Install Power Link 2000

To install Power Link 2000, complete the following set of steps:

Do not install or service the charging station in inclement weather. If you work in snow, rain, or wind, you must use a weather-proof shelter that covers all boxes and components.
Warranty Limitation
  • If the charging station is not installed, commissioned, or serviced by a ChargePoint certified technician using a ChargePoint-approved method, it is excluded from all ChargePoint and other warranties and ChargePoint is not responsible.
  • You must be a licensed electrician and complete training at https://www.chargepoint.com/partners/training-certification to become ChargePoint certified and to access ChargePoint's web-based installer tools or ChargePoint Installer app.
Use low torque settings when working with power tools during installation or servicing. Over-torquing can damage the equipment.
While installing fasteners inside a product enclosure, make sure not to drop the fasteners inside conduit openings. You may use conduit caps or covers to temporarily cover the conduit openings.
Ensure that the installation complies with all applicable codes and ordinances.

If the site has height constraints for installation, contact ChargePoint to get instructions and clearances that you will need for the modified process.

Alternatively, you may use a forklift bracket kit, or a crane with lifting shackles and a spreader bar (constraints may differ among sites).

Install Leveling Nuts

To install leveling nuts, complete the following steps:

  1. If applicable, remove protective caps (x4).

    Technical illustration depicts the procedural step.

  2. Clean away residue, if any.

    Technical illustration depicts the procedural step.

  3. Find the M16 hex nuts and washers shipped with the Power Link 2000.

  4. Install M16 washers (x4) and hex nuts (x4) onto the anchor bolts, and flush them against the base. Torque to 54.2 Nm (40 ft-lb).

    Technical illustration depicts the procedural step.

  5. Install another set of M16 hex nuts (x4) and washers (x4) onto the anchor bolts and leave a 6.4 mm (0.25 in) gap between the nuts for leveling the Power Link 2000.

    Technical illustration depicts the procedural step.

  6. Ensure the nuts are level.

    Technical illustration depicts the procedural step.

Install Power Link 2000 Assembly

To install Power Link 2000 assembly, complete the following steps:

Position Power Link 2000 Assembly over Anchor Bolts

To position Power Link 2000 assembly over anchor bolts, complete the following steps:

  1. Open and unpack the Power Link 2000 package (see Power Link 2000 with non-LCC or Power Link 2000 with LCC).

  2. Position the forklift to insert strap loops onto the forks. Make sure that the straps are not near the open ends of the forks. Power Link 2000 comes with straps and eye bolts attached for lifting.

    Technical illustration depicts the procedural step.

  3. Gradually lift and position Power Link 2000 over the anchor bolts.

    Technical illustration depicts the procedural step.

 

Open Enclosure Door

To open enclosure door, complete the following steps:

  1. Quarter turn the door latches (x2 per upper and lower enclosure door).

    Technical illustration depicts the procedural step.

  2. Open the door and engage the door stopper (x1 per upper and lower enclosure door).

    Technical illustration depicts the procedural step.

Install Power Link 2000 onto Anchor Bolts

To install Power Link 2000 onto anchor bolts, complete the following steps:

  1. Align the anchor bolt holes (x4) on the Power Link 2000 with the anchor bolts and slowly move the Power Link 2000 down to rest it on the leveling nuts.

    If the wires have been pulled before mounting the Power Link 2000 or if the site is using armored cables directly buried and exposed from underground without conduits, route wires through conduit opening at the bottom of the Power Link 2000.

    Technical illustration depicts the procedural step.

  2. Make sure that the Power Link 2000 is resting on the leveling nuts and is level and plumb. If not, adjust the leveling nuts.

    Technical illustration depicts the procedural step.

  3. When the Power Link 2000 is level and plumb, install another set of M16 washers (x4) and hex nuts (x4) onto the anchor bolts. Torque to 94.9 Nm (70 ft-lb).

    Technical illustration depicts the procedural step.

  4. Release the lifting straps, and remove the eye bolts (x4) and rubber washers (x4). Use either an adjustable wrench or screwdriver shaft to loosen the eye bolts.

    Technical illustration depicts the procedural step.

If wires shall enter the Power Link 2000 by surface conduit entry, install the Surface Conduit Entry (SCEClosed Surface Conduit Entry) Kit. See Appendix A: Surface Conduit Entry Kit Installation.

Access HV DC Input Bus Bars

To access HV DCClosed High Voltage Direct Current input bus bars, complete the following steps:

  1. Open the upper door.

  1. Slide the bus bar safety cover up to remove from the hooks (x2) and brackets (x2).

    Technical illustration depicts the procedural step.

Plan for HV DC Wire Connect

The physical locations for landing HV DCClosed High Voltage Direct Current and high power ground wires are shown below.

Labeled diagram of product, tools or parts.

(a1) Path A, upper landing

(a2) Path A, lower landing

(b1) Path B, upper landing

(b2) Path B, lower landing

(c) Ground

Depending on its configuration, a Power Link 2000 will have one or two independent HV DCClosed High Voltage Direct Current power paths, A and B. Power Link 2000 with a single charging cable are configured with Power Path B only.

The Power Block has two HV DCClosed High Voltage Direct Current outputs, also named A and B. Although the Power Link 2000 power paths and Power Block outputs are named alike, it does not mean that Output A of a Power Block must connect to Power Path A of a Power Link 2000. Output A of a Power Block may connect to either Power Path A or B of a Power Link 2000. Likewise, Output B of a Power Block may connect to either Power Path A or B of a Power Link 2000. The A and B designations serve only to identify separate power paths and outputs in each product.

The upper and lower landings may be used to connect a single power path to multiple Express Plus products in an orderly manner. For example:

  • In some Express Plus architectures, a single Power Link 2000 power path receives HV DCClosed High Voltage Direct Current input from two separate Power Blocks. This may be achieved by connecting wires from one Power Block at one landing level and connecting wires from the other Power Block at the other landing level.

  • In some Express Plus architectures, a single Power Link 2000 power path receives HVClosed High Voltage DC input from a Power Block and also provides HV DCClosed High Voltage Direct Current output to another Power Link 2000. This may be achieved by connecting wires from the Power Block at one landing level and connecting wires going to the other Power Link 2000 at the other landing level.

How exactly to make connections within a cluster of Power Block(s) and Power Link 2000(s) is determined by the Express Plus architecture chosen for the site. Use the site plan single line diagram to understand and plan how to land the HV DCClosed High Voltage Direct Current wires on the Power Link 2000 terminals. If you require further assistance in this matter, go to chargepoint.com/support and find your region’s technical support number.

Pull, Cut, and Connect Wires

To pull, cut and connect wires, follow the instructions below:

HV DC Wires

  1. Label the HVClosed High Voltage DC and high power ground wires at both ends.

  2. Pull wires through the conduits. See How to Pull HV DC Wires.

    • In regions that use conduits, wires can be pulled before or after mounting the Power Link 2000. Skip this step if the wires have been pulled before mounting or if the site is using armored cables directly buried and exposed from underground without conduits.

    • Illustrations in this guide depict a Power Link 2000 with two rear conduits and two front conduits. The actual quantity and arrangement of conduits will vary by site.

    • Pull wires through the rear conduits first. Pulling wires through the front conduits restricts access to the rear conduits.

    Technical illustration depicts the procedural step.

  3. Arrange wires so they reach the HV DCClosed High Voltage Direct Current landings with as little bend as possible. Cut wires to length, taking into account the terminating lug length.

    Technical illustration depicts the procedural step.

  4. Perform insulation resistance test on the HV DCClosed High Voltage Direct Current wires. Refer to the Express Plus High Voltage Wire Insulation Resistance Test Field Guide.

  5. Connect the HV DCClosed High Voltage Direct Current and high power ground wires. See How to Connect HV DC and Ground Wires.

    Connect wires starting at the lower landings. Landing wires at the upper landings restricts access to the lower landings.

    1. Connect wires starting at lower landings.

      Technical illustration depicts the procedural step.

    2. Connect wires at upper landings after lower landings are populated.

      Technical illustration depicts the procedural step.

 

LV DC and Ethernet Wires

  1. Label the LVClosed Low Voltage DC and Ethernet wires at both ends.

  2. Pull the LV DCClosed Low Voltage Direct Current wires and Ethernet cables through the conduits.

    Technical illustration depicts the procedural step.

  3. Connect the LV DCClosed Low Voltage Direct Current wires and Ethernet cables. See How to Connect LV DC and Ethernet Wires.

    If the wire terminals do not appear as pictured here, you are using the wrong installation guide. See About This Guide for more information.

    Technical illustration depicts the procedural step.

How to Pull HV DC Wires

To pull HV DCClosed High Voltage Direct Current wires, complete the following steps:

  1. Arrange wires such that the positive wires (red) arrive on the left side and negative wires (black) arrive on the right side within the Power Link 2000. This arrangement will help you land wires on their respective poles.

    Technical illustration depicts the procedural step.

  2. If necessary, apply a non-conductive wire pulling lubricant.

  3. Pull the wires.

  4. Wipe off any remains of wire pulling lubricant if applied.

How to Connect HV DC and Ground Wires

Before you begin, make note of the following:

  • See Wires and Terminations Required for Site for the wire and lug specifications.

  • Make sure no bare conductor is exposed below the lug's barrel. If necessary, heat shrink or tape the exposed area to meet the local code requirements.

  • Wipe off any remains of wire pulling lubricant if applied.

Prepare HV DC Wires

To prepare HV DCClosed High Voltage Direct Current wires, complete the following steps:

Technical illustration depicts the procedural step.

  1. Mark the lug's barrel height on the wire terminal.

  2. Strip the jacket on the marked terminal. Use a suitable wire stripper, such as Klein tool.

  3. If recommended by the wire manufacturer or local code, apply an anti-oxidant joint compound to the stripped wire material to make a gastight joint with the lug.

  4. Insert the stripped terminal into the lug's barrel and crimp it. Use a suitable lug crimping tool and/or die recommended by the lug manufacturer.

  5. Apply dielectric grease to the lug's tongue surface that comes in contact with the bus bars.

Connect HV DC Wires

To connect HV DCClosed High Voltage Direct Current wires, complete the following steps:

  1. Identify the location for landing one HV DCClosed High Voltage Direct Current wire. See Plan for HV DC Wire Connect for the wire landing locations.

  2. Remove lug nuts.

    Technical illustration depicts the procedural step.

  3. Install the prepared wire onto the studs (see Prepare HV DC Wires).

    When connecting the HV DCClosed High Voltage Direct Current input wires, install the red (+) wire's lug onto the bus bars' positive (+) pole and black (-) wire's lug onto the bus bars' negative (-) pole.

    Technical illustration depicts the procedural step.

  4. Reinstall the lug nuts and torque them.

    Torque the HV DCClosed High Voltage Direct Current input wire lug nuts to 19 Nm (14 ft-lb).

    Technical illustration depicts the procedural step.

  5. Repeat for all remaining HV DCClosed High Voltage Direct Current wires.

  6. Mark all torqued connections to indicate all lug nuts have been tightened. Torque marks are required to pass post-installation inspection.

    Technical illustration depicts the procedural step.

Prepare Ground Wires

To prepare ground wires, complete the following steps:

Technical illustration depicts the procedural step.

  1. Mark the lug's barrel height on the wire terminal.

  2. Strip the jacket on the marked terminal. Use a suitable wire stripper, such as Klein tool.

  3. If recommended by the wire manufacturer or local code, apply an anti-oxidant joint compound to the stripped wire material to make a gastight joint with the lug.

  4. Insert the stripped terminal into the lug's barrel and crimp it. Use a suitable lug crimping tool and/or die recommended by the lug manufacturer.

  5. Apply dielectric grease to the lug's tongue surface that comes in contact with the bus bars.

Connect Ground Wires

To connect ground wires, complete the following steps:

  1. Identify a target ground wire landing stud. See Plan for HV DC Wire Connect for the wire landing locations.

    Two ground wires may land on a single stud by stacking the ground wires on the stud. This is necessary when there are more than four ground connections that must be made.

  2. Remove lug nut.

    Technical illustration depicts the procedural step.

  3. Install the prepared wire(s) onto the stud. (see Prepare Ground Wires).

    Technical illustration depicts the procedural step.

  4. Reinstall the lug nut and apply torque.

    Torque the ground wire lug nut to 5.6 Nm (50 in-lb).

    Technical illustration depicts the procedural step.

  5. Repeat for all remaining ground wires.

  6. Mark all torqued connections to indicate all lug nuts have been tightened. Torque marks are required to pass post-installation inspection.

    Technical illustration depicts the procedural step.

How to Connect LV DC and Ethernet Wires

To connect LV DCClosed Low Voltage Direct Current and Ethernet wires, follow the instructions below:

Connect LV DC Wires

Follow the procedure below for each LV DCClosed Low Voltage Direct Current wire pair.

  1. On the LVClosed Low Voltage terminal block, identify the target wire insertion points for landing the LVClosed Low Voltage DC wire pair.

    If the wire terminals do not appear as pictured here, you are using the wrong installation guide. See About This Guide for more information.

    Technical illustration depicts the procedural step.

    (a) LVClosed Low Voltage input, primary

    (b) LVClosed Low Voltage input, secondary

    (c) LVClosed Low Voltage output, primary

    (d) LVClosed Low Voltage output, secondary

  2. Strip the wire jackets (x2).

    Technical illustration depicts the procedural step.

  3. Loosen the wire set screws (x2).

    Technical illustration depicts the procedural step.

    (a) LVClosed Low Voltage input

    (b) primaryLV input

    (c) secondary LVClosed Low Voltage output

    (d) primaryLV output, secondary

  4. Route wires (x2) through the wireway clamps (if necessary use cable ties) and insert them into the LVClosed Low Voltage terminal block.

    Insert the positive (+) wire into the left terminal. Insert the negative (-) wire into the right terminal. The illustration below depicts insertion of the primary LVClosed Low Voltage input wire pair.

    Technical illustration depicts the procedural step.

  5. Torque the screws (x2) to 1.5 Nm (13.3 in-lb). Push-pull to test that both (+ and -) wires are secured.

    Technical illustration depicts the procedural step.

Connect Ethernet Cable(s)

Follow the procedure below to connect each Ethernet cable.

  1. On the Smart Ethernet Switch, locate three ports for landing Ethernet cables. All ports are equivalent.

    If the wire terminals do not appear as pictured here, you are using the wrong installation guide. See About This Guide for more information.

    Technical illustration depicts the procedural step.

    1. Lower left port

    2. Lower right port

    3. Upper port

  2. Trim Ethernet (Cat6 STPClosed Shielded Twisted Pair) cable to length, allowing for a service loop.

  3. Field crimp a shielded RJ45 connector onto the Ethernet cable. Use straight-through T568B pattern.

    Ground the Ethernet cable shield as follows:

    • For an Ethernet cable connecting from Power Block to Power Link 2000, ground the shield at the Power Block cable end. Do not ground the shield at the Power Link 2000 cable end.

    • For an Ethernet cable connecting between Power Link 2000s, ground the shield at the cable end nearer to the Power Block (per Ethernet topology for the Express Plus cluster). Do not ground the shield at the other cable end.

    Technical illustration depicts the procedural step.

  4. Test the Ethernet cable for functionality.

    If using a Paige OSP Shielded GameChanger cable for a wire run length greater than 100 m (328 ft), follow the test procedure specified by Paige. See Paige GameChanger Resources.

    Technical illustration depicts the procedural step.

  5. Route the cable through the wireway clamps and connect to any available port on the Smart Ethernet Switch. To establish a secure connection, the RJ45 connector's latch must click into the switch.

    Technical illustration depicts the procedural step.