Specification of Automotive MLCC (Reference sheet) Supplier : Samsung Electro-Mechanics Samsung P/N : CL05Y105KP6VPNC Product : Multi-layer Ceramic Capacitor Description : CAP, 1 , 10V, 10%, X7S, 0402 AEC-Q200 Qualified A. Dimension Dimension Size 0402 inch L 1.000.20 mm W 0.500.20 mm T 0.500.20 mm BW 0.250.10 mm B. Samsung Part Number CL 05 105 Y K Series Samsung Multi-layer Ceramic Capacitor Size 0402 Dielectric (inch code) P 1 Capacitance 10% Thickness 10 P N V 0.500.20 mm C W :0.500.20 mm Inner electrode tolerance Rated Voltage V L : 1.000.20 mm X7S Capacitance 6 Ni Termination Metal-Epoxy Plating Sn 100% Product Automotive Special code Normal Packaging Cardboard Type, 7" Reel (Pb Free) C. Reliability Test and Judgement condition Performance Test items Test condition High Temperature Appearance : No abnormal exterior appearance Unpowered, 1,000hrs @ Max. temperature Exposure Capacitance Change Within 10 % Measurement at 242hrs after test conclusion 0.2 max. or 50 IR More than 10,000 x Whichever is smaller Temperature Cycling Appearance : No abnormal exterior appearance Capacitance Change Within 10 % 0.2 max. 1,000Cycles Initial Measurement 2* Final Measurement 3* or 50 IR More than 10,000 x Whichever is smaller Destructive Physical Initial Measurement 2* Final Measurement 3* Measurement at 242hrs after test conclusion 1 cycle condition : -55+0/-3 No Defects or abnormalities (303min) Room Temp. (1min) Per EIA 469 Analysis Humidity Bias Appearance : No abnormal exterior appearance 1,000hrs 85 Capacitance Change Within 12.5 % Add 100kohm resistor 0.2 max. IR More than 500 /85%RH, Rated Voltage and 1.3~1.5V, Initial Measurement 2* or 5 x Final Measurement 4* Whichever is smaller Measurement at 242hrs after test conclusion The charge/discharge current is less than 50mA. High Temperature Appearance : No abnormal exterior appearance 1,000hrs @ 125 Operating Life Capacitance Change Within 12.5 % Initial Measurement 2* 0.2 max. IR More than 1,000 , 150% Rated Voltage, Final Measurement 4* or 5 Whichever is smaller x Measurement at 242hrs after test conclusion The charge/discharge current is less than 50mA. Performance External Visual Test condition No abnormal exterior appearance Microscope (X10) Physical DimensionsWithin the specified dimensions Mechanical Shock Using The calipers Appearance : No abnormal exterior appearance Three shocks in each direction should be applied along Capacitance Change Within 10 % 3 mutually perpendicular axes of the test specimen (18 shocks) Initial spec. Peak value Duration Wave Velocity 1,500G 0.5ms Half sine 4.7m/sec Initial Measurement 2* Final Measurement 5* Vibration Appearance : No abnormal exterior appearance 5g's for 20min., 12cycles each of 3 orientations, Capacitance Change Within 10 % Use 8"x5" PCB 0.031" Thick 7 secure points on one long side Initial spec. and 2 secure points at corners of opposite sides. Parts mounted . within 2" from any secure point. Test from 10~2,000 Initial Measurement 2* Final Measurement 5* Resistance to Appearance : No abnormal exterior appearance Solder Heat Capacitance Change Within 10 % Initial spec. preheating : 150 for 60~120 sec. Solder pot : 2605 , 101sec. Initial Measurement 2* Final Measurement 3* ESD Appearance : No abnormal exterior appearance AEC-Q200-002 or ISO/DIS10605 Capacitance Change Within 10 % Initial Measurement 2* Initial spec. Solderability Final Measurement 4* 95% of the terminations is to be soldered a) Preheat at 155 evenly and continuously b) Steam aging for 8 hours, Immerse in solder for 5s at 2455 for 4 hours, Immerse in solder for 5s at 2455 c) Steam aging for 8 hours, Immerse in solder for 120s at 2605 solder : a solution ethanol and rosin Capacitance : Within specified tolerance Electrical *A capacitor prior to measuring the capacitance is heat treated at 0.1 max. Characterization 150 +0/-10 IR(25 ) : More than 10,000 or 50 x The Capacitance / D.F. should be measured at 25 Whichever is smaller IR(125 ) More than 1,000 or 5 1 x 10%, , 1 0.2 Vrms I.R. should be measured with a DC voltage not exceeding Whichever is smaller Board Flex for 1hour and maintained in ambient air for 242 hours Rated Voltage @25 , @125 for 60~120 sec. Dielectric Strength Dielectric Strength : 250% of the rated voltage for 1~5 seconds Appearance : No abnormal exterior appearance Bending to the limit, 3 Capacitance Change Within 10 % Initial Measurement 2* for 60 seconds 1* Final Measurement 5* Terminal Appearance : No abnormal exterior appearance 2 N, for 60 sec. Strength(SMD) Capacitance Change Within 10 % Initial Measurement 2* Beam Load Destruction value should be exceed Temperature X7S Characteristics From -55 Final Measurement 5* to 125 8N Beam speed : 0.50.05 , Capacitance change should be within 22% 1 /sec 10%, 0.1Vrms D. Recommended Soldering method : Reflow ( Reflow Peak Temperature : 260 +0/-5 , 30sec. ), Meet IPC/JEDEC J-STD-020 D Standard *1 : The figure indicates typical specification. Please refer to individual specifications. *2 : Initial measurement : Perform a heat treatment at 150 +0/-10 for one hour after soldering process. and then let sit for 242 hours at room temperature. Perform the initial measurement. *3 : Final measurement : Let sit for 242 hours at room temperature after test conclusion, then measure. *4 : Final measurement : Perform a heat treatment at 150 +0/-10 for one hour after soldering process. and then let sit for 242 hours at room temperature. Perform the initial measurement. *5 : Final measurement : Let measure within 24 hours at room temperature after test conclusion. Product specifications included in the specifications are effective as of March 1, 2013. Please be advised that they are standard product specifications for reference only. We may change, modify or discontinue the product specifications without notice at any time. So, you need to approve the product specifications before placing an order. Should you have any question regarding the product specifications, please contact our sales personnel or application engineers. The products listed in this Specification sheet are NOT designed and manufactured for any use and applications set forth below. Please note that any misuse of the products deviating from products specifications or information provided in this Spec sheet may cause serious property damages or personal injury. We will NOT be liable for any damages resulting from any misuse of the products, specifically including using the products for high reliability applications as listed below. If you have any questions regarding this 'Limitation of Use and Application', you should first contact our sales personnel or application engineers. Aerospace/Aviation equipment Medical equipment Military equipment Disaster prevention/crime prevention equipment Power plant control equipment Atomic energy-related equipment Undersea equipment Traffic signal equipment Data-processing equipment Electric heating apparatus, burning equipment Safety equipment Any other applications with the same as or similar complexity or reliability to the applications