cc/td/doc/product/ong/15216/216edf
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Table Of Contents

Installation

3.1 Introduction

3.2 Standard Precautions

3.3 Placement and Power Connection

3.3.1 General Rack Considerations

3.3.2 Rack Installation and Power Supply Procedures

3.4 SC/UPC Optical Ports

3.4.1 Safety Requirements

3.4.2 Optical Connection Procedure

3.4.3 Optical Amplification Operation Verification Procedure

3.5 Communications

3.5.1 Alarm Out Relay Interface (RJ-45)

3.5.2 Alarm LEDs

3.5.3 Serial Interface (EIA/TIA-232) Communication

3.5.4 Serial Interface Remote Communication via Modem

3.5.5 LAN Interface (Ethernet)


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, EIA/TIA-232, and LAN)

3.2 Standard Precautions

The following standard precautions should be taken when installing the ONS 15216 EDFA2:

Basic electrical precautions should be taken before powering up the ONS 15216 EDFA2.

Using standard fiber handling and cleaning procedures is critical when installing optical networking equipment.

Eye safety precautions should be employed when handling fiber optic patchcords.

3.3 Placement and Power Connection

3.3.1 General Rack Considerations

The following potential hazards should be considered when installing the ONS 15216 EDFA2 within a rack:

Elevated Operating Ambient Temperature—If installed in a closed or multi-module rack assembly, the operating ambient temperature of the rack environment may be greater than room ambient temperature. Consideration should be given to installing the equipment in an environment compatible with the manufacturer's maximum rated ambient temperature.

Reduced Air Flow—Installation of the equipment in a rack should be such that the amount of air flow required for safe operation of the equipment is not compromised.

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.

Reliable Earthing—Reliable grounding of rack mounted equipment should be maintained. Particular attention should be given to supply connections other than direct connections to the branch circuit (i.e., use of power strip, etc.).


Warning The ONS 15216 EDFA2 is intended for installation in a restricted access area. A restricted access area is where access can only be gained by service personnel through the use of a special tool, lock, key, or other means of security. A restricted access area is controlled by the authority responsible for the location.


3.3.2 Rack Installation and Power Supply Procedures


Warning Before performing any of the following procedures, ensure that the 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.


Follow these steps to install the ONS 15216 EDFA2 into the rack and correctly set up the power supply:


Step 1 Mount the ONS 15216 EDFA2 in the rack (19 inches or 23 inches reversible ears). Empty rack space is not required above or below the ONS 15216 EDFA2.

Step 2 Connect the -48 VDC power cable to the office fuse panel (user-provided).

a. 1.0A fusing is required (user-provided).

b. Use 18 AWG stranded wire (and wire and wire lugs as appropriate).

Step 3 Connect power from the fuse panel to the power bus A terminals on the front panel of the ONS 15216 EDFA2. See Figure 2-2 on page 2-5.

Step 4 Repeat Step 3 for power bus B.

Step 5 Connect the facility ground to the ONS 15216 EDFA2 side or rear panel ground using #10/32 star washer and 3/4-inch screws (provided on the module).

Step 6 Insert 1.0A fuses into the fuse panel (user-provided).

The Power LED on the front panel of the ONS 15216 EDFA2 should illuminate when the power is supplied.


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. Use of controls or performing adjustments or procedures other than those specified herein may result in hazardous radiation exposure.



Warning Anyone working with the ONS 15216 EDFA2 must not allow their eyes or body to be exposed to the laser beam or to a reflection from a mirror-like surface. Additionally, viewing the laser output with certain optical instruments (eye loupes, microscopes) within a distance of 100 mm may pose an eye hazard.



Warning In the event of a fiber cut or loss of connection and there is no input power, the ONS 15216 EDFA2 still has -3.5 dBm of optical output power.


The TL1, SNMP, and command-line interface (CLI) commands can be used to increase the level of laser energy. Necessary precautions must be taken to avoid exposure to laser energy when using these commands.

3.4.2 Optical Connection Procedure


Warning Follow all directions and warning labels when working with optical fibers. To prevent eye damage, never look directly into a fiber or connector.


Connect the customer-supplied fiber optic patchcords to the SC/UPC optical ports of the ONS 15216 EDFA2 using the following procedure. Refer to Figure 3-1 while performing this procedure:


Step 1 Clean both ends of the two fiber optic patchcords. Refer to the Cisco document "Cleaning Procedure for Fiber Optic Connectors" for more information.

Step 2 Connect the first patchcord between the ONS 15216 EDFA2 OUTPUT connector and the FACILITY LINE connection.

The measured optical output power should be approximately -3.5 dBm.

Step 3 Connect the second patchcord to TERMINAL OUTPUT. Measure and record the total optical power:

a. DWDM/OADM output

b. Terminal transmitter output

Step 4 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.


Figure 3-1 ONS 15216 EDFA2 Optical Connections

3.4.3 Optical Amplification Operation Verification Procedure

To verify ONS 15216 EDFA2 optical amplification, use the following procedure:


Step 1 Connect an optical power meter to the MONITOR OUT port.

Step 2 Measure and record the output power. The MONITOR OUT port level is -20 dB less than the signal.

Step 3 Verify that the ONS 15216 EDFA2 input and output power are within the range shown in Table 3-1.

For example, if the total input power is between -27 dBm and -5 dBm, expect an output power between -5 dBm and 17 dBm.

Table 3-1 Gain Range

Gain
Total Input Power (dBm)
Total Output Power (dBm)
(dB)
Min
Max
Min
Max

22

-27

-5

-5

17



Note Unless overridden by the user, the gain per channel is by default set to 22 dB by the ONS 15216 EDFA2. Gain is fixed at 22 dB as long as total input power is less than or equal to -5 dBm. If your input power is higher than -5 dBm, see the "Set Gain" section on page 4-5.


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)

3.5.1 Alarm Out Relay Interface (RJ-45)

The ONS 15216 EDFA2 Alarm Out (RJ-45) port reports alarm status for the following:

Loss or degradation of electrical power

Pump laser overheating or excessive pump current, output power, gain, and case temperature

Loss or degradation of optical network

These alarms can be connected to a network operations center (NOC) network management system (NMS) using the following methods:

Cisco ONS 15454 miscellaneous discrete input

Central Office alarm panel/system

Table 3-2 provides the ONS 15216 EDFA2 RJ-45 alarm out pinout and alarm definitions.

Table 3-2 Alarm Pinout and Definitions (RJ-45)

Relay
Pinout
Description

0

1 (0+)

Loss of electrical power

2 (0-)

1

3 (1+)

Pump laser temperature or bias is out of range; input power is out of tolerance for gain settings (Major)

4 (1-)

2

5 (2+)

Loss of optical input signal or input signal is below threshold (Minor)

6 (2-)

3

7 (3+)

Loss of electrical power or out of range for Bus A or Bus B while in duplex mode

8 (3-)


3.5.1.1 Alarm Relay Connection Procedure

To set up alarm contacts, follow these steps:


Step 1 Connect the RJ-45 to the stub-end cable using a #22 AWG solid wire.


Note Cable and connector are not provided.


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 for information concerning alarm contacts. Refer to Alarm LEDs for information on the ONS 15216 EDFA2 alarm LEDs.


3.5.2 Alarm LEDs

The ONS 15216 EDFA2 has five LEDs:

POWER

FAIL

LOS

Ethernet socket (2)

Three of these LEDs, POWER, FAIL, and LOS, are located at the left hand side of the ONS 15216 EDFA2 box. The two Ethernet LEDs are located at the top left and right hand sides of the Ethernet socket. When the module is powered on, an LED test is performed.

3.5.2.1 POWER LED (Green)

The POWER LED is green. This LED functions as follows:

On: -48 VDC is within tolerance. (Power Bus A and B are powered normally.)

Off: No power or power is out of tolerance from the internal power supply. (Power Bus A and B are not powered.)

Flashing: Power Bus A or B (in duplex mode) has failed or is out of tolerance, or power BUS A (in simplex mode) is out of tolerance.

In the off condition, the first pair of alarm relay contacts in the RJ-45 connector changes from a normally open condition to a closed condition. The LED and alarm automatically reset when the condition clears. (For additional alarm contact closure information, see the "Alarm Out Relay Interface (RJ-45)" section.)

3.5.2.2 FAIL LED (Red)

The FAIL LED is red. This LED functions as follows:

On: The pump laser bias, pump laser temperature, output power, gain, or case temperature is out of tolerance. (A major internal failure has occurred.)

Off: The pump laser bias or pump laser temperature is in a specified range.

In the on condition, the second pair of alarm relay contacts in the RJ-45 connector changes from a normally open to a closed condition. If an invalid input optical signal is applied to the ONS 15216 EDFA2, the Fail LED is illuminated. The LED and alarm automatically reset when the condition clears.

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 and/or no -48 VDC 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. The LED and alarm automatically reset when the condition clears.

3.5.2.4 Ethernet Socket LEDs

Two LEDs are located at the top left and right hand sides of the Ethernet socket. These LEDs are both green. These LEDs function as follows:

If left Ethernet socket LED is on, the link is up.

If right Ethernet socket LED is on or flashing, there is Ethernet traffic.

3.5.3 Serial Interface (EIA/TIA-232) Communication

This section describes communication with the ONS 15216 EDFA2 using a serial connection.

3.5.3.1 Required Equipment

Establishing a serial communications link with a ONS 15216 EDFA2 requires the equipment listed in Table 3-3.

Table 3-3 Equipment Checklist

Hardware
Comments

Laptop, or VT100, running HyperTerminal.

User-provided. HyperTerminal can be found in the Microsoft Windows Accessories menu.

EIA/TIA-232 cable with DB-9F connectors wired as shown in Figure 3-8.

Provides EIA/TIA-232 link to ONS 15216 EDFA2.


3.5.3.2 EIA/TIA-232 Connection Procedure

To set up an EIA/TIA-232 link to the ONS 15216 EDFA2, use the following procedure. (The procedure uses HyperTerminal and a connection via the COM1 port.)


Step 1 Connect the DB-9F end of the EIA/TIA-232 data cable (straight cable, user provided) to the laptop COM port.

Step 2 Connect the other end of the EIA/TIA-232 data cable to the EIA/TIA-232 serial port connection on the front access panel of the ONS 15216 EDFA2.

Step 3 Open HyperTerminal. (HyperTerminal can be found in the Microsoft Windows Accessories menu.)

Step 4 Type Optical Amplifier, select an icon, and click OK.

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 HyperTerminal Connect To Dialog Box

Step 6 Configure the Port Settings in the COM1 Properties dialog box as shown in Figure 3-3. 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.

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) and click ASCII Setup.

Figure 3-5 Optical Amplifier Properties Dialog Box (Settings Tab)

Step 11 Configure the ASCII Setup window as shown in Figure 3-6. Click OK when done.

Figure 3-6 HyperTerminal ASCII Setup Dialog Box

Step 12 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). See "Log In via EIA/TIA-232 Port Using HyperTerminal" section on page 4-1 for the login procedure in ASH shell and "Log In via EIA/TIA-232 Port Using HyperTerminal" section on page 8-1 for the login procedure in TL1 shell.


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. Other modem types may require different settings to establish a remote dial-up connection. The user should review their modem documentation to ensure compatibility between US Robotics and other vendor modem types.

Figure 3-7 Remote Communication

3.5.4.1 Remote Communication Component Requirements

Table 3-4 lists the components required to communicate remotely with a ONS 15216 EDFA2. Table 3-4 is divided into two sections: Remote Site and Local Site. The Remote Site section lists components needed at the site that contains the ONS 15216 EDFA2 and the Local Site section lists components needed at the site where the user is located.

Table 3-4 Communication Component List

Component
Notes
Remote Site
 

1 ONS 15216 EDFA2

 

1 US Robotics 56K Fax modem V.90

The modem to ONS 15216 EDFA2 connection must be set for 19200 baud. The modem to modem connection must be set for 14400 baud.

1 10-ft DB-25M to DB-9F cable

For connection between ONS 15216 EDFA2 and modem.

1 RJ-11 to RJ-11 telephone cable

For connection between the modem and PSTN dial-up telephone line

1 public switched telephone network (PSTN) dial-up telephone line

 
Local Site
 

1 PC running HyperTerminal

 

US Robotics 56K Fax modem V.90

The modem to ONS 15216 EDFA2 connection must be set for 19200 baud. The modem to modem connection must be set for 14400 baud.

1 10-ft DB-25M to DB-9F

For connection between PC COM port and modem.

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.

3.5.4.3 Modem Power Up

The modem has a DIP switch that overrides certain NVRAM settings during a power up. For consistent operation throughout the power cycles, the DIP switches must be set as displayed in Table 3-5.

Table 3-5 Modem DIP Switch Setting 

DIP Switch Setting
Up (U) or Down (D)
Description

1

D

Data terminal ready override

2

U

Verbal result codes

3

U

Suppress result codes

4

D

No echo, offline commands

5

U

Auto-answer on first ring, or higher if specified in NVRAM

6

U

Carrier detect normal

7

U

Load NVRAM defaults

8

D

Smart mode


3.5.4.4 Modem Configuration Settings

After configuring the DIP switch settings, each modem configuration must then be set using a terminal program such as Microsoft Windows HyperTerminal.

Connect the modem to the PC serial port using a DB-25M to DB-9F modem cable as per the manufacturer recommendations.

Set the terminal communication parameters as follows:

19,200 baud

No parity

8 bits per character

1 stop bit, and no flow control

Table 3-6 gives a brief description of the modem settings that are stored in NVRAM. These settings survive power supply interruptions. Use these settings to configure each modem.

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. and Canada

&h0

Flow control disabled

&i0

Software flow control disabled

&k0

Data compression disabled

&m5

ARQ mode

&n8

Fix highest connect speed to 14,400 bps

&p1

Pulse dialing option

&r1

Ignore Request to Send (RTS)

&s1

Modem controls Data Set Ready (DSR)

&t5

Prohibits remote digital loopback

&u8

Fix lowest connect speed to 14,400 bps

&y1

Break handling; destructive/expedited

&w0

Store configuration 0

s0=1

Auto-answer on first ring

s2=128

Disable escape to command mode


3.5.4.5 Setting and Saving Modem Settings

To set and save modem settings, enter the following command to the terminal program and to each modem:

atb0e0f1m1q1v1x1y0
at&a3&b1&c1&d0&g0&h0&i0&k0s0=1
at&m5&n8&7p1&r1&s1&t5&u8&y1s2=128
at&w0


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 an 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.

Figure 3-8 DB-9 Pinout (EIA/TIA-232)

Using the terminal program from the PC, enter the ATDT command with the appropriate telephone number to call the remote ONS 15216 EDFA2 modem. After the modems synchronize, log into the ONS 15216 EDFA2 using the correct user name and password. Refer to Chapter 5, "SNMP MIB Installation and Configuration," Chapter 6, "ASH Commands," and Chapter 9, "TL1 Commands," for additional information on commands.

3.5.5 LAN Interface (Ethernet)

You can connect to the ONS 15216 EDFA2 to an Ethernet LAN for remote access.


Note Before communicating and managing the ONS 15216 EDFA2 via the Ethernet port, the user must first enter an IP address. To set an IP address, see Chapter 4, "Provisioning in the ASH Shell."


Telnet is an application that allows remote management using IP over the Ethernet LAN. The following types of commands can be issued through a Telnet session:

SNMP MIB commands ( Chapter 5, "SNMP MIB Installation and Configuration")

CLI commands ( Chapter 6, "ASH Commands")

TL1 commands ( Chapter 9, "TL1 Commands")

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.

Use a straight-through Cat5 Ethernet cable with RJ-45 connectors to connect to a LAN, or use a cross-over cable if connecting directly to a PC.

Step 3 At a terminal or workstation, open the Telnet application.


Note To send CLI and TL1 commands over IP, a Telnet client is required. For SNMP management over IP, a generic SNMP manager is required.


Step 4 Connect to the ONS 15216 EDFA2 using the module's IP address.

If you do not specify a port number, the ONS 15216 EDFA2 responds in the shell that the ONS 15216 EDFA2 is set to (TL1 is the default shell). Specify port number 8023 to access through the ASH shell or port number 3083 to access through the TL1 shell.

The ONS 15216 EDFA2 login screen appears. See "Log In via EIA/TIA-232 Port Using HyperTerminal" section on page 4-1 for the login procedure in ASH shell and "Log In via EIA/TIA-232 Port Using HyperTerminal" section on page 8-1 for the login procedure in TL1 shell.



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Posted: Sun Apr 2 12:15:13 PDT 2006
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