V ishay I n t e rt e ch n olo g y, I n c . AND TEC I INNOVAT O L OGY VJ OMD Series N HN capacitors O 19 62-2012 Capacitors - Excellent Reliability Open-Mode Design MLCC Capacitors Key Benefits • Reduces the risk of shorts or low insulation resistance (IR) due to board-flex cracks • Available with polymer terminations for intensive board flex requirements • Features higher voltage breakdowns than standard designs with voltage ranges from 16 VDC to 3000 VDC • Provides high-frequency filtering for switching power supplies • Available with 100 % voltage condition APPLICATIONS • Buck and boost DC/DC converters • Voltage multipliers for flyback converters • High-frequency filtering in power supplies for medical, computer, motor control, and telecommunications systems Resources • Datasheet: VJ OMD Series - http://www.vishay.com/doc?45198 • For technical questions contact [email protected] • Material categorization: For definitions of compliance please see http://www.vishay.com/doc?99912 One of the World’s Largest Manufacturers of Discrete Semiconductors and Passive Components PRODUCT SHEET 1/2 VMN-PT0049-1205 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 FEATURES VJ OMD Series www.vishay.com I INNOVAT VJ OMD Series N AND TEC O L OGY capacitors O HN • Open Mode Design (OMD) reduces risk of shorts or leakage in board flex applications • Excellent reliability and thermal shock performance • Efficient low-power consumption, ripple current capable to 1.2 ARMS at 100 kHz • High voltage breakdown compared to standard design • 100 % voltage conditioning available up to 630 VDC rating (process code “5H”) Contact [email protected] for higher voltages. • Polymer termination available for intensive board flex requirements • Wet build process • Reliable Noble Metal Electrode (NME) system • Compliant to RoHS Directive 2011/65/EU • Halogen-free according to IEC 61249-2-21 definition 19 62-2012 APPLICATIONS • • • • • • Vishay Vitramon Demanding boardflex applications Input filter capacitors Output filter capacitors Snubber capacitors reduce MOSFET voltage spikes High frequency filtering for switching power supplies For lighting and other AC applications please contact: [email protected] Surface Mount Multilayer Ceramic Chip Capacitor Solutions for Boardflex Sensitive Applications Surface Mount Multilayer Ceramic Chip Capacitor Solutions for Boardflex Sensitive Applications FEATURES • Open Mode Design (OMD) reduces risk of ELECTRICAL SPECIFICATIONS shorts or leakage in board flex applications • Excellent reliability and thermal shock X7R • Efficient low-power consumption, ripple current capable to 1.2 ARMS at 100 kHz High voltage breakdown compared to GENERAL •SPECIFICATION standard design Note • 100 % voltage conditioning available up to 630 VDC rating (process code Electrical characteristics at +“5H”) 25 °C unless otherwise specified Contact [email protected] for higher voltages. Polymer termination available for intensive board flex Operating •Temperature: - 55 °C to + 125 °C requirements • Wet build process Capacitance Range: 10 pF to 47 nF • Reliable Noble Metal Electrode (NME) system • Compliant to RoHS Directive 2011/65/EU : 50 VDC according to 3000 V Voltage Range • Halogen-free toDC IEC 61249-2-21 definition Voltage Range: 16 VDC to 3000 VDC Temperature Coefficient of Capacitance (TCC): APPLICATIONS Demanding applications 0 ppm/°C ±• 30 ppm/°Cboardflex from - 55 °C to + 125 °C Temperature Coefficient of Capacitance (TCC): ± 15 % from - 55 °C to + 125 °C, with 0 VDC applied GENERAL SPECIFICATION Note Electrical characteristics at + 25 °C unless otherwise specified Operating Temperature: - 55 °C to + 125 °C Capacitance Range: 100 pF to 1.8 μF • Input filter capacitors Output filter capacitors Dissipation• Factor (DF): • Snubber capacitors reduce MOSFET voltage spikes 0.1 % maximum at 1.0 V and • High frequencyRMS filtering for switching power supplies 1 MHz for values 1000 pFother AC applications please contact: • For lighting and [email protected] 0.1 % maximum at 1.0 VRMS and ELECTRICAL SPECIFICATIONS C0G (NP0) GENERAL SPECIFICATION Dissipation Factor (DF): < 50 V ratings 3.5 % maximum at 1.0 VRMS and 1 kHz 50 V ratings 2.5 % maximum at 1.0 VRMS and 1 kHz Insulating Resistance: At + 25 °C 100 000 M min. or 1000 F whichever is less At + 125 °C 10 000 M min. or 100 F whichever is less 1 kHz for values > 1000 pF Insulating Resistance: X7R At + 25 °C 100 000 M min. or 1000 F whichever is less At + 125 °C 10 000 M min. or 100 F whichever is less GENERAL SPECIFICATION Note Aging Electrical characteristics at + 25 °C unless otherwise specified Aging Rate: 1 % maximum per decade Note Dielectric Strength Test: Performed per method 103 of EIA 198-2-E Applied test voltages 250 VDC-rated: 250 % of rated voltage 500 VDC-rated: min. 150 % of rated voltage 150 % of rated voltage 630 VDC/1000 VDC-rated: 1500 VDC to 3000 VDC-rated: 120 % of rated voltage 0 % maximum peratdecad Rate: Electrical characteristics + 25 °C eunless otherwise specified Operating Temperature: - 55 °C to + 125 °C OperatingTest: Temperature: - 55 °C to + 125 °C Dielectric Strength Performed per method 103 of : EIA 100 198-2-E pF to 1.8 μF Capacitance Range Applied test voltages Voltage Range: 16 VDC to 3000 VDC Voltage Range: 50 VDC to 3000 VDC 200 VDC-rated: 250 % of rated voltage Temperature Coefficient of Capacitance (TCC): 500 VDC-rated: Temperature Coefficient200 of Capacitance % of rated (TCC): voltage 0 ppm/°C ± 30 ppm/°C from - 55 °C to + 125 °C 630 V /1000 ± 15 %-rated: from - 55 °C to + 150 125 °C, 0 VDC voltage applied VDC % with of rated DC 1500 VDC to Dissipation 3000 VDC-rated: Dissipation Factor (DF): Factor (DF):120 % of rated voltage Capacitance Range: 10 pF to 47 nF 0.1 % maximum at 1.0 VRMS and 1 MHz for values 1000 pF 0.1 % maximum at 1.0 VRMS and 1 kHz for values > 1000 pF < 50 V ratings 3.5 % maximum at 1.0 VRMS and 1 kHz 50 V ratings 2.5 % maximum at 1.0 VRMS and 1 kHz Revision: 17-Feb-12 ORDERING INFORMATION Document Number: 45198 1 Insulating Resistance: For technical questions, At + 25 °C 100 000 M min. or 1000 F whichever is less contact: [email protected] Insulating Resistance: At + 125 °C 000 M or 100 F WITHOUT whichever less VJ1210 Y J min. X isNOTICE. A A T THIS DOCUMENT # (2) THIS474 DOCUMENT IS 10 SUBJECT TO CHANGE THE PRODUCTS DESCRIBED HEREIN AND At + 25 °C 100 000 M min. or 1000 F whichever is less ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 Aging Rate : 1 % maximum per decade At + 125 °C 10 000 CASE M min. or DIELECTRIC 100 F whichever is less CAPACITANCE CAPACITANCE TERMINATION DC MARKING PACKAGING PROCESS CODE per decade NOMINAL TOLERANCE Dielectric Strength Test: Aging Rate: 0 % maximum CODEPerformed per method 103 of EIA 198-2-E Dielectric Strength Test: Applied test voltages Performed per method 103 of EIA 198-2-E 250 VDC-rated: 250 % of rated voltage Applied test voltages 500 VDC-rated: 150 % of rated voltage 0805 A= Expressed630 inV /1000 FV = -rated: ± 1 % min.150 X = Ni barrier 200 VDC-rated: 250 % C0G of rated voltage % of rated voltage DC DC 500 VDC-rated: 200 % of rated voltage 1206 (NP0) picofarads 1500 (pF).VDC to 3000 G =V± 2% 100 tin plated 120 %% of rated voltage DC-rated: 150 % of rated voltage 630 VDC/1000 VDC-rated: 1210 Y = X7R The first two J = ± 5 % matte finish 1500 VDC to 3000 VDC-rated: 120 % of rated voltage 1808 digits are K = ± 10 % F, E = AgPd (3) B = Polymer 1812 significant, the M = ± 20 % Document Number: 45198 1 For technical questions, contact: 100 % tin plated 1825 third is [email protected] THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT matte finish 2220 multiplier. “R”AT www.vishay.com/doc?91000 C0G (NP0): ARE SUBJECT TO SPECIFIC DISCLAIMERS, SETAn FORTH N= 2225 indicates a F, G, J, K Non-magnetic decimal point. X7R: Examples J, K, M 474 = 470 000 pF Notes (1) DC voltage rating should not be exceeded in application. Other application factors may affect the MLCC performance. Consult for questions: [email protected] www.vishay.com (2) Process code with 2 digits has to be added. www.vishay.com (3) Termination code E” is for conductive epoxy assembly. Revision: 17-Feb-12 VOLTAGE RATING (1) J = 16 V X = 25 V A = 50 V B = 100 V C = 200 V P = 250 V E = 500 V L = 630 V G = 1000 V R = 1500 V F = 2000 V H = 3000 V CODE A= Unmarked C = 7" reel/paper tape T = 7" reel/plastic tape P = 11 1/4"/13" reel/ paper tape R = 11 1/4"/13" reel/ plastic tape O = 7" reel/flamed paper tape Note “I” and “O” are used for “F”, “E” termination size 0805 4X = OMD cap 5H = OMD cap 100 % voltage conditioning VJ OMD Series VJVishay OMDVitramon Series Vishay Vitramon BOARDFLEX SENSITIVE APPLICATIONS - SOLUTION: BOARDFLEX SENSITIVE APPLICATIONS - SOLUTION: A predominant failure mode in multilayer ceramic chip capacitors is cracking caused by board flexure. Cracks can then create Revision 17-Feb-12 Capacitors - Excellent Reliability C0G (NP0)performance path for current to pass one electrode through the dielectric to an opposing or from Cracks the terminations at one Aa predominant failure modefrom in multilayer ceramic chip capacitors is cracking caused electrode by board flexure. can then create of for thecurrent MLCC to through the dielectric to an opposing electrode. This may subsequently result capacitance loss, leakage aend path pass from one electrode through the dielectric to an opposing electrode orinfrom the terminations at onelow of Insulation Resistance (IR)dielectric - and/or to more seriously,electrode. high current A short circuit condition in the surface mounted end the MLCC through the an opposing Thisshorts. may subsequently result in capacitance loss, leakage capacitors canResistance cause further downstream Capacitors (VJ OMD - Cap. low Insulation (IR) failures - and/orofmore seriously,components. high currentVishay’s shorts. AOpen shortMode circuitDesign condition in the surface mounted series) reduce the risk of these destructive conditions through MLCC designs that prevent board flexure cracks reaching the capacitors can cause further failures of downstream components. Vishay’s Open Mode Design Capacitors (VJ OMD - Cap. opposing electrode. series) reduce the risk of these destructive conditions through MLCC designs that prevent board flexure cracks reaching the opposing VJ OMD -electrode. Cap. MLCCs reduce the risk of early field failures associated with board flex cracks. However, it is important to note that even in the open mode designs presence of flexure related cracks can cause capacitance loss leading to localized VJ OMD - Cap. MLCCs reduce the riskthe of early field failures associated with board flex cracks. However, it is important to note stresses the open parts.mode eventually, depending on the environment, including such factorsloss andleading high voltage pulse that even on in the designs the presence of application flexure related cracks can cause capacitance to localized frequency and thermal cycling this may lead to internal breakdown of the component. stresses on the parts. eventually, depending on the application environment, including such factors and high voltage pulse frequency and thermal cycling this may lead to internal breakdown of the component. POLYMER TERMINATION POLYMER TERMINATION Polymer termination provides additional protection against board flexure damage by absorbing greater mechanical and thermal stresses.termination Components can beadditional packaged, transported, stored and handled the same standardgreater terminated product. Wave and Polymer provides protection against board flexure damage by absorbing mechanical and thermal reflow soldering of MLCC not requiretransported, modificationstored to equipment and/or process. Polymer terminated terminationproduct. greatly reduces the stresses. Components candoes be packaged, and handled the same standard Wave and risk of soldering mechanical cracking however it does not completely eliminate.and/or process. Polymer termination greatly reduces the reflow of MLCC does not require modification to equipment risk of mechanical cracking however it does not completely eliminate. STANDARD TERMINATION STANDARD TERMINATION Exposed Electrodes = Electrical short PRODUCT SHEETExposed Electrodes = Electrical short 2/2 OMD CAP PLUS POLYMER TERMINATION OMD CAPElectrodes PLUS POLYMER No Exposed = No ElectricalTERMINATION short No Exposed Electrodes = No Electrical short VMN-PT0049-1205 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000