SMD Aluminum Solid Capacitors with Conductive Polymer

SMD Aluminum Solid Capacitors with Conductive Polymer FEATURES New OS-CON series provides improved characteristics with up to 25 C temperature capability and 35 V maximum voltage rating in a SMD package Improved damp heat (steady state) 85 C x 85 % RH performance Suitable for use in smoothing circuits of vehicle-mounted equipment, industrial equipment, etc. This product can support lead (Pb)-free reflow (2) Material categorization: For definitions of compliance please see www.vishay.com/doc?9992 QUICK REFERENCE DATA DESCRIPTION CONDITIONS VALUE Operating temperature range - - 55 C to + 25 C Capacitance tolerance 2 Hz M: ± 2 % (tan ) 2 Hz values in Electrical Data and Ordering Information table Leakage current (μa/2 min) (or less) () After 2 min values in Electrical Data and Ordering Information table ESR - values in Electrical Data and Ordering Information table Characteristics of impedance ratio - 55 C Z/Z 2 C.75 to.25 khz, + 2 C at high and low temperature + 25 C Z/Z 2 C.75 to. C/C Within ± 2 % Endurance + 25 C, 2 h tan 2 x or < than an initial standard rated voltage applied ESR 2 x or < than an initial standard Leakage current Below an initial standard Damp heat (steady state) C/C Within ± 2 % + 85 C, 85 % to 9 % RH, tan 2 x or < than an initial standard h rated voltage applied ESR 2 x or < than an initial standard Leakage current Below an initial standard C/C Within ± % tan.3 x or < than an initial standard Solder heat resistance (2) (VPS) (23 C x 75 s) ESR.3 x or < than an initial standard Below an initial standard Leakage current (after voltage procesing) () If any doubt arises, measure the current after applying voltage (voltage treatment). Voltage treatment: The rated voltage is applied ( V to 35 V) for 2 min at 25 ºC. (2) Refer to Recommended Reflow Profile for maximum temperatures. DIMENSIONS in millimeters Series C6 size is PD E7, F8, E2, F2 size is SVPD Polarity marking (Cathode) Case No. 3 SVPD 47 35 Rated capacitance Rated voltage SIZE CODE Ø D ±.5 L +./-.4 W ±.2 H ±.2 C ±.2 R P ±.2 C6 6.3 5.9 6.6 6.6 7.3.6 to.8 2. E7 8. 6.9 8.3 8.3 9..6 to.8 3.2 F8. 7.9.3.3..6 to.8 4.6 E2 8..9 8.3 8.3 9..8 to. 3.2 F2. 2.6.3.3..8 to. 4.6 Ø D L.2 max. H W R P C (+) Revision: 3-Aug-2 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

CASE CODE LIST CAPACITANCE (μf). (.5) RATED VOLTAGE (SURGE AT 25 C) 6. (8.4) 25. (29.) 8.2 E7 C6 8 F8 22 E7 E2 39 F8 47 E2 F2 56 C6 82 E7 F2 35. (4.) RECOMMENDED LAND PATTERN DIMENSIONS (in millimeters) SIZE CODE a b c C6 2. 9..6 c E7 2.8..9 a F8 4.3 3..9 b E2 2.8..9 F2 4.3 3..9 FREQUENCY COEFFICIENT FOR RIPPLE CURRENT FREQUENCY 2 Hz f < khz khz f < khz khz f < khz khz f < 5 khz COEFFICIENT.5.3.7 ELECTRICAL DATA AND ORDERING INFORMATION U R (V) C R (μf) CASE CODE () Capacitance tolerance: M ± 2 % (2) After 2 min (3) Tx: Ambient temperature MAX. ESR ( khz TO 3 khz) (m ) RATED RIPPLE CURRENT ALLOWABLE RIPPLE CURRENT MAX. TANGENT OF LOSS ANGLE MAX. LEAKAGE CURRENT (μa) (2) PART NUMBER () khz (ma) (3) 5 C < Tx 25 C Tx 5 C 56 C6 45 538 7.2 2 566XC6 6 82 E7 4 67 22.2 262 826X6E7 25 35 C6 65 474 5. 5 6X25C6 22 E7 48 58 835. 226X25E7 39 F8 45 664 2. 95 396X25F8 47 E2 3 943 298.2 235 476X25E2 82 F2 28 22 38.2 4 826X25F2 8.2 E7 7 4 3. 57 825X35E7 8 F8 6 55 8. 26 86X35F8 22 E2 5 7 23.2 54 226X35E2 47 F2 3 5 365.2 329 476X35F2 Revision: 3-Aug-2 2 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

FREQUENCY CHARACTERISTICS ESR, Impedance (Ω). 5 3 7 4 6 2 8 Curve : 476X35F2 Impedance (Ω) Curve 2: 476X35F2 ESR (Ω) Curve 3: 86X35F8 Impedance (Ω) Curve 4: 86X35F8 ESR (Ω) Curve 5: 6X25C6 Impedance (Ω) Curve 6: 6X25C6 ESR (Ω) Curve 7: 826X25F2 Impedance (Ω) Curve 8: 826X25F2 ESR (Ω)... Frequency (khz) FREQUENCY (khz).2.5 5 5 6X25C6 IMPEDANCE ( ) 6X25C6 ESR ( ) 86X35F8 IMPEDANCE ( ) 86X35F8 ESR ( ) 476X35F2 IMPEDANCE ( ) 476X35F2 ESR ( ) 826X25F2 IMPEDANCE ( ) 826X25F2 ESR ( ) 27.769 3. 5.68.62.76.46.32.93.79.33.482.36.8.44.35.32.33.4 72.87 7.78 8.955.98.96.23.37.2.397.68.333.79.43.27.23.23.26.34 3.78 7.389 3.725.392.5.6.25.34.266.852.26.2.45.23.6.4.7.23 6.736 4.96 2.74.229.29.4.28.44.285.339.35.94.33.5...4.9 Revision: 3-Aug-2 3 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE LOT. NUMBER 6X25C6 Endurance 25 C 25 V 73A274 2 - - 2-3 - 4 Change in capacitance (2 Hz) 2.2...9.8.7.6.5.4.3.2. (2 Hz) 2 2 ESR ( khz) Leakage current (25 V, 6 s) 8 6 4 2 8 6 4 2 2 TIME (h).. 2 n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 4 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE LOT. NUMBER 86X35F8 Endurance 25 C 35 V 657A3254 2 - - 2-3 - 4 Change in capacitance (2 Hz) 2.2...9.8.7.6.5.4.3.2. (2 Hz) 2 2 8 6 4 2 8 6 4 2 ESR ( khz) 2.. Leakage current (35 V, 6 s) 2 n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 5 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE LOT. NUMBER 476X35F2 Endurance 25 C 35 V 729A6544 2 - - 2-3 - 4 Change in capacitance (2 Hz) 2.2...9.8.7.6.5.4.3.2. (2 Hz) 2 2 8 6 4 2 8 6 4 2 ESR ( khz) 2.. Leakage current (35 V, 6 s) 2 n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 6 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE LOT. NUMBER 826X25F2 Endurance 25 C 25 V 7527A6544 2 - - 2-3 - 4 Change in capacitance (2 Hz) 2.2...9.8.7.6.5.4.3.2. (2 Hz) 2 2 ESR ( khz) Leakage current (25 V, 6 s) 8 6 4 2 8 6 4 2 2.. 2 n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 7 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE TEST HUMIDITY LOT. NUMBER 6X25C6 Damp heat (steady state) 85 C 25 V 85 % 753A274 2 - - 2-3 - 4 Change in capacitance (2 Hz).2...9.8.7.6.5.4.3.2. (2 Hz) 2 ESR ( khz) Leakage current (25 V, 6 s) 8 6 4 2 8 6 4 2.. n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 8 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE TEST HUMIDITY LOT. NUMBER 86X35F8 Damp heat (steady state) 85 C 35 V 85 % 657A3254 2 - - 2-3 - 4 Change in capacitance (2 Hz).2...9.8.7.6.5.4.3.2. (2 Hz) 2 ESR ( khz) Leakage current (35 V, 6 s) 8 6 4 2 8 6 4 2.. n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 9 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE TEST HUMIDITY LOT. NUMBER 476X35F2 Damp heat (steady state) 85 C 35 V 85 % 729A6544 2 - - 2-3 - 4 Change in capacitance (2 Hz).2...9.8.7.6.5.4.3.2. (2 Hz) 2 ESR ( khz) Leakage current (35 V, 6 s) 8 6 4 2 8 6 4 2.. n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

MODEL TEST ITEM TEST TEMPERATURE APPLIED VOLTAGE TEST HUMIDITY LOT. NUMBER 826X25F2 Damp heat (steady state) 85 C 25 V 85 % 686A6724 2 - - 2-3 - 4 Change in capacitance (2 Hz).2...9.8.7.6.5.4.3.2. (2 Hz) 2 ESR ( khz) Leakage current (25 V, 6 s) 8 6 4 2 8 6 4 2.. n = 3 pieces V.P.S. test conditions: 23 C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method) Revision: 3-Aug-2 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

RECOMMENDED REFLOW PROFILE Surface of external case/terminal ( C) 3 25 2 5 5 Peak temperature Duration at 23 C or higher Duration at 22 C or higher Duration at 2 C or higher Preheating 5 C to 8 C 3 6 9 2 5 8 2 24 has different characteristics against soldering heat from conventional aluminum electrolytic capacitors or tantalum capacitors because of its unique materials and structure. Please note the following points on soldering of series to draw out the best performance. ITEM SERIES Peak temperature (max.) 25 C 26 C Preheat 5 C to 8 C 9 ± 3 s 2 C over time (max.) 6 s 6 s 22 C over time (max.) 5 s 5 s 23 C over time (max.) 4 s 4 s Reflow number Twice or less Only time Note All temperatures are measured on the topside of the Al-can and terminal surface. Attention: Reflow soldering may reduce the capacitance of products before or after soldering even if soldering conditions stipulated in Recommended Reflow Condition are met. Though the actual reflow conditions are subject to change depending on the kind of reflow soldering method, please be aware that the peak temperature at the top of Al-case and electrode terminals should not exceed peak temperature. Particular notice should be given to the time that is heated at 2 C or higher during reflow. Be aware that soldering considerably deviating from these conditions will cause problems such as a 5 % reduction in capacitance, and a considerable increase in leakage current. The leakage current value may increase (from a few μa to a few ma) even within the above conditions. When the is used in a DC circuit, the leakage current will decrease gradually through self-recovery after voltage is applied. If your reflow profile (reflow temperature, number of reflows, etc.) deviates from the above conditions for mounting the series, please consult with. Revision: 3-Aug-2 2 Document Number: 922 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9

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