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19 mm Square x 25 mm High Alpha Heat Sink - 15.75 °C/W |
| The N19-25B Alpha heat sink offers a natural convection thermal resistance rating of 15.75 °C/W within
a 19mm square footprint. The hex shaped pins are set in a sparse pattern
which makes it easier for air to efficiently flow through the heat sink, making this cooler an ideal choice for either passively or
actively cooling high power LEDs. |
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25 mm Square x 15 mm High Alpha Heat Sink - 15.5 °C/W |
| The N25-15B Alpha heat sink offers a natural convection thermal resistance rating of 15.5 °C/W within
a 25mm square footprint. The hex shaped pins are set in a sparse pattern
which makes it easier for air to efficiently flow through the heat sink, making this cooler an ideal choice for either passively or
actively cooling high power LEDs. |
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25 mm Square x 15 mm High Alpha Heat Sink - 15.6 °C/W |
| The LPD25-15B Alpha heat sink offers a natural convection thermal resistance rating of 15.6 °C/W within
a 25mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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35 mm Square x 6 mm High Alpha Heat Sink - 14.4 °C/W |
| The LPD35-6B Alpha heat sink offers a natural convection thermal resistance rating of 14.4 °C/W within
a 35mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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19 mm Square x 25 mm High Alpha Heat Sink - 15.7 °C/W |
| The LPD19-25B Alpha heat sink offers a natural convection thermal resistance rating of 15.7 °C/W within
a 19mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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35 mm Square x 4 mm High Alpha Heat Sink - 15.5 °C/W |
| The LPD35-4B Alpha heat sink offers a natural convection thermal resistance rating of 15.5 °C/W within
a 35mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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35 mm Square x 5 mm High Alpha Heat Sink - 15.0 °C/W |
| The LPD35-5B Alpha heat sink offers a natural convection thermal resistance rating of 15 °C/W within
a 35mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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25 mm Square x 20 mm High Alpha Heat Sink - 14.25 °C/W |
| The N25-20B Alpha heat sink offers a natural convection thermal resistance rating of 14.25 °C/W within
a 25mm square footprint. The hex shaped pins are set in a sparse pattern
which makes it easier for air to efficiently flow through the heat sink, making this cooler an ideal choice for either passively or
actively cooling high power LEDs. |
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30 mm Square x 10 mm High Alpha Heat Sink - 14.0 °C/W |
| The N30-10B Alpha heat sink offers a natural convection thermal resistance rating of 14 °C/W within
a 30mm square footprint. The hex shaped pins are set in a sparse pattern
which makes it easier for air to efficiently flow through the heat sink, making this cooler an ideal choice for either passively or
actively cooling high power LEDs. |
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30 mm Square x 10 mm High Alpha Heat Sink - 15.0 °C/W |
| The LPD30-10B Alpha heat sink offers a natural convection thermal resistance rating of 15 °C/W within
a 30mm square footprint. The elliptical shaped, aerodynamic fins are set in a
sparse pattern which makes it easier for air to efficiently flow through the heat sink, making this cooler an
ideal choice for either passively or actively cooling high power LEDs. |
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