Galaxy VS Classic Battery Cabinet w. bat Config B2
Part# GVSCBC10B2
EAN:0731304404804
Schneider Electric Galaxy VS Classic Battery Cabinet - Config B2 - battery enclosure - RAL 9003, white - for P/N: GVSUPS150KHS, GVSUPS20KHS, GVSUPS30KHS, GVSUPS40KHS, GVSUPS50KHS, GVSUPS80KHS
Native product specifications. The product description originates from Cnet. Foxway Distribution accepts no responsibility for error or misinformation in product descriptions from Cnet.
Product specifications
| Product Description | Schneider Electric Galaxy VS Classic Battery Cabinet - Config B2 - battery enclosure |
| Dimensions (WxDxH) | 101 cm x 84.5 cm x 190 cm |
| Weight | 1512 kg |
| Device Type | Battery enclosure - external |
| Colour | RAL 9003, white |
| Designed For | P/N: GVSUPS100KHS, GVSUPS150KHS, GVSUPS20KHS, GVSUPS30KHS, GVSUPS40KHS, GVSUPS50KHS, GVSUPS60KHS, GVSUPS80KHS |
General features
| Device Type | Battery enclosure - external |
| Colour | RAL 9003, white |
HDD / SSD tolerance
| Min Operating Temperature | 0 °C |
| Max Operating Temperature | 40 °C |
| Humidity Range Operating | 0 - 95% (non-condensing) |
Physical dimensions
| Width | 101 cm |
| Depth | 84.5 cm |
| Height | 190 cm |
| Weight | 1512 kg |
Compatible with
| Designed For | P/N: GVSUPS100KHS, GVSUPS150KHS, GVSUPS20KHS, GVSUPS30KHS, GVSUPS40KHS, GVSUPS50KHS, GVSUPS60KHS, GVSUPS80KHS |
Specifications
Galaxy VS Classic Battery Cabinet with batteries, IEC, 1000mm wide - Config B2.
- Efficient design
The Schneider Electric Galaxy VS Classic Battery Cabinet features an external form factor, making it an ideal solution for optimizing space in your data center or IT environment. Its efficient design allows for easy integration into existing setups, ensuring a seamless addition to your power management system. - Robust protection
Designed as a battery enclosure, this cabinet provides robust protection for your critical power supplies. By housing batteries in cabinets, enclosures, and chassis specifically designed for them, the risk of damage from environmental factors is significantly reduced, ensuring your power backup systems remain operational when you need them most.