Contents

Setting Up Optical Service Channel Cards

This chapter describes the optical service channel (OSC) cards for Cisco NCS networks. For card safety and compliance information, refer to the Regulatory Compliance and Safety Information for Cisco NCS Platforms document.


Note
OSCM cards are not supported on the Cisco NCS platform.

An optical service channel (OSC) is a bidirectional channel connecting two adjacent nodes in a DWDM ring. For every DWDM node (except terminal nodes), two different OSC terminations are present, one for the west side and another for the east side. The channel transports OSC overhead that is used to manage DWDM networks. An OSC signal uses the 1510-nm wavelength and does not affect client traffic. The primary purpose of this channel is to carry clock synchronization and orderwire channel communications for the DWDM network. It also provides transparent links between each node in the network. The OSC is an OC-3/STM-1 formatted signal.

There are two versions of the OSC modules: the OSCM, and the OSC-CSM, which contains the OSC wavelength combiner and separator component in addition to the OSC module.

The Mesh/Multiring Upgrade (MMU) card is used to optically bypass a given wavelength from one section of the network or ring to another one without requiring 3R regeneration.


Note

OSC can be created on the OC3 port (SFP-0) of the TNC and TNCE cards.

The TNC and TNCE cards support two optical service channels (OSC): primary OSC and secondary OSC.

The primary optical service channel (SFP-0) supports the following interfaces:

  • OC-3/STM-1

  • Fast Ethernet (FE)

  • Gigabit Ethernet (GE).

The secondary optical service channel (SFP-1) supports the following interfaces:

  • Fast Ethernet (FE)

  • Gigabit Ethernet (GE).

Card Compatibility

Table 1 Software Release Compatibility for Optical Service Channel Cards in Cisco NCS

Card Name

R10.0 - R10.3

R10.1

R10.3

R10.5

OSC-CSM

NCS 2002, NCS 2006

NCS 2002, NCS 2006

NCS 2002, NCS 2006

NCS 2002, NCS 2006

Class 1 Laser Safety Labels

For information about safety labels, see the "Safety Labels" section.

OSC-CSM Card


Note

For OSC-CSM card specifications, see the OSC-CSM Card Specifications document.

The OSC-CSM card is used in unamplified nodes. This means that the booster amplifier with the OSC wavelength combiner and separator is not required for OSC-CSM operation. The OSC-CSM can be installed in Slots 1 to 6 and 12 to 17. To operate in hybrid mode, the OSC-CSM cards must be accompanied by cross-connect cards. The cross-connect cards enable functionality on the OC-N/STM-N cards and electrical cards.

The OSC-CSM supports the following features:

  • Optical combiner and separator module for multiplexing and demultiplexing the optical service channel to or from the wavelength division multiplexing (WDM) signal

  • OC-3/STM-1 formatted OSC

  • SDC forwarded to the TCC2/TCC2P/TCC3 cards for processing

  • Distribution of the synchronous clock to all nodes in the ring

  • 100BaseT FE UC

  • Monitoring functions such as orderwire support

  • Optical safety: Signal loss detection and alarming, fast transmitted power shut down by means of an optical 1x1 switch

  • Optical safety remote interlock (OSRI), a feature capable of shutting down the optical output power

  • Automatic laser shutdown (ALS), a safety mechanism used in the event of a fiber cut. For details on ALS provisioning for the card, see the . For information on using the card to implement ALS in a network, see the .

The WDM signal coming from the line is passed through the OSC combiner and separator, where the OSC signal is extracted from the WDM signal. The WDM signal is sent along with the remaining channels to the COM port (label on the front panel) for routing to the OADM or amplifier units, while the OSC signal is sent to an optical transceiver.

The OSC is an OC-3/STM-1 formatted signal. The OC-3/STM-1 SDCC or RS-DCC overhead bytes are used for network communications. An optical transceiver terminates the OC-3/STM-1, and then it is regenerated and converted into an electrical signal. The SDCC or RS-DCC bytes are forwarded to the active and standby TCC2/TCC2P/TCC3 cards for processing via the SCL bus on the backplane. Orderwire bytes (E1, E2, F1) are also forwarded via the SCL bus to the TCC2/TCC2P/TCC3 for forwarding to the AIC-I card.

The payload portion of the OC-3/STM-1 is used to carry the fast Ethernet UC. The frame is sent to a POS processing block that extracts the Ethernet packets and makes them available at the RJ-45 front panel connector.

The OSC-CSM distributes the reference clock information by removing it from the incoming OC-3/STM-1 signal and then sending it to the active and standby TCC2/TCC2P/TCC3 cards. The clock distribution is different from the OSCM card because the OSC-CSM does not use Slot 8 or 10 (cross-connect card slots).


Note

S1 and S2 (Figure 4-5 on page 4-10) are optical splitters with a splitter ratio of 2:98. The result is that the power at the MON TX port is about 17 dB lower than the relevant power at the COM RX port, and the power at the MON RX port is about 20 dB lower than the power at the COM TX port. The difference is due to the presence of a tap coupler for the P1 photodiode.

For more information about the OSCM card, see http:/​/​www.cisco.com/​en/​US/​prod/​collateral/​optical/​ps5724/​ps2006/​product_​data_​sheet09186a00801a1641.html.

OSC-CSM Card Functions

The functions of the OSC-CSM card are:

OSC-CSM Card Power Monitoring

Physical photodiodes P1, P2, P3, and P5 monitor the power for the OSC-CSM card. Their function is as follows:

  • P1: The returned power value is calibrated to the LINE RX port, including the insertion loss of the previous filter (the reading of this power dynamic range has been brought backward towards the LINE RX output).

  • P2: The returned value is calibrated to the LINE RX port.

  • P3: The returned value is calibrated to the COM RX port.

  • P5: The returned value is calibrated to the OSC TX port, including the insertion loss of the subsequent filter.

The returned power level values are calibrated to the ports as shown in the following table.

Table 2 OSC-CSM Port Calibration

Photodiode

CTC Type Name

Calibrated to Port

Power

PM Parameters

P1

Input Line

LINE RX

Channel Power

Supported

OSC Power

P2

Input Line

LINE RX

OSC Power

Supported

P3

Input Com

COM RX

Channel Power

Supported

P5

Output OSC

OSC TX

OSC Power

Supported

The OSC power on the LINE TX is the same as the power reported from P5.

The PM parameters for the power values are listed at Optics and 8b10b PM Parameter Definitions.

For information on the associated TL1 AIDs for the optical power monitoring points, refer the “CTC Port Numbers and TL1 Aids” section in Cisco ONS SONET TL1 Command Guide.

Related Procedures for the OSC-CSM Card

The following is the list of procedures and tasks related to the configuration of the OSC-CSM card:

Setting Up Optical Service Channel Cards

Setting Up Optical Service Channel Cards

This chapter describes the optical service channel (OSC) cards for Cisco NCS networks. For card safety and compliance information, refer to the Regulatory Compliance and Safety Information for Cisco NCS Platforms document.


Note
OSCM cards are not supported on the Cisco NCS platform.

An optical service channel (OSC) is a bidirectional channel connecting two adjacent nodes in a DWDM ring. For every DWDM node (except terminal nodes), two different OSC terminations are present, one for the west side and another for the east side. The channel transports OSC overhead that is used to manage DWDM networks. An OSC signal uses the 1510-nm wavelength and does not affect client traffic. The primary purpose of this channel is to carry clock synchronization and orderwire channel communications for the DWDM network. It also provides transparent links between each node in the network. The OSC is an OC-3/STM-1 formatted signal.

There are two versions of the OSC modules: the OSCM, and the OSC-CSM, which contains the OSC wavelength combiner and separator component in addition to the OSC module.

The Mesh/Multiring Upgrade (MMU) card is used to optically bypass a given wavelength from one section of the network or ring to another one without requiring 3R regeneration.


Note

OSC can be created on the OC3 port (SFP-0) of the TNC and TNCE cards.

The TNC and TNCE cards support two optical service channels (OSC): primary OSC and secondary OSC.

The primary optical service channel (SFP-0) supports the following interfaces:

  • OC-3/STM-1

  • Fast Ethernet (FE)

  • Gigabit Ethernet (GE).

The secondary optical service channel (SFP-1) supports the following interfaces:

  • Fast Ethernet (FE)

  • Gigabit Ethernet (GE).

Card Compatibility

Table 1 Software Release Compatibility for Optical Service Channel Cards in Cisco NCS

Card Name

R10.0 - R10.3

R10.1

R10.3

R10.5

OSC-CSM

NCS 2002, NCS 2006

NCS 2002, NCS 2006

NCS 2002, NCS 2006

NCS 2002, NCS 2006

Class 1 Laser Safety Labels

For information about safety labels, see the "Safety Labels" section.

OSC-CSM Card


Note

For OSC-CSM card specifications, see the OSC-CSM Card Specifications document.

The OSC-CSM card is used in unamplified nodes. This means that the booster amplifier with the OSC wavelength combiner and separator is not required for OSC-CSM operation. The OSC-CSM can be installed in Slots 1 to 6 and 12 to 17. To operate in hybrid mode, the OSC-CSM cards must be accompanied by cross-connect cards. The cross-connect cards enable functionality on the OC-N/STM-N cards and electrical cards.

The OSC-CSM supports the following features:

  • Optical combiner and separator module for multiplexing and demultiplexing the optical service channel to or from the wavelength division multiplexing (WDM) signal

  • OC-3/STM-1 formatted OSC

  • SDC forwarded to the TCC2/TCC2P/TCC3 cards for processing

  • Distribution of the synchronous clock to all nodes in the ring

  • 100BaseT FE UC

  • Monitoring functions such as orderwire support

  • Optical safety: Signal loss detection and alarming, fast transmitted power shut down by means of an optical 1x1 switch

  • Optical safety remote interlock (OSRI), a feature capable of shutting down the optical output power

  • Automatic laser shutdown (ALS), a safety mechanism used in the event of a fiber cut. For details on ALS provisioning for the card, see the . For information on using the card to implement ALS in a network, see the .

The WDM signal coming from the line is passed through the OSC combiner and separator, where the OSC signal is extracted from the WDM signal. The WDM signal is sent along with the remaining channels to the COM port (label on the front panel) for routing to the OADM or amplifier units, while the OSC signal is sent to an optical transceiver.

The OSC is an OC-3/STM-1 formatted signal. The OC-3/STM-1 SDCC or RS-DCC overhead bytes are used for network communications. An optical transceiver terminates the OC-3/STM-1, and then it is regenerated and converted into an electrical signal. The SDCC or RS-DCC bytes are forwarded to the active and standby TCC2/TCC2P/TCC3 cards for processing via the SCL bus on the backplane. Orderwire bytes (E1, E2, F1) are also forwarded via the SCL bus to the TCC2/TCC2P/TCC3 for forwarding to the AIC-I card.

The payload portion of the OC-3/STM-1 is used to carry the fast Ethernet UC. The frame is sent to a POS processing block that extracts the Ethernet packets and makes them available at the RJ-45 front panel connector.

The OSC-CSM distributes the reference clock information by removing it from the incoming OC-3/STM-1 signal and then sending it to the active and standby TCC2/TCC2P/TCC3 cards. The clock distribution is different from the OSCM card because the OSC-CSM does not use Slot 8 or 10 (cross-connect card slots).


Note

S1 and S2 (Figure 4-5 on page 4-10) are optical splitters with a splitter ratio of 2:98. The result is that the power at the MON TX port is about 17 dB lower than the relevant power at the COM RX port, and the power at the MON RX port is about 20 dB lower than the power at the COM TX port. The difference is due to the presence of a tap coupler for the P1 photodiode.

For more information about the OSCM card, see http:/​/​www.cisco.com/​en/​US/​prod/​collateral/​optical/​ps5724/​ps2006/​product_​data_​sheet09186a00801a1641.html.

OSC-CSM Card Functions

OSC-CSM Card Power Monitoring

Physical photodiodes P1, P2, P3, and P5 monitor the power for the OSC-CSM card. Their function is as follows:

  • P1: The returned power value is calibrated to the LINE RX port, including the insertion loss of the previous filter (the reading of this power dynamic range has been brought backward towards the LINE RX output).

  • P2: The returned value is calibrated to the LINE RX port.

  • P3: The returned value is calibrated to the COM RX port.

  • P5: The returned value is calibrated to the OSC TX port, including the insertion loss of the subsequent filter.

The returned power level values are calibrated to the ports as shown in the following table.

Table 2 OSC-CSM Port Calibration

Photodiode

CTC Type Name

Calibrated to Port

Power

PM Parameters

P1

Input Line

LINE RX

Channel Power

Supported

OSC Power

P2

Input Line

LINE RX

OSC Power

Supported

P3

Input Com

COM RX

Channel Power

Supported

P5

Output OSC

OSC TX

OSC Power

Supported

The OSC power on the LINE TX is the same as the power reported from P5.

The PM parameters for the power values are listed at Optics and 8b10b PM Parameter Definitions.

For information on the associated TL1 AIDs for the optical power monitoring points, refer the “CTC Port Numbers and TL1 Aids” section in Cisco ONS SONET TL1 Command Guide.

Related Procedures for the OSC-CSM Card

The following is the list of procedures and tasks related to the configuration of the OSC-CSM card: