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Connecting the EX4200 to Power

 

Connect Earth Ground to an EX Series Switch

To ensure proper operation and to meet safety and electromagnetic interference (EMI) requirements, you must connect an EX Series switch to earth ground before you connect power to the switch. You must use the protective earthing terminal on the switch chassis to connect the switch to earth ground (see Figure 2).

You must install the EX Series switch in a restricted–access location and ensure that the chassis is always properly grounded. EX Series switches have a two–hole protective grounding terminal provided on the chassis. See Table 1 for the location of the earthing terminals on various EX Series switches. We recommend that you use the protective grounding terminal as the preferred method for grounding the chassis regardless of the power supply configuration. However, if additional grounding methods are available, you can also use those methods. For example, you can use the grounding wire in the power cord of an AC power supply or use the grounding terminal or lug on a DC power supply. This system was tested to meet or exceed all applicable EMC regulatory requirements with the two-hole protective grounding terminal connected correctly.

Ensure that a licensed electrician has attached an appropriate grounding lug to the grounding cable you supply. Using a grounding cable with an incorrectly attached lug can damage the switch.

Parts and Tools Required for Connecting an EX Series Switch to Earth Ground

Before you begin connecting an EX Series switch to earth ground, ensure you have the parts and tools required for your switch.

Table 1 lists the earthing terminal location, grounding cable and lug specifications, and parts needed for connecting an EX Series switch to earth ground.

Table 1: Parts Required for Connecting an EX Series Switch to Earth Ground

Switch

Earthing Terminal Location

Grounding Cable Requirements

Grounding Lug Specifications

Screws and Washers

Additional Information

EX2200

Rear panel of the chassis

14 AWG (2 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCC10-14BWL or equivalent—

not provided

  • Two 10-32 x .25 in. screws with #10 split-lock washer—

    not provided

  • Two #10 flat washers—not provided

 

EX2300-C

Rear panel of the chassis

14 AWG (2 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCC10-14AW-L or equivalent—

not provided

  • Two 10-32 x .25 in. screws with #10 split-lock washer—

    not provided

  • Two #10 flat washers—not provided

 

EX2300

Rear panel of the chassis

  • EX2300 switches except EX2300-24MP and EX2300-48MP models—14 AWG (2 mm²), minimum 90°C wire, or as permitted by the local code

  • EX2300-24MP and EX2300-48MP models—14-10 AWG STR (2.5-6 mm²), 12-10 AWG SOL (4-6 mm²) minimum 90°C wire, or as permitted by the local code—not provided

  • EX2300 switches except EX2300-24MP and EX2300-48MP models—Panduit LCC10-14AW-L or equivalent—not provided

  • EX2300-24MP and EX2300-48MP models—Panduit LCA10-10L or equivalent—not provided

  • EX2300 switches except EX2300-24MP and EX2300-48MP models

    • Two 10-32 x .25 in. screws with #10 split-lock washer—not provided

    • Two #10 flat washers—not provided

  • EX2300-24MP and EX2300-48MP models

    • One Pan Phillips M 4 x 6 mm Nickel plated screw—provided

 

EX3200, EX3300, and EX3400

Rear panel of the chassis

14 AWG (2 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCC10-14BWL or equivalent—

not provided

  • Two 10-32 x .25 in. screws with #10 split-lock washer—

    not provided

  • Two #10 flat washers—

    not provided

For EX3200 Switches See Special Instructions to Follow Before Connecting Earth Ground to an EX Series Switch.

EX4200, EX4500, and EX4550

Left side of the chassis

14 AWG (2 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCC10-14BWL or equivalent—

not provided

  • Two 10-32 x .25 in. screws with #10 split-lock washer—

    not provided

  • Two #10 flat washers—

    not provided

See Special Instructions to Follow Before Connecting Earth Ground to an EX Series Switch.

EX6210

Rear panel of the chassis (on lower left side)

The grounding cable must be the same gauge as the power feed cables and as permitted by the local code.

Panduit LCD2-14A-Q or equivalent

—provided

  • Two ¼ -20 x 0.5 in. screws with #¼” split-washer

    —provided

  • Two #¼” flat washers—

    provided

 

EX8208

Left side of the chassis

6 AWG (13.3 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCD2-14A-Q or equivalent

—provided

  • Two ¼ -20 x 0.5 in. screws with #¼” split-washer

    —provided

  • Two #¼” flat washers—

    provided

 

EX8216

Two earthing terminals:

  • Left side of the chassis

  • Rear panel of the chassis

Note: You must use only one of the two protective earthing terminals.

2 AWG (33.6 mm²), minimum 90° C wire, or as permitted by the local code

Panduit LCD2-14A-Q or equivalent

—provided

  • Two ¼ -20 x 0.5 in. screws with #¼” split-washer

    —provided

  • Two #¼” flat washers—

    provided

 

EX9204, EX9208, and EX9214

Rear panel of the chassis

One 6 AWG (13.3 mm²), minimum 90° C wire, or one that complies with the local code

Thomas& Betts LCN6-14 or equivalent—

provided

  • Two ¼ -20 x 0.5 in. screws with #¼” split-washer—

    provided

  • Two #¼” flat washers—

    provided

See Grounding Cable and Lug Specifications for EX9200 Switches.

EX9251

Rear panel of the chassis

12 AWG (2.5 mm²), minimum 90° C wire, or one that complies with the local code—

not provided

Panduit LCD10-10A-L or equivalent—

not provided

Two 10-32 screws—

provided

See Grounding Cable and Lug Specifications for EX9200 Switches.

EX9253

Right side of the chassis

14-10 AWG (2-5.3 mm²), minimum 90° C wire, or one that complies with the local code—

not provided

Panduit LCD10-14B-L or equivalent—

provided

Two M5 Pan Head screws—

provided

 

Tools required for connecting an EX Series switch to earth ground:

  • An electrostatic discharge grounding strap (provided)

  • A Phillips (+) number 2 screwdriver to tighten the screws.

An AC–powered EX Series switch gains additional grounding when you plug the power supply in the switch into a grounded AC power outlet by using an AC power cord appropriate for your geographical location.

Special Instructions to Follow Before Connecting Earth Ground to an EX Series Switch

Table 2 lists the special instructions that you might need to follow before connecting earth ground to a switch.

Table 2: Special Instructions to Follow Before Connecting Earth Ground to an EX Series Switch

Switch

Special Instructions

EX3200 and EX4200

Some early variants of EX3200 and EX4200 switches for which the Juniper Networks model number on the label next to the protective earthing terminal is from 750-021xxx through 750-030xxx require 10-24x.25 in. screws.

EX4200, EX4500, and EX4550

If you plan to mount your switch on four posts of a rack or cabinet, mount your switch in the rack or cabinet before attaching the grounding lug to the switch.

Note: The protective earthing terminal on switches mounted on four posts of a rack is accessible through the slot on the left rear bracket only if the rack is 27.5 in. (69.85 cm) through 30.5 in. (77.47 cm) deep for a switch mounted flush with the rack front and 29.5 in. (74.93 cm) through 32.5 in. (82.55 cm) deep for a switch mounted 2 in. (5.08 cm) recessed from the rack front. See Figure 1.

Figure 1: Connecting the Grounding Lug to a Switch Mounted on Four Posts of a Rack
Connecting the Grounding
Lug to a Switch Mounted on Four Posts of a Rack
  1
Protective earthing terminal
  3
Grounding lug
  2
Side mounting-rail
  4
Rear mounting-blade

Note: The brackets must be attached to the chassis before the grounding lug is attached. (The brackets are shown pulled away from the chassis so that the protective earthing terminal is seen.)

Connecting Earth Ground to an EX Series Switch

To connect earth ground to an EX Series switch:

  1. Verify that a licensed electrician has attached the cable lug to the grounding cable.
  2. Connect one end of the grounding cable to a proper earth ground, such as the rack in which the switch is mounted.
  3. Attach an ESD grounding strap to your bare wrist, and connect the strap to the ESD grounding point on the switch.
  4. Place the grounding lug attached to the grounding cable over the protective earthing terminal. See Figure 2.
    Figure 2: Connecting a Grounding Cable to an EX Series Switch
    Connecting a Grounding Cable to an EX Series Switch
  5. Secure the grounding lug to the protective earthing terminal with the washers and screws.
  6. Dress the grounding cable and ensure that it does not touch or block access to other switch components and that it does not drape where people could trip over it.

Connecting AC Power to an EX4200 Switch

The power supply in an EX4200 switch is a hot-removable and hot-insertable field-replaceable unit (FRU) located on the rear panel: You can remove and replace it without powering off the switch or disrupting switch functions.

Before you begin connecting AC power to an EX4200 switch:

  • Ensure that you have connected the device chassis to earth ground, if required by your site guidelines or installation. A ground connection to the protective earthing terminal is not required for an AC-powered switch. The AC power cords provide adequate grounding when you connect the power supply in the switch to a grounded AC power outlet by using the AC power cord appropriate for your geographical location (see AC Power Cord Specifications for EX4200 Switches).

    Caution

    For installations that require a separate grounding conductor to the chassis, have a licensed electrician complete this connection before you connect the switch to power. For instructions on connecting earth ground, see Connect Earth Ground to an EX Series Switch.

  • Install the power supply in the chassis. For instructions on installing a power supply in an EX4200 switch, see Installing a Power Supply in an EX4200 Switch.

Note

Each power supply must be connected to a dedicated power source outlet.

Ensure that you have the following parts and tools available:

  • A power cord appropriate for your geographical location

To connect AC power to the switch:

  1. Ensure that the power supplies are fully inserted in the chassis and the screws on their faceplates are tightened.
  2. Squeeze the two sides of the power cord retainer clip and insert the L-shaped ends of the wire clip into the holes in the bracket on each side of the AC power cord inlet on the AC power supply faceplate (see Figure 3).
  3. Locate the power cord or cords shipped with the switch; the cords have plugs appropriate for your geographical location. Warning

    Ensure that the power cord does not block access to switch components or drape where people can trip on it.

  4. Insert the coupler end of the power cord into the AC power cord inlet on the AC power supply faceplate.
  5. Push the cord into the slot in the adjustment nut of the power cord retainer. Turn the nut until it is tight against the base of the coupler and the slot in the nut is turned 90° from the top of the switch (see Figure 4).
  6. If the AC power source outlet has a power switch, set it to the OFF (0) position.
  7. Insert the power cord plug into an AC power source outlet.
  8. If the AC power source outlet has a power switch, set it to the ON (|) position.
  9. Verify that the AC OK LED on the power supply is lit and is on steadily.Note

    When you connect power to the switch, the Alarm (ALM) LED lights red. This behavior is normal. Plugging an active Ethernet cable into the management (MGMT) port on the switch completes the network link and turns off the ALM LED. (See Connect a Device to a Network for Out-of-Band Management.)

    Connecting the switch to a dedicated management console instead of a network does not affect the ALM LED. The LED remains red until the switch is connected to a network.

Figure 3: Connecting the AC Power Cord Retainer Clip to an AC Power Supply in an EX4200 Switch
Connecting the AC Power Cord Retainer Clip to an AC Power Supply
in an EX4200 Switch
Figure 4: Connecting an AC Power Cord to an AC Power Supply in an EX4200 Switch
Connecting an AC Power Cord to an AC Power Supply in an EX4200 Switch

Connecting DC Power to an EX4200 Switch

The power supply in an EX4200 switch is a hot-removable and hot-insertable field-replaceable unit (FRU) located on the rear panel: You can remove and replace it without powering off the switch or disrupting switch functions.

Figure 5: DC Power Supply in an EX4200 Switch
DC Power Supply
in an EX4200 Switch
Warning

DC-powered EX4200 switches are intended for installation only in a restricted access location.

Before you begin connecting DC power to an EX4200 switch:

  • Ensure that you have connected the switch chassis to earth ground.

    Caution

    Ensure that you install the power supply module first and then install the DC input wire, before closing input breaker ON.

    Caution

    Before you connect power to the switch, a licensed electrician must attach a cable lug to the grounding and power cables that you supply. A cable with an incorrectly attached lug can damage the switch (for example, by causing a short circuit).

    To meet safety and electromagnetic interference (EMI) requirements and to ensure proper operation, you must connect EX4200 switches to earth ground before you connect them to power. For installations that require a separate grounding conductor to the chassis, use the protective earthing terminal on the switch chassis to connect to the earth ground. For instructions on connecting earth ground, see Connect Earth Ground to an EX Series Switch.

  • Install the power supply in the chassis. For instructions on installing a power supply in an EX4200 switch, see Installing a Power Supply in an EX4200 Switch.

Ensure that you have the following parts and tools available:

  • DC power source cables (12–14 AWG) with ring lug (Molex 190700067 or equivalent) (not provided)

  • Phillips (+) screwdriver, number 2

To connect DC power to the switch:

  1. Ensure that the power supplies are fully inserted in the chassis and the screws on their faceplates are tightened.
  2. Ensure that the input circuit breaker is open so that the voltage across the DC power source cable leads is 0 V and that the cable leads will not become active while you are connecting DC power.Note

    The DC power supply in the switch has four terminals labeled A+, B+, A–, and B– (see Figure 5) for connecting DC power source cables labeled positive (+) and negative (–). The DC power supplies are shipped with jumpers from A+ input to B+ input tied together and jumpers from A– input to B– input tied together.

    Note

    The A+ and B+ terminals are referred to as +RTN and A– and B– terminals are referred to as –48 V in DC Power Wiring Sequence Warning and DC Power Electrical Safety Guidelines.

  3. Remove the screw securing the terminal block cover using the screwdriver and remove the terminal block cover (see Figure 6). Save the screw.
    Figure 6: Removing the Terminal Block Cover from a DC Power Supply
    Removing the Terminal Block Cover from a DC Power Supply
  4. Remove the screws on the terminals using the screwdriver. Save the screws.Warning

    Ensure that the power cables do not block access to switch components or drape where people can trip on them.

    Note

    To supply sufficient power, terminate the DC input wiring on a facility DC source that is capable of supplying a minimum of 8 A at –48 VDC.

  5. Connect the power supplies to the power sources. Secure power source cables to the power supplies by screwing the ring lugs attached to the cables to the appropriate terminals by using the screw from the terminals (see Figure 7).
    • To connect a power supply to a power source:

      1. Leave the jumpers on the power supply terminals in place.
      2. Secure the ring lug of the positive (+) DC power source cable to the A+ or B+ terminal on the DC power supply.
      3. Secure the ring lug of the negative (–) DC power source cable to the A– or B– terminal on the DC power supply.
      4. Tighten the screws on the power supply terminals until snug using the screwdriver. Do not overtighten—apply between 8 lb-in. (0.9 Nm) and 9 lb-in. (1.02 Nm) of torque to the screws.

      If you have a second installed power supply, connect it in the same way you did the first.

    • To connect one power supply to two power sources:

      1. Remove the jumpers on the power supply terminal block.
      2. Secure the ring lug of the positive (+) DC power source cable from the first DC power source to the A+ terminal on the first DC power supply.
      3. Secure the ring lug of the negative (–) DC power source cable from the first DC power source to the A– terminal on the first DC power supply.
      4. Secure the ring lug of the positive (+) DC power source cable from the second DC power source to the A+ terminal on the second DC power supply.
      5. Secure the ring lug of the negative (–) DC power source cable from the second DC power source to the A– terminal on the second DC power supply.
      6. Tighten the screws on the power supply terminals on both the power supplies until snug using the screwdriver. Do not overtighten—apply between 8 lb-in. (0.9 Nm) and 9  lb-in. (1.02 Nm) of torque to the screws.
    Figure 7: Securing Ring Lugs to the Terminals on the DC Power Supply
    Securing Ring Lugs to the Terminals on the DC Power Supply
  6. Replace the terminal block cover and secure it using the screw. Use the screwdriver to tighten the screw.
  7. Close the input circuit breaker.
  8. Verify that the LEDs on the power supply are lit green and are on steadily.