Connection continued

4Select the transformer module’s input voltage.

Using a screwdriver, remove the panel covering the transformer module’s Input Voltage Select Switch J . Set the switch to match your facility’s input voltage. Then, use the power module’s front panel switches to configure input voltage on the LCD Display (see “Configure your UPS’s input and output” in the “Power ON/OFF” section on page 14).

IMPORTANT NOTE: if your facility’s input voltage is 200V AC, set the trans- former module’s switch to 240V AC, but configure the power module to 200V AC. If your facility’s input voltage is either 208V AC or 240V AC, the trans- former module and power module settings must match. The factory default settings for both modules is 208V. See chart below.

 

Transformer Module

Power Module

Your Facility's

Input Voltage Setting

Input Voltage Setting

Input Voltage

(Rear Panel Switch)

(Front Panel Switches/LCD Display)

 

 

 

 

240V AC

240V AC

240V AC

208V AC

208V AC

208V AC

200V AC

240V AC

200V AC

 

 

 

 

5Connect the battery module to the power module.

Consult the owner’s manual that came with your battery module. Fully insert the connector on the end of the battery module’s cable K into the connector on the rear panel of the power module L . Small sparks may occur; this is normal. NOTE: the power module does not contain internal batteries and will not start until a battery module is connected. The battery modules are fully charged prior to shipping. However, before expecting full backup capability (particularly if the battery module has been stored for an extended period) after the UPS system is connected to a utility power source, allow the battery module to recharge for 12 hours. Once the UPS system is in use, it will charge the batteries and maintain the charge level automatically. If needed, connect additional battery modules in a daisy-chain with each module’s cable inserted into the previous module’s connector M .

Connection Combination #5: Power Module (10kVA) + Transformer Module (10kVA) + Battery Module(s)

1Hardwire the power module to the transformer module.

Using a screwdriver, remove the top of the box A covering the power module’s input and output terminals. Remove the top of the box B covering the transformer module’s terminals. With supplied cable, connect the power module’s input and output terminals to the corresponding terminals on the transformer module’s “Hardwire Terminal Block for Power Module Connection” in the box’s right

knockout C .

2Hardwire the transformer module to your equipment.

Pass a user-supplied cable through the box’s left knockout D and connect it to the transformer module’s output terminals. See the AC Output Voltage Diagram

Eto determine which terminal connections will provide voltage appropriate to your application. Connect the other end of the cable to your equipment.

Connection Combination #5 continued on next page

15

NORM

240V AC

AL

 

208V AC

 

J

4

 

L

 

K

NORMAL

5M

 

A

 

 

B

 

 

 

NORMAL

1

C

PASSBY

 

 

NORMAL

 

BY

 

PASS

2

D

AC OUTPUT VOLTAGE DIAGRAM

208V

240V

120V120V

G

E

Page 14 Page 16
Page 15
Image 15
Tripp Lite 10KVA Select the transformer module’s input voltage, Hardwire the power module to the transformer module
Page 14 Page 16

10KVA specifications

The Tripp Lite 10KVA is a highly versatile and robust uninterruptible power supply (UPS) system designed to provide seamless power protection for critical applications. This unit is ideal for data centers, telecommunications equipment, and industrial applications where power stability is paramount. With a rated capacity of 10,000 VA, it ensures that your equipment remains operational during power outages or fluctuations.

One of the key features of the Tripp Lite 10KVA is its advanced battery management system. This technology not only prolongs the life of the batteries but also optimizes their performance. The UPS comes equipped with high-capacity batteries, allowing for extended backup times and ensuring that connected devices can function uninterrupted during emergencies.

Another notable feature is the inverter efficiency, which allows the UPS to convert stored battery power into reliable AC output with minimal loss. This is critical in high-demand scenarios where energy efficiency is essential. The Tripp Lite 10KVA also boasts a wide input voltage range and frequency compatibility, making it suitable for various electrical environments.

The unit incorporates multiple outlets, providing the flexibility to connect diverse devices simultaneously. Additionally, the Tripp Lite 10KVA includes an LCD display, offering real-time data on battery status, load levels, and operating conditions, which aids in proactive management of power resources.

For enhanced safety, the UPS is equipped with numerous protection features, including surge suppression, which protects sensitive equipment from voltage spikes. It also includes built-in circuit breakers to prevent overloads and short circuits, ensuring the safety of both the UPS and connected devices.

Networking capabilities are another standout characteristic of the Tripp Lite 10KVA. With optional SNMP support, users can monitor the UPS remotely, allowing for effective management and troubleshooting from virtually anywhere. This feature enhances system reliability and contributes to a more efficient operational workflow.

In conclusion, the Tripp Lite 10KVA is a powerful and reliable UPS solution that combines advanced technologies with thoughtful features to deliver unmatched performance. Its robust design, efficiency, and extensive safety measures make it a vital component for any organization looking to safeguard their critical power infrastructure. Whether for business continuity or equipment protection, the Tripp Lite 10KVA stands out as a premier choice in the UPS market.
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