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Illustrative purposes only
251R14S680GV4T
CAPACITOR RF CERAMIC 68PF 250V 2%, C0G, FULL REEL
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: JOHANSON TECHNOLOGY
- Product type: RF Capacitors
- Capacitance: 68pF
- Product Range: S-Series
- Capacitor Case Style: 0603 [1608 Metric]
- Capacitance Tolerance: ± 2%
- Operating Temperature Max: 125°C
| Delivery and price | |
|---|---|
| Units per pack | 24000 |
| Price | 0.112 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## **Ceramic Capacitor Solutions**
**==> picture [79 x 79] intentionally omitted <==**
**----- Start of picture text -----**<br>
RoHS/REACHCompliance<br>**----- End of picture text -----**<br>
AC Safety Certified High Voltage SMT High Capacitance High Temperature X2Y[®] Low ESL LICC Low ESL SMPS Stacks High Voltage Radials Planar Array Discoidal CapStrate[®] Custom Solutions
## _Your Technology Partner_
The mission of the Johanson Companies is to translate our customer needs into quality electronic components, produced in factories that are models of excellence, supported by innovative service. With over 30 years of experience, Johanson Dielectrics provides both standard and custom technology solutions tailored to your specific electronic applications.
Our standard product range includes High Voltage and AC Safety Capacitors providing solutions for Lighting, IT and Business Equipment designs. Our X2Y® Capacitor line provides advanced EMI filtering and IC decoupling solutions and our High Capacitance Tanceram® products provide the highest capacitance values in the smallest cases sizes.
Customized solutions in the areas of High Temperature and High AC power ceramic capacitors are available to customers who require a partnered technology solution.
Johanson Dielectrics design and manufacturing operations are located in Sylmar, California and Zhoaqing, PRC. Our quality minded management system utilizes continuous improvement programs focused on increased product reliability, manufacturing through-put, and product performance. Our broad experience, applications support, and responsive service enhance our ability to drive down your total cost of procurement and speed your time to market.
## _HIGH FREQUENCY CERAMIC SOLUTIONS_
Johanson Technology Inc., Camarillo CA. Products include High Q Capacitors, Ceramic and Wirewound Chip Inductors, and a broad range of LTCC based RF IPCs such as Antennas, Filters, Baluns, Couplers, Matched Filter Baluns, etc.
## www.johansontechnology.com
_Johanson Dielectrics, Inc. reserves the right to make design and price changes without notice. All sales are subject to the Johanson terms and conditions, including a limited warranty and remedies for nonconforming goods or defective goods. Download the Johanson terms and conditions from our website at http://www.johansondielectrics.com/purchasing-terms-and-conditions.html._
www.johansondielectrics.com
2
## **INDEX OF PRODUCTS**
## _SURFACE MOUNT CERAMIC CAPACITORS_
|_SURFACE MOUNT CERAMIC CAPACITORS_||
|---|---|
|Ceramic Capacitor Prototyping Kits|4-5|
|High Voltage Capacitors 250 - 6,000 VDC|6-7|
|Safety Capacitors 250 VAC, Y2, Y3, Japan Standard|8-9|
|Low Inductance X2Y®Capacitors|10-13|
|Low Inductance Capacitors|14|
|Chip Feedthru Filter Capacitors|15|
|High Temperature - 200°C Capacitors|16-17|
|High Capacitance Tanceram®Capacitors|18-19|
|SMT Multi-layer Ceramic Capacitors 10 - 200 VDC|20-21|
## _LEADED CERAMIC CAPACITORS_
|_LEADED CERAMIC CAPACITORS_||
|---|---|
|SMPS Stacked Capacitors, 125°C & 200°C versions|22-23|
|Mini-SMPS Stacked Capacitors|24-25|
|Maxi-CapTM SMPS Capacitors|26-27|
|X2Y®Low ESL SMPS Stacked Capacitors|28-29|
|Switch-mode Radial Leaded Capacitors|30-31|
|High Voltage Radial Leaded Capacitors, 125°C, 200°C, 250°C versions|32-33|
|_PLANAR CAPACITORS & CUSTOM CERAMIC SOLUTIONS_||
|Planar Array Capacitors|34-35|
|CapStrate®& Customer Ceramic Solutions|36-37|
|Part Number, Dielectric, Packaging Specifications|38-39|
## _ON-LINE PRODUCTS_
## _ON-LINE INFORMATION_
200°C Radial Leaded Capacitors Tin-Lead Termination Capacitors Polyterm[®] Termination Capacitors Large Size MLC Capacitors High Power AC Capacitors
Packaging & Marking Environmental Compliance Policies Lead-Free Reflow Processing High Voltage PCB Design Capacitor Power Handling X2Y[®] Filter Eval. & PCB Design Guide
**==> picture [57 x 32] intentionally omitted <==**
www.johansondielectrics.com
3
## **CERAMIC CAPACITOR ENGINEERING DESIGN KITS**
Johanson Dielectrics, Inc. offers a variety of multi-layer chip capacitor sample kits for proto-type design work. Each kit is grouped by type, size, or voltage and contains a selection of popular values and tolerances. The chips are individually packaged in labeled plastic compartments for easy access. The general range of kit contents is described below. Specific part number details may be found at www.johansondielectrics.com
|0402 Ceramic Chip Capacitor Kit|0402 Ceramic Chip Capacitor Kit||||P/N: S-0402|
|---|---|---|---|---|---|
||1400 piece sample assortment of selected values from 1.0pF to 0.22µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0402|50 VDC - 6.3 VDC|NP0, X7R,Y5V|1.0pF to 0.22µF|50 pcs|1400 pcs|
|||||||
|0603 Ceramic Chip Capacitor Kit|||||P/N: S-0603|
||1400 piece sample assortment of selected values from 1.0pF to 0.22µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0603|50 VDC - 16 VDC|NP0, X7R,Y5V|10pF to 0.22µF|50 pcs|1400 pcs|
|||||||
|0805 Ceramic Chip Capacitor Kit|||||P/N: S-0805|
||1400 piece sample assortment of selected values from 1.0pF to 0.47µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0805|100 VDC - 16 VDC|NP0, X7R|10pF to 0.47µF|50 pcs|1400 pcs|
|||||||
|TANCERAM®HIGH CAPACITANCE Ceramic Chip Capacitor Kit|||||P/N: S-TAN-X5R|
||500 piece sample assortment of selected values from 1.0µF to 100µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0402, 0603, 0805<br>1206, 1210|25 VDC - 6.3 VDC|X5R|1.0µF - 100µF|10 - 25 pcs|500 pcs|
|||||||
|500 VDC Ceramic Chip Capacitor Kit|||||P/N: S-500|
||400 piece sample assortment of selected values from 33pF to 0.1µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0805 - 1812|500 VDC|NP0, X7R|33pF to 0.1µF|10-20 pcs|400 pcs|
|||||||
|1000 VDC Ceramic Chip Capacitor Kit||||P/N: S-1KV||
||400 piece sample assortment of selected values from 22pF to 0.1µF|||||
|Chip Size|Voltage Rating|Dielectric|Capacitanc Range|Qty / Value|Total Qty|
|0805 - 2225|1000 VDC|NP0, X7R|22pF to 0.1µF|10-20 pcs|400 pcs|
_Johanson may from time-time adjust actual kit contents based on design demand trends. Check the Johanson web site for design kit updates and kit content changes._
www.johansondielectrics.com
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## **CERAMIC CAPACITOR ENGINEERING DESIGN KITS**
|2000 VDC Ceramic Chip Capacitor Kit<br>P/N: S-2KV|
|---|
|300 piece sample assortment of selected values from 22pF to 0.022µF|
|Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty|
|1206 - 2225<br>2000 VDC<br>NP0, X7R<br>22pF to 0.022µF<br>10-20 pcs<br>300 pcs|
|X2/Y3 SAFETY CERTIFIED Ceramic Chip Capacitor Kit<br>P/N: S-SY3<br>240 piece sample assortment of selected values from 10pF to 1500 pF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>1808<br>3KV DC / 250 AC<br>NP0, X7R<br>10pF to 1500 pF<br>20 pcs<br>240 pcs<br>~~a~~|
|X1/Y2 SAFETY CERTIFIED Ceramic Chip Capacitor Kit<br>P/N: S-SY2<br>200 piece sample assortment of selected values from 10pF to 2200 pF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>1808 - 2220<br>5KV DC / 250 AC<br>NP0, X7R<br>10pF to 2200pF<br>20 pcs<br>200 pcs<br>~~a~~|
|X2Y®EMI FILTER Capacitor Kit - 0402 Size<br>P/N: S-X07CBK<br>600 piece sample assortment of selected values from 1.0pF to 0.01µF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>0402<br>10 - 50 VDC<br>NP0, X7R<br>1.0pF to 0.01µF<br>50 pcs<br>600 pcs<br>~~a~~|
|X2Y®EMI FILTER Capacitor Kit - 0603 Size<br>P/N: S-X14CBK<br>700 piece sample assortment of selected values from 1.0pF to 0.01µF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>0603<br>50 - 100 VDC<br>NP0, X7R<br>1.0pF to 0.01µF<br>50 pcs<br>700 pcs<br>~~a~~|
|X2Y®POWER BYPASS Capacitor Kit - 0603 Size<br>P/N: S-X14-PBP<br>300 piece sample assortment of selected values from 1.0nF to 1.0µF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>0603<br>6.3 - 100 VDC<br>X7R, X5R<br>1.0nF to 1.0µF<br>20 pcs<br>300 pcs<br>~~a~~|
|X2Y®EMI FILTER Capacitor Kit - 0805 Size<br>P/N: S-X15-EMI<br>300 piece sample assortment of selected values from 1.0pF to 0.01µF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>0805<br>50 - 100 VDC<br>NP0, X7R<br>1.0pF to 0.01µF<br>20 pcs<br>300 pcs<br>~~a~~|
|X2Y®DC MOTOR FILTER Capacitor Kit<br>P/N: S-X2Y-MTR<br>300 piece sample assortment of selected values from 0.10µF to 0.47µF<br>Chip Size<br>Voltage Rating<br>Dielectric<br>Capacitanc Range<br>Qty / Value<br>Total Qty<br>1206 - 1812<br>100 VDC<br>X7R<br>0.10µF to 0.47µF<br>30 pcs<br>300 pcs<br>~~a~~|
|_Johanson may from time-time adjust actual kit contents based on design demand trends._|
|_Check the Johanson web site for design kit updates and kit content changes._|
www.johansondielectrics.com
5
## **HIGH VOLTAGE SURFACE MOUNT MLCCS 250 - 6,000 VDC**
These high voltage capacitors feature a special internal electrode design which reduces voltage concentrations by distributing voltage gradients throughout the entire capacitor.
This unique design also affords increased capacitance values in a given case size and voltage rating. The capacitors are designed and manufactured to the general requirement of EIA198 and are subjected to a 100% electrical testing making them well suited for a wide variety of telecommunication, commercial, and industrial applications.
_APPLICATIONS_ • Analog & Digital Modems • LAN/WAN Interface • Lighting Ballast Circuits • Voltage Multipliers ~~—~~ • DC-DC Converters • Back-lighting Inverters
Polyterm[®] soft termination option for demanding environments & processes available on select parts, please contact the factory.
_CASE SIZE CAPACITANCE SELECTION_
|JDI /EIA<br>INCHES<br>(MM)<br>~~ee~~|RATED<br>VOLTAGE<br>~~ee~~|NP0 DIELECTRIC<br>~~ee~~|X7R DIELECTRIC<br>~~ee~~|
|---|---|---|---|
|||MINIMUM<br>MAXIMUM<br>~~ee~~|MINIMUM<br>MAXIMUM<br>~~ee~~|
|R15/0805<br>L<br>W<br>T<br>E/B<br>.080 ±.010<br>.050 ±.010<br>.055 Max.<br>.020 ±.010<br>(2.03 ±.25)<br>(1.27 ±.25)<br>(1.40)<br>(0.51±.25)<br>250 VDC<br>500 VDC<br>630 VDC<br>1000 VDC<br>~~ee~~||-<br>-<br>10 pF<br>680 pF<br>10 pF<br>560 pF<br>10 pF<br>390 pF<br>~~ee~~|1000 pF<br>0.022 µF<br>1000 pF<br>0.010 µF<br>1000 pF<br>6800 pF<br>100 pF<br>2700 pF<br>~~ee~~|
|R18/1206<br>L<br>W<br>T<br>E/B<br>.125 ±.010<br>.062 ±.010<br>.067 Max.<br>.020 ±.010<br>(3.17 ±.25)<br>(1.57 ±.25)<br>(1.70)<br>(0.51±.25)<br>250 VDC<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC||-<br>-<br>10 pF<br>1500 pF<br>10 pF<br>1200 pF<br>10 pF<br>1000 pF<br>10 pF<br>220 pF<br>10 pF<br>82 pF|1000 pF<br>0.068 µF<br>1000 pF<br>0.033 µF<br>1000 pF<br>0.027 µF<br>100 pF<br>0.010 µF<br>100 pF<br>4700 pF<br>100 pF<br>1000 pF|
|S41/1210<br>L<br>W<br>T<br>E/B<br>.125 ±.010<br>.095 ±.010<br>.080 Max.<br>.020 ±.010<br>(3.18 ±.25)<br>(2.41 ±.25)<br>(2.03)<br>(0.51±.25)<br>250 VDC<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC||-<br>-<br>10 pF<br>3900 pF<br>10 pF<br>2700 pF<br>10 pF<br>1800 pF<br>10 pF<br>560 pF<br>10 pF<br>220 pF|1000 pF<br>0.150 µF<br>1000 pF<br>0.068 µF<br>1000 pF<br>0.047 µF<br>100 pF<br>0.015 µF<br>100 pF<br>4700 pF<br>100 pF<br>1000 pF|
|R29/1808<br>L<br>W<br>T<br>E/B<br>.185 ±.020<br>.080 ±.010<br>.085 Max.<br>.020 ±.010<br>(4.70 ±.51)<br>(2.03 ±.25)<br>(2.16)<br>(0.51±.25)<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>6000 VDC||10 pF<br>4700 pF<br>10 pF<br>3300 pF<br>1.0 pF<br>2200 pF<br>1.0 pF<br>820 pF<br>1.0 pF<br>470 pF<br>1.0 pF<br>180 pF<br>1.0 pF<br>75 pF<br>1.0 pF<br>75 pF|1000 pF<br>0.100 µF<br>1000 pF<br>0.047 µF<br>100 pF<br>0.022 µF<br>100 pF<br>0.010 µF<br>100 pF<br>3300 pF<br>100 pF<br>1800 pF<br>47 pF<br>390 pF<br>47 pF<br>150 pF|
Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 ( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.
www.johansondielectrics.com
6
## **HIGH VOLTAGE SURFACE MOUNT MLCCS 250 - 6,000 VDC**
_CASE SIZE CAPACITANCE SELECTION_
|JDI /EIA<br>INCHES<br>(MM)<br>~~a~~|RATED<br>VOLTAGE<br>~~a~~|NP0 DIELECTRIC<br>~~a~~|X7R DIELECTRIC<br>~~a~~|
|---|---|---|---|
|||MINIMUM<br>MAXIMUM<br>~~a~~|MINIMUM<br>MAXIMUM<br>~~a~~|
|S43 / 1812<br>L<br>W<br>T<br>E/B<br>.177 ±.012<br>.125 ±.010<br>.110 Max.<br>.025 ±.015<br>(4.50 ±.30)<br>(3.17 ±.25)<br>(2.80)<br>(0.64±.38)<br>250 VDC<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>6000 VDC<br>~~a~~<br>~~a~~||-<br>-<br>100 pF<br>8200 pF<br>100 pF<br>6800 pF<br>10 pF<br>5600 pF<br>10 pF<br>1800 pF<br>10 pF<br>1000 pF<br>10 pF<br>390 pF<br>10 pF<br>150 pF<br>10 pF<br>150 pF<br>~~a~~<br>~~a~~|0.010 µF<br>0.470 uF<br>1000 pF<br>0.330 uF<br>1000 pF<br>0.120 µF<br>1000 pF<br>0.100 µF<br>100 pF<br>0.010 µF<br>100 pF<br>4700 pF<br>100 pF<br>1200 pF<br>100 pF<br>820 pF<br>10 pF<br>330 pF<br>~~a~~<br>~~a~~|
|S49 / 1825<br>L<br>W<br>T<br>E/B<br>.180 ±.010<br>.250 ±.010<br>.140 Max.<br>.025 ±.015<br>(4.57 ±.25)<br>(6.35 ±.25)<br>(3.56)<br>(0.64±.38)<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>6000 VDC<br>~~'~~||100 pF<br>0.018 µF<br>100 pF<br>0.015 µF<br>10 pF<br>0.012 µF<br>10 pF<br>5600 pF<br>10 pF<br>2200 pF<br>10 pF<br>1200 pF<br>10 pF<br>390 pF<br>10 pF<br>390 pF<br>~~'~~|0.01 µF<br>0.390 µF<br>0.01 µF<br>0.270 µF<br>1000 pF<br>0.180 µF<br>100 pF<br>0.039 µF<br>100 pF<br>8200 pF<br>100 pF<br>2200 pF<br>100 pF<br>1500 pF<br>100 pF<br>820 pF<br>~~'~~|
|S47 / 2220<br>L<br>W<br>T<br>E/B<br>.225 ±.015<br>.200 ±.015<br>.150 Max.<br>.025 ±.015<br>(5.72 ±.38)<br>(5.08 ±.38)<br>(3.81)<br>(0.64±.38)<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>6000 VDC<br>~~U~~||1000 pF<br>0.018 µF<br>1000 pF<br>0.018 µF<br>100 pF<br>0.015 µF<br>100 pF<br>5600 pF<br>10 pF<br>2700 pF<br>10 pF<br>1500 pF<br>10 pF<br>470 pF<br>10 pF<br>470 pF<br>~~U~~|0.01 µF<br>0.470 µF<br>0.01 µF<br>0.270 µF<br>1000 pF<br>0.120 µF<br>1000 pF<br>0.039 µF<br>100 pF<br>0.010 µF<br>100 pF<br>2700 pF<br>100 pF<br>1500 pF<br>100 pF<br>820 pF<br>~~U~~|
|S48 / 2225<br>L<br>W<br>T<br>E/B<br>.225 ±.010<br>.255 ±.015<br>.160 Max.<br>.025 ±.015<br>(5.72 ±.25)<br>(6.48 ±.38)<br>(4.06)<br>(0.64±.38)<br>500 VDC<br>630 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>6000 VDC<br>~~'~~||1000 pF<br>0.027 µF<br>1000 pF<br>0.022 µF<br>100 pF<br>0.018 µF<br>100 pF<br>8200 pF<br>10 pF<br>3300 pF<br>10 pF<br>1800 pF<br>10 pF<br>470 pF<br>10 pF<br>470 pF<br>~~'~~|0.01 µF<br>0.560 µF<br>0.01 µF<br>0.390 µF<br>1000 pF<br>0.180 µF<br>1000 pF<br>0.056 µF<br>100 pF<br>0.012 µF<br>100 pF<br>3300 pF<br>100 pF<br>2700 pF<br>100 pF<br>1200 pF<br>~~'~~|
Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 ( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.
## _ELECTRICAL CHARACTERISTICS_
**==> picture [111 x 27] intentionally omitted <==**
**----- Start of picture text -----**<br>
W L<br>T E/B<br>**----- End of picture text -----**<br>
Meets the standard NP0 & X7R dielectric specifications listed on page 39 DIELECTRIC WITHSTANDING VOLTAGE DWV = 1.5 X rated WVDC for ratings 500-999 WVDC, DWV = 1.2 X rated WVDC for ratings ≥ 1,000 WVDC
NOTE: Capacitors may require a surface coating to prevent external arcing. Solder mask should not be used beneath capacitors. For more information see JDI Tech Note “Surface Arc Season”
## _HOW TO ORDER HIGH VOLTAGE SURFACE MOUNT_
## P/N written: 202R18W102KV4E
202 R18 W 102 K V 4 E LJ LJ | [| | [| [| VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 501 = 500 V R15 = 0805 N = NP0 1st two digits are signifiJ = ± 5% V = NI Barrier with 100% 4 = Unmarked E = Embossed 7” 631 = 630 V R18 = 1206 W = X7R cant; third digit denotes K = ± 10% Sn Plating (Matte) 6 = EIA Code T = Punched 7” 102 = 1000 V R29 = 1808 number of zeros. M = ± 20% 202 = 2000 V S41 = 1210 102 = 1000 pF F = Polyterm No code = bulk 302 = 3000 V S43 = 1812 104 = 0.10 µF flexible termination Tape specs. 402 = 4000 V S47 = 2220 T = SnPb per EIA RS481 502 = 5000 V S48 = 2225 602 = 6000 V S49 = 1825
www.johansondielectrics.com
7
## **AC SAFETY CAPACITORS**
Johanson Dielectrics Type SC ceramic chip capacitors are designed for AC voltage surge and lightning protection in lineto-ground interface applications in computer networks, modem, facsimile and other equipment.
Johanson’s safety capacitor offering includes four different case sizes and NP0 and X7R dielectric materials.
These devices are surface mount ready with barrier terminations and tape and reel packaging.
Information on capacitor safety ratings and certification details may be found below.
**==> picture [131 x 31] intentionally omitted <==**
**----- Start of picture text -----**<br>
W L<br>T E/B<br>**----- End of picture text -----**<br>
Polyterm[®] soft termination option for demanding environments & processes available on select parts, please contact the factory.
|SAFETY||VOLTAGE|VOLTAGE|WITHSTANDING|IMPULSE||CASE|JOHANSON|
|---|---|---|---|---|---|---|---|---|
|RATING||RATING||VOLTAGE|VOLTAGE||SIZE|ORDERING P/N|
|X2/Y3||250 VAC||1,500 VAC|2,500 V||1808|302R29______V3E-****-SC|
|STANDARDS:IEC 60384-14:2005, EN 60950 2001 • UL 60950-01|IEC 60384-14:2005, EN 60950 2001 • UL 60950-01CERTIFICATIONS: TUV Rheinland R 50227900 • UL File E212609 • Semko 0026092-1 & 0003222-1||||||||
||||||||||
|Y3||250 VAC||1,500 VAC|2,500 V||1812|302S43______V3E-****-SC|
|STANDARDS:IEC 60384-14:2005, EN 60950:2001|IEC 60384-14:2005, EN 60950:2001CERTIFICATIONS:TUV Rheinland R 50227900||||||||
||||||||||
|X1/Y2||250 VAC||1,500 VAC|5,000 V||1808|502R29______V3E-****-SC|
|STANDARDS:IEC 60384-14:2005 • UL 60950-01|IEC 60384-14:2005 • UL 60950-01CERTIFICATIONS:TUV Rheinland R 50227900 / UL File E212609||||||||
||||||||||
|Y2||250 VAC||1,500 VAC|5,000 V||2211|502R30______V3E-****-SC|
|STANDARDS:IEC 60384-14:2005 • UL 60950-01|IEC 60384-14:2005 • UL 60950-01||IEC 60384-14:2005 • UL 60950-01CERTIFICATIONS:TUV Rheinland R 50227900 • UL File: E212609|||TUV Rheinland R 50227900 • UL File: E212609|TUV Rheinland R 50227900 • UL File: E212609||
||||||||||
|X1/Y2||250 VAC||1,500 VAC|5,000 V||2220|502S47______V3E-****-SC|
|STANDARDS:IEC 60384-14:2005 • UL 60950-01|IEC 60384-14:2005 • UL 60950-01||IEC 60384-14:2005 • UL 60950-01CERTIFICATIONS:TUV Rheinland R 50227900 • UL File: E212609|||TUV Rheinland R 50227900 • UL File: E212609|TUV Rheinland R 50227900 • UL File: E212609||
X Capacitors are defined as suitable for use in situations where failure of the capacitor would not lead to danger of electric shock.
Y Capacitors are defined as suitable for use in situations where failure of the capacitor could lead to danger of electric shock.
www.johansondielectrics.com
8
**AC SAFETY CAPACITORS**
**SAFETY CERTIFIED** INCHES (MM) R29 / 1808 L .185 ±.015 (4.70 ±.38) DIELECTRIC W .080 ±.010 (2.03 ±.25) NP0 T .085 Max. (2.16) E/B .020 ±.010 (0.51±.25) X7R X2/Y3 | ~~hn~~ S43 / 1812 L .175 ±.010 (4.45 ±.25) W .125 ±.010 (3.17 ±.25) T .115 Max. (2.92) E/B .025 ±.015 (0.64±.38) Y3 ~~SU~~ sssssssss ~~TELTT TIT TT TPT TPE TTT Ty~~ R29 / 1808 L .185 ±.015 (4.80 ±.38) W .080 ±.015 (2.03 ±.25) T .085 Max. (2.16) E/B .012 ±.015 (0.30±.13) X1/Y2 -| || ll ~~UU~~ R30 / 2211 L .225 ±.016 (5.72 ±.40) W .110 ±.010 (2.80 ±.25) T .115 Max. (2.92) E/B .020 ±.010 (0.51±.25) Y2 ~~len~~ ~~**n**~~ S47 / 2220 L .225 ±.015 (5.72 ±.38) W .200 ±.015 (5.08 ±.38) T .150 Max. (3.81) E/B .025 ±.015 (0.64±.38) X1/Y2 . ~~||) PFEnnE PEER LLL LLL~~ _HOW TO ORDER AC SAFETY CAPACITORS_ P/N written: 302R29W102MV3E-****-SC****-SC-SC 502 R29 W 102 M V 3 E -****-SC L | EJ Ef [| L_| | [| I} Eo] VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING TYPE 302 = 250VAC R29=1808 N = NP0 1st two digits are J = ± 5% V = NI Barrier with 3 = Required E = Embossed 7” SC = Safety [2500V Impulse] R30=2211 W = X7R significant; third digit K = ± 10% 100% Sn Plating Safety Mark Certified 502 = 250VAC S43=1812 denotes number of M = ± 20% (Matte) No code = bulk [5000V Impulse] AC2=2220S47=2220 zeros, R = decimal.102 = 1000 pF104 = 0.10 µF flexible terminationF = Polyterm per EIA RS481Tape specs. 5R0 = 5.0pF
P/N written: 302R29W102MV3E-****-SC****-SC-SC
www.johansondielectrics.com
9
## **X2Y® FILTER & DECOUPLING CAPACITORS**
X2Y[®] filter capacitors employ a unique, patented low inductance design featuring two balanced capacitors that are immune to temperature, voltage and aging performance differences.
These components offer superior decoupling and EMI filtering performance, virtually eliminate parasitics, and can replace multiple capacitors and inductors saving board space and reducing assembly costs.
## _ADVANTAGES APPLICATIONS_
- One device for EMI suppression or decoupling
- Replace up to 7 components with one X2Y
- Differential and common mode attenuation
- Matched capacitance line to ground, both lines
- Amplifier FIlter & Decoupling
- High Speed Data Filtering
- EMC I/O Filtering
- FPGA / ASIC / µ-P Decoupling
• Low inductance due to cancellation effect • DDR Memory Decoupling
|EMI Filtering<br>(1 Y-Cap.)<br>~~LEE~~<br>~~ee~~|EMI Filtering<br>(1 Y-Cap.)<br>~~LEE~~<br>~~ee~~|<10pF<br>~~LEE~~<br>|10pF<br>~~LEE~~<br>|22pF<br>~~LEE~~<br>|27pF<br>~~LEE~~<br>|33pF<br>~~LEE~~<br>|47pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|100pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|220pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|470pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE EEE~~<br>|1000pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|1500pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|2200pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|4700pF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|.010µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|.015µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|.022µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|.039µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|.047µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|0.10µF<br>~~LEE~~<br>~~EEE EEE~~<br>~~EEE~~<br>|0.18µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|0.22µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|0.33µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|0.40µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|0.47µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|1.0µF<br>~~LEE~~<br>~~EEE~~<br>~~EEE~~<br>|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Power Bypass<br>(2 Y-Caps.)<br>~~LEE~~<br>~~ee~~||<20pF<br>~~LEE~~<br>|20pF<br>~~LEE~~<br>|44pF<br>~~LEE~~<br>|54pF<br>~~LEE~~<br>|66pF<br>~~LEE~~<br>|94pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|200pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|440pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|940pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE EEE~~<br>|2000pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|3000pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|4400pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|9400pF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|.020µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|.030µF<br>~~EEE ~~<br>~~LEE~~<br>~~EEE~~<br>|.044µF<br> ~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|.078µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|.094µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.20µF<br>~~EEE EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.36µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.44µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.68µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.80µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|0.94µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|2.0µF<br>~~EEE~~<br>~~LEE~~<br>~~EEE~~<br>|
|SIZE<br>~~LEE~~<br>~~ee~~<br>~~oe~~|CAP.<br>CODE<br>~~LEE~~<br>~~eee~~<br>~~oe~~|XRX<br>~~LEE~~<br>~~eee~~|100<br>~~LEE~~<br>~~eee~~|220<br>~~LEE~~<br>~~eee~~|270<br>~~LEE~~<br>~~eee~~|330<br>~~LEE~~<br>~~eee~~|470<br>~~LEE~~<br>~~EEE~~<br>~~eee~~|101<br>~~LEE~~<br>~~EEE~~<br>~~eee~~|221<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~PT~~|471<br>~~LEE~~<br>~~EEE EEE~~<br>~~eee~~<br>~~PTttt~~|102<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttt~~|152<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttt~~|222<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~tttttt~~|472<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttt~~|103<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttt~~|153<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttttt~~|223<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~tt~~|393<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ttey~~|473<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ey~~|104<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~eyee~~|184<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ee~~|224<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ee~~|334<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~ee~~|404<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~Ey~~|474<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~Ey~~|105<br>~~LEE~~<br>~~EEE~~<br>~~eee~~<br>~~Ey~~|
|0402 (X07)<br>~~ee~~<br>~~oe~~|NP0<br><br>~~oe~~|50<br><br>~~Pi]~~|50<br><br>~~Pi]~~<br>~~|~~|50<br><br>~~|~~|50<br><br>~~|~~|50<br><br>~~|~~|50<br>~~EEE~~<br><br>~~tl~~|50<br>~~EEE~~<br><br>~~tl~~|~~EEE~~<br><br>~~PT~~|~~EEE EEE~~<br><br>~~PTttt~~|~~EEE~~<br><br>~~ttt~~|~~EEE~~<br><br>~~ttt~~|~~EEE~~<br><br>~~tttttt~~|~~EEE~~<br><br>~~ttt~~|~~EEE~~<br><br>~~ttt~~|~~EEE~~<br><br>~~ttttt~~<br>~~Pt~~|~~EEE~~<br><br>~~tt~~<br>~~PtTTT~~|~~EEE~~<br><br>~~ttey~~<br>~~TTT~~|~~EEE ~~<br><br>~~ey~~<br>~~TTT~~|~~EEE~~<br><br>~~eyee~~<br>~~TTT~~|~~EEE~~<br><br>~~ee~~<br>|~~EEE~~<br><br>~~ee~~<br>|~~EEE~~<br><br>~~ee~~<br>|~~EEE~~<br><br>~~Ey~~<br>|~~EEE~~<br><br>~~Ey~~<br>|~~EEE~~<br><br>~~Ey~~<br>|
||X7R<br>~~oe~~|~~Pi]~~<br>~~Pt~~|~~Pi]~~<br>~~|~~<br>~~Pt~~|~~|~~<br>|~~|~~<br>|~~|~~<br>|~~tl~~|~~tl~~|50<br>~~PT~~|50<br>~~PTttt~~<br>~~Pi]~~|50<br>~~ttt~~<br>~~Pi]~~<br>~~tT~~|50<br>~~ttt~~<br>~~tTtT~~|50<br>~~tttttt~~<br>~~tTttt~~|50<br>~~ttt~~<br>~~ttt~~|16<br>~~ttt~~<br>~~ttt~~|~~ttttt~~<br>~~Pt~~<br>~~tttttt~~|~~tt~~<br>~~PtTTT~~<br>~~ttt~~|~~ttey~~<br>~~TTT~~<br>~~ttt~~|~~ey~~<br>~~TTT~~<br>~~ttt~~|~~eyee~~<br>~~TTTTey~~<br>~~TEE~~|~~ee~~<br>~~Tey~~<br>~~TEE~~|~~ee~~<br>~~Tey~~<br>~~TEE~~|~~ee~~<br>~~Tey~~<br>~~TEE~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|
|0603 (X14)<br>~~oe~~<br>~~oe~~|NP0<br>~~oe~~|100 <br>~~Pi]~~<br>~~Pt~~|100 <br>~~Pi]~~<br>~~|~~<br>~~Pt~~|100 <br>~~|~~<br>|100 <br>~~|~~<br>|100<br>~~| ~~<br>|50<br> ~~tl~~|50<br>~~tl~~|50<br>~~PT~~|~~PT ttt~~<br>~~Pi]~~|~~ttt~~<br>~~Pi]~~<br>~~tT~~|~~ttt~~<br>~~tTtT~~|~~ttt ttt~~<br>~~tTttt~~|~~ttt~~<br>~~ttt~~|~~ttt~~<br>~~ttt~~|~~ttt tt~~<br>~~Pt~~<br>~~tttttt~~|~~tt~~<br>~~Pt TTT~~<br>~~ttt~~|~~tt ey~~<br>~~TTT~~<br>~~ttt~~|~~ey~~<br>~~TTT~~<br>~~ttt~~|~~ey ee~~<br>~~TTTTey~~<br>~~TEE~~|~~ee~~<br>~~Tey~~<br>~~TEE~~|~~ee~~<br>~~Tey~~<br>~~TEE~~|~~ee ~~<br>~~Tey~~<br>~~TEE~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|~~Ey~~<br>~~Tey~~<br>~~yy~~|
||X7R|~~Pt~~|~~Pt tt~~|~~tt~~|~~tt~~|~~tt~~|100|100|100|100 <br>~~Pi]~~|100 <br>~~Pi]~~<br>~~tT~~|100 <br>~~tTtT~~|100 <br>~~tTttt~~|100<br>~~ttt~~|50<br>~~ttt~~|25<br><br>~~tttttt~~|25<br><br>~~ttt~~|~~ttt~~<br>ms|16<br><br>~~ttt~~|10<br>~~Tey~~<br>~~TEE~~|~~Tey~~<br>~~TEE~~|10 <br>~~Tey~~<br>~~TEE~~|<br>~~Tey~~<br>~~TEE~~<br>~~wT~~|~~Tey~~<br>~~yy~~<br>~~wT~~|~~Tey~~<br>~~yy~~<br>~~wT~~|~~Tey~~<br>~~yy~~<br>~~wT~~|
||X5R<br>~~oe~~|~~Pt~~<br>~~BERR~~<br>~~|~~|~~Pt ~~<br>~~BERR~~|~~BERR~~|~~BERR~~|~~BERR~~|~~BERR~~|~~BERR~~|~~BERR~~|~~BERR~~|~~tT~~<br>~~BERR~~<br>~~Pi]~~|~~tT tT~~<br>~~BERR~~<br>~~Pi]tt~~|~~tT ttt~~<br>~~BERR~~<br>~~tt~~|~~ttt~~<br>~~BERR~~<br>~~tttt~~|~~ttt~~<br>~~BERR~~<br>~~tt~~|~~ttt ttt~~<br>~~BERR~~<br>~~tttt~~|~~ttt~~<br>~~BERR~~<br>~~tt~~|~~ttt~~<br>~~BERR~~<br>~~ttty~~|~~ttt ~~<br>~~BERR~~<br>~~ty~~|~~TEE~~<br>~~BERR~~<br>~~tytT~~|~~TEE~~<br>~~BERR~~<br>~~tT~~|16<br>~~TEE~~<br>~~tTeT~~|10<br>~~TEE ~~<br>~~eT~~|~~yy~~<br>~~|hU~~<br>~~eTey~~|10<br>~~yy~~<br>~~ey~~|10<br>~~yy~~<br>~~ey~~|
|0805 (X15)<br>~~oe~~<br>~~oe~~|NP0<br>~~oe~~<br>~~e~~|~~BERR~~<br>~~|~~<br>~~Pt~~|100 <br>~~BERR~~<br>~~Ptt~~|100 <br>~~BERR~~<br>~~t~~ty|100 <br>~~BERR~~<br>ty|100 <br>~~BERR~~<br>ty|100 <br>~~BERR~~|100 <br>~~BERR~~|100<br>~~BERR~~|50<br>~~BERR~~|~~BERR~~<br>~~Pi]~~|~~BERR~~<br>~~Pi]tt~~|~~BERR~~<br>~~tt~~|~~BERR~~<br>~~tttt~~|~~BERR~~<br>~~tt~~|~~BERR~~<br>~~tttt~~|~~BERR~~<br>~~tt~~|~~BERR~~<br>~~ttty~~<br>~~|~~|~~BERR~~<br>~~ty~~|~~BERR~~<br>~~tytT~~|~~BERR~~<br>~~tT~~|~~tTeT~~<br>~~Pt~~|~~eT~~<br>~~Pttt~~|~~|hU~~<br>~~eTey~~<br>~~tt~~|~~ey~~<br>~~tt~~|~~ey~~|
||X7R<br>~~oe~~<br>~~e~~<br>~~|~~|~~BERR~~<br>~~|~~<br>~~Pt~~<br>~~| |~~|~~BERR~~<br>~~Ptt~~<br>~~|~~|~~BERR~~<br>~~t~~ty|~~BERR~~<br>ty|~~BERR~~<br>ty|~~BERR~~<br>~~Bee~~|100 <br>~~BERR~~<br>~~Bee~~|100 <br>~~BERR~~<br>~~Bee~~|100 <br>~~BERR~~<br>~~Bee eee~~|100 <br>~~BERR~~<br>~~Pi]~~<br>~~eee~~|100 <br>~~BERR~~<br>~~Pi] tt~~<br>~~eee~~|100 <br>~~BERR~~<br>~~tt~~<br>~~eee~~|100 <br>~~BERR~~<br>~~tt tt~~<br>~~eee~~|100<br>~~BERR~~<br>~~tt~~<br>~~eee~~|50<br>~~BERR~~<br>~~tt tt~~<br>~~eee~~|50<br>~~BERR~~<br>~~tt~~<br>~~eee~~|~~BERR~~<br>~~tt ty~~<br>~~|~~<br>~~eee~~|50<br>~~BERR~~<br>~~ty~~<br>~~eee~~|25<br>~~BERR~~<br>~~ty tT~~<br>~~eee~~|10<br>~~BERR~~<br>~~tT~~<br>~~eee~~|~~tT eT~~<br>~~Pt~~<br>~~eee~~|~~eT~~<br>~~Pttt~~<br>~~eee~~|~~|hU~~<br>~~eT ey~~<br>~~tt~~<br>~~eee~~|~~ey~~<br>~~tt~~<br>~~eee~~|~~ey~~<br>~~eee~~|
|1206 (X18<br>~~oe~~<br>~~oe~~<br>~~FO~~<br>~~FO~~|NP0<br>~~oe~~<br>~~e~~<br>~~|~~|~~BERR~~<br>~~Pt~~<br>~~| |~~<br>~~ae~~|~~BERR~~<br>~~Ptt~~<br>~~|~~<br>~~ae~~|VOLTAGE<br>RATINGS<br>6.3 = 6.3 VDC<br>10 = 10 VDC<br>16 = 16 VDC<br>25 = 25 VDC<br>50 = 50 VDC<br>100 = 100 VDC<br>500 = 500 VDC<br>~~BERR~~<br>~~t~~ty|||~~BERR~~<br>~~Bee~~<br>~~Pt~~|~~BERR~~<br>~~Bee~~<br>~~PtTt~~|~~BERR~~<br>~~Bee~~<br>~~Tt~~|~~BERR~~<br>~~Bee eee~~<br>~~Tt Ty~~|100<br>~~BERR~~<br>~~eee~~<br>~~Ty~~|~~BERR~~<br>~~eee~~<br>~~Ty~~|~~BERR~~<br>~~eee~~<br>~~Ty~~|~~BERR~~<br>~~eee~~<br>~~Ty~~|~~BERR~~<br>~~eee~~|~~BERR~~<br>~~eee~~|~~BERR~~<br>~~eee~~|~~BERR~~<br>~~|~~<br>~~eee~~<br>~~a~~|~~BERR~~<br>~~eee~~|~~BERR~~<br>~~eee~~|~~BERR~~<br>~~eee~~<br>~~oe~~|~~Pt~~<br>~~eee~~<br>~~oe~~|~~Pttt~~<br>~~eee~~<br>~~oe~~|~~|hU~~<br>~~tt~~<br>~~eee~~|~~tt~~<br>~~eee~~|~~eee~~|
||X7R<br>~~e~~<br>~~|~~|~~Pt~~<br>~~| |~~<br>~~ae~~|~~Ptt~~<br>~~|~~<br>~~ae~~||||~~Bee~~<br>~~Pt~~<br>~~PTT~~|~~Bee~~<br>~~PtTt~~<br>~~PTT~~|~~Bee~~<br>~~Tt~~<br>~~PTT TTT~~|~~Bee eee~~<br>~~Tt Ty~~<br>~~TTT~~|~~eee~~<br>~~Ty~~<br>~~TTT~~|~~eee~~<br>~~Ty~~<br>~~TTTET~~|~~eee~~<br>~~Ty~~<br>~~ET~~|~~eee~~<br>~~Ty~~<br>~~ET~~<br>a|100 <br>~~eee~~<br>|100 <br>~~eee~~<br>~~Ty~~|100<br>~~eee~~<br>~~Ty~~|~~|~~<br>~~eee~~<br>~~a~~<br>~~Ty~~|100 <br>~~eee~~<br>~~Ty~~|100<br>~~eee~~|~~eee~~<br>~~oe~~|16<br>~~Pt~~<br>~~eee~~<br>~~oe~~|16<br>~~Pttt~~<br>~~eee~~<br>~~oe~~|~~tt~~<br>~~eee~~|10<br>~~tt~~<br>~~eee~~|~~eee~~|
|1210 (X41)<br>~~oe~~<br>~~FO~~<br>~~FO~~<br>~~TO~~|X7R<br>~~e~~|~~Pt~~<br>~~ae~~|~~Pt t~~<br>~~ae~~||||~~Pt~~<br>~~PTT~~<br>~~PTT~~|~~Pt Tt~~<br>~~PTT~~<br>~~PTT~~|~~Tt~~<br>~~PTT TTT~~<br>~~PTTTET~~|~~Tt Ty~~<br>~~TTT~~<br>~~TET~~|~~Ty~~<br>~~TTT~~<br>~~TET~~|~~Ty~~<br>~~TTTET~~<br>~~TETET~~|~~Ty~~<br>~~ET~~<br>~~ET~~|~~Ty~~<br>~~ET~~<br>a<br>~~ET~~|500<br>|~~Ty~~|~~Ty~~<br>~~Ee~~|~~|~~<br>~~a~~<br>~~Ty~~<br>~~Ee~~|~~Ty~~<br>~~Ee~~|100<br>~~Ee~~<br>~~ET~~|~~oe~~<br>~~Ee~~<br>~~ET~~|100 <br>~~Pt~~<br>~~oe~~<br>~~Ee~~<br>~~ET~~|100<br>~~Pt tt~~<br>~~oe~~<br>~~Ee~~|~~tt~~|25<br>~~tt~~<br>~~Ee~~|16<br>~~Ee~~|
|1410 (X44)<br>~~FO~~<br>~~TO~~|X7R||||||~~PTT~~<br>~~PTT~~|~~PTT~~<br>~~PTT~~|~~PTT TTT~~<br>~~PTTTET~~|~~TTT~~<br>~~TET~~<br>~~ET~~|~~TTT~~<br>~~TET~~<br>~~ET~~|~~TTT ET~~<br>~~TETET~~<br>~~ETiT~~|~~ET~~<br>~~ET~~<br>~~iT~~|~~ET~~<br>a <br>~~ET~~<br>~~iTit~~|<br>~~it~~|500<br> ~~Ty~~<br>~~it~~|~~Ty~~<br>~~Ee~~<br>~~eet~~|~~Ty~~<br>~~Ee~~<br>~~eet~~|~~Ty~~<br>~~Ee~~<br>~~eet~~|~~Ee~~<br>~~ET~~<br>~~et~~|~~Ee~~<br>~~ET~~<br>~~et~~|~~Ee~~<br>~~ET~~<br>~~etEt~~|~~Ee~~<br>~~Et~~|100<br>~~Et~~|~~Ee~~|~~Ee~~<br>~~a~~|
|1812 (X43)<br>~~TO~~|X7R||||||~~PTT~~<br>~~PTET~~|~~PTT~~<br>~~PTET~~|~~PTT TET~~<br>~~PTET~~|~~TET~~<br>~~PTET~~<br>~~ET~~|~~TET~~<br>~~PTET~~<br>~~ET~~|~~TET ET~~<br>~~PTET~~<br>~~ETiT~~|~~ET~~<br>~~PTET~~<br>~~iT~~|~~ET~~<br>~~PTET~~<br>~~iTit~~|~~PTET~~<br>~~it~~|~~PTET~~<br>~~it~~|~~Ee~~<br>~~PTET~~<br>~~eet~~|500<br>~~Ee~~<br>~~eet~~|~~Ee~~<br>~~eet~~|~~Ee~~<br>~~ET~~<br>~~et~~|~~Ee~~<br>~~ET~~<br>~~et~~|~~Ee~~<br>~~ET~~<br>~~etEt~~|~~Ee~~<br>~~Et~~|~~Et~~|100<br>~~Ee~~|~~Ee~~<br>~~a~~|
Rated voltage is from line to ground in Circuit 1, power to ground in Circuit 2 .
## _HOW TO ORDER X2Y[®] CAPACITORS_
## P/N written: 101X14W102MV4T
|_HOWOW TO ORDER X2Y ORDER X2YRDER X2Y X2Y_|_HOWOW TO ORDER X2Y ORDER X2YRDER X2Y X2Y_|_TO ORDER X2Y ORDER X2YRDER X2Y X2Y[®] CAPACITORSAPACITORS_|_TO ORDER X2Y ORDER X2YRDER X2Y X2Y[®] CAPACITORSAPACITORS_|_CAPACITORSAPACITORS_|_CAPACITORSAPACITORS_|||P/N written: 101X14W102MV4T|P/N written: 101X14W102MV4T|
|---|---|---|---|---|---|---|---|---|---|
|100<br>X14<br>VOLTAGE<br>SIZE<br>Po]<br>CJ||W<br>DIELECTRIC<br>oO||102<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>C||V<br>TERMINATION<br>|||4<br>MARKING<br>[||T<br>PACKING<br>C]|
|6R3 = 6.3 V|6R3 = 6.3 V<br>X07 = 0402<br>N = NP0||N = NP0|1st two digits are signifi-|1st two digits are signifi-<br>M = ± 20%|V = NI Barrier with 100%|V = NI Barrier with 100%|4 = Unmarked|E = Embossed 7”|
|100 = 10 V<br>160 = 16 V<br>250 = 25 V<br>500 = 50 V<br>101 = 100 V<br>501 = 500 V<br>X14 = 0603<br>X15 = 0805<br>X18 = 1206<br>X41 = 1210<br>X44 = 1410<br>X43 = 1812<br>W = X7R<br>X = X5R|||W = X7R<br>X = X5R|cant; third digit denotes<br>number of zeros, R =<br>decimal.<br>102 = 1000 pF<br>104 = 0.10 µF<br>5R6 = 5.6pF<br>* D = ± 0.50 pF<br>*Values < 10 pF only||Tin Plating (Matte)<br>F = Polyterm<br>flexible termination<br>T = SnPb||(Not available)|T = Punched 7”<br>No code = bulk<br>Tape specs.<br>per EIA RS481|
X2Y[®] technology patents and registered trademark under license from X2Y ATTENUATORS, LLC
www.johansondielectrics.com
10
## **X2Y® FILTER & DECOUPLING CAPACITORS**
**EMI Filtering S21 Signal-to-Ground**
**Power Bypass S21 Power-to-Ground**
Labeled capacitance values below follow the P/N order code (single Y cap value) Effective capacitance measured in Circuit 2 is 2X of the labled single Y cap value.
**==> picture [540 x 562] intentionally omitted <==**
**----- Start of picture text -----**<br>
|||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|10.0Ω|10.0Ω|
|eK|PTNUIC ONT|NINA|SSSRA|1.00Ω|
|1.00Ω|
|{-|CTTMRCITK|DMI|]|«=|¢|SRSA|U|T|
|SAT|PASSA|OF|T|
|CASES|]|fh|AF|
|0.10Ω|
|[pK|ANA|{OXON|
|0.10Ω|
|0.01Ω|
|TP|
|0.01Ω|
|Nit|S=|SaaS|
|ELECTRICAL|
|NP0|X7R|X5R|
|CHARACTERISTICS|
|TEMPERATURE COEFFICIENT:|0±30ppm/°C (-55 to +125°C)|±15% (-55 to +125°C)|±15% (-55 to +85°C)|
|Vrated ≤100VDC: DWV = 2.5 X WVDC, 25°C, 50mA max. Vrated = 500VDC: DWV = 1.5 X WVDC,|
|DIELECTRIC STRENGTH:|
|25°C, 50mA max.|
|WVDC ≥ 50 VDC: 2.5% max.|
|WVDC = 25 VDC: 3.5% max.|WVDC ≥ 50 VDC: 5% max.|
|DISSIPATION FACTOR:|0.1% max.|
|WVDC = 10-16 VDC: 5.0% max.|WVDC ≤ 25 VDC: 10% max.|
|WVDC = 6.3 VDC: 10% max.|
|INSULATION RESISTANCE|C≤ 0.047µF: 1000 ΩF or 100 GΩ, whichever is less|
|(MIN. @ 25°C, WVDC)|C> 0.047µF: 500 ΩF or 10 GΩ, whichever is less|
|C > 100 pF; 1kHz ±50Hz; 1.0±0.2 VRMS|
|TEST CONDITIONS:|1.0kHz±50Hz @ 1.0±0.2 Vrms|
|C ≤ 100 pF; 1Mhz ±50kHz; 1.0±0.2 VRMS|
|OTHER:|See page 39 for additional dielectric specifications.|
|Equivalent Circuits|Cross-sectional View|Dimensional View|
|A|
|G|CB|EB|
|G 1|G 2|A|B|W|T|
|il|aie|G|HK|H|K|L|v|
|B|
|CASE SIZE|
|0402 (X07)|0603 (X14)|0805 (X15)|1206 (X18)|1210 (X41)|1410 (X44)|1812 (X43)|
|IN|MM|IN|MM|IN|MM|IN|MM|IN|MM|IN|MM|IN|MM|
|0.045 ±|1.143 ±|0.064 ±|1.626 ±|0.080 ±|2.032 ±|0.124 ±|3.150 ±|0.125 ±|3.175 ±|0.140 ±|3.556 ±|0.174 ±|4.420 ±|
|L|
|0.003|0.076|0.005|0.127|0.008|0.203|0.010|0.254|0.010|0.254|0.010|0.254|0.010|0.254|
|0.025 ±|0.635 ±|0.035 ±|0.889 ±|0.050 ±|1.270 ±|0.063 ±|1.600 ±|0.098 ±|2.489 ±|0.098 ±|2.490 ±|0.125 ±|3.175 ±|
|W|
|0.003|0.076|0.005|0.127|0.008|0.203|0.010|0.254|0.010|0.254|0.010|0.254|0.010|0.254|
|0.020|0.508|0.026|0.660|0.040|1.016|0.050|1.270|0.070|1.778|0.070|1.778|0.090|2.286|
|T|
|max|max|max|max|max|max|max|max|max|max|max|max|max|max|
|0.008 ±|0.203 ±|0.010 ±|0.254 ±|0.012 ±|0.305 ±|0.016 ±|0.406 ±|0.018 ±|0.457 ±|0.018 ±|0.457 ±|0.022 ±|0.559 ±|
|EB|
|0.003|0.076|0.006|0.152|0.008|0.203|0.010|0.254|0.010|0.254|0.010|0.254|0.012|0.305|
|0.012 ±|0.305 ±|0.018 ±|0.457 ±|0.022 ±|0.559 ±|0.040 ±|1.016 ±|0.045 ±|1.143 ±|0.045 ±|1.143 ±|0.045 ±|1.143 ±|
|CB|
|0.003|0.076|0.004|0.102|0.005|0.127|0.005|0.127|0.005|0.127|0.005|0.127|0.005|0.127|
**----- End of picture text -----**<br>
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11
## **X2Y® FILTER & DECOUPLING CAPACITORS**
## _THE X2Y[®] DESIGN - A BALANCED, LOW ESL, “CAPACITOR CIRCUIT”_
The X2Y[®] capacitor design starts with standard 2 terminal MLC capacitor’s opposing electrode sets, A & B, and adds a third electrode set (G) which surround each A & B electrode. The result is a highly vesatile three node capacitive circuit containing two tightly matched, low inductance capacitors in a compact, four-terminal SMT chip.
## _EMI FILTERING:_
The X2Y[®] component contains two shunt or “line-to-ground” Y capacitors. Ultra-low ESL (equivalent series inductance) and tightly matched inductance of these capacitors provides unequaled high frequency Common-Mode noise filtering with low noise mode conversion. X2Y[®] components reduce EMI emissions far better than unbalanced discrete shunt capacitors or series inductive filters. Differential signal loss is determined by the cut off frequency of the single line-to-ground (Y) capacitor value of an X2Y[®] .
## _POWER BYPASS / DECOUPLING_
For Power Bypass applications, X2Ys[®] two “Y” capacitors are connected in parallel. This doubles the total capacitance and reduces their mounted inductance by 80% or 1/5th the mounted inductance of similar sized MLC capacitors enabling high-performance bypass networks with far fewer components and vias. Low ESL delivers improved High Frequency performance into the GHz range.
## _GSM RFI ATTENUATION IN AUDIO & ANALOG_
GSM handsets transmit in the 850 and 1850 MHz bands using a TDMA pulse rate of 217Hz. These signals cause the GSM buzz heard in a wide range of audio products from headphones to concert hall PA systems or “silent” signal errors created in medical, industrial process control, and security applications. Testing was conducted where an 840MHz GSM handset signal was delivered to the inputs of three different amplifier test circuit configurations shown below whose outputs were measured on a HF spectrum analyzer.
1) No input filter, 2 discrete MLC 100nF power bypass caps.
2) 2 discrete MLC 1nF input filter, 2 discrete MLC 100nF power bypass caps.
3) A single X2Y 1nF input filter, a single X2Y 100nF power bypass cap. X2Y configuration provided a nearly flat response above the ambient and up to 10 dB imrpoved rejection than the conventional MLCC configuration.
## _AMPLIFIER INPUT FILTER EXAMPLE_
In this example, a single Johanson X2Y[®] component was used to filter noise at the input of a DC instrumentation amplifier. This reduced component count by 3-to-1 and costs by over 70% vs. conventional filter components that included 1% film Y-capacitors.
|Parameter|X2Y®<br>10nF|Discrete<br>10nF,2 @ 220pF|Comments|
|---|---|---|---|
|DC offset shift|< 0.1µV|< 0.1µV|Referred to input|
|Common mode rejection|91 dB|92 dB||
Source: Analog Devices, “A Designer’s Guide to Instrumentation Amplifiers (2nd Edition)” by Charles Kitchin and Lew Counts
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12
## **X2Y® FILTER & DECOUPLING CAPACITORS**
## _COMMON MODE CHOKE REPLACEMENT_
- Superior High Frequency Emissions Reduction
## Measured Common Mode Rejection
- Smaller Sizes, Lighter Weight
- No Current Limitation
- Vibration Resistant
- No Saturation Concerns
See our website for a detailed application note with component test comparisons and circuit emissions measurements.
## _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. X2Y’s very low mounted inductance allows designers to use a single, higher value part and completely avoid the antiresonance 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
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13
## **LOW INDUCTANCE CHIP CAPACITORS (LICC)**
LICC capacitors are specially designed to exhibit lower inductance by altering the aspect ratio of the terminations. The smaller current loop length results in Equivalent Series Inductance (ESL) that is typically 60% lower then standard MLCs of the same size. This ESL improvement is extremely advantageous in the high frequency power decoupling of high speed digital MPU, FPGA, DSP, etc..
**==> picture [300 x 143] intentionally omitted <==**
**----- Start of picture text -----**<br>
FEATURES<br>• Low Inductance • Surface Mount<br>a<br>• High Series Resonant Frequency • Small Size<br>• Sn-Pb and Polyterm® Termination Options • RoHS Compliant<br>— -<br>W MLC L LICC<br>1 oe<br>L W<br>**----- End of picture text -----**<br>
## _CASE SIZE_
## _AVAILABLE CAPACITANCE_
|JDI<br>EIA<br>MM|DIELECTRIC|10nF|22nF|47nF|0.10uF|0.22uF|0.47uF|1.00uF|2.2uF|4.7uF|10uF|
|---|---|---|---|---|---|---|---|---|---|---|---|
|B14<br>0306<br>0816|X7R|25V|25V|25V|16V|6.3V||||||
||X5R||||10V|10V|6.3V|6.3V|6.3V|||
|B15<br>0508<br>1220|X7R|50V|50V|25V|25V|16V|6.3V|6.3V||||
||X5R||||||10V|10V|6.3V|||
|B18<br>0612<br>1632|X7R|50V|50V|50V|50V|25V|16V|6.3V||||
||X5R|||||||10V|10V|6.3V|6.3V|
Please visit our website for complete specifications
## _HOW TO ORDER LICC CAPACITORS_
## P/N written: 101X14W102MV4T
100 B14 X 224 M V 4 T 7. O Oo fb oOo Z Oo oC VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 6R3 = 6.3 V B14 = 0306 W = X7R 1st two digits are signifiM = ± 20% V = NI Barrier with 100% 4 = Unmarked E = Embossed 7” 100 = 10 V B15 = 0508 X = X5R cant; third digit denotes Tin Plating (Matte) T = Punched 7” 160 = 16 V B18 = 0612 number of zeros *Values < 10 pF only (Not available) 250 = 25 V 103 = 0.01 µF (10NF) T = SnPb No code = bulk 500 = 50 V 104 = 0.10 µF Tape specs. per EIA RS481
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14
## **CHIP FILTER / FEED-THRU CAPACITORS**
Our Feed-Thru Capacitors provide excellent EMI, I/O & Power Line filtering exhibiting much lower inductance than standard SMT capacitors which results in broader frequency response. These are Precious Metal Electrode (PME) products with higher current ratings than comparable Base Metal Electrode (BME) parts.
## _FEATURES_
- 1 Amp Current Rating
- Low Inductance, High SRF
- Surface Mount Non-polarized
## _APPLICATIONS_
- DC Power Line EMI Filter
- RF Immunity FIlter
- RF Amplifier Gain Filter
- Sn-Pb and Polyterm® Options
## _CASE SIZE_
## _AVAILABLE CAPACITANCE_
|JDI<br>EIA<br>MM|DIELECTRIC|22pF|47pF|100pF|220pF|470pF|1.0nF|2.2nF|4.7nF|10nF|22nF|47nF|100nF|220nF|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|F14<br>0603<br>1608|NP0|50V|50V|50V|50V||||||||||
||X7R|||||25V|25V|25V|25V|25V|25V|25V|||
|F15<br>0805<br>2012|NP0|50V|50V|50V|50V|50V|||||||||
||X7R||||||50V|50V|50V|50V|50V|50V|50V||
|F18<br>1206<br>3216|NP0|100V|100V|100V|100V|100V|100V||||||||
||X7R|||||||50V|50V|50V|50V|50V|50V|50V|
Please visit our website for complete specifications
## _- HOW TO ORDER CHIP FILTER / FEED THRU_
## P/N written: 250F14W103YV4E
250 F14 W 103 Y V 4 E VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 250 = 25 V F14 = 0603 N = NP0 1st two digits are signifiK = ± 10% V = Ni Barrier w/ 4 = Unmarked E =Embossed 7” 500 = 50 V F15 = 0805 W = X7R cant; third digit denotes M = ± 20% 100% Sn Plating (150°C) (Not available) T =Punched 7” 101 = 100 V201 = 200 V F18 = 1206 number of zeros. Y = + 50% -20% T = Ni Barrier w/ No code = bulk 102 = 1000 pF 95%Sn/5%Pb Plating (150°C) 103 = 0.01 µF Tape specs. 104 = 0.10 µF per EIA RS481
## www.johansondielectrics.com
15
## **HIGH TEMPERATURE SURFACE MOUNT MLCCS 200°C**
Johanson’s high temperature MLCC series exhibit stable performance across an extended operating temperature range of -55°C to +200°C. Both Class I and Class II parts are available with DC voltage ratings of 50,100 and 200V satisfying a wide range of demanding applications.
## _FEATURES_
- Stable 200°C Operation • Compact SMD Chip • Polyterm® Termination Option • Sn-Pb Termination Option
## _APPLICATIONS_
- Deep Hole Drilling Electronics
- High Temperature Modules
- Industrial Equipment
- Automotive • Avionics
## _ELECTRICAL CHARACTERISTICS_
||NP0<br>X7R||||
|---|---|---|---|---|
|OPERATING RANGE:|-55 to +200°C<br>-55 to +200°C||||
|TEMPERATURE<br>COEFFICIENT:|0±30ppm/°C<br>(-55to+125°C)<br>0±15% (-55to+125°C)||||
|200°C CAP. DROP:|-0.5% max.<br>-45% max.||||
|DISSIPATION FACTOR:|0.001 (0.1%) max.<br>0.020 (2.0%) max.||||
|AGING RATE:|None<br><1.0% per decade||||
||||||
|INSULATION RESISTANCE:<br>WITHSTANDING VOLTAGE:|25°C IR >100GΩ or 1000ΩF (whichever<br>200°C IR >1ΩF or 100MΩ is less)<br>2.5 X WVDC for ratings ≤ 200 VDC<br>1.5 X WVDC for ratings 201-500 VDC|X7R Temp. Only<br>X7R Temp. & Rated Voltage (100%)<br>NP0 Temp. & Rated Voltage (100%)<br>oo~~=~~|||
|TEST CONDITIONS:|C > 100 pF; 1kHz ±50Hz; 1.0±0.2 VRMS<br>C ≤ 100 pF; 1Mhz ±50kHz; 1.0±0.2 VRMS||||
|_MECHANICAL CHARACTERISTICS_<br>~~a~~|RATED<br>VOLTAGE<br>~~a~~|NP0 DIELECTRIC<br>MINIMUM<br>MAXIMUM<br>~~a~~|X7R DIELECTRIC<br>MINIMUM<br>MAXIMUM<br>~~a~~|
|---|---|---|---|
|T07/0402<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>Inches<br>(mm)<br>.040 ±.004<br>(1.02 ±.10)<br>.020 ±.004<br>(0.51 ±.10)<br>.025 Max.<br>(0.64)<br>.008±.004<br>(.20±.10)<br>L<br>W<br>T<br>E/B<br>~~a~~||10 pF<br>270 pF<br>10 pF<br>120 pF<br>10 pF<br>82 pF<br>10 pF<br>50 pF<br>~~a~~|100 pF<br>4700 pF<br>100 pF<br>1500 pF<br>10 pF<br>390 pF<br>10 pF<br>100 pF<br>~~a~~|
|T14/0603<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>Inches<br>(mm)<br>.063 ±.008<br>(1.60 ±.20)<br>.032 ±.008<br>(0.81 ±.20)<br>.035 Max.<br>(0.89)<br>.010±.005<br>(.25±.13)<br>L<br>W<br>T<br>E/B||10 pF<br>820 pF<br>10 pF<br>330 pF<br>10 pF<br>220 pF<br>10 pF<br>120 pF|1000 pF<br>0.022 µF<br>1000 pF<br>0.010 µF<br>100 pF<br>2200 pF<br>100 pF<br>560 pF|
|T15/0805<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br> Inches<br>(mm)<br>.080 ±.010<br>(2.03 ±.25)<br>.050 ±.010<br>(1.27 ±.25)<br>.055 Max.<br>(1.40)<br>.020±.010<br>(0.51±.25 )<br>L<br>W<br>T<br>E/B||100 pF<br>2200 pF<br>100 pF<br>1500 pF<br>100 pF<br>1000 pF<br>10 pF<br>680 pF|1000 pF<br>0.100 µF<br>1000 pF<br>0.033 µF<br>1000 pF<br>0.010 µF<br>100 pF<br>2200 pF|
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16
**HIGH TEMPERATURE SURFACE MOUNT MLCCS 200°C**
|_MECHANICAL CHARACTERISTICS_<br>~~a~~|RATED<br>VOLTAGE<br>~~a~~|NP0 DIELECTRIC<br>MINIMUM<br>MAXIMUM<br>~~a~~|X7R DIELECTRIC<br>MINIMUM<br>MAXIMUM<br>~~a~~|
|---|---|---|---|
|T18/1206<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>Inches<br>(mm)<br>.125 ±.010<br>(3.17 ±.25)<br>.062 ±.010<br>(1.57 ±.25)<br>.067 Max.<br>(1.70)<br>.020±.010<br>(0.51±.25 )<br>L<br>W<br>T<br>E/B<br>~~a~~||100 pF<br>6800 pF<br>100 pF<br>3300 pF<br>100 pF<br>2200 pF<br>100 pF<br>1500 pF<br>~~a~~|1000 pF<br>0.220 µF<br>1000 pF<br>0.100 µF<br>1000 pF<br>0.022 µF<br>1000 pF<br>5600 pF<br>~~a~~|
|T41/1210<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>Inches<br>(mm)<br>.125 ±.010<br>(3.18 ±.25)<br>.095 ±.010<br>(2.41 ±.25)<br>.090 Max.<br>(2.03)<br>.020±.010<br>(0.51±.25 )<br>L<br>W<br>T<br>E/B||1000 pF<br>0.015 µF<br>1000 pF<br>5600 pF<br>100 pF<br>4700 pF<br>100 pF<br>3300 pF|0.047 µF<br>0.470 µF<br>0.047 µF<br>0.220 µF<br>0.047 µF<br>0.056 µF<br>0.047 µF<br>0.015 µF|
|T43/1812<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br> Inches<br>(mm)<br>.175 ±.010<br>(4.45 ±.25)<br>.125 ±.010<br>(3.17 ±.25)<br>.110 Max.<br>(2.80)<br>.025±.015<br>(0.64±.38)<br>L<br>W<br>T<br>E/B<br>~~a~~||1000 pF<br>0.033 µF<br>1000 pF<br>0.012 µF<br>1000 pF<br>0.010 µF<br>1000 pF<br>8200 pF<br>~~a~~|0.047 µF<br>1.000 µF<br>0.047 µF<br>0.470 µF<br>0.047 µF<br>0.180 µF<br>0.047 µF<br>0.047 µF<br>~~a~~|
|T49/1825<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br> Inches<br>(mm)<br>.180 ±.010<br>(4.57 ±.25)<br>.250 ±.010<br>(6.35 ±.25)<br>.140 Max.<br>(3.56)<br>.025±.015<br>(0.64±.38)<br>L<br>W<br>T<br>E/B<br>~~A~~||1000 pF<br>0.033 µF<br>1000 pF<br>0.027 µF<br>1000 pF<br>0.022 µF<br>1000 pF<br>0.018 µF<br>~~A~~|0.10 µF<br>2.200 µF<br>0.10 µF<br>1.000 µF<br>0.10 µF<br>0.560 µF<br>0.10 µF<br>0.150 µF<br>~~A~~|
|T48/2225<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br> Inches<br>(mm)<br>.225 ±.010<br>(5.72 ±.25)<br>.255 ±.015<br>(6.48 ±.38)<br>.160 Max.<br>(4.06)<br>.025±.015<br>(0.64±.38)<br>L<br>W<br>T<br>E/B<br>~~A~~<br>~~rr~~||1000 pF<br>0.100 µF<br>1000 pF<br>0.039 µF<br>1000 pF<br>0.033 µF<br>1000 pF<br>0.022 µF<br>~~A~~<br>~~rr~~|0.10 µF<br>3.300 µF<br>0.10 µF<br>1.500 µF<br>0.10 µF<br>0.820 µF<br>0.10 µF<br>0.220 µF<br>~~A~~<br>~~rr~~|
**==> picture [166 x 40] intentionally omitted <==**
**----- Start of picture text -----**<br>
W L<br>ao<br>T E/B<br>**----- End of picture text -----**<br>
## _HOW TO ORDER 200°C MLCCS_
P/N written: 500T14W103KV4E
500 T14 W 103 K V 4 E Tf| EJ || [| [| L | [| VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 250 = 25 V T07 = 0402 N = NP0 1st two digits are signifiNP0 V = Ni Barrier w/ 4 = Unmarked E = Embossed 7” 500 = 50 V T14 = 0603 W = X7R cant; third digit denotes J = ± 5% 100% Sn Plating (150°C) (Not available) T = Punched 7” 101 = 100 V 201 = 200 V T15 = 0805T18 = 1206T41 = 1210T43 = 1812T49 = 1825 number of zeros.102 = 1000 pF103 = 0.01 µF104 = 0.10 µF M = ± 20%K = ± 10%K = ± 10%X7R 95%Sn/5%Pb Plating (150E = Ni Barrier w/T = Ni Barrier w/ ° °C) No code = bulkper EIA RS481Tape specs. T48 = 2225 100% Sn Plating (180 C) P = Palladium Silver Pd-Ag (250°C)
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17
## **TANCERAM® CHIP CAPACITORS**
TANCERAM[®] chip capacitors can replace tantalum capacitors in many applications and offer several key advantages over >@ traditional tantalums. Because TANCERAM[®] capacitors exhibit -££; extremely low ESR, equivalent circuit performance can often be achieved using considerably lower capacitance values. Low DC leakage reduces current drain, extending the battery life of portable products. TANCERAM[®] high DC breakdown voltage ratings offer improved reliability and eliminate large voltage ‘ ~ 2 de-rating common when designing with tantalums.
## _ADVANTAGES_
- ~~iC~~ • Low ESR • Low DC Leakage
- Higher Surge Voltage
- Reduced CHIP Size
- Non-polarized Devices
- Improved Reliability
- Higher Insulation Resistance • Higher Ripple Current
## _APPLICATIONS_
- Switching Power Supply Smoothing (Input/Output)
- DC/DC Converter Smoothing (Input/Output)
- Backlighting Inverters
- General Digital Circuits
## _HOW TO ORDER TANCERAM[®]_
Part number written: 100R15X106MV4E
100 R15 X 106 M V 4 E VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 6R3 = 6.3 V See Chart W = X7R 1st two digits are K = ±10% V = Nickel Barrier 4 = Unmarked Code Type Reel 100 = 10 V X = X5R significant; third digit M = ±20% with 100% Tin E Plastic 7” 160 = 16 V denotes number of Plating (Matte) T Paper 7” 250 = 25 V zeros. Tape specifications 500 = 50 V 105 = 1.00 µF T = SnPb* conform to EIA 101 = 100 V 476 = 47.0 µF (*available on RS481 107 = 100 µF select parts)
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18
## **TANCERAM® CHIP CAPACITORS**
**==> picture [118 x 36] intentionally omitted <==**
**----- Start of picture text -----**<br>
DIELECTRIC W L<br>W (X7R) T E/B<br>X (X5R)<br>**----- End of picture text -----**<br>
## _CASE SIZE_
## _CAPACITANCE SELECTION_
|EIA / JDI|INCHES<br>~~ee~~|(mm)<br>~~ee~~|VDC<br>~~ee~~<br>~~Ge~~<br>~~ee~~|1.0µF<br>~~ee~~<br>~~GO~~<br>~~ee~~|1.0µF<br>~~ee~~<br>~~GO~~<br>~~ee~~|2.2µF<br>~~ee~~<br>~~GO~~<br>~~ee~~|2.2µF<br>~~ee~~<br>~~GO~~<br>~~ee~~|3.3µF<br>~~ee~~<br>~~ee~~|3.3µF<br>~~ee~~<br>~~ee~~|4.7µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|4.7µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|10µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|10µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|22µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|22µF<br>~~ee~~<br>~~OO~~<br>~~ee~~|47µF<br>~~ee~~<br>~~eee~~|47µF<br>~~ee~~<br>~~eee~~|100µF<br>~~ee~~<br>~~eee~~|100µF<br>~~ee~~<br>~~eee~~|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|0402<br>R07<br>.|L<br>W<br>T<br>EB<br>.040 ±.004<br>.020 ±.004<br>.025 Max.<br>.008 ±.004|(1.02 ±.10)<br>(0.51 ±.10)<br>(0.64)<br>(0.20±.10)<br>~~|~~<br>~~|~~<br>~~|~~|~~Ge ~~<br>~~ee~~<br>~~|~~|<br>~~ee~~<br>|~~GO~~<br>~~ee~~|~~GO~~|~~GO~~<br>~~ee~~|~~ee~~|~~ee~~|~~OO~~<br>~~ee~~|~~OO~~<br>~~ee~~|~~OO~~<br>~~ee~~|~~OO~~<br>~~ee~~|~~OO~~<br>~~ee~~|~~ee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|
||||16<br>~~ee ~~<br>~~|tO~~<br>~~ee~~|~~ee~~<br>~~tO~~<br>~~ee~~|~~ee~~||~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~ee~~<br>~~eee~~|~~ee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
||||10<br>~~|~~<br>~~ee~~<br>~~|~~|~~ee~~<br>|||~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|
||||6.3<br>~~ee~~<br>~~||~~<br>~~|~~<br>~~_~~|~~ee~~<br>~~|~~||OL <br>~~a~~|~~ee~~<br> <br>~~a~~|~~ee~~<br> ~~|~~<br>~~a~~<br>~~ee~~|~~ee~~<br>~~|~~<br>~~a~~<br>~~ee ee~~|~~ee~~<br>~~|~~<br>~~a~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~ee~~<br>Om<br>~~ee~~|~~ee ~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee ~~<br>~~ee~~|~~eee~~<br>~~eee~~|~~eee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
|0603<br>R14<br>~~-~~|L<br>W<br>T<br>EB<br>.063 ±.008<br>.032 ±.008<br>.035 Max.<br>.010±.005|(1.60 ±.20)<br>(0.81 ±.20)<br>(0.89)<br>(.25±.13)<br>~~|~~<br>~~|~~<br>~~|~~|25<br>~~|~~<br>~~|~~<br>~~_~~||~~|~~|~~a~~<br>~~|~~|~~a~~<br>|~~a~~<br>~~ee~~<br>~~i~~|~~a~~<br>~~ee ee~~<br>~~i~~|~~a~~<br>~~ee~~<br>~~iCO~~|~~ee~~<br>~~CO~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|
||||16<br>~~|~~<br>~~_~~||~~|~~|~~a~~<br>~~|~~|~~a~~<br>|~~a~~<br>~~ee~~<br>~~i~~|~~a~~<br>~~ee ee~~<br>~~i~~|~~a~~<br>~~ee~~<br>~~iCO~~|~~ee~~<br>~~CO~~|~~ee~~|~~ee ~~|~~ee~~|~~ee ~~|~~eee~~|~~eee ~~|~~eee~~|~~eee~~|
||||10<br>~~_~~<br>~~|~~||~~|~~|~~| ~~<br>~~|~~|<br>~~|~~|~~i~~<br>~~|~~|~~i~~<br>i|~~iCO~~|~~CO~~<br>a|~~oe~~|~~oe~~|~~oe~~|~~oe~~|||||
||||6.3<br>~~|~~<br>~~ee~~<br>~~—_~~|~~ee~~|~~ee~~|~~ee~~|~~|~~<br>~~ee~~|~~|~~<br>~~ee~~|i<br>~~ee~~|~~ee~~<br>~~ee~~|a<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~eee~~|~~ee~~<br>~~eee~~|
|0805<br>R15<br>.|L<br>W<br>T<br>EB<br>.080 ±.010<br>.050 ±.010<br>.060 Max.<br>.020±.010|(2.03 ±.25)<br>(1.27 ±.25)<br>(1.52)<br>(0.51±.25 )<br>~~|~~<br>~~|~~|50<br>~~|~~<br>~~ee~~<br>~~—_~~|~~ee~~|~~ee~~|~~ee~~|~~|~~<br>~~ee~~|~~|~~<br>~~ee~~|i<br>~~ee~~|~~ee~~<br>~~ee~~|a<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~oe~~<br>~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~eee~~|~~ee~~<br>~~eee~~|
||||25<br>~~ee~~<br>~~—_~~<br>~~_~~|~~ee~~|~~ee~~|~~ee~~<br>~~Sen~~|~~ee~~<br>~~Sen~~<br>~~|~~|~~ee~~<br>~~Sen~~<br>~~|~~|~~ee~~<br>~~Sen~~|~~ee~~<br>~~ee~~<br>~~Sen~~|~~ee~~<br>~~ee~~<br>~~|~~|~~ee~~<br>~~ee~~<br>Se <br>~~|~~|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee~~<br> ~~eee~~|~~ee~~<br>~~ee~~<br>~~eee~~|~~ee~~<br>~~ee~~<br>~~eee~~|~~ee~~<br>~~ee~~<br>~~eee~~|~~ee~~<br>~~eee~~<br>~~eee~~|~~ee~~<br>~~eee~~<br>~~eee~~|
||||16<br>~~—_~~<br>~~_~~<br>~~_~~||||~~|~~<br>~~|~~|~~|~~<br>~~|~~||~~ee~~|~~ee ~~<br>~~|~~|~~ee~~<br>~~|~~|~~ee ~~<br>~~|~~|~~ee~~<br>~~|~~|~~ee ~~|~~ee~~|~~ee ~~|~~eee~~|~~eee~~|
||||10<br>~~_~~<br>~~_~~<br>~~|~~||||~~|~~<br>~~|~~<br>~~|~~|~~|~~<br>~~|~~<br>~~||~~|||~~|~~|~~|~~|~~|~~<br>~~|~~|~~|~~<br>~~|~~|a||a|||
||||6.3<br>~~_~~<br>~~|~~<br>~~a~~||~~a~~||~~|~~<br>~~|~~<br>~~ee~~|~~|~~<br>~~||~~<br>~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~|~~<br>~~|~~<br>~~ee~~|~~|~~<br>~~|~~<br>~~ee~~|a<br>~~ee~~|~~ee~~|a<br>~~ee~~|~~eee~~|~~eee~~|
|1206<br>R18<br>-|L<br>W<br>T<br>EB<br>.125 ±.013<br>.062 ±.010<br>.070 Max.<br>.020 +.015-0.01|(3.17 ±.35)<br>(1.57 ±.25)<br>(1.78)<br>(0.51+.38-.25)<br>~~|~~<br>~~|~~|100<br>~~|~~<br>~~a~~<br>~~ee~~|~~ee~~|~~a~~<br>~~ee~~|~~ee~~|~~|~~<br>~~ee~~|~~| |~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~|~~<br>~~ee~~<br>~~ee~~|~~|~~<br>~~ee~~<br>~~eee~~|a<br>~~ee~~<br>~~eee~~|~~ee~~<br>~~eee~~|a<br>~~ee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
||||50<br>~~a~~<br>~~ee~~|~~ee~~|~~a~~<br>~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~ee~~<br>~~eee~~<br>~~eee~~|~~ee~~<br>~~eee~~<br>~~eee~~|~~ee~~<br>~~eee~~<br>~~eee~~|~~ee ~~<br>~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~<br>~~eee~~|
||||35<br>~~ee~~<br>~~ee~~<br>~~—_~~<br>~~_~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee ~~||~~ee~~<br>~~|~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|~~eee ~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~|~~eee ~~<br>~~ee~~<br>~~eee~~<br>~~ee~~<br>~~ee~~|~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|
||||25<br>~~—_~~<br>~~_~~<br>~~_~~|||||~~|~~|||||~~|~~|~~eee~~<br>~~ee~~<br>~~|~~|~~eee ~~<br>~~ee~~|~~eee~~<br>~~ee~~<br>~~ee~~|~~eee ~~<br>~~ee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|
||||16<br>~~—_~~<br>~~_~~<br>~~_~~<br>~~|~~|||||~~|~~|||||~~|~~<br>~~|~~|~~ee~~<br>~~|~~<br>~~|~~|~~ee~~<br>~~aT~~|~~ee~~<br>~~ee~~<br>~~aT~~|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~a~~|~~ee~~<br>~~a~~|
||||10<br>~~_~~<br>~~|~~<br>~~a~~||||||||||~~|~~<br>~~|~~<br>~~|~~|~~|~~<br>~~|~~<br>~~|~~|~~aT~~|~~aT~~||~~a~~|~~a~~|
||||6.3<br>~~|~~<br>~~a~~<br>~~a~~||||||||||~~|~~<br>~~|~~|~~|~~<br>~~|~~|~~aT~~|~~aT~~<br>~~ee~~|~~ee~~|~~a~~<br>~~eee~~|~~a~~<br>~~eee~~|
|1210<br>S41<br>=|L<br>W<br>T<br>EB<br>.126 ±.016<br>.098 ±.012<br>.110 Max.<br>.020 +.015-.010|(3.20 ±.40)<br>(2.50 ±.30)<br>(2.8)<br>(0.51+.38-.25)<br>~~|~~|100<br>~~|~~<br>~~a~~<br>~~a~~<br>~~pf~~|~~pf~~|ee <br>~~pf~~||~~a~~|~~a eee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~|~~|~~<br>~~|~~<br>~~eee~~|~~| ~~<br>~~|~~<br>~~eee~~|~~aT~~<br>~~eee~~|~~aT ~~<br>~~eee~~<br>~~ee~~<br>~~e~~|<br>~~eee~~<br>~~ee~~<br>~~e~~~~**e**~~|~~a~~<br>~~eee~~<br>~~eee~~|~~a~~<br>~~eee~~<br>~~eee~~|
||||50<br>~~a~~<br>~~pf~~|~~pf~~|~~pf~~||~~eee~~|~~eee~~|~~eee ~~|||~~a~~|~~a~~|~~a~~<br>|~~a~~<br>|~~ee~~<br>~~a~~<br>~~e~~<br>~~ee~~|~~ee ~~<br>~~a~~<br>~~e~~~~**e**~~<br>~~ee~~|~~eee~~<br>~~a~~|~~eee~~<br>~~a~~|
||||35<br>~~pf~~<br>~~_~~|~~pf~~|~~pf~~|||~~|~~<br>~~|~~|~~|~~|||||~~e~~<br>~~eS~~|~~e~~<br>~~eS~~|~~e~~<br>~~eee~~<br>~~eae~~|~~e~~~~**e**~~<br>~~eee~~<br>~~eae~~|~~eae~~|~~eae~~|
||||25<br>~~_~~<br>~~_~~|||||~~|~~|~~|~~<br>~~=~~|||||~~eS~~|~~eS~~<br>~~|~~|~~ee~~<br>~~eae~~<br>~~|~~|~~ee~~<br>~~eae~~|~~eae~~|~~eae~~|
||||16<br>~~_~~<br>~~_~~<br>~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~|~~<br>~~ee~~|~~|~~<br>~~=~~||~~|~~|||~~eS~~|~~eS ~~<br>~~|~~<br>~~|~~|~~eae~~<br>~~|~~<br>~~|~~|~~eae~~|~~eae~~|~~eae~~|
||||10<br>~~_~~<br>~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~=~~||~~|~~||||~~|~~<br>~~|~~|~~|~~<br>~~|~~||||
||||6.3<br>~~ee~~<br>~~ee~~<br>~~po~~|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee ~~<br>|<br>|~~eee~~<br>|~~|~~<br>~~eee~~<br>|~~eee~~|~~eee~~|~~eee~~<br>~~ee~~|~~|~~<br>~~eee~~<br>~~ee~~|~~|~~<br>~~eee~~|~~eee~~|le<br>~~eee~~|~~eee~~|
|1812<br>S43<br>||L<br>W<br>T<br>EB<br>.177 ±.016<br>.126 ±.015<br>.140 Max.<br>.035 ±.020|(4.50 ±.40)<br>(3.20 ±.38)<br>(3.55)<br>(0.89 ±0.51)<br>~~poof~~|100<br>~~rs~~<br>~~po~~||~~a a~~<br>|~~a~~<br>|~~a~~<br>|~~a~~<br>|~~a~~<br>|~~a~~<br>|~~a~~<br>|~~a~~|~~a~~|~~a~~<br>~~ee~~|~~a~~<br>~~ee~~|~~a~~<br>~~eee~~|~~a~~<br>~~eee~~|~~a~~<br>~~eee~~|~~a~~<br>~~eee~~|
||||50<br>~~poee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~eee~~|~~eee~~|~~eee~~|~~eee~~||~~ee~~|~~ee~~<br>~~eee~~|~~ee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
||||25<br>~~ee~~<br>~~a~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~|~~ee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
||||16<br>~~ee~~<br>~~a~~<br>~~poof~~|~~ee~~<br>~~ee~~<br>~~poof~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee ~~<br>~~ee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~|~~ee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee ~~<br>~~eee~~|~~eee~~<br>~~eee~~|~~eee~~<br>~~eee~~|
||||10<br>~~a~~<br>~~poof~~<br>~~ee~~|~~ee~~<br>~~poof~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~ee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~|~~eee ~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~<br>~~ee~~|~~eee~~|
||||6.3<br>~~poof~~<br>~~ee~~|~~poof~~<br>~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~|~~ee~~||~~ee~~|~~ee~~|~~ee~~|~~ee~~||
|~~ee ~~||||W<br> ~~ee~~<br>~~a~~|X<br>~~ee~~|W<br>~~ee~~|X<br>~~ee~~|W<br>~~ee~~|X<br>~~ee~~|W<br>~~ee~~|X<br>~~ee~~|W<br>~~ee~~|X<br>~~ee~~|W|X<br>~~ee~~|W<br>~~ee~~|X<br>~~ee ~~|W<br> ~~ee~~|X|
## _ELECTRICAL CHARACTERISTICS_
|DIELECTRIC:<br>TEMPERATURE COEFFICIENT:<br>DISSIPATION FACTOR:|X7R<br>X5R<br>±15% (-55 to +125°C)<br>±15% (-55 to +85°C)<br>For ≥ 50 VDC: 5% max.<br>For ≤ 35 VDC: 10% max.<br>For ≥ 50 VDC: 5% max.<br>For ≤ 35 VDC: 10% max.|
|---|---|
|INSULATION RESISTANCE (MIN. @ 25°C, WVDC)<br>DIELECTRIC STRENGTH:<br>TEST CONDITIONS:<br>OTHER:|100 ΩF or 10 GΩ, whichever is less<br>2.5 X WVDC, 25°C, 50mA max.<br>Capacitance values ≤ 10 µF: 1.0kHz±50Hz @ 1.0±0.2 Vrms<br>Capacitance values > 10 µF: 120Hz±10Hz @ 0.5V±0.1 Vrms<br>See page 39 for additional dielectric specifications.|
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19
**SURFACE MOUNT MLCCS 10 - 200 VDC**
_CASE SIZE AVAILABLE CAPACITANCE CODE_ ~~a~~ JDI Inches (mm) ~~go~~ R05 0201 (0603) ~~eee~~ L .024 ±.001 (0.60 ±.03) 25V W .012 ±.001 (0.30 ±.03) ~~| | PT tT TT Tt TT | |~~ T .012 ±.001 (0.30 ±.03) 16V EB .006 ±.002 (0.15±.05) 10V ~~a eee~~ eee ~~eee~~ R07 0402 (1005) L .040 ±.004 (1.02 ±.10) 50V W .020 ±.004 (0.51 ±.10) T .025 Max. (0.64) 25V EB .008 ±.004 (0.20±.10) 16V 10V ~~2eeeERRREHEEHRRFHEEHEEEE HHH~~ R14 0603 (1608) ~~(fe~~ 200V L .063 ±.008 (1.60 ±.20) 100V W .032 ±.008 (0.81 ±.20) T .035 Max. (0.89) 50V EB .010±.005 (.25±.13) 25V 16V ~~| |a|eeeFFREFFEFFEPFREFHFFFP~~ R15 0805 (2012) 200V L .080 ±.010 (2.03 ±.25) 100V W .050 ±.010 (1.27 ±.25) T .050 Max. (1.27) 50V EB .020±.010 (0.51±.25 ) 25V 16V ~~| | | FFREFREEFAEFFEFFEFEFHFE~~ 200V R18 1206 (3216) ~~Cf~~ L .125 ±.010 (3.17 ±.25) 100V W .062 ±.010 (1.57 ±.25) ~~|~~ 50V ~~|~~ T .050 Max. (1.27) ~~B~~ FRRE EB .020 ±.010 (0.51 ±.25) ~~REEEEEEE~~ 25V ~~EE~~ S41 1210 (3224) ~~Pp~~ 200V ~~TT Te TE TT TT TT ET EE EET~~ L .125 ±.010 (3.18 ±.25) 100V NP0 W .095 ±.010 (2.41 ±.25) T .065 Max. (1.65) 50V X7R EB .020 ±.010 (0.51 ±.25) 25V W L X5R ~~P| | Pt Tt Pt tt |~~ 16V ~~|. | CEBa eCe~~ OCE ~~E~~ CC ~~eEE amePt tt~~ S43 1812 (4532) ~~Pt~~ 200V T E/B ~~Pit tT | tT yyy yy~~ L .175 ±.010 (4.45 ±.25) 100V W .125 ±.010 (3.17 ±.25) ~~P| | PT eT TT yy yy yy |~~ T .085 Max. (2.16) ~~Se~~ 50V ~~ae~~ EB .025 ±.015 (0.64 ±.38) 25V ~~UESi eeeeeePT; TT yy yy yy | PCE~~
## _HOW TO ORDER - SURFACE MOUNT MLCC_
Part number written: 100R07W104KV4E
||100<br>R<br>07<br>VOLTAGE<br>SERIES/SIZE<br>[|<br>LL|100<br>R<br>07<br>VOLTAGE<br>SERIES/SIZE<br>[|<br>LL|100<br>R<br>07<br>VOLTAGE<br>SERIES/SIZE<br>[|<br>LL|100<br>R<br>07<br>VOLTAGE<br>SERIES/SIZE<br>[|<br>LL|W<br>DIELECTRIC<br>||W<br>DIELECTRIC<br>||W<br>DIELECTRIC<br>||104<br>K<br>CAPACITANCE<br>TOLERANCE<br>[|<br>[||104<br>K<br>CAPACITANCE<br>TOLERANCE<br>[|<br>[||104<br>K<br>CAPACITANCE<br>TOLERANCE<br>[|<br>[||104<br>K<br>CAPACITANCE<br>TOLERANCE<br>[|<br>[||V<br>TERMINATION<br>[||V<br>TERMINATION<br>[||V<br>TERMINATION<br>[||4<br>MARKING<br>| ||4<br>MARKING<br>| ||4<br>MARKING<br>| ||E<br>PACKING<br>[||E<br>PACKING<br>[||E<br>PACKING<br>[||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|100 = 10 V DC|100 = 10 V DC<br>R05 = 0201||||N = NP0|N = NP0||1st two digits are||1st two digits are<br>* B = ± 0.10 pF||V = Nickel Barrier||V = Nickel Barrier|3 = Special|||E = Embossed 7”|||
|160 = 16 V DC|160 = 16 V DC<br>R07 = 0402||||W = X7R|W = X7R||significant; third<br>* C = ± 0.25 pF||||with 100% Tin|||4 = Unmarked|||T = Punched 7”|||
|250 = 25 V DC|250 = 25 V DC<br>R14 = 0603||||X = X5R|X = X5R||digit denotes|digit denotes|digit denotes<br>* D = ± 0.50 pF||Plating (Matte)|||6 = EIA Code*|||U = Embossed 13”|||
|500 = 50 V DC<br>101 = 100 V DC<br>201 = 200 V DC|500 = 50 V DC<br>101 = 100 V DC<br>201 = 200 V DC<br>R15 = 0805<br>R18 = 1206<br>S41 = 1210<br>S43 = 1812|||||||number of zeros,<br>R = decimal.<br>5R6 = 5.6 pF<br>100 = 10 pF<br>102 = 1,000 pF<br>*F = ± 1 %<br>*G = ± 2%<br>*J = ± 5%<br>*K = ± 10%<br>*M = ± 20%||||T = SnPb|||*Not available<br>on sizes<br>≤ 0402|||R = Punched 13”<br>No code = bulk<br>Tape specifications<br>on page 48. Not all<br>tape styles are avail-|||
|||||||||474 = 0.47 µF<br>*Values < 10 pF||||||||||able on all parts.||able on all parts.|
|||||||||||only|||||||||||
www.johansondielectrics.com
20
**SURFACE MOUNT MLCCS 10 - 200 VDC**
|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|_AVAILABLE CAPACITANCE CODE_<br>~~|~~|Voltage<br>~~|~~<br>~~EE~~|_CASE_<br>_SIZE_<br>~~|~~|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|122<br>~~|~~<br>~~Ft;~~|152<br>~~|~~<br>~~Ft;ttt]~~|182<br>~~|~~<br>~~ttt]~~|222<br>~~|~~<br>~~ttt]~~|272<br>~~|~~<br>~~ttt]ft~~|332<br>~~|~~<br>~~fttree~~|392<br>~~|~~<br>~~tree~~|472<br>~~|~~<br>~~tree~~|562<br>~~|~~<br>~~tree~~|822<br>~~|~~<br>~~tree~~|103<br>~~|~~<br>~~EEE~~|123<br>~~|~~<br>~~EEE~~|153<br>~~|~~<br>~~EEEEE~~|183<br>~~|~~<br>~~EE~~|223<br>~~|~~<br>~~EEEE~~|273<br>~~|~~<br>~~EE~~|333<br>~~|~~<br>~~EEEE~~|473<br>~~|~~<br>~~EE~~|563<br>~~|~~<br>~~EEEEE~~|683<br>~~|~~<br>~~EEE~~|823<br>~~|~~<br>~~EEE~~|104<br>~~|~~<br>~~EEE~~|224<br>~~|~~<br>~~EE~~|334<br>~~|~~<br>~~EEEEE~~|474<br>~~|~~<br>~~EEE~~|105<br>~~|~~<br>~~EEEEE~~|225<br>~~|~~<br>~~EE~~|335<br>~~|~~<br>~~EEET~~|475<br>~~|~~<br>~~ET~~|106<br>~~|~~<br>~~ET EE~~|476<br>~~|~~<br>~~EE~~|107<br>~~|~~<br>~~EE~~|||
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|~~Pi~~<br>~~Pi~~|~~Pi ty]~~<br>~~Piiyi~~|~~ty]~~<br>~~iyi~~|~~ty]~~<br>~~iyi~~|~~ty] i]~~<br>~~|]~~|~~i] ttt~~<br>~~|]~~|~~ttt~~<br>~~ft~~|~~ttt~~<br>~~ft~~|~~ttt tte~~<br>~~ft~~<br>~~ri}~~|~~tte~~<br>~~ttt~~<br>~~ri}itt~~|~~tte~~<br>~~ttt~~<br>~~itt~~|~~tte~~<br>~~ttt~~<br>~~itt~~|~~tte~~<br>~~ttt~~<br>~~itttitel~~|~~EEE~~<br>~~titel~~|~~EEE~~<br>~~titel~~|~~EEE~~<br>~~titel~~|~~LL~~<br>~~EEEEL~~<br>~~titeltt~~|~~LL~~<br>~~EL~~<br>~~tt~~|~~LL LL~~<br>~~ELLLL~~<br>~~tttt~~|~~LL~~<br>~~LLL~~<br>~~tt~~|~~LL~~<br>~~LLL~~<br>~~tttl~~|~~LL~~<br>~~LLL~~<br>~~tl~~|X7R<br>~~fF}~~|||~~Pf~~<br>~~Pf}~~<br>~~fF}~~|~~Pf~~<br>~~|~~<br>~~Pf}f}~~<br>~~fF}~~<br>~~|~~|~~|~~<br>~~f}ft}~~<br>~~|~~|~~ft~~<br>~~ft}tet]~~<br>~~ft~~|~~ftPt]~~<br>~~tet]~~<br>~~ft~~|~~Pt]~~<br>~~tet]~~<br>|~~Pt]~~<br>~~tet]~~<br>|16V<br>~~Pt]~~<br>~~tet]~~<br>||
|~~Pi~~<br>~~ft~~|~~Pi iyi~~<br>~~ft~~<br>~~|~~|~~iyi~~<br>~~ft~~|~~iyi ~~<br>~~ft~~<br>~~|~~|~~|]~~<br>~~|~~|~~|] ~~<br>~~d]dtcdelce~~|~~ft~~<br>~~d]dtcdelce~~|~~ft~~<br>~~d]dtcdelce~~|~~ft ~~<br>~~ri}~~<br>~~d]dtcdelce~~|~~ttt~~<br>~~ri}itt~~<br>~~d]dtcdelcerE~~|~~ttt~~<br>~~itt~~<br>~~rE~~|~~ttt~~<br>~~itt~~|~~ttt ~~<br>~~itttitel~~<br>~~EE~~|~~EEE~~<br>~~titel~~<br>~~EE~~|~~EEE~~<br>~~titel~~<br>~~EEEET~~|~~EEE~~<br>~~titel~~<br>~~EET~~|~~EEE EL~~<br>~~titeltt~~<br>~~EET~~|~~EL~~<br>~~tt~~<br>~~EETEEE~~|~~EL LLL~~<br>~~tttt~~<br>~~EEE~~|~~LLL~~<br>~~tt~~<br>~~EEE~~|~~LLL~~<br>~~tttl~~<br>~~EEEEEE~~|~~LLL~~<br>~~tl~~<br>~~EEE~~|X5R<br>~~fF}~~<br>~~EEE~~|||~~Pf}~~<br>~~fF}~~|~~Pf} f}~~<br>~~fF}~~<br>~~|~~|~~f} ft}~~<br>~~|~~|~~ft}tet]~~<br>~~ft~~|~~Pt]~~<br>~~tet]~~<br>~~ftitt~~|~~Pt]~~<br>~~tet]~~<br>~~itt~~|~~Pt]~~<br>~~tet]~~<br>~~itt~~<br>~~|~~|10V<br>~~Pt]~~<br>~~tet]~~<br>~~itt~~<br>~~||~~||
|~~ft~~|~~ft~~<br>~~|~~|~~ft~~|~~ft~~<br>~~|~~|~~|~~|~~d]dtcdelce~~|~~d]dtcdelce~~|~~d]dtcdelce~~|~~ri}~~<br>~~d]dtcdelce~~|~~ri} itt~~<br>~~d]dtcdelcerE~~<br>~~BE~~|~~itt~~<br>~~rE~~<br>|~~itt~~<br>~~Bae~~<br>|~~itt titel~~<br>~~EE~~<br>~~Bae~~<br>|~~titel~~<br>~~EE~~<br>~~Bae~~<br>|~~titel~~<br>~~EEEET~~<br>~~Bae~~<br>|~~titel~~<br>~~EET~~<br>~~Bae~~<br>|~~titel tt~~<br>~~EET~~<br>~~Bae~~<br>|~~tt~~<br>~~EETEEE~~<br>~~Bae~~<br>|~~tt tt~~<br>~~EEE~~<br>~~Bae~~<br>|~~tt~~<br>~~EEE~~<br>~~Bae~~<br>|~~tt tl~~<br>~~EEEEEE~~<br>~~Bae~~<br>|~~tl~~<br>~~EEE~~<br>~~Bae~~<br>|~~EEE~~<br>~~Bae~~<br>|~~EEE~~<br>~~Bae~~<br>|~~fF}~~<br>~~Bae~~<br>|_See Tanceram High_<br>_Capacitance Series_<br>_for values ≥ 1.0µF_<br>~~tet]~~<br>~~fF}~~<br>~~|~~<br>~~|~~<br>~~ftitt~~<br>~~|~~<br>~~|~~<br>~~**|**~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~**|**~~<br>~~**|**~~<br>~~|~~<br>~~**|**~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~**|**~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~LE~~|||||||~~tet]~~<br>~~itt~~<br>~~||~~<br>~~|~~|0402<br>R07|
|~~ft~~<br>~~|~~|~~ft~~<br>~~|~~|~~ft~~|~~ft~~<br>~~|~~|~~| ~~|~~d]dtcdelce~~|~~d]dtcdelce~~|~~d]dtcdelce~~|~~d]dtcdelce~~|~~d]dtcdelce rE~~<br>~~BE RRR~~|~~rE~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~|~~EE~~<br>~~Bae~~<br>~~RRR~~|~~EE~~<br>~~Bae~~<br>~~RRR~~|~~EE EET~~<br>~~Bae~~<br>~~RRR~~|~~EET~~<br>~~Bae~~<br>~~RRR~~|~~EET~~<br>~~Bae~~<br>~~RRR~~|~~EET EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE~~<br>~~Bae~~<br>~~RRR~~|~~EEE~~<br>~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~||||||||50V<br>~~itt~~<br>~~| |~~<br>~~|~~<br>~~**|**~~||
|~~||~~|~~|~~||||||||~~BE RRR~~|~~RRR~~|~~Bae~~<br>~~RRR~~<br>~~Vy~~|~~Bae~~<br>~~RRR~~<br>~~Vy~~|~~Bae~~<br>~~RRR~~<br>~~Vy~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~<br>~~wy~~|~~Bae~~<br>~~RRR~~<br>~~wy~~|~~Bae~~<br>~~RRR~~<br>~~wy~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~|~~Bae~~<br>~~RRR~~<br>~~Be~~|~~Bae~~<br>~~RRR~~<br>~~Be~~||||||||25V<br>~~|~~<br>~~**|**~~||
|~~||~~<br>~~||~~|~~|~~<br>~~||~~<br>~~|~~|~~|~~|~~|~~|~~|~~|~~|]~~|~~|]~~|~~|]i]t~~|~~i]t~~|~~RRR~~<br>~~i]tttt~~|~~RRR~~<br>~~ttt~~|~~RRR~~<br>~~Vy~~<br>~~ttt~~|~~RRR~~<br>~~Vy~~<br>~~ttt~~<br>~~|~~|~~RRR~~<br>~~Vy~~<br>~~ot~~|~~RRR~~<br>~~ot~~|~~RRR~~<br>~~otoe~~|~~RRR~~<br>~~wy~~<br>~~oe~~|~~RRR~~<br>~~wy~~<br>~~oe~~|~~RRR~~<br>~~wy~~<br>~~|~~|~~RRR~~<br>~~|~~|~~RRR~~<br>~~le~~|~~RRR~~<br>~~le~~|~~RRR~~<br>~~le~~|~~RRR~~<br>~~Be~~|~~RRR~~<br>~~Be~~||||||||16V<br>~~**|**~~<br>~~||~~||
|~~| |~~<br>~~||~~|~~|~~<br>~~||~~<br>~~|~~|~~|~~|~~|~~|~~|~~|~~|]~~|~~|]~~|~~|]i]t~~|~~i]t~~<br>~~|~~|~~RRR~~<br>~~i]tttt~~<br>~~|]~~|~~RRR~~<br>~~ttt~~<br>~~|]~~|~~RRR~~<br>~~Vy~~<br>~~ttt~~<br>~~|]it~~|~~RRR~~<br>~~Vy~~<br>~~ttt~~<br>~~|~~<br>~~it~~|~~RRR~~<br>~~Vy~~<br>~~ot~~<br>~~ittEti~~|~~RRR~~<br>~~ot~~<br>~~tEti~~|~~RRR~~<br>~~otoe~~<br>~~tEti~~|~~RRR~~<br>~~wy~~<br>~~oe~~<br>~~tEtieet~~|~~RRR~~<br>~~wy~~<br>~~oe~~<br>~~eet~~|~~RRR~~<br>~~wy~~<br>~~|~~<br>~~eet~~|~~RRR~~<br>~~|~~<br>~~eet~~<br>~~|~~|~~RRR~~<br>~~le~~<br>~~|~~|~~RRR~~<br>~~le~~<br>~~yy~~|~~RRR~~<br>~~le~~<br>~~yy~~|~~RRR~~<br>~~Be~~<br>~~dl~~|~~RRR~~<br>~~Be~~<br>~~dl~~||||||||10V<br>~~**|**~~<br>~~||~~<br>~~||~~||
|~~||~~|~~||~~<br>~~|~~|~~|~~|~~|~~|~~| ~~|~~|]~~|~~|]~~|~~|] i]t~~|~~i]t~~<br>~~|~~|~~i]t ttt~~<br>~~|]~~|~~ttt~~<br>~~|]~~|~~ttt~~<br>~~|]it~~<br>~~Pt~~|~~ttt~~<br>~~| ~~<br>~~it~~<br>~~Pttt~~|~~ot~~<br>~~ittEti~~<br>~~tt~~|~~ot~~<br>~~tEti~~<br>~~tttt~~|~~ot oe~~<br>~~tEti~~<br>~~tt~~|~~oe~~<br>~~tEtieet~~<br>~~ttEL~~|~~oe~~<br>~~eet~~<br>~~EL~~|~~|~~<br>~~eet~~<br>~~ELT_T~~|~~| ~~<br>~~eet~~<br>~~|~~<br>~~T_T~~|~~le~~<br>~~|~~<br>~~T_TTy~~|~~le~~<br>~~yy~~<br>~~Ty~~|~~le~~<br>~~yy~~<br>~~Tyyd~~|~~dl~~<br>~~yd~~|~~dl~~<br>~~yd~~||||||||200V<br>~~||~~<br>~~||~~<br>~~|~~|0603<br>R14|
|||||||||~~| ~~|~~|]~~|~~|]~~|~~|] it~~<br>~~Pt~~<br>~~|~~|~~it~~<br>~~Pttt~~<br>~~||~~|~~it tEti~~<br>~~tt~~<br>~~|~~|~~tEti~~<br>~~tttt~~<br>~~|~~|~~tEti~~<br>~~tt~~<br>~~|~~|~~tEti eet~~<br>~~ttEL~~|~~eet~~<br>~~EL~~|~~eet~~<br>~~ELT_T~~<br>~~me~~|~~eet~~<br>~~|~~<br>~~T_T~~<br>~~me~~|~~| ~~<br>~~T_TTy~~<br>~~me~~|~~yy~~<br>~~Ty~~|~~yy ~~<br>~~Tyyd~~|~~dl~~<br>~~yd~~|~~dl~~<br>~~yd~~||||||||100V<br>~~| |~~<br>~~|~~<br>~~|~~||
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|~~|~~|||||||||||||||||||||~~|~~|~~TE~~<br>~~||~~|~~TE~~<br>~~|~~<br>~~|~~|~~|~~||||||||100V<br>~~**|**|~~<br>~~|~~||
|~~|~~<br>~~**|**~~<br>~~|~~|~~**|**~~||||||||||||||||||||~~|~~|~~TE~~<br>~~| | ~~|~~TE~~<br> ~~|~~<br>~~|~~|~~|~~||||||||50V<br>~~**|** |~~<br>~~|~~<br>~~**|**~~||
|~~|~~<br>~~**|**~~<br>~~|~~|~~**|**~~|~~|~~|||||||||||||||||||||~~|~~<br>~~|~~|||||||||25V<br>~~|~~<br>~~**|**~~<br>~~|~~||
|~~|~~<br>~~**|**~~<br>~~|~~|~~**|**~~|~~|~~|||||||||||||||||~~|~~|~~||~~|~~|~~||~~|~~<br>~~|~~|~~ae~~||||||||16V<br>~~|~~<br>~~**|**~~<br>~~|~~<br>~~||~~||
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|~~Pt~~|~~Pt~~||||||||||||||||||~~|~~|~~| |~~|~~|~~||~~4~~|~~ae~~<br>~~4~~||||||||100V<br>~~| |~~<br>~~|~~||
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|~~Pt~~<br>~~|~~<br>~~|~~<br>~~|~~|~~Pt tt~~<br>~~|~~|~~tt~~<br>~~|~~|~~tt|~~|~~|~~|~~tte~~|~~tte~~|~~tte~~|~~tte~~|~~tte~~|~~EEE~~|~~EEE~~|~~EEE~~|~~EEEEt~~|~~Et~~|~~Et~~|~~Et~~|||||~~|~~|~~||~~|~~4~~<br>~~|~~|~~4~~<br>~~|~~||||||||25V<br>~~|~~<br>~~||~~<br>~~||~~||
|~~Pt~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~**|**~~<br>~~|~~|~~Pt tt~~<br>~~|~~<br>~~|~~<br>|~~tt~~<br>~~|~~<br>~~|~~<br>|~~tt|~~<br>|~~|~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte~~<br>|~~EEE~~<br>|~~EEE~~<br>|~~EEE~~|~~EEEEt~~|~~Et~~|~~Et~~|~~Et~~|||||~~|~~|~~||~~|~~4~~<br>~~|~~|~~4~~<br>~~|~~||||||||200V<br>~~|~~<br>~~||~~<br>~~||~~<br>~~**|**~~|1210<br>S41|
|~~|~~<br>~~|~~<br>~~|~~<br>~~**|**~~<br>~~|~~|~~tt~~<br>~~|~~<br>~~|~~<br>|~~tt~~<br>~~|~~<br>~~|~~<br>|~~tt |~~<br>|~~| ~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte~~<br>|~~tte ~~<br>|~~EEE~~<br>|~~EEE~~<br>|~~EEE~~|~~EEE Et~~|~~Et~~|~~Et~~|~~Et~~|||||~~|~~|~~||~~|~~|~~|~~|~~||||||||100V<br>~~| |~~<br>~~||~~<br>~~**|**~~||
|~~| ~~<br>~~|~~<br>~~**|**~~<br>~~|Pitt~~|~~| ~~<br>~~|~~<br>~~Pitt~~|~~|~~<br>~~|~~<br>~~Pitt~~|~~Pittitt~~|~~itt~~|~~itt~~|~~itt tte~~|~~tte~~|~~tte~~|~~tte~~|~~tte~~|~~tte~~|||~~TT~~|~~TT~~|~~TT~~|~~LL~~|~~LL~~|~~LLEE~~|~~EE~~|~~|~~<br>~~EE~~|~~| | ~~|~~|~~|~~|~~||||||||50V<br>~~| |~~<br>~~**|**~~<br>~~|~~||
|~~**|** ~~<br>~~|Pitt~~<br>~~ERE~~|~~|~~<br>~~Pitt~~<br>~~ERE~~|~~|~~<br>~~Pitt~~<br>~~ERE~~|~~Pittitt~~<br>~~ERE~~|~~itt~~<br>~~EEEeeeeeeeelhChlCU~~|~~itt~~<br>~~EEEeeeeeeeelhChlCU~~|~~itt tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~TT~~<br>~~EEEeeeeeeeelhChlCU~~|~~TT~~<br>~~EEEeeeeeeeelhChlCU~~|~~TT~~<br>~~EEEeeeeeeeelhChlCU~~|~~LL~~<br>~~EEEeeeeeeeelhChlCU~~|~~LL~~<br>~~EEEeeeeeeeelhChlCU~~|~~LLEE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~||||||||25V<br>~~**|**~~<br>~~|~~<br>~~||~~||
|~~Pitt~~<br>~~ERE~~<br>~~||~~|~~Pitt~~<br>~~ERE~~<br>~~|~~|~~Pitt~~<br>~~ERE~~<br>~~|~~|~~Pitt itt~~<br>~~ERE~~|~~itt~~<br>~~EEEeeeeeeeelhChlCU~~|~~itt~~<br>~~EEEeeeeeeeelhChlCU~~|~~itt tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~tte~~<br>~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~TT~~<br>~~EEEeeeeeeeelhChlCU~~|~~TT~~<br>~~EEEeeeeeeeelhChlCU~~|~~TT ~~<br>~~EEEeeeeeeeelhChlCU~~|~~LL~~<br>~~EEEeeeeeeeelhChlCU~~|~~LL~~<br>~~EEEeeeeeeeelhChlCU~~|~~LL EE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EE~~<br>~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~||||||||16V<br>~~|~~<br>~~||~~<br>~~||~~||
|~~ERE~~<br>~~||~~<br>~~||~~|~~ERE~~<br>~~|~~|~~ERE~~<br>~~|~~|~~ERE~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~|~~EEEeeeeeeeelhChlCU~~||||||||200V<br>~~| |~~<br>~~||~~<br>~~|~~|1812<br>S43|
|~~| |~~<br>~~||~~<br>~~Pi~~|~~| ~~<br>~~Pity~~|~~|~~<br>~~ty~~|~~tyi~~|~~i~~|~~|~~|~~td~~|~~td~~|~~td~~|~~td~~|||||||||||||||||||||||100V<br>~~| |~~<br>~~|~~<br>~~|~~||
|~~| |~~<br>~~Pi~~<br>~~Pt;~~|~~Pity~~<br>~~Pt;tt~~|~~ty~~<br>~~tt~~|~~tyi~~<br>~~tt~~<br>~~|~~|~~i~~<br>~~ft~~|~~|~~<br>~~ftft~~|~~td~~<br>~~ftdptctcE~~|~~td~~<br>~~dptctcE~~|~~td~~<br>~~dptctcE~~|~~td~~<br>~~dptctcE~~|~~rE~~|~~rE~~|~~EEE~~|~~EEE~~|~~EEEEL~~|~~EL~~|~~ELEE~~|~~EE~~|~~EEEE~~|~~EE~~|~~EE~~|~~EE~~|~~EEEL~~|~~EL~~|~~EL~~||||||||50V<br>~~|~~<br>~~|~~<br>~~||~~||
|~~Pi~~<br>~~Pt;~~|~~Pi ty~~<br>~~Pt;tt~~|~~ty~~<br>~~tt~~|~~ty i~~<br>~~tt~~<br>~~|~~|~~i~~<br>~~ft~~|~~| ~~<br>~~ftft~~|~~td~~<br>~~ftdptctcE~~|~~td~~<br>~~dptctcE~~|~~td~~<br>~~dptctcE~~|~~td~~<br>~~dptctcE~~|~~rE~~|~~rE~~<br>~~EP~~|~~EEE~~<br>~~EP~~|~~EEE~~<br>~~EP~~|~~EEEEL~~<br>~~EP~~|~~EL~~<br>~~EP~~|~~ELEE~~<br>~~EP~~|~~EE~~|~~EEEE~~|~~EE~~<br>~~EE~~|~~EE~~<br>~~EE~~|~~EE~~<br>~~EE~~|~~EEEL~~<br>|~~EL~~<br>~~L~~|~~EL~~<br>~~L~~||||||||25V<br>~~|~~<br>~~||~~||
|122<br>~~Pt;~~<br>~~CPEEELEC~~|152<br>~~Pt; tt~~<br>~~CPEEELEC~~|182<br>~~tt~~<br>~~CPEEELEC~~|222<br>~~tt~~<br>~~|~~<br>~~CPEEELEC~~|272<br>~~ft~~<br>~~CPEEELEC~~|332<br>~~ft ft~~<br>~~CPEEELEC~~|392<br>~~ft dptctcE~~<br>~~CPEEELEC~~|472<br>~~dptctcE~~<br>~~CPEEELEC~~|562<br>~~dptctcE~~<br>~~CPEEELEC~~|822<br>~~dptctcE ~~<br>~~CPEEELEC~~|103<br> ~~rE~~<br>~~CPEEELEC~~|123<br>~~rE ~~<br>~~CPEEELEC~~<br>~~EP~~|153<br> ~~EEE~~<br>~~CPEEELEC~~<br>~~EP~~|183<br>~~EEE~~<br>~~CPEEELEC~~<br>~~EP~~|223<br>~~EEE EL~~<br>~~CPEEELEC~~<br>~~EP~~|273<br>~~EL~~<br>~~CPEEELEC~~<br>~~EP~~|333<br>~~EL EE~~<br>~~CPEEELEC~~<br>~~EP~~|473<br>~~EE~~<br>~~CPEEELEC~~|563<br>~~EE EE~~<br>~~CPEEELEC~~|683<br>~~EE~~<br>~~CPEEELEC~~<br>~~EE~~|823<br>~~EE ~~<br>~~CPEEELEC~~<br>~~EE~~|104<br> ~~EE~~<br>~~CPEEELEC~~~~**E**~~<br>~~EE~~|224<br>~~EE EL~~<br>~~**E**~~<br>|334<br>~~EL~~<br>~~**E**L~~<br>~~L~~|474<br>~~EL~~<br>~~L~~<br>~~L~~|105<br>~~L~~<br>~~L~~|225<br>~~L~~~~**E**~~<br>~~L~~|335<br>~~**E**~~<br>|475<br>~~**E**~~<br>|106<br>~~**E**L~~<br>~~E~~|476<br>~~L~~<br>~~E~~|107<br>~~|~~<br>~~L~~<br>~~E~~|~~| |~~||
## _ELECTRICAL CHARACTERISTICS_
Please refer to page 39 of the catalog or www.johansondielectrics.com
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21
## **STACKED SMPS CERAMIC CAPACITORS**
Stacked Switch-Mode ceramic capacitors feature large capacitance values and exhibit low ESR (equivalent series resistance) and low ESL (equivalent series inductance) making them well suited for high power and high frequency applications where tantalum or aluminum electrolytic capacitors may not be suitable. The P-Series feature mechanical and pin-out configurations per DSCC 87106 and 88011 drawings while the E-Series feature mechanical and pin-out configurations more common in European design applications.
## _KEY FEATURES_
- P-Series Approved to DSCC Drawings 87106 & 88011 MIL-PRF-49470
- New T-Series 200°C for downhole tools and aircraft engine control applications.
- E-Series Common European Lead Styles available to MIL-PRF-49470 requirements.
- NP0 & X7R Dielectrics, 50 to 500 VDC Ratings
- Low ESR / Low ESL, Ideal for SMPS Filtering Applications
- Custom Sizes, Voltages, and Values Available
## _CASE SIZE_
**==> picture [509 x 122] intentionally omitted <==**
**----- Start of picture text -----**<br>
STRAIGHT LEAD L-LEAD J-LEAD<br>ee<br>ee<br>D E<br>.070" ± .010<br>B A .050" min .050" min<br>e e { |<br>.250" MIN \t | F |<br>ma .055" ± .010 .010" ± .002 e<br>.020" [±] .002 C<br>.100" MAX A ne .100" TYP E S<br>.025" MIN<br>**----- End of picture text -----**<br>
## _HOW TO ORDER STACKED SMPS_
Part number written: 201P03W275KJ4H
201 P03 W 275 K J 4 H _ = : — 7 i [| [| VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 500 = 50 V See Chart N = NP0 1st two digits are J = ±5% J = “J” Leads 4 = Standard T = Tape and Reel 101 = 100 V B = BX significant; third digit K= ±10% (formed in) 3 = Specified 201 = 200 V W = X7R denotes number of L = ±15% K = “J” Leads with H = High Reliability 501 = 500 V zeros. M = ±20% testing per customer 101 = 100 pF N = ±30% reduced height of .045” ±.010” requirements 102 = 1000 pF Z = +80% -20% 103 = 0.01 µF P = +100% -0% L = “L” Leads S = Special Part 105 = 1.00 µF (formed out) M = “L” Leads with reduced height of .045” ±.010”
N = Straight Lead
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## **STACKED SMPS CERAMIC CAPACITORS**
## _P-SERIES DSCC STYLE X7R CAPACITANCE / VOLTAGE SELECTION_
|CASE<br>SIZE|CHIP<br>LAYERS|LEADS<br>/SIDE|MECHANICAL SIZE RANGE(IN.)|MECHANICAL SIZE RANGE(IN.)|MECHANICAL SIZE RANGE(IN.)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|
|---|---|---|---|---|---|---|---|---|---|
||||LENGTH(D)|WIDTH(E)|TMAX(B)|50V|100V|200V|500V|
|P05|1|3|0.275|0.300|.185|3.0|2.2|1.0|0.50|
|P55|5||||.715|15|11|5.0|2.5|
|P04|1|4|0.425|0.440|.185|9.0|6.5|3.0|1.5|
|P54|5||||.715|45|32|15|7.5|
|P03|1|10|1.075|0.500|.185|28|20|9.5|4.7|
|P53|5||||.715|140|100|47|23|
|P01|1|20|2.075|0.500|.185|50|40|19|9.4|
|P51|5||||.715|250|200|95|46|
|P02|1|15|1.535|0.870|.185|75|55|25|14|
|P52|5||||.715|370|270|125|70|
|P06|1|20|2.075|1.350|.185|160|110|50|25|
|P56|5||||.715|800|550|250|125|
Please refer to our website for complete offering including NP0 & BX capacitance ranges.
## _NEW 200°C T-SERIES CAPACITANCE / VOLTAGE SELECTION_
|CASE<br>SIZE|CHIP<br>LAYERS|LEADS<br>/SIDE|MECHANICAL SIZE RANGE(IN.)|MECHANICAL SIZE RANGE(IN.)|MECHANICAL SIZE RANGE(IN.)|MAX CAPACITANCE(|MAX CAPACITANCE(|µF)|
|---|---|---|---|---|---|---|---|---|
||||LENGTH(D)|WIDTH(E)|TMAX(B)|50V|100V|200V|
|T05|1|3|0.275|0.300|.185|1.20|0.68|0.33|
|T55|5||||.715|5.60|3.30|1.50|
|T04|1|4|0.425|0.440|.185|2.70|1.50|0.82|
|T54|5||||.715|15.0|8.20|3.90|
|T03|1|10|1.075|0.500|.185|10.0|5.60|2.70|
|T53|5||||.715|47.0|27.0|12.0|
Please refer to our website for complete offering including NP0 capacitance ranges.
## _E-SERIES EUROPEAN STYLE X7R CAPACITANCE / VOLTAGE SELECTION_
|CASE<br>SIZE|CHIP<br>LAYERS|LEADS<br>/SIDE|MECHANICAL SIZE RANGE(MM)|MECHANICAL SIZE RANGE(MM)|MECHANICAL SIZE RANGE(MM)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|X7R MAX CAPACITANCE(µF)|
|---|---|---|---|---|---|---|---|---|---|
||||LENGTH(D)|WIDTH(E)|TMAX(B)|50V|100V|200V|500V|
|E24|1|3|8.7|9.2|3.8|5.0|4.0|2.5|1.0|
|E54|4||||14.8|20|16|10|4.0|
|E26|1|5|13.6|14.9|3.|16|12|7.5|3.3|
|E56|4||||14.8|64|48|30|13|
|E21|1|6|16.6|21.6|3.8|30|22|14|6.0|
|E51|4||||14.8|120|88|56|24|
|E28|1|14|38.2|12.0|3.8|35|25|16|7.0|
|E58|4||||14.8|140|100|64|28|
|E29|1|14|40.6|24.0|3.8|75|50|35|16|
|E59|4||||14.8|300|200|140|64|
Please refer to our website for complete offering including NP0 & BX capacitance ranges.
**==> picture [57 x 32] intentionally omitted <==**
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## **MINI SWITCH-MODE® CAPACITORS**
JDI’s Mini Switch-Mode[®] ceramic capacitors combine the advantages of high capacitance found in tantalum capacitors with very low ESR performance of ceramic capacitors. The “J” and “L” lead configurations replace 1825 and 2225 SMT chips to provide stress relief and prevent cracking due to thermal cycling or mechanical board flexing. Another plus of the J-lead style is that this configuration allows use of the same solder lands as the SMT chips. See the Stacked Switch-Mode section for larger values. See also the Technical Notes on soldering and handling and suggested solder lands.
## _FEATURES_
- High Capacitance, Small SIze
- Low ESR/ESL
- Leadframe reduces thermal & mechanical stress due to board flexure and TCE mismatch
## _APPLICATIONS_
- DC-DC Converters
- Power Supply Input & Output Filters
## _CAPACITANCE SELECTION_
|SIZE<br>CODE<br>~~po)~~<br>~~ee~~|EIA CHIP<br>SIZE<br>~~po)~~<br>|NP0 Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|NP0 Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|NP0 Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|NP0 Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|NP0 Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|X7R Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|X7R Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|X7R Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|X7R Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|X7R Max Capacitance (uF)<br>~~———————E~~<br>~~eee~~<br>|
|---|---|---|---|---|---|---|---|---|---|---|---|
|||25V<br>~~———————E~~<br>|50V<br>~~———————E~~<br>|100V<br>~~———————E~~<br>~~eee~~<br>|200V<br>~~———————E~~<br>~~eee~~<br>|500V<br>~~———————E~~<br>~~eee~~<br>|25V<br>~~———————E~~<br>~~eee~~<br>|50V<br>~~———————E~~<br>~~eee~~<br>|100V<br>~~———————E~~<br>~~eee~~<br>|200V<br>~~———————E~~<br>~~eee~~<br><br>~~eee~~|500V<br>~~———————E~~<br>~~eee~~<br><br>~~eee~~|
|P09<br>~~po)~~<br>~~ee~~|1825<br>~~po)~~<br>~~ee~~|0.056<br>~~———————E~~<br>~~ee~~|0.047<br>~~———————E~~<br>~~ee~~|0.039<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~ns~~|0.027<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~G~~|0.018<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~G~~|1.5<br>~~———————E~~<br>~~eee~~<br>~~ee~~|1.2<br>~~———————E~~<br>~~eee~~<br>~~ee~~|0.75<br>~~———————E~~<br>~~eee~~<br>~~ee~~|0.56<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~eee~~|0.27<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~eee~~|
|P29<br>~~po)~~<br>~~ee~~<br>~~e~~|1825<br>~~po)~~<br>~~ee~~<br>~~e~~|0.11<br>~~———————E~~<br>~~ee~~<br>~~e~~|0.094<br>~~———————E~~<br>~~ee~~<br>~~e~~|0.078<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~e~~<br>~~ns~~|0.054<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~e~~<br>~~G~~|0.036<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~e~~~~**e**~~<br>~~G~~|3.0<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~**e**~~|2.4<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~**e**~~|1.5<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~**e**~~|1.1<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~**e**~~|0.54<br>~~———————E~~<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~**e**~~|
|P39<br>~~ee~~<br>~~e~~<br>~~GG~~<br>~~**e**~~|1825<br>~~ee~~<br>~~e~~<br>~~GG~~<br>~~**e**nn~~|0.16<br>~~ee~~<br>~~e~~<br>~~GG~~<br>~~nn~~|0.14<br>~~ee~~<br>~~e~~<br>~~GG~~<br>~~nn~~|0.11<br>~~eee~~<br>~~ee~~<br>~~e~~<br>~~ns~~<br>~~GG~~<br>~~nn~~|0.081<br>~~eee~~<br>~~ee~~<br>~~e~~<br>~~G~~<br>~~GG~~<br>~~Gene~~|0.054<br>~~eee~~<br>~~ee~~<br>~~e~~~~**e**~~<br>~~G~~<br>~~GG~~<br>~~ee~~|4.5<br>~~eee~~<br>~~ee~~<br>~~**e**~~<br>~~GG~~|3.6<br>~~eee~~<br>~~ee~~<br>~~**e**~~<br>~~GG~~|2.2<br>~~eee~~<br>~~ee~~<br>~~**e**~~<br>~~GG~~|1.6<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~**e**~~<br>~~GG~~|0.81<br>~~eee~~<br>~~ee~~<br>~~eee~~<br>~~**e**~~<br>~~GG~~|
|P49<br>~~GG~~<br>~~eens~~<br>~~**e**~~|1825<br>~~GG~~<br>~~eens~~<br>~~**e**nn~~|0.22<br>~~GG~~<br>~~eens~~<br>~~nn~~|0.18<br>~~GG~~<br>~~eens~~<br>~~nn~~|0.15<br>~~ns~~<br>~~GG~~<br>~~eens~~<br>~~nn~~|0.10<br>~~G~~<br>~~GG~~<br>~~eens~~<br>~~Gene~~|0.07<br>~~G~~<br>~~GG~~<br>~~eens~~<br>~~ee~~|6.0<br>~~GG~~<br>~~eens~~|4.8<br>~~GG~~<br>~~eens~~|3.0<br>~~GG~~<br>~~eens~~|2.2<br>~~GG~~<br>~~eens~~|1.0<br>~~GG~~<br>~~eens~~|
|P08<br>~~eens~~<br>~~**e**~~|2225<br>~~eens~~<br>~~**e**nn~~|0.068<br>~~eens~~<br>~~nn~~<br>~~e~~|0.056<br>~~eens~~<br>~~nn~~<br>~~e~~|0.047<br>~~eens~~<br>~~nn~~<br>~~e~~|0.033<br>~~eens~~<br>~~Gene~~|0.027<br>~~eens~~<br>~~ee~~<br>~~GG~~|2.7<br>~~eens~~<br>~~GG~~|2.2<br>~~eens~~<br>~~GG~~|1.5<br>~~eens~~|1.2<br>~~eens~~|0.39<br>~~eens~~|
|P28<br>~~**e**~~|2225<br>~~**e**nn~~|0.13<br>~~nn~~<br>~~e~~|0.11<br>~~nn~~<br>~~e~~|0.094<br>~~nn~~<br>~~e~~|0.066<br>~~Gene~~|0.054<br>~~ee~~<br>~~GG~~|5.4<br>~~GG~~|4.4<br>~~GG~~|3.0|2.4|0.78|
|P38<br>~~**e**~~<br>~~ee~~|2225<br>~~**e**nn~~<br>~~ee~~|0.20<br>~~nn~~<br>~~ee~~|0.16<br>~~nn~~<br>~~ee~~|0.14<br>~~nn~~<br>~~ee~~|0.10<br>~~Gene~~<br>~~ee~~|0.081<br>~~ee~~<br>~~ee~~|8.1<br>~~ee~~|6.6<br>~~ee~~|4.5<br>~~ee~~|3.6<br>~~ee~~|1.1|
|P48<br>~~ee~~<br>~~a~~|2225<br>~~ee~~|0.27<br>~~ee~~|0.22<br>~~ee~~|0.18<br>~~ee~~|0.13<br>~~ee~~|0.10<br>~~ee~~|10<br>~~ee~~|8.8<br>~~ee~~|6.0<br>~~ee~~|4.8<br>~~ee~~|1.5|
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## **MINI SWITCH-MODE® CAPACITORS**
## _CASE SIZE_
**==> picture [504 x 194] intentionally omitted <==**
**----- Start of picture text -----**<br>
DIMENSIONS<br>APPLICABLE W L<br>TO ALL SIZES: W L<br>W L<br>IN. MM W T T<br>T<br>H ± .010 .070 1.78 T<br>h h h h<br>C TYP. .100 2.54 c<br>L p c c c<br>P ± .015 .065 1.65 p p p<br>DIMENSIONS P08 P09 P28 P29 P38 P39 P48 P49<br>APPLICABLE<br>TO SPECIFIC SIZES: IN. MM IN. MM IN. MM IN. MM IN. MM IN. MM IN. MM IN. MM<br>L MAX .280 7.11 0.24 6.1 0.28 7.11 0.24 6.1 0.28 7.11 0.24 6.1 0.28 7.11 0.24 6.1<br>W MAX .270 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86<br>T MAX .095 2.41 0.095 2.41 0.19 4.83 0.19 4.83 0.285 7.24 0.285 7.24 380 9.65 380 9.65<br>Note: J-Lead and L-Lead options are available on all sizes above<br>**----- End of picture text -----**<br>
## _ELECTRICAL CHARACTERISTICS_
**==> picture [513 x 147] intentionally omitted <==**
**----- Start of picture text -----**<br>
DIELECTRIC: NP0 X7R<br>TEMPERATURE COEFFICIENT: 0 ±30ppm/°C (-55 to +125°C) ±15% (-55 to +125°C)<br>DISSIPATION FACTOR: 0.1% max. 2.5% max.<br>AGING None -2.5% per decade hour<br>INSULATION RESISTANCE (MIN. @ 25°C, WVDC) 1000 ΩF or 100 GΩ, whichever is less 500 ΩF or 50 GΩ, whichever is less<br>For 500V Ratings: 750VDC, 25ºC, 50mA max<br>DIELECTRIC STRENGTH: For 200V Ratings: 2xWVDC, 25ºC, 50mA max<br>For 25-100V Ratings: 2.5xWVDC, 25ºC, 50mA max<br>TEST CONDITIONS: 1kHz ±50Hz;1.0±0.2 VRMS<br>OTHER: See page 39 for additional dielectric specifications.<br>**----- End of picture text -----**<br>
## _HOW TO ORDER - MINI SWITCHMODE[®]_
## Part number written: 500P28W395KJ4U
||500||P28||W|||395||K|||J|||4|||U||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|VOLTAGE|||SIZE|DIELECTRIC|||CAPACITANCE<br>TOLERANCE|||||TERMINATION|||MARKING|||PACKING|||
|250 = 25||V<br>See Chart<br>N|||= NP0||1st two digits are<br>J = ±5%|||||J = “J” Leads|||3 = Standard|||U = Tape and Reel|||
|500 = 50||V||W|= X7R||significant; third digit<br>K = ±10%|||||(formed in)|||4 = Unmarked|||16mm, 13” Reel|||
|101 = 100 V<br>201 = 200 V<br>501 = 500 V|||||||denotes number of<br>zeros.<br>103 = 0.01 μF<br>105 = 1.0 μF<br>106 = 10 uF<br>M = ±20%<br>Z = +80% -20%|||||L = “L” Leads<br>(formed out)||||||NONE = Bulk pack<br>H = High Reliability<br>testing per customer<br>requirements|||
|||||||||||||||||||S = Special Part|||
**==> picture [57 x 32] intentionally omitted <==**
www.johansondielectrics.com
25
**BME MINI SWITCH-MODE® CAPACITORS**
This new series of miniature switchmode power supply filter capacitors uses BME (Base Metal Electrode) construction to achieve 300-400% capacitance increases and component size reductions compared to their PME (Precious Metal Electrode) counterparts per the comparison examples below.
## BME Size / Capacitance Comparison
|Technology|Chips|Volts|Max. Cap.|
|---|---|---|---|
|PME<br>BME<br>PME|1x 1825<br>1x 1812<br>2x 2225|50V<br>50V<br>100V|1.2µF<br>4.7µF<br>4.4µF|
|BME|2x 2220|100V|10µF|
## _FEATURES_
- High Capacitance, Small SIze
- Low ESR/ESL
- Leadframe reduces thermal & mechanical stress due to board flexure and TCE mismatch
## _APPLICATIONS_
- DC-DC Converters
- Power Supply Input & Output Filters
- High Capacitance Applications Where Increased Reliability is Required
- Green / ROHS Compliant
## _CAPACITANCE / VOLTAGE_
## _CASE SIZE / PART NUMBER_
|CAPACITANCE<br>DC VOLTAGE<br>RATING<br>RATING<br>2.2 µF<br>100V<br>4.7 µF<br>50V<br>4.7 µF<br>100V<br>10 µF<br>50V<br>10 µF<br>100V<br>22 µF<br>50V|CAPACITANCE<br>DC VOLTAGE<br>RATING<br>RATING<br>2.2 µF<br>100V<br>4.7 µF<br>50V<br>4.7 µF<br>100V<br>10 µF<br>50V<br>10 µF<br>100V<br>22 µF<br>50V|SIZE P0A<br>1812 SINGLE STACK<br>101P0AW225MJ4U+RC<br>500P0AW475MJ4U+RC|SIZE P0A<br>1812 SINGLE STACK<br>101P0AW225MJ4U+RC<br>500P0AW475MJ4U+RC|SIZE P07<br>2220 SINGLE STACK<br>101P07W475MJ4U+RC<br>500P07W106MJ4U+RC|SIZE P07<br>2220 SINGLE STACK<br>101P07W475MJ4U+RC<br>500P07W106MJ4U+RC|SIZE P2A<br>1812 DOUBLE STACK<br>101P2AW475MJ4U+RC<br>500P2AW106MJ4U+RC|SIZE P2A<br>1812 DOUBLE STACK<br>101P2AW475MJ4U+RC<br>500P2AW106MJ4U+RC|SIZE P27<br>2220 DOUBLE STACK<br>101P27W106MJ4U+RC<br>500P27W226MJ4U+RC|SIZE P27<br>2220 DOUBLE STACK<br>101P27W106MJ4U+RC<br>500P27W226MJ4U+RC|
|---|---|---|---|---|---|---|---|---|---|
|Dimensions<br>Applicable<br>to specific sizes:|L MAX:<br>W MAX:<br>H MAX:|IN.<br>0.217<br>0.157<br>0.118|MM<br>5.5<br>4.0<br>3.0|IN.<br>0.256<br>0.217<br>0.118|MM<br>6.5<br>5.5<br>3.0|IN.<br>0.217<br>0.157<br>0.236|MM<br>5.5<br>4.0<br>6.0|IN.<br>0.256<br>0.217<br>0.236|MM<br>6.5<br>5.5<br>6.0|
|Dimensions Applicable<br>to all sizes:<br>IN.<br>MM<br>H1 MAX<br>.059<br>1.50<br>C TYP.<br>.100<br>2.54<br>P1 TYP.<br>.020<br>0.50<br>P2 ± 0.02<br>.065<br>1.65||L<br>p2<br>W<br>c<br>H<br>h1<br>p1||||L<br>p2<br>W<br>H<br>h1<br>p1<br>c||||
www.johansondielectrics.com
26
## **BME MINI SWITCH-MODE® CAPACITORS**
**==> picture [406 x 11] intentionally omitted <==**
**----- Start of picture text -----**<br>
TYPICAL APPLICATION: DC-DC CONVERTER INPUT & OUTPUT FILTERING<br>**----- End of picture text -----**<br>
Input Filter Output Filter Capacitor Capacitor Controller ic lal _ELECTRICAL CHARACTERISTICS_ ~~TS~~ MAXICAP TEMPERATURE OPERATING RANGE: -55 to +125°C 20% TEMPERATURE COEFFICIENT: X7R, ±15% 15% DISSIPATION FACTOR: 0.020 (2.0%) max. g 10% = “ AGING RATE: <2.5% per decade rm ™ 25°C IR >100GΩ or 1000 ΩF INSULATION RESISTANCE: F whichever is less G 5% 2.5 X WVDC for 50 VDC WITHSTANDING VOLTAGE: P -10% 2.0 X WVDC for 100 VDC 15% TEST CONDITIONS: 1kHz ±50Hz; 1.0±0.2 VRMS, 25°C -20%
## _HOW TO ORDER - BME MINI SWITCH-MODE[®]_
Part number written: 500P07W106MJ4U+RC
|500<br>VOLTAGE<br>Po)|500<br>VOLTAGE<br>Po)|500<br>VOLTAGE<br>Po)|P07<br>W<br>SIZE<br>DIELECTRIC<br>LJ|P07<br>W<br>SIZE<br>DIELECTRIC<br>LJ|P07<br>W<br>SIZE<br>DIELECTRIC<br>LJ|P07<br>W<br>SIZE<br>DIELECTRIC<br>LJ|106<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>[||106<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>[||106<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>[||106<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>[||106<br>M<br>CAPACITANCE<br>TOLERANCE<br>|<br>[||J<br>TERMINATION<br>|_||J<br>TERMINATION<br>|_||J<br>TERMINATION<br>|_||4<br>MARKING<br>[||4<br>MARKING<br>[||4<br>MARKING<br>[||U<br>PACKING<br>LF}|U<br>PACKING<br>LF}|U<br>PACKING<br>LF}|+RC<br>ROHS CODE<br>LT|+RC<br>ROHS CODE<br>LT|+RC<br>ROHS CODE<br>LT|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|500 = 50 V||500 = 50 V<br>See Chart<br>W = X7R|||W = X7R||1st two digits are<br>M = ±20%|||||J = “J” Leads|||4 = Unmarked|||U = Embossed|||+RC = RoHS|||
|101 = 100 V|||||||significant; third digit|||||(formed in)||||||Tape 13” Reel per|||Compliant|||
||||||||denotes number of|||||||||||EIA RS481||||||
|||||||||zeros.||||||||||||||||
||||||||225 = 2.2 μF|||||||||||||||||
||||||||106 = 10 uF|||||||||||||||||
www.johansondielectrics.com
27
## **X2Y® SWITCH-MODE CERAMIC CAPACITORS**
JDI’s new X2Y[®] Technology Switch-Mode ceramic capacitors exhibit significantly lower ESL making them ideally suited for applications where high frequency filtering performance is critical. Lower ESL performance translates to significant size and weight reduction because lower capacitance values perform as well or better
## _KEY FEATURES_
- Low ESR / Low ESL, Ideal for SMPS Filtering Applications
- Same Package Size as DSCC Drawings 87106 & 88011 MIL-PRF-49470
- NP0 & X7R Dielectrics, 50 to 500 VDC Ratings
• Custom Sizes, Voltages, and Values Available
## _CAPACITANCE / VOLTAGE SELECTION_
|||||||Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|Maximum X7R Capacitance Per Case Size (µF)|||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Rated DC Voltage|Rated DC Voltage|||||||||||||||||
|||Y05|Y25|Y35|Y45|Y55|Y04|Y24|Y34|Y44|Y54||Y03|Y23|Y33|Y43|Y53|
||50V|2.7|5.0|8.0|11|14|8.3|17|25|33|41||29|58|87|116|145|
||100V|2.0|4.0|6.0|8.0|10|6.0|12|17|24|29||21|41|62|83|104|
||200V|0.9|1.8|2.7|4.0|5.0|2.8|5.5|8.3|11|14||9.8|20|29|39|49|
||500V|0.5|0.9|1.4|1.8|2.3|1.4|2.8|4.1|5.5|6.9||4.9|9.7|14|19|24|
www.johansondielectrics.com
28
## **X2Y® SWITCH-MODE CERAMIC CAPACITORS**
**==> picture [475 x 93] intentionally omitted <==**
**----- Start of picture text -----**<br>
A G B A G B<br>A<br>Signal<br>(Power) + - + + - +<br>G G<br>+ - +<br>Return B<br>(Ground) A G B<br>Top View<br>**----- End of picture text -----**<br>
Contact the factory for additional connection options for dual signal line EMI filtering applications.
## _CASE SIZE_
**==> picture [516 x 138] intentionally omitted <==**
**----- Start of picture text -----**<br>
Y05 Y25 Y35 Y45 Y55 Y04 Y24 Y34 Y44 Y54 Y03 Y23 Y33 Y43 Y53<br>A .120 .240 .360 .480 .650 .120 .240 .360 .480 .650 .120 .240 .360 .480 .650<br>B .185 .305 .425 .545 .715 .185 .305 .425 .545 .715 .185 .305 .425 .545 .715<br>C .250 .400 .450<br>D- .224 .350 .950<br>D+ .275 .425 1.075<br>E .300 .440 .500<br>3 per side, configuration: 5 per side, configuration 10 per side, configuration<br>Pins<br>a = 1, b = 1, g = 1 a = 1, b = 1, g = 3 a = 3, b = 3, g = 4<br>**----- End of picture text -----**<br>
All dimensions are in Inches. Tolerances are maximum except: C = ±.025” D- = minimum, D+ = maximum, F = minimum
**==> picture [487 x 103] intentionally omitted <==**
**----- Start of picture text -----**<br>
D<br>0.020" Min. E Straight Lead L-Lead J-Lead<br>B A 0.055"<br>± 0.010 .070" ± .010<br>.050" min .050" min<br>0.250" MIN F<br>.010" ± .002<br>0.020" ± .002 C<br>0.100" MAX<br>0.025" MIN 0.100" TYP<br>**----- End of picture text -----**<br>
## _HOW TO ORDER - X2Y[®] SMPS_
Part number written: 201Y03W475KJ4H
201 Y03 W 475 M J 4 H VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 500 = 50 V See Chart W = X7R 1st two digits are M = ±20% J = “J” Leads 4 = Standard T = Tape and Reel 101 = 100 V significant; third digit (formed in) 3 = Specified 201 = 200 V denotes number of L = “L” Leads H = High Reliability 501 = 500 V zeros. testing per customer (formed out) requirements 104 = 0.10 µF N = Straight Lead 105 = 1.00 µF S = Special Part 476 = 47.0 µF
**==> picture [57 x 32] intentionally omitted <==**
www.johansondielectrics.com
29
## **SWITCH-MODE RADIAL LEADED CAPACITORS**
## _KEY FEATURES_
- Rated Working Voltages from 25 to 500 VDC
- Rugged Epoxy Coating Offers Increased Protection
- Hi-Rel Screened Versions Available
- Custom Sizes, Voltages, and Values Available
## _ADVANTAGES_
- Power Supplies
- Voltage Multipliers
- Data Isolation
- Surge Protection
- Industrial Control Circuits
- Custom Applications
|_C S_<br>~~i~~|~~i~~|~~i~~<br>~~ceeee~~|~~i~~<br>~~ceeee~~|~~i~~<br>~~ee~~|~~i~~<br>~~ee~~|
|---|---|---|---|---|---|
|_CASE SIZE_<br>IN.<br>(MM)<br>~~i~~|RATED<br>VOLTAGE<br>~~i~~|NP0 CAPACITANCE (MAX.)<br>~~i~~<br>~~ceeee~~||X7R CAPACITANCE (MAX.)<br>~~i~~<br>~~ee~~||
|||VALUE<br>~~i~~<br>~~cee~~|CODE<br>~~i~~<br>~~ee~~|VALUE<br>~~i~~<br>~~ee~~|CODE<br>~~i~~|
|H03<br>W<br>H<br>T<br>S<br>LD<br>.300 max.<br>.300 max.<br>.200 max.<br>.200 nom.<br>.020 nom.<br>(7.62 max.)<br>(7.62 max.)<br>(5.08 max.)<br>(5.08 nom.)<br>(.510 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC<br>~~i~~||.070 µF<br>.060 µF<br>.050 µF<br>.040 µF<br>.020 µF<br>~~i~~<br>~~cee ~~|703<br>603<br>503<br>403<br>203<br>~~i~~<br> ~~ee ~~|2.00 µF<br>1.60 µF<br>1.10 µF<br>.730 µF<br>.250 µF<br>~~i~~<br> ~~ee~~|205<br>165<br>115<br>734<br>254<br>~~i~~|
|H04<br>W<br>H<br>T<br>S<br>LD<br>.400 max.<br>.400 max.<br>.200 max.<br>.200 nom.<br>.020 nom.<br>(10.2 max.)<br>(10.2 max.)<br>(5.08 max.)<br>(5.08 nom.)<br>(.510 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||.120 µF<br>.100 µF<br>.082 µF<br>.050 µF<br>.030 µF|124<br>104<br>823<br>503<br>303|5.10 µF<br>4.10 µF<br>2.70 µF<br>1.80 µF<br>.670 µF|515<br>415<br>275<br>185<br>674|
|H05<br>W<br>H<br>T<br>S<br>LD<br>.500 max.<br>.500 max.<br>.200 max.<br>.400 nom.<br>.025 nom.<br>(12.7 max.)<br>(12.7 max.)<br>(5.08 max.)<br>(10.2 nom.)<br>(.635 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||.240 µF<br>.200 µF<br>.180 µF<br>.110 µF<br>.070 µF|244<br>204<br>184<br>114<br>703|8.70 µF<br>7.20 µF<br>4.80 µF<br>3.30 µF<br>1.10 µF|875<br>725<br>485<br>335<br>115|
|H06<br>W<br>H<br>T<br>S<br>LD<br>.870 max.<br>.600 max.<br>.200 max.<br>.790 nom.<br>.032 nom.<br>(22.1 max.)<br>(15.2 max.)<br>(5.08 max.)<br>(20.1 nom.)<br>(.813 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||.750 µF<br>.620 µF<br>.560 µF<br>.360 µF<br>.240 µF|754<br>624<br>564<br>364<br>244|22.0 µF<br>17.0 µF<br>13.0 µF<br>8.00 µF<br>2.90 µF|226<br>176<br>136<br>805<br>295|
www.johansondielectrics.com
30
## **SWITCH-MODE RADIAL LEADED CAPACITORS**
|_CASE SIZE_<br>IN.<br>(MM)<br>~~ye~~|RATED<br>VOLTAGE<br>~~ye~~|NP0 CAPACITANCE (MAX.)<br>~~ye~~|NP0 CAPACITANCE (MAX.)<br>~~ye~~|X7R CAPACITANCE (MAX.)<br>~~ye~~|X7R CAPACITANCE (MAX.)<br>~~ye~~|
|---|---|---|---|---|---|
|||VALUE<br>~~ye~~|CODE<br>~~ye~~|VALUE<br>~~ye~~|CODE<br>~~ye~~|
|H07<br>W<br>H<br>T<br>S<br>LD<br>1.10 max.<br>.600 max.<br>.200 max.<br>.980 nom.<br>.032 nom.<br>(27.9 max.)<br>(15.2 max.)<br>(5.08 max.)<br>(24.9 nom.)<br>(.813 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC<br>~~ye~~||.680 µF<br>.560 µF<br>.470 µF<br>.330 µF<br>.200µF<br>~~ye~~|684<br>564<br>474<br>334<br>204<br>~~ye~~|35.0 µF<br>28.0 µF<br>19.0 µF<br>13.0 µF<br>4.60µF<br>~~ye~~|356<br>286<br>196<br>136<br>465<br>~~ye~~|
|H08<br>W<br>H<br>T<br>S<br>LD<br>1.10 max.<br>.600 max.<br>.350 max.<br>.980 nom.<br>.032 nom.<br>(27.9 max.)<br>(15.2 max.)<br>(8.89 max.)<br>(24.9 nom.)<br>(.813 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||1.20 µF<br>1.10 µF<br>.820 µF<br>.470 µF<br>.300µF|125<br>115<br>824<br>474<br>304|70.0 µF<br>56.0 µF<br>37.0 µF<br>26.0 µF<br>8.70µF|706<br>566<br>376<br>266<br>875|
|H09<br>W<br>H<br>T<br>S<br>LD<br>.670 max.<br>.540 max.<br>.200 max.<br>.575 nom.<br>.025 nom.<br>(17 max.)<br>(13.7 max.)<br>(5.08 max.)<br>(14.6 nom.)<br>(.635 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||.450 µF<br>.360 µF<br>.330 µF<br>.240 µF<br>.180 µF|454<br>364<br>334<br>244<br>184|13.0 µF<br>10.0 µF<br>7.20 µF<br>5.00 µF<br>1.70 µF|136<br>106<br>725<br>505<br>175|
|H10<br>W<br>H<br>T<br>S<br>LD<br>.930 max.<br>.720 max.<br>.250 max.<br>.800 nom.<br>.032 nom.<br>(23.6 max.)<br>(18.3 max.)<br>(6.35 max.)<br>(20.3 nom.)<br>(.813 nom.)<br>25 VDC<br>50 VDC<br>100 VDC<br>200 VDC<br>500 VDC||1.00 µF<br>.900 µF<br>.750 µF<br>.470 µF<br>.300 µF|105<br>904<br>754<br>474<br>304|38.0 µF<br>30.0 µF<br>20.0 µF<br>14.0 µF<br>5.80 µF|386<br>306<br>206<br>146<br>585|
**==> picture [87 x 89] intentionally omitted <==**
**----- Start of picture text -----**<br>
— W h e T<br> H<br> S Meniscus<br>Height<br>.050" Max<br>mT<br>**----- End of picture text -----**<br>
NOTE: Lead lengths are typically 1.25” for orders in bulk packaging. Leads are typically 1.00” for tape and reel packaging. Tape and reel packaging comes in 1000 piece reels.
## _HOW TO ORDER SWITCH-MODE RADIALS_
Part number written: 201H07W105KQ4
To 201 H07 aD W 105 oc K 2 Q oso 4 T VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 250 = 25 V See Chart N = NP0 1st two digits are J = ± 5% Q = Leaded & 4 = Standard T = Tape and Reel 500 = 50 V W = X7R significant; third digit K = ± 10% Encapsulated 3 = Specified H = High Rel Testing 101 = 100 V denotes number of M = ± 20% per customer 201 = 200 V zeros. Z = +80% -20% requirements 501 = 500 V 101 = 100 pF S = Special Part 102 = 1000 pF 103 = 0.01 µF 105 = 1.00 µF
www.johansondielectrics.com
31
## **HIGH VOLTAGE RADIAL LEADED CAPACITORS**
## _KEY FEATURES_
- Rated Working Voltages from 25 to 5000 VDC
- Rugged Epoxy Coating Offers Increased Protection
- Compact MLC Designs Smaller Than Film or Disc
- NEW 200°C & 250°C Versions Available for Oil & Geophysical Tool, Aircraft Engine Control Applications
- DSCC Drawing & Other Screened Versions Available
## _ADVANTAGES_
- Power Supplies
- Voltage Multipliers
- Surge Protection
- Industrial Control Circuits
• Data Isolation • Custom Applications
|_CASE SIZE_<br>IN.<br>(MM)<br>~~es~~|RATED<br>VOLTAGE<br>~~es~~|NP0 CAPACITANCE (MAX.)<br>~~es~~|NP0 CAPACITANCE (MAX.)<br>~~es~~|X7R CAPACITANCE (MAX.)<br>~~es~~|X7R CAPACITANCE (MAX.)<br>~~es~~|
|---|---|---|---|---|---|
|||VALUE<br>~~es~~|CODE<br>~~es~~|VALUE<br>~~es~~|CODE<br>~~es~~|
|H42<br>W<br>H<br>T<br>S<br>LD<br>0.250 Max<br>0.220 Max<br>0.270 Max<br>0.170 ±0.03<br>0.025 ±.002<br>(6.35 Max)<br>(5.59 Max)<br>(6.86 Max)<br>(4.32 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>~~es~~<br>°<br>|||4700 pF<br>1500 pF<br>680 pF<br>330 pF<br>150 pF<br>100pF<br>~~es~~|472<br>152<br>681<br>331<br>151<br>101<br>~~es~~|.150 µF<br>.055 µF<br>9000 pF<br>2800 pF<br>630 pF<br>550pF<br>~~es~~|154<br>553<br>902<br>282<br>631<br>531<br>~~es~~|
|H47<br>W<br>H<br>T<br>S<br>LD<br>0.370 Max<br>0.300 Max<br>0.270 Max<br>0.275 ±0.03<br>0.025 ±.002<br>(9.40 Max)<br>(7.62 Max)<br>(6.86 Max)<br>(6.99 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>7||.022 µF<br>3300 pF<br>1500 pF<br>680 pF<br>330 pF<br>220pF|223<br>332<br>152<br>681<br>331<br>221|.480 µF<br>.170 µF<br>.025 µF<br>.011 µF<br>1800 pF<br>940pF|484<br>174<br>253<br>113<br>182<br>941|
|H51<br>W<br>H<br>T<br>S<br>LD<br>0.470 Max<br>0.400 Max<br>0.320 Max<br>0.375 ±0.03<br>0.025 ±.002<br>(12.0 Max)<br>(10.2 Max)<br>(8.13 Max)<br>(9.53 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC||.056 µF<br>4700 pF<br>3300 pF<br>1500 pF<br>1000 pF<br>470pF|563<br>472<br>332<br>152<br>102<br>471|1.20 µF<br>.450 µF<br>.094 µF<br>.043 µF<br>.010 µF<br>4900pF|125<br>454<br>943<br>433<br>103<br>492|
|H62<br>W<br>H<br>T<br>S<br>LD<br>0.570 Max<br>0.500 Max<br>0.320 Max<br>0.475 ±0.03<br>0.025 ±.002<br>(14.5 Max)<br>(12.7 Max)<br>(8.13 Max)<br>(12.1 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC||.100 µF<br>.010 µF<br>6800 pF<br>3300 pF<br>2200 pF<br>1000pF|104<br>103<br>682<br>332<br>222<br>102|2.20 µF<br>.804 µF<br>.240 µF<br>.073 µF<br>.028 µF<br>.013µF|225<br>804<br>244<br>733<br>283<br>133|
|H66<br>W<br>H<br>T<br>S<br>LD<br>0.670 Max<br>0.600 Max<br>0.320 Max<br>0.575 ±0.03<br>0.025 ±.002<br>(17.0 Max)<br>(15.2 Max)<br>(8.13 Max)<br>(14.6 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC||.150 µF<br>.015 µF<br>.010 µF<br>4700 pF<br>3300 pF<br>2200pF|154<br>153<br>103<br>472<br>332<br>222|3.30 µF<br>1.20 µF<br>.440 µF<br>.013 µF<br>.041 µF<br>.020µF|335<br>125<br>444<br>134<br>413<br>203|
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## **HIGH VOLTAGE RADIAL LEADED CAPACITORS**
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CASE SIZE<br>**----- End of picture text -----**<br>
|_CASE SIZEASE SIZE SIZE_||||||
|---|---|---|---|---|---|
|_CASE SIZEASE SIZE SIZEIZE_<br>IN.<br>(MM)|RATED<br>VOLTAGE|NP0 CAPACITANCE (MAX.)||X7R CAPACITANCE (MAX.)||
|||VALUE|CODE|VALUE|CODE|
|H70<br>W<br>H<br>T<br>S<br>LD<br>0.770 Max<br>0.720 Max<br>0.320 Max<br>0.675 ±0.03<br>0.025 ±.002<br>(19.6 Max)<br>(18.3 Max)<br>(8.13 Max)<br>(17.1 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC<br>a||.220 µF<br>.022 µF<br>.015 µF<br>6800 pF<br>4700 pF<br>3300pF|224<br>223<br>153<br>682<br>472<br>332|5.70 µF<br>2.10 µF<br>.620 µF<br>.190 µF<br>.054 µF<br>.026µF|575<br>215<br>624<br>194<br>543<br>263|
|H72<br>W<br>H<br>T<br>S<br>LD<br>0.870 Max<br>0.750 Max<br>0.320 Max<br>0.775 ±0.03<br>0.025 ±.002<br>(22.1 Max)<br>(19.1 Max)<br>(8.13 Max)<br>(19.7 ±0.76)<br>(0.64 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC||.330 µF<br>.100 µF<br>.056 µF<br>.033 µF<br>.010 µF<br>6800pF|334<br>104<br>563<br>333<br>103<br>682|7.30 µF<br>2.80 µF<br>.800 µF<br>.250 µF<br>.080 µF<br>.041µF|735<br>285<br>804<br>254<br>803<br>413|
|H80<br>W<br>H<br>T<br>S<br>LD<br>1.450 Max<br>0.720 Max<br>0.320 Max<br>1.375 ±0.03<br>0.025 ±.002<br>(36.8 Max)<br>(18.3 Max)<br>(8.13 Max)<br>(34.9 ±0.76)<br>(.064 ±0.05)<br>500 VDC<br>1000 VDC<br>2000 VDC<br>3000 VDC<br>4000 VDC<br>5000 VDC||.470 µF<br>.150 µF<br>.082 µF<br>.047 µF<br>.015 µF<br>.010µF|474<br>154<br>823<br>473<br>153<br>103|12.0 µF<br>4.60 µF<br>1.20 µF<br>.390 µF<br>.130 µF<br>.068µF|126<br>465<br>125<br>394<br>134<br>683|
## _T-SERIES 200°C & 250°C_
Johanson also offers two different series of high temperature radial leaded capacitors for 200°C and 250°C. These components feature rugged premolded cases with Hi-Temp epoxy fill. The 200°C line is offered in voltage ratings of 25V to 4KV and maximum capacitance loss of -0.5% in NP0 and -45% in X7R. The 250°C line is offered in voltage ratings of 50V & 100V with maximum capacitance loss of -1.5% in NP0 and -55% in X7R. Please visit our website for complete component selection & specifications
## _APPLICATIONS_
- Oil Well Logging (Downhole)
- Geophysical Probes
- Jet Engine Controls
**==> picture [87 x 77] intentionally omitted <==**
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KK W | ko T<br>|<br> H<br>i<br>|<br> S Meniscus<br>Height<br>.050" Max<br>**----- End of picture text -----**<br>
NOTE: Lead lengths are typically 1.25” for orders in bulk packaging. Leads are typically 1.00” for tape and reel packaging. Tape and reel packaging comes in 1000 piece reels.
## _HOW TO ORDER HIGH VOLTAGE RADIALS_
Part number written: 102H42W101KQ4
102 H42 W 101 K Q 4 | J} EL |_| || [| [| | | [| VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 501 = 500 V See Chart N = NP0 1st two digits are J = ± 5% Q = Leaded & 4 = Standard T = Tape and Reel 102 = 1000 V W = X7R significant; third digit K = ± 10% Encapsulated 3 = Specified H = High Rel Testing 202 = 2000 V denotes number of M = ± 20% per customer 302 = 3000 V zeros. Z = +80% -20% requirements 402 = 4000 V 102 = 1000 pF S = Special Part 502 = 5000 V 103 = 0.01 µF 105 = 1.00 µF
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## **PLANAR CAPACITOR ARRAYS FOR EMI FILTERING**
Johanson Dielectrics is the premier supplier of Planar Capacitor EMI Filter Arrays to the Filtered Connector Industry.
Planar Capacitors are the fundamental building block for filtered connectors in Aerospace, Biomedical, Military, Satellite, Industrial and Communication electronics.
Johanson offers high value Arrays in standard and custom solutions to fit your needs.
## _CIRCULAR ARRAYS_
|PHYSICAL<br>LAYOUT|DIELECTRIC<br>MATERIAL|AVAILABLE<br>CAPACITANCE|WORKING<br>VOLTAGE|DWV<br>VOLTAGE|
|---|---|---|---|---|
|MIL-1560<br>MIL-1554<br>MIL-1669<br>MIL-1651<br>MIL-1698<br>MIL-33702<br>MIL-AUDIO|X7R<br>&<br>NP0|47 pF<br>to<br>800 nF|Up to<br>2,000<br>VDC|Up to<br>3,000<br>VDC|
## _RECTANGULAR ARRAYS (ARINC 404/600)_
|_RECTANGULAR ARRAYS (ARINC 404/600)ECTANGULAR ARRAYS (ARINC 404/600) ARRAYS (ARINC 404/600)RRAYS (ARINC 404/600) (ARINC 404/600)RINC 404/600) 404/600)_|||||
|---|---|---|---|---|
|PHYSICAL<br>LAYOUT|DIELECTRIC<br>MATERIAL|AVAILABLE<br>CAPACITANCE|WORKING<br>VOLTAGE|DWV<br>VOLTAGE|
|AR-010<br>Through<br>AR-150|X7R<br>&<br>NP0|47 pF<br>to<br>940 nF|Up to<br>1,330<br>VDC|Up to<br>2,000<br>VDC|
## _D-SUBMINATURE RECTANGULAR ARRAYS_
|_D-SUBMINATURE RECTANGULAR ARRAYSUBMINATURE RECTANGULAR ARRAYS RECTANGULAR ARRAYSECTANGULAR ARRAYS ARRAYSRRAYS_|||||
|---|---|---|---|---|
|PHYSICAL<br>LAYOUT|DIELECTRIC<br>MATERIAL|AVAILABLE<br>CAPACITANCE|WORKING<br>VOLTAGE|DWV<br>VOLTAGE|
|Full Size<br>Mini-D<br>Micro-D<br>Nano-D<br>Combo-D<br>Power-D<br>Special|X7R<br>&<br>NP0|47pF - 210nF<br>47pF - 100nF<br>47pF - 22.5nF<br>47pF - 3.0nF<br>47pF - 6.0nF<br>47pF - 120nF<br>47pF - 50nF|≤ 2,400<br>≤ 1,000<br>≤ 680<br>≤ 200<br>≤ 800<br>≤ 680<br>≤ 300|≤ 3,600<br>≤ 1,500<br>≤ 1,020<br>≤ 500<br>≤ 1,200<br>≤ 1,020<br>≤ 750|
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## **PLANAR CAPACITOR ARRAYS FOR EMI FILTERING**
## _CUSTOM ARRAYS_
Johanson Dielectrics’s design expertise and CNC manufacturing process enable broad custom array capability. Many shapes, configurations and geometries are possible. Share your requirements and we will create a solution!
## _DISCOIDAL CAPACITORS_
JOHANSON Discoidal Feed-through Capacitors are the functional element in widely used EMI feed-through filters. This capacitor configuration offers very low impedance and inductance. Discoidal capacitors are ideal for by-pass, filtering, coupling, single line EMI/RFI suppression, and high frequency applications.
- Capacitance values from 10 pF to 11.2 μF
- Test standards and procedures per MIL-STD-202 and MIL-C-123
- Voltage ratings from 50 to 3000 VDC and 50 to 240 VAC
- Low ESR and ESL, non-polar designs
Call us to discuss your special requirements!
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O.D.<br>Ceramic<br>Internal<br>Termination I.D. Electrodes<br>**----- End of picture text -----**<br>
|NOMINAL<br>O.D. (IN.)|DIELECTRIC<br>MATERIAL|AVAILABLE<br>CAPACITANCE|INSIDE<br>DIAMETER (IN.)|THICKNESS (IN.)|RATED VOLTAGE|
|---|---|---|---|---|---|
|0.100 ±.005<br>0.150 ±.005<br>0.335 ±.005<br>0.345 ±.005<br>0.376 ±.005<br>0.643 ±.005<br>0.840 ±.005|X7R<br>&<br>NP0|10 pF – 66 nF<br>10 pF – 200 nF<br>10 pF – 2.8 µF<br>10 pF – 6.0 µF<br>10 pF – 8.0 µF<br>10 pF – 15 µF<br>10 pF – 20 µF|0.025 ±0.048<br>0.037 ±0.058<br>0.034 ±0.088<br>0.040 ±0.085<br>0.050 ±0.075<br>0.063 ±0.080<br>0.050 ±0.075|0.025 ±0.070<br>0.025 ±0.070<br>0.040 ±0.110<br>0.055 ±0.110<br>0.065 ±0.125<br>0.055 ±0.150<br>0.080 ±0.130|Up to 200 VDC<br>Up to 200 VDC<br>Up to 500 VDC<br>Up to 750 VDC<br>Up to 750 VDC<br>Up to 750 VDC<br>Up to 1000 VDC|
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35
## **® CAPSTRATE CAPACITOR SUBSTRATES**
Johanson CapStrate[®] products integrate bulk capacitance into a ceramic substrate eliminating large discrete capacitive components which saves critical space and simplifies the assembly process. Our design and manufacturing expertise in large format, custom geometries provides innovative solutions that economically solve a wide variety of your design challenges.
## _ADVANTAGES_
- Major Size & Weight Reduction
- Fewer Solder Joints
- Lower Assembly Cost
- Circuit Assembly Available
## _KEY FEATURES_
- Integrated Capacitance in The Substrate
- Rated Working Voltages from 50V to 5,000V
- Temperature ranges: -55°C to 125°C (specials to 200°C and 250°C)
- Compact Designs Utilizing Military Grade Ceramics
- Custom Sizes, Values, and Voltages Available
## _SIZE / CAPACITANCE CAPABILITY EXAMPLES_
|SUBSTRATE SIZE<br>~~i~~|SUBSTRATE SIZE<br>~~i~~|LENGTH<br>~~eee~~|WIDTH<br>~~eee~~|THICK<br>~~eee~~|NP0<br>50V|NP0<br>100V|NP0<br>200V|NP0<br>500V|X7R<br>50V|X7R<br>100V|X7R<br>200V|X7R<br>500V|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|CapStrate 4<br>~~i~~<br>~~ee~~|In<br>~~i~~<br>~~ee~~|0.400<br>~~eee~~<br>~~**e**e~~|0.400<br>~~eee~~<br>~~e~~~~**e**~~|0.120<br>~~eee~~<br>~~ee~~|0.22µF<br>~~Oe~~|0.15µF|0.12µF|0.07µF|9.0µF|6.0µF|3.0µF|1.5µF|
||mm<br>~~i~~<br>~~ee~~<br>~~ee~~|10.2<br>~~eee~~<br>~~**e**e~~<br>~~ee~~|10.2<br>~~eee~~<br>~~e~~~~**e**~~<br>~~ee~~|3.1<br>~~eee~~<br>~~ee~~<br>~~ee Oe~~|||||||||
|CapStrate 3<br>~~i~~<br>~~ee~~<br>~~er~~|In<br>~~i ~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|0.450<br> ~~eee ~~<br>~~**e**e~~<br>~~ee~~<br>~~ee~~|1.00<br> ~~eee ~~<br>~~e~~~~**e**~~<br>~~ee~~<br>~~ee~~|0.120<br> ~~eee~~<br>~~ee~~<br>~~ee Oe~~|0.70µF<br>~~Oe~~<br>~~Oe~~|0.50µF|0.39µF|0.22µF|28.0µF|20.0µF|9.0µF|4.7µF|
||mm<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~r~~|11.43<br>~~**e**e~~<br>~~ee~~<br>~~ee~~<br>~~eee~~|25.4<br>~~e~~~~**e**~~<br>~~ee~~<br>~~ee~~<br>~~eee~~|3.1<br>~~ee~~<br>~~ee Oe~~<br>~~eee Oe~~|||||||||
|CapStrate 1<br>~~ee~~<br>~~er~~|In<br>~~ee ~~<br>~~ee~~<br>~~ee~~<br>~~r~~<br>~~ee~~|0.450<br> ~~**e**e ~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|2.00<br> ~~e~~~~**e** ~~<br>~~ee~~<br>~~ee~~<br>~~eee~~<br>~~ee~~|0.120<br> ~~ee~~<br>~~ee Oe~~<br>~~eee Oe~~<br>~~ee~~|1.40µF<br>~~Oe~~<br>~~Oe~~|1.00µF|0.75µF|0.44µF|50.0µF|40.0µF|18.0µF|9.4µF|
||mm<br>~~r~~<br>~~ee~~|11.4<br>~~eee~~<br>~~ee~~|50.8<br>~~eee~~<br>~~ee~~|3.1<br>~~eee Oe~~<br>~~ee~~|||||||||
|CapStrate 2<br>~~er~~<br>~~se~~<br>~~eee~~|In<br>~~r ~~<br>~~ee~~<br>~~se~~<br>~~ee~~|0.800<br> ~~eee ~~<br>~~ee~~<br>~~se~~<br>~~ee~~|1.50<br> ~~eee ~~<br>~~ee ~~<br>~~se~~<br>~~ee~~|0.120<br> ~~eee Oe~~<br> ~~ee~~<br>~~se~~|2.00µF<br>~~Oe~~<br>~~se~~<br>~~Oe~~|1.40µF<br>~~se~~|1.00µF<br>~~se~~|0.60µF<br>~~se~~|75.0µF<br>~~se~~|55.0µF<br>~~se~~|25.0µF<br>~~se~~|14.0µF<br>~~se~~|
||mm<br>~~se~~<br>~~ee~~<br>~~eee~~|20.3<br>~~se~~<br>~~ee~~<br>~~eee~~|38.1<br>~~se~~<br>~~ee~~<br>~~eee~~|3.1<br>~~se~~<br>~~eee~~|||||||||
|CapStrate 6<br>~~eee~~|In<br>~~ee ~~<br>~~eee~~<br>~~ee~~|1.250<br> ~~ee~~<br>~~eee~~<br>~~ee~~|2.00<br>~~ee~~<br>~~eee~~<br>~~ee~~|0.120<br>~~eee~~|4.00µF<br>~~Oe~~|2.80µF|2.00µF|1.20µF|150.0µF|110.0µF|50.0µF|28.0µF|
||mm<br>~~eee~~<br>~~ee~~|31.8<br>~~eee~~<br>~~ee~~|50.8<br>~~eee~~<br>~~ee~~|3.1<br>~~eee~~|||||||||
|Circular CapStrate®Capacitance Formula<br>~~eee eee eee ~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|||||1.3 -1.6<br>µF / In2<br> ~~Oe~~|0.9 -1.1<br>µF / In2|0.7 -0.8<br>µF / In2|50 - 62 µF<br>/ In2|50 - 62 µF<br>35 - 45 µF<br>/ In2|35 - 45 µF<br>18 - 20 µF<br>/ In2|18 - 20 µF<br>1.3 -1.6<br>µF / In2|9 -10<br>µF / In2|
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## **CUSTOM CAPACITOR SOLUTIONS**
Johanson’s extensive experience in design and manufacture of large format, custom geometries allows us to develop unique and innovative solutions which successfully solve a wide variety of our customer’s design challenges. We’ll work pro actively with you to fully understand your requirements and recommend the best solution possible.
## _KEY FEATURES_
- Custom shapes to fit specific requirements
- Multiple capacitors in a single assembly
- NP0/COG and X7R solutions from -55°C to +125°
- Multiple pin, lead-frame, and flying wire options
- Bare ceramic, epoxy coated, potted solutions
## _VARIABLE PITCH ASSEMBLIES_
Another custom approach is our variable pitch design. No longer are you limited to a vendor’s standard catalogue offering or only square or rectangular custom designs. We let you become your own capacitor designer by not only telling us the desired capacitance and voltage, but also the size, shape, and location of leads! This process helps insure that the resulting capacitor satisfies every aspect of your design requirements.
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## **CAPACITOR PACKAGING**
Johanson capacitors are available taped per EIA standard 481. Tape options include 7” and 13” diameter reels. Johanson uses high quality, dust free, punched 8mm paper tape and plastic embossed 8mm tape for thicker MLCCs. Quantity per reel ranges are listed in the tables below and are dependent on chip thickness.
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Feed Direction<br>Embossed Tape 8mm Width; 4mm or 2mm Pitch Punched Tape<br>.083 max.<br>(2.1) .012±.004.059+.004-0.0(1.5+0.1-0.0) Sproket Holes .157±.004(4.0±0.1) .067±.004(1.7±0.1) max.(1.2).055<br>(0. 3±0.1)<br>.079±.020(2.0±0.5) (3.5±0.05).138±.002 .315±.008 Width<br>Bo (8.0±0.2)<br>Ao<br>.083±.020 1.97 min. .510±.020 d Cover Tape a tes .079±.002 Cover Tape |<br>(21±0.5) (50.0) (13±0.5) Pitch = .157±.004 (4.0±0.1) (2.0±0.05)<br> or .079±.004 (2.0±0.1)<br>Embossed Tape 12mm Width; 8mm or 4mm Pitch Punched Tape<br>.098 max.(2.5) .(0.3±0.1)012±.004 .059+.004-0.0(1.5+0.1-0.0) Sproket Holes .157±.004(4.0±0.1) .067±.004(1.7±0.1)<br>\ 4 T E -—-(—-—0--6ape /\-06 Ao -—-@- = .220±.004 \<br>(5.5±0.1) Width<br>.472±.008<br>Bo (12.0±0.2)<br>(178±2.0) 7.0±.079 or 13.0±.079 (330±2.0) (8.4+1.5-0.0).33+.059-0.0 S s or (12.4+2.0-0.0) ke .488+.078-0.0 — Pitch or .157±.004 (4.0±0.1) = .314±.004 (8.0±0.1) . (2.0±0.05).079±.002 ;<br>500R07N100JV4E<br>P/N 010-9999<br>Lot # F03456<br>S.O. # MO12678<br>M.O. #<br>**----- End of picture text -----**<br>
||7” DIAMETER REEL|7” DIAMETER REEL|7” DIAMETER REEL|7” DIAMETER REEL|13” DIAMETER REEL|13” DIAMETER REEL|13” DIAMETER REEL|13” DIAMETER REEL|
|---|---|---|---|---|---|---|---|---|
|COMPONENT|REEL QTY|TAPE TYPE|WIDTH / PITCH|CODE|REEL QTY|TAPE TYPE|WIDTH / PITCH|CODE|
|R05 / 0201 MLCC<br>R07 / 0402 MLCC<br>R14 / 0603 MLCC<br>R15 / 0805 MLCC<br>R18 / 1206 MLCC<br>S41 / 1210 MLCC<br>R29 / 1808 MLCC<br>R30 / 2211 MLCC<br>S43 / 1812 MLCC<br>S47 / 2220 MLCC<br>S49 / 1825 MLCC<br>S48 / 2225 MLCC<br>X07 / 0402 X2Y<br>X14 / 0603 X2Y<br>X15 / 0805 X2Y<br>X18 / 1206 X2Y<br>X41 / 1210 X2Y<br>X44 / 1410 X2Y<br>X43 / 1812 X2Y|15000<br>10000<br>4000<br>4000 / 3000<br>4000 / 3000<br>2000 - 4000<br>2000<br>1000 - 2000<br>500 - 1000<br>250 - 1000<br>250 - 1000<br>250 - 1000<br>4000<br>4000<br>4000<br>3000 - 4000<br>2000 - 3000<br>1000 - 2000<br>1000|Paper<br>Paper<br>Paper<br>Paper / Embossed<br>Paper / Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Paper<br>Paper<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed|8mm/2mm<br>8mm/2mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>12mm/4mm<br>12mm/4mm<br>12mm/8mm<br>12mm/8mm<br>12mm/8mm<br>12mm/8mm<br>8mm/2mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>12mm/8mm|T<br>T<br>T<br>T / E<br>T / E<br>E<br>E<br>E<br>E<br>E<br>E<br>E<br>T<br>T<br>E<br>E<br>E<br>E<br>E|N/A<br>N/A<br>10000<br>10000<br>10000<br>5000-10000<br>5000 - 8000<br>2000 - 5000<br>3000 - 5000<br>2000 - 5000<br>2000 - 4000<br>2000 - 4000<br>10000<br>10000<br>10000<br>10000|N/A<br>N/A<br>Paper<br>Paper / Embossed<br>Paper / Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Embossed<br>Paper<br>Paper<br>Embossed<br>Embossed|8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm<br>12mm/4mm<br>12mm/4mm<br>12mm/8mm<br>12mm/8mm<br>12mm/8mm<br>12mm/8mm<br>8mm/2mm<br>8mm/4mm<br>8mm/4mm<br>8mm/4mm|N/A<br>N/A<br>R<br>R / U<br>R / U<br>U<br>U<br>U<br>U<br>U<br>U<br>U<br>R<br>R<br>U<br>U|
Actual reel quantities based on part thickness and tape type. Contact sales for reel quantities of specific part numbers.
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38
_ELECTRICAL CHARACTERISTICS_
|PARAMETER|NP0|NP0|NP0||X7R|X7R||X5R|X5R|
|---|---|---|---|---|---|---|---|---|---|
|TEMPERATURE<br>COEFFICIENT:|0± 30 ppm/°C||-55 to +125°C||± 15%|-55 to +125°C||± 15%|-55 to +85°C|
||-<br>-80%<br>-60%<br>-40%<br>-20%<br>0%<br>20%|55`°`C<br>-25`°`C<br>0`°`C<br>25`°`C<br>50`°`C<br>75`°`C<br>100`°`C<br>125`°`C||-<br>-80%<br>-60%<br>-40%<br>-20%<br>0%<br>20%|55`°`C<br>-25`°`C<br>0`°`C<br>25`°`C<br>50`°`C<br>75`°`C<br>100`°`C<br>125`°`C||-5<br>-80%<br>-60%<br>-40%<br>-20%<br>0%<br>20%|5`°`C<br>-25`°`C<br>0`°`C<br>25`°`C<br>50`°`C<br>75`°`C<br>100`°`C<br>125`°`C||
|DISSIPATION<br>FACTOR:||.001 (0.1%) max||WVDC ≥ 50 VDC, DF = 2.5% max<br>WVDC = 25 VDC, DF = 3.0% max<br>WVDC = 16 VDC, DF = 3.5% max|||For Vrated ≥ 50 VDC, DF = 5% max<br>For Vrated ≤ 25 VDC: DF = 10% max|||
|AGING:||None||2.5% / decade hour|||2.5 % / decade hour|||
|INSULATION<br>RESISTANCE:|1000ΩF or 100GΩ<br>whichever is less @ 25°C, WVDC|||500ΩF or 50GΩ<br>whichever is less @ 25°C, WVDC|||100ΩF or 10GΩ<br>whichever is less @ 25°C, WVDC|||
|DIELECTRIC<br>STRENGTH:|For Vrated = 6 - 200 VDC, DWV = 2.5 X WVDC, 25°C, 50mA max.<br>For Vrated = 201 - 499 VDC, DWV = 2.0 X WVDC, 25°C, 50mA max.<br>For Vrated = 500 - 999 VDC, DWV = 1.5 X WVDC, 25°C, 50mA max.<br>For Vrated = 1000+ VDC, DWV = 1.2 X WVDC, 25°C, 50mA max.||||||DWV = 2.5 X WVDC, 25°C, 50mA<br>max.|||
|TEST<br>PARAMETERS:|C > 100 pF; 1kHz ±50Hz;1.0±0.2<br>VRMS<br>C ≤ 100 pF 1Mhz ±50kHz; 1.0±0.2<br>VRMS|||1kHz ±50Hz;1.0±0.2 VRMS|||1kHz ±50Hz; 0.5±0.2 VRMS|||
|NOTES:|Tanceram IR = 100 ΩF or 10 GΩ<br>Tanceram DF for Vrated ≥ 50 VDC = 5% max.<br>Tanceram DF for Vrated ≤ 25 VDC,DF = 10% max|||||||||
## _PART NUMBER BREAKDOWN - SURFACE MOUNT_
Part number written: 502R29W102KV3E-****-SC
||502||R|29||W|||102||K||V|3|E||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|VOLTAGE<br>SERIES/SIZE<br>DIELECTRIC||||||||CAPACITANCE<br>TOLERANCE|||||TERMINATION|MARKING|PACKING||
|6R3|= 6.3 V DC<br>A_ _ = ARRAY||||N|= NP0||1st two digits||are<br>* B = ±|0.10 pF||V = Nickel Barrier<br>3 = Special||E = Embossed 7”||
|100 = 10 V DC<br>B_ _ = LICC|||||W|= X7R||significant; third<br>* C = ± 0.25 pF|||||with 100% Tin<br>4 = Unmarked||T = Punched 7”||
|160 = 16 V DC<br>F_ _ = F-T FILTER<br>X||||||= X5R||digit|denotes|<br>* D = ± 0.50 pF|||Plating (Matte)<br>6 = EIA Code*||U = Embossed 13”||
|250 = 25 V DC<br>500 = 50 V DC<br>101 = 100 V DC<br>201 = 200 V DC<br>251 = 250 V DC<br>301 = 300 V DC<br>501 = 500 V DC<br>631 = 630 V DC<br>102 = 1000 V DC<br>202 = 2000 V DC<br>R_ _ = MLCC<br>S_ _ = MLCC<br>T_ _ = HI TEMP<br>X_ _ = X2Y<br>_05=0201<br>_07=0402<br>_14=0603<br>_15=0805<br>_18=1206|||||MLCC|||number of zeros,<br>R = decimal.<br>5R6 = 5.6 pF<br>100 = 10 pF<br>102 = 1,000 pF<br>474 = 0.47 µF<br>475 = 4.7 µF<br>106 = 10 µF<br>*F = ± 1 %<br>*G = ± 2%<br>*J = ± 5%<br>*K = ± 10%<br>*M = ± 20%<br>*Y = +50 -20%<br>*Z = +80 -20%<br>*Values < 10 pF<br>only|||||F = Polyterm<br>flexible termination<br>G = Gold<br>T = SnPb<br>P = PdAg|*Not available<br>on sizes<br>≤ 0402|R = Punched 13”<br>No code = bulk<br>pack<br>Tape specifications<br>conform to EIA<br>RS481<br>Not all tape styles<br>are available on all||
|302 = 3000 V||DC*|_41=1210||||||||||||parts.||
|402 = 4000 V||DC|_29=1808||||||||||||||
|502 = 5000 V||DC*|_30=2211||||||||||||||
|ACJ = 250 VAC<br>* For Safety Caps<br>with -****-SC<br>P/N suffix only:<br>302 = 250VAC<br>[2500V Impulse]|||_43=1812<br>_44=1410<br>_47=2220<br>_49=1825<br>_48=2225||||||||||-****-<br>SC<br>PART NUMBER MODIFIER<br>Used on select parts such as Safety Certified<br>for customer specific requirements.|||or|
|502 = 250VAC|||||||||||||||||
|[5000V Impulse]|||||||||||||||||
PLEASE NOTE: Not all combinations of JDI P/Ns are valid. Please refer to the “How to Order” detail section of the specific product or contact your Sales Representative if you need assistance.
**==> picture [57 x 32] intentionally omitted <==**
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39
## _**Your Technology Partner**_
High Voltage AC Safety X2Y High Capacitance
High Temperature AC Power Feedthru Filter Low ESL SMPS Radial Leaded Planar Arrays Custom Solutions
**EUROPE:**
## **UNITED STATES:**
HEADQUARTERS 15191 Bledsoe St., Sylmar, California 91342 TEL (818) 364 9800 • FAX (818) 364 6100 http://www.johansondielectrics.com
## **HONG KONG:**
JOHANSON HONG KONG, LTD. Unit E, 11/F., Phase 1 Kaiser Estate 41 Man Yue St., Hunghom Kowloon, Hong Kong TEL +852 2334 6310 • FAX +852 2334 8858 asiasales@johansondielectrics.com
JOHANSON EUROPE, LTD. Flackwell Heath, Bucks, England HP10 9NR TEL +44 1628 531154 • FAX +44 1628 532703 eurosales@johansondielectrics.com
© 2015 Publication JD12114
Updated at February 9, 2023
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