DANH MỤC SẢN PHẨM
Tản nhiệt buồng hơi
Tản nhiệt buồng hơi
Vapor Chamber
Tản nhiệt buồng hơi
- Lan truyền nhiệt hai chiều trên bề mặt
- Linh kiện thụ động
- Độ ổn định cao
Chức năng và nguyên lý hoạt động của tản nhiệt buồng hơi giống như ống dẫn nhiệt, hoạt động theo chu trình bay hơi – ngưng tụ của chất lỏng làm việc được bao kín trong một khoang dạng tấm. Đây là thiết bị dẫn nhiệt hiệu suất cao có thể truyền nhanh nhiệt lượng từ điểm nóng cục bộ sang vùng diện tích lớn của tấm.
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Heat dissipation mechanism
The principle structure of the vapor chamber is the same as that of the heat pipe, but the way of heat transfer is different. Vapor chamber is a two-dimensional heat transfer method, so it can solve more severe and high-efficiency heat dissipation problems. The vapor chamber is a vacuum-sealed chamber with a capillary structure inside, and the working fluid absorbs heat vaporizes rapidly, and moves to the condensation area, after exchanging heat with the outside, it condenses into liquid and flows back, and the cycle starts again and again.
Vapor Chamber
A vapor chamber, sometimes called a flat heat pipe, uses a flat format of two-phase cooling with high heat transfer capability. For electronic cooling applications, the heat energy transfer is usually done on a heat sink very close to the heat source; making the vapor chamber assembly ideal for diffusing high heat density or heat load over a larger surface. By using a vapor chamber, you can expect increased and more uniform heat dispersion, which is ideal for optimizing the performance of the heat sink. The use of vapor chamber has increased significantly because the total power and the resulting power density have increased dramatically as a result of the reduced chip size. In terms of price and application flexibility, today's vapor chambers are more capable and less costly than they were a decade ago.The vapor chamber is a device that can quickly transfer a high-temperature point heat source to a large area for heat dissipation. Its function and working principle are the same as that of a heat pipe, which operates in a cycle by evaporating and condensing fluid enclosed in a plate-like chamber. The full range of 3D heat transfer methods of the vapor chamber can more effectively solve severe and high-power thermal problems. At present, T-Global Technology is committed to developing ultra-thin thermal vapor chambers of 0.4mm or less.
Heat Conduction |
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| Reduce the contact thermal resistance between the heat source and heat dissipation components | ||
| Above 10W | Bellow 10W | |
Heat Pipe |
Vapor Chamber |
TIM |
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High-performance thermal conductor for rapidly transferring localized heat sources to the other end.
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Quickly transfer localized heat sources to a large-area high-performance thermal conductor.
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Reduce the contact thermal resistance between the heat source and the heat sink.
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Single-point high-temperature heat source for fast cooling
The thermal conductivity is more than 10 times that of heat pipes, which can solve the single-point heat problem more quickly.
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3D heat transfer structure
The three-axis heat transfer structure can realize the dream of full performance of electronic devices.
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Flexible accessory combination
Your heat dissipation module offers the most flexible design structure and the most customized production, as long as you can think of.
