FH-2011-005 COGCOH HGLGPHRHSHTHUJSL COGCOH HGLGPHRHSHTHUJSL X7RX5R Y5V Z5U X7R Y5V SUMMARY Types of Dielectric Material and Capacitor HIGH FREQUENCY TYPE: The capacitor of this kind dielectric material is considered as Classcapacitor, including high frequency COGCOH capacitor and temperature compensating capacitor such as HG, LG, PH, RH,SH, TH, UJ, SL. The electrical properties of COGCOH capacitor are the most stable one and change invariablly with temperature, voltage and time. They are suited for applications where low-losses and high-stability are required, HGLG PHRH SHTHUJSL capacitor s capacitance changes with temperature.they are suited for applications where low-losses and temperature compensating circuits. X7RX5RX7RX5R material is a kind of material has high dielectric constant. The capacitor made of this kind material is considered as Class capacitor whose capacitance is higher than that of class. These capacitors are classified as having a semi-stable temperature characteristic and used over a wide temperature range, such in these kinds of circuits, DC-blocking, decoupling, bypassing, frequency discriminating etc. Y5VThe capacitor made of this kind of material is the highest dielectric constant of all ceramic capacitors. They are used over a moderate temperature range in application where high capacitance is required because of its unstable temperature coefficient, but where moderate losses and capacitance changes can be tolerated. Its capacitance and dissipation factors are sensible to measuring conditions, such as temperature and voltage, etc. Z5UThe capacitor made of this kind of material is considered as Classcapacitor, whose temperature characteristic is between that of X7R and Y5V. The capacitance of this kind of capacitor is unstable and sensible to temperature and voltage. Ideally suited for bypassing and decoupling application circuits operating with low DC bias in the environment approaches to room temperature. 1
DIMENSIONS AND STRUCTURE DIMENSIONS L L W T WB WB Type Dimensions (mm) British expression Metric expression L W T WB 0201 0603 0.60.03 0.30.03 0.30.03 0.150.10 0402 1005 1.000.05 0.500.05 0.500.05 0.250.10 0603 1608 1.600.10 0.800.10 0.800.10 0.300.10 0805 2012 2.000.20 1.250.20 1206 3216 3.200.30 1.600.30 0.55 0.800.20 1.000.20 1.250.20 0.800.20 1.000.20 1.250.20 1.600.30 0.500.20 0.600.30 1210 3225 3.200.30 2.500.30 2.80 0.800.30 1808 4520 4.500.40 2.000.20 2.20 0.800.30 1812 4532 4.500.40 3.200.30 3.50 0.800.30 2220 5750 5.700.40 5.000.40 3.50 1.000.40 2225 5763 5.700.50 6.300.50 6.20 1.000.40 3035 7690 7.600.50 9.000.50 8.10 1.000.40 NoteWe can design according to customer special requirements T STRUCTURE W L NO Name Ceramic dielectric Inner electrode Substrate electrode Nickel Layer Tin Layer 2
HOW TO ORDER 0805 CG 101 J 500 N T NOTES DIMENSIONS unit inch/ mm 0201 0402 0603 0805 1206 1210 1808 1812 2220 2225 3035 Size Code (LW) 0.020.01 0.040.02 0.060.03 0.080.05 0.120.06 0.120.10 0.180.08 0.180.12 0.220.20 0.220.25 0.300.35 inch (LW) 0.600.30 1.000.50 1.600.80 2.001.25 3.201.60 3.202.50 4.502.00 4.503.20 5.705.00 5.706.30 7.609.00 mm. DIELECTRIC STYLE CG (Dielectric Code) CH HG LG PH RH SH TH UJ SL X B E F COG COH HG LG PH RH SH TH UJ SL X5R X7R Z5U Y5V (Dielectric) NOMINAL CAPACITANCE (Express Method) (Actual Value) 0R5 0.5 1R0 1.0 102 1010 2 224 2210 4 (unit)pf 0 R Note: the first two digits are significant; third digit denotes number of zeros; R=decimal point. CAPACITANCE TOLERANCE B C D F G J K M S Z (Code) (Tolerance) 0.10pF 0.25pF 0.5pF 1.0% 2.0% 5.0% 10% 20% BCD 10pF. +50% -20% +80% -20% NoteThese capacitance tolerance B, C, D are just applicable the capacitance that equals to or less than 10pF. 3
RATED VOLTAGE (unit)v (Express Method) (Actual Value) 0 6R3 6.3 500 5010 0 R Note: the first two digits are significant; third digit 201 2010 1 denotes number of zeros; R=decimal point. 102 1010 2 TERMINAL MATERIAL STYLES Termination Styles Silver Solderable Termination Copper Solderable Termination Nickel Barrier Termination (Express Method) S C N PACKAGE STYLES B T Bulk Bag Taping Package / Temperature Coefficient /Characteristics Dielectric Reference Temperature Point Temperature Coefficient Operation Temperature Range COG 20 C 0±30 ppm/ -55 125 COH 20 C 0±60 ppm/ -55 125 HG 20 C -33±30 ppm/ -25 85 LG 20 C -75±30 ppm/ -25 85 PH 20 C -150± 60 ppm/ -25 85 RH 20 C -220± 60 ppm/ -25 85 SH 20 C -330± 60 ppm/ -25 85 TH 20 C -470± 60 ppm/ -25 85 UJ 20 C -750± 120 ppm/ -25 85 SL 20 C -1000+140 ppm/ -25 85 X7R 20 C ±15% -55 125 X5R 20 C ±15% -55 85 Z5U 20 C -56%+22% 10 85 Y5V 20 C -80%+30% -25 85 20 C 85 C 20 C NoteNominal temperature coefficient and allowed tolerance of class are decided by the changing of the capacitance between 20 C and 85 C. Nominal temperature coefficient of class are decided by the temperature of 20 C.. 4
Capacitance Range and Operating Voltage Size Code *0201 *0402 *0603 *0805 *1206 Capacitance /unit: pf Rated Voltage COG(NPO)(PF) X7R(PF) X5R(uF) Y5V (Z5U)(PF) 6.3V 0.015 uf0.1 uf 10,000100,000 10V 10010,000 0.0068 uf0.01 uf 16V 1004,700 10,000 25V 1003,300 50V 0.5100 4V 0.1uF~4.7uF 6.3V 0.1uF~4.7uF 1,0001,000,000 10V 100100,000 0.1uF~2.2uF 1,000470,000 16V 100100,000 0.1uF~1uF 1,000220,000 25V 10047,000 0.047uF0.1uF 1,000220,000 50V 0.11,000 10022,000 0.047uF 1,00015,000 4V 1002,200,000 2.2uF10uF 6.3V 1002,200,000 2.2uF10uF 1,00010,000,000 10V 1002,200,000 2.2uF10uF 1,0002,200,000 16V 1001,000,000 1uF4.7uF 1,0002,200,000 25V 1001,000,000 1uF2.2uF 1,0001,000,000 50V 0.110,000 100100,000 1,0001,000,000 4V 10022,000,000 22uF 6.3V 10010,000,000 10uF22uF 1,00022,000,000 10V 10010,000,000 10uF22uF 1,00010,000,000 16V 1002,200,000 2.2uF10uF 1,00010,000,000 25V 1002,200,000 2.2uF 1,0004,700,000 50V 0.322,000 1001,000,000 1,0002,200,000 4V 10047,000,000 100uF 6.3V 22uF47uF 1,00047,000,000 10V 10uF22uF 16V 10010,000,000 4.7uF10uF 1,00022,000,000 25V 1004,700,000 2.2uF4.7uF 1,00010,000,000 50V 4700100,000 1002,200,000 2.2uF 1,0004,700,000 5
Capacitance Size Code Rated Voltage COGNPO X7R X5R Y5V (Z5U) 6.3V 47uF100uF 4,700100,000,000 10V 3.3uF47uF 4,70047,000,000 *1210 16V 22022,000,000 3.3uF22uF 4,70047,000,000 25V 22010,000,000 3.3uF10uF 4,70022,000,000 50V 10100,000 2204,700,000 4,70010,000,000 6.3V 2204,700,000 4.7uF100uF 4,700100,000,000 10V 2204,700,000 4.7uF47uF 4,70047,000,000 *1808 16V 2202,200,000 4.7uF47uF 4,70047,000,000 25V 2202,200,000 4,70022,000,000 50V 10100,000 2202,200,000 4,70010,000,000 6.3V 10uF100uF 10,000100,000,000 10V 10uF100uF 10,000100,000,000 *1812 16V 47033,000,000 10uF33uF 10,00047,000,000 25V 47022,000,000 22uF 10,00022,000,000 50V 10220,000 4706,800,000 10,00010,000,000 6.3V 100uF *2220 2225 10V 68uF100uF 16V 47047,000,000 10,000100,000,000 25V 47010,000,000 10,00047,000,000 50V 10120,000 47010,000,000 10,00022,000,000 6.3V 10uF100uF 10V 10uF100uF *3035 16V 47047,000,000 10uF47uF 10,000100,000,000 25V 47010,000,000 10uF22uF 10,00047,000,000 50V 1047,000 47010,000,000 10,00022,000,000 NoteWe can design according to customer special requirements. 6
Q COG Hi-Q COG MLCC : RF Hi-Q ESR CQCG Q Q 1MHz~2.4GHz CQ CG, Application: Hi-Q COG capacitors are ideally suited for RF and microwave application requiring high Q, low ESR, and high resonant frequency Note for CQ and CG: The following Q value is just confirmed by general customer. If there is a higher requirement for Q value requirements, we can design and produce according to the special requirements For the customer whose requirements for frequency is between 1MHz and 2.4GHz or higher frequency, we can design it according to their requirements The frequency of CQ is a little higher than that of CG. Please choose them according to your requirements CQ Q CQ Capacitance value and Q value Capacitance 300MHz Q Q value at 300MHz Capacitance 300MHz Q Q value at 300MHz Capacitance 300MHz Q Q value at 300MHz pf 0805 0603 pf 0805 0603 pf 0805 0603 4.7 1000 800 12 400 320 30 150 120 5.2 900 720 13 375 300 33 140 112 5.6 850 680 14 350 280 36 130 104 6.2 800 640 15 325 260 39 120 96 6.8 700 560 16 300 240 43 110 88 7.5 650 520 18 250 200 47 100 80 8.2 575 460 20 225 180 56 80 80 9.1 525 420 22 215 172 62 80 80 10 500 400 24 200 160 68 80 80 11 450 360 27 175 140 82 80 80 7
HIGH VOLTAGE MLCC / Middle & high voltage MLCC is a kind of special design special technology MLCC that bases on the technology of general MLCC. This kind of MLCC has stable high voltage reliability and suitable to SMT. Middle & high MLCC is widely applicable for many direct high voltage circuits in which it can improve the performance of the circuit. APPLICATIONS Analog & Digital Modems LAN/WAN Interface Lighting Ballast Circuits Voltage Multipliers DC-DC Converters Back-lighting Inverters /unit: pf Capacitance Size Code Rated Voltage NPO X7R Y5V *0603 0805 *1206 100V 0.51,000 15047,000 2,200100,000 200V 0.51,000 15010,000 1,00068,000 250V 0.51,000 15010,000 1,00068,000 *100V 0.54,700 150100,000 10,000100,000 *200V 0.14,700 15022,000 10,00056,000 250V 0.11,500 15022,000 10,00056,000 500V 0.1560 15012,000 --------- 630V 0.1560 15012,000 --------- 1000V 0.1100 --------- --------- 100V 0.55,600 150470,000 15,000470,000 200V 0.12,700 150120,000 10,000220,000 250V 0.12,700 150100,000 10,000220,000 500V 0.12,700 15033,000 ---------- 630V 0.11,500 15033,000 ---------- 1000V 0.11,000 15010,000 ---------- 2000V 0.1470 1502,700 ----------- 8
/unit: pf Capacitance Size Code Rated Voltage NPO X7R Y5V *1210 100V 1.06,800 1501,000,000 15,0001,000,000 200V 1.03,300 150330,000 15,000470,000 250V 1.03,300 150220,000 15,000470,000 500V 1.02,700 15068,000 ---------- 630V 1.02,000 15056,000 ---------- 1000V 1.01,000 15022,000 ----------- 2000V 1.0680 15010,000 ----------- 3000V ----------- 150680 4000V ----------- 150680 100V 2.04,700 1501,000,000 150,0001,000,000 200V 2.04,700 150220,000 10,000390,000 250V 2.04,700 150220,000 10,000390,000 500V 2.04,700 150100,000 -------- 1808 630V 2.04,700 150100,000 -------- 1000V 2.04,700 15022,000 --------- 2000V 2.02,000 15010,000 --------- 3000V 2.01,000 1504,700 --------- 4000V 2.0470 1502,200 ---------- 5000V 2.027 ----------- ---------- 100V 3.0180 22010,000 1502,200,000 *150,0002,200,000 200V 3.08,200 1501,000,000 100,000470,000 250V 3.05,600 150820,000 100,000470,000 500V 3.04,700 150220,000 ---------- 1812 630V 3.03,900 150220,000 ---------- 1000V 3.03,900 15047,000 ---------- 2000V 2.01,000 15012,000 ---------- 3000V 2.01,000 1504,700 ---------- 4000V 3.0470 1503,300 --------- 5000V 3.056 ---------- ---------- 9
Capacitance Size Code Rated Voltage NPO X7R Y5V 100V 5.027,000 1503,300,000 250,0003,300,000 200V 5.012,000 1502,200,000 *220,0002,200,000 250V 5.012,000 1501,000,000 *220,0002,200,000 500V 5.06,800 150470,000 ---------- 2220 2225 630V 5.06,800 150470,000 ---------- 1000V 5.02,700 15056,000 ---------- 2000V 5.01,000 15047,000 ---------- 3000V 5.01,000 15012,000 ---------- 4000V 5.01,000 1508,200 ---------- 5000V 5.0100 ----------- ---------- 100V 1.022,000 1501,000,000 15,0001,500,000 200V 1.010,000 1501,000,000 15,0001,000,000 250V 1.06,800 1501,000,000 ---------- 500V 1.06,800 1501,000,000 ---------- 3012 630V 1.02,700 15056,000 ---------- 1000V 1.02,700 15047,000 ----------- 2000V 1.01,000 15022,000 ----------- 3000V 1.01,000 150~10,000 4000V 1.01,000 150~10,000 100V 2.022,000 1502,200,000 10,0002,200,000 200V 2.022,000 1502,200,000 10,0002,200,000 250V 2.022,000 1502,200,000 10,0002,200,000 3035 500V 2.022,000 1501,000,000 -------- 630V ----------- 150100,000 -------- 1000V ----------- 15022,000 --------- 2000V ----------- 15022,000 --------- NoteWe can design according to customer special requirements. 10
Measurement method of dielectric withstanding voltage for high voltage MLCC Rated voltage range Measuring Method 100VVr500V 500VVr1000V 1000VVr2000V 2000VVr5000V Reliability Test Item Capacitance Technical Specification 200%, 5, 50mA Force 200%Rated voltage for 5 second. Max..current should not exceed 50 ma. 150%, 5, 50mA Force 150%Rated voltage for 5 second. Max..current should not exceed 50 ma. 120%, 5, 50mA Force 120%Rated voltage for 5 seconds. Max..current should not exceed 50 ma. 120%, 5, 10mA Force 120%Rated voltage for 5 seconds. Max..current should not exceed 10 ma. Test Method and Remarks Measuring Capacitance Measuring Voltage Should be within the Frequency Class specified tolerance. 1000pF 1MHZ10% 1.00.2Vrms 1000 pf 1KHZ10% 25 3 Test Temprature: 25 3 C10µF : 1KHZ10% : 1.00.2Vrms Test Frequency: 1KHZ10% Test Voltage: 1.00.2Vrms C10µF *X7RX5RY5V : 12024 HZ Class Should be within the :0.50.1Vrms specified tolerance. Test Frequency: 12024 HZ Test Voltage: 0.50.1Vrms Z5U :10.1KHZ :0.50.05Vrms Test Frequency: 10.1KHZ Test Voltage: 0.50.05Vrms DF Measuring Capacitance Measuring Voltage Frequency (DF, tan) 0.56% Cr5 pf 1MHZ10% Dissipation Class 1.5[(150/Cr)+7]10-4 5pFCr50 pf 1MHZ10% Factor 1.00.2Vrms 0.15% 50pFCr1000 pf 1MHZ10% 0.15% 1000 pf 1KHZ10% 11
Item (DF, tan) Dissipation Class Factor *X7R /X5R Y5V Z5U Technical Specification *25V *16V *10V *6.3V 50V Test Method and Remarks C10µF : 1KHZ10% : 1.00.2Vrms 3.5% 3.5% 3.5% 5.0% Test Frequency: 1KHZ10% C C C C Test Voltage: 1.00.2Vrms 0.47µF 0.47µF0.15µF0.15µF 2.5% 10.0% 10.0% 10.0% 10.0% *C10µF X7RX5RY5V C C C C : 12024 HZ 0.47µF 0.47µF0.15µF0.15µF :0.50.1Vrms 25V *16V *10V *6.3V Test Frequency: 12024 HZ Test Voltage: 0.50.1Vrms Z5U: 7.0% :10.1KHZ C1.0µF :0.50.05Vrms 15% 15% 15% Test Frequency: 10.1KHZ 9.0% Test Voltage: 0.50.05Vrms C1.0µF C10 nf, Ri50000M ClassC10 nf, RiC R 500S (IR) *X7R Insulation /X5R Resistance Class Y5V Z5U (DWV) Dielectric Withstanding Voltage C25 nf, Ri10000M C25 nf, RiC R 100S C25 nf, Ri4000M C25 nf, RiC R 100S No breakdown or damage. : 605 75% 25 3 50mA Measuring Voltage: Rated Voltage Duration: 605s Test Humidity: 75% Test Temprature: 25 Test Current: 50mA :300% :250% 15 / 50mA ( MLCC) Measuring Voltage: Class:300% Rated voltage Class:250% Rated voltage Duration: 15s Charge/ Discharge Current: 50mA max. (This method excludes high-voltage MLCC) 12
Item Technical Specification 95%. At least 95% of the terminal electrode is covered Solderability by new solder. Visual Appearance: No visible damage. Item C/C Resistance to Soldering Heat DF IR NPO SL NPO to SL *X7R/ X5R Y5VZ5U 0.5% 0.5PF -5~+10% -10~+20% 0.5% or 0.5PF whichever is larger Same to initial value. Same to initial value. 95% AppearanceNo visible damage.at least 95% of the terminal electrode is covered by new solder.. Resistance Appearance: No visible damage. to Flexure of Substrate (Bending Strength) C/C 13 10% Test Method and Remarks 80~120 10~30. Preheating conditions:80 to 120; 10~30s. Sn/Pb63/37 : 2355 : 20.5s : 2455 : 20.5s Solder Temperature: 2355Solder Temperature: 2455 Duration: 20.5s Duration: 20.5s 100~200 102. : 2655 : 101s 10. 242 Preheating conditions: 100 to 200 ; 102min. Solder Temperature: 2655 Duration: 101s Clean the capacitor with solvent and examine it with a 10X(min.) microscope. Recovery Time: 242h Recovery condition: Room temperature Al 2 O 3 PCB 1mm 0.5mm/sec. mm T=10 452 452 Test Board: Al 2 O 3 or PCB Warp: 1mm Speed: 0.5mm/sec. Unit: mm The measurement should be made with the board in the bending position.
Item Technical Specification Termination No visible damage. Adhesion Temperature Cycle C/C: 1% 1pF, * B,X: 10% E,F: 20% Class: 1% or 1pF, whichever is larger. *Class: B,X: 10% E,F: 20% Test Method and Remarks 5N 101S Applied Force: 5N Duration: 101S 2 1 241h 5 4 1 ( NPO/X7R: -55 Y5V:-25 Z5U:+10) 30 2 (+20) 23 3 ( NPO/X7R:+125 Y5V/Z5U: +85) 30 4 (+20) 23 242h Preheating conditions: up-category temperature, 1h Recovery time: 241h Initial Measurement Cycling Times: 5 times, 1 cycle, 4 steps: Step Temperature Time (min.) 1 NPO/X7R: -55 Low- category temp. ( Y5V:-25 Z5U:+10) 30 2 Normal temp. (+20) 23 NPO/X7R: +125 3 Up- category temp. ( Y5V/Z5U: +85) 30 4 Normal temp. (+20) 23 Recovery time after test: 242h : 2% 1pF, : B,X: 10% * C/C E,F: 30% Class: 2% or 1pF, whichever is larger. Class: B,X: 10% E,F: 30% 402 90~95%RH 500 2 DF Not more than twice of initial value. 24 ( )48 ( ) Moisture Ri2500M RiC R Resistance Temperature402 25S. Humidity90~95%RH Class: Ri2500M RiC R IR 25S whichever is smaller. Duration500h Ri1000M RiC R Recovery conditionsroom temperature 25S. Recovery Time24h (Class1) or 48h (Class2) Class: Ri1000M RiC R 25S whichever is smaller. Appearance: No visible damage. 14
Item Technical Specification Test Method and Remarks 2% 1pF B,X: 20% 100V * E,F: 30% 1.5 C/C Class: 2% or 1pF, 1000 whichever is larger. * 125NPO X7R85X5RY5V Class: B,X: 20% 50mA E,F: 30% 2 DF 24 48 Not more than twice of initial value. Low-Voltage 100V Life Test Ri4000M RiC R 40S Applied Voltage: 1.5 Rated Voltage. Duration: 1000h Class : Ri 4000M Ri C R 40S whichever is smaller. *Temperature125 NPOX7R85 IR Ri2000M RiC R 50S X5R Y5V. Charge/ Discharge Current: 50mA max. Class : Ri 2000M Ri C R 50S Recovery Conditions: Room Temperature whichever is smaller. Recovery Time: 24h (Class 1), or 48h (Class2) Visual Appearance: No visible damage. 2% 1pF 100V 500V2 B,X: 20% 500V 1000V1.5 * E,F: 30% 1000V1.2 C/C Class: 2% or 1pF, 100 whichever is larger. 50mA Class: B,X: 20% * 125 NPO X7R 85 X5RY5V E,F: 30% 2 DF 24 48 Middle Not more than twice of initial value. Applied Voltage: &high Ri4000M RiC R 40S 100VRated Voltage500V2 Multiple voltage. 500VRated Voltage1000V1.5 Multiple Life Test Class : Ri 4000M Ri C R 40S whichever is smaller. 1000V Rated Voltage1.2 Multiple IR Ri2000M RiC R 50S Duration: 100h. Charge/ Discharge Current: 50mA max. Class : Ri 2000M Ri C R 50S *Temperature 125NPO X7R 85X5R whichever is smaller. Y5V Recovery Conditions: Room Temperature Visual Appearance: No visible damage. Recovery Time: 24h (Class 1), or 48h (Class2) 2 1h 24 1h NotePretreatment (only for class2 capacitor) Pretreatment (only for class2 capacitor) is a method to treat the capacitor before measurement. First, place the capacitor in the up-category temperature or other specified higher temperature environment for 1hour. Then recovery the capacitor at standard pressure conditions for 241hours 15
PACKAGE PAPER TAPING Top cover tape Carrier tape(paper) Chip hole(pocket) Polystyrene reel Bottom tape 0402 Dimensions of paper taping for 0402 type W1 L1 D C B P1 P2 P0 d t Code 0201 0.37± 0.10 0.67± 0.10 8.00± 0.10 3.50± 0.05 1.75± 0.10 2.00± 0.05 2.00± 0.05 ± 0.10 1.50-0/+0.10 0.65± 1.15± 8.00± 3.50± 1.75± 2.00± 2.00± ± 1.50 0402 0.10 0.10 0.10 0.05 0.10 0.05 0.05 0.10-0/+0.10 060308051206 Dimensions of paper taping for 060308051206 types. 0.80 Below 0.80 Below 16
Feeding hole J Chip pocket A E D C T Chip cap Tape running direction Code paper size 0603 0805 1206 Unitmm A B C D E F G H J T 1.10 1.45 ± 0.15 1.80 ± 0.20 1.90 2.30 ± 0.15 3.40 ± 0.20 8.00 8.0 ± 0.15 8.00 ± 0.20 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 1.75 1.75 1.75 2.00 2.00 2.00 Note: The place with * means where needs exactly dimensions. 1.50-0/+0.10 1.50-0/+0.10 1.50-0/+0.10 1.10 Max 1.10 Max 1.10 Max EMBOSSED TAPING Top cover tape Carrier tape(paper) Chip hole(pocket) Polystyrene reel ( 0805~1812 ) Dimensions of embossed taping for 0805~1812 type 17
Feeding hole J Chip pocket A B E D C T Chip cap H G F Tape running direction Code Tape size 0805 1206 1210 1808 A B C D* E F G* H J T 1.55 ± 0.20 1.95 ± 0.20 2.70 2.20 2.35 ± 0.20 3.60 ± 0.20 3.42 4.95 8.00 ± 0.20 8.00 ± 0.20 8.00 12.00 3.50 ± 0.05 3.50 ± 0.05 3.50 ± 0.05 5.50 ± 0.05 1.75 1.75 1.75 1.75 2.00 2.00 2.00 ± 0.05 2.00 ± 0.05 ± 0.1 3.66 4.95 12.00 5.50 1.75 8.00 2.00 1812 ± 0.05 ± 0.05 * NoteThe place with * means where needs exactly dimensions. 1.50-0/+0.10 1.50-0/+0.10 1.55-0/+0.10 1.50-0/+0.10 1.55-0/+0.10 1.50 Max 1.85 Max 3.2 Max 3.0 Max 4.0 Max Structure of leader part and end part of the carrier paper End (Vacant position) Chip carrier Vacant position Leader part(cover) tape) 200 mm 200 mm over 200mm over 200mm 18 200 mm /Over 200 mm / Moving Direction
Reel Dimensions (unit: mm) CODE A B C D E F G 7 REEL 1782.0 3.0 130.5 210.8 50 10.01.5 50 or more 12max 13REEL 3302.0 3.0 130.5 210.8 50 10.01.5 50 or more 12max Taping specification Top tape peeling strength (a)paper Taping Cover tape peeling direction Cover tape 0~15 Carrier tape (b) Embossed Taping Cover tape peeling direction Cover tape 015 Carrier tape 0.1N< <0.7N Standard: 0.1N < peeling strength < 0.7N, No paper dirty remains on the scotch when peeling, and sticks to top and bottom tape. 19
Bulk Case Package unit:mm Symbol A B T C D E Dimension 6.800.10 8.801.00 12.000.10 15.00+0.10/-0 2.00+0/-0.10 4.700.10 Symbol F W G H L I Dimension 31.50+0.20/-0 36.00+0/-0.20 19.000.35 7.000.35 110.000.70 5.000.35 Packing Quantity (SIZE) ( PACKAGE STYLE & QUANTITY) unit: pcs PT ET BC BP 0201 *15000 ------ 20000 5000 0402 10000 ------ 20000 5000 0603 4000 ------ 15000 5000 0805 4000 3000 10000 5000 1206 4000 1210 ------- T1.35mm 3000 T1.35mm 2000 T1.80mm 2000 T1.80mm 1000 5000 5000 ------- 2000 1410 ------- 2000 ------- ------- 1808 ------- 2000 ------- 2000 1812 -------- 18252220 T1.85mm 1000 T1.85mm 500 ------- 2000 20252225 -------- 500 ------- 500 3035 NoteWe can choose packing style and quantity can be according to the customer s requirement. 20
Outer packing The first package Quantity: 5 reels (Max 25000pcs) 5 25000pcs The second package Quantity: 12 cases (Max 300000pcs) 12 300000pcs 65mm 185mm 200mm 197mm label 385mm 425mm Label PART No QUANTITY : DATE Storage Methods 6 ( ) The guaranteed period for solderability is 6 months (Under deliver package condition). /Storage conditions /Temperature 5~40 Production name Quantity Weight /Relative Humidity 20~70% Precautions For Use (MLCC),,,,,. The Multi-layer Ceramic Capacitors (MLCC) may fail in a short circuit modern in an open circuit mode when subjected to severe conditions of electrical environment and / or mechanical stress beyond the specified rating and specified conditions in the specification, which will result in burn out, flaming or glowing in the worst case. Following precautions for safety and Application Notes shall be taken in your major consideration. If you have a question about the precautions for handling, please contact our engineering section or factory. 1. Soldering Profile,.( ) To avoid the crack problem by sudden temperature change, follow the temperature profile in the adjacent graph (refer to the graph in the enclosure page). 21
2. Manual Soldering,,,,.,. Manual soldering can pose a great risk of creating thermal cracks in capacitors. The hot soldering iron tip comes into direct contact with the end terminations, and operator s careless may cause the tip of the soldering iron to come into direct contact with the ceramic body of the capacitor. Therefore the soldering iron must be handled carefully, and pay much attention to the selection of the soldering iron tip and temperature contact of the tip. 3. Too much solder Cracks tend to occur due to large stress. Not enough solder, Weak holding force may cause bad connection between the capacitor and PCB. Recommended Soldering Method Size Temperature Characteristics RatedVoltage Capacitance Soldering Method NPO / R 0201 *X7R/X5R / R Y5V / R NPO / R 0402 *X7R/X5R / R Y5V / R NPO / R/W C1uf R *X7R/X5R / 0603 C1uf R/W 0805 Y5V / C1uf C1uf R R/W NPO / / R/W *X7R/X5R / Y5V / C4.7uf C4.7uf C1uf C1uf R R/W R R/W 22
Size Temperature Characteristics RatedVoltage Capacitance Soldering Method NPO / / R/W 1206 *X7R/X5R / C10uf C10uf R R/W Y5V / C10uf C10uf R R/W NPO / / R 1210 *X7R/X5R / / R Y5V / / R Soldering methodr Reflow Solering W Wave Soldering The temperature profile for soldering Re-flow soldering 1210 Temperature Peak Temperature () 300 Preheating 250 230 200 150 100 50 10S Over 1 minute Over 1 minute Gradual cooling Pb-Sn 230 250 240 260 23
Wave soldering Temperature () 300 250 200 150 100 50 Preheating Peak Temperature 230 ~260 Over 1 minute 3s max. Gradual cooling Pb-Sn 230 260 240 270 T150 Hand soldering Temperature () 300 250 200 150 100 50 Preheating Peak Temperature Over 1 minute 3s max. Gradual cooling 130 300 20W 1mm 5s 1/2..