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Table 13 Heat Dissipation Worksheet for Seismic Racks

Heat Dissipation Worksheet for Rack Number ______

Total (BTU/hour)

Maximum Unit Heat (BTU/hour with

both lines powered)

Number

InstalledEnclosure Type

239 x (fuse panel load /160)

Fuse panel

1686Blade Element (8 GB)

1747Blade Element (16 GB)

1802Blade Element (32 GB)

1112VIO enclosure

1051DL380 G6 CLIM CG

546DL380p Gen8 CLIM CG

614M8391-24CG and

M8392-24CG Disk

Enclosure

31Disk drive 10k rpm

24Disk drive 15k rpm

20.5

200GB SAS 2.5” SSD,

Gen1

20.5200GB SAS 2.5” SSD,

Gen2

51160 DAT unit

137CG Maintenance switch

----Total Heat (BTU/hour)

Maximum value. Assumes full load per side of 70W.

Fuse panel load is the total nominal current on both sides

Power Load Worksheet, NS2200ST Seismic Rack

Enclosures in Seismic Racks

Power and current specifications for seismic racks are the sum of the power and current specifications

for each enclosure that are installed in the cabinet. Use the worksheet in Table 14 (page 149) to

calculate the power load for each rack and to indicate the breaker panel and fuse panel

configurations.

Table 14 Seismic Rack Power Load Worksheet

Power Load Worksheet for Rack Number ______

Fuse Size

Fuse Panel

SubtotalWatts per EnclosureNumber of Enclosures

Enclosure Type

----494Blade Element (8 GB)

----512Blade Element (16 GB)

----528Blade Element (32 GB)

326VIO Enclosure

308DL380 G6 CLIM CG

160DL380p Gen8 CLIM

Power Load Worksheet, NS2200ST Seismic Rack 149