Huawei UPS5000-HSeries


The hot swappable modules make maintaining and expanding the UPS solution quick and easy which increases the availability of the data centre. The control module and power module uses a redundant design which ensures high system reliability. Also featuring a Super ECO (S-ECO) mode that boosts system efficiency to a remarkable 99%, the UPS5000-H is one of the most efficient UPS systems available on the market.


The UPS5000-H is a high energy density modular UPS system ideal for large sized data centres or large control equipment rooms and railways. The online double conversion modular UPS is based on digital signal processing (DPS) technology making it reliable and efficient.

Technical Specification

WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts
WARRANTY 3 Year Parts


Huawei UPS5000H-400 1600KVA SmartLi UPS Solution (@100kVA in 3U) Product Brochure

UPS5000-H (100k Power Module) datasheet

UPS5000-H-(400 kVA–800 kVA) User Manual

UPS5000-H-1200 kVA Product Description (100 kVA Power Modules) 20201022

UPS5000-H-1200 kVA User Manual (100 kVA Power Modules)

Related products

Huawei SmartLi

Battery Solution

Lithium-ion UPS

The lithium-ion (LFP) battery cells offer high power density with a 70% reduced footprint

The Huawei SmartLi is a lithium-ion (LFP) battery solution for UPS systems combining cutting edge technology with leading edge digitalisation and offers a high density of 100kW/3U. It also has high efficiency of up to 97% and a compact footprint, which is 50% smaller than that of standard VLRA batteries.

Additional Features

  • The UPS and control modules use a redundant design to ensure no single point faults occur.
  • Hot swappable power
  • Top bus bar prefabricated design
  • 1 MW per rack, reducing the physical footprint by 50%
  • 97% efficiency in online mode with high efficiency at light loads
  • 99% efficiency in S-ECO mode with active filtering for optimal power quality]