Anjali Semicon
Diamond Heat Spreader

10.0 X 10.0 X 0.50(mm X mm X mm)<br><br>Specification

10.0 X 10.0 X 0.50(mm X mm X mm)

Specification

  • Length:10 mm
  • Width:10 mm
  • Thickness Dimension:0.5 mm
  • Edges:Laser Cut
  • Edge Features:< 0.2 mm
  • Laser Kerf:
  • Lateral Tolerance:+0.2/-0 mm
  • Side 1, Roughness, Ra:polished, Ra < 50 nm
  • Side 2, Roughness, Ra:lapped, Ra < 250 nm
  • Thickness Tolerance:+/- 0.05 mm

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OVERVIEW OF DIAMOND HEAT SPREADER

Diamond heat spreaders are engineered to provide exceptional thermal management for electronic devices, ensuring efficient distribution of heat across components. Leveraging diamond’s unparalleled thermal conductivity, our heat spreaders are the optimal choice for high-performance and high-reliability applications.

Key Use Cases

High-Power Semiconductors

Diamond heat spreaders effectively manage heat in high-power semiconductor devices, preventing localized hotspots and ensuring consistent performance across the entire component.

LEDs and Optoelectronics

In LED systems and optoelectronic devices, diamond heat spreaders enhance operational efficiency and longevity by dissipating heat evenly, thus reducing the risk of thermal failure.

Power Electronics

For power electronics, diamond heat spreaders provide reliable thermal management, improving device stability and extending lifespan by preventing overheating.

Key Benefits

Superior Thermal Conductivity Diamond’s unmatched ability to conduct heat ensures that thermal loads are spread efficiently, reducing the risk of overheating and improving device performance.
Enhanced Device Longevity By evenly distributing heat, diamond heat spreaders help extend the operational life of electronic components.
Improved Performance Stability The use of diamond heat spreaders ensures that devices operate at optimal temperatures, maintaining performance stability even under high-power conditions.
Low Thermal Expansion Diamond’s low coefficient of thermal expansion minimizes the stress on components caused by temperature fluctuations, reducing the risk of material fatigue or failure.