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TYPE | HEATSINK DIMENTION (mm) | FAN DIMENSION (mm) | FAN RATED VOLTAGE | AC/DC/EC | FAN AIR FLOW(cfm) | FAN AIR PRESSUIRE (mmh2O) | FAN RATED POWER | FAN SPEED | FAN NOISE | INQUIRE |
---|---|---|---|---|---|---|---|---|---|---|
SS-1206-153Y-A | 120*50*153mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
SS-1206-153A | 120*50*153mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
SS-1204-153B | 122*50*153mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
SS-1204-153Y | 122*50*153mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
EKS157110 | 120*110*157mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
EKS15350 | 122*50*153mm | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1800 | 28 | Inquire |
EKT13063 | 93*63*130mm | 90*90*25mm | 12VDC | DC | 48.5 | / | 1.6W | 1800 | 28 | Inquire |
EKT15367 | 120*67*153 | 120*120*25mm | 12VDC | DC | 48 | / | 3.6W | 1500 | 26 | Inquire |
A tower heatsink, often referred to as a tower cooler, is a type of CPU cooler commonly used in desktop computers. It consists of a tall vertical heatsink with numerous heat pipes and a fan or fans attached to it. Here are the key features and advantages of tower heatsinks:
Features of Tower Heatsinks:
Heat Pipes: Tower heatsinks typically use heat pipes, which are hollow copper or aluminum tubes filled with a heat-conductive liquid. These pipes help transport heat away from the CPU to the heatsink's fins efficiently.
Vertical Design: Tower coolers have a vertical design, which allows for a larger surface area of cooling fins. This increased surface area enhances the cooling performance.
Multiple Heat Pipes: Tower coolers often feature multiple heat pipes, usually four to six or even more. This allows for better heat distribution across the heatsink.
Aluminum Fins: The heatsink fins are usually made of aluminum, a lightweight and thermally conductive material. These fins are densely packed and have a large surface area for optimal heat dissipation.
Direct Contact Heat Pipes: Some tower coolers have direct contact heat pipes, where the heat pipes make direct contact with the CPU's integrated heat spreader (IHS). This design can improve thermal conductivity.
Fan or Fans: Tower coolers come with one or more fans, typically mounted in a push-pull configuration. These fans help dissipate heat by blowing air through the heatsink fins.
Mounting Mechanisms: Tower coolers often have robust and secure mounting mechanisms, making them relatively easy to install and providing good contact with the CPU.
Advantages of Tower Heatsinks:
Efficient Cooling: Tower coolers are known for their efficient cooling performance. The combination of multiple heat pipes, a large surface area, and one or more fans results in effective heat dissipation.
Compatibility: Tower coolers are compatible with a wide range of CPU socket types and motherboards. They come in various sizes to fit different case and clearance requirements.
Quiet Operation: Tower coolers are designed to operate quietly. The large fans can spin at lower RPMs while still providing effective cooling, resulting in reduced noise levels.
Overclocking Support: Many tower coolers can handle the increased heat generated by overclocked CPUs, making them popular choices among enthusiasts.
Longevity: Tower coolers are typically durable and long-lasting, with few moving parts that can wear out. This can extend the lifespan of your cooling solution.
Aesthetics: Some tower coolers come with aesthetic features, such as RGB lighting or sleek designs, allowing you to customize the look of your PC.
Cost-Effective: Compared to liquid cooling solutions, tower coolers are often more cost-effective while still delivering excellent cooling performance.
Maintenance: Tower coolers are relatively easy to maintain. Regular cleaning to remove dust and debris from the fins and fans helps maintain their efficiency.
In summary, tower heatsinks are popular CPU cooling solutions known for their efficient heat dissipation, compatibility with various systems, quiet operation, and support for overclocking. They provide a cost-effective and reliable way to keep your CPU temperatures in check, making them a preferred choice for many desktop computer builds.
Tower heatsinks are CPU cooling solutions commonly used in desktop computers to manage and dissipate the heat generated by the central processing unit (CPU). Here's a closer look at the application of tower heatsinks:
Heat Dissipation: The primary purpose of a tower heatsink is to dissipate the heat produced by the CPU during operation. CPUs can get quite hot, especially under heavy workloads or during gaming, and the heatsink's design allows for efficient heat transfer and dissipation.
Temperature Regulation: Tower heatsinks help regulate the temperature of the CPU. Maintaining the CPU at a safe operating temperature range is crucial for ensuring system stability and preventing thermal throttling, which can lead to reduced performance.
Performance Enhancement: A well-designed tower heatsink can improve the performance of the CPU by keeping it cooler. CPUs tend to perform better when operating at lower temperatures, especially in tasks that require high computational power.
Overclocking Support: Enthusiast users often overclock their CPUs to achieve higher performance levels. Overclocking generates more heat, and a tower heatsink is vital for managing this increased thermal load.
Quiet Operation: Many tower heatsinks are designed for quiet operation. The large fans used in these coolers can spin at lower RPMs while still providing efficient cooling, resulting in reduced noise levels compared to stock CPU coolers.
Compatibility: Tower heatsinks are compatible with a wide range of CPU socket types and motherboards. They come in various sizes to fit different case and clearance requirements, making them suitable for a broad range of computer builds.
Aesthetics: Some tower heatsinks come with aesthetic features, such as RGB lighting or sleek designs, allowing users to customize the look of their PCs while also providing efficient cooling.
Cost-Effective Cooling: Tower heatsinks are often more cost-effective than liquid cooling solutions while still delivering excellent cooling performance. This makes them a popular choice for budget-conscious users and gamers.
Durability and Longevity: Tower heatsinks are generally durable and long-lasting. They have few moving parts that can wear out, which can contribute to the longevity of the cooling solution.
Maintenance: Tower heatsinks are relatively easy to maintain. Regular cleaning to remove dust and debris from the heatsink's fins and fans helps maintain their efficiency over time.
1.Which is better air cooler or tower fan?
The choice between an air cooler and a tower fan depends on your specific needs and preferences.
An air cooler, also known as an evaporative cooler, uses the natural process of evaporation to cool the air. It pulls warm air in, passes it over a moistened pad or filter, and then releases cool air. Air coolers are effective in dry climates, but they may not work as efficiently in more humid environments. They also require a water source and need to be refilled regularly.
On the other hand, a tower fan is a device that simply circulates the air in a room to create a cooling effect. It doesn't actually cool the air but provides a breeze that can make you feel cooler by evaporating perspiration on your skin. Tower fans are generally more suitable for small to medium-sized rooms and are portable, easy to set up, and do not require any additional maintenance.
Whether one is better than the other depends on the specific circumstances. If you live in a dry climate and want an actual cooling effect, an air cooler may be more suitable for you. However, if you are looking for a portable option to create a breeze and improve airflow in a room, a tower fan can be a good choice.
2.What is the difference between a heatsink and a cooling fan?
A heatsink and a cooling fan are two different components that work together to manage the temperature of a computer's central processing unit (CPU).
A heatsink is a heat-dissipating component typically made of metal, such as aluminum or copper. Its primary function is to absorb and spread the heat generated by the CPU. The heatsink features a large number of fins or ridges that provide a larger surface area for heat transfer. When the CPU heats up, the heatsink absorbs the thermal energy and allows it to dissipate into the surrounding air. The fins or ridges increase the surface area, enhancing the cooling process.
A cooling fan, also known as a CPU fan, is often mounted on top of or near the heatsink. Its main role is to blow or circulate air over the heatsink, facilitating heat dissipation. The fan pushes cool air onto the heatsink, which helps to lower its temperature. The airflow created by the fan enhances the cooling effectiveness of the heatsink by removing the heat and maintaining a continuous flow of fresh air over the CPU.
In summary, a heatsink provides a surface for heat transfer, absorbing and spreading the heat away from the CPU. Meanwhile, a cooling fan enhances the heat dissipation process by blowing or circulating air over the heatsink, facilitating the removal of heat from the CPU and maintaining a cooler operating temperature. The heatsink and cooling fan work in tandem to keep the CPU temperature within safe limits, ensuring optimal performance and preventing damage.