Allicdata Part #: | 345-1058-ND |
Manufacturer Part#: |
609-50ABS3 |
Price: | $ 5.18 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Wakefield-Vette |
Short Description: | HEATSINK FOR POWERPC CPU BLK |
More Detail: | Heat Sink Assorted (BGA, LGA, CPU, ASIC...) Alumin... |
DataSheet: | 609-50ABS3 Datasheet/PDF |
Quantity: | 4 |
1 +: | $ 4.70610 |
10 +: | $ 4.58136 |
25 +: | $ 4.32684 |
50 +: | $ 4.07232 |
100 +: | $ 3.81780 |
250 +: | $ 3.56328 |
500 +: | $ 3.30876 |
1000 +: | $ 3.24513 |
Series: | 609 |
Part Status: | Active |
Type: | Top Mount |
Package Cooled: | Assorted (BGA, LGA, CPU, ASIC...) |
Attachment Method: | Clip, Thermal Material |
Shape: | Rectangular, Pin Fins |
Length: | 2.895" (73.53mm) |
Width: | 2.000" (50.80mm) |
Diameter: | -- |
Height Off Base (Height of Fin): | 0.500" (12.70mm) |
Power Dissipation @ Temperature Rise: | -- |
Thermal Resistance @ Forced Air Flow: | 2.50°C/W @ 250 LFM |
Thermal Resistance @ Natural: | -- |
Material: | Aluminum |
Material Finish: | Black Anodized |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Thermal - Heat Sinks
A Heat Sink is a vital component in any electronic system or system that produces heat. Heat Sinks are designed to efficiently absorb, conduct and dissipate heat, thereby keeping the components cool during operation. The 609-50ABS3 is a heat sink developed by Sanyo Electric for its specific applications. This article introduces the application field and working principle of the 609-50ABS3.
Application Field
The 609-50ABS3 heat sink is designed to be used in applications such as Solid State Lighting (SSL), consumer electronics, home appliances, and office equipment. It is also capable of providing optimized thermal management for LED lighting systems and other similar applications.
The 609-50ABS3 heat sink is highly efficient in dissipating heat. It is engineered to work effectively in low profile, space-saving applications and offer superior thermal management in compact LED lighting designs. The 609-50ABS3 is also compatible with many standard engineered products, making it adaptable for a diverse range of uses.
The 609-50ABS3 features a light weight, finned aluminum base, which is designed to sink heat away from the system’s components into the air. It has a patented, angled fin design to optimize the sink’s performance and increase its surface area. This allows more heat to be quickly and efficiently dissipated from the system, keeping it running cool and reliable.
Working Principle
The 609-50ABS3 heat sink works on the principle of heat conduction and convection. Heat is conducted from the source of the heat to the heat sink, then transferred to the air using the fin design. The heat sink is designed to draw the heat from the source and distribute it evenly along the fin surface area.
The 609-50ABS3 also has a specially designed base plate that aids in the heat dissipation process. This base plate has a special coating that helps to improve the efficiency of the heat sink by dissipating the heat more efficiently and effectively. The heat is then transferred into the air, keeping the system cool and reliable.
The 609-50ABS3 is also engineered to dissipate heat from the system quickly and evenly. This helps to minimize the risk of hot spots forming, which can create more strain on the system and impair its performance. The 609-50ABS3 has been tested to ensure that it is capable of dissipating up to twenty-five watts of heat reliably and efficiently.
Conclusion
The 609-50ABS3 Heat Sink from Sanyo Electric is a highly efficient heat sink designed for a wide variety of applications. It features a light weight, finned aluminum base and a patented, angled fin design that is designed to optimize performance and dissipate heat quickly and evenly. It is suitable for a range of applications, including SSL, consumer electronics, home appliances and office equipment. The 609-50ABS3 has been tested and proven to be capable of dissipating up to twenty-five watts of heat reliably and efficiently.
The specific data is subject to PDF, and the above content is for reference