DK11XEA100K86RAH01

Reference Specification Safety Standard Certified Resin Molding SMD Type Ceramic Capacitors for Consumer Electronics & Industrial Equipment /Type EA Product specifications in this catalog are as of Nov. 2023, and are subject to change or obsolescence without notice. Please consult the approval sheet before ordering.Please read rating and Cautions first. ＜Reference＞Please kindly use our website. Please refer to the product information page for more information on ceramic capacitors.→ Ceramic capacitor product information Various data can be obtained directly from the product search.→ Product search (SMD) → Product search (Lead Type) Reference only CAUTION 1. OPERATING VOLTAGE 1. Do not apply a voltage to a safety standard certified product that exceeds the rated voltage as called out in the specifications. Applied voltage between the terminals of a safety standard certified product shall be less than or equal to the rated voltage (+10 %). When a safety standard certified product is used as a DC voltage product, the AC rated voltage value becomes the DC rated voltage value. (Example:AC250 V (r.m.s.) rated product can be used as DC250 V (+10 %) rated product.) If both AC rated voltage and DC rated voltage are specified, apply the voltage lower than the respective rated voltage. 1-1. When a safety standard certified product is used in a circuit connected to a commercial power supply, ensure that the applied commercial power supply voltage including fluctuation should be less than 10 % above its rated voltage. 1-2. When using a safety standard certified product as a DC rated product in circuits other than those connected to a commercial power supply. When AC voltage is superimposed on DC voltage, the zero-to-peak voltage shall not exceed the rated DC voltage. When AC voltage or pulse voltage is applied, the peak-to-peak voltage shall not exceed the rated DC voltage. Typical Voltage Applied to the DC Capacitor (E: Maximum possible applied voltage.) 2. Abnormal voltages (surge voltage, static electricity, pulse voltage, etc.) shall not exceed the rated DC voltage. 2. OPERATING TEMPERATURE AND SELF-GENERATED HEAT Keep the surface temperature of a capacitor below the upper limit of its rated operating temperature range. Be sure to take into account the heat generated by the capacitor itself. When the capacitor is used in a high-frequency current, pulse current or the like, it may have the selfgenerated heat due to dielectric-loss. Applied voltage should be the load such as self-generated heat　is within 20 ℃ on the condition of atmosphere temperature 25 ℃. When measuring, use a　thermocouple of small thermal capacity-K of Φ0.1 mm and be in the condition where capacitor is not affected by radiant heat of other components and wind of surroundings. Excessive heat may lead to deterioration of the capacitor’s characteristics and reliability. (Never attempt to perform measurement with the cooling fan running. Otherwise, accurate measurement cannot be ensured.) 　　3.3.TEST TESTCONDITION CONDITIONFOR FORWITHSTANDING WITHSTANDINGVOLTAGE VOLTAGE 1. TEST EQUIPMENT Test equipment for AC withstanding voltage should be used with the performance of the wave similar to 50/60 Hz sine wave. If the distorted sine wave or over load exceeding the specified voltage value is applied, the defective may be caused. EGD30C 1/14 Reference only 2. VOLTAGE APPLIED METHOD When the withstanding voltage is applied, capacitor’s lead or terminal should be firmly connected to the out-put of the withstanding voltage test equipment, and then the voltage should be raised from near zero to the test voltage. If the test voltage without the raise from near zero voltage would be applied directly to capacitor, test voltage should be applied with the *zero cross. At the end of the test time, the test voltage should be reduced to near zero, and then capacitor’s lead or terminal should be taken off the out-put of the withstanding voltage test equipment. voltage sine wave If the test voltage without the raise from near zero voltage would be applied directly to capacitor, the surge voltage may arise, 0V and therefore, the defective may be caused. zero cross *ZERO CROSS is the point where voltage sine wave pass 0 V. - See the right figure 4. FAIL-SAFE When capacitor would be broken, failure may result in a short circuit. Be sure to provide an appropriate fail-safe function like a fuse on your product if failure would follow an electric shock, fire or fume. 5. VIBRATION AND IMPACT Do not expose a capacitor or its leads to excessive shock or vibration during use. 6. SOLDERING When soldering this product to a PCB/PWB, do not exceed the solder heat resistance specification of the capacitor. Subjecting this product to excessive heating could melt the internal junction solder and may result in thermal shocks that can crack the ceramic element. When soldering capacitor with a soldering iron, it should be performed in following conditions. 6-1. Reflow Soldering Soldering temperature : 230 to 260 ℃ Soldering time : 10 to 30 s Preheating temperature : 170 ℃ max. [Standard Conditions for Reflow Soldering] Temperature （℃） 6-2. Flow Soldering Soldering temperature : 260 ℃ max. Soldering time : 5 s max. Preheating temperature : 120 ℃ max. Preheating time : 60 s max. Soldering 260 ℃ 230 170 150 130 Gradual Cooling ℃ ℃ ℃ ℃ Preheating Time 6-3. Soldering Iron Temperature of iron-tip : 400 ℃ max. Soldering iron wattage : 50 W max. Soldering time : 3.5 s max. 60 - 120 s EGD30C 2/14 10 - 30 s Reference only 7. BONDING, RESIN MOLDING AND COATING Before bonding, molding or coating this product, verify that these processes do not affect the quality of capacitor by testing the performance of the bonded, molded or coated product in the intended equipment. In case of the amount of applications, dryness / hardening conditions of adhesives and molding resins containing organic solvents (ethyl acetate, methyl ethyl ketone, toluene, etc.) are unsuitable, the outer coating resin of a capacitor is damaged by the organic solvents and it may result, worst case, in a short circuit. The variation in thickness of adhesive, molding resin or coating may cause a outer coating resin cracking and/or ceramic element cracking of a capacitor in a temperature cycling. 8. OPERATING AND STORAGE ENVIRONMENT The molding resin of the molding type ceramic capacitor does not form a perfect seal, avoid corrosive gas (e.g., hydrogen sulfide, sulfur dioxide, chlorine, ammonia gas etc.) and direct sunlight, and use (storage) in the condition without moisture condensation. When washing, bonding or molding this product, make sure that there is no effect on the quality in your product. This one is MSL 3 product. So, in order to avoid the absorption of moisture, capacitors are packed in moisture-proof package. Under the following humidity and temperature conditions, the warranty period for unopened moisture-proof package is 2 years after the moisture-proof package is enclosed. Solder the enclosed capacitors within 168 h after opening the moisture-proof package. Also, even after opening, store it in the packing condition at the time of delivery or in a similar state. Temperature : 10 to 30 ℃ Humidity : 60 % max. If it has been more than 1 week since opening, or if the 10 % display of the HIC (humidity indicator card) is pink, perform baking (60 °C, 168 h) before mounting. In addition, if it exceeds 12 months, check the solderability before use. EGD30C 3/14 Reference only 9. LIMITATION OF APPLICATIONS The products listed in the specification(hereinafter the product(s) is called as the “Product(s)”) are designed and manufactured for applications specified in the specification. (hereinafter called as the “Specific Application”) We shall not warrant anything　in connection with the Products including fitness, performance, adequateness, safety, or quality, in the case of applications listed in from (1) to (11) written at the end of this precautions, which may generally require high performance, function, quality, management of production or safety. Therefore, the Product shall be applied in compliance with the specific application. WE DISCLAIM ANY LOSS AND DAMAGES ARISING FROM OR IN CONNECTION WITH THE PRODUCTS INCLUDING BUT NOT LIMITED TO THE CASE SUCH LOSS AND DAMAGES CAUSED BY THE UNEXPECTED ACCIDENT, IN EVENT THAT (i) THE PRODUCT IS APPLIED FOR THE PURPOSE WHICH IS NOT SPECIFIED AS THE SPECIFIC APPLICATION FOR THE PRODUCT, AND/OR (ii) THE PRODUCT IS APPLIED FOR ANY FOLLOWING APPLICATION PURPOSES FROM (1) TO (11) (EXCEPT THAT SUCH APPLICATION PURPOSE IS UNAMBIGUOUSLY SPECIFIED AS SPECIFIC APPLICATION FOR THE PRODUCT IN OUR CATALOG　SPECIFICATION FORMS, DATASHEETS, OR OTHER DOCUMENTS OFFICIALLY ISSUED BY US*) 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Aircraft equipment Aerospace equipment Undersea equipment Power plant control equipment Medical equipment Transportation equipment Traffic control equipment Disaster prevention/security equipment Industrial data-processing equipment Combustion/explosion control equipment Equipment with complexity and/or required reliability equivalent to the applications listed in the above. For exploring information of the Products which will be compatible with the particular purpose other than those specified in the specification, please contact our sales offices, distribution agents, or trading companies with which you make a deal, or via our web contact form. Contact form: https://www.murata.com/contactform *We may design and manufacture particular Products for applications listed in (1) to (11). Provided that, in such case we shall unambiguously specify such Specific Application in the specification without any exception. Therefore, any other documents and/or performances, whether exist or non-exist, shall not be deemed as the evidence to imply that we accept the applications listed in (1) to (11). EGD30C 4/14 Reference only NOTICE 1. CLEANING (ULTRASONIC CLEANING) To perform ultrasonic cleaning, observe the following conditions. Rinse bath capacity : Output of 20 watts per liter or less. Rinsing time : 5 min maximum. Do not vibrate the PCB/PWB directly. Excessive ultrasonic cleaning may lead to fatigue destruction of the terminals. 2. CAPACITANCE CHANGE OF CAPACITORS • Class 1 capacitors Capacitance might change a little depending on a surrounding temperature or an applied voltage. Please contact us if you use for the strict time constant circuit. • Class 2 capacitors Class 2 capacitors like temperature characteristic B, E and F have an aging characteristic, whereby the capacitor continually decreases its capacitance slightly if the capacitor leaves for a long time. Moreover, capacitance might change greatly depending on a surrounding temperature or an applied voltage. So, it is not likely to be able to use for the time constant circuit. Please contact us if you need a detail information. 3. PERFORMANCE CHECK BY EQUIPMENT Before using a capacitor, check that there is no problem in the equipment's performance and the specifications. Generally speaking, Class 2 ceramic capacitors have voltage dependence characteristics and temperature dependence characteristics in capacitance. So, the capacitance value may change depending on the operating condition in a equipment. Therefore, be sure to confirm the apparatus performance of receiving influence in a capacitance value change of a capacitor, such as leakage current and noise suppression characteristic. Moreover, check the surge-proof ability of a capacitor in the equipment, if needed, because the surge voltage may exceed specific value by the inductance of the circuit. 4. Land Dimensions The recommandable land dimensions for reflow soldering are follows. Regarding the "a" dimension, to ensure the creepage distance required by the safety standard applys to your equipment. Capacitor Land c Dimension 8.0  6.0 b a 8.0 b 2.2 c 3.6 a Solder Resist NOTE 1. Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product. 2. You are requested not to use our product deviating from this specification. EGD30C 5/14 Reference only 1.Application This product specification is applied to Safety Standard Certified Resin Molding SMD Type Ceramic Capacitors Type EA. The safety standard certification is obtained as Class X1, Y1. 1.Specific applications: ･Consumer Equipment: Products that can be used in consumer equipment such as home appliances, audio/visual equipment, communication equipment, information equipment, office equipment, and household robotics, and whose functions are not directly related to the protection of human life and property. ･Industrial Equipment: Products that can be used in industrial equipment such as base stations, manufacturing equipment, industrial robotics equipment, and measurement equipment, and whose functions do not directly relate to the protection of human life and property. ･Medial Equipment [GHTF A/B/C] except for Implant Equipment: Products suitable for use in medical devices designated under the GHTF international classifications as Class A or Class B (the functions of which are not directly involved in protection of human life or property) or in medical devices other than implants designated under the GHTF international classifications as Class C (the malfunctioning of which is considered to pose a comparatively high risk to the human body). ･Automotive infotainment/comfort equipment: Products that can be used for automotive equipment such as car navigation systems and car audio systems that do not directly relate to human life and whose structure, equipment, and performance are not specifically required by law to meet technical standards for safety assurance or environmental protection. 2.Unsuitable Application: Applications listed in “Limitation of applications” in this product specification. Approval standard and certified number Standard number UL/cUL UL60384-14/CSA E60384-14 *Certified number Rated voltage X1: AC440 V(r.m.s.) / DC1,500 V Y1: AC250 V(r.m.s.) / DC1,500 V E37921 ENEC EN60384-14 SE-ENEC-2300151 (SEMKO) X1: AC440 V(r.m.s.) Y1: AC250 V(r.m.s.) CQC IEC60384-14 CQC16001142384 KTC KC60384-14 HU03008-16007 *Above Certified number may be changed on account of the revision of standards and 　the renewal of certification. 2.Rating 2-1.Operating temperature range -40 ~ 125°C 2-2.Rated Voltage X1: AC440 V(r.m.s.) Y1: AC250 V(r.m.s.) DC1,500 V 2-3.Part number configuration ex.) DK1 Series F3 Temperature Characteristics EA 222 M 86 R AH01 Certified Type Capacitance Capacitance Tolerance Body Package Individual Dimension • Series DK1 denotes resin molding SMD type safety standard recognized ceramic capacitor of class Y1. TEIKAKU 6/14 Specification Reference only • Temperature Characteristics Please confirm detailed specification on [Specification and test methods]. Code Temperature Characteristics 1X SL B3 B E3 E F3 F • Certified Type This denotes safety certified type name Type EA. • Capacitance The first two digits denote significant figures ; the last digit denotes the multiplier of 10 in pF. ex.) In case of 222 . 22 × 102 = 2200 pF • Capacitance Tolerance Please refer to [ Part number list ]. • Body Dimension Code 86 • Package Code H R Body Dimension 8.0 × 6.0 mm Package Φ180 mm Reel type Φ330 mm Reel type • Individual Specification Murata’s control code Please refer to Part number list . 3.Marking Certified type Capacitance Rated Voltage Company name code Manufacturing year Manufacturing month ： EA ： Actual value(under 100 pF) 3 digit system(100 pF and over) ： X1 440～ Y1 250～ 15　(タイ製) (Made in Thailand) ： 　　　 ： Letter code ( The last digit of A.D. year.) ： Code ex.) YEAR MONTH 2022 11(November) 2N * *From January to September : “1” to “9”, October : “O” , November : “N” , December : “D” KTC Approval mark ： (Example) EA 222 X1 440～ Y1 ２５0～ 15 2N TEIKAKU 7/14 Reference only 4. Part number list Unit : mm Customer Part Number Murata Part Number T.C. Cap. (pF) DK11XEA100K86HAH01 SL 10 DK11XEA220K86HAH01 SL 22 Cap. tol. Dimension (mm) Body Dimension Pack qty. (pcs) L W T max. ±10% 11.4±0.5 6.0±0.5 2.5 86 500 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK11XEA470K86HAH01 SL 47 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1B3EA101K86HAH01 B 100 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1B3EA221K86HAH01 B 220 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1B3EA331K86HAH01 B 330 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1B3EA471K86HAH01 B 470 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1B3EA681K86HAH01 B 680 ±10% 11.4±0.5 6.0±0.5 2.5 86 500 DK1E3EA102M86HAH01 E 1000 ±20% 11.4±0.5 6.0±0.5 2.5 86 500 DK1E3EA152M86HAH01 E 1500 ±20% 11.4±0.5 6.0±0.5 2.5 86 500 DK1F3EA222M86HAH01 F 2200 ±20% 11.4±0.5 6.0±0.5 2.5 86 500 DK11XEA100K86RAH01 SL 10 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK11XEA220K86RAH01 SL 22 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK11XEA470K86RAH01 SL 47 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1B3EA101K86RAH01 B 100 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1B3EA221K86RAH01 B 220 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1B3EA331K86RAH01 B 330 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1B3EA471K86RAH01 B 470 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1B3EA681K86RAH01 B 680 ±10% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1E3EA102M86RAH01 E 1000 ±20% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1E3EA152M86RAH01 E 1500 ±20% 11.4±0.5 6.0±0.5 2.5 86 2500 DK1F3EA222M86RAH01 F 2200 ±20% 11.4±0.5 6.0±0.5 2.5 86 2500 PNLIST 8/14 Reference only 5. Specification No. Test Item Test Method (Ref. Standard:JIS C 5101(all parts), IEC60384(all parts)) Specification 1 Operating Temperature -40 to 125 °C 2 Appearance No defects or abnormalities Visual inspection. 3 Dimensions Within the specified dimension. Using calipers and micrometers. 4 Dielectric strength No defects or abnormalities. The capacitor shall not be damage when AC4,000 V(r.m.s.) and DC6,000 V is applied between the terminations for 60 s. Terminal To No defects or abnormalities. External Resin The capacitor shall not be damage when AC4,000 V(r.m.s.) and DC6,000 V is applied between the terminations for 60 s. Between Terminals 5 Insulation Resistance (I.R.) 6,000 MΩ or more. The insulation resistance shall be measured with DC500±50 V within 60 ±5 s of charging. The voltage should be applied to the capacitor through a resistor of 1 M Ω. 6 Capacitance Within the specified tolerance. 7 Dissipation Factor (D.F.) SL,B,E : DF≦0.025 F : DF≦0.05 Capacitance/D.F. shall be measured at 20 °C with the frequency of 1±0.2 kHz and a voltage of AC1±0.2 V(r.m.s.). 8 Capacitance Temperature characteristic Temp. Coefficient SL: +350 to -1000 ppm/°C (Temp. Range: 20 to 85°C) Cap. Change B:within ±10 % E:within +20/-55 % F:within +30/-80 % (Temp. Range:-25 to 85 °C) 9 Vibration resistance Appearance No marked defect. Capacitance Within the specified tolerance. Dissipation Factor (D.F.) Pass the item No.7. The capacitance measurement shall be made at each step in table. •Pretreatment for B, E, F char. Perform the heat treatment at 150+0/-10 °C for 60±5 min and then let sit for 24±2 h at *room condition. Step 1 2 3 4 5 Temp.(°C) 20±2 -25±2 20±2 85±2 20±2 Solder the capacitor to the Test Jig A (glass epoxy board) shown in "Complement of test method". The capacitor shall be subjected to a simple harmonic motion having a total amplitude of 1.5mm, the frequency being varied uniformly between the approximate limits of 10 and 55 Hz. The frequency range, from 10 to 55 Hz and return to 10Hz, shall be traversed in approximately 1 min. This motion shall be applied for a period of 2 h in each of 3 mutually perpendicular directions (total of 6 h). 10 Solderability of termination 75 % of the terminations are to be soldered . Immerse the capacitor in the solution of rosin ethanol (25% rosin in weight propotion). Immerse in solder solution for 2±0.5 s. Temp. of solder : 245±5 °C 11 Soldering effect (Reflow) Appearance No marked defects. Capacitance change Within ±10 % I.R. 1,000 MΩ or more. Dielectric strength Pass the item No.4. Preheat the capacitor at 150 to 180 °C for 90±30 s. Reflow temp. : 230 °C min. (Max. temp. : 260 °C) Reflow time : 30±10 s. Reflow number of times : 4 times Let sit at *room condition for 24±2 h, then measure. • The next reflow porcess should be done after the temperature of the sample has dropped to room temperature. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. 12 Adhesive strength of termination No removal of the terminations or other defects should occur. Solder the capacitor to the Test Jig A (glass epoxy board) shown in “Complement of Test method”. Then apply 10 N force in the direction of the arrow. 10 N, 10±1 s Glass Epoxy Board * "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa ESEA01E 9/14 Reference only No. Test Item 13 Temperature cycle Test Method (Ref. Standard:JIS C 5101(all parts), IEC60384(all parts)) Specification Appearance No marked defect. Capacitance change Within ±15 % Dissipation Factor (D.F.) SL : DF≦0.025 B,E : DF≦0.05 F : DF≦0.075 I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Fix the capacitor to the supporting Test Jig A (glass epoxy board) shown in "Complement of test method". Perform the 5 cycles according to the 4 heat treatments listed the following table. Step Temp.(℃) 1 -40±3 Time(min.) 30±3 2 Room Temp. 2 to 3 3 125±3 30±3 4 Room Temp. 2 to 3 Let sit at *room condition for 24±2 h, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. 14 Humidity (Steady state) 15-1 Humidity loading (AC) 15-2 Humidity loading (DC) Appearance No marked defect. Capacitance change Within ±20 % Dissipation Factor (D.F.) SL : DF≦0.025 B,E : DF≦0.05 F : DF≦0.075 I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Appearance No marked defect. Capacitance change Within ±20 % Dissipation Factor (D.F.) SL : DF≦0.025 B,E : DF≦0.05 F : DF≦0.075 I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Appearance No marked defect. Capacitance change Within ±20 % Dissipation Factor (D.F.) SL : DF≦0.025 B,E : DF≦0.05 F : DF≦0.075 I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Sit the capacitor at 40±2 °C and relative humidity 90 to 95 % for 500+24/-0 h. Remove and let sit for 24±2 h at *room condition, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. Apply the rated voltage AC440 V(r.m.s.) at 40±2 °C and relative humidity 90 to 95% for 500+24/-0 h. Remove and let sit for 24±2 h at *room condition, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. Apply the rated voltage DC1,500 V(r.m.s.) at 40±2 °C and relative humidity 90 to 95% for 500+24/-0 h. Remove and let sit for 24±2 h at *room condition, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. * "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa ESEA01E 10/14 Reference only No. 16-1 Life (AC) Test Item Test Method (Ref. Standard:JIS C 5101(all parts), IEC60384(all parts)) Specification Appearance No marked defect. Capacitance change Within ±20 % I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Impulse Voltage test is performed. Each individual capacitor shall be subjected to a 8 kV Impulse (the voltage value means zero to peak) for 3 times or more. Then the capacitors are applied to life test. Front time (T1) = 1.7 μs=1.67T Time to half-value (T2) = 50 μs Apply voltage as Table for 1,000 h at 125+2/-0 °C, relative humidity 50 % max. Applied voltage AC550 V(r.m.s.) except that once each hour the voltage is increased to AC1,000 V(r.m.s.) for 0.1 s. Remove and let sit for 24±2 h at *room condition, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. 16-2 Life (DC) Appearance No marked defect. Capacitance change Within ±20 % I.R. 3,000 MΩ or more Dielectric strength Pass the item No.4. Impulse Voltage test is performed. Each individual capacitor shall be subjected to a 8 kV Impulse (the voltage value means zero to peak) for 3 times or more. Then the capacitors are applied to life test. Front time (T1) = 1.7 μs=1.67T Time to half-value (T2) = 50 μs Apply DC2,550 V for 1,000 h at 125+2/-0 °C, relative humidity 50 % max. Remove and let sit for 24±2 h at *room condition, then measure. • Pretreatment for B, E, F char. Capacitor should be stored at 150+0/-10 °C for 1 h, and apply the AC4,000 V(r.m.s.) 60 s then placed at *room condition for 24±2 h before initial measurements. 17 Passive flammability The burning time should not be exceeded the time 30 s. The capacitor under test shall be held in the flame in the position which best promotes burning. Each specimen shall only be exposed once to the flame. Time of exposure to flame : 30 s. The tissue paper should not ignite. Length of flame : 12±1 mm Gas burner : Length 35 mm min. Inside dia : 0.5±0.1 mm Outside dia : 0.9 mm max. Gas : Butane gas purity 95 % min. Test specimen Approximately 8mm flame burner 200±5㎜ 45° Tissue paper Wood board of approximately 10mm in thickness * "room condition" Temperature : 15 to 35 °C, Relative humidity : 45 to 75 %, Atmospheric pressure : 86 to 106 kPa ESEA01E 11/14 Reference only No. Test Item 18 Active flammability Test Method (Ref. Standard:JIS C 5101(all parts), IEC60384(all parts)) Specification The cheese-cloth should not be on fire. The capacitor shall be individually wrapped in at least one but more than two complete layers of cheesecloth. The capacitor shall be subjected to 20 discharges. The interval between successive discharges shall be 5 s. The UAc shall be maintained for 2 min after the last discharge. C1,2 L1 to L4 R UAc F Cx Ut ESEA01E 12/14 : 1 μF±10 %, C3 : 0.033 μF±5 % 10 kV : 1.5 mH±20 % 16A Rod core choke : 100 Ω±2 %, Ct : 3 μF±5 % 10 kV : UR ±5 % UR : Rated voltage : Fuse, Rated 16 A : Capacitor specimens : Voltage impressed on the tank capacitor Ct Reference only 6. Complement of Test Method 6.1.Test Jig The test jig should be Jig A as described in “Specifications and Test methods”. The specimen should be soldered by the conditions as described below. Soldering Method : Reflow soldering Solder : Sn-3.0Ag-0.5Cu (1) Test Jig A Solder resist 1.0 19.4 8.0 7.4 2.2 0.5 5.4 3.6 2.0 9.4 Copper foil •Material : Glass Epoxy Board •Thickness : 1.6 mm •Thickness of copper foil : 0.035 mm ESEA01E 13/14 Reference only 7. Packing 7-1. Dimension of tape 2.0+/-0.1 4.0+/-0.1 1.5+0.1/-0 0.4+/-0.1 8.0+/-0.1 1.75+/-0.1 11.5+/-0.1 B 24+/-0.3 A A×B＝12.0×7.0 (typ.) 4.0 max. (Unit : mm) 7-2. Dimension of Reel W1 E A B D C W (Unit : mm) Reel A B C D E W W1 Φ180mm Reel 180+0/-3.0 60 min. 13.0±0.2 21.0±0.8 2.0±0.5 30.9 max. 26.5 max. Φ330mm Reel 330±2.0 60 min. 13.0±0.2 21.0±0.8 2.0±0.5 30.4 max. 26.4 max. (1) Part of the leader and part of the empty tape shall be attached to the end of the tape as follows. Vacant section : 160 min. Capacitor mounting Vacant section 210 min. 190 min. Direction of feed (Unit : mm) (2) The top tape or cover tape and base tape are not attached at the end of the tape for a minimum of 2 pitches. (3) Missing capacitors number within 0.1 % of the number per reel or 1 pc, whichever is greater, and not continuous. (4) The top tape or cover tape and bottom tape shall not protrude beyond the edges of the tape and shall not cover sprocket holes. (5) Cumulative tolerance of sprocket holes, 10 pitches : ±0.3 mm. (6) Peeling off force : 0.1 to 0.6 N in the direction shown on the follows. 165 to 180 ° Top Tape or Cover Tape Base Tape EKBCDK01A 14/14