AXIAL COLOR CODE CAPACITOR HOW TO ORDER 03 ACC A B F 104 M 500 P 26 D E F G H C A B Nominal Body Size Code Product Type Code 03 Type ACC Axial Color Code Capacitors D E C Tolerance Nominal Capacitance First two digits are significant, a n d t h e t h i r d i s n u m b e r of zeros. For example 104=100000pF 5R6=5.6PF B 0.10pF C 0.25pF D 0.5pF F 1.0% G 2.0% J 5.0% K 10% M 20% N 30% Temperature Characteristics S +50% -20% Z +80% -20% P +100% 0 30PPm/ -55~+125 CH 0 60ppm/ -25~+85 RH -220 60PPm/ -25~+85 UJ -750 120ppm/ -25~+85 SL +140~-1000PPm/ -25~+85 10% -25~+85 15% -55~+125 +30 % - 80 -25~+85 B -0% B.C.D C 10PF B.C.D for C 10PF Y F H G F CG Lead Configuration Rated Voltage Packaging Style P First two digits are significant, Ammo 26 26mm Tape width: 52 52mm Tape width: 2 5.08mm 5.08mm pitch formed lead 3 7.5mm 7.5mm pitch formed lead 4 10mm 10mm pitch formed lead a n d t h e t h i r d i s n u m b e r of zeros. Tape &Reel T Reel For example 250=25V 500=50V 101=100V Bulk F 1 AXIAL COLOR CODE CAPACITOR Voltage VS Capacitance Temp. Char. Available Capacitance Range Rated Voltage 03 CG Capacitance Tolerance 03 25 25 0R5~272 0R5~102 50 50 0R5~222 0R5~102 100 C: 0.25pF 0R5~102 D: 0.5pF CH 50 50 1R5~102 1R5~102 J: 5% RH 50 50 1R0~180 1R0~180 K: 10% UJ 50 50 2R2~300 2R2~300 SL 50 50 1R0~680 1R0~680 25 25 101~224 101~104 K 50 50 101~104 101~104 M 20% N 30% B 101~333 100 F(Y) M: 20% 25 25 103~125 103~224 50 50 103~105 103~224 M: 20% N: 30% Z:-20%~+80% 103~104 100 10% Others can be manufactured by customers' requirement. Nominal capacitance(pF) COLOR CODE MARKING CODE 1st color zone 2nd color zone 3rd color zone 1st color zone 2nd color zone 3rd color zone 1st digit 2nd digit 3rd digit Black 0 0 X 10 0(1) Brown 1 1 X 10 1(10) Red 2 2 X 10 2(100) Orange 3 3 X 10 3(1000) Yellow 4 4 X 10 4(10000) 5 5 X 10 5(100000) 6 6 7 7 8 8 9 9 Green Blue Purple Gray White Gold Silver 150 : (1)+ (5)+ (0) E.g. If nominal capacitance is 150, the color of brown+green+black should be marked. The width of the first line should be wider than others. 2 X 10 - 1(0.1) X 10 - 2(0.01) EXTERNAL DIMENSIONS DIMENSIONS OF BULK PRODUCTS (mm) Dimensions (mm) Type D L 03 F d 0.6 3.0 Max 1.9 Max 5.08 7.5 10 0.42 0.05 20 Min 3.2 Max 2.2 Max 5.08 7.5 10 0.42 0.05 20 Min TAPING DIMENSIONS (UNIT) :mm L0 Tape Style 26 Tape width: 52 Tape width: H 26 52 Z L 1 -L 2 1.5 0.8Max 1.0Max +2.0 -1.0 1.2Max 1.0Max 0 3 AXIAL COLOR CODE CAPACITOR PACKAGING STYLE AMMO PACKAGING C 50P S/ Dimension ( Tape 5mm) Type A D B B 52 76 72 263 26 55 72 263 A C TAPE AND REEL BULK PACKAGING PACKAGING QUANTITY Tape & Reel Ammo Bulk 5000Pcs 5000Pcs 1000Pcs Packaging according to customer' s requirement 4 C D Label Feature * , , ( ) . Miniature size,large capacitance,tape and reel packaging suitable for auto-placement * , Epoxy resin coating creates excellent performance in humidity resistance,mechanical strength and heat resistance * Standard size,various lead configuration MLCC Reliability and Test Methods for General Leaded MLCC Technical Specification Item Test Method and Remarks Measuring Frequency Capacitance Class within the specified tolerance. Measuring Voltage 1000pF 1MHZ 10% 1000PF 1KHZ 10% 1.0 Capacitance (C) 0.2V The capacitor should be pretreated before measured. (only for class ). MeasuringVoltage Class CR Class 50pF 150 / CR B 7 X10-4 7.5% CR 10.0% 1uF C R Y(F) 15% Capacitance Measuring Frequency CR 100 C 100 1MHZ 10% 1000pF 1 K H Z 10% :0.3 0.1uF 1uF 0.3 10% 0.2V : F Measuring Voltage:Rated Voltage :60 Duration:60 F 5 5 5s 0.2V Measuring Voltage :1.0 0.2V Measuring Voltage: 0.2V Measuring Voltage:0.3 25 nF R.C 0.2V 1000pF Measuring Frequency:1kHz C 25nF IR 4000 M Class 1.0 :1KHZ 10% 0.1uF C 10nF IR 10000M C 10nF R.C Insulation Resistance 1KHZ 10% :1KHZ 10%; Measuring Frequency: DF 3.5% Class F(Y) 1.0 (DF) Class B DF 0.15% CR 50pF D F 1. 5 Dissipation Factor Measuring Frequency within the specified tolerance. 0.2V LEADED MLCC Item Technical Specification Test Method and Remarks Between terminals: :5 Measuring Voltage: 1 Duration:5 1s :300% Class :300% Rated voltage :250% Class :250% Rated voltage / 50mA The charge/discharge current is less than 50mA. Withstanding Voltage Between terminals and body: No breakdown or damage. :2.5UR :1~5s Voltage:2.5times rated voltage Duration:1~5s Small metallic ball method 1mm , . 2mm . Smsll metallic balls with 1mm diameters shall be put in a vessel and the be submerged except 2mm from the top of its component body and the terminals.The test voltage shall be applied between the short-circuited terminals and the metallic balls. 25% 95% Solder ability 2 Lead wire shall be at least95% covered with a new solder coating. 0.5 , , : 230 : 5 1.5~2mm, The lead wire of capacitor is dipping into a25% rosin solution of ethanol and then into molten solder of 230 5 for 2 0.5s. In both cases the depth of dipping is up to about 1.5 ~2mm from the terminal body. Item C/C 2.5%or 0.25pF 265 3 Solder temperature: 265 : 6(+1,0) s Duration: 6(+1,0) s 3 1.6mm, 1.0 mm PC . Immersed conditions : Inserted into the PC board(with=1.6mm,hole=1.0mm Class Whichever diameter) I is larger. Resistance to Soldering Heat 24 2 Recovery: For class I, 4 to 24 hours of recovery under the standard condition B 10% after test. +0 , Y( F) 20% 48 4 :150-10 Preconditioning(Class 48 Appearance: No significant abnormality ,1 , . +0 ) : 1 h o u r o f p r e c o n d i t i o n i n g a t 1 5 0-10 ,followed by 4 hours of recovery under the standard condition. : , Recovery (Class ): 48 test. 6 48 4 . 4 hours of recovery under the standard condition after Technical Specification Item Test Method and Remarks , 2Kg , 5s For axial leaded type,apply a 2.0kg tensile force progressivelyin the direction to draw terminal,this operation is done over aperiod of 5 sec. Tensile Strength , , 10N, 10 1 . For radial leaded type, fix the capacitor body,apply the forcegradually to each lead in the radial direction of the capacitoruntil reaching 10N and then applied the force for 10 Terminal Strength 1 seconds. No abnormality such as cut lead,or 0.25Kg looseness. , . 90 2 , 5s, , . Each lead wire shall be subjected to a force of 0.25Kg and then be bent Bending Strength a angle of 90 degree then returned to initial position. This operation is done over a period of 5 seconds. Then second bend in the opposite dire ction shall be made, repeat 2 times. +0 , No significant abnormality in appearance 48 : 150 -10 ,1 4 Preconditioning:As for Class Capacitance change: followed by 48 : 5% or Class B: , 48 4 . . Recovery: As for Class , 48 after test. And for Class : 4 hours of recovery under the standard condition ,1 hour of recovery under the standard condition after test. 12.5% F (Y) : , 1 0.5pF +0 dielectric,1hour ofpreconditioning at 150 -10 4 hours of recovery under the standard condition. : Class , . :5 30% Number of cycle: Dissipation Factor: 2 Temperature cycle Conditions for 1 cycle: Class : Not more than twice of initial value. ( ) Temperature ( ) Class : B: 5.0% Y F 12.5% ( Step Time X7R CG/N CR Y5V (min.) 0.1uF 1 15.0%(1uF C R 0.1uF) 17.5%(CR ) 1uF) 1000M or 50M Insulation Resistance: 2 F 2~3 Room Temp. 0 25 -3 55 3 2~3 Room Temp. 4 +3 85 0 125 30 30 Whichever is smaller. 5 Room Temp. 7 2~3 LEADED MLCC Tichnical Specification Itim Test Method and Remarks No significant abnormality in appearance. Temperature Capacitance Change: Class 3% or CG ( N ) / X7R Y5V : +3 125 0 0.3pF +3 85 0 Whichever is larger. Class B: : 1.5 12.5% F (Y) : Applied voltage 30% 1.5 times rated voltage 50mA High Temperature Loading Test Dissipation Factor: The charge/discharge current is less than 50mA. : Class Class B: 1000 :Not more than twice of initial value. : Duration +48 0 1000 +48 0 hours 5.0% F (Y): 12.5% CR Recovery Time: 0.1uF :24 15.0%(1uF C R 0.1uF) 17.5%(C R 1uF) or 25 , Class Dielectric:24 :48 Insulation Resistance: 500M 2 .F 2hours 4 Class Dielectric:48 4hours Whichever is smaller. :23 5 Solvent temperature: , . 1 No defects or abnormalities in appearance, and legible marking. Solvent Resistance , 3 , 10 . Put the sample intosolvent 1 Min,and then take it out and brush sample's notation area10 times with pledgt, repeat 3times. * : :5~35 , :45~85%, :86~106kPa *Note on standard condition: standard condition referred to herein should be defined as follows:5 to35 of temperature,45 to 75% of relative humidity,and 86 to 106kPa of atmospheric pressure. , :25 1 , : :48%~52%, :86~106kPa *When there are questions concerning measurement results: In order to provide correlation data,the test should be conducted under a condition of 25 degrees plus/minus1 centigrade of temperature, 48% through52% of relative humidity and 86 through 106kPa of atmospheric pressuure. 8