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Interactive Tool Updated v1.0

Precision Power Architect

Calculate UPS sizing and battery pack requirements based on real-world load curves, power factor efficiency, and environmental derating scenarios.

Load Parameters

W

Sum of all protected equipment nameplate watts

0.90
0.6 (Legacy) 1.0 (Unity)
20m
5m 4h

Environmental Factors

Required VA
1,333 VA
Amps @ 120V
11.1 A
Recommended Chassis
1,500 VA
Desktop / Tower
89% Load Capacity
Battery Configuration
1 EBMs
External Battery Modules required

Runtime Decay Curve

Peukert Adjusted
1k 2k 3k 4k 5k 0 65 130 196 LOAD (WATTS) RUNTIME (MIN)
Runtime @ Load
Your Config

This live equation demonstrates how raw input parameters combine with environmental derating modifiers and inverter efficiency to calculate the total required battery capacity before modular mapping.

Ereq
=
P · t · Kp
η · ( DT · DA )
Ereq
=
1200 · 0.33 · 1.25
0.92 · ( 1.00 · 1.00 )
Ereq
=
543.5 Wh
PLoad (Watts)
tTime (Hours)
KpPeukert Factor
ηInverter Eff.
DTTemp Derate
DAAge Derate

Architect's Technical Analysis

Headroom Warning: You are utilizing 89% of inverter capacity. Best practice recommends keeping steady-state load below 80% to accommodate in-rush currents and extend capacitor life.

Extended Run Configuration: To achieve 20 minutes, 1 External Battery Module(s) are required. Ensure 2U of rack space and adequate floor loading capacity for these packs.