IBM 85Y6074 Power Supply – StorWize V7000 580W HB-PCM01-580-AC
– With warranty and technical service for installation or support.
The IBM 85Y6074 Power Supply is a reliable and efficient solution designed to meet the specific needs of the IBM StorWize V7000 system. With warranty and technical support offered by DC Parts, you can count on the quality and performance of IBM products.
Technical Specifications:
- Kind: IBM 580W Storage Power Supply
- State: Refurbished
- Warranty: up to 1 (one) year
Key points to note:
- Genuine 580W IBM power supply for StorWize V7000.
- Chassis and associated PSU models for planning power and cooling requirements.
Description: The IBM 580W Power Supply, model HB-PCM01-580-AC and FRU part numbers 85Y6074, 00L4605, and 00AR038, offers a genuine, efficient power solution designed to meet the specific requirements of the IBM StorWize V7000 system.
This power supply is a reliable choice to ensure the stable and efficient operation of your storage system, providing peace of mind and performance.
If you are interested in this power supply or have any questions about IBM products, please do not hesitate to contact us. Our team of experts is here to help you find the right solutions for your data needs.
Compatibility:
- Storwize V7000 2076-124, 2076-324 (764W PSU)
- Storwize V7000 2076-224, 2076-212 (580W PSU)
- Storwize V7000 2076-524 (1200W PSU)
- Storwize V7000 2076-24F, 2076-12F (800W PSU)
| PSU | Input | Maximum Power Output | Caloric value BTU/hr |
|---|---|---|---|
| 1200W | 100 – 240V 12 – 7A 50Hz or 60Hz | 1200W | 4095 |
| 800W | 100 – 240V 10 – 6A 50Hz or 60Hz | 800W | 2730 |
| 764W | 100 – 240V 10 – 6A 50Hz or 60Hz | 764W | 2607 |
| 580W | 100 – 240V 8 – 3A 50Hz or 60Hz | 580W | 1980 |
- Environmental Variation:
- Variation in ambient temperature can significantly influence power consumption and heat dissipation in a data center environment. Higher temperatures often lead to an increase in energy consumption and heat production, while lower temperatures can reduce these effects.
- Different Configurations:
- The examples provided highlight how power consumption and heat generation can vary based on the specific configuration of the system, such as the number of solid-state drives (SSDs), host adapters, and other components. Configurations with more storage devices tend to consume more power and generate more heat than configurations with fewer devices.
- Power and Cooling Planning:
- This data is essential for effective planning of power and cooling requirements in a data center. Data center administrators can use this information to appropriately size power and cooling capacity, ensuring that there are enough resources to handle Storwize V7000 system workloads without overheating or power outages.
- Own Tests:
- While this data provides a useful estimate, it is crucial for customers to conduct their own tests to validate the power and cooling requirements in their specific environments. Operating conditions can vary between data centers, and self-testing ensures an accurate understanding of infrastructure requirements,
- Power Consumption:
- Power consumption is a critical consideration for properly sizing data center electrical capacity and planning operating costs. The data provided indicates the total power consumption in watts (W) for different configurations of the Storwize V7000 system. For instance:
- 2076-524 Configuration (24 solid-state drives): 452W Total Power Consumption.
- 2076-24F Configuration (24 solid-state drives): 151W Total Power Consumption.
- 2076-124 Configuration (24 Solid State Drives): 530W Total Power Consumption.
- These numbers are essential to ensure that the data center’s electrical infrastructure can provide enough power to support the Storwize V7000 system’s workloads without exceeding capacity limits.
- Energy consumption is a key metric for understanding the operational and financial requirements of a storage system, and it should be carefully considered during IT infrastructure planning and deployment.
- Power consumption is a critical consideration for properly sizing data center electrical capacity and planning operating costs. The data provided indicates the total power consumption in watts (W) for different configurations of the Storwize V7000 system. For instance:
| Model | Configuration | Total power | Calorific Value BTU/hour |
|---|---|---|---|
| Death 2076-524 | 1 enclosure with 24 solid-state drives, 2 host adapters, 2 compression | 452 W | 1542 |
| 2076-24F | 1 cabinet with 24 solid-state | 151 W | 515 |
| Death 2076-124 | 1 cabinet with 24 solid-state | 530 W | 1800 |
| Death 2076-324 | 1 cabinet with 24 solid-state | 560 W | 1800 |
| Death 2076-524 | 1 enclosure with 24, 10k SAS Drives, 2 host adapters, 2 compression | 430 W | 1467 |
| 2076-24F | 1 Enclosure with 24, 10k SAS Drives | 175 W | 597 |
| Death 2076-124 | 1 Enclosure with 24, 10k SAS Drives | 410 W | 1400 |
| Death 2076-224 | 1 Enclosure with 24, 10k SAS Drives | 205 W | 700 |
| Death 2076-324 | 1 Enclosure with 24, 10k SAS Drives | 440 W | 1500 |
| Death 2076-524 | 1 enclosure with 24, 15k SAS Drives, 2 host adapters, 2 compression | 471 W | 1607 |
| 2076-24F | 1 Enclosure with 24.15k SAS Drives | 234 W | 798 |
| Death 2076-124 | 1 Enclosure with 24.15k SAS Drives | 430 W | 1460 |
| Death 2076-224 | 1 Enclosure with 24.15k SAS Drives | 215 W | 730 |
| Death 2076-324 | 1 Enclosure with 24.15k SAS Drives | 460 W | 1560 |
| 2076-12F | 1 bay with 12 7.2k | 158 W | 539 |
| Death 2076-112 | 1 bay with 12 7.2k | 380 W | 1300 |
| Death 2076-212 | 1 bay with 12 7.2k | 175 W | 600 |
| Death 2076-312 | 1 bay with 12 7.2k | 410 W | 1400 |
Important Notes:
-
- Each model of the Storwize V7000 includes 2 PSUs for redundancy, ensuring high availability and fault tolerance.
- The data provided is specific to the mentioned operating environment and may vary in other environments, so it is recommended to carry out your own tests to validate the energy consumption and heat generated.
- This IBM 580W Power Supply delivers reliability and performance to ensure the stable operation of your storage system, making it an ideal choice for enterprise environments that require high availability and consistent performance.
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