissions (Access Levels) (continued) User Access Levels Command Description R RW RWA manufacturer restore defaults passwords Restores manufacturer password defaults. See manufacturer restore defaults passwords Command, page 6-32. No No Yes network host ftp FTPs to remote host. See FTP Command Line, page 7-1 No Yes Yes network host ping Pings remote host.
Chapter 6 ASH Commands Summary of Security Permissions for ASH Commands Table 6-1 ASH Commands Security Permissions (Access Levels) (continued) User Access Levels Command Description R RW RWA snmp attribute set Sets an attribute. See snmp attribute set Command, page 6-17. No Yes Yes snmp host ip get Gets the IP address from host name. No Yes Yes snmp host name get Gets the host name from IP address. No Yes Yes snmp mib display Displays a MIB.
Chapter 6 ASH Commands Summary of Security Permissions for ASH Commands Table 6-1 ASH Commands Security Permissions (Access Levels) (continued) User Access Levels Command Description R RW RWA snmp tree attribute list Lists the attributes in the MIB. See snmp tree attribute list Command, page 6-25. No Yes Yes snmp tree mib list Lists the MIBs in the MIB tree. No Yes Yes snmp tree oid display Displays object identifier (OID) for a MIB tree object.
Chapter 6 ASH Commands Configuration Commands Table 6-1 ASH Commands Security Permissions (Access Levels) (continued) User Access Levels Command Description R RW RWA user inactivity modify Modifies user inactivity time. See user inactivity modify and user inactivity display Commands, page 6-28. No No Yes user name display Displays the user name. See user file display and user name display Commands, page 6-27. Yes Yes Yes user passwd set Sets the user password.
Chapter 6 ASH Commands Configuration Commands Example 6-1 srom cfg boot display Command ash:hostname:ONS15216 EDFA2> srom cfg boot display Boot Count 2 Boot Record 0 type 2 Flash IP Address 0.0.0.0 Filename 15216EdfaSw_x.x.x_bin Boot Record 1 type 2 Flash IP Address 0.0.0.0 Filename 15216EdfaSw_y.y.y_bin CRC-32 8bd3cb56 6.2.2 srom cfg boot modify Command Command srom cfg boot modify Syntax Description srom cfg boot modify Modifies the contents of the ROM boot. See Example 6-2.
Chapter 6 ASH Commands Configuration Commands Example 6-3 srom cfg ip display Command ash:hostname:ONS15216 EDFA2> srom cfg ip display Shelf ID = 1 IP Address = 192.168.60.168 Subnet Mask = 255.255.255.0 Default Router IP Address = 192.168.60.254 Hostname = hostname SW Config = 0x00000000 CRC32 = 0x54f863a2 6.2.4 srom cfg ip modify Command Command srom cfg ip modify Syntax Description srom cfg ip modify Modifies the serial ROM IP contents.
Chapter 6 ASH Commands Configuration Commands 6.2.6 pdm busmode modify Command Command pdm busmode modify Syntax Description pdm busmode modify {simplex | duplex} Modifies power bus mode to simplex (single power source–Bus A) or duplex (redundant power source–Bus A and B). 6.2.7 pdm cfg threshold bus display Command Command pdm cfg threshold bus display Syntax Description pdm cfg threshold bus display Displays the minimum and maximum allowable power bus DC voltage.
Chapter 6 ASH Commands Administrative Commands Syntax Description gain gain display Displays the gain setting for the ONS 15216 EDFA2. Example 6-7 gain gain display Command ash:hostname:ONS15216 EDFA2> gain gain display Target = 22000(mdB), Actual = 21985(mdB) 6.2.10 gain gain modify Command Command gain gain modify Syntax Description gain gain modify value Modifies the gain setting for the ONS 15216 EDFA2.
Chapter 6 ASH Commands Administrative Commands 6.3.1 clear Command Command clear Syntax Description clear Clears content from the terminal window. An empty screen with a cursor appears. 6.3.2 exit Command Command exit Syntax Description exit Ends the session with the ONS 15216 EDFA2. 6.3.3 help Command Command help Syntax Description help Displays a list of all CLI commands for current user security level. 6.3.
Chapter 6 ASH Commands Shell Commands user entry create user entry delete albert user file display user name display user passwd set help history 6.3.5 login and logoff Commands Command login or logoff Syntax Description login or logoff Used to access and exit communication with the ONS 15216 EDFA2. Logging into the module requires both a user name and a password. Only use these commands if you have stopped the booting process or are displaying the format for logging into the module.
Chapter 6 ASH Commands Shell Commands 6.4.1 shell lines set Command Command shell lines set Syntax Description shell lines set #lines Sets the number of lines that can be viewed on the screen without pressing Enter. 40 lines per screen is recommended (maximum is 999). 6.4.
Chapter 6 ASH Commands Flash File System Commands Syntax Description shell type modify {tl1 | ash} Sets the shell type to TL1 or ASH for the ONS 15216 EDFA2’s RS-232 (EIA/TIA-232) port (accessed via HyperTerminal) and the default TCP/IP port on the ONS 15216 EDFA2’s LAN port (accessed via Telnet). The default is TL1. This command requires a system reboot using the processor reset command for changes to take effect. To return to the ASH shell from the TL1 shell, use the command ED-NE-GEN. (See Step 3.
Chapter 6 ASH Commands SNMP Commands 6.6 SNMP Commands The SNMP commands are useful in working with the SNMP protocol to provision and configure the ONS 15216 EDFA2. When issuing these SNMP commands, the command syntax requires that the command must be followed by either the ONS 15216 EDFA2 IP address or the word “local”.
Chapter 6 ASH Commands SNMP Commands Example 6-14 snmp attribute get Command List ash:hostname:ONS15216 EDFA2> snmp attribute get local cerent cerent15216EdfaCommIndex cerent15216EdfaCommName cerent15216EdfaCommViewIndex cerent15216EdfaCommPrivileges cerent15216EdfaCommSrcIPAddr cerent15216EdfaCommNetMask cerent15216EdfaCommStatus cerent15216EdfaCommTrapIndex cerent15216EdfaCommTrapCommunity cerent15216EdfaCommTrapDestIPAddress cerent15216EdfaCommTrapDestUDPPort cerent15216EdfaCommTrapViewIndex cerent152
Chapter 6 ASH Commands SNMP Commands 6.6.3 snmp attribute set Command Command snmp attribute set Syntax Description snmp attribute set {IP_address | local} attribute_name index new_value Sets the attribute for a MIB item. Type the command, the first few letters of the attribute, and press Tab to view a list of attributes that can be set. See Example 6-16.
Chapter 6 ASH Commands SNMP Commands 6.6.5 snmp mib get Command Command snmp mib get Syntax Description snmp mib get {IP_address | local} Displays all MIB attributes. The data is output in two columns. The first column lists the attributes and indices and the second column lists the data. See Example 6-17.
Chapter 6 ASH Commands SNMP Commands sysORLastChange.0 = 135; sysORID.1 = { snmpBasicCompliance }; sysORID.2 = { rs232Compliance }; sysORDescr.1 = ""; sysORDescr.2 = ""; sysORUpTime.1 = 355925; sysORUpTime.2 = 355925; ifNumber.0 = 3; ifIndex.300 = 300; ifIndex.302 = 302; ifIndex.350 = 350; ifDescr.300 = "Intra-machine interface"; ifDescr.302 = "Ethernet Interface"; ifDescr.350 = "RS232 Interface"; ifType.300 = softwareLoopback; ifType.302 = ethernetCsmacd; ifType.350 = rs232; ifMtu.300 = 0; ifMtu.
Chapter 6 ASH Commands SNMP Commands cerent15216EdfaCtmpMin = 5; cerent15216EdfaCtmpMinHysteresis = 1; cerent15216EdfaCtmpMax = 65; cerent15216EdfaCtmpMaxHysteresis = 1; cerent15216EdfaCLEI = "CLEI"; cerent15216EdfaPowerBusMode = duplex; cerent15216EdfaPowerBusDCVoltageMin = 480; cerent15216EdfaPowerBusDCVoltageMax = 570; 6.6.8 snmp row get Command Command snmp row get Syntax Description snmp row get {IP_address | local} row_name index Accesses a row.
Chapter 6 ASH Commands SNMP Commands 6.6.10 snmp subtree display Command Command snmp subtree display Syntax Description snmp subtree display {IP_address | local} subtree Displays the attributes below a node in a SNMP tree. See Example 6-22. Example 6-22 snmp subtree display Command ash:hostname:ONS15216 EDFA2> snmp subtree display local cerent15216EdfaCommunityEntry BEGIN-HOST "testhost" 0.0.0.0 "private" CLASS CERENT-15216-EDFA-MIB.
Chapter 6 ASH Commands SNMP Commands sysORDescr sysORUpTime index sysORIndex attributes sysORID sysORDescr sysORUpTime "" 391985 2 rs232Compliance "" 391990 3 index ifIndex attributes ifDescr ifType ifMtu ... 300 "Intra-machine interface" softwareLoopback 0 6.6.12 snmp subtree list Command Command snmp subtree list Syntax Description snmp subtree list {IP_address | local} Lists the attributes below a node in a SNMP tree. See Example 6-24.
Chapter 6 ASH Commands SNMP Commands Addr 00059a383d10"; sysObjectID.0 = { cerent15216EdfaNode }; sysUpTime.0 = 35913255; sysContact.0 = ""; sysName.0 = "sysname"; sysLocation.0 = ""; sysServices.0 = 0; sysORLastChange.0 = 120; sysORID.1 = { snmpBasicCompliance }; ... 6.6.13 snmp table display Command Command snmp table display Syntax Description snmp table display {IP_address | local} Displays table data for the ONS 15216 EDFA2. Example 6-25 displays the command entered without a table.
Chapter 6 ASH Commands SNMP Commands sysLocation = ""; sysServices = 0; sysORLastChange = 120; }; 6.6.14 snmp table get Command Command snmp table get Syntax Description snmp table get {IP_address | local} table Accesses table data. See Example 6-26. Example 6-26 snmp table get Command ash:hostname:ONS15216 EDFA2> snmp table get local system attributes sysDescr "hostname, Hardware Rev A1, ONS15216 EDFA2, v2.3.
Chapter 6 ASH Commands User Commands 6.6.16 snmp tree attribute list Command Command snmp tree attribute list Syntax Description snmp tree attribute list Lists all the attributes implemented by the SNMP agent. See Example 6-28.
Chapter 6 ASH Commands User Commands 6.7.1 user entry create Command Command user entry create Syntax Description user entry create name user_mode Creates a new user. The parameters required to create a new user are user name, access level, and password. The user_mode (access privilege level) is set by entering either read, read_write, or read_write_admin. See Table 6-1 on page 6-1 for the command privileges of each user level.
Chapter 6 ASH Commands User Commands Example 6-31 user entry edit Command (Change Access Level) ash:hostname:ONS15216 EDFA2> user entry edit jsmith -user_mode read_write New Password = Confirm New Password = 6.7.3 user entry delete Command Command user entry delete Syntax Description user entry delete username Delete users. See Example 6-32. Example 6-32 user entry delete Command ash:hostname:ONS15216 EDFA2> user entry delete jdoe 6.7.
Chapter 6 ASH Commands User Commands 6.7.5 user inactivity modify and user inactivity display Commands Command user inactivity modify or user inactivity display Syntax Description user inactivity modify levelvalue or user inactivity display Inactivity is the length of time of user inactivity before the user is automatically logged off. Type the user inactivity modify command to change the inactivity values. Type the user inactivity display command to display the current inactivity values.
Chapter 6 ASH Commands User Commands New Password = ****** Confirm New Password = ****** Note The default user name for the administrator level is CISCO15 with no default password. To start a session for this user name, press Enter. 6.7.7 user active list Command Command user active list Syntax Description user active list Displays a list of the active users. See Example 6-38. Example 6-38 user active list Command ash:hostname:ONS15216 EDFA2> user active list Users CISCO15 6.7.
Chapter 6 ASH Commands Manufacturing Information Access Commands 6.8 Manufacturing Information Access Commands 6.8.1 snmp table display local entPhysicalEntry Command Command snmp table display local entPhysicalEntry Syntax Description snmp table display local entPhysicalEntry Displays the entity information. See Example 6-40. Example 6-40 snmp table display local entPhysicalEntry Command ash:hostname:ONS15216 EDFA2> snmp table display local entPhysicalEntry CLASS ENTITY-MIB.
Chapter 6 ASH Commands Restore Commands cerent15216EdfaCommTrapIndex = 1; cerent15216EdfaCommTrapCommunity = "private"; cerent15216EdfaCommTrapDestIPAddress = 172.22.87.50; cerent15216EdfaCommTrapDestUDPPort = 162; cerent15216EdfaCommTrapViewIndex = 1; cerent15216EdfaCommTrapVersion = v2; cerent15216EdfaCommTrapStatus = active; }; CLASS CERENT-15216-EDFA-MIB.
Chapter 6 ASH Commands Manufacturer Mode 6.10 Manufacturer Mode A manufacturer mode enable command is available. It raises the root access level to the fifth and highest manufacturer level to allow undocumented commands that are used only for manufacturing purposes. Warning Customers are strongly cautioned not to use this mode. 6.10.
C H A P T E R 7 FTP Command Line This chapter discusses the Cisco ONS 15216 EDFA2 FTP command line and explains how to get and send image and configuration files between an FTP server and the ONS 15216 EDFA2. 7.1 FTP Command Line To start an FTP session, use the following command: ash:hostname:ONS15216 EDFA2> network host ftp FTP_server_IP_address To log off, type quit at the FTP command line. This command disconnects the user from the remote server and exits the FTP shell. 7.1.
Chapter 7 FTP Command Line FTP Command Line Step 5 At the ftp prompt, enter the following command: ftp> type i The ONS 15216 EDFA2 should respond as follows: type set to BINARY Step 6 At the ftp prompt, get the file from the remote server using the following command: ftp> get 15216EdfaSw_2.x.x When the command is entered, the file transfer begins. When the file transfer is complete, the following information should be displayed: Bytes received: 1963195 Transfer complete.
Chapter 7 FTP Command Line FTP Commands Step 4 At the ftp prompt, change directories to where the file is to be placed using the following command: ftp> cd /Directory_of_FTP_site Step 5 At the ftp prompt, enter the following command: ftp> type i The ONS 15216 EDFA2 should respond as follows: type set to BINARY Step 6 At the ftp prompt, put the file on the remote server using the following command: ftp> put bkupfilename.txt When the command is entered, the file transfer begins.
Chapter 7 FTP Command Line FTP Commands Cisco ONS 15216 EDFA2 Operations Guide 7-4 78-16033-01
C H A P T E R 8 Provisioning Using TL1 This chapter discusses the provisioning procedures for the Cisco ONS 15216 EDFA2 using TL1 commands in the TL1 shell. See Chapter 4, “Provisioning Using ASH and SNMP” for provisioning information using command-line SNMP and proprietary commands in the ASH shell. The provisioning procedure for the ONS 15216 EDFA2 in the TL1 shell is as follows: 1. Log In via RS-232 (EIA/TIA-232) Port Using HyperTerminal, page 8-1 2. Set IP Address, page 8-3 3.
Chapter 8 Provisioning Using TL1 Log In via RS-232 (EIA/TIA-232) Port Using HyperTerminal If the ONS 15216 EDFA2 has been set to ASH shell, this step may is be required to proceed in TL1 shell. When in ASH shell, the screens opens to a multi-line login screen beginning with -- LOGIN--- and with the cursor positioned in the Username line.
Chapter 8 Provisioning Using TL1 Set IP Address 8.2 Set IP Address Before connecting the ONS 15216 EDFA2 to a LAN, it is mandatory to set the ONS 15216 EDFA2 IP address through a local serial communication interface using the RS-232 (EIA/TIA-232) port on the front of the module. Step 1 If you do not know the ONS 15216 EDFA2’s IP address, subnet mask, gateway address, or sid/tid name, contact your network administrator.
Chapter 8 Provisioning Using TL1 Set Date and Time 8.4 Set Date and Time Use the ED-DAT command (see “ED-DAT” section on page 9-16) to set the date and time. A time zone cannot be set using TL1. The time setting is restricted to universal coordinated time (UTC) according to the following syntax: ED-DAT:[]::::,; The utcdate and utctime entries must follow this format: yyyy-mm-dd,hh-mm-ss. See Example 8-4.
Chapter 8 Provisioning Using TL1 Set Gain The input power should be consistent with the input power measured during the optical connection procedure. See the “Optical Connection Procedure” section on page 3-3 for more information. The output power value should be 22 dB greater than the input, assuming that the default gain setting is 22 dB. Note An input power higher than –5 dBm will return a Gain Out of Range alarm that can be cleared by correctly setting the gain value.
Chapter 8 Provisioning Using TL1 Set Alarm Thresholds ONS 15216 EDFA2 Front Panel Fiber Fiber input output port port Status LEDs -48V A POWER FAIL LOS Alarm out ALARM OUT RS-232 CISCO ONS 15216 -48V B LAN RB RA -48V A RET A Fiber output monitor port Power level warning RS-232 LAN port (EIA/TIA-232) LAN LEDs 71176 Figure 8-1 -48V B RET B Alarms are reported for the following conditions: • Degradation of electrical power source • Laser pump overheating or excessive pump current • Los
Chapter 8 Provisioning Using TL1 Set Alarm Thresholds M sidtidname 2002-07-11 11:16:10 125 COMPLD "EQPT:MAXCTMP,,,65" "EQPT:MAXCTMPHYST,,,5" "EQPT:MINCTMP,,,10" "EQPT:MINCTMPHYST,,,2" ; To set the alarm thresholds, use the SET-TH-DWDM and SET-TH-EQPT commands (see “SET-TH-DWDM” section on page 9-61 and “SET-TH-EQPT” section on page 9-63). Alarm threshold attributes are described in Table 8-1.
Chapter 8 Provisioning Using TL1 Set Alarm Thresholds Table 8-1 Alarm Threshold Attribute Definitions (continued) Attribute Variable Definition Syntax Maximum Access Description LOSHYST Loss of signal Integer Read-write Used to set the amount the input signal (input power) (0 to 1000) must increase above the LOS hysteresis Threshold level before the alarm is cleared. This attribute, in conjunction with the loss of input signal alarm threshold, enables efficient clearing of alarms.
Chapter 8 Provisioning Using TL1 Set Alarm Thresholds Table 8-1 Alarm Threshold Attribute Definitions (continued) Attribute MAXCTMP Variable Definition Maximum case temperature Syntax Maximum Access Description Integer (20 to 70) Read-write Alarm notifies operations personnel if the case temperature of the ONS 15216 EDFA2 is at a level that may impact proper operation of the optical network.
Chapter 8 Provisioning Using TL1 Set Password Table 8-1 Alarm Threshold Attribute Definitions (continued) Variable Definition Attribute MINCTMPHYST Minimum case temperature hysteresis Syntax Integer (0 to 10) Maximum Access Description Read-write Used to set the amount that the case temperature of the module must rise above the minimum case temperature alarm level before the alarm is cleared.
Chapter 8 Provisioning Using TL1 Add Users 8.10 Add Users Use the ENT-USER-SECU command (see “ED-USER-SECU” section on page 9-21) to add new users to the ONS 15216 EDFA2 according to the following syntax: ENT-USER-SECU:[]::::,,[:]; The uid is the user name, pid is the password, and al is the access level (R, RW, RWA). Passwords must be an ASCII string of up to 10 characters, where at least 2 are non-alphabetic characters with at least one special character.
Chapter 8 Provisioning Using TL1 Restore System Configuration /* CPY-MEM */ ; Step 2 If desired, use the COPY-RFILE command to copy the file to a remote server. See “COPY-RFILE” section on page 9-12. 8.13 Restore System Configuration The configuration information for the ONS 15216 EDFA2 can be restored form a file. During this process, all configuration information (such as alarm thresholds and pump mode) and the user database from the file are replaced in the ONS 15216 EDFA2 memory and FFS.
C H A P T E R 9 TL1 Commands 9.1 Introduction This chapter provides the details of TL1 commands supported by the Cisco ONS 15216 EDFA2. This chapter also maps various TL1 command parameters to their SNMP counterpart attributes in the ONS 15216 EDFA2 MIB (CERENT-15216-EDFA-MIB.mib). 9.2 Connection to the ONS 15216 EDFA2 The ONS 15216 EDFA2 system supports up to ten simultaneous Telnet connections via the Ethernet LAN port.
Chapter 9 TL1 Commands Notation 9.3.2 Command Code Modifier (ccm) The command code modifier (ccm) identifies the object of the action being applied by the verb of the TL1 command. Some command code modifiers for the ONS 15216 EDFA2 are described in Table 9-1. Table 9-1 Command Code Modifiers ccm Description DWDM Optical parameters. ENV Environmental (power bus) parameters. EQPT General parameters of the ONS 15216 EDFA2. INV Inventory parameters. NE-GEN IP communications parameters. 9.3.
Chapter 9 TL1 Commands Summary of Autonomous Alarms and Messages Table 9-3 TL1 Notation Symbols Symbol Meaning Description [] Optional expression Square brackets indicate the parameters are optional. An optional parameter means that if a user inputs an empty field for an optional parameter, then a default value (or a default action) will be substituted automatically in the transmitted input field. The default value, or null value, is defined in the parameter descriptions of the messages.
Chapter 9 TL1 Commands Summary of Autonomous Alarms and Messages 1. The messages for Loss of Signal (LOS), Gain Out of Range (GAIN), and Loss of Output Power (LPOUT) are prioritized (in the order just listed) so that only one message can be delivered at one time. For example, if the ONS 15216 EDFA2 detects both a loss of input signal and a loss of output power at the same time, it will deliver only the Loss of Signal (LOS) message to the user.
Chapter 9 TL1 Commands Summary of Autonomous Alarms and Messages Table 9-5 TL1 Autonomous Events (continued) TL1 Autonomous Message Condition Type (condtype) Condition Descriptor (conddescr) Access Identifier (aid) Condition Effect (condeff) REPT EVT EQPT SOFTWARELOAD (New) Software Load EQPT TC REPT EVT EQPT SOFTWARERESET Software Reset EQPT TC Table 9-6 on page 9-5 summarizes the ONS 15216 EDFA2 file transfer events.
Chapter 9 TL1 Commands Summary of Security Permissions for TL1 Commands 9.6 Summary of Security Permissions for TL1 Commands Table 9-8 summarizes the security permissions (access levels) for each available TL1 command and autonomous message. Table 9-8 TL1 Commands and Messages Security Permissions (Access Levels) User Access Levels Command or Message Description R RW RWA ACT-USER Activates user session (login). See ACT-USER, page 9-9. Yes Yes Yes ALW-MSG-ALL Allows automatic (REPT) messages.
Chapter 9 TL1 Commands Summary of Security Permissions for TL1 Commands Table 9-8 TL1 Commands and Messages Security Permissions (Access Levels) (continued) User Access Levels Command or Message Description R RW RWA REPT ALM DWDM Message that reports optical alarm activation/clearing. See REPT ALM DWDM, page 9-25. Yes Yes Yes REPT ALM ENV Message that reports power-bus alarm activation/clearing. See REPT ALM ENV, page 9-27.
Chapter 9 TL1 Commands Summary of Security Permissions for TL1 Commands Table 9-8 TL1 Commands and Messages Security Permissions (Access Levels) (continued) User Access Levels Command or Message Description R RW RWA RTRV-ENV Retrieves power bus mode. See RTRV-ENV, page 9-50. Yes Yes Yes RTRV-HDR Retrieves header (pings NE). See RTRV-HDR, page 9-51. Yes Yes Yes RTRV-INV Retrieves inventory parameters. See RTRV-INV, page 9-51.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7 TL1 Commands and Autonomous Messages 9.7.1 ACT-USER Command ACT-USER Activates user session (login). Syntax ACT-USER:[]::::; Example 9-1 ACT-USER Command Amp01:ONS15216 EDFA2> ACT-USER:Amp01:JOE:123::***; Table 9-9 ACT-USER Syntax Description Parameter Syntax Description uid string The user’s identifier (user name). Can be any combination of up to 10 alphanumeric characters.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-10 ALW-MSG-ALL Syntax Description Parameter Syntax ntfncde Description Notification code of the alarm or event that is to be allowed (maps to cerent15216EdfaAlarmPriority for active alarms). A null maps to none of the codes, i.e., with a null, all existing ntfncde inhibitions are kept unchanged. Possible values are: CR Critical alarm. MJ Major alarm. MN Minor alarm. NA No alarm. CL Cleared alarm.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-10 ALW-MSG-ALL Syntax Description (continued) Parameter Syntax Description GAINCHGD “Overall Gain Changed” (cerent15216EdfaConstGainOverallGain). LOSHYSTCHGD “LOS (loss of signal) Hysteresis Changed” (cerent15216EdfaLOSHysteresis). LOSTHCHGD “LOS (loss of signal) Threshold Changed” (cerent15216EdfaLOSThreshold). LPOUTCHGD “Loss of Output Power Setpoint Changed” (cerent15216EdfaLpoutSetpoint).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Syntax APPLY:[]::; Example 9-3 APPLY Command Amp01:ONS15216 EDFA2> APPLY:Amp01::1234; 9.7.4 CANC-USER Command CANC-USER Cancels user session (logoff). Syntax CANC-USER:[]::; Example 9-4 CANC-USER Command Amp01:ONS15216 EDFA2> CANC-USER:Amp01:JOE:100; Table 9-11 CANC-USER Syntax Description Parameter Syntax Description uid string The user’s identifier (user name). 9.7.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages A 7 REPT EVT FXFR EQPT:15216EdfaSw_2.2.1,START,, ; A Amp01 2002-04-30 11:35:24 8 REPT EVT FXFR EQPT:15216EdfaSw_2.2.1,COMPLD,SUCCESS,1963195 ; Table 9-12 COPY-RFILE Syntax Description Parameter Syntax type src, dest Description Specifies the type and direction of transfer. Possible values are: RFR Restore a file from remote server to the ONS 15216 EDFA2’s flash file system.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.6 CPY-MEM Command CPY-MEM Copies the log file or system configuration file in the non-persistent memory (RAM) or a specified file on the persistent memory (flash file system) to a file with a specified name on the persistent memory. Syntax CPY-MEM:[]::::[],[],[]; Example 9-6 CPY-MEM Command and Response (Copy LOG File from RAM as aolog.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-13 CPY-MEM Syntax Description (continued) Parameter Syntax fromdev tofile Description Device on which the source file exists. A null means MEM. Possible values are: DBCFG ONS 15216 EDFA2 configuration parameters from IDROM, CFGROM, RAM, and FFS. MEM ONS 15216 EDFA2 non-persistent memory (RAM). FFS ONS 15216 EDFA2 persistent memory (flash file system). CFG ONS 15216 EDFA2 system configuration in memory.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.8 DLT-USER-SECU Command DLT-USER-SECU Deletes (removes) an existing user from the system. Syntax DLT-USER-SECU:[]::; Example 9-10 DLT-USER-SECU Command Amp01:ONS15216 EDFA2> DLT-USER-SECU:Amp01:jsmith:123; Table 9-15 DLT-USER-SECU Syntax Description Parameter Syntax Description uid string The user identifier (user name) of the existing user to be removed. 9.7.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.10 ED-DWDM Command ED-DWDM Configures the ONS 15216 EDFA2 optical control parameters.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-17 ED-DWDM Syntax Description (continued) Parameter Syntax pump1ctrlvalue, pump2ctrlvalue Description Pump 1 or pump 2 control value. This value’s interpretation depends on the control mode of the corresponding pump. Command fails if control mode is GAINTEMP. Possible values are: 0 - 650 Output power in units of 10 mW when mode is OPWR (sets cerent15216EdfaPumpCfgConstOutPower). The default value is 0.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-18 ED-ENV Syntax Description (continued) Parameter Syntax pwrbusmode Description Power bus mode. Possible values are: SIMPLEX Simplex mode. Requires power only to bus A. Sets cerent15216EdfaPowerBusMode to simplex. DUPLEX Duplex mode (default). Requires power to both bus A and bus B. Sets cerent15216EdfaPowerBusMode to duplex. 9.7.12 ED-NE-GEN Command ED-NE-GEN Edit general parameters of the ONS 15216 EDFA2.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-19 ED-NE-GEN Syntax Description (continued) Parameter Syntax Description bootfilename1 string Boot file name (cerent15216EdfaBootFileName for first entry). File names are case sensitive. bootipaddr1 string IP address to boot from if bootrectype1 is set to TFTP (cerent15216EdfaBootIpAddress for first entry). bootrectype2 Boot record type (cerent15216EdfaBootType for second entry). Possible values are: FLASH Boot from flash.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.14 ED-USER-SECU Command ED-USER-SECU Edits the user identifier, password and access level of an existing user. Per TR-835, only those data parameters that are to be edited are entered while those that are unaffected are omitted. If any position-defined parameter is omitted, a comma is to be used as the delimiter.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-22 ENT-USER-SECU Syntax Description Parameter Syntax Description uid string The user identifier (user name) of the new user being created. Can be any combination of up to 10 alphanumeric characters. pid string The user’s private identifier (password). Must be a string of up to 10 characters, where at least 2 are non-alphabetic characters and at least 1 is a special character. Special characters are +, #, and %.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-23 INH-MSG-ALL Syntax Description (continued) Parameter Syntax condtype Description Condition type of the alarm or event that is to be inhibited (maps to cerent15216EdfaLogEventID). ALL maps to all types. A null maps to none of the types, i.e., with a null, all existing condtype allowances are kept unchanged.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-23 INH-MSG-ALL Syntax Description (continued) Parameter Syntax Description GAINCHGD “Overall Gain Changed” (cerent15216EdfaConstGainOverallGain). LOSHYSTCHGD “LOS (loss of signal) Hysteresis Changed” (cerent15216EdfaLOSHysteresis). LOSTHCHGD “LOS (loss of signal) Threshold Changed” (cerent15216EdfaLOSThreshold). LPOUTCHGD “Loss of Output Power Setpoint Changed” (cerent15216EdfaLpoutSetpoint).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.17 INIT-SYS Command INIT-SYS Reboots the system. Syntax INIT-SYS:[]::::; Example 9-19 INIT-SYS Command Amp01:ONS15216 EDFA2> INIT-SYS:Amp01:ALL:1234::1; Table 9-24 INIT-SYS Syntax Description Parameter aid ph Syntax string EQPT ALL integer 1 Description EQPT and ALL have same input effect. Level of initialization. Always 1. 9.7.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-25 REPT ALM DWDM Syntax Description Parameter Syntax Description time hh:mm:ss Time of origination of TL1 message. almcde atag The alarm severity code for the TL1 message. Possible values are: *C Critical alarm. ** Major alarm. * Minor alarm. A No alarm. Occurs only when ntfncde is NA. 0 - 999 An integer between 0 and 999 used as a sequence number in autonomous messages. Always 1.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.19 REPT ALM ENV Command REPT ALM ENV Reports when a power bus alarm is logged or cleared (derived from cerent15216EdfaAlarmState).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-26 REPT ALM ENV Syntax Description (continued) Parameter Syntax ntfncde Description Notification code (maps to cerent15216EdfaAlarmPriority). Possible values are: CR Critical alarm. MJ Major alarm. MN Minor alarm. CL Cleared alarm. NA No alarm. ocrdat m-d Date (month-day) of the event occurrence (derived from cerent15216EdfaDateAndTimeString).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-27 REPT ALM EQPT Syntax Description Parameter Syntax almcde atag Description The alarm severity code for the TL1 message. Possible values are: *C Critical alarm. ** Major alarm. * Minor alarm. A No alarm. Occurs only when ntfncde is NA. 0 - 999 An integer between 0 and 999 used as a sequence number in autonomous messages . Always EQPT.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-27 REPT ALM EQPT Syntax Description (continued) Parameter Syntax srveff time Description Effect on service. Possible values are: SA Service affecting. NSA Non-service affecting. hh:mm:ss Time of origination of TL1 message. 9.7.21 REPT EVT DWDM / REPT EVT ENV / REPT EVT EQPT Command REPT EVT DWDM or REPT EVT ENV or REPT EVT EQPT Reports autonomous events. Reports when an event is logged.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-28 REPT EVT DWDM / REPT EVT ENV / REPT EVT EQPT Syntax Description Parameter Syntax Description atag 0 - 999 An integer between 0 and 999 used as a sequence number in autonomous messages . aid Possible values are: 1 Directly affecting the optical signal. PWR-A Affecting Power Bus A (or both A and B). PWR-B Affecting Power Bus B.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-28 REPT EVT DWDM / REPT EVT ENV / REPT EVT EQPT Syntax Description (continued) Parameter Syntax condtype (ccm) MAXCTMPHYSTCHGD “Max Ctmp (case temperature) Hysteresis Changed” (EQPT) (cerent15216EdfaCtmpMaxHysteresis). condeff Description MINCTMPCHGD (EQPT) “Min Case Temperature Changed” (cerent15216EdfaCtmpMin). MINCTMPHYSTCHGD (EQPT) “Min Ctmp (case temperature) Hysteresis Changed” (cerent15216EdfaCtmpMinHysteresis).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Example 9-24 REPT EVT FXFR Message A Amp01 2001-06-18 14:48:44 141 REPT EVT FXFR "EQPT:VMRLS20.EXE,COMPLD,SUCCESS,8051" ; Table 9-29 REPT EVT FXFR Syntax Description Parameter Syntax Description atag 0 - 999 An integer between 0 and 999 used as a sequence number in autonomous messages. aid Always EQPT. EQPT General parameters of the ONS 15216 EDFA2 (not directly affecting optical signal or power bus).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Syntax RTRV-ALM-ALL:[]::::[],[],[][,,,,,];
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-30 RTRV-ALM-ALL Syntax Description (continued) Parameter Syntax ntfncde Description Notification code (maps to cerent15216EdfaAlarmPriority). Possible values are: CR Critical alarm. MJ Major alarm. MN Minor alarm. CL Cleared alarm. NA No alarm. ocrdat m-d Date (month-day) of the event occurrence (derived from cerent15216EdfaDateAndTimeString).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages "1,DWDM:MJ,LOS,SA,6-20,14-25-30,,:\"Loss Of Signal\"" ; Table 9-31 RTRV-ALM-DWDM Syntax Description Parameter Syntax aid Description 1 and ALL have same input effect. 1 Directly affecting the optical signal. ALL Any or all of the preceding (command input only). conddescr Detailed text description of the event. The conddescr is 1 to 64 characters of ASCII text. See condtype below.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.25 RTRV-ALM-ENV Command RTRV-ALM-ENV Generates a report on specific or all active environmental (power bus) alarms.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-32 RTRV-ALM-ENV Syntax Description (continued) Parameter Syntax Description ocrdat m-d Date (month-day) of the event occurrence (derived from cerent15216EdfaDateAndTimeString). ocrtm h-m-s Time (hour-minute-second) of the event occurrence (derived from cerent15216EdfaDateAndTimeString). sid string Source identifier uniquely identifies the source of a TL1 autonomous command. time hh:mm:ss Time of origination of TL1 message.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-33 RTRV-ALM-EQPT Syntax Description (continued) Parameter Syntax condtype date Description Condition type identifies the type of alarm (maps to cerent15216EdfaLogEventID). Possible condtype and corresponding conddescr (in quotes) are: CTMP “Case Temperature Out of Range” alarm (cerent15216EdfaAlarmCtmp). LCRNT1 “Excessive Pump1 Current” alarm (cerent15216EdfaAlarmLcrnt1).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.27 RTRV-AO Command RTRV-AO Retrieves autonomous output. Allows the operating system to retrieve a copy of queued autonomous messages or missing autonomous messages. Examples of autonomous messages are REPT ALM and REPT EVT. Users can retrieve up to the latest 1000 autonomous messages (alarms and events).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.28 RTRV-COND-ALL Command RTRV-COND-ALL Generates a report on the condition (state) of all alarms (except environmental alarms). Note that the ccm does not appear in the response for EQPT alarms. Note Syntax The messages for Loss of Signal (LOS), Gain Out of Range (GAIN), and Loss of Output Power (LPOUT) are prioritized (in the order just listed) so that only one message can be delivered at one time.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-35 RTRV-COND-ALL Syntax Description (continued) Parameter Syntax condtype (ccm) date Description Condition type identifies the type of alarm (maps to cerent15216EdfaLogEventID). Possible condtype and corresponding conddescr (in quotes) are: LOS (DWDM) “Loss of Signal” (input power) alarm (cerent15216EdfaAlarmLpin). GAIN (DWDM) “Gain Out of Range” alarm (cerent15216EdfaAlarmGain).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.29 RTRV-COND-DWDM Command RTRV-COND-DWDM Generates a report on the condition (state) of DWDM alarms. Note Syntax The messages for Loss of Signal (LOS), Gain Out of Range (GAIN), and Loss of Output Power (LPOUT) are prioritized (in the order just listed) so that only one message can be delivered at one time.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-36 RTRV-COND-DWDM Syntax Description (continued) Parameter Syntax ntfncde Description Notification code (maps to cerent15216EdfaAlarmPriority). Possible values are: CR Critical alarm. MJ Major alarm. MN Minor alarm. NA No alarm. ocrdat m-d Date (month-day) of the event occurrence (derived from cerent15216EdfaDateAndTimeString).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-37 RTRV-COND-ENV Syntax Description Parameter Syntax aid Description Specifying PWR-A or PWR-B in input has a filter effect on the response. PWR-A Affecting Power Bus A (or both A and B). PWR-B Affecting Power Bus B. ALL Any or all of the preceding (command input only). conddescr Detailed text description of the event. The conddescr is 1 to 64 characters of ASCII text. See condtype below.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.31 RTRV-COND-EQPT Command RTRV-COND-EQPT Generates a report on the condition (state) of general alarms.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-38 RTRV-COND-EQPT Syntax Description (continued) Parameter Syntax ntfncde Description Notification code (maps to cerent15216EdfaAlarmPriority). Possible values are: CR Critical alarm. MJ Major alarm. MN Minor alarm. NA No alarm. ocrdat m-d Date (month-day) of the event occurrence (derived from cerent15216EdfaDateAndTimeString).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-39 RTRV-DFLT-SECU Syntax Description Parameter Syntax Description date yyyy-mm-dd Date of origination of TL1 message. time hh:mm:ss Time of origination of TL1 message. aid EQPT and ALL have same input effect. EQPT General parameters of the ONS 15216 EDFA2 (not directly affecting optical signal or power bus). ALL Any or all of the preceding (command input only). al timeout Access level of the user.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-40 RTRV-DWDM Syntax Description Parameter Syntax Description date yyyy-mm-dd Date of origination of TL1 message. time hh:mm:ss Time of origination of TL1 message. aid 1 and ALL have same input effect. 1 Directly affecting the optical signal. ALL Any or all of the preceding (command input only). inputpoweruw 0 - 99999 Input power (signal) in units of 10 microW (cerent15216EdfaInPoweruW).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-40 RTRV-DWDM Syntax Description (continued) Parameter Syntax Description gain 130 - 220 Value of gain setpoint in units of 10 dB when mode is GAINTEMP (gets cerent15216EdfaConstGainOverallGainMeasured). Same as OVERALLGAIN. preattmeasured 0 - 110 Gain pre-attenuation value in units of 10 dB (gets cerent15216EdfaVariableGainPreAttenuationMeasured). 9.7.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.35 RTRV-HDR Command RTRV-HDR Retrieves header. Sends standard keep-alive message used to ping the ONS 15216 EDFA2. It also returns the current date, time, and sid/tid name of the ONS 15216 EDFA2 in the reply.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-43 RTRV-INV Syntax Description Parameter Syntax Description date yyyy-mm-dd Date of origination of TL1 message. time hh:mm:ss Time of origination of TL1 message. aid EQPT and ALL have same input effect. EQPT General parameters of the ONS 15216 EDFA2 (not directly affecting optical signal or power bus). ALL Any or all of the preceding (command input only). cleicode string CLEI code (cerent15216EdfaCLEI).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Example 9-39 RTRV-NE-GEN Command and Response Amp01:ONS15216 EDFA2> RTRV-NE-GEN:Amp01::123; Amp01 2002-01-12 08:01:05 M 123 COMPLD "EQPT:NAME=Amp01,IPADDR=172.22.87.100,IPMASK=255.255.255.0,DEFRTR=172.22 .87.2,BOOTRECORDTYPE1=FLASH,BOOTFILENAME1=15216EdfaSw_2.3.0,BOOTIPADDR1=0.0.0.0, BOOTRECORDTYPE2=TFTP,BOOTFILENAME2=bin/15216EdfaSw_2.0.1,BOOTIPADDR2=1 72.22.128.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.38 RTRV-RFILE Command RTRV-RFILE Lists a specific file or all files on the flash file system of the ONS 15216 EDFA2. Syntax RTRV-RFILE:[]::::[+];
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.39 RTRV-TH-DWDM Command RTRV-TH-DWDM Retrieves optical threshold and set point values for the ONS 15216 EDFA2.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-46 RTRV-TH-DWDM Syntax Description (continued) Parameter threshholdtype and thresholdvalue pairs Syntax Description Type of threshold or set point that is to be retrieved. A null value is equivalent to ALL. Possible to specify values for one or more of the following: LOSHYST Loss of signal (input power) hysteresis (cerent15216EdfaLOSHysteresis). thresholdvalue can be between 0 and 1000, with default of 100, in units of 100 dB.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Example 9-43 RTRV-TH-ENV Command and Response Amp01:ONS15216 EDFA2> RTRV-TH-ENV:Amp01:ALL:123::PWRBUSMIN; Amp01 2002-07-16 14:24:29 M 123 COMPLD "PWR-A,ENV:PWRBUSMIN,,,420" ; Table 9-47 RTRV-TH-ENV Syntax Description Parameter Syntax Description date yyyy-mm-dd Date of origination of TL1 message. time hh:mm:ss Time of origination of TL1 message. aid threshholdtype and thresholdvalue pairs PWR-A, PWR-B, and ALL have same input effect.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Example 9-44 RTRV-TH-EQPT Command and Response Amp01:ONS15216 EDFA2> RTRV-TH-EQPT:Amp01:ALL:123::MAXCTMP; Amp01 2001-06-08 09:00:05 M 123 COMPLD "EQPT:MAXCTMP,,,60" ; Table 9-48 RTRV-TH-EQPT Syntax Description Parameter Syntax Description date yyyy-mm-dd Date of origination of TL1 message. time hh:mm:ss Time of origination of TL1 message. aid threshholdtype and thresholdvalue pairs EQPT and ALL have same input effect.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.42 RTRV-TOD Command RTRV-TOD Retrieves the date and time of the ONS 15216 EDFA2.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages 9.7.43 RTRV-USER-SECU Command RTRV-USER-SECU Retrieves the access level of an existing user from the system. Does not return the password.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Example 9-47 SET-ATTR-SECUDFLT Command Amp01:ONS15216 EDFA2> SET-ATTR-SECUDFLT:Amp01::123::AL=RW,TMOUT=45; Table 9-51 SET-ATTR-SECUDFLT Syntax Description Parameter Syntax al Description Access level for which the timeout is being set. See “Summary of Security Permissions for TL1 Commands” section on page 9-6 for access level permissions. timeout R Read only privileges. RW Read and write privileges.
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-52 SET-TH-DWDM Syntax Description (continued) Parameter Syntax Description threshholdtype and thresholdvalue pairs string Type of threshold that is to be set. The threshold is set to the thresholdvalue that follows the comma. Possible to specify values for one or more of the following: LOSHYST Loss of signal (input power) hysteresis (cerent15216EdfaLOSHysteresis).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-53 SET-TH-ENV Syntax Description (continued) Parameter threshholdtype and thresholdvalue pairs Syntax Description Type of threshold that is to be set. The threshold is set to the thresholdvalue that follows the comma. Possible to specify values for one or more of the following: PWRBUSMIN Power bus minimum voltage (cerent15216EdfaPowerBusDCVoltageMin).
Chapter 9 TL1 Commands TL1 Commands and Autonomous Messages Table 9-54 SET-TH-EQPT Syntax Description (continued) Parameter Syntax Description threshholdtype and thresholdvalue pairs string Type of threshold that is to be set. The threshold is set to the thresholdvalue that follows the comma. Possible to specify values for one or more of the following: MAXCTMP Maximum case temperature (cerent15216EdfaCtmpMax). thresholdvalue can be between 20 and 70, with default of 65 in units of °C.
C H A P T E R 10 Troubleshooting This chapter presents basic fault information and diagnosis (troubleshooting) procedures for the 2.1.0, 2.2.1, and 2.3.0 product releases of the Cisco ONS 15216 EDFA2. Only TL1 information about the alarm notifications and commands is provided. This chapter describes the behavior of the ONS 15216 EDFA2 in the most expected troubleshooting situations. It does not address all possible causes of a particular situation or all possible solutions.
Chapter 10 Troubleshooting Alarm Indicators 10.1 Alarm Indicators 10.1.1 LEDs and Office Alarms The front panel of the ONS 15216 EDFA2 has five LEDs: • POWER • FAIL • LOS • Ethernet socket (2) On the left side of the front panel of the ONS 15216 EDFA2 are the POWER, FAIL, and LOS alarm LEDs. The Ethernet LEDs are located at the top left and right sides of the Ethernet LAN port. When the module is powered on, a LED test is performed.
Chapter 10 Troubleshooting Alarm Indicators 10.1.1.2 FAIL LED (Red) The FAIL LED is red when on. This LED indicates all alarm conditions except POWER and LOS, which have their own LEDs. The FAIL LED functions as follows: • Off: The gain, output power, case temperature, laser pump current, and laser pump temperature are all within their specified ranges (or –48 VDC power has failed). • On: GAIN, LPOUT, CTMP, LCRNT1, LCRNT2, LTMP1, and/or LTMP2 alarm.
Chapter 10 Troubleshooting Alarm Indicators 10.1.2 Optical Alarms The ONS 15216 EDFA2 amplifier has three main categories of alarms: optical (DWDM), equipment (EQPT), and environmental (ENV). The optical alarms are directly related to the signal amplification and are usually service affecting. The ONS 15216 EDFA2 has three Optical alarms: Note Warning • LOS • GAIN • LPOUT Most optical failures are due to dirty or damaged connectors, so it is very important to clean all connectors.
Chapter 10 Troubleshooting Alarm Indicators Possible causes for this alarm are: • Input power is out of range: Verify that for the current gain setting, the input power is within the range. For example, if the Gain = 22, then the input range is –27 to –5 dBm. Every dB taken from the Gain is added to the input range, so if the Gain =21, then the input range is –26 to –4 dBm. • VOA attenuation is drifting out of range: Verify that the VOA set value approximately equals the VOA current value.
Chapter 10 Troubleshooting Alarm Indicators 10.1.3 Equipment Alarms The ONS 15216 EDFA2 amplifier has three main categories of alarms: optical (DWDM), equipment (EQPT), and environmental (ENV). The equipment alarms are directly related to general equipment conditions in the unit. The ONS 15216 EDFA2 has five equipment alarms: • CTMP • LCRNT1 • LCRNT2 • LTMP1 • LTMP2 10.1.3.
Chapter 10 Troubleshooting Troubleshooting Typical Scenarios 10.1.4 Environmental Alarms The ONS 15216 EDFA2 amplifier has three main categories of alarms: optical (DWDM), equipment (EQPT), and environmental (ENV). The environmental alarms are directly related to the power bus voltage. The ONS 15216 EDFA2 has two equipment alarms: • PWRBUSA • PWRBUSB 10.1.4.
Chapter 10 Troubleshooting Troubleshooting Typical Scenarios 10.2.2 2.0.1 to 2.2.1 Upgrade Attempt To achieve a smooth software upgrade, the ONS 15216 EDFA2 must first get upgraded from software version v2.0.1 to v2.1.0 before being upgraded from v2.1.0 to v2.2.1. If a unit has been upgraded directly from v2.0.1 to v2.2.1, some features of v2.2.1 may not operate properly. In addition, the CISCO15 user has only read write access and cannot perform administrative commands.
Chapter 10 Troubleshooting Troubleshooting Typical Scenarios hostname:edfaboot% ffs file list Determine which image files are present. Ensure that there is enough space on the FFS for two images and that the images are complete. The 2.0.1 image should be 1,683,299 bytes, the 2.1.0 image should be 2,021,467 bytes, and the 2.2.1 image should be 1,963,195 bytes. See the 2.3.0 Release Notes for the 2.3.0 image file size. Use the ffs file delete command to remove any unwanted files as needed.
Chapter 10 Troubleshooting Troubleshooting Typical Scenarios 10.2.8 Lost Password If the root password for CISCO15 is lost, there is a procedure to reset it to regain full administrative control of the ONS 15216 EDFA2. The user must be connected to the ONS 15216 EDFA2 by serial communication, reset the power to the unit, and perform a series of commands within 60 seconds of rebooting, according to the following procedure.
Chapter 10 Troubleshooting Status Information Needed by Cisco TAC 10.3 Status Information Needed by Cisco TAC To get the most from an interaction with the Cisco Technical Assistance Center (TAC), the status information of the ONS 15216 EDFA2 should be collected in advance. The following commands should be issued, and pasted into a text file.
Chapter 10 Troubleshooting Status Information Needed by Cisco TAC Cisco ONS 15216 EDFA2 Operations Guide 10-12 78-16033-01
A P P E N D I X A Regulatory Compliance and Safety Information Regulatory Compliance Table A-1 Regulatory Standards Compliance Discipline Standard Description EMC ETS 300 132-2: 1996 Power supply interface at the input to telecommunications equipment; Part 2: Operated by direct current (DC) ACA AS/NZS3548 Conducted Emissions - Class B Radiated Emissions - Class B EN 300 386-2:1997 EN 55022: 1995 Amendments A1 and A2 EN 50082-2:1997 EN 61000-4-2:1995 EN 61000-4-3: 1997 ENV 50204: 1996 EN 61000-4-
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Table A-1 Regulatory Standards Compliance (continued) Discipline Standard Safety IEC 60950 Description EN 60950 UL 60950 CSA-C22.2 No. 60950 TS 001 AS/NZS 3260 Environmental ETS 300 019-2-1 Storage Temperature Test ETS 300 019-2-2 Transportation Test ETS 300 019-2-3 Operation Test ETS 300 019-2-4 pr A1 Waveform Test - Zone 4 Profile GR-63-Core, Issue 1, October 1995 Section 5.1, 5.4 and 5.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings The safety warnings contained in this document are: • Warning Definition • DC Power Supply Warning • Installation Warning • Power Cord Warning • No On/Off Switch Warning • SELV Circuit Warning • Laser Radiation Warning • Laser Beam Warning • Power Cabling Warning • Grounded Equipment Warning • Ground Connection Warning • Jewelry Removal Warning • Qualified Personnel Warning • Supply Circuit Warnin
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings • Safety Requirements Warning • Laser Radiation Warning • Fiber Disconnect Sequence Warning • Optical Connector Warning • Optical Connector Disconnect Warning • Eye Damage Warning • Static Electricity Warning • Connector Cleaning Warning • Cable Connection Sequence Warning • Module Removal Warning • DC Power SELV Requirement Warning • Reinforced Insulation Warning • Power Supply Voltage Warning •
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Attention Ce symbole d'avertissement indique un danger. Vous vous trouvez dans une situation pouvant causer des blessures ou des dommages corporels. Avant de travailler sur un équipement, soyez conscient des dangers posés par les circuits électriques et familiarisez-vous avec les procédures couramment utilisées pour éviter les accidents.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings DC Power Supply Warning Warning When stranded wiring is required, use approved wiring terminations, such as closed-loop or spade-type with upturned lugs. These terminations should be the appropriate size for the wires and should clamp both the insulation and conductor.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Installation Warning Warning Waarschuwing Varoitus Read the installation instructions before you connect the system to its power source. Raadpleeg de installatie-aanwijzingen voordat u het systeem met de voeding verbindt. Lue asennusohjeet ennen järjestelmän yhdistämistä virtalähteeseen. Attention Avant de brancher le système sur la source d'alimentation, consulter les directives d'installation.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Avvertenza Advarsel Aviso Questa unità potrebbe essere dotata di più di un cavo di alimentazione. Per ridurre il rischio di scossa elettrica, scollegare i due cavi di alimentazione prima di procedere alla manutenzione dell’unità. Denne enheten kan være utstyrt med mer enn én strømledning. Koble fra de to strømledningene før det utføres reparasjonsarbeid på enheten for å redusere faren for elektriske støt.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Advarsel Før det skal utføres arbeid på et system som ikke har en av/på-bryter, skal strømledningen trekkes ut. Aviso Antes de começar a trabalhar num sistema que não possua um interruptor ON/OFF, desligue o cabo de alimentação. ¡Advertencia! Varning! Antes de trabajar sobre cualquier sistema que carezca de interruptor de Encendido/Apagado (ON/OFF), desenchufar el cable de alimentación.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Avvertenza Le porte contrassegnate da "Ethernet", "10BaseT", "TokenRing", "Console" e "AUX" sono circuiti di sicurezza con tensione molto bassa (SELV). I circuiti SELV devono essere collegati solo ad altri circuiti SELV. Dato che i circuiti BRI vengono trattati come tensioni di rete telefonica, evitare di collegare il circuito SELV ai circuiti in cui è presente le tensione di rete telefonica (TNV).
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! Radiación láser presente cuando el sistema está abierto. Laserstrålning pågår när enheten är öppen. Laser Beam Warning Warning Waarschuwing Varoitus Do not stare into the beam or view it directly with optical instruments. Niet in de straal staren of hem rechtstreeks bekijken met optische instrumenten. Älä katso säteeseen äläkä tarkastele sitä suoraan optisen laitteen avulla.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Warnung Avvertenza Advarsel Aviso ¡Advertencia! Varning! Bei der Installation dieser Einheit die Netzverkabelung befestigen, um die Störung von Feldkabelanschlüssen zu vermeiden. In fase di installazione dell'unità, assicurare tutti i cablaggi di alimentazione per evitare di alterare i collegamenti degli avvolgimenti di campo.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Varning! Denna utrustning är avsedd att jordas. Se till att värdenheten är jordad vid normal användning. Ground Connection Warning Warning Waarschuwing Varoitus When installing the unit, always make the ground connection first and disconnect it last. Bij de installatie van het toestel moet de aardverbinding altijd het eerste worden gemaakt en het laatste worden losgemaakt.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Jewelry Removal Warning Warning Waarschuwing Varoitus Before working on equipment that is connected to power lines, remove jewelry (including rings, necklaces, and watches). Metal objects will heat up when connected to power and ground and can cause serious burns or weld the metal object to the terminals.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Qualified Personnel Warning Warning Waarschuwing Varoitus Avertissement Achtung Avvertenza Advarsel Aviso ¡Atención! Varning Only trained and qualified personnel should be allowed to install or replace this equipment. Installatie en reparaties mogen uitsluitend door getraind en bevoegd personeel uitgevoerd worden. Ainoastaan koulutettu ja pätevä henkilökunta saa asentaa tai vaihtaa tämän laitteen.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Advarsel Aviso ¡Atención! Varning Vær nøye med å koble enheter til strømforsyningskretsen slik at ledningene ikke overbelastes. Deverá ter precaução ao ligar unidades ao circuito de fornecimento de energia, para não sobrecarregar a instalação. Poner mucho cuidado al conectar los equipos al circuito de alimentación a fin de no sobrecargar el cableado.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Advarsel Figuren viser likestrømforsyningsenhetens tilkoplingsterminal. Likestrømforsyningsenheten tilkoples ved hjelp av ledningsavslutningene, slik som vist i figuren. Riktig tilkoplingssekvens er jord til jord, positiv til positv (linje til L), og negativ til negativ (nøytral til N). Husk at jordingsledningen alltid bør tilkoples først og frakoples sist.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Aviso ¡Advertencia! Varning! Evite uma exposição à radiação laser e não olhe através de aberturas expostas, porque poderá ocorrer emissão de radiação laser invisível a partir da abertura da porta, quando não estiver qualquer cabo conectado. Cuando no esté conectado ningún cable, pueden emitirse radiaciones láser invisibles por el orificio del puerto.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Ground Conductor Warning Warning Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Voltages on DC-input Power Supply Terminals Warning Waarschuwing Voltages might be present on the DC-input power supply terminals. Turn off the power source circuit breaker and remove the power supply before accessing the terminals. Er kan stroom aanwezig zijn op de voedingspolen van de gelijkstroomingang.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings More Than One Power Supply Warning Waarschuwing Varoitus This unit has more than one power supply connection; all connections must be removed completely to completely remove power from the unit. Deze eenheid heeft meer dan één stroomtoevoerverbinding; alle verbindingen moeten volledig worden verwijderd om de stroom van deze eenheid volledig te verwijderen. Tässä laitteessa on useampia virtalähdekytkentöjä.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Warnung Avvertenza Advarsel Der Cisco ONS 15216 EDFA2 muß in einem Gestell installiert werden, das in der Gebäudestruktur verankert ist. Il Cisco ONS 15216 EDFA2 deve essere installato in un telaio, il quale deve essere fissato alla struttura dell'edificio. Cisco ONS 15216 EDFA2 må installeres i et stativ som er forankret til bygningsstrukturen.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! Un cable desnudo de una fuente de entrada de alimentación de corriente directa (DC) puede conducir niveles de electricidad peligrosos. Asegúrese de que ninguna parte del cable de la fuente de alimentación de DC de entrada sale del enchufe del bloque de terminal. En blottad trådledning från en likströmsförsörjningsenhet kan utgöra en ledare för skadliga elektricitetsnivåer.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Chassis Power Connection Warning Waarschuwing Varoitus Before connecting or disconnecting ground or power wires to the chassis, ensure that power is removed from the DC circuit. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Antes de conectar o desconectar el circuito de tierra o de alimentación del chasis, asegúrese que la alimentación del circuito CC esté cortada (OFF).
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings VCCI Compliance for Class B Equipment Warning This is a Class B product based on the standard of the Voluntary Control Council for Interference from Information Technology Equipment (VCCI). If this is used near a radio or television receiver in a domestic environment, it may cause radio interference. Install and use the equipment according to the instruction manual.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! Conecte la unidad sólo en una fuente de energía DC que cumpla con los requisitos de voltaje extra bajo (SELV - Extra-Low Voltage) en los estándares de seguridad IEC 60950. Anslut enheten endast till en likströmsförsörjningsenhet som uppfyller kraven för SELV (skyddskretsar för mycket låg spänning) i IEC 60950-baserade säkerhetsstandarder.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! Para prevenir una sobrecarga eléctrica , lea las instrucciones de la etiqueta que aparece en la parte posterior del Cisco ONS 15216 EDFA2 que indica la carga máxima de potencia. Si no sigue estas indicaciones podría correr riesgos de sobrecarga. För att förhindra att elkretsen överbelastas genomläses etiketten bakpå Cisco ONS 15216 EDFA2 där märkdata om högsta tillåtna elbelastning anges.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Energy Hazard Warning Waarschuwing Only trained and qualified personnel should be allowed to install, replace, or service this equipment. This equipment contains an energy hazard. Disconnect the system before servicing. Alleen getraind en gekwalificeerd personeel mag deze uitrusting installeren, vervangen of onderhouden. Deze uitrusting bevat energierisico’s. Ontkoppel het systeem voordat u het onderhoudt.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Unit Grounding Protection Warning Warning Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings DC Power Disconnection Warning Warning Before performing any of the following procedures, ensure that DC power to the transverter you will be working on is turned OFF. To ensure that the power to the specific transverter is OFF, locate the power/breaker switch on the front of power feed panel that services that transverter, push the switch into the OFF position, then tape the switch in the OFF position.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! Antes de proceder con los siguientes pasos, comprobar que la alimentación del circuito de corriente continua (CC) con el que se va a trabajar esté cortada (OFF).
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! El cable que se utilice para la conexión a tierra siempre deberá ser de una sola pieza. Nunca empalme dos cables para hacer vconexión a tierra. La corrosión y el deterioro debido a los agentes atmosféricos pueden debilitar la conexión del empalme, lo cual puede hacer que la conexión a tierra no funcione adecuadamente y sea peligrosa. Varning! En jordad tråd måste alltid bestå av en enda tråd.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Suomalainen: Svenska: Tämä laite on direktiivien 73/23/ETY ja 89/336/ETY (kuten muutettu direktiivissä 93/68/ETY) keskeisten vaatimusten ja määräysten mukainen. Denna utrustning uppfyller de väsentliga kraven och andra villkor i direktiven 73/23/EEC och 89/336/EEC enligt ändringarna i direktiv 93/68/EEC.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Class B EMC Warning Warning This is a Class B Device and is registered for EMC requirements for residential use. This device can be used not only in residential areas but in all other areas. Safety Requirements Warning Warning Waarschuwing Varoitus All safety requirements and recommendations must be read by all personnel prior to working on the system.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! El personal debe leer todos los requerimientos y recomendaciones de seguridad antes de trabajar en el sistema. El incumplimiento de tales requerimientos y recomendaciones podría provocar lesiones o daños. Alla säkerhetskrav och rekommendationer måste läsas av all personal innan arbete på systemet påbörjas. Om säkerhetskraven och rekommendationerna inte följs kan detta leda till skador.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings ¡Advertencia! Varning! La radiación láser constituye un peligro invisible; por consiguiente, el personal debe evitar exponerse al haz láser. Los miembros del personal deben estar debidamente capacitados respecto de los procedimientos de seguridad cuando se trabaja con equipos láser y deben utilizar dispositivos adecuados de protección ocular antes de trabajar en este equipo.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Optical Connector Warning Warning Waarschuwing Varoitus Do not look directly at the optical connector output beams during connector removal and replacement. The beams can cause permanent eye damage. Kijk niet rechtstreeks in de uitgangsstralen van de optische connector tijdens het verwijderen en vervangen van de connector. De stralen kunnen permanente oogschade veroorzaken.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Varoitus Estä lasersignaalin kulku sulkemalla irrotetun tuloliittimen pää välittömästi silmävaurioiden estämiseksi ja liittimen suojaamiseksi lialta. Attention Couvrez immédiatement l'extrémité d'un connecteur de sortie débranché pour désactiver le signal laser actif, afin d'éviter tout risque d'endommagement de la vue et de protéger le connecteur de toute contamination.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Warnung Verwenden Sie Schutzbrillen wie die Laser-Gard Green CO2 (LGE Spectacle, LGS Goggle, LGW Wraparound oder LGF Full-View) oder einen entsprechenden Augenschutz mit einer optischen Dichte größer als 2. Wenden Sie sich an den Beauftragten für Lasersicherheit. Avvertenza È necessario utilizzare occhiali protettivi quali Laser-Gard Green CO2 (LGE Spectacle, LGS Goggle.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Warnung Statische Elektrizität kann zu Schäden an elektro-optischen Modulen führen. Tragen Sie ein Erdungsarmband, wenn Sie statische Energie entladen, während Sie mit elektro-optischen Modulen hantieren. Erdungsarmbänder schützen das Gerät vor Schäden durch statische Elektrizität. Avvertenza L'elettricità statica può danneggiare i moduli elettro-ottici.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Warnung Vergewissern Sie sich, dass das Modul ausgeschaltet und der Laser deaktiviert ist, bevor Sie versuchen, einen Steckverbinder zu reinigen. Wenn Sie das Modul nicht ausschalten und abschirmen, erzeugen Sie ein dauerhaftes Gesundheitsrisiko für sich und andere und riskieren eine permanente Schädigung des Steckverbinders.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Advarsel Aviso ¡Advertencia! Varning! For å sikre personvernet under gjeninnkopling av fiberkabler, må du alltid gjeninnkople utgangskoplingene før inngangskoplingene. Para garantir a segurança pessoal ao reconectar cabos de fibra, sempre reconecte os conectores de saída primeiro, antes dos conectores de entrada.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings DC Power SELV Requirement Warning Warning Waarschuwing Varoitus The DC power supply systems (main, redundant, and service battery power supply systems) must be compliant with safety extra low voltage (SELV) requirements in accordance with IEC 60950 and UL 60950.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Reinforced Insulation Warning Warning The customer site 48 VDC power supply systems (main, redundant, and service battery power supply systems) must provide reinforced insulation (RI) between the primary AC power supply and the 48 VDC output in accordance with IEC 60950 and UL 60950.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Power Supply Voltage Warning Warning Waarschuwing Varoitus Abnormal power supply voltage must not exceed -60.0 VDC. Abnormale stroomtoevoerspanning mag -60,0 VDC niet overschrijden. Poikkeava syöttöjännite ei saa olla yli -60,0 VDC. Attention La tension d'alimentation électrique anormale ne peut dépasser -60 V cc.
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Avvertenza Advarsel Aviso ¡Advertencia! Varning! Collegare l'alimentatore CC utilizzando i capicorda appropriati all'estremità o senza capicorda, secondo quanto indicato nella sezione relativa al cablaggio del pannello di distribuzione dell'alimentazione (Power Distribution Panel).
Appendix A Regulatory Compliance and Safety Information Translated Safety Warnings Cisco ONS 15216 EDFA2 Operations Guide A-48 78-16033-01
INDEX APPLY A 9-11 ASH shell access levels ASH TL1 automatic gain control 2-1 6-1 9-6 ACT-USER B 8-2, 9-9 administrative commands AgentTrapEnable aid 6-1 6-10 backup system 5-23, 5-24 4-12, 6-31, 8-11, 9-14 backward amplified spontaneous emission 9-2 bandwidth on demand 1-1 AlarmCtmp 9-29 BootFileName 4-12, 9-20 AlarmEntry 5-19, 5-36 BootIpAddress 4-12, 9-20 AlarmGain AlarmID 9-26 BootType 2-1 4-12, 9-19 5-36, 5-37, 6-16 Alarm Index 5-37 AlarmLcrnt C 9-29 AlarmLpin 9
Index Constant Pump Power mode constCurrent 5-14 ConstGainOverallGain 4-5, 4-11, 5-18, 5-19, 5-26, 9-18, 9-31 ConstGainOverallGainMeasured constGainTempComp constOutputPower constPower 4-4, 5-17, 9-49, 9-50 5-15, 9-17, 9-49 5-15, 9-17, 9-49 CPY-MEM ffs file list 6-14 fiber input 2-6 fiber output firmware revision front panel 9-12, 9-32 LEDs 9-14 6-30, 9-52 3-6 7-3 4-6, 4-9, 5-12, 5-28, 6-20, 9-31, 9-58, 9-64 CtmpMaxHysteresis CtmpMin 4-6, 4-9, 5-12, 5-28, 6-20, 9-32, 9-58, 9-64 4-6,
Index MINCTMPHYST L model name LAN 2-6, 4-3, 8-3 LEDs FAIL configuration settings 3-7 POWER NVRAM settings 3-6 power up loading channels LogEventID login 2-2 signals LOSHYST MTBF 3-12 2-6, 3-4 2-4 8-8, 9-56, 9-62 LOSHysteresis 4-6, 4-8, 5-12, 5-28, 5-31, 6-19, 9-31, 9-56, 9-62 N loss of output power alarm hysteresis 5-34 network host ftp alarm threshold 5-32 noise LOSTH 3-12 3-11 monitor output 4-12, 6-12, 8-11, 9-12 3-12 3-12 requirements 9-26, 9-27, 9-29, 9-31 4-2, 4-4
Index pdm cfg threshold bus display 6-9 REPT EVT ENV pdm cfg threshold bus modify 6-9 REPT EVT EQPT 9-30 REPT EVT FXFR 9-32 PhysicalDescr 6-30, 9-52 PhysicalFirmwareRev 6-30, 9-52 restore system PhysicalHardwareRev 6-30, 9-52 RJ-45 PhysicalMfgName PhysicalModelName PhysicalName RS-232 6-30, 9-52 6-30, 9-52 6-30 PhysicalSerialNum 6-30, 9-52 PhysicalSoftwareRev 6-30, 9-52 polarization mode dispersion 2-1 port ASH TL1 9-30 4-13, 6-31, 8-12, 9-14 2-6, 3-5, 4-3, 8-3 2-6, 3-7, 3-14,
Index SC/UPC optical ports serial connection serial number 3-3 2-6, 3-7, 4-1, 8-1 6-30 serial number.
Index snmp row set temperature 6-20 CfgGroup ambient 4-6 2-4, 3-1 CommTrapEntry 5-23 case CommunityEntry 5-7 case alarm SromIpMgmtGroup ViewEntry storage 4-3 tid 5-6 snmp subtree display 5-27 time 6-21 4-8, 5-12, 9-58, 9-64 2-4 9-1 4-4, 5-25, 8-4, 9-16 snmp subtree get 6-21 time zone snmp subtree list 6-22 TL1 notation symbols snmp table display AlarmEntry CfgGroup TL1 shell 6-23 4-4, 5-25 8-1 transient suppression 5-36 9-3 1-4 4-6, 5-32, 5-33, 5-34 CommTrapEntry 5
Index W warnings, translated safety A-2 Cisco ONS 15216 EDFA2 Operations Guide 78-16033-01 IN-7
Index Cisco ONS 15216 EDFA2 Operations Guide IN-8 78-16033-01