VIPER25HDTR: The 25-Amp High-Density, High-Efficiency Power Supply for Today's Data Centers

Introduction

The VIPER25HDTR is a 25-amp high-density, high-efficiency power supply that is designed to meet the demands of today's data centers. With its industry-leading power density of 25 amps per cubic inch, the VIPER25HDTR can deliver the power that your servers need without taking up valuable rack space. And with its high efficiency of up to 96%, the VIPER25HDTR can help you save money on your energy bills.

Key Features

• Industry-leading power density of 25 amps per cubic inch
• High efficiency of up to 96%
• Wide input voltage range of 85-264 VAC
• Active power factor correction (PFC)
• Overvoltage protection (OVP)
• Overcurrent protection (OCP)
• Short-circuit protection (SCP)

Benefits

The VIPER25HDTR offers a number of benefits for data center operators, including:

• Reduced rack space: The VIPER25HDTR's high power density means that it can deliver the power that your servers need without taking up valuable rack space. This can help you to save money on your data center infrastructure costs.
• Increased energy efficiency: The VIPER25HDTR's high efficiency of up to 96% can help you to save money on your energy bills. This is especially important for data centers, which are typically large consumers of electricity.
• Improved reliability: The VIPER25HDTR's robust design and comprehensive protection features make it a reliable power supply for your critical data center infrastructure.

Applications

The VIPER25HDTR is ideal for a variety of data center applications, including:

• Servers
• Storage systems
• Network equipment
• Telecommunications equipment

Conclusion

The VIPER25HDTR is a high-density, high-efficiency power supply that is designed to meet the demands of today's data centers. With its industry-leading power density, high efficiency, and wide range of features, the VIPER25HDTR can help you to save money on your data center infrastructure costs and improve the reliability of your critical systems.

Why Power Density Matters

Power density is a measure of the amount of power that a power supply can deliver per unit volume. It is typically expressed in watts per cubic inch (W/in³). The higher the power density, the more power that the power supply can deliver without taking up valuable rack space.

Power density is an important consideration for data center operators because it can help them to save money on their data center infrastructure costs. By using power supplies with high power density, data center operators can reduce the amount of rack space that they need to deploy their servers and other equipment. This can lead to significant savings on rent, utilities, and cooling costs.

Benefits of High Power Density

There are a number of benefits to using power supplies with high power density, including:

• Reduced rack space: Power supplies with high power density can deliver the power that your servers need without taking up valuable rack space. This can help you to save money on your data center infrastructure costs.
• Increased energy efficiency: Power supplies with high power density are typically more efficient than power supplies with low power density. This is because power supplies with high power density can operate at higher temperatures without overheating. This can lead to savings on your energy bills.
• Improved reliability: Power supplies with high power density are typically more reliable than power supplies with low power density. This is because power supplies with high power density are less likely to overheat and fail.

Strategies for Increasing Power Density

There are a number of strategies that can be used to increase the power density of a power supply. These strategies include:

• Using higher-frequency switching: Power supplies that use higher-frequency switching can achieve higher power density than power supplies that use lower-frequency switching. This is because higher-frequency switching allows for the use of smaller components, which can be packed more densely into a given volume.
• Using more efficient components: Power supplies that use more efficient components can achieve higher power density than power supplies that use less efficient components. This is because more efficient components generate less heat, which allows for a more compact design.
• Using advanced packaging techniques: Power supplies that use advanced packaging techniques can achieve higher power density than power supplies that use traditional packaging techniques. This is because advanced packaging techniques allow for the components to be packed more densely into a given volume.

Comparison of Pros and Cons

The following table compares the pros and cons of using power supplies with high power density:

Conclusion

Power density is an important consideration for data center operators because it can help them to save money on their data center infrastructure costs and improve the reliability of their critical systems. By using power supplies with high power density, data center operators can reduce the amount of rack space that they need to deploy their servers and other equipment. This can lead to significant savings on rent, utilities, and cooling costs.

How High Efficiency Benefits Data Centers

High efficiency is an important consideration for data center operators because it can help them to save money on their energy bills. Data centers are typically large consumers of electricity, so even a small improvement in efficiency can lead to significant savings.

The VIPER25HDTR is a high-efficiency power supply that can help data center operators to save money on their energy bills. The VIPER25HDTR has an efficiency of up to 96%, which means that it can convert 96% of the power that it consumes into usable power for your servers and other equipment. This can lead to significant savings on your energy bills over time.

Benefits of High Efficiency

There are a number of benefits to using power supplies with high efficiency, including:

• Reduced energy costs: Power supplies with high efficiency can help you to save money on your energy bills. This is because power supplies with high efficiency convert more of the power that they consume into usable power for your servers and other equipment.
• Reduced emissions: Power supplies with high efficiency can help to reduce emissions by reducing the amount of electricity that they consume. This is because power supplies with high efficiency convert more of the power that they consume into usable power for your servers and other equipment, which means that less electricity is wasted as heat.
• Improved reliability: Power supplies with high efficiency are typically more reliable than power supplies with low efficiency. This is because power supplies with high efficiency generate less heat, which reduces the risk of component failure.

Strategies for Increasing Efficiency

There are a number of strategies that can be used to increase the efficiency of a power supply. These strategies include:

• Using higher-efficiency components: Power supplies that use higher-efficiency components can achieve higher efficiency than power supplies that use less efficient components. This is because higher-efficiency components generate less heat, which reduces the amount of power that is wasted.
• Using advanced topologies: Power supplies that use advanced topologies can achieve higher efficiency than power supplies that use traditional topologies. This is because advanced topologies allow for more efficient power conversion.
• Using digital control: Power supplies that use digital control can achieve higher efficiency than power supplies that use analog control. This is because digital control allows for more precise control of the power supply's operation, which reduces the amount of power that is wasted.

Comparison of Pros and Cons

The following table compares the pros and cons of using power supplies with high efficiency: