ceramic substrates

Comparative Performance Benefits of Ceramic and Metal Substrates

Ceramic substrates, particularly beryllium oxide, aluminum nitride, and alumina, are critical in high-power electronic circuits due to their thermal conductivity and mechanical properties, while PCB iron substrates enhance heat dissipation and dimensional stability, addressing challenges in modern electronics.

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Introduction to LEDComparing LED Encapsulated PCBs DPCs. DPC Ceramic PCB

The ubiquity of LED lights in modern cities underscores their crucial role, especially in thermal management where innovative ceramic PCBs promise enhanced heat dissipation and signal output, shaping the future of high-power LED packaging towards efficient and thermoelectrically separated solutions.

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Introduction and Classification of SMT Chip Resistors Part 2

Thin film resistors are fabricated by depositing materials onto insulating substrates using methods like evaporation, offering precise accuracy and low temperature coefficients, making them ideal for various applications. Thermistors, categorized into PTC and NTC based on their temperature coefficient, exhibit distinct resistance changes with temperature, operating as sensitive semiconductor devices with variable response times influenced by ambient conditions and current levels.

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