101X18W104MV4E Datasheet, PDF(4/4 Page) Johanson Technology Inc.

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101X18W104MV4E Datasheet, PDF (4/4 Pages) Johanson Technology Inc. – X2Y® FILTER & DECOUPLING CAPACITORS

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X2YÂ® Filter & Decoupling Capacitors

Common Mode Choke Replacement

â¢ Superior High Frequency Emissions Reduction

â¢ Smaller Sizes, Lighter Weight

â¢ No Current Limitation

â¢ Vibration Resistant

â¢ No Saturation Concerns

See our website for a detailed application note with component

test comparisons and circuit emissions measurements.

Measured Common Mode Rejection

Parallel Capacitor Solution

A common design practice is to parallel decade capacitance values to

extend the high frequency performance of the filter network. This causes an

unintended and often over-looked effect of anti-resonant peaks in the filter

networks combined impedance. X2Yâs very low mounted inductance allows

designers to use a single, higher value part and completely avoid the anti-

resonance problem. The impedance graph on right shows the combined

mounted impedance of a 1nF, 10nF & 100nF 0402 MLC in parrallel in RED.

The MLC networks anti-resonance peaks are nearly 10 times the desired

impedance. A 100nF and 47nF X2Y are plotted in BLUE and GREEN. (The

total capacitance of X2Y (Circuit 2) is twice the value, or 200nF and 98nF in this

example.) The sigle X2Y is clearly superior to the three paralleled MLCs.

X2Y High Performance Power Bypass - Improve Performance, Reduce Space & Vias

Actual measured performance of two high performance SerDes FPGA designs demonstrate how a 13 component X2Y bypass network

significantly out performs a 38 component MLC network. For more information see http://johansondielectrics.com/pdfs/JDI_X2Y_STXII.pdf