CL10B223KA85PNC

General Multilayer Ceramic Capacitors MLCC is an electronic part that temporarily stores an electrical charge and the most prevalent type of capacitor today. New technologies have enabled the MLCC manufacturers to follow the trend dictated by smaller and smaller electronic devices such as Cellular telephones, Computers, DSC, DVC General Features - Miniature Size - Wide Capacitance and Voltage Range - Tape & Reel for Surface Mount Assembly - Low ESR Applications - General Electronic Circuit Part Numbering 10 2 ● B 3 ● 104 4 ● K 5 ● B 6 ● 8 7 ● N 8 ● N 9 ● N 10 ● C 11 ● 1 Samsung Multilayer Ceramic Capacitor ● 7 Thickness Option ● 2 Size(mm) ● 3 Capacitance Temperature Characteristic ● 8 Product & Plating Method ● 9 Samsung Control Code ● 4 Nominal Capacitance ● 5 Capacitance Tolerance ● 6 Rated Voltage ● 108Reserved For Future Use ● 118Packaging Type ● 1 Samsung Multilayer Ceramic Capacitor ● 2 SIZE(mm) ● Code EIA CODE Size(mm) 03 0201 0.6 × 0.3 05 0402 1.0 × 0.5 10 0603 1.6 × 0.8 21 0805 2.0 × 1.25 31 1206 3.2 × 1.6 32 1210 3.2 × 2.5 43 1812 4.5 × 3.2 55 2220 5.7 × 5.0 General Capacitors CL 1 ● 3 CAPACITANCE TEMPERATURE CHARACTERISTIC ● Code Temperature Temperature Characteristics Range C COG C△ 0±30(ppm/ ℃) P P2H P△ -150±60 R R2H R△ -220±60 S2H S△ -330±60 T T2H T△ -470±60 U U2J U△ -750±60 L S2L S△ +350 ~ -1000 A X5R X5R ±15% -55 ~ +85℃ X7R X7R ±15% -55 ~ +125℃ X X6S X6S ±22% -55 ~ +105℃ F Y5V Y5V +22 ~ -82% -30 ~ +85℃ Class Ⅰ S B Class Ⅱ -55 ~ +125℃ Temperature Characteristics Below 2.0pF 2.2 ~ 3.9pF Above 4.0pF Above 10pF CΔ C0G C0G C0G C0G PΔ - P2J P2H P2H RΔ - R2J R2H R2H SΔ - S2J S2H S2H TΔ - T2J T2H T2H UΔ - U2J U2J U2J J : ±120PPM/℃, H : ±60PPM/℃, G : ±30PPM/℃ 4 NOMINAL CAPACITANCE ● Nominal capacitance is identified by 3 digits. The first and second digits identify the first and second significant figures of the capacitance. The third digit identifies the multiplier. 'R' identifies a decimal point. ● Example Code Nominal Capacitance 1R5 1.5pF 103 10,000pF, 10nF, 0.01μF 104 100,000pF, 100nF, 0.1μF General Capacitors ※ Temperature Characteristic 5 CAPACITANCE TOLERANCE ● Code Tolerance A ±0.05pF B ±0.1pF C ±0.25pF D ±0.5pF F ±1pF F ±1% G ±2% J ±5% K ±10% M ±20% Z +80, -20% Nominal Capacitance Less than 10pF (Including 10pF) More than 10pF Code Rated Voltage Code Rated Voltage R 4.0V D 200V Q 6.3V E 250V P 10V G 500V O 16V H 630V A 25V I 1,000V L 35V J 2,000V B 50V K 3,000V C 100V General Capacitors 6 RATED VOLTAGE ● 7 THICKNESS OPTION ● Size Code Thickness(T) 0201(0603) 3 0402(1005) 0603(1608) 0805(2012) 1206(3216) Code Thickness(T) 0.30±0.03 F 1.25±0.20 5 0.50±0.05 H 1.6±0.20 8 0.80±0.10 I 2.0±0.20 A 0.65±0.10 J 2.5±0.20 C 0.85±0.10 L 3.2±0.30 F 1.25±0.10 F 1.25±0.20 Q 1.25±0.15 H 1.6±0.20 Y 1.25±0.20 I 2.0±0.20 C 0.85±0.15 J 2.5±0.20 F 1.25±0.15 L 3.2±0.30 H 1.6±0.20 F 1.25±0.20 H 1.6±0.20 I 2.0±0.20 J 2.5±0.20 V 2.5±0.30 1812(4532) 2220(5750) General Capacitors 1210(3225) Size 8 PRODUCT & PLATING METHOD ● Code Electrode Termination Plating Type A Pd Ag Sn_100% N Ni Cu Sn_100% G Cu Cu Sn_100% 9 SAMSUNG CONTROL CODE ● Code Description of the code Code Description of the code A Array (2-element) N Normal B Array (4-element) P C High - Q L Automotive LICC 10 RESERVED FOR FUTURE USE ● 6 Code Description of the code N Reserved for future use 11 PACKAGING TYPE ● Code Packaging Type Code Packaging Type B Bulk F Embossing 13" (10,000EA) P Bulk Case L Paper 13" (15,000EA) C Paper 7" O Paper 10" D Paper 13" (10,000EA) S Embossing 10" E Embossing 7" General Capacitors APPEARANCE AND DIMENSION L T W BW CODE DIMENSION ( mm ) EIA CODE L W T (MAX) BW 03 0201 0.6 ± 0.03 0.3 ± 0.03 0.33 0.15 ± 0.05 05 0402 1.0 ± 0.05 0.5 ± 0.05 0.55 10 0603 1.6 ± 0.1 0.8 ± 0.1 0.9 21 0805 2.0 ± 0.1 1.25 ± 0.1 1.35 0.5 +0.2/-0.3 1206 1.40 0.5 +0.2/-0.3 31 0.5 +0.3/-0.3 32 1210 43 55 0.2 +0.15/-0.1 0.3 ± 0.2 3.2 ± 0.15 1.6 ± 0.15 3.2 ± 0.2 1.6 ± 0.2 1.8 3.2 ± 0.3 2.5 ± 0.2 2.7 3.2 ± 0.4 2.5 ± 0.3 2.8 1812 4.5 ± 0.4 3.2 ± 0.3 3.5 0.8 ± 0.3 2220 5.7 ± 0.4 5.0 ± 0.4 3.5 1.0 ± 0.3 0.6 ± 0.3 RELIABILTY TEST CONDITION NO ITEM 1 App earance PERFORMA NCE TEST CONDIT ION No Abnormal Exterior Appeara nce Thro ugh Micr osco pe(×10) 1 0,0 00㏁ or 500㏁·㎌ which ever is sma ller Insu lation 2 Resistance Apply the Ra ted Voltage Fo r 6 0 ~ 120 Sec. Ra ted Voltage is b elo w 16V ; 1 0,0 00㏁ or 100㏁·㎌ which ever is sma ller 3 W ithstanding Voltage Ⅰ w ith less than 5 0㎃ current W ith in the spe cified tolerance nce Ⅱ Q Class Ca pacita nce Frequency ≤ 1,000㎊ 1㎒ ±1 0% >1,000㎊ 1㎑ ±1 0% Ca pacita nce Frequency Voltage 0.5 ~ 5 Vrms Capacita Class 5 C lassⅡ :2 50% of the R ated Voltage for 1~5 sec . is applied Mechanical Breakd own Class 4 C lassⅠ : 300 % of the R ated Voltage for 1~ 5 sec. No Diele ctric Breakdo wn or W ithin the specified to lerance Ca pacita nce ≥ 3 0㎊ : Q ≥ 1,000 Ⅰ ≤ 10㎌ 1㎑ ±1 0% 1.0± 0 .2Vrms >10㎌ 120㎐± 20% 0.5± 0 .1Vrms Ca pacita nce Frequency < 30㎊ : Q ≥ 400 +20C ≤ 1,000㎊ 1㎒ ±1 0% ( C : Capacitance ) >1,000㎊ 1㎑ ±1 0% Ca pacita nce Frequency 1. Characteristic : A(X5R), B(X7R), X(X6S) ≥ 25V 0.025 max 16V 0.035 max 10V 0.05 max 6.3V 0.05 max/ 0.10max*1 Voltage 0.5 ~ 5 Vrms Voltage ≤ 10㎌ 1㎑ ±1 0% 1.0± 0 .2Vrms >10㎌ 120㎐± 20% 0.5± 0 .1Vrms *1. 0201 C≥ 0.022uF, 0402 C ≥0.22uF, 0603 C ≥2.2uF, 0805 C ≥4.7 uF, 1206 C≥10uF, 1210 C≥ 22uF, 1812 C ≥47uF, 22 20 C≥100 uF, 2. Characteristic : F(Y5V) 6 Ta nδ Class R ated Voltage Spec Ⅱ 50V 0.05 max, 0.07max* 2 35V 0.07 max 25V 0.05 max/ 0.07 max*3 / 0.09max*4 16V 0.09 max/ 0.125max* 5 10V 0.125 max/ 0.16max* 6 6.3V 0.16max All Low Profile Cap acito rs (P.16). *2.. 0603 C≥0.47uF, 0 805 C≥1u F *3. 0402 C≥ 0.0 33uF, 06 03 C>0 .1uF All 0805, 1206 size, 121 0 C ≤ 6.8uF *4.. 1210 C>6.8u F *5.. 0402 C≥0.22u F *6.. All 1812 size General Capacitors Spec R ated Voltage Voltage RELIABILTY TEST CONDITION NO ITEM PERFORMANCE TEST CONDITION Capacitance shall be measured by the steps Characteristics Temp. Coefficient (PPM/℃) Ⅰ Step 0 ± 30 1 PH -150 ± 60 2 RH -220 ± 60 SH -330 ± 60 TH -470 ± 60 C0G Class shown in the following table. UL -750 ± 120 SL +350 ~ -1000 Temp.(℃) 25 ± 2 Min. operating temp. ± 2 25 ± 2 3 Max. operating temp ± 2 4 25 ± 2 5 (1) Class Ⅰ Temperature Coefficient shall be calculated from Temperature 7 the formula as below. Characteristics C2 - C1 Temp, Coefficient = of Capacitance × 106 [ppm/℃] C1×△T C1; Capacitance at step 3 Class Capacitance Change with No Bias A(X5R)/ B(X7R) ±15% X(X6S) ±22% F(Y5V) +22% ~ -82% C2: Capacitance at 85℃ △T: 60℃(=85℃-25℃) (2) CLASS Ⅱ Capacitance Change shall be calculated from the formula as below. △C = C2 - C1 × 100(%) C1 C1; Capacitance at step 3 C2: Capacitance at step 2 or 4 Apply 500g.f * Pressure for 10± 1 sec. * 200g.f for 0201 case size. 8 Adhesive Strength of Termination No Indication Of Peeling Shall Occur On The Terminal Electrode. 500g.f Bending limit ; 1mm Apperance No mechanical damage shall occur. Characteristics Capacitance Change Test speed ; 1.0mm/SEC. Keep the test board at the limit point in 5 sec., Then measure capacitance. Within ±5% or ± 0. Class I 5 pF whichever is 20 R=230 larger 9 Bending 50 Strength A(X5R)/ Capacitance B(X7R)/ Within ±12.5% X(X6S) ○ ○ 45± 1 Class II F(Y5V) Within ±30% Bending limit 45±1 General Capacitors Ⅱ Characteristics RELIABILTY TEST CONDITION NO ITEM PERFORMANCE More Than 75% of the terminal surface is to be soldered newly, So metal part does not come out or dissolve 10 TEST CONDITION Solder Solder Temp. Solder ability Sn-3Ag-0.5Cu 63Sn-37Pb 245±5℃ 235±5℃ Flux Dip Time Pre-heating Apperance No mechanical damage shall occur. Characteristics Capacitance Change Within ±2.5% or Class Ⅰ ±0.25㎊ whichever is RMA Type 3±0.3 sec. 5±0.5 sec. at 80~120℃ for 10~30 sec. Solder Temperature : 270±5℃ Dip Time : 10±1 sec. Each termination shall be fully immersed and preheated as below : larger Capacitance A(X5R)/ Class Ⅱ 11 Q 80~100 60 X(X6S) Within ±15% 150~180 60 F Within ±20% Leave the capacitor in ambient condition for : Q≥ 1000 specified time* before measurement : Q≥ 400+20×C * 24 ± 2 hours (Class Ⅰ)