Improved Noise Suppression via Multilayer Ceramic Capacitors (MLCs) in Power-Entry Decoupling
Written By: Arch Martin | R. Kenneth Keenan
Abstract:
A new decoupling technique is proposed for surface mounted designs that recommends using 0.1 µF MLCs as the circuit-level decoupling capacitors and 1.0 µF to 10 µF MLCs in place of the tantalum as the board-level power-entry capacitor. This combination of MLCs on each PCB coupled with a single system level tantalum or aluminum is probably an optimum arrangement; performance is enhanced, and cost is not increased.
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A new decoupling technique is proposed for surface mounted designs that recommends using 0.1 µF MLCs as the circuit-level decoupling capacitors and 1.0 µF to 10 µF MLCs in place of the tantalum as the board-level power-entry capacitor. This combination of MLCs on each PCB coupled with a single system level tantalum or aluminum is probably an optimum arrangement; performance is enhanced, and cost is not increased.