Description
Product Overview of the IBM 920 Watt Power Supply
The DPS-980CB is a redundant power supply unit that is made by IBM. This power supply unit is designed to work with several different server models, including the System X3400 M3, the System X3500 M3, and the TD200X. With a power output of 920 watts, the DPS-980CB is capable of providing reliable and efficient power to these servers, ensuring that they operate at their full potential without any issues. In this article, we will be discussing the features and benefits of the DPS-980CB power supply unit.
Redundant Power Supply
One of the key features of the DPS-980CB is that it is a redundant power supply unit. This means that it is designed to provide a backup power source in case the primary power source fails. In other words, if one of the power supply units fails, the other power supply unit will take over and provide power to the server. This redundancy ensures that the server remains operational even if one of the power supply units fails. The DPS-980CB is hot-swappable, which means that it can be replaced without shutting down the server.
920-Watt Power Output
The DPS-980CB is capable of delivering up to 920 watts of power, which is more than enough for the System X3400 M3, the System X3500 M3, and the TD200X servers. This high power output ensures that these servers can run at their full potential without any performance issues. Additionally, the DPS-980CB is highly efficient, which means that it can deliver this power with minimal energy waste.
Compatibility of Redundant Power Supply
As mentioned earlier, the DPS-980CB is designed to work with several different server models. Specifically, it is compatible with the System X3400 M3, the System X3500 M3, and the TD200X servers. This compatibility ensures that users of these servers can easily upgrade their power supply unit to the DPS-980CB without any issues.
Redundancy Management
The DPS-980CB features a built-in redundancy management system. This system is designed to monitor the status of both power supply units and alert users if there are any issues. This monitoring ensures that users are aware of any potential problems before they become critical, which allows them to take proactive measures to prevent downtime or data loss.
Quiet Operation
The DPS-980CB is designed to operate quietly. This is an important feature for server environments, as noise can be a distraction or annoyance for users. The power supply unit is equipped with a fan that is designed to operate quietly, even under heavy load.
Efficiency of Server PSU
The DPS-980CB is a highly efficient power supply unit. It is rated 80 Plus Silver, which means that it is capable of delivering power with an efficiency of up to 88%. This high efficiency ensures that the power supply unit delivers power with minimal energy waste, which can result in lower electricity bills and a reduced carbon footprint.
Reliability
The DPS-980CB is a highly reliable power supply unit. It is designed to provide a continuous and stable power supply to the System X3400 M3, the System X3500 M3, and the TD200X servers. This reliability ensures that these servers can operate without any interruptions, which is crucial for businesses that rely on their servers for critical operations.
Main Specification about the IBM DPS-980CB A
- Manufacturer: IBM
- Model Number or SKU# DPS-980CB A
- Product Type: Server PSU
- Product Name: Power Supply
In summary, the IBM DPS-980CB A 920 Watt Redundant Power Supply is a robust and reliable component for server systems, particularly those within the X3400 M3, X3500 M3, and TD200X series. Its key features, including high wattage, redundancy, hot-swap capability, and compatibility with IEEE 802.11ac wireless standards, make it a valuable addition to data center infrastructures. By ensuring a stable and continuous power supply, the DPS-980CB A contributes to the overall efficiency, availability, and performance of your server environment. Whether you are upgrading an existing system or building a new one, this power supply unit proves to be a strategic choice for meeting the demanding power needs of modern server infrastructures.
