Installing the SFP, SFP+, and XFP Modules in Cisco CPT Platforms

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Updated:July 9, 2012

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Installing the SFP, SFP+, or XFP Modules in Cisco CPT Platforms

Contents

Installing the SFP, SFP+, or XFP Modules in Cisco CPT Platforms

This document provides compatibility information and installation procedures for Small Form-factor Pluggable (SFP), Enhanced Small-Form-factor Pluggable (SFP+), and10 Gbps Small Form-factor Pluggable (XFP) modules used with the Cisco Carrier Packet Transport (CPT)—CPT 600, CPT 200, and CPT 50 nodes. This document also contains removal instructions, cabling, and technical specifications. Use this document in conjunction with platform-specific Cisco user documentation when working with SFP, SFP+, or XFP modules or any other system components.

The SFP, SFP+, and XFP modules are referred to as pluggable port modules (PPMs) in Cisco Transport Controller (CTC).

Changes to This Document

The following table lists new and changed content made to this document since it was first published.

Table 1 Revision History

Revision

Date

Change Summary

OL-26709-03

February 2015

  • Added information about the ONS-SE+-10G-LR= pluggable.

  • Added the Pluggable Port Modules section.

OL-26709-02

March 2014

Added information about the SFP pluggables, ONS-SC-155-TSOP and ONS-SC-622-TSOP.

OL-26709-01

August 2012

  • Updated the specifications for ONS-XC-10G-1470 through ONS-XC-10G-1610 XFP modules in the table "XFP Specifications".

  • Updated the specifications for ONS-SC+-10G-30.3 through ONS-SC+-10G-61.4 SFP+ modules in the table "XFP Specifications".

July 2012

PPM information related to Cisco CPT 200, Cisco CPT 600, and Cisco CPT 50 units are removed from the Installing the GBIC, SFP, SFP+, XFP, CXP, and CFP Optical Modules in Cisco ONS Platforms document and published this document.

78-18174-01

April 2012

Updated the section "DLP-G723 Install PPM on a Line Card".

Introduction

The SFP, SFP+, and XFP modules are hot-swappable I/O devices that plug into a line card port to link the port with the fiber optic network. For all cards, the type of SFP, SFP+, and XFP modules that is plugged into the card is displayed in Cisco Transport Controller (CTC).

Pluggable Port Modules (PPMs)

The following table lists PPMs with their categories, card supported, descriptions, TAN number and temperature range.

Table 2 Data SFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Card Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SE-GE-BXU=

SFP – 1000BASE-BX U – GE Bidirectional Upstream– Ext Temp

CPT 50

-

0 to +85

ONS-SE-GE-BXD=

SFP – 1000BASE BX D – GE Bidirectional Downstream Ext Temp

CPT 50

-

0 to +85

ONS-SE-100-BX10U=

SFP – 10/100 BX-U, EXT

CPT 50

10-2353-01

–10 to +85

ONS-SE-100-BX10D=

SFP – 10/100 BX-D, EXT

CPT 50

10-2352-01

–10 to +85

ONS-SI-100-FX=

SFP – 100 Mbps Short Reach – 1310 nm – MM – LC, I‑TEMP

CPT 50

10-2350-01

–40 to +85

ONS-SI-100-LX10=

SFP – 100 Mbps Long Reach – 1310 nm – SM – LC, I‑TEMP

CPT 50

10-2294-01

–40 to +85

ONS-SI-GE-LX=

SFP – 1000BASE-LX Gigabit Ethernet, 1310 nm, SM, I‑TEMP

CPT 50

10-2300-01

–40 to +85

ONS-SI-GE-SX=

SFP – 1000BASE-SX Gigabit Ethernet, 850 nm, MM, I‑TEMP

CPT 50

10-2295-01

–40 to +85

ONS-SI-GE-ZX=

SFP – 1000BASE-ZX Gigabit Ethernet, 1550 nm, SM, I‑Temp

CPT 50

10-2296-01

–40 to +85

ONS-SI-GE-EX=

SFP - 1000Base EX - I-Temp

CPT 50

10-2734-01

–40 to +85

Table 3 DWDM SFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Card Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SC-2G-28.7=

OC-48/STM-16, SFP, 1528.77, 100 GHz, LC

CPT 50

10-2307-02

0 to +70

ONS-SC-2G-30.3=through ONS-SC-2G-60.6=

OC-48/STM-16, SFP, 1530.33, 100 GHz, LC through OC-48/STM-16, SFP, 1560.61, 100 GHz, LC

CPT 50

10-2155-02 through 10-2184-02

0 to +70

ONS-SC-2G-37.4=

SFP – OC-48/STM16, 1537.40nm, 100 GHz, SM, LC

CPT 50

10-2668-01

0 to +70

ONS-SC-2G-45.3=

SFP – OC-48/STM16, 1545.32nm, 100 GHz, SM, LC

CPT 50

10-2670-01

0 to +70

ONS-SC-2G-53.3=

SFP – OC-48/STM16, 1553.33nm, 100 GHz, SM, LC

CPT 50

10-2669-01

0 to +70

ONS-SC-155-TSOP=

SFP - STM1, OC3 clear channel over GE, I Temp

CPT 50

10-2949-01

-40 to +85

ONS-SC-622-TSOP=

SFP - STM4, OC12 clear channel over GE, I Temp

CPT 50

10-2950-01

-40 to +85

Table 4 DWDM XFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Card Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-XC-10G-C=

10G Multirate Full C Band Tunable DWDM XFP, 50 GHz, LC

Fabric

10-2480-01

0 to +70

ONS-SC+-10G-30.3= through ONS-SC+-10G-61.4=

10G MR, SFP+ 1530.33, 100 GHz, LC through 10G MR, SFP+ 1561.43, 100 GHz, LC

Fabric

10-2690-01 through 10-2721-01

0 to +70

Table 5 Electrical SFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Card Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SE-ZE-EL=

SFP – 10/100/1000 Ethernet BASE-T Multirate Copper RJ-45

CPT 50

10-2351-01

-10 to +85

ONS-SE-100-LX10=

SFP - 100 Mbps Long Reach - 1310 nm - SM - LC, EXT-TEMP

CPT 50

10-2213-01

-10 to +85

ONS-SC-E1-T1-CES=

SFP - E1/DS1 PDH over FE Pseudowire (w / sync-E) - C-Temp

CPT 50

30-1462-01

-40 to +75

ONS-SC-E3-T3-CES=

SFP - E1/DS1 PDH over FE Pseudowire (w / sync-E) - C-Temp

CPT 50

30-1463-01

-40 to +75

ONS-SC-GE-BXD=

SFP-1000Base BX D- GE Bidirectional Upstream C Temp

CPT 50

10-2731-01

0 to +70

ONS-SC-GE-BXU=

SFP-1000Base BX D- GE Bidirectional Downstream C Temp

CPT 50

10-2732-01

0 to +70

Table 6 CWDM SFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Card Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SE-2G-1470= through ONS-SE-2G-1610=

SFP – OC-48/STM-16/GE, CWDM, 1470 nm Ext Temp through SFP – OC-48/STM-16/GE, CWDM, 1610 nm Ext Temp

CPT 50

10-2461-01 through 10-2468-01

0 to +85

Table 7 CWDM XFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Cards Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-XC-10G-1470= through ONS-XC-10G-1610=

OC192/10GE/OTU2, CWDM, 1470mn, XFP C-Temp, 40km range through OC192/10GE/OTU2, CWDM, 1610nm, XFP C-Temp, 40km range

CPT 50

10-2548-01 through 10-2557-011

0 to +70

Table 8 Grey SFP+ Modules

Compatible Pluggable

(Cisco Product ID)

Description

Cards Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SC+-10G-LR=

SFP+ LR – Commercial Temp

Fabric and Line

10-2618-01

0 to +70

ONS-SC+-10G-SR=

SFP+ SR – Commercial Temp

Fabric and Line

10-2620-01

0 to +70

ONS-SC+-10G-ER=

SFP+ ER – Commercial Temp

Fabric and Line

10-2619-01

0 to +70

ONS-SC+-10G-ZR=

SFP+ ZR – Commercial Temp

Fabric and Line

10-2730-01

0 to +70

ONS-SC+-10G-LRM=

SFP+ LRM - Commercial Temp

Fabric, Line and CPT 50

10-2689-01

0 to +70

ONS-SE+-10G-LR= (Extended temp LR, SFP+)

SFP+ LR - EXT Temp

Fabric, Line and CPT 50

10-2733-01

–5 to +85

Table 9 Grey XFP Modules

Compatible Pluggable

(Cisco Product ID)

Description

Cards Supported

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-XC-10G-I2=

XFP – OC-192/STM-64/10GE – 1550 IR2 – SM LC

Fabric

10-2193-02

0 to +70

ONS-XC-10G-L2=

XFP – OC-192/STM-64 – 1550 LR2 – SM LC

Fabric

10-2194-02

0 to +70

ONS-XC-10G-S1=

XFP – OC-192/STM-64/10GE – 1310 SR – SM LC

Fabric

10-2012-03

0 to +70

ONS-XC-10G-SR-MM=

XFP – Ultra Short Reach MM –10GE BASE SR

Fabric

10-2420-01

0 to +70

ONS-XC-10G-EP30.3= through ONS-XC-10G-EP61.4=

10G MR, XFP,Edge Performance 1530.33, 100 GHz, LC through 10G MR, XFP,Edge Performance 1561.43, 100 GHz, LC

Fabric

10-2577-01 through 10-2591-01

0 to +70

Table 10 SFP+ Smart Cables

Compatible Pluggable

(Cisco Product ID)

Description

Card

Cisco Top Assembly Number (TAN)

Temperature Range (°C)

ONS-SC+-10G-CU1=

10GBASE-CU SFP+ Cable 1 Meter

Fabric and Line

37-1188-01

0 to +70

ONS-SC+-10G-CU3=

10GBASE-CU SFP+ Cable 3 Meter

Fabric and Line

37-1197-01

0 to +70

ONS-SC+-10G-CU5=

10GBASE-CU SFP+ Cable 5 Meter

Fabric and Line

37-1198-01

0 to +70

ONS-SC+-10G-CU7=

10GBASE-CU SFP+ Cable 7 Meter

Fabric and Line

37-1196-01

0 to +70

SFP and SFP+ Description and Specifications

The SFP modules are integrated fiber optic transceivers that provide high speed serial links from a port or slot to the network. The SFP+ transceiver is an enhancement over the SFP optics developed for 1 Gbps Ethernet and 1 Gbps, 2 Gbps, and 4 Gbps Fibre Channel. The SFP+ modules extend the data rate up to 11.10 Gbps. SFP+ modules also provide 2-wire serial, I2C interface. The I2C interface is used for serial ID, digital diagnostics, and module control functions.

Various latching mechanisms can be utilized on the SFP and SFP+ modules. There is no correlation between the type of latch and the model type (such as SX or LX/LH) or technology type (such as Gigabit Ethernet). See the label on the SFP and SFP+ modules for technology type and model. One type of latch available is a mylar tab as shown in Figure 1, a second type of latch is an actuator/button (Figure 2), and the third type of latch is a bail clasp (Figure 3 and Figure 4).

SFP and SFP+ module dimensions are:

  • Height 0.33 inches (8.5 mm)

  • Width 0.53 inches (13.4 mm)

  • Depth 2.22 inches (56.5 mm)

SFP and SFP+ module temperature ranges are:

  • COM—Commercial operating temperature range between 23 degrees Fahrenheit to 158 degrees Fahrenheit (–5 degrees Celsius to 70 degrees Celsius)

  • EXT—Extended operating temperature range between 23 degrees Fahrenheit it to 185 degrees Fahrenheit (–5 degrees Celsius to 85 degrees Celsius)

  • IND—Industrial operating temperature range between –40 degrees Fahrenheit to 185 degrees Fahrenheit (–40 degrees Celsius to 85 degrees Celsius)


Caution

Do not add labels or markings to the SFP and SFP+ modules.

Figure 1. Mylar Tab SFP



Figure 2. Actuator/Button SFP



Figure 3. Bail Clasp SFP



Figure 4. Wide Bail Clasp SFP



SFP Specifications

The following table lists specifications for available SFPs.

Important note for the following table:

  • The LED based SFPs ( ONS-SI-100-FX) do not support the optical power transmitted (OPT) and laser bias current (LBC) optical parameters.

  • The ONS-SC-155-TSOP, and ONS-SC-622-TSOP SFPs are partially supported in Cisco CPT Software Release 9.5.3 onwards. Following is the list of supported features:

    • The TSOP SFPs support port-based VPWS and EVC configurations.
    • The default configurations (factory configurations) of TSOP SFP's can not be changed.
    • Default clock on TSOP SFPs is Ethernet (SyncE).
    • The TSOP SFP's work without pairing also.
Table 11 SFP Specifications

SFP

Interface

Transmitter Output Power Min/Max (dBm)

Receiver Input Power Min/Max (dBm)

ONS-SC-2G-28.7= through ONS-SC-2G-60.6=

OC-48, STM-16

0 to +4

–28 to –9

ONS-SE-2G-1470= through ONS-SE-2G-1610=

OC48/STM16/GE

–1 to +4

–28 to –9

ONS-SE-GE-BXD=

1000Base BXD/GE

–9 to –3

–19.5 to –3

ONS-SE-GE-BXU=

1000Base BXU/GE

–9 to –3

–19.5 to –3

ONS-SE-ZE-EL

1000 Base-T Ethernet

ONS-SI-100-FX=

Fast Ethernet

–19.0 to –14

–31.0 to –14

ONS-SI-100-LX10=

Fast Ethernet

–15.0 to –8

–28 to –8

ONS-SI-GE-ZX

GE

0 to +5

–23 to –3

ONS-SC-E1-T1-CES=

E1/DS1 over Gigabit Ethernet (when SyncE clock is used)

ONS-SC-E3-T3-CES=

E3/DS3 PDH over Gigabit Ethernet (when SyncE clock is used)

ONS-SC-155-TSOP

OC3/STM1

-5 to 0

-34 to -10

ONS-SC-622-TSOP

OC12/STM4

-3 to +2

-28 to -8

SFP+ Specifications

The following table lists specifications for available SFP+ modules.

Table 12 SFP+ Specifications

SFP+

Interface

Transmitter Output Power Min/Max (dBm)

Receiver Input Power Min/Max (dBm)

ONS-SC+-10G-ER=

10GBASE-ER

–4.7 to +4.0

–15.8 to –1.0

ONS-SC+-10G-LR=

10GBASE-LR

–8.2 to +0.5

–14.1 to +0.5

ONS-SC+-10G-LRM=

10GBASE-LRM

–6.5 to +0.5

–8.4 (in average) to +0.5

–6.4 (in OMA) to +0.5

ONS-SC+-10G-SR=

10GBASE-SR

–7.3 to –1.2

–9.9 to –1.0

ONS-SC+-10G-ZR=

10GBASE-ZR

–7.3 to –1.3

–11 to –1

ONS-SC+-10G-30.3= through ONS-SC+-10G-61.4=

OC-192, STM-64, 8GFC, 10GE, 10GFC, OTU2, OTU2e

–1.0 to +3.0

  • –7 to –23 at BER=1E-12 with PRBS31 and 10 GE frame; back-to-back with 23 dB OSNR (0.5 nm resolution bandwidth [RBW])

  • –7 to –20 at BER=1E-12 with PRBS31 and 10 GE frame; chromatic dispersion (CD) of –500 to +900 ps/nm with 23 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-12 with PRBS31 and 10 GE frame; back-to-back with 23 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-12 with PRBS31 and 10 GE frame; CD of –500 to +900 ps/nm with 20 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-5 (pre-FEC) with PRBS31 and OTU2 frame; back-to-back with 11 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-5 (pre-FEC) with PRBS31 and OTU2 frame; CD of –500 to +1100 ps/nm with 12 dB OSNR (0.5 nm RBW)

  • –7 to –27 at BER=1E-3 (pre-FEC) with PRBS31 and OTU2 frame; back-to-back with 23 dB OSNR (0.5 nm RBW)

  • –7 to –24 at BER=1E-3 (pre-FEC) with PRBS31 and OTU2 frame; CD of –500 to +1300 ps/nm with 23 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-3 (pre-FEC) with PRBS31 and OTU2 frame; back-to-back with 8 dB OSNR (0.5 nm RBW)

  • –7 to –17 at BER=1E-3 (pre-FEC) with PRBS31 and OTU2 frame; CD of –500 to +1100 ps/nm with 9 dB OSNR (0.5 nm RBW)

  • The maximum allowable Polarization Mode Dispersion (PMD) penalty at 30 ps differential group delay (DGD) is 1dB of optical power in Power Limited condition or 1 dB of OSNR in Noise Limited condition, when the residual CD is 0 ps/nm (BTB condition).

  • The maximum allowable PMD penalty at 15 ps DGD is 1dB of optical power in Power Limited condition or 1 dB of OSNR in Noise Limited condition, when the residual CD is 1100 ps/nm (System condition).

SFP and SFP+ Port Cabling Specifications

Table 6 provides cabling specifications for the SMF SFPs, Table 7 provides cabling specifications for MMF SFPs, Table 8 provides cabling specifications for SMF SFP+ modules, Table 9 provides cabling specifications for MMF SFP+ modules, and Table 10 provides cabling specifications for copper SFP+ modules that you install into interface cards. The ports of the listed SFP and SFP+ modules have LC-type connectors.

Single-Mode Fiber SFP Port Cabling Specifications

The following table provides cabling specifications for the SMF SFPs.

Table 13 Single-Mode Fiber SFP Port Cabling Specifications

SFP

Transmit Wavelength

Fiber Type

Cable Distance

ONS-SC-2G-28.7=

1528.70 nm

9 micron SMF

N/A

ONS-SC-2G-30.3=

1530.33 nm

9 micron SMF

N/A

ONS-SC-2G-31.1=

1531.12 nm

9 micron SMF

N/A

ONS-SC-2G-31.9=

1531.90 nm

9 micron SMF

N/A

ONS-SC-2G-32.6=

1532.68 nm

9 micron SMF

N/A

ONS-SC-2G-33.4=

1533.47 nm

9 micron SMF

N/A

ONS-SC-2G-34.2=

1534.25 nm

9 micron SMF

N/A

ONS-SC-2G-35.0=

1535.04 nm

9 micron SMF

N/A

ONS-SC-2G-35.8=

1535.82 nm

9 micron SMF

N/A

ONS-SC-2G-36.6=

1536.61 nm

9 micron SMF

N/A

ONS-SC-2G-37.4=

1537.40 nm

9 micron SMF

N/A

ONS-SC-2G-38.1=

1538.19 nm

9 micron SMF

N/A

ONS-SC-2G-38.9=

1538.98 nm

9 micron SMF

N/A

ONS-SC-2G-39.7=

1539.77 nm

9 micron SMF

N/A

ONS-SC-2G-40.5=

1540.56 nm

9 micron SMF

N/A

ONS-SC-2G-41.3=

1541.35 nm

9 micron SMF

N/A

ONS-SC-2G-42.1=

1542.14 nm

9 micron SMF

N/A

ONS-SC-2G-42.9=

1542.94 nm

9 micron SMF

N/A

ONS-SC-2G-43.7=

1543.73 nm

9 micron SMF

N/A

ONS-SC-2G-44.5=

1544.53 nm

9 micron SMF

N/A

ONS-SC-2G-45.3=

1545.32 nm

9 micron SMF

N/A

ONS-SC-2G-46.1=

1546.12 nm

9 micron SMF

N/A

ONS-SC-2G-46.9=

1546.92 nm

9 micron SMF

N/A

ONS-SC-2G-47.7=

1547.72 nm

9 micron SMF

N/A

ONS-SC-2G-48.5=

1548.51 nm

9 micron SMF

N/A

ONS-SC-2G-49.3=

1549.32 nm

9 micron SMF

N/A

ONS-SC-2G-50.1=

1550.12 nm

9 micron SMF

N/A

ONS-SC-2G-50.9=

1550.92 nm

9 micron SMF

N/A

ONS-SC-2G-51.7=

1551.72 nm

9 micron SMF

N/A

ONS-SC-2G-52.5=

1552.52 nm

9 micron SMF

N/A

ONS-SC-2G-53.3=

1553.33 nm

9 micron SMF

N/A

ONS-SC-2G-54.1=

1554.13 nm

9 micron SMF

N/A

ONS-SC-2G-54.9=

1554.94 nm

9 micron SMF

N/A

ONS-SC-2G-55.7=

1555.75 nm

9 micron SMF

N/A

ONS-SC-2G-56.5=

1556.55 nm

9 micron SMF

N/A

ONS-SC-2G-57.3=

1557.36 nm

9 micron SMF

N/A

ONS-SC-2G-58.1=

1558.17 nm

9 micron SMF

N/A

ONS-SC-2G-58.9=

1558.98 nm

9 micron SMF

N/A

ONS-SC-2G-59.7=

1559.79 nm

9 micron SMF

N/A

ONS-SC-2G-60.6=

1560.61 nm

9 micron SMF

N/A

ONS-SI-GE-ZX=

1550 nm

9 micron SMF

80 km (49.71 miles)

ONS-SE-GE-BXD=

1550 nm

9 micron SMF

80 km (49.71 miles)

ONS-SE-GE-BXU=

1550 nm

9 micron SMF

80 km (49.71 miles)

ONS-SC-E1-T1-CES=

9 micron SMF

1.83 km (1.136 miles)

ONS-SC-E3-T3-CES=

9 micron SMF

1.83 km (1.136 miles)

ONS-SI-100-LX10=

1310 nm

9 micron SMF

2 km (1.24 miles)

ONS-SC-155-TSOP

1310 nm

9 micron SMF

40 km (24.85 miles)

ONS-SC-622-TSOP

1310 nm

9 micron SMF

40 km (24.85 miles)

Multimode Fiber SFP Port Cabling Specifications

The following table provides cabling specifications for the MMF SFPs.

Table 14 Multimode Fiber SFP Port Cabling Specifications

SFP

Transmit Wavelength

Fiber Type

Cable Distance

ONS-SI-100-FX=

1310 nm

MMF

2 km (1.24 miles)

Single-Mode Fiber SFP+ Port Cabling Specifications

The following table provides cabling specifications for the SMF SFP+ modules.

Table 15 Single-Mode Fiber SFP+ Port Cabling Specifications

SFP+

Transmit Wavelength

Fiber Type

Cable Distance

ONS-SC+-10G-ER=

1550 nm

9 micron SMF

40 km (24.85 miles)

ONS-SC+-10G-LR=

1310 nm

9 micron SMF

10 km (6.214 miles)

ONS-SC+-10G-LRM=

1310 nm

9 micron SMF

220 m to 300 m

ONS-SC+-10G-30.3= through ONS-SC+-10G-61.4=

1530.3 - 1561.4 nm

9 micron SMF

40 km (24.85 miles)

Multimode Fiber SFP+ Port Cabling Specifications

The following table provides cabling specifications for the MMF SFP+ modules.

Table 16 Multimode Fiber SFP+ Port Cabling Specifications

SFP+

Transmit Wavelength

Fiber Type

Cable Distance

ONS-SC+-10G-SR=

840-860 nm

62.5 micron FDDI-Grade

26 m (85.3 ft)

62.5 micron OM1

33 m (108.27 ft)

50.0 micron

66 m (216.54 ft)

50.0 micron OM2

82 m (269 ft)

50.0 micron OM3

300 m (984 ft)

50.0 micron OM4

400 m (1312.36 ft)

Copper Fiber SFP+ Port Cabling Specifications

The following table provides cabling specifications for the copper fiber SFP+ modules.

Table 17 Copper Fiber SFP+ Port Cabling Specifications

SFP+

Cable Distance

ONS-SC+-10G-CU1=

1 m (3.28 ft)

ONS-SC+-10G-CU3=

3 m (9.84 ft)

ONS-SC+-10G-CU5=

5 m (16.4 ft)

ONS-SC+-10G-CU7=

7 m (22.97 ft)

XFP Description and Specifications

The 10 Gbps 1310 nm XFP transceiver is an integrated fiber optic transceiver that provides high-speed serial link at the following signaling rates—9.95 Gbps, 10.31 Gbps, 10.51 Gbps, and 10.66/10.71/11.10 Gbps. These rates apply to 10GBASE-LR (Fibre Channel and Ethernet) .

The XFP integrates the receiver and transmit path. The transmit side recovers and retimes the 10 Gbps serial data and passes it to a laser driver. The laser driver biases and modulates a 1310 nm DFB (distributed feedback) laser, enabling data transmission over SMF through an LC connector. The receive side recovers and retimes the 10 Gbps optical data stream from a positive-intrinsic-negative (PIN) photo detector, transimpedance amplifier and passes it to an output driver.

The XFP module uses the bail clasp latching mechanism as shown unlatched in the following figures. See the label on the XFP for technology type and model.

XFP module dimensions are:

  • Height 0.33 inches (8.5 mm)

  • Width 0.72 inches (18.3 mm)

  • Depth 3.1 inches (78 mm)

XFP temperature ranges are:

  • COM—Commercial operating temperature range between 23 degrees Fahrenheit to 158 degrees Fahrenheit (-5 degrees Celsius to 70 degrees Celsius)

  • EXT—Extended operating temperature range between 23 degrees Fahrenheit it to 185 degrees Fahrenheit (-5 degrees Celsius to 85 degrees Celsius)

  • IND—Industrial operating temperature range between -40 degrees Fahrenheit to 185 degrees Fahrenheit (-40 degrees Celsius to 85 degrees Celsius)


Caution

Do not add labels or markings to the XFP modules.

Figure 5. Bail Clasp XFP (Unlatched)



Figure 6. Bail Clasp XFP (Latched)



XFP Specifications

The following table lists specifications for available XFPs.

Table 18 XFP Specifications

XFP

Interface

Transmitter Output Power Min/Max (dBm)

Receiver Input Power Min/Max (dBm)

ONS-XC-8G-MM=

OC192/STM64/8GFC

–8.2 to –1.5

0.151 mW (stressed received in OMA)

ONS-XC-8G-SM=

OC192/STM64/8GFC

–8.4 to +0.5

–13.8 (–11.8 stressed) to +0.5 (targeting up to 10 km distance)

ONS-XC-10G-C=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

0 to +3

–24 to –7

ONS-XC-10G-I2=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +2

–14 to +2

ONS-XC-10G-L2=

OC-192/STM-64/10GE/10GFC/OTU2

0 to +4

–24 to –7

ONS-XC-10G-S1=

OC-192/STM64/10GE/10GFC/IB_5G

–6 to –1

–8.2 to +0.5

–11 to –1

–14.4 to +0.5

ONS-XC-10G-SR-MM=

OC-192/STM-64/10GE/10GFC/OTU2

–7.3 to –1

–9.9 to –1

ONS-XC-10G-30.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-31.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-31.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-32.6=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-33.4=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-34.2=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-35.0=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-35.8=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-36.6=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-37.4=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-38.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-38.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-39.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-40.5=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-41.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-42.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-42.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-43.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-44.5=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-45.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-46.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-46.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-47.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-48.5=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-49.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-50.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-50.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-51.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-52.5=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-53.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-54.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-54.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-55.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-56.5=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-57.3=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-58.1=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-58.9=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-59.7=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-60.6=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-61.4=

OC-192/STM-64/10GE/10GFC/OTU2/IB_5G

–1 to +3

–23 to –7

ONS-XC-10G-1470=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1490=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1510=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1530=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1550=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1570=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1590=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-1610=

OC-192/STM-64/10GE/10GFC/OTU2

+3 to +7

–14 to –0

ONS-XC-10G-EP30.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP31.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP31.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP32.6=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP33.4=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP34.2=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP35.0=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP35.8=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP36.6=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP37.4=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP38.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP38.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP39.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP40.5=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP41.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP42.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP42.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP43.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP44.5=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP45.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP46.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP46.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP47.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP48.5=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP49.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP50.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP50.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP51.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP52.5=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP53.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP54.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP54.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP55.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP56.5=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP57.3=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP58.1=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP58.9=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP59.7=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP60.6=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

ONS-XC-10G-EP61.4=

OC-192/STM-64/10GE/10GFC/OTU2

–1 to +3

–27 to –8

Single-Mode Fiber XFP Port Cabling Specifications

The following table lists specifications for single-mode fiber XFP port cabling.

Table 19 Single-Mode Fiber XFP Port Cabling Specifications

XFP

Wavelength

Fiber Type

Cable Distance

ONS-XC-10G-C=

1529.55 nm through 1561.83 nm, with ITU spacing

SMF

80 km (49.71 miles) for OC-192/STM64/10GE

ONS-XC-10G-I2=

Receiver: 1260 nm to 1565 nm

Transmitter: 1530 nm to 1565 nm

SMF

40 km (25.80 miles) for OC-192/STM64

ONS-XC-10G-L2=

Transmitter: 1530 nm to 1565 nm

Receiver: 1260 nm to 1565 nm

SMF

80 km (49.71 miles) for OC-192/STM64

ONS-XC-10G-S1=

1310 nm

SMF

10 km (6.2 miles) for 10GE/10GFC

2 km (1.2 miles) for OC-192/STM64

ONS-XC-10G-1470=

1470 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1490=

1490 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1510=

1510 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1530=

1530 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1550=

1550 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1570=

1570 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1590=

1590 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-1610=

1610 nm

SMF

40 km (25.80 miles) for OTU2 and 10GE

10 km (6.2 miles) for OC192/STM64

ONS-XC-10G-EP30.3=

1530.33 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP31.1=

1531.12 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP31.9=

1531.90 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP32.6=

1532.68 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP33.4=

1533.47 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP34.2=

1534.25 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP35.0=

1535.04 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP35.8=

1535.82 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP36.6=

1536.61 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP37.4=

1537.40 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP38.1=

1538.19 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP38.9=

1538.98 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP39.7=

1539.77 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP40.5=

1540.56 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP41.3=

1541.35 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP42.1=

1542.14 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP42.9=

1542.94 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP43.7=

1543.73 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP44.5=

1544.53 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP45.3=

1545.32 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP46.1=

1546.12 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP46.9=

1546.92 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP47.7=

1547.72 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP48.5=

1548.51 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP49.3=

1549.32 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP50.1=

1550.12 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP50.9=

1550.92 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP51.7=

1551.72 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP52.5=

1552.52 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP53.3=

1553.33 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP54.1=

1554.13 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP54.9=

1554.94 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP55.7=

1555.75 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP56.5=

1556.55 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP57.3=

1557.36 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP58.1=

1558.17 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP58.9=

1558.98 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP59.7=

1559.79 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP60.6=

1560.61 nm

SMF

50 km (31.1 miles)

ONS-XC-10G-EP61.4=

1561.43 nm

SMF

50 km (31.1 miles)

Multimode Fiber XFP Port Cabling Specifications

The following table lists specifications for multimode fiber XFP port cabling.

Table 20 Multimode Fiber XFP Port Cabling Specifications

XFP

Wavelength

Fiber Type

Cable Distance

ONS-XC-10G-SR-MM=

840 nm to 860 nm

MMF

26-300 m (0.1864 miles)

OC-192/STM64/10GE/10GFC/OTU2

NTP-G324 Install, Provision, and Delete PPMs


Warning

SFP, SFP+, and XFP modules are Class I laser products. Statement 1008


Warning

Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056


Warning

Ultimate disposal of this product should be handled according to all national laws and regulations. Statement 1040


Warning

Use of controls, adjustments, or performing procedures other than those specified may result in hazardous radiation exposure. Statement 1057


Warning

During this procedure, wear grounding wrist straps to avoid ESD damage to the card. Do not directly touch the backplane with your hand or any metal tool, or you could shock yourself. Statement 94


Warning

Before you install, operate, or service the system, read the Site Preparation and Safety Guide. This guide contains important safety information you should know before working with the system.


Warning

Only trained and qualified personnel should be allowed to install, replace, or service this equipment. Statement 148


Warning

To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety, for Ethernet RJ-45 ports, use only shielded Ethernet cables that are grounded on both ends. In a NEBS installation, all Ethernet ports are limited to intra-building wiring. Statement 7012


Warning

Ethernet ports are intra-building ports and are suitable only for connecting to shielded cabling grounded at both ends. Statement 1084


Caution

Do not use SFP, SFP+, and XFP modules from third-party vendors. Cisco TAC does not support third-party vendor SFP, SFP+, and XFP modules. A third-party vendor SFP, SFP+, and XFP modules is any SFP, SFP+, or XFP module that is not sourced from Cisco directly, or via a Cisco Partner, or Cisco authorized seller. Cisco-sourced SFP, SFP+, and XFP modules can be identified by the Cisco label and logo.

Purpose

This task installs, provisions, and deletes PPMs (SFP, SFP+, and XFP modules) on the line cards. Because SFP, SFP+, and XFP modules are hot-swappable, they can be installed and removed while the card/shelf assembly is powered and running.

Tools/Equipment

  • Wrist strap or other personal grounding device to prevent electro-static discharge (ESD) occurrences.

  • Antistatic mat or antistatic foam to set the PPM on.

  • Fiber-optic end-face cleaning tools and inspection equipment. For complete information on inspecting and cleaning fiber-optic connections, see the Inspection and Cleaning Procedures for Fiber-Optic Connections document.

Prerequisite Procedures

"NTP-J19 Install the Fabric and Line Cards" task in the chapter "Hardware" of Cisco CPT Configuration Guide.

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher

Procedure
    Step 1   Install PPMs. Complete the necessary task as applicable:
    Step 2   Provision the PPM. Complete the necessary task as applicable:
    Step 3   Delete the PPM. Complete the necessary task as applicable:

    Stop. You have completed this procedure.

    DLP-G723 Install PPM on a Line Card

    Purpose

    This task installs PPM on a line card. The PPMs provide a fiber interface to the card.

    Tools/Equipment

    • Wrist strap or other personal grounding device to prevent electro-static discharge (ESD) occurrences.

    • Antistatic mat or antistatic foam to set the PPM on.

    • Fiber-optic end-face cleaning tools and inspection equipment. For complete information on inspecting and cleaning fiber-optic connections, see the Inspection and Cleaning Procedures for Fiber-Optic Connections document.

    Prerequisite Procedures

    "NTP-J19 Install the Fabric and Line Cards" task in the chapter "Hardware" of Cisco CPT Configuration Guide.

    Required/As Needed

    As needed

    Onsite/Remote

    Onsite

    Security Level

    Provisioning or higher


    Warning

    SFP, SFP+, and XFP modules are Class I laser products. Statement 1008


    Warning

    Because invisible laser radiation may be emitted from the aperture of the port when no cable is connected, avoid exposure to laser radiation and do not stare into open apertures. Statement 70


    Warning

    Ultimate disposal of this product should be handled according to all national laws and regulations. Statement 1040


    Warning

    Use of controls, adjustments, or performing procedures other than those specified may result in hazardous radiation exposure. Statement 1057


    Warning

    To comply with the Telcordia GR-1089 NEBS standard for electromagnetic compatibility and safety, connect the serial high-speed WAN interface ports only to intra-building or unexposed wiring or cable. The intrabuilding cable must be shielded and the shield must be grounded at both ends. The intra-building port(s) of the equipment or subassembly must not be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are designed for use as intra-building interfaces only (Type 2 or Type 4 ports as described in GR-1089-CORE) and require isolation from the exposed OSP cabling. The addition of Primary Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring. Statement 7003


    Note

    In case of a full C-band tunable XFP, it is mandatory to use optical cables that are fully compliant with NEBS Telcordia GR-326-CORE, Issue 3 recommendation.

    Procedure
      Step 1   Verify that the SFP, SFP+, or XFP module is correct for your network. Ensure that you are installing compatible SFP, SFP+, or XFP module, for example, SX to SX or LX/LH to LX/LH.
      Step 2   Remove the PPM from its protective packaging.
      Step 3   Check the label to verify that the PPM is the correct type for your network.
      Step 4   Install the SFP, SFP+, or XFP module. Perform the following:
      Note    Use deep doors when ONS-SC+-10G-C pluggables are installed on a shelf.
      1. Plug the LC duplex connector of the fiber into the SFP, SFP+, or XFP module.
      2. If you are installing ONS-SC-E1-T1-CES or ONS-SC-E3-T3-CESSFP, set the dual in-line package (DIP) switches to the desired operation mode as specified in the following table.
        The ONS-SC-E1-T1-CES and ONS-SC-E3-T3-CES SFPs include a 2-section DIP switch used to select one of the following working modes of the device:

        • Database initialization

        • Normal operation (default setting)

        • Software download

        • Configuration

        On the underside of the ONS-SC-E1-T1-CES or ONS-SC-E3-T3-CES SFP, set the DIP switches as listed in the following table to enable the desired working mode.

        Table 21 DIP Switch Settings for ONS-SC-E1-T1-CES or ONS-SC-E3-T3-CES SFP

        Switch Position SW1

        Switch Position SW2

        Function

        OFF

        OFF

        Database initialization

        OFF

        ON

        Normal operation (default setting)

        ON

        OFF

        Software download

        ON

        ON

        Configuration

      3. Attach the fiber-optic cable to the SFP, SFP+, or XFP. For more information, see the DLP-G724 Connecting Single-Mode and Multimode Optical Fiber
      4. If the new SFP, SFP+, or XFP module has a latch, close the latch over the cable to secure it.
      5. Plug the cabled SFP, SFP+, or XFPinto the slot until it clicks.

        • For a mylar tab SFP, SFP+, or XFP—Slide the SFP, SFP+, or XFP into the slot.

        • For an actuator/button SFP, SFP+, or XFP—Slide the SFP, SFP+, or XFP all the way into the slot.

        • For a bail clasp SFP, SFP+, or XFP—Latch (flip upwards) the bail clasp before inserting the SFP, SFP+, or XFP into the slot and then slide it into the slot.

        A click indicates that the SFP, SFP+, or XFP module is locked into the port. In a noisy environment the click may not be audible. Verify that the SFP, SFP+, or XFP is in locked position by carefully pulling it without touching the release latch. If the SFP, SFP+, or XFP is locked, it does not come out.
        Caution   

        To avoid loss of traffic due to incorrect locking of the SFP, SFP+, or XFP module, ensure that it is locked properly.

        Note   

        SFP, SFP+, or XFP modules are keyed to prevent incorrect installation.

        SFP, SFP+, or XFP modules must be provisioned in CTC. If you install a multirate PPM, complete the DLP-G726 Preprovisioning a Multirate PPM task. (Single-rate XFPs do not need to be provisioned in CTC.)

      Step 5   Return to your originating procedure (NTP).

      DLP-G724 Connecting Single-Mode and Multimode Optical Fiber

      To connect the single-mode or multimode optical fiber, attach the appropriate optical fiber cable directly to the SC-type receptacle on the LC-type connector on the SFP, SFP+, or XFP module. You can use either simplex or duplex connectors for most devices. For simplex connectors, two cables are required, one cable for transmit (Tx) and a second cable for receive (Rx). For duplex connectors, only one cable that has both Tx and Rx connectors is required.

      Purpose

      This task connects the single-mode or multimode optical fiber for SFP, SFP+, and XFP modules installed on the line cards.

      Tools/Equipment

      None

      Prerequisite Procedures

      None

      Required/As Needed

      As needed

      Onsite/Remote

      Onsite

      Security Level

      Provisioning or higher

      Procedure
        Step 1   Remove the protective plugs from the SFP, SFP+, and XFP module and save them for future use.
        Step 2   Remove the protective caps from the connectors on the fiber-optic cable and save them for future use.
        Step 3   Clean fiber-optic connectors on fiber-optic cables.
        Step 4   Plug the fiber-optic cable into the SC-type receptacle on the LC-type connector on the SFP, SFP+, or XFP module.
        Step 5   Return to your originating procedure (NTP).

        DLP-G725 Preprovisioning PPM Slot

        Purpose

        This task preprovisions PPM (SFP, SFP+, or XFP) slot.

        Tools/Equipment

        None

        Prerequisite Procedures

        "NTP-J22 Log into CTC" task in the chapter "Understanding the Carrier Packet Transport System" of Cisco CPT Configuration Guide.

        Required/As Needed

        As needed

        Onsite/Remote

        Onsite or remote

        Security Level

        Provisioning or higher


        Note

        SFP, SFP+, and XFP modules are generically called PPMs in CTC. After installing multirate SFP, SFP+, and XFP modules, multirate PPMs must be provisioned in CTC. To complete the provisioning of the multirate pluggable port, complete the DLP-G726 Preprovisioning a Multirate PPM task.

        Procedure
          Step 1   In node view (single-shelf mode) or shelf view (multishelf mode), double-click the card where you want to provision PPM settings.
          Step 2   Click the Provisioning > Pluggable Port Modules tabs.
          Step 3   In the Pluggable Port Modules area, click Create. The Create PPM dialog box appears.
          Step 4   In the Create PPM dialog box, complete the following:

          • PPM—Choose the slot number where the SFP, SFP+, or XFP module is installed, from the drop-down list.

          • PPM Type—Choose the number of ports supported by your SFP, SFP+, or XFP module, from the drop-down list. The drop-down list displays the number of PPMs that are available for provisioning. If only one port is supported, PPM (1 port) is the only option.

          Step 5   Click OK. The newly created port appears in the Pluggable Port Modules pane. The row in the Pluggable Port Modules pane turns light blue. The Actual Equipment Type column remains blank until the actual SFP, SFP+, or XFP module is installed. After the SFP, SFP+, or XFP module is installed, the row in the pane turns white and the Actual Equipment Type column shows the equipment name.
          Note   

          For ONS-SC-E1-T1-CES and ONS-SC-E3-T3-CES SFPs, set the port rate as FE.

          Step 6   Verify that the PPM appears in the list in the Pluggable Port Modules pane. If it does not, repeat Step Step 3 through Step Step 5.
          Step 7   Repeat Step Step 2 through Step Step 5 to provision a second PPM, if needed. If not, continue with Step Step 8.
          Step 8   Click OK.
          Step 9   Return to your originating procedure (NTP).

          DLP-G726 Preprovisioning a Multirate PPM

          Purpose

          This task provisions a multirate PPM on a line card.

          Tools/Equipment

          None

          Prerequisite Procedures

          "NTP-J22 Log into CTC" task in the chapter "Understanding the Carrier Packet Transport System" of Cisco CPT Configuration Guide.

          Required/As Needed

          As needed

          Onsite/Remote

          Onsite or remote

          Security Level

          Provisioning or higher


          Note

          If the PPM was preprovisioned using the DLP-G725 Preprovisioning PPM Slot task, this task is unnecessary.

          Procedure
            Step 1   In node view (single-shelf mode) or shelf view (multishelf view), double-click the line card where you want to provision the multirate PPM settings.
            Step 2   If this is the first multirate PPM provisioned for the card, continue with Step 3. If not, complete the following steps.
            1. Click the Provisioning > Line > SONET (ANSI) or SDH (ETSI) tabs.
            2. Locate the Trunk port table row and verify that the Service State column value is OOS-MA,DSBLD (ANSI) or Locked-enabled,disabled (ETSI). If yes, continue with Step 3. If not, continue with the following step.
            3. Click the Admin State table cell and choose OOS-MA,DSBLD (ANSI) or Locked-enabled,disabled.
            4. Click Apply, then Yes.
            Step 3   Click the Provisioning > Pluggable Port Modules tabs.
            Step 4   In the Pluggable Port Modules area, click Create. The Create PPM dialog box appears.
            Step 5   In the Create PPM dialog box, complete the following:

            • PPM—Choose the slot number where the multirate PPM is installed, from the drop-down list.

            • PPM Type—Choose the number of ports supported by your multirate PPM from the drop-down list. If only one port is supported, PPM (1 port) is the only option.

            Step 6   Click OK. The newly created port appears in the Pluggable Port Modules area. The row in the Pluggable Port Modules area turns white and the Actual Equipment Type column lists the equipment name.
            Step 7   If you want to provision a PPM on another port, repeat Step 3 through Step Step 5.
            Step 8   Return to your originating procedure (NTP).

            DLP-G727 Delete PPM Provisioning

            Purpose

            This task deletes PPM provisioning for SFP, SFP+, and XFP modules installed on the line cards.

            Tools/Equipment

            None

            Prerequisite Procedures

            "NTP-J22 Log into CTC" task in the chapter "Understanding the Carrier Packet Transport System" of Cisco CPT Configuration Guide.

            Required/As Needed

            As needed

            Onsite/Remote

            Onsite or remote

            Security Level

            Provisioning or higher

            Procedure
              Step 1   In node view (single-shelf mode) or shelf view (multishelf view), double-click the line card where you want to delete PPM settings.
              Step 2   Verify that the PPM port Service State is OOS,DSBLD.
              Step 3   Click the Provisioning > Pluggable Port Modules tabs.
              Step 4   To delete a PPM and the associated ports, perform the following:
              1. In the Pluggable Port Modules area, click the PPM that you want to delete. The highlight changes to dark blue.
              2. Click Delete. The Delete PPM dialog box appears.
              3. Click Yes. The PPM provisioning is removed from the Pluggable Port Modules area and the Pluggable Ports area.
                Note   

                You cannot delete a PPM until its port is in the OOS,DSBLD state. You cannot delete a client port if the client is in the In Service and Normal (IS-NR) service state, is in a protection group, has a generic communications channel (GCC) or data communications channel (DCC), is a timing source, has circuits or overhead circuits, or transports Link Management Protocol channels or links. You can delete a client port (except the last port) if the trunk port is in service and the client port is in the OOS,DSBLD service state. You can delete the last client port only if the trunk port is in a OOS,DSBLD (ANSI) service state for all the cards. For more information about port states, see the Administrative and Service States document.

              Step 5   Verify that the PPM provisioning is deleted:

              • In the card view, CTC shows an empty port after the PPM is deleted.

              • If the PPM is physically present when you delete the PPM provisioning, CTC transitions to the deleted state, the ports (if any) are deleted, and the PPM is represented as a gray graphic in CTC. The PPM can be provisioned again in CTC, or the equipment can be removed. If the equipment is removed, the graphic disappears.

              Step 6   (Optional) If you need to remove the PPM hardware, complete the DLP-G728 Remove PPM from the Line Card.
              Step 7   Return to your originating procedure (NTP).

              DLP-G728 Remove PPM from the Line Card

              Purpose

              This task removes PPMs from the line cards.

              Tools/Equipment

              • Wrist strap or other personal grounding device to prevent electro-static discharge (ESD) occurrences.

              • Antistatic mat or antistatic foam to set the PPM on.

              • Fiber-optic end-face cleaning tools and inspection equipment. For complete information on inspecting and cleaning fiber-optic connections, see the Inspection and Cleaning Procedures for Fiber-Optic Connections document.

              Prerequisite Procedures

              None

              Required/As Needed

              As needed

              Onsite/Remote

              Onsite

              Security Level

              Provisioning or higher


              Warning

              SFP, SFP+, and XFP modules are Class I laser products. Statement 1008


              Warning

              Because invisible laser radiation may be emitted from the aperture of the port when no cable is connected, avoid exposure to laser radiation and do not stare into open apertures. Statement 70


              Warning

              Ultimate disposal of this product should be handled according to all national laws and regulations. Statement 1040


              Note
              Procedure
                Step 1   Disconnect the network fiber cable from the PPM connector. If the SFP, SFP+, and XFP connector has a latch securing the fiber cable, pull it upward to release the cable.
                Step 2   Remove PPM. Perform the following as necessary:
                Step 3   Remove SFP, SFP+, or XFP module. Perform the following:
                1. If the SFP, SFP+, or XFP connector has a latch securing the fiber cable, pull it upward to release the cable.
                2. Pull the fiber cable straight out of the connector.
                3. Release the SFP, SFP+, or XFP module from the slot by performing one of the following actions (depending on which latch is on the SFP, SFP+, or XFP):

                  • For a mylar tab SFP, SFP+, or XFP—Pull out the mylar tab.

                  • For an actuator/button SFP, SFP+, or XFP—Press the actuator/button.

                  • For a bail clasp SFP, SFP+, or XFP—Unlatch the bail clasp and swing it downward.

                4. Slide the SFP, SFP+, or XFP module out of the slot.
                Step 4   Return to your originating procedure (NTP).

                Related Documentation

                Use this document in conjunction with the following referenced publications as needed:

                • Cisco CPT Configuration Guide
                • Cisco CPT Command Reference Guide

                • Regulatory Compliance and Safety Information for Cisco CPT and Cisco ONS Platforms

                Obtaining Documentation and Submitting a Service Request

                For information on obtaining documentation, using the Cisco Bug Search Tool (BST), submitting a service request, and gathering additional information, see What's New in Cisco Product Documentation, at: http:/​/​www.cisco.com/​c/​en/​us/​td/​docs/​general/​whatsnew/​whatsnew.html.

                Subscribe to What's New in Cisco Product Documentation, which lists all new and revised Cisco technical documentation as an RSS feed and delivers content directly to your desktop using a reader application. The RSS feeds are a free service.

                Copyright © 2014, Cisco Systems, Inc. All rights reserved.

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