Heat Sinks

Results: 4
Packaging
BoxBulk
Fin Height
1.000" (25.40mm)1.500" (38.10mm)2.000" (50.80mm)2.500" (63.50mm)
Power Dissipation @ Temperature Rise
2.0W @ 20°C4.0W @ 20°C8.0W @ 40°C14.0W @ 70°C
Thermal Resistance @ Forced Air Flow
1.00°C/W @ 200 LFM1.00°C/W @ 300 LFM1.00°C/W @ 400 LFM1.50°C/W @ 200 LFM
Thermal Resistance @ Natural
3.10°C/W3.50°C/W3.90°C/W4.80°C/W
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Marketplace Product
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Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Type
Package Cooled
Attachment Method
Shape
Length
Width
Diameter
Fin Height
Power Dissipation @ Temperature Rise
Thermal Resistance @ Forced Air Flow
Thermal Resistance @ Natural
Material
Material Finish
RA-T2X-25E
RA-T2X-25E
HEATSINK TO-218,TO-220,TO-247
Ohmite
402
In Stock
294
Marketplace
294 : $3.47310
Bulk
1 : $2.96000
Box
Bulk
Box
ActiveBoard Level, VerticalTO-218, TO-220, TO-247Bolt On and PC PinRectangular, Fins1.654" (42.00mm)0.985" (25.00mm)-1.000" (25.40mm)2.0W @ 20°C1.50°C/W @ 200 LFM4.80°C/WAluminumBlack Anodized
RA-T2X-51E
RA-T2X-51E
HEATSINK TO-218,TO-220,TO-247
Ohmite
2,258
In Stock
1 : $3.91000
Box
Box
ActiveBoard Level, VerticalTO-218, TO-220, TO-247Bolt On and PC PinRectangular, Fins1.654" (42.00mm)0.985" (25.00mm)-2.000" (50.80mm)8.0W @ 40°C1.00°C/W @ 300 LFM3.50°C/WAluminumBlack Anodized
RA-T2X-64E
RA-T2X-64E
HEATSINK TO-218,TO-220,TO-247
Ohmite
1,016
In Stock
1 : $6.27000
Box
Box
ActiveBoard Level, VerticalTO-218, TO-220, TO-247Bolt On and PC PinRectangular, Fins1.654" (42.00mm)0.985" (25.00mm)-2.500" (63.50mm)4.0W @ 20°C1.00°C/W @ 200 LFM3.10°C/WAluminumBlack Anodized
RA-T2X-38E
RA-T2X-38E
HEATSINK TO-220,TO-218,TO-247
Ohmite
0
In Stock
Check Lead Time
1 : $4.61000
Box
Box
ActiveBoard Level, VerticalTO-218, TO-220, TO-247Bolt On and PC PinRectangular, Fins1.654" (42.00mm)0.985" (25.00mm)-1.500" (38.10mm)14.0W @ 70°C1.00°C/W @ 400 LFM3.90°C/WAluminumBlack Anodized
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Heat Sinks


Passive heat exchangers that transfer the heat generated by an electronic component to a fluid medium, often air or a liquid coolant, dissipating it away from the device to maintain an optimal operating temperature. They are designed to maximize the surface area in contact with the medium surrounding it. They are usually made out of copper or aluminum due to their high thermal conductivity.