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HP 481320-001 595 Watts Power Supply For StorageWorks MSA2000
- 595 Watts maximum output power.
- Specifically designed for HP StorageWorks MSA2000.
- Provides stable power for storage drives and controllers.
- Ensures data integrity and availability.
- Built for continuous operation in demanding environments.
- High-efficiency design to minimize power consumption.
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
This HP 595 Watt Power Supply is designed for the HP StorageWorks MSA2000 storage array. It delivers robust and efficient power to support the high-demand operations of enterprise storage solutions.
Technical Information
| Wattage | 595W |
| Form Factor | Internal Power Supply |
Additional Specifications
| Compatibility | HP StorageWorks MSA2000 |
| Redundancy | Redundant (typically, MSA2000 uses dual PSUs) |
Product Description
The HP 481320-001 is a 595 Watt power supply unit engineered for the HP StorageWorks MSA2000 storage system. This power supply is a critical component responsible for delivering consistent and reliable power to the storage array's drives, controllers, and other essential hardware. Its design focuses on ensuring the availability and integrity of data stored within the MSA2000. This power supply unit is built to operate continuously in enterprise environments, where uptime and performance are paramount. It is designed to meet the rigorous demands of storage operations, providing stable voltage and current to prevent data corruption or system failures. The unit's efficiency also contributes to reduced operational costs and a lower environmental footprint. As a key component of the MSA2000, the 481320-001 power supply is typically part of a redundant configuration, allowing for hot-swapping and maintenance without interrupting storage services. This ensures maximum availability and minimizes the risk of downtime, making it an indispensable part of a robust storage infrastructure.
