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KGM03CS61A105MH

KGM03CS61A105MH

  • 厂商:

    AVX(艾维克斯)

  • 封装:

    0201

  • 描述:

    1 µF ±20% 10V 陶瓷电容器 X6S 0201(0603 公制)

  • 详情介绍
  • 数据手册
  • 价格&库存
KGM03CS61A105MH 数据手册
Page1/21 To : KAVX 9 Specification number:EQM08-1KC-E20YK18 Date of issue: February 15, 2023 Multilayer ceramic Chip capacitor specification Product Part No CM03, CM05, CM105, CM21, CM316 (Refer to Part No.) (Recipient stamp column) Please send back with recipient stamp or signature here. This specification would be invalidated unlesse sent back within a year after issue date of this specification. RoHSCompliant Kyocera Corporation Capacitor Division Page2/21 [Revision History(1)] No. Date 1 2 3 4 5 6 2020/11/09 NEW 2021/04/02 Addition CM105X6S476M04AT 2021/05/13 Addition CM03X6S105M10AH, CM21X6S226M10AT, CM21X6S226M06AT 2021/05/17 Addition CM05X7T475M10AH, CM21X7T226M10AT, CM316X7S225K100AT 2021/08/10 Addition CM316X5R226K16AT, CM316X5R226M16AT, CM316X5R226K10AT, CM316X5R226M10AT 2021/09/16 7 2021/09/28 8 2021/09/30 9 2022/01/17 10 2022/03/10 11 2022/05/16 12 Contents 2022/06/16 13 2022/11/01 14 2022/12/21 Addition CM05X6S106M06AH Addition CM05X5R106M10AH, CM105X5R226M06AT, CM21X5R226M16AT, CM21X5R476M06AT, CM316X7R106K25AT Addition CM05X5R475M06AHC, CM105X5R106M06ATC, CM21X5R226M06ATC Change Customer name:AVX -> KAVX Addition CM05X5R106M04AH Addition CM21X5R107M06AT , CM21X6S107M04AT Addition CM105X6S106M25AT , CM105X6S106M16AT , CM105X7T106M10AT Addition CM105X6S106K16AT Addition CM05X5R226M02AH, CM05X7R104K16AHH, CM105X5R106M16AT, CM105X5R476M02AT, CM105X7T475K06AT, CM316X7S475M100AT Addition CM03X5R105K10AH PREPD. CHKD. CHKD. APPD. Page3/21 [Revision History(2)] No. Date Contents Addition CM105X6S226M06AT, CM105X6S476M02AT, 15 2023/01/27 CM21X6S226M16AT, CM21X6S476M04AT Customer Part No Addition 16 2023/02/15 CM05X7T105K06AH-HE, CM105X5R106K16AT, CM105X7T475K10AT, CM21X7T226M06AT PREPD. CHKD. CHKD. APPD. Page4/21 [Part No(1)] Characteristic 14 X5R 3 7 8 9 13 6 13 4 16 16 13 8 7 13 11 12 11 15 2 15 16 11 13 7 8 7 10 15 3 3 15 10 X5R X6S X6S X6S X5R X5R X5R X5R X5R X5R X5R X5R X5R X6S X6S X7R X7T X7T X7S X7S X5R X5R X5R X5R X5R X5R X6S X6S X6S X6S X6S X6S X6S X6S X6S X7T X7T X7T X5R X5R X5R X5R X6S X6S X6S X6S X6S Customer Part No 0201ZD105KAT2A 02016D475MAT2A 0201ZW105MAT2A 02016W105MAT2A 02014W105MAT2A 0402YD475MAT2A 0402ZD475KAT2A 0402ZD106MAT2A 04026D475MAT2A 04026D106MAT2A 04026D206MAT2A 04026D226MAT2A 04024D106MAT2A 0402XD226MAT2A 04026W106MAT2A 04024W226MAT2A 0402YC104KAT2A 0402ZT475MAT2A 04026T105KAT2A 04024Z105MAT2A 04024Z225MAT2A 0603YD106KAT2A 0603YD106MAT2A 06036D106MAT2A 06036D226MAT2A 06036D476MAT2A 0402XD226MAT2A 06033W105KAT2A 06033W106MAT2A 0603YW475KAT2A 0603YW106KAT2A 0603YW106MAT2A 0603ZW106MAT2A 06036W226MAT2A 06034W476MAT2A 0603XW476MAT2A 0603ZT475KAT2A 0603ZT106MAT2A 06036T475KAT2A 0805YD226MAT2A 08056D226MAT2A 08056D476MAT2A 08056D107MAT2A 0805YW226MAT2A 0805ZW226MAT2A 08056W226MAT2A 08054W476MAT2A 08054W107MAT2A K/C Supplier Part No CM03X5R105K10AH CM03X5R475M06AH055 CM03X6S105M10AH CM03X6S105M06AH039 CM03X6S105M04AH039 CM05X5R475M16AH CM05X5R475K10AH CM05X5R106M10AH CM05X5R475M06AHC CM05X5R106M06AH CM05X5R206M06AH080 CM05X5R226M06AH080 CM05X5R106M04AH CM05X5R226M02AH CM05X6S106M06AH CM05X6S226M04AH080 CM05X7R104K16AHH CM05X7T475M10AH CM05X7T105K06AH-HE CM05X7S105M04AH-HE CM05X7S225M04AH065 CM105X5R106K16AT CM105X5R106M16AT CM105X5R106M06ATC CM105X5R226M06AT CM105X5R476M06AT CM105X5R476M02AT CM105X6S105K25ATH CM105X6S106M25AT CM105X6S475K16AT CM105X6S106K16AT CM105X6S106M16AT CM105X6S106M10AT CM105X6S226M06AT CM105X6S476M04AT CM105X6S476M02AT CM105X7T475K10AT CM105X7T106M10AT CM105X7T475K06AT CM21X5R226M16AT CM21X5R226M06ATC CM21X5R476M06AT CM21X5R107M06AT CM21X6S226M16AT CM21X6S226M10AT CM21X6S226M06AT CM21X6S476M04AT CM21X6S107M04AT Remarks Page5/21 [Part No(2)] Characteristic 4 16 5 5 5 5 13 4 7 X7R X7T X7T X5R X5R X5R X5R X5R X5R X7S X7S X7R X7R Customer Part No 0805YC475KAT2A 0805ZT226MAT2A 08056T226MAT2A 12063D475KAT2A 1206YD226KAT2A 1206YD226MAT2A 1206ZD106KAT2A 1206ZD226KAT2A 1206ZD226MAT2A 12061Z475MAT2A 12061Z225KAT2A 12063C475KAT2A 12063C106KAT2A K/C Supplier Part No CM21X7R475K16AT CM21X7T226M10AT CM21X7T226M06AT CM316X5R475K25ATH CM316X5R226K16AT CM316X5R226M16AT CM316X5R106K10ATH CM316X5R226K10AT CM316X5R226M10AT CM316X7S475M100AT CM316X7S225K100AT CM316X7R475K25ATH CM316X7R106K25AT Remarks Page6/21 1.Scope This specification sheet shall be applied to multilayer ceramic chip capacitors;Kyocera CM series. 2.Nomenclature CM Series  (1) (1) (2) (3) (4) (5) (6) (7) (8) : : : : : : : :  (2)  (3)  (4) A (6)  (5)  (7)  (8) Size Temperature Characteristics Capacitance Tolerance Rated Voltage External Electrode Packaging Option (Thickness or Kyocera’s Control Code) (1)External Dimensions(Size) External Dimension for Taping or Bulk P Type L W T P 03 0.60±0.09 0.60±0.09 0.30±0.09 0.30±0.09 0.30±0.09 0.50±0.05 0.13~0.23 0.13~0.23 05 1.00±0.05 1.00±0.15 1.00±0.20 1.00±0.20 0.50±0.05 0.50±0.15 0.50±0.20 0.50±0.20 0.50±0.05 0.50±0.15 0.50±0.20 0.80MAX. 0.15~0.35 0.15~0.35 0.15~0.35 0.15~0.35 1.60±0.10 1.60±0.20 2.00±0.20 0.80±0.10 0.80±0.20 1.25±0.20 0.80±0.10 0.80±0.20 1.25±0.20 0.20~0.60 0.20~0.60 0.20~0.75 3.20±0.20 3.20±0.30 1.60±0.20 1.60±0.30 1.60±0.20 1.60±0.30 0.30~0.85 0.30~0.85 T L (unit:mm) W 105 21 316 (2)Temperature Characteristics 4 Characteristics Applied voltage X5R X6S X7R X7S X7T No applied voltage No applied voltage No applied voltage No applied voltage No applied voltage Change in capacitance Within +/-15% Within +/-22% Within +/-15% Within +/-22% Within +22 / -33% Operating temperature range -55°C~+85°C -55°C~+105°C -55°C~+125°C -55°C~+125°C -55°C~+125°C Reference 25°C 25°C 25°C 25°C 25°C 13 Page7/21 (3)Capacitance Value Capacitance is indicated by three numbers and a letter (see example as follows). The first and second digits indicate the first two significant figures,and the final digit is a base 10 logarithmic multiplier in picofarads. (Ex.) Code Capacitance 105 106 107 1,000,000pF 10,000,000pF 100,000,000pF (4)Tolerance Code Tolerance K ±10% M ±20% (5)Rated Voltage 4 13 Code Voltage 02 2.5Vdc 04 4Vdc 06 6.3Vdc 10 10Vdc 16 16Vdc 25 25Vdc 100 100Vdc (6)Termination (External Electrode) A: Nickel Barrier / Tin (7)Packaging Configuration Code H T Packaging Configuration Taping(2mm Pitch. Φ180 Reel) Taping(4mm Pitch. Φ180 Reel) Applying Size Refer to Taping specification (CM03, CM05 size) Refer to Taping specification (8)Option 039 055 065 080 : 0.30±0.09mm *Apply to : 0.50±0.05mm *Apply to : 0.50±0.15mm *Apply to : 0.80mm MAX. *Apply to : Kyocera’s Control Code C -HE : Kyocera’s Control Code H : Kyocera’s Control Code CM03X6S105M06AH039 , CM03X6S105M04AH039. CM03X5R475M06AH055. CM05X7S225M04AH065. CM05X5R206M06AH080 , CM05X5R226M06AH080 , CM05X6S226M04AH080. *Apply to CM05X5R475M06AHC , CM105X5R106M06ATC , CM21X5R226M06ATC. CM316X5R106K10ATH , CM316X7R475K25ATH. 3.Operating temperature range Refer to Item 2-(2) 8 *Apply to CM05X7T105K06AH-HE 16 , CM05X7S105M04AH-HE. *Apply to CM05X7R104K16AHH 13 , CM105X6S105K25ATH , CM316X5R475K25ATH , Page8/21 4.Specifications and Test Methods (Table 1-1) Capacitance Specification X5R, X6S, X7R, X7S, X7T Within specified tolerance value tanδ Refer to (Table 3) Item Measuring Conditions High Temperature Treatment (Table 2) C≤10μF Measuring frequency 1kHz±10% Measuring voltage Refer to (Table 3) C>10μF Measuring frequency 120Hz±10% Measuring voltage Refer to (Table 3) (*1)Insulation Resistance Refer to (Table 3) Measure after charging with the rated voltage within 1 minutes at room conditions. (*1)Dielectric Strength No problem observed Applying *2.5 times of the rated voltage for 1 to 5 seconds. *2 times: CM316X7S225K100AT,CM316X7S475M100AT 4 13 Appearance No serious defect Under Microscope End Termination adherence No evidence of peeling on the end termination After soldering chip capacitors on glass epoxy boards and applying *5N(0.5Kgf) as shown by the arrow mark in the sketch peeling or any sign of peeling should not be found on end terminations. *2N:CM03 size (Refer to Fig.1) Appearance No serious defect Perform High Temperature Treatment (Table 2) , then measure the initial capacitance and tanδ. Capacitance Variation Within specified tolerance value tanδ Satisfies initial specified value Vibration frequency:10 to 55 (Hz) Swing width :1.5mm Sweep :105510 Hz/1min x,y,z axis 2 hours/each Total 6 hours Resistance to Vibration (Refer to Fig.2) Resistance to Solder Leaching Solderability Appearance No serious defect Capacitance Variation tanδ Within ±7.5% (*1)Insulation Resistance (*1)Dielectric Strength Within specified tolerance value Satisfies initial specified value Resist without problem. Coverage >= 90% Each termination end Perform High Temperature Treatment (Table 2) , then measure the initial capacitance and tanδ. After dipped molten solder, at 260±5°C for 10±0.5 seconds and kept at room conditions for 24±2 hours, measure and check the specifications. *Pre-heat before immersion 1st: 80°C to 100°C for 120sec. 2st:150°C to 200°C for 120sec. Soaking Condition 245±5°C 3±0.5sec. 235±5°C 2±0.5sec. Page9/21 (Table 1-2) Item Temperature Cycling Load Humidity Resistance High Temperature Life Test Appearance Specification X5R, X6S, X7R, X7S, X7T No serious defect Measuring Conditions Perform High Temperature Treatment (Table 2) , then measure the initial capacitance and tanδ. Capacitance Variation Refer to (Table 4) tanδ Satisfies initial specified value (*1)Insulation Resistance Refer to (Table 4) (*1)Dielectric Strength Resist without problem Appearance No serious defect Capacitance Variation Refer to (Table 4) tanδ Less than 2 times of the initial value (*1)Insulation Resistance Refer to (Table 4) After test , keep at 150+0/-10°C for 1 hour and then let sit for 24±2 hours at room temperature, then measure. Appearance No serious defect Perform High Temperature Treatment (Table 2) , then measure the initial capacitance and tanδ. Capacitance Variation Refer to (Table 4) tanδ Less than 2 times of the initial value (*1)Insulation Resistance Refer to (Table 4) Bending Strength No mechanical damage Room temperature (3 minutes) Lowest operating temperature (30 minutes) – Room temperature (3 minutes) – Highest operating temperature (30 minutes). After 5 cycles of the above, keep at 150+0/-10°C for 1 hour and then let sit for 24±2 hours at room temperature, then measure. (Refer to Fig.2) Perform High Temperature Treatment (Table 2) , then measure the initial capacitance and tanδ. Apply rated voltage for 500+12/-0 hours in pre-condition at 40±2°C, humidity 90% to 95%RH. Apply voltage (Magnification of Applied voltage × Rated voltage) for 1000+12/-0 hours in pre-condition at the highest temperature. * Magnification of Applied voltage: refer to (Table 4) After test , keep at 150+0/-10°C for 1 hour and then let sit for 24±2 hours at room temperature, then measure. Refer to Fig.3-1, Fig.3-2 The glass epoxy board is bent up 1mm in 10 sec. (*1) Insulation Resistance/Dielectric Strength;Charging or discharging current for these tests Is limited under 50mA. (Table 2) Initial Treatment High Temperature Treatment Keep chip capacitor at 150°C +0/-10°C for 1 hour,Then leave chip capacitor at room temperature and normal humidity for 24±2 hours. Page10/21 [Table3 Parts List(1)] Product Part No Tole- □:Tolerance code rance (□) 14 CM03X5R105□10AH CM03X5R475□06AH055 3 CM03X6S105□10AH Dimension [mm] L W tanδ IR [%]max (initial) min Capacitance / tanδ Measuring voltage T K:±10% 0.60±0.09 0.30±0.09 0.30±0.09 20.0% 50 MΩ•μF 1.0±0.2Vrms M:±20% 0.60±0.09 0.30±0.09 0.50±0.05 15.0% 50 MΩ•μF 0.5±0.1Vrms M:±20% 0.60±0.09 0.30±0.09 0.30±0.09 20.0% 50 MΩ•μF 1.0±0.2Vrms CM03X6S105□06AH039 M:±20% 0.60±0.09 0.30±0.09 0.30±0.09 20.0% 50 MΩ•μF 1.0±0.2Vrms CM03X6S105□04AH039 M:±20% 0.60±0.09 0.30±0.09 0.30±0.09 20.0% 50 MΩ•μF 1.0±0.2Vrms CM05X5R475□16AH M:±20% K:±10% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms CM05X5R106□06AH CM05X5R206□06AH080 M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 1.00±0.20 0.50±0.20 0.80MAX. 12.5% 50 MΩ•μF 0.5±0.1Vrms CM05X5R226□06AH080 M:±20% 1.00±0.20 0.50±0.20 0.80MAX. 12.5% 50 MΩ•μF 0.5±0.1Vrms 9 CM05X5R106□04AH M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 13 CM05X5R226□02AH M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 6 CM05X6S106□06AH M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 1.00±0.20 0.50±0.20 0.80MAX. 12.5% 50 MΩ•μF 0.5±0.1Vrms K:±10% 1.00±0.05 0.50±0.05 0.50±0.05 12.5% 500 MΩ•μF 1.0±0.2Vrms M:±20% 1.00±0.20 0.50±0.20 0.50±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms CM05X5R475□10AH 7 CM05X5R106□10AH 8 CM05X5R475□06AHC CM05X6S226□04AH080 13 CM05X7R104□16AHH 4 CM05X7T475□10AH 16 CM05X7T105□06AH-HE CM05X7S105□04AH-HE K:±10% 1.00±0.05 0.50±0.05 0.50±0.05 12.5% 50 MΩ•μF 1.0±0.2Vrms M:±20% 1.00±0.05 0.50±0.05 0.50±0.05 12.5% 50 MΩ•μF 1.0±0.2Vrms 13 CM05X7S225□04AH065 M:±20% 1.00±0.15 0.50±0.15 0.50±0.15 5.0% 50 MΩ•μF 1.0±0.2Vrms K:±10% 16 1.60±0.20 M:±20% 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms 8 CM105X5R106□16AT 7 CM105X5R106□06ATC M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms CM105X5R226□06AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 13 CM105X5R476□06AT CM105X5R476□02AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 11 CM105X6S105□25ATH CM105X6S106□25AT K:±10% 1.60±0.10 0.80±0.10 0.80±0.10 12.5% 500 MΩ•μF 1.0±0.2Vrms M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms K:±10% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms 1.60±0.20 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms CM105X6S475□16AT 11 CM105X6S106□16AT K:±10% 12 M:±20% CM105X6S106□10AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms 15 CM105X6S226□06AT 2 CM105X6S476□04AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 15 CM105X6S476□02AT 16 CM105X7T475□10AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms K:±10% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms 11 CM105X7T106□10AT 13 CM105X7T475□06AT M:±20% 1.60±0.20 0.80±0.20 0.80±0.20 15.0% 50 MΩ•μF 1.0±0.2Vrms K:±10% 1.60±0.20 0.80±0.20 0.80±0.20 12.5% 50 MΩ•μF 1.0±0.2Vrms 7 CM21X5R226□16AT 8 CM21X5R226□06ATC M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 7 CM21X5R476□06AT 10 CM21X5R107□06AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 10.0% 50 MΩ•μF 0.5±0.1Vrms M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 500 MΩ•μF 0.5±0.1Vrms 15 CM21X6S226□16AT 3 CM21X6S226□10AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 3 CM21X6S226□06AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms Page11/21 [Table3 Parts List(2)] Product Part No Tole- □:Tolerance code rance (□) Dimension [mm] L W T tanδ IR [%]max (initial) min Capacitance / tanδ Measuring voltage 15 CM21X6S476□04AT 10 CM21X6S107□04AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 10.0% 50 MΩ•μF 0.5±0.1Vrms M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 500 MΩ•μF 0.5±0.1Vrms CM21X7R475□16AT K:±10% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 500 MΩ•μF 1.0±0.2Vrms CM21X7T226□10AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms 16 CM21X7T226□06AT M:±20% 2.00±0.20 1.25±0.20 1.25±0.20 12.5% 50 MΩ•μF 0.5±0.1Vrms K:±10% 3.20±0.20 1.60±0.20 1.60±0.20 5.0% 500 MΩ•μF 1.0±0.2Vrms 3.20±0.20 1.60±0.20 1.60±0.20 12.5% 500 MΩ•μF 0.5±0.1Vrms 3.20±0.20 1.60±0.20 1.60±0.20 12.5% 500 MΩ•μF 1.0±0.2Vrms 3.20±0.20 1.60±0.20 1.60±0.20 12.5% 500 MΩ•μF 0.5±0.1Vrms 4 CM316X5R475□25ATH 5 CM316X5R226□16AT CM316X5R106□10ATH 5 CM316X5R226□10AT K:±10% M:±20% K:±10% K:±10% M:±20% 13 CM316X7S475□100AT M:±20% 3.20±0.30 1.60±0.30 1.60±0.30 5.0% 50 MΩ•μF 1.0±0.2Vrms 4 CM316X7S225□100AT K:±10% 3.20±0.20 1.60±0.20 1.60±0.20 5.0% 500 MΩ•μF 1.0±0.2Vrms CM316X7R475□25ATH K:±10% 3.20±0.20 1.60±0.20 1.60±0.20 12.5% 500 MΩ•μF 1.0±0.2Vrms CM316X7R106□25AT K:±10% 3.20±0.20 1.60±0.20 1.60±0.20 5.0% 500 MΩ•μF 1.0±0.2Vrms 7 Page12/21 [Table4 test specifications(1)] Product Part No □:Tolerance code Temperature Cycling Capacitance IR Variation (Minimum Load Humidity Resistance Capacitance IR High Temperature Life Test Capacitance Voltage IR Variation Bias [%] value) 14 CM03X5R105□10AH CM03X5R475□06AH055 3 CM03X6S105□10AH (Minimum Variation value) (Minimum value) ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM03X6S105□06AH039 ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM03X6S105□04AH039 ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM05X5R475□16AH ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM05X5R475□10AH ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF CM05X5R106□06AH CM05X5R206□06AH080 ±7.5% 50 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF ±7.5% 20 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF CM05X5R226□06AH080 ±7.5% 20 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF 9 CM05X5R106□04AH ±7.5% 50 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF 13 CM05X5R226□02AH ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 6 CM05X6S106□06AH ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 20 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF 13 CM05X7R104□16AHH 4 CM05X7T475□10AH ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF 16 CM05X7T105□06AH-HE CM05X7S105□04AH-HE ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF CM05X7S225□04AH065 ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 13 CM105X5R106□16AT 8 CM105X5R106□06ATC ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 7 CM105X5R226□06AT CM105X5R476□06AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF 13 CM105X5R476□02AT CM105X6S105□25ATH ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF 11 CM105X6S106□25AT CM105X6S475□16AT 11 CM105X6S106□16AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM105X6S106□10AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 15 CM105X6S226□06AT 2 CM105X6S476□04AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF 15 CM105X6S476□02AT 16 CM105X7T475□10AT ±7.5% 50 MΩ•μF ±12.5% 5 MΩ•μF 100% ±12.5% 5 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 11 CM105X7T106□10AT 13 CM105X7T475□06AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 7 CM21X5R226□16AT 8 CM21X5R226□06ATC 7 CM21X5R476□06AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF 10 CM21X5R107□06AT 15 CM21X6S226□16AT ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 100% ±12.5% 50 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF 3 CM21X6S226□10AT 3 CM21X6S226□06AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF 7 CM05X5R106□10AH 8 CM05X5R475□06AHC CM05X6S226□04AH080 Page13/21 [Table4 test specifications(2)] Product Part No □:Tolerance code Temperature Cycling Capacitance IR Variation (Minimum Load Humidity Resistance Capacitance IR High Temperature Life Test Capacitance Voltage IR Variation Bias [%] value) (Minimum Variation value) (Minimum value) 15 CM21X6S476□04AT 10 CM21X6S107□04AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 100% ±12.5% 50 MΩ•μF CM21X7R475□16AT ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 100% ±12.5% 50 MΩ•μF 4 CM21X7T226□10AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF 16 5 CM21X7T226□06AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 150% ±12.5% 10 MΩ•μF CM316X5R475□25ATH ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 200% ±12.5% 50 MΩ•μF CM316X5R226□16AT ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF CM316X5R106□10ATH ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF 5 CM316X5R226□10AT ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF 13 CM316X7S475□100AT ±7.5% 50 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF 4 CM316X7S225□100AT ±7.5% 500 MΩ•μF ±12.5% 10 MΩ•μF 100% ±12.5% 10 MΩ•μF CM316X7R475□25ATH ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF CM316X7R106□25AT ±7.5% 500 MΩ•μF ±12.5% 25 MΩ•μF 150% ±12.5% 50 MΩ•μF 7 Page14/21 type a a b 03 0.26 0.92 05 0.4 1.4 105 1.0 3.0 21 1.2 4.0 316 2.2 5.0 glass epoxy board b c 0.32 0.5 1.2 1.65 2.0 c Fig.1 Substrate for adhesion strength test c a b Fig.2 Substrate for temperature cycle test a 1±0.1 c Bend depth R=5.0 40 1.0 Pressure 1.6 (*) b Soldering 90 100 (Unit:mm) * 0.8 : CM03,CM05 size Fig.3-1 Substrate for bending test Fig.3-2 Testing status Page15/21 [Structure] Internal Electrodes •High Dielectric Constant Type: Ni •High Dielectric Constant Type: Cu or CuNi Ni Sn [Production facility] Kagoshima Kokubu plant Page16/21 ■For lead-free soldering Recommended temperature profile •Reflow porfile Temp.(°C) Peak temperature 250±10°C 5 to 10 sec max. Preheat 300 250 200 1 to 3°C/sec 150 170 to 180°C Cool at nomal room temperature ΔT 100 220°C max. 90sec. max. 50 0 0 (1) (2) (3) (4) 50 100 sec 90±30 150 200 250 Minimize soldering time Ensure that the temperature difference does not exceed 150 °C. MLCC can withstand the above reflow conditions up to 3 times. Cool naturally after soldering. •Flow profile Temp.(°C) Preheat 300 Peak Temperature 245 to 260 °C 250 ΔT 200 150 Cool at normal room temperature 100 50 0 0 (1) (2) (3) (4) 20 40 60 to 12060sec. 80 100 120 5 sec. max 140 160 Ensure that the chip capacitor is preheated adequately. Ensure that the temperature difference between a capacitor and the solder bath shall not exceed 150 °C. Cool naturally after soldering. Flow is not applicable for chips with size CM03, CM05. Page17/21 Taping Specification 1.Application This specification applies to paper and Plastic carrier tape of Kyocera multi-layer ceramic chip capacitor. 2.Packing unit material of carrier tape thickness (unit:mm) type 03 05 105 21 316 13 paper 0.30±0.09 0.50±0.05 0.50±0.05 0.50±0.15 0.50±0.20 0.80 MAX. 0.80±0.10        0.80±0.20 1.25±0.20 1.60±0.20 1.60±0.30  - width of carrier tape Plastic - 8mm        12mm - -     -    Φ180 reel quantity per reel 15000 10000 10000 10000 10000 10000 4000 4000 3000 2500 2000 3.Shape and dimentions (1)Reel W2 [Dimension] Φ180 reel 2.0±0.5 (Code:H,T) C 21±0.8 1.0 B Φ180 reel (Code:H,T) W1 A A B Φ180+0/-2.0 Φ60min W1 W2 10.0±1.5 16.5max Unit:mm C Φ13.0±0.5 Page18/21 (2)-1 Carrier Tape G H E J A D C B 0.8MAX: CM03size F 1.0MAX: CM05size 1.2MAX: CM105size (unit:mm) Code Tolerance Type 03 Thickness: 0.30±0.09mm Thickness: 0.50±0.05mm 05 Thickness: 0.50±0.05mm Thickness: 0.50±0.15mm Thickness: 0.50±0.20mm Thickness: 0.80mm MAX. 105 Thickness: 0.80±0.10mm Thickness: 0.80±0.20mm A (*1)±0.03 (*2)±0.1 (*3)±0.2 B (*1)±0.03 (*2)±0.1 (*3)±0.2 C D E ±0.3 ±0.05 ±0.1 0.42 0.72 8.0 3.5 1.75 0.44 0.74 8.0 3.5 0.65 1.15 8.0 0.75 1.25 0.80 G H J ±0.05 ±0.1 +0.1/-0 2.0 - 4.0 φ1.5 1.75 2.0 - 4.0 φ1.5 3.5 1.75 2.0 - 4.0 φ1.5 8.0 3.5 1.75 2.0 - 4.0 φ1.5 1.30 8.0 3.5 1.75 2.0 - 4.0 φ1.5 0.80 1.30 8.0 3.5 1.75 2.0 - 4.0 φ1.5 1.0 1.8 8.0 3.5 1.75 4.0 2.0 4.0 φ1.5 1.1 1.9 8.0 3.5 1.75 4.0 2.0 4.0 φ1.5 (*1)Apply to CM03 size (except for CM03X5R475M06AH055). (*2)Apply to CM03X5R475M06AH055 and CM05 size. (*3)Apply to CM105 size. F (*1)±0.05 (*2)±0.05 (*3)±0.1 Page19/21 (2)-2 Carrier Tape A G H 0.6max E J D C Φ0.3min B 2.8max F Code (unit:mm) J A B C D E F G H ±0.2 ±0.2 ±0.3 ±0.05 ±0.1 ±0.1 ±0.05 ±0.1 +0.1/-0 21 1.5 2.3 8.0 3.5 1.75 4.0 2.0 4.0 φ1.5 316 2.0 3.6 8.0 3.5 1.75 4.0 2.0 4.0 φ1.5 Tolerance Type Page20/21 4.Packing method (1)Details of leader and trailer The tape will have a empty pocket at the leader and trailer of carrier tape. The tape end will not be stucked by glue in order to make it easier to peel off from reel. The feeding round hole will be on the right side against t leading direction. Components Trailer Leader End 160mm min Direction of unreeling 100mm min 400mm min (2)Heat pressure tape Peeling strength to be 0.1~0.7N when peeling off the top tape by following method. When peeling top tape off, the glue will be stuck to the top tape side. Chip capacitor will not stuck on heat pressure tape and will be free in the cavity. Top tape Peeling direction 165 to 180 degrees The peel-off angle:165~180 degree against the surface of carrier tape. The peel-off speed:300mm/min. Carrier tape Direction of unreeling (3)Carrier tape Chip will not fall off from carrier tape or carrier tape will not be damaged by bending than within aradius of 25mm. The chip are inserted continuously without any empty pocket. Chip will not be mis-mounted because of too big clearance between components and cavity. Also the waste of carrier tape will not fill a nozzle hole of mouting machine. 5.Indication and packing There will be following indication on one side of the reel: “PART NUMBER”,”LOT NUMBER”, “QUANTITY”,”DATE OF MANUFACTURE”,”CUSTOMER’S NAME” There will be following indication on the reel box: “PART NUMBER”,”LOT NUMBER”, ”QUANTITY OF REEL”,”DATE OF MANUFACTURE”,”CUSTOMER’S NAME” We adequately pack the box to prevent chip capacitor from any mechanical damage during transportation. Page21/21 Precautions ■ Handling 1) Cracks may occur unless otherwise avoiding excessive stress to the capacitors by the load of an adsorption nozzle,and bending of a substrate at the time of mounting. 2) Please arrange the capacitor position where they don’t have too much stress of board bending after mounting. 3) Please design that the form and size of the land pattern has suitable solder amount. Otherwise cracks may occur. The recommended fillet height shall be 1/2 to 1/3 of the thickness of capacitors. ■ Circuit Design 1) When AC voltage is superimposed on DC voltage, the zero-to-peak voltage shall not exceed the rated voltage. When the capacitor is to be employed in a circuit in which there is continuous application of a high frequency Voltage or a steep pulse voltage, even though it is within the rated voltage, please inquire to the manufacturer. 2) Please use the capacitor below the maximum temperature. When using the capacitor in a self-heating AC circuit, please make sure the surface of the capacitor remains under the maximum temperature for usage. Also, please make certain temperature rises remain below 20 °C. ■ Resin coating Please use the resin of low curing shrinkage type. (Otherwise cracks may occur). ■ Storage 1) When the components is stored in minimal packaging (a heat-sealed or chuck-type plastic bag), the bag should be kept closed. Once the bag has been opened, reseal it or store it in a desiccator. 2) Keep storage place temperature +5 to +40 °C, humidity 20 to 70% RH. 3) The storage atmosphere must be free of gas containing sulfur and chlorine. Also, avoid exposing the product to saline moisture. If the product is exposed to such atmospheres, the terminals will oxidize and solderability will be effected. 4) Precautions 1) to 3) apply to chip capacitors packaged in carrier tapes and bulk cases. 5) The solderability is assured for 6 months from our shipping date if the above storage precautions are followed. ■ Application Restriction Please consult with us before using a capacitor in the equipment which requires a high degree reliability (medical equipment, aerospace applications, nuclear equipment.) Malfunctions in medical, space, nuclear power or other vital equipment may result in death or great social losses. Capacitors designed specially with high reliability are used for the equipment above. ■ Export regulation When the applying products relate the strategic materials which are provided in Foreign Exchange and Foreign Trade Act and Foreign Trade Management Law, the export license based on these laws are required. ■ Disposal Please dispose the capacitors according to the relating laws about the waste treatment and cleaning. Safety application guideline and detailed information of electrical properties are also provided in Kyocera home page: URL: http://www.kyocera.co.jp/electronic Notice: This specification shall guarantee only monolithic capacitors. Please make sure the performance of capacitors after mounted on the assembled product. Any failures occurred being used out of this specification shall not be quaranteed. This specification shall be applied to the products purchased through the regular sales routes, such as the sale offices, the subsidiaries and the distributors, etc.).
KGM03CS61A105MH
1. 物料型号:文档列出了多种电容器的型号,包括CM03、CM05、CM105、CM21和CM316系列。

2. 器件简介:文档描述了这些电容器属于京瓷CM系列的多层陶瓷片式电容器。

3. 引脚分配:文档中提到了电容器的尺寸和封装类型,但没有具体说明引脚分配,因为这些是表面贴装设备(SMD)。

4. 参数特性:文档详细列出了不同型号电容器的电容值、公差、额定电压、温度特性等参数。

5. 功能详解:文档提供了电容器的电气性能测试方法和条件,包括电容值、损耗角正切(tano)、绝缘电阻、耐电压、外观检查等。

6. 应用信息:文档提供了电容器的推荐应用条件,包括回流焊温度曲线、包装规格、存储条件和使用限制。

7. 封装信息:文档中包含了电容器的封装尺寸和包装方式,例如卷带包装的规格和载体胶带的尺寸。
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