Chapter 13 E-Series Installation and Commissioning

Upon receipt of your UPS, carefully examine the packing containers for any sign of physical damage. Notify the carrier immediately if damage is present. Carefully unpack the UPS. Retain the packaging for reuse or dispose. Check the packing for damages.

NOTE: If damages are detected, please inform the shipping agent immediately.

UPS includes:

UPS device

A recharging cable is connected to external battery cabinets BPE61.

13.1 Installation of the E-Series (Hardwired)

WARNING: Only qualified electricians should install an Chloride E-Series E61 (E41), E101, (E81)or E203 (E153) hardwired UPS. When installing the unit, follow applicable local and national regulations (such as the U.S. National Electric Code), good wiring practices and this manual.

1.Unpack and move E-Series UPS and battery cabinet(s), if supplied, into desired installation location.

2.Adjust leveling jacks under the UPS and battery cabinet(s) to remove wheels of the units from the floor and avoid movement of connections.

3.Turn off input and output breakers on the back of the UPS and any battery cabinets to be used.

4.Turn off and isolate the power source to be used for the UPS input using proper lock-out/tag-out procedures.

5.Confirm that the power source to be used for the UPS is 208 V (208/120 3 φ for E203).

6.Remove the connection plate on the back of the UPS to expose connection terminals.

7.Wire input of the UPS by first connecting ground (earth) wire to GND (ground) terminal. Next, connect the input power leads to L1/N and L2 (for E61 and E101) or L1, L2, and L3 (for E203). See Table 10, “Minimum Requirements for E-Series UPS Installation,” on page 40 for minimum wire gauge, wire temperature and screw torque requirements.

NOTE: Always use grounding conductor that is equal to or larger in size than the current carrying conductors.

8.If the UPS does not have an attached Power Distribution Unit (PDU), wire the output of the UPS to appropriate load as follows:

Wire 208 V load between terminals marked 120A (x1) and 88B (x3).

Wire 120 V loads between terminals marked 0 (x2) and 120A (x1) or 0 (x2) and 120B (x4).

CAUTION: The load connected to 120A and 120B must each be no more than 1/2 the nameplate rated 120 V current. User must properly fuse these outputs to this rating.

9.Connect the UPS to the battery cabinet(s) (if required)

See Table 10, “Minimum Requirements for E-Series UPS Installation,” on page 40 for minimum wire gage, wire temperature and screw torque requirements.

For model E61 (if using an external battery cabinet), first remove the connection plate from the rear of the battery cabinet, then connect the battery cable (supplied with the battery cabinet) from the battery connector on the UPS to the terminals on the battery cabinet. Confirm that (+), (-) and GND terminals are connected to proper wires. Connect any additional battery cabinets in a “daisy-chain”

Chloride Active and E-Series UPS User Manual

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Rackmount Solutions VA 10000, VA 3000, VA 700 Series Installation and Commissioning, Installation of the E-Series Hardwired
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VA 2000, VA 10000, VA 700, VA 3000, VA 20000 specifications

Rackmount Solutions offers a versatile lineup of VA series products designed for efficient power management in data centers and server environments. The VA 1000, VA 6000, VA 20000, VA 3000, and VA 700 models cater to a variety of power needs, ensuring reliable performance and robust features tailored to different operational demands.

Starting with the VA 1000, this model is compact yet powerful, providing up to 1000VA of power capacity. It features an LCD display that offers real-time information on power status, battery life, and load levels. The VA 1000 is equipped with pure sine wave output, ensuring compatibility with sensitive electronic equipment and providing protection against power surges. The unit is designed for easy integration into existing IT frameworks, with multiple outlets to accommodate various devices.

Next in the lineup, the VA 3000 model steps up the capacity to 3000VA. This unit excels in larger environments where higher power demands are common. It too features pure sine wave output and includes advanced battery management technology that optimizes performance and prolongs battery life. Its networking capabilities allow for remote management and monitoring through a web interface, providing IT managers with comprehensive control over their power infrastructure.

The VA 6000 doubles down on capacity, supporting robust applications with its 6000VA rating. It is equipped with advanced features such as surge protection, automatic voltage regulation, and a high-efficiency design that reduces energy consumption. Its modular design allows for ease of maintenance and upgrades, making it a cost-effective solution over time for growing data centers.

For the larger setups, the VA 20000 model stands out with a staggering 20000VA power capacity. Designed for high-demand applications, this unit incorporates features like redundancy and N+1 configurations to ensure uninterrupted power supply. Its scalable architecture makes it suitable for both small and large enterprises looking to future-proof their power infrastructure.

Lastly, the VA 700 model serves as an entry-level solution at 700VA. Ideal for small servers and networking devices, it offers essential features like battery monitoring and basic surge protection, making it a cost-effective choice for small business environments.

In summary, the Rackmount Solutions VA series, comprising models VA 1000, VA 3000, VA 6000, VA 20000, and VA 700, collectively offer a comprehensive suite of power management solutions. Their scalable designs, advanced technologies, and focus on efficiency make them ideal for a wide range of applications, from small offices to large data centers, ensuring reliability and performance in critical environments.
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