P42BN820M5ST

Milli-Cap Ideal SMT Capacitor ® Features Insertion Loss l 0201, 0402 and 0602 footprints l Low Loss High Q part Insertion Loss P21 l Very Low Series Inductance 0 l Ultra High Series Resonance l Matches typical 50Ω line widths -2 Magnitude (dB) l Behaves like an Ideal Capacitor P21BN300M5S (S21) -4 l Single piece construction l Orientation insensitive -6 Functional applications -8 l Test Equipment, Photonics, SONET, TOSA/ROSA, High Speed Data l Broadband Microwave/Millimeter Wave l Transimpedance Amplifiers -10 -12 -14 Specification -16 -18 0 5 10 15 20 25 30 35 40 Frequency (GHz) Temperature Coefficient of Capacitance Values as per electrical characteristics table Milli-Cap® Metallization Insertion Loss P42 Electrical 7.5µ” Au over 50µ” Ni 10 Capacitance Range 0.5pF to 82pF 0 Maximum Assembly Process Temperature Magnitude (dB) 250ºC -10 P42CG1R5C5S P42NR2R0K5S P62NV100M5S P62BN820M5S -20 -30 -40 -50 0 5 10 15 20 25 30 35 40 Frequency (GHz) Insertion Loss P62 0 Magnitude (dB) -10 P62CF0R3B5S P62CF0R5B5S P62CD0R7B5S P62CG0R9B5S P62CG1R0C5 P62NV100M5S P62BN820M5S -20 -30 -40 www.dilabs.com North America Knowles (Cazenovia) Phone: +1 315 655 8710 DLISales@knowles.com -50 -60 0 5 10 15 20 25 Frequency (GHz) 10110/17/v2 30 35 40 Europe Knowles (UK) Ltd Phone: +44 1603 723300 SyferSales@knowles.com Far East Knowles Capacitors Phone: +86 512 62588258-6243 KCAsiaSales@knowles.com Electrical characteristics - Milli-Cap® Part Number Value (pF) Voltage Rating TCC Dissipation Factor (Max) Insulation Resistance (Min) Frequency Range P21BN300M5S 30 50 ± 15% 3.5% 105 Mῼ 20MHz – 40GHz P42BN820M5S 82 50 ± 15% 3.5% 105 Mῼ 20MHz – 40GHz P42NR2R0K5S 2 50 N1500 ± 500ppm/°C 0.25% 10 Mῼ 4GHz – 20GHz P42CG1R5C5S 1.5 50 0 ± 30ppm/°C 0.7% 10 Mῼ 8GHz – 32GHz P62BN820M5S 82 50 ± 15% 3.5% 10 Mῼ 20MHz – 40GHz P62NV100M5S 10 50 N4700 ± 1000ppm/°C 1.2% 10 Mῼ 4GHz – 20GHz P62CG1R0C5S 1 50 0 ± 30ppm/°C 0.7% 106 Mῼ 18GHz – 40GHz P62CD0R7B5S 0.7 50 N20 ± 15ppm/°C 0.15% 106 Mῼ 20GHz – 40GHz P62CF0R5B5S 0.5 50 0 ± 15 ppm/°C 0.6% 10 Mῼ 28GHz – 40GHz 6 6 5 6 6 Dimensional specifications - Milli-Cap® Case size Milli-Cap® Length Width Thickness P21 (0201) 0.020” ± 0.004” 0.012” ± 0.002” 0.010” ± 0.002” P42 (0402) 0.038” ± 0.004” 0.020” ± 0.002” 0.020” ± 0.002” P62 (0602) 0.058” ± 0.004” 0.020” ± 0.002” 0.020” ± 0.002” Thickness Width Length Attachment Methods - Milli-Capº Recommended attachment to soft or hard substrate using Conductive Epoxy 1. Place a single drop of conductive epoxy onto each micro strip as illustrated; the edge of the epoxy shall be at least .003”- .004” back from the edge of the trace to prevent filling the gap with epoxy. 2. Centering the termination gap of the capacitor within the gap in the micro strip, press with careful, even pressure onto the micro strip ensuring the terminations make good contact with the epoxy drops. 3. Cure according to the epoxy manufacturer’s preferred schedule, typically 125°C to 150°C max. 4. After curing, inspect joint for epoxy shorts across the termination and micro strip gaps that would cause a short across the cap. Isopropanol and Methanol are both safe to use to pre clean Milli-Caps®. Recommended attachment to soft or hard substrate using Solder 1. Place a single drop of solder paste onto each micro strip as illustrated; the edge of the solder shall be at least .001”- .002” back from the edge of the trace to prevent filling the gap with solder. 2. Centering the termination gap of the capacitor within the gap in the micro strip, press with careful, even pressure onto the micro strip ensuring the terminations make good contact with the drops of solder paste. 3. Reflow according to the solder manufacturer’s preferred profile, ensuring the reflow temperature does not exceed 250°C. 10110/17/v2 4. After the reflow step is completed, inspect joint for voids or excess flux and non-reflowed solder balls that can degrade performance or cause shorts across the gaps. Proper cleaning after the reflow process is crucial to avoiding performance degradation and discovering poor solder joints. Isopropanol and Methanol are both safe to use with soldered Milli-Caps®. © Copyright: Knowles Corporation 2017 - Design: www.panpublicity.co.uk Isopropanol, and Methanol are not to be used after mounting with conductive epoxy as they act as a solvent!