Cisco ONS 15454 SDH Reference Manual, Release 4.0
Chapter 5, Ethernet Cards
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Ethernet Cards

Table Of Contents

Ethernet Cards

5.1  Ethernet Card Overview

5.1.1  Ethernet Cards

5.1.2  Card Power Requirements

5.1.3  Card Temperature Ranges

5.2  E100T-G Card

5.2.1  Slot Compatibility

5.2.2  E100T-G Card-Level Indicators

5.2.3  E100T-G Port-Level Indicators

5.2.4  E100T-G Card Specifications

5.3  E1000-2-G Card

5.3.1  Compatibility

5.3.2  E1000-2-G Card-Level Indicators

5.3.3  E1000-2-G Port-Level Indicators

5.3.4  E1000-2-G Card Specifications

5.4  G1000-4 Card

5.4.1  VC4-8c Restriction

5.4.2  G1000-4 Card-Level Indicators

5.4.3  G1000-4 Port-Level Indicators

5.4.4  Compatibility

5.4.5  G1000-4 Card Specifications

5.5  G1K-4 Card

5.5.1  VC4-8c Restriction

5.5.2  Compatibility

5.5.3  G1K-4 Card-Level Indicators

5.5.4  G1K-4 Port-Level Indicators

5.5.5  G1K-4 Card Specifications

5.6  ML100T-12 Card

5.6.1  ML100T-12 Card-Level Indicators

5.6.2  ML100T-12 Port-Level Indicators

5.6.3  Slot Compatibility

5.6.4  ML100T-12 Card Specifications

5.7  ML1000-2 Card

5.7.1  ML1000-2 Card-Level Indicators

5.7.2  ML1000-2 Port-Level Indicators

5.7.3  Slot Compatibility

5.7.4  ML1000-2 Card Specifications

5.8  GBICs and SFPs

5.8.1  Small Form-Factor Pluggable Connectors

5.8.2  Ethernet Gigabit Interface Converters (GBICs)


Ethernet Cards



Note The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration. Cisco does not recommend using its path protection feature in any particular topological network configuration.


The Cisco ONS 15454 SDH integrates Ethernet into a SDH time-division multiplexing (TDM) platform. This chapter describes the Cisco ONS 15454 SDH E-Series Ethernet cards, the G-Series Ethernet cards, and ML-Series Ethernet cards. It includes descriptions, hardware specifications, and block diagrams for each card. For G-Series and E-Series Ethernet application information, see Chapter 13, "Ethernet Operation." For installation and card turn-up procedures, refer to the Cisco ONS 15454 SDH Procedure Guide. For ML-Series configuration information, see the Cisco ONS 15454 SONET/SDH ML-Series Multilayer Ethernet Card Software Feature and Configuration Guide.

Chapter topics include:

Ethernet Card Overview

E100T-G Card

E1000-2-G Card

G1000-4 Card

G1K-4 Card

ML100T-12 Card

ML1000-2 Card

GBICs and SFPs

5.1  Ethernet Card Overview

The card overview section summarizes card functions, power consumption, and temperature ranges.


Note Each card is marked with a symbol that corresponds to a slot (or slots) on the ONS 15454 shelf assembly. The cards are then installed into slots displaying the same symbols. See the Cisco ONS 15454 Procedure Guide for a list of slots and symbols.


5.1.1  Ethernet Cards

Table 5-1 lists the Cisco ONS 15454 SDH Ethernet cards.

Table 5-1 Ethernet Cards for the ONS 15454 SDH 

Card
Port Description
For Additional Information...

E100T-G

The E100T-G card provides 12 switched, autosensing, 10/100BaseT Ethernet ports.

See the "E100T-G Card" section.

E1000-2-G

The E1000-2-G card provides two IEEE-compliant, 1000-Mbps ports. GBICs are separate.

See the "E1000-2-G Card" section.

G1000-4

The G1000-4 card provides four IEEE-compliant, 1000-Mbps ports. GBICs are separate.

See the "G1000-4 Card" section.

G1K-4

The G1K-4 card provides four IEEE-compliant, 1000-Mbps ports. GBICs are separate. The G1K-4 card is functionally identical to the G1000-4 card.

See the "G1K-4 Card" section.

ML100T-12

The ML100T-12 card provides 12 switched, autosensing, 10/100Base-T Ethernet ports.

See the "ML100T-12 Card" section.

ML1000-2

The ML1000-2 card provides two IEEE-compliant, 1000-Mbps ports. Small form-factor pluggable (SFP) connectors are separate.

See the "ML1000-2 Card" section.


5.1.2  Card Power Requirements

Table 5-2 lists power requirements for individual cards.

Table 5-2 Individual Card Power Requirements 

Card Name
Watts
Amps
BTU/hr

E100T-G

65.00

1.35

221.93

E1000-2-G

53.50

1.11

182.67

G1000-4

63.00
incl. GBICs

1.31

215.11

G1K-4

63.00
incl. GBICs

1.31

215.11

ML100T-12

53.00

1.10

181.0

ML1000-2

49.00
incl. SFPs

1.02

167.3


5.1.3  Card Temperature Ranges

Table 5-3 shows C-Temp and I-Temp compliant cards and their product names.


Note The I-Temp symbol is displayed on the faceplate of an I-Temp compliant card. A card without this symbol is C-Temp compliant.


Table 5-3 Ethernet Card Temperature Ranges and Product Names for the ONS 15454 SDH 

Card
C-Temp Product Name
( 0 to +55 degrees Celsius)
I-Temp Product Name
(-40 to +65 degrees Celsius)

E100T-G

15454-E100T-G

E1000-2-G

15454-E1000-2-G

G1000-4

15454-G1000-4

G1K-4

15454-G1K-4

ML100T-12

15454-ML100T-12

ML1000-2

15454-ML1000-2


5.2  E100T-G Card

The ONS 15454 uses E100T-G cards for Ethernet (10 Mbps) and Fast Ethernet (100 Mbps). Each card provides 12 switched, IEEE 802.3-compliant, 10/100BaseT Ethernet ports that can independently detect the speed of an attached device (autosense) and automatically connect at the appropriate speed. The ports auto-configure to operate at either half or full duplex and determine whether to enable or disable flow control. You can also configure Ethernet ports manually. Figure 5-1 shows the faceplate and a block diagram of the card.

Figure 5-1 E100T-G Faceplate and Block Diagram

The E100T-G Ethernet card provides high-throughput, low-latency packet switching of Ethernet traffic across a SDH network while providing a greater degree of reliability through SDH "self-healing" protection services. This Ethernet capability enables network operators to provide multiple 10/100 Mbps access drops for high-capacity customer LAN interconnects, Internet traffic, and cable modem traffic aggregation. It enables the efficient transport and co-existence of traditional TDM traffic with packet-switched data traffic.

Each E100T-G card supports standards-based, wire-speed, Layer 2 Ethernet switching between its Ethernet interfaces. The IEEE 802.1Q tag logically isolates traffic (typically subscribers). IEEE 802.1Q also supports multiple classes of service.

5.2.1  Slot Compatibility

You can install the E100T-G card in any multi-speed or high-speed slot (Slots 1 to 6 and 12 to 17). Multiple E-Series Ethernet cards installed in an ONS 15454 can act independently or as a single Ethernet switch. You can create logical SDH ports by provisioning a number of SDH channels to the packet switch entity within the ONS 15454 SDH. Logical ports can be created with a bandwidth granularity of VC-4. In single-card, multi-card or port-mapped mode, the E-Series supports one VC-4-1c, two VC-4-2c, or four VC-4-4c signal levels.

5.2.2  E100T-G Card-Level Indicators

The E100T-G card faceplate has two card-level LED indicators (Table 5-4).

Table 5-4 E100T-G Card-Level Indicators  

Card-Level Indicators
Description
Red FAIL LED

The red FAIL LED indicates that the card's processor is not ready or catastrophic software failure occurred on the E100T-G card. As part of the boot sequence, the FAIL LED is turned on until the software deems the card operational.

Green ACT LED

A green ACT LED provides the operational status of the E100T-G. If the ACT LED is green it indicates that the E100T-G card is active and the software is operational.

SF LED

Not used.


5.2.3  E100T-G Port-Level Indicators

The E100T-G card also has 12 pairs of LEDs (one pair for each port) to indicate port conditions (Table 5-5). You can find the status of the E100T-G card port using the LCD screen on the ONS 15454 fan-tray assembly. Use the LCD to view the status of any port or card slot; the screen displays the number and severity of alarms for a given port or slot.

Table 5-5 E100T-G Port-Level Indicators  

LED State
Description
Yellow (A)

Port is active (transmitting and/or receiving data). By default, indicates the transmitter is active but can be software controlled to indicate link status, duplex status, or receiver active.

Solid Green (L)

Link is established. By default, indicates the link for this port is up, but can be software controlled to indicate duplex status, operating speed, or collision.


5.2.4  E100T-G Card Specifications

The E100T-G card has the following specifications:

Environmental

Operating temperature:

C-Temp (15454-E100T-G): 0 to +55 degrees Celsius

Operating Humidity: 5 to 95%, noncondensing

Power Consumption: 65 W, 1.35 A, 221.93 BTU/hr

Dimensions

Height: 12.650 in.

Width: 0.716 in.

Depth: 9.000 in.

Card weight: 1.0 kg (2.3 lb)

Compliance

ONS 15454 cards, when installed in a system, comply with these standards: Safety: UL 1950, CSA C22.2 No. 950, EN 60950, IEC 60950

5.3  E1000-2-G Card

The ONS 15454 uses E1000-2-G cards for Gigabit Ethernet (1000 Mbps). The E1000-2-G card provides two IEEE-compliant, 1000-Mbps ports for high-capacity customer LAN interconnections. Each port supports full-duplex operation.

The E1000-2-G card uses GBIC modular receptacles for the optical interfaces. For details, see the "Ethernet Gigabit Interface Converters (GBICs)" section.

Figure 5-2 shows the card faceplate and a block diagram of the card.

Figure 5-2 E1000-2-G Faceplate and Block Diagram

The E1000-2-G Gigabit Ethernet card provides high-throughput, low-latency packet switching of Ethernet traffic across a SDH network while providing a greater degree of reliability through SDH "self-healing" protection services. This enables network operators to provide multiple 1000-Mbps access drops for high-capacity customer LAN interconnects. It enables efficient transport and co-existence of traditional TDM traffic with packet-switched data traffic.

Each E1000-2-G card supports standards-based, Layer 2 Ethernet switching between its Ethernet interfaces and SDH interfaces on the ONS 15454. The IEEE 802.1Q VLAN tag logically isolates traffic (typically subscribers).

Multiple E-Series Ethernet cards installed in an ONS 15454 can act together as a single switching entity or as independent single switches supporting a variety of SDH port configurations.

You can create logical SDH ports by provisioning a number of SDH channels to the packet switch entity within the ONS 15454 SDH. Logical ports can be created with a bandwidth granularity of VC-4. In single-card, multi-card or port-mapped mode, the E-Series supports one VC-4-1c, two VC-4-2c, or four VC-4-4c signal levels.

5.3.1  Compatibility

The E1000-2-G is compatible with any traffic card slots (Slots 1 to 6 and 12 to 17).

5.3.2  E1000-2-G Card-Level Indicators

The E1000-2-G card faceplate has two card-level LED indicators (Table 5-6).

Table 5-6 E1000-2-G Card-Level Indicators  

Card-Level Indicators
Description

Red FAIL LED

The red FAIL LED indicates that the card's processor is not ready or catastrophic software failure occurred on the E1000-2-G card. As part of the boot sequence, the FAIL LED is turned on until the software deems the card operational.

Green ACT LED

A green ACT LED provides the operational status of the E1000-2-G. If the ACT LED is green it indicates that the E1000-2-G card is active and the software is operational.

SF LED

Not used.


5.3.3  E1000-2-G Port-Level Indicators

The E1000-2-G card also has one bicolor LED per port (Table 5-7). When the green LINK LED is on, carrier is detected, meaning an active network cable is installed. When the green LINK LED is off, an active network cable is not plugged into the port, or the card is carrying unidirectional traffic. The amber port ACT LED flashes at a rate proportional to the level of traffic being received and transmitted over the port.

Table 5-7 E1000-2-G Port-Level Indicators  

LED State
Description

Amber

The port is active (transmitting and receiving data).

Solid Green

The link is established.

Green Light Off

The connection is inactive, or traffic is unidirectional.


5.3.4  E1000-2-G Card Specifications

The E1000-2-G card has the following specifications:

Environmental

Operating temperature:

C-Temp (15454-E1000-2-G): 0 to +55 degrees Celsius

Operating humidity: 5- 95%, noncondensing

Power consumption: 53.50 W, 1.11 A, 182.67 BTU/hr

Dimensions

Height: 12.650 in.

Width: 0.716 in.

Depth: 9.000 in.

Card weight: 0.9 kg (2.1 lb)

Compliance

ONS 15454 cards, when installed in a system, comply with these standards: Safety: UL 1950, CSA C22.2 No. 950, EN 60950, IEC 60950

Eye Safety Compliance: Class I (21 CFR 1040.10 and 1040.11) and Class 1M (IEC 60825-1 2001-01) laser products

5.4  G1000-4 Card

The ONS 15454 uses G1000-4 cards for Gigabit Ethernet (1000 Mbps). The G1000-4 card provides four ports of IEEE-compliant, 1000-Mbps interfaces. Each port supports full-duplex operation for a maximum bandwidth of OC-48 on each card.

The G1000-4 card uses GBIC modular receptacles for the optical interfaces. For details, see the "Ethernet Gigabit Interface Converters (GBICs)" section.

Figure 5-3 shows the card faceplate and the block diagram of the card.

Figure 5-3 G1000-4 Faceplate and Block Diagram

The G1000-4 Gigabit Ethernet card provides high-throughput, low latency transport of Ethernet encapsulated traffic (IP and other Layer 3 protocols) across a SDH network. Carrier-class Ethernet transport is achieved by hitless (< 50 ms) performance in the event of any failures or protection switches (such as 1+1 APS, path protection configuration, or BLSR). Full provisioning support is possible via CTC, TL1, or CTM.

Valid circuit sizes for a G-Series circuit are VC4, VC4-2c, VC4-3c, VC4-4c, VC4-8c, and VC4-16c.

5.4.1  VC4-8c Restriction

Due to hardware constraints, the card imposes an additional restriction on the combinations of circuits that can be dropped onto a G-Series card. These restrictions are transparently enforced by the ONS 15454, and you do not need to keep track of restricted circuit combinations.

When a single VC4-8c terminates on a card, the remaining circuits on that card can be another single VC4-8c or any combination of circuits of VC4-4c size or less that add up to no more than VC4-4c.

If VC4-8c circuits are not being dropped on the card, the full VC4-16c bandwidth can be used with no restrictions (for example using either a single VC4-16c or four VC4-4c circuits).


Note The VC4-8c restriction only applies when a single VC4-8c circuit is dropped; therefore, you can easily minimize the impact of this restriction. Group the VC4-8c circuits together on a card separate from circuits of other sizes. The grouped circuits can be dropped on other G-Series cards on the ONS 15454 SDH.


5.4.2  G1000-4 Card-Level Indicators

The G1000-4 card faceplate has two card-level LED indicators (Table 5-8).

Table 5-8 G1000-4 Card-Level Indicators  

Card-Level LEDs
Description

FAIL LED (red)

The red FAIL LED indicates the card's processor is not ready or a catastrophic software failure occurred on the G1000-4 card. As part of the boot sequence, the FAIL LED is turned on, and it turns off if the software is deemed operational.

The red FAIL LED blinks, when the card is loading software.

ACT LED (green)

A green ACT LED provides the operational status of the G1000-4. If the ACT LED is green it indicates that the G1000-4 card is active and the software is operational.


5.4.3  G1000-4 Port-Level Indicators

The G1000-4 card also has one bicolor LED per port. Table 5-9 describes the status that each color represents.

Table 5-9 G1000-4 Port-Level Indicators  

Port-Level LED
Description

Off

No link exists to the Ethernet port.

Steady Amber

A link exists to the Ethernet port, but traffic flow is inhibited. For example, an unconfigured circuit, an error on line, or a nonenabled port may inhibit traffic flow.

Solid Green

A link exists to the Ethernet port, but no traffic is carried on the port.

Flashing Green

A link exists to the Ethernet port, and traffic is carried on the port. The LED flash rate reflects the traffic rate for the port.


5.4.4  Compatibility

The G-Series card is compatible in any multi-speed or high-speed traffic slots (Slots 1 to 6 and 12 to 17), for a total shelf capacity of 48 Gigabit Ethernet ports. The practical G1000-4 port per shelf limit is 40, because at least two slots are typically filled by OC-N trunk cards such as the OC-192.

5.4.5  G1000-4 Card Specifications

The G1000-4 card has the following specifications:

Environmental

Operating temperature:
C-Temp (15454-G1000-4): 0 to +55 degrees Celsius

Operating humidity: 5 to 95%, noncondensing

Power consumption: 63.00 W, 1.31 A, 215.11 BTU/hr

Dimensions

Height: 12.650 in.

Width: 0.716 in.

Depth: 9.000 in.

Card weight: 0.9 kg (2.1 lb)

5.5  G1K-4 Card

The G1K-4 card is the functional equivalent of the G1000-4 card and provides four ports of IEEE-compliant, 1000-Mbps interfaces. Each interface supports full-duplex operation for a maximum bandwidth of 1 Gbps or 2 Gbps bidirectional per port, and 2.5 Gbps or 5 Gbps bidirectional per card. Each port autonegotiates for full duplex and 802.3x flow control. The G1K-4 card uses GBIC modular receptacles for the optical interfaces. For details, see the "Ethernet Gigabit Interface Converters (GBICs)" section.

Figure 5-4 shows the card faceplate and the block diagram of the card.


Warning Class 1 laser product.


Figure 5-4 G1K-4 Faceplate and Block Diagram


Warning Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments.


The G1K-4 Gigabit Ethernet card provides high-throughput, low-latency transport of Ethernet encapsulated traffic (IP and other Layer 3 protocols) across a SDH network while providing a greater degree of reliability through SDH "self-healing" protection services. Carrier-class Ethernet transport is achieved by hitless (< 50 ms) performance in the event of any failures or protection switches (such as 1+1 APS, path protection configuration, BLSR, or optical equipment protection) and full provisioning and manageability, as in SDH service. Full provisioning support is possible via CTC or CTM. Each G1K-4 card performs independently of the other cards in the same shelf.

5.5.1  VC4-8c Restriction

Due to hardware constraints, the card imposes an additional restriction on the combinations of circuits that can be dropped onto a G-Series card. These restrictions are transparently enforced by the ONS 15454, and you do not need to keep track of restricted circuit combinations.

When a single VC4-8c terminates on a card, the remaining circuits on that card can be another single VC4-8c or any combination of circuits of VC4-4c size or less that add up to no more than VC4-4c.

If VC4-8c circuits are not being dropped on the card, the full VC4-16c bandwidth can be used with no restrictions (for example using either a single VC4-16c or four VC4-4c circuits).


Note The VC4-8c restriction only applies when a single VC4-8c circuit is dropped; therefore, you can easily minimize the impact of this restriction. Group the VC4-8c circuits together on a card separate from circuits of other sizes. The grouped circuits can be dropped on other G-Series cards on the ONS 15454 SDH.


5.5.2  Compatibility

Software R4.0 and later identifies G1K-4 cards as G1K-4s upon physical installation. Software prior to R4.0 identifies both G1000-4 and G1K-4 cards as G1000-4s upon physical installation.

You can install the G1K-4 card into any multi-speed or high-speed traffic slots (Slots 1 to 6 and 12 to 17), for a total shelf capacity of 48 Gigabit Ethernet ports. (The practical limit is 40 ports because at least two slots are typically populated by optical cards such as the OC-192.)

5.5.3  G1K-4 Card-Level Indicators

The G1K-4 card faceplate has two card-level LED indicators, listed in Table 5-10.

Table 5-10 G1K-4 Card-Level Indicators  

Card-Level LEDs
Description

FAIL LED (red)

The red FAIL LED indicates that the card's processor is not ready or that a catastrophic software failure occurred on the G1K-4 card. As part of the boot sequence, the FAIL LED is turned on, and it goes off when the software is deemed operational.

The red FAIL LED blinks, when the card is loading software.

ACT LED (green)

A green ACT LED provides the operational status of the G1K-4. If the ACT LED is green, it indicates that the G1K-4 card is active and the software is operational.


5.5.4  G1K-4 Port-Level Indicators

The G1K-4 card has four bicolor LEDs (one LED per port). Table 5-11 describes these LEDs.

Table 5-11 G1K-4 Port-Level Indicators  

Port-Level LED
Description

Off

No link exists to the Ethernet port.

Steady amber

A link exists to the Ethernet port, but traffic flow is inhibited. For example, a lack of circuit setup, an error on the line, or a nonenabled port might inhibit traffic flow.

Solid green

A link exists to the Ethernet port, but no traffic is carried on the port.

Flashing green

A link exists to the Ethernet port, and traffic is carried on the port. The LED flash rate reflects the traffic rate for the port.


5.5.5  G1K-4 Card Specifications

The G1K-4 card has the following specifications:

Environmental

Operating temperature: -5 to +55 degrees Celsius (+23 to +131 degrees Fahrenheit)

Operating humidity: 5- 95%, noncondensing

Power consumption: 63.00 W, 1.31 A at -48 V, 215.1 BTU/hr

Dimensions

Height: 321.3 mm (12.650 in.)

Width: 18.2 mm (0.716 in.)

Depth: 228.6 mm (9.000 in.)

Depth with backplane connector: 235 mm (9.250 in.)

Weight not including clam shell: 0.9 kg (2.1 lb)

Compliance

ONS 15454 optical cards, when installed in a system, comply with these standards:

Safety: IEC 60950, EN 60950, UL 60950, CSA C22.2 No. 60950, TS 001, AS/NZS 3260, IEC 60825-1, IEC 60825-2, 21 CFR 1040-10, and 21 CFR 1040.11

Class 1 laser product

5.6  ML100T-12 Card

The ML100T-12 card provides 12 ports of IEEE 802.3-compliant, 10/100 interfaces. Each interface supports full-duplex operation for a maximum bandwidth of 200 Mbps per port and 2.488 Gbps per card. Each port independently detects the speed of an attached device (autosenses) and automatically connects at the appropriate speed. The ports autoconfigure to operate at either half or full duplex and can determine whether to enable or disable flow control. For ML-Series configuration information, see the Cisco ONS 15454 SONET/SDH ML-Series Multilayer Ethernet Card Software Feature and Configuration Guide.

Figure 5-5 shows the card faceplate.


Caution Shielded twisted-pair cabling should be used for inter-building applications.

Figure 5-5 ML100T-12 Faceplate

Figure 5-6 shows a block diagram of the ML100T-12 card.

Figure 5-6 ML100T-12 Block Diagram

The ML100T-12 Ethernet card provides high-throughput, low-latency packet switching of Ethernet traffic across an SDH network while providing a greater degree of reliability through SDH "self-healing" protection services. This Ethernet capability enables network operators to provide multiple 10/100-Mbps access drops for high-capacity customer LAN interconnects, Internet traffic, and cable modem traffic aggregation. Efficient transport and co-existence of traditional TDM traffic with packet-switched data traffic are provided.

5.6.1  ML100T-12 Card-Level Indicators

The ML00T-12 card supports two card-level LED indicators. The card-level indicators are listed in Table 5-12.

Table 5-12 ML100T-12 Card-Level Indicators  

Card-Level LEDs
Description

Red FAIL LED

The red FAIL LED indicates that the card's processor is not ready or that a catastrophic software failure occurred on the ML100T-12 card. As part of the boot sequence, the FAIL LED is turned on until the software deems the card operational.

Green ACT LED

A green ACT LED provides the operational status of the ML100T-12. If the ACT LED is green, it indicates that the ML100T-12 card is active and the software is operational.


5.6.2  ML100T-12 Port-Level Indicators

The ML100T-12 card provides a pair of LEDs for each Fast Ethernet port: an amber LED for Activity (ACT) and a green LED for Link. The port-level indicators are described in Table 5-13.

Table 5-13 ML100T-12 Port-Level Indicators  

Port-Level Indicators
Description

ACT LED (Amber)

Steady amber LED indicates a link is detected, but there is an issue inhibiting traffic.

Blinking amber LED means traffic flowing.

LINK LED (Green)

Steady green LED indicates that a link is detected, but there is no traffic.

Blinking green LED flashes at a rate proportional to the level of traffic being received and transmitted over the port.

Both ACT and LINK LED

Unlit green and amber LEDs indicate no traffic.


5.6.3  Slot Compatibility

The ML100T-12 card works in any multi-speed or high-speed card slot (Slot 1 to 6 or 12 to 17).

5.6.4  ML100T-12 Card Specifications

The ML100T-12 card has the following specifications:

Environmental

Operating temperature: -5 to +55 degrees Celsius (+23 to +131 degrees Fahrenheit)

Operating humidity: 5 to 95%, noncondensing

Power consumption: 53.00 W, 1.10 A at -48 V, 181.0 BTU/hr

Dimensions

Height: 321.3 mm (12.650 in.)

Width: 18.2 mm (0.716 in.)

Depth: 228.6 mm (9.000 in.)

Depth with backplane connector: 235 mm (9.250 in.)

Weight not including clam shell: 1.0 kg (2.3 lb)

Compliance

ONS 15454 cards, when installed in a system, comply with these standards:

Safety: IEC 60950, EN 60950, UL 60950, CSA C22.2 No. 60950, TS 001, and AS/NZS 3260

5.7  ML1000-2 Card

The ML1000-2 card provides two ports of IEEE-compliant, 1000-Mbps interfaces. Each interface supports full-duplex operation for a maximum bandwidth of 2 Gbps per port and 4 Gbps per card. Each port autoconfigures for full duplex and IEEE 802.3x flow control.

SFP modules are offered as separate orderable products for maximum customer flexibility. For details, see the "Small Form-Factor Pluggable Connectors" section.

Figure 5-7 shows the ML1000-2 card faceplate.


Warning Class 1 laser product.


Figure 5-7 ML1000-2 Faceplate

Figure 5-8 shows a block diagram of the ML1000-2 card.

Figure 5-8 ML1000-2 Block Diagram


Warning Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments.


The ML1000-2 Gigabit Ethernet card provides high-throughput, low-latency packet switching of Ethernet encapsulated traffic (IP and other Layer 3 protocols) across an SDH network while providing a greater degree of reliability through SDH "self-healing" protection services. This enables network operators to provide multiple 1000-Mbps access drops for high-capacity customer LAN interconnects, Internet traffic, and cable modem traffic aggregation. Efficient transport and co-existence of traditional TDM traffic with packet-switched data traffic is provided.

5.7.1  ML1000-2 Card-Level Indicators

The ML1000-2 card faceplate has two card-level LED indicators. The card-level indicators are listed in Table 5-14.

Table 5-14 ML1000-2 Card-Level Indicators  

Card-Level LEDs
Description

FAIL LED (Red)

The red FAIL LED indicates that the card's processor is not ready or that a catastrophic software failure occurred on the ML1000-2 card. As part of the boot sequence, the FAIL LED is turned on until the software deems the card operational.

ACT LED (Green)

A green ACT LED provides the operational status of the ML1000-2. When the ACT LED is green, it indicates that the ML1000-2 card is active and the software is operational.


5.7.2  ML1000-2 Port-Level Indicators

The ML1000-2 card has two LEDs for each of the two Gigabit Ethernet ports. The port-level indicators are described in Table 5-15.

Table 5-15 ML1000-2 Port-Level Indicators

Port-Level Indicators
Description

ACT LED (Amber)

Steady amber LED indicates a link is detected, but there is an issue inhibiting traffic.

Blinking amber LED means traffic flowing.

LINK LED (Green)

Steady green LED indicates that a link is detected, but there is no traffic.

Blinking green LED flashes at a rate proportional to the level of traffic being received and transmitted over the port.

Both ACT and LINK LED

Unlit green and amber LEDs indicate no traffic.


5.7.3  Slot Compatibility

The ML1000-2 card works in any multi-speed or high-speed card slot (Slot 1 to 6 or 12 to 17).

5.7.4  ML1000-2 Card Specifications

The ML1000-2 card has the following specifications:

Environmental

Operating temperature: -5 to +55 degrees Celsius (+23 to +131 degrees Fahrenheit)

Operating humidity: 5 to 95%, noncondensing

Power consumption: 49.00 W, 1.02 A at -48 V, 167.3 BTU/hr

Dimensions

Height: 321.3 mm (12.650 in.)

Width: 18.2 mm (0.716 in.)

Depth: 228.6 mm (9.000 in.)

Depth with backplane connector: 235 mm (9.250 in.)

Weight not including clam shell: 2.1 lb (0.9 kg)

Compliance

ONS 15454 optical cards, when installed in a system, comply with these standards:

Safety: IEC 60950, EN 60950, UL 60950, CSA C22.2 No. 60950, TS 001, AS/NZS 3260, IEC 60825-1, IEC 60825-2, 21 CFR 1040-10, and 21 CFR 1040.11

Class 1 laser product

5.8  GBICs and SFPs

The ONS 15454 SDH Ethernet cards use industry standard small form-factor pluggable connectors (SFPs) and gigabit interface converter (GBIC) modular receptacles. The Gigabit ML-Series card uses SFPs. The Gigabit E-Series card and the G-Series card use Ethernet GBICs. For all Ethernet cards, the type of GBIC or SFP plugged into the card is displayed on the CTC and TL1. Table 5-16 lists the usable GBICs for the E-Series and G-Series ONS 15454 Gigabit Ethernet cards.

Table 5-16 GBICs and SFPs for Ethernet Cards

Card
Usable GBICs

E1000-2-G

IEEE 1000BaseSX compliant 850-nm GBIC
IEEE 1000BaseLX compliant 1300-nm GBIC

G1K-4/G1000-4

IEEE 1000BaseSX compliant 850-nm GBIC
IEEE 1000BaseLX compliant 1300-nm GBIC
IEEE 1000BaseZX compliant 1550-nm GBIC

ML1000-2

IEEE 1000BaseSX compliant 850-nm SFP
IEEE 1000BaseLX compliant 1300-nm SFP


5.8.1  Small Form-Factor Pluggable Connectors

The ML-Series Gigabit Ethernet cards use standard Cisco SFPs. SFPs are hot-swappable input/output devices that plug into a Gigabit Ethernet port to link the port to the network. Cisco offers the SFP modules as separate orderable products:

IEEE 1000BaseSX compliant, 850-nm optical module
The 850-nm SX optics are designed for multimode fiber and distances of up to 220 meters (722 feet) on 62.5 micron fiber and up to 550 meters (1804 feet) on 50 micron fiber.

IEEE 1000BaseLX-compliant, 1300-nm optical module
The 1300-nm LX optics are designed for single-mode fiber and distances of up to 10 kilometers (6.2 miles).


Note When using an LX SFP with 62.5-micron diameter MMF cable, you must install a mode-conditioning patch cord (CAB-GELX-625 or equivalent) between the SFP and the MMF cable on both the transmit and receive ends of the link. The mode-conditioning patch cord is required for link distances less than 100 m (328 feet) or greater than 300 m (984 feet). The mode-conditioning patch cord prevents overdriving the receiver for short lengths of MMF and reduces differential mode delay for long lengths of MMF.


Table 5-17 lists the usable SFPs for the ML-Series ONS 15454 Gigabit Ethernet cards.

Table 5-17 Usable SFPs for ML-Series Gigabit Ethernet Cards

Card
Usable SFPs

ML1000-2

IEEE 1000BaseSX compliant 850-nm SFP
IEEE 1000BaseLX compliant 1300-nm SFP


5.8.2  Ethernet Gigabit Interface Converters (GBICs)

The E-Series and G-Series Gigabit Ethernet cards use standard Cisco GBIC modular receptacles. GBICs are hot-swappable input/output devices that plug into a Gigabit Ethernet port to link the port to the fiber-optic network or network cabling. Cisco offers three GBIC modules as separate orderable products for maximum flexibility:

IEEE 1000BaseSX compliant, 850-nm, optical module.
The 850 nm SX optics are designed for multimode fiber and distances of up to 220 meters (722 feet) on 62.5 micron fiber and up to 550 meters (1804 feet) on 50 micron fiber.

IEEE 1000BaseLX compliant, 1300-nm, optical module.
The 1300-nm LX optics are designed for single-mode fiber and distances of up to 10 kilometers (6.2 miles).


Note When using an LX GBIC with 62.5-micron diameter multimode fiber-optic cable (MMF), you must install a mode-conditioning patch cord (CAB-GELX-625 or equivalent) between the GBIC and the MMF cable on both the transmit and receive ends of the link. The mode-conditioning patch cord is required for link distances less than 328 feet (100 m) or greater than 984 feet (300 m). The mode-conditioning patch cord prevents overdriving the receiver for short lengths of MMF and reduces differential mode delay for long lengths of MMF.


IEEE 1000Base ZX compliant, 1550-nm, optical module.
The 1550-nm ZX optics are designed for single-mode fiber and distances of up to 80 kilometers (50 miles).