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SRX5600 Chassis

 

SRX5600 Services Gateway Chassis

The services gateway chassis is a rigid sheet metal structure that houses all the other components (see Figure 1, Figure 2, and Figure 3). The chassis measures 14.0 in. (35.6 cm) high, 17.45 in. (44.3 cm) wide, and 24.5 in. (62.2 cm) deep (from the front to the rear of the chassis). The chassis installs in standard 800-mm (or larger) enclosed cabinets, 19-in. equipment racks, or telco open-frame racks. Up to five services gateways can be installed in one standard (48 U) rack if the rack can handle their combined weight, which can be greater than 1100 lb (500 kg). See SRX5600 Services Gateway Physical Specifications for physical specifications for the SRX5600 Services Gateway.

Caution

Before removing or installing components of a services gateway, attach an ESD strap to an ESD point and place the other end of the strap around your bare wrist. Failure to use an ESD strap can result in damage to the services gateway.

Warning

The services gateway must be connected to earth ground during normal operation.

Figure 1: Front View of a Fully Configured Services Gateway Chassis
Front View of a Fully Configured
Services Gateway Chassis
Figure 2: Rear View of a Fully Configured AC-Powered Services Gateway Chassis
Rear View of a
Fully Configured AC-Powered Services Gateway Chassis
Figure 3: Rear View of a Fully Configured DC-Powered Services Gateway Chassis
Rear View of a Fully Configured
DC-Powered Services Gateway Chassis

SRX5600 Services Gateway Physical Specifications

Table 1 summarizes the physical specifications for the services gateway chassis.

Table 1: Physical Specifications

Description

Value

Chassis dimensions

14.0 in. (35.6 cm) high

17.45 in. (44.3 cm) wide

24.5 in. (62.2 cm) deep (from front-mounting bracket to chassis rear)

Total depth (including cable management system): 27.75 in. (70.5 cm)

Services Gateway weight

Chassis with midplane, fan tray, air filter, and cable management system: 65.5 lb (29.7 kg)

Maximum configuration: 220 lb (100 kg)

Routing Engine weight

SRX5K-RE-13-20: 2.4 lb (1.1 kg)

SRX5K-RE-1800X4: 2.4 lb (1.1 kg)

SCB weight

SRX5K-SCB: 9.6 lb (4.4 kg)

SRX5K-SCBE: 9.6 lb (4.4 kg)

SRX5K-SCB3: 10.14 lb (4.6 kg)

MPC weight (with two MICs)

13.1 lb (5.9 kg)

IOC weight

13.1 lb (5.9 kg)

Craft interface weight

1.1 lb (0.5 kg)

Fan tray weight

4.2 lb (1.9 kg)

Air filter weight

1.0 lb (0.5 kg)

Cable management weight

0.3 lb (0.14 kg)

Standard-capacity DC power supply weight (only supported on devices with SRX5K-SCB and SRX5K-RE-13-20)

3.8 lb (1.7 kg)

High-capacity DC power supply weight

6.2 lb (2.8 kg)

Standard-capacity AC power supply weight (only supported on devices with SRX5K-SCB and SRX5K-RE-13-20)

5.0 lb (2.3 kg)

High-capacity AC power supply weight

6.6 lb (3.0 kg)

SRX5600 Services Gateway Midplane Description

The midplane is located toward the rear of the chassis and forms the rear of the card cage (see Figure 4). IOCs, Flex IOCs, SPCs, and SCBs install into the midplane from the front of the chassis, and the power supplies install into the midplane from the rear of the chassis. The cooling system components also connect to the midplane.

The midplane performs the following major functions:

  • Data path—Data packets are transferred across the midplane between the IOCs and SPCs through the fabric ASICs on the SCBs.

  • Power distribution—The power supplies are connected to the midplane, which distributes power to all the services gateway components.

  • Signal path—The midplane provides the signal path to the IOCs, SCBs, SPCs, Routing Engine, and other system components for monitoring and control of the system.

The enhanced midplane supports Junos OS Release15.1X49-D10. It provides greater per-slot fabric performance and signal integrity, along with error-free high speed data transfer, and it reduces cross-talk. The midplane supports link speeds up to 10 Gbps and is not field replaceable.

Figure 4: Midplane
Midplane

SRX5600 Services Gateway Cable Manager Description

The cable management system (see Figure 5 and Figure 6) consists of plastic dividers located on the left and right sides of each IOC slot. The cable management system allows you to route the cables outside the services gateway and away from the IOCs.

Figure 5: Cable Manager
Cable Manager
Figure 6: Cable Management System Installed on the Device
Cable Management System Installed on the Device

SRX5600 Services Gateway Craft Interface Overview

The craft interface shows you status and troubleshooting information at a glance and lets you perform many system control functions. It is hot-insertable and hot-removable. The craft interface is located on the front of the services gateway above the upper fan tray. See Figure 7.

Figure 7: Front Panel of the Craft Interface
Front Panel of the Craft Interface
Note

At least one SCB must be installed in the services gateway for the craft interface to obtain power.

SRX5600 Services Gateway Craft Interface Alarm LEDs and Alarm Cutoff/Lamp Test Button

Two large alarm LEDs are located at the upper right of the craft interface. The circular red LED lights to indicate a critical condition that can result in a system shutdown. The triangular yellow LED lights to indicate a less severe condition that requires monitoring or maintenance. Both LEDs can be lit simultaneously. A condition that causes an LED to light also activates the corresponding alarm relay contact on the craft interface.

To deactivate the red and yellow alarms, press the button labeled ACO/LT (for “alarm cutoff/lamp test”), which is located to the right of the alarm LEDs. Deactivating an alarm turns off both LEDs and deactivates the device attached to the corresponding alarm relay contact on the craft interface.



Table 2 describes the alarm LEDs and alarm cutoff button in more detail.

Table 2: Alarm LEDs and Alarm Cutoff/Lamp Test Button

Shape

Color

State

Description

Red

On steadily

Critical alarm LED—Indicates a critical condition that can cause the device to stop functioning. Possible causes include component removal, failure, or overheating.

Yellow

On steadily

Warning alarm LED—Indicates a serious but nonfatal error condition, such as a maintenance alert or a significant increase in component temperature.

Alarm cutoff/lamp test button—Deactivates red and yellow alarms. Causes all LEDs on the craft interface to light (for testing) when pressed and held.

SRX5600 Services Gateway Craft Interface Host Subsystem LEDs

The host subsystem has three LEDs, located in the middle of the craft interface, that indicate its status. The LEDs labeled RE0 show the status of the Routing Engine and SCB in slot 0 .

The LEDs labeled RE1 show the status of the Routing Engine and SCB in slot 1. Table 3 describes the functions of the host subsystem LEDs.

Table 3: Host Subsystem LEDs

Label

Color

State

Description

MASTER

Green

On steadily

Host is functioning as the master.

ONLINE

Green

On steadily

Host is online and is functioning normally.

OFFLINE

Red

On steadily

Host is installed but the Routing Engine is offline.

Off

Host is not installed.

SRX5600 Services Gateway Craft Interface Power Supply LEDs

Each power supply has two LEDs on the craft interface that indicate its status. The LEDs, labeled 0 through 3, are located near the middle of the craft interface next to the PEM label. Table 4 describes the functions of the power supply LEDs on the craft interface.

Table 4: Power Supply LEDs on the Craft Interface

Label

Color

State

Description

PEM

Green

On steadily

Power supply is functioning normally.

Red

On steadily

Power supply has failed or power input has failed.

SRX5600 Services Gateway Craft Interface Card OK/Fail LEDs

Each slot in the card cage has a pair of LEDs on the craft interface that indicates the status of the card installed in it. The card LEDs are located along the bottom edge of the craft interface and are labeled 0 and 1 for the slots reserved for SCBs and 0 through 5 for the remaining slots.

Table 5 describes the functions of the OK and Fail LEDs.

Table 5: Card OK/Fail LEDs

Label

Color

State

Description

OK

Green

On steadily

The card is functioning normally.

Blinking

The card is transitioning online or offline.

Off

The card is not online.

FAIL

Red

On steadily

The card has failed.

SRX5600 Services Gateway Craft Interface Fan LEDs

Each fan LED is located on the top left of the craft interface. Table 6 describes the functions of the fan LEDs.

Table 6: Fan LEDs

Label

Color

State

Description

OK

Green

On steadily

Fan tray is functioning normally.

FAIL

Red

On steadily

Fan tray has failed.

SRX5600 Services Gateway Craft Interface Online Buttons

The craft interface has a row of Online/Offline buttons along its lower edge. Each button corresponds to one slot in the card cage. The Online/Offline buttons are only supported for slots containing MPC interface cards. You can install MPCs into slots:

  • SRX5400–Any slot except bottom slot 0

  • SRX5600–Any slot except bottom slots 0 or 1

  • SRX5800–Any slot except center slots 0 or 1

Note

The Online/Offline buttons are not supported for removal and replacement of SPCs or SCB.

Caution

While traffic is passing through the Services Gateway, particularly if the device is configured as part of a high availability (HA) cluster, we strongly recommend that you do not push any of the Online/Offline buttons.

To take an MPC offline using the Online/Offline buttons:

  1. Press and hold the corresponding card’s Online/Offline button on slot 1 on the craft interface. The green OK/FAIL LED next to the button begins to blink. Hold until both the button’s LED and the MPC’s LED are off.
  2. Issue the CLI show chassis fpc command to check the status of installed MPCs. As shown in the sample output, the value Offline in the column labeled State indicates that the MPC in slot 1 is now offline:
    user@host> show chassis fpc

    An MPC can also be taken offline via CLI command:

    user@host> request chassis fpc slot 2 offline
    user@host> show chassis fpc
    user@host> show chassis fpc

To bring an MPC back online using the Online/Offline buttons:

  1. Press and hold the corresponding card’s Online/Offline button on slot 1 on the craft interface. The green OK/FAIL LED next to the button and the MPC’s LED begins to blink. Hold until both the button’s LED and the MPC’s LED are green and steady.
  2. Issue the CLI show chassis fpc command to check the status of installed MPCs. As shown in the sample output, the value Online in the column labeled State indicates that the MPC in slot 1 is functioning normally:

    Verify if the MPC is offline:

    user@host> show chassis fpc

    The command output indicates the MPC is offline.

    Bring the MPC online for the first time by using the following CLI command:

    user@host> request chassis fpc slot 1 online

    Verify that the MPC is online:

    user@host> request chassis fpc slot 1 online node 0

    The command output indicates the MPC is online.

    Confirm that the MPC in the chassis is online:

    user@host> show chassis fpc

SRX5600 Services Gateway Craft Interface Alarm Relay Contacts

The craft interface has two alarm relay contacts for connecting the device to external alarm devices (see Figure 8). Whenever a system condition triggers either the major or minor alarm on the craft interface, the alarm relay contacts are also activated. The alarm relay contacts are located on the upper right of the craft interface.

Figure 8: Alarm Relay Contacts
Alarm Relay Contacts

The alarm relay contacts consist of two sets of connectors, one set for each of the two alarms (major and minor). For each alarm color there are three connectors. Table 7 describes the functions of the connectors.

Table 7: Alarm Relay Contact Functions

Contact Label

Contact Name

Function

NC

Normally Closed

Connects the alarm relay to an external alarm-reporting device that activates when the circuit between C and NC is closed.

C

Current In

Connects the alarm relay to the current source for the external alarm-reporting device.

NO

Normally Open

Connects the alarm relay to an external alarm-reporting device that activates when the circuit between C and NC is open.



Table 8 shows the electrical specifications for the alarm relay contacts.

Table 8: Alarm Relay Contact Electrical Specifications

Current Type

AC

DC

Maximum Voltage

250

30

Maximum Current

8 A

Figure 9 shows an example wiring diagram for a simple alarm reporting device. In this case the device is a 12-volt light bulb that illuminates when the device encounters a condition that activates the major alarm LED and relay contacts. The alarm relay contacts can also be used to activate other devices such as bells or buzzers.

Figure 9: Example Alarm Reporting Device
Example Alarm
Reporting Device