Top Terminal UPS Battery Cabinet
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Transcript of Top Terminal UPS Battery Cabinet
TOP TERMINAL BATTERY CABINET
4/07/15
Typical Battery Cabinet Design Issues by Design
UPS
Battery Cabinet
Battery Cabinet
Battery Cabinet
2 M
This height mismatch can cost $1000’s inElectricians cost for conduit installation.
Hidden costs of installation can be avoided with the proper height equipment.
Typical Battery Cabinet Design Issues by Design
UPS
Battery Cabinet
Battery Cabinet
Battery Cabinet
2 M
Typically, No individual battery preemptive failure monitoring Full UPS Systems Monitoring
Extending battery life by 20% - 35% saves big in recurring battery costs
Typical Battery Cabinet Design Issues by Design
UPS
Battery Cabinet
Battery Cabinet
Battery Cabinet
2 M
Typical cool down 10 - 12 hours after deep discharge event.Full UPS Cooling Systems
Battery sulfating can be greatly reduced & longevity increased by increasing cool down rates.
Typical Battery Cabinet Design Issues by Design
UPS
Battery Cabinet
Battery Cabinet
Battery Cabinet
2 M
Intelligent monitoring of Individual batteries with integrated controller which reports to UPS SystemFull UPS Cooling Systems
Fully integrated systems ensure UPTIME and reduce system power failures.
Evaluating Total Systems Approach
UPS Systems are not Complete Systems as many do not include the battery monitoring.
The Following pages Address an Alternate Systems Design Approach
Other Battery Cabinet Enhancements are also addressed
Cabinet Target Objectives
INDUSTRY FIRST’S
1. First Top Terminal Battery cabinet to meet the 2 Meter requirement to match UPS Heights. NOTE: Many UPS systems are 2 Meters Tall.
2. First tube frame welded battery cabinet with no sharp edges or corners.
3. First battery cabinet to be lifted from top. (Using Load spreaders).
4. CFD engineered cool down of 1.5 hours after major discharge event of 30 minutes or more.
5. First cabinet to use laminated bus bars to simplify tier to tier cabling.
6. First cabinet to use best in class 4/0 ~6,000 strand cables with fusion lugs. Best Flexure, Lowest IR Drop in the industry.
7. Highest repeatable tolerance cabinet in the industry using engineered weldment fixtures.
8. Achieved $2,200 per ‘Cabinet Price Objective’ in Quantity.
9. Preemptive battery failure monitoring.
10. Cable pass through directly into UPS system with no Conduits. Fastest install times.
11. Breaker access through front door.
12. Passed GR-63 Issue 4 Zone 4 Seismic on the first pass.
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Cabinet at a Glance
32.7”45”
78.7”
TT Cabinet
1,100 lbs - Cabinet
4,500 lbs - Batteries
5,600 lbs - Max Weight
TT Battery Range40 Battery String
VRLA 350 A - 540 A
High Line - 550 Vdc192.5 KVA – 297 KVA
Low Line - 420 Vdc147 KVA – 226.8 KVA
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Cable Pass Through
Cable Pass through.
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Breaker Mfgr
To meet the 2 Meter heightObjective this cabinet is a Siemens Breaker only cabinet. (600A or less).
No breaker handle is required.
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Optional Fan Assembly
Optional Bolt on Fan Bracket.
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Top Lift Using Load Spreader Bars
15,000 lb Eyebolts for top lift using load spreader bars.
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Bus Bar
Double Insulated Tier to Tier Bus Bar.
Removes approximately15 ft. of 4/0 cable.
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Spacers & Shims for Unique Battery Size
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End Page
Thank you !