RVT220UF35V67RV0024

规格承认书 Specification for approval 客户名称: 深圳市立创电子商务有限公司 （Customer Name） 产品名称: （Product Name） 贴片铝电解电容器 SMD AluminumElectrolytic Capacitor 客户料号： （Customer part number） 科尼盛料号： RVT220UF35V67RV0024 　 （KNSCHA number） 型号规格: （Specifications） 拟 制 (Fiction) SMD E/C 220UF/35V 8*10.2 RVT 　 SMD E/C 220UF/35V 8*10.2 RVT 制 造 (Manufacture) 客 户 (Customer) Approval Approval 审 核 (Chief) 核 准 (Approval) 检 验 (Inspect) 审 核 (Chief) 0 东莞市科尼盛电子有限公司 DONG GUAN KNSCHA ELECTRONICS CO.,LTD. No. 8th floor, A3 building, R&D center (Phase I), Songshan Lake Intelligent Valley, Liaobu Town, Dongguan City. TEL:0769-83698067 81035570 FAX: 0769-83861559 Email：sales@knscha.com Website: http://www.knscha.com 核 准 (Approval) PART NUMBERING REFERENCE Product Code Guide – SMD Type Series (RVT)Voltage (16V) Capacitance (100uF) Capacitance Tolerance (±20%) Case Diameter (￠6.3*5.4mm) RVT series 16V 100uF ±20% ￠6.3*5.4 RVT 1C 101 M 0605 2 3 4 5 Rated Voltage Capacitance Capacitance Tolerance Case size 1 Series 1.Series RVS RVK RVT RVE RVW RVH RVN RVZ RVL 2.Rated Voltage Rated voltage in volts (V) is represented by a two-digit code Voltage (WV) 4 6.3 10 16 25 35 50 63 100 400 Code 0G 0J 1A 1C 1E 1V 1H 1J 2A 4G 3.Capacitance: Capacitance in µF is represented by a three-digit code. The first two digits are significant and the third digit indicates the number of zeros following the significant figure. “R” represents the decimal point for capacitance under 10µF. Example: Capacitance 1 4.7 10 22 47 100 220 330 470 1000 1500 Part numbe 1R0 4R7 100 220 470 101 221 331 471 102 152 4.Tolerance: J= -5% ~ +5% K= -10% ~ +10% A= 0 ~ +20% Q= -10% ~ +30% M= -20% ~ +20% V= -10% ~ +20% 5.Case size: The first two digits indicate case diameter and the last two digits indicate case length in mm. ￠D*L 4*5.4 5*5.4 6.3*5.4 6.3*7.7 8*6.5 Code 0405 0505 0605 0607 0806 ￠D*L 8*10.2 10*10.2 8*12 10*12 Code 0810 1010 0812 1012 Table of specification and characteristics Part NO 67RV0024 CAP(uF) 120HZ 20℃ 220 WV DF(%) (MAX) 120HZ 20℃ Lc(μA) (MAX) 20℃ RC(mArms) (MAX) 120HZ 105℃ ESR Ω(max) 100KHZ 20℃ Life (Hrs) 35 0.16 77 195 N/A 2000 Specifications Items Category Temperature Range Capacitance Tolerance Leakage Current* Dissipation Factor (Tanδ) Ripple Current (rms ) Ripple Current & Frequency Multipliers Temperature characteristic (Impedance ratio at 120Hz) Performance -40℃ ~ +105℃ -20 % ~ +20 % (120 Hz, 20℃) I≦0.01CV or3(uA)After2minutes(Whichever is greatre) ≦ 0.18 (120 Hz, 20℃) 228mA (120 Hz, 20℃) Frequency Multiplier 50/60 0.75 UR (V) 6.3 4 10 Z-25℃／Z+20℃ Z-40℃／Z+20℃ 120 1.00 10 3 8 1k 1.20 16 2 6 25 2 4 10k to 1.35 35 2 3 50 2 3 after 1000 hrs at 105℃ Capacitance Change Within ±30 % of initial value Dissipation factor Less than 300% of specified value Leakage Current Within specified value Shelf life test after 1000 hrs at 105℃with no rated voltage Capacitance Change Within ±30 % of initial value Dissipation factor Less than 300% of specified value Leakage Current Within specified value Endurance Applied with rated voltage 63 3 4 100 3 4 Standards & Remarks JIS C 5101-1 * For any doubt about measured values, measure the leakage current again after the following voltage treatment. Voltage treatment: Applying DC rated voltage to the capacitors for 2 hours at 105 ℃. Marking and Diagram of Dimensions: Each capacitor shall be marked with the following information. Marking color:Black. 0.2 Polarity Series Voltage φD 4 5 6.3 6.3 8 8 10 P ositive Capacitance L 5.4±0.3 5.4±0.3 5.4±0.5 7.7±0.3 6.5±0.5 10.2±0.5 10.2±0.5 A 4.3 5.3 6.6 6.6 8.3 8.3 10.3 B 4.3 5.3 6.6 6.6 8.3 8.3 10.3 C 5.0 6.0 7.2 7.2 9.1 9.1 11.1 W 0.5~0.8 0.5~0.8 0.5~0.8 0.5~0.8 0.7~1.1 0.7~1.1 0.7~1.1 P 1.0 1.5 2.1 2.1 3.1 3.1 4.5 Taping Specification for SMD Type 1.Carrier Tape 2.0±0.1 ∅1.5 +0.1~-0 4.0±0.1 0.4 P±0.1 φD*L W P F A B T2 4*5.4 12.0 8.0 5.5 4.7 4.7 5.8 5*5.4 12.0 12.0 5.5 6.0 6.0 5.8 B±0.2 F±0.1 W±0.3 1.75±0.1 A±0.2 6.3*5.4 16.0 12.0 7.5 7.0 7.0 5.8 2.Reel package 6.3*7.7 16.0 12.0 7.5 7.0 7.0 8.2 8*6.5 16.0 16.0 7.5 8.7 8.7 7.0 8*10.2 24.0 16.0 11.5 8.7 8.7 11.0 10*10.2 24.0 16.0 11.5 10.7 10.7 11.0 T 13±0.5 A φ80 2.0 23 W φD*L W A T 4*5.4 13 380 2.0 5*5.4 13 380 2.0 6.3*5.4 17 380 2.0 6.3*7.7 17 380 2.0 8*6.5 17 380 2.0 8*10.2 25 380 2.0 10*10.2 25 380 2.0 5*5.4 1000 10000 6.3*5.4 1000 10000 6.3*7.7 1000 10000 8*6.5 1000 10000 8*10.2 500 5000 Uint:pcs 10*10.2 500 5000 3.Package quantity φD*L Q'ty/Reel Q'ty/Box 4*5.4 2000 20000 T2 ±0.2 4 .Endurance characteristic NO. Item Test Conditions Specification At 15~35℃, 1000 cycles of 30s on and 330s off. 1 Surge Voltage Test Applying voltage Rated Voltage Surge Voltage 2 3 4 5 6 6.3 7.3 10 11 ±15%Initial measured value tgδ ≤Initial specified value I ≤Initial specified value Physicac No visible damage 16 18.4 capacitor shall be exposed for 500±8 hours in an atmosphere of 90~95%R H .at 40±2℃, And then the Capacitor Damp Heat Test shall be subjected to standard atmospherjc conditions for 1-2hours, after which measurements shall be made. Capacitor is placed in an oven whose temperature follow specific regulation to change. The specific regulation is " +20℃ (3 min.)~-40 ℃(30 min.)~+20℃ Rotational (3min.)~+105℃ (30 min.) ~+20℃ (3 Temperature Test min.)and it is called a cycle.And then the capacitor shall be subjected to standard atmospheric conditions for 4 hours, after which measurements shall be made. 1.Capacitors shall be placed in oven with application ofrated voltage for 2000 +48/0 hrs at105 ℃. Load Life Test 2.Then the capacitor shall be subjected to standardatmospheric conditions for 4 hours, after which measurements shall be made. 1.The capacitors are then stored with no voltage applied at a temperature of 105±2℃ for 1000+48/0 hours. Shelf Life Test 2.Then the capacitor shall be subjected to standardatmospheric conditions for 4 hours, after which measurements shall be made. Vibration test △C/C 25 29 50 58 63 73 100 115 △C/C ±10%Initial measured value tgδ ≤Initial specified value I ≤Initial specified value Physicac No visible damage △C/C ±25%Initial measured value tgδ ≤Initial specified value I ≤Initial specified value Physicac No visible damage △C/C ±30% of Initial measured value tgδ ≤300% of Initial specified value I ≤Initial specified value Physicac No visible damage △C/C ±30% of Initial measured value tgδ ≤300% of Initial specified value I ≤Initial specified value Physicac No visible damage △C/C ±15%Initial measured value The following conditions shall be applied for 2 hours in each (X,Y,Z) 3 mutually tgδ perpendicular directions,with a total of 6 hours . Vibration frequency range: 10Hz ~ I 55Hz Peak to peak amplitude: 1.5mm Physicac 7 35 40 C/C After reflow soldering according to Reflow △ Solder Heat Soldering Condition and restored at room tgδ Resistance Test temperature, they meet the characteristics I listed. Physicac ≤Initial specified value ≤Initial specified value No visible damage ±10%Initial measured value ≤Initial specified value ≤Initial specified value No visible damage NO. Item 8 Solderability Test Test Conditions Specification After the lead wire fully immersed in the solder for 2±0.5 secs at a temperature of 245±5 , the solder coating must be more than 95%. Reasonable pulling strength: 0.1~0.7N Pulling speed: 200~300mm/min 9 Adhesion test Reflow soldering 10 Reflow soldering temperature profile 1) Temperature at surface of capacitor shall not exceed T(℃). 2) Period that temperature at surface of capacitor becomes more than 200℃ and 230℃ shall not exceed t and t1 seconds, respectively. Preheat shall be made at 100℃~200℃ and for maximum 180 seconds; Size T(℃) t (second) t1 (second) φ4～φ6.3 260 90 40 φ8 250 90 40 φ10 240 60 40 Recommended pad pattern and size (Unit: mm) 11 Land pattern Y a Y X 12 Standards Case size X Y a Φ4 1.6 2.6 1.0 Φ5 1.6 3.0 1.4 Φ6.3 1.6 3.5 2.1 Φ8 2.5 3.5 3.0 Φ10 2.5 4.0 4.0 Satisfies Characteristic W of JIS C 5101-1 Caution for proper use of Aluminum Electrolytic Capactors Upon suing Aluminum Electrolytic Capactors, please pay attention to points listed below When the following tyes of electrical loads indicated below are applied to Aluminum Electrolytic Capactors, rapid deterioration of electrical property occurs: * reverse voltage * voltage exceeds rated voltage * rated ripple current is exceeded * severe chargeing/discharging At such times,severe heat is generated, gas is emitted, then electrolyte leaks from the sealing area, and pressure relief vent operates due to internal pressure Device circuits design considerations 1) Confirm installation and operating requirements for capacitors, then use them within the performance limits prescribed in this catalog or product specifications 2)Polarity Aluminum electrolytic capacitors are polarized.Never apply a reverse voltage or AC voltage. Connecting with wrong polarity will short-circuit or damage the capacitor with the pressure relief vent opening early on. To identify the polarity of a capacitor, see the relevant diagram in the catalogs or product specifications, or the polarity marking on the body of the capacitor.For circuits where the polarity is occasionally reversed, use a bi-polar type of aluminum electrolytic capacitor. However, note that even bi-polar type capacitors circuits.must not be used for AC 3) Operating voltage Do not apply an over-voltage that exceeds a rated voltage specified for the capacitors. . Although capacitors specify a surge voltage that exceeds the full rated voltage, it does not assure long-term use but limited use under specific conditions 4) Ripple current Do not apply an overcurrent that exceeds the rated ripple current specified for the capacitors. Excessive ripple current will increase heat production within the capacitors, causing the capacitors to be damaged as follows: * Shorten lifetime * Open pressure relief vent * Short circuit The rated ripple current is specified along with a specific ripple frequency. 5) Operating temperature (Category temperature) Do not apply high temperatures that exceed the upper limit of the category temperature range specified for the capacitors.Using the capacitor at temperatures higher than the upper limit will considerably shorten the lifetime of the capacitor and make the pressure relief vent open.In other words, lowering ambient temperatures will extend the expected lifetime of the capacitors 6) Charging and discharging Do not use capacitors in circuits intended for rapid charge and discharge cycle operations. If capacitors are used in the circuits that repeat a charge and discharge with a large voltage drop or a rapid charge and discharge at a short interval cycle, capacitance will decrease and/or the capacitors will be generation. damaged by internal heat 7) Operating conditions Do not use/expose capacitors to the following conditions: ①Direct contact with water, salt water or oil, or high condensation environment. ②Direct sunlight. ③Toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine and its compounds, bromine and its compounds and ammonium. ④Ozone, ultraviolet rays or radiation. ⑤Extreme vibration or mechanical shock that exceeds limits in the catalogs or product specifications. 8) Mounting ①Aluminum electrolytic capacitors contain paper separators and electric-conductive electrolyte that contains and burnorganic solvent as main solvent material, both of which are flammable. If the electrolyte leaks onto a printed circuit board, it can erode the device circuit pattern, may short-circuit the copper traces, smoke and burn. ② For a chip type capacitor, design the land patterns of the PC board in accordance with the recommended footprint dimensions described in the catalogs or product specifications. Installation 1)Assembling ①Do not try to reuse the capacitors once assembled and electrified, except only capacitors that are taken from a device for periodic inspection to measure their electrical characteristics. ②Capacitors may have been spontaneously recharged with time by a recovery voltage phenomenon. In this case, discharge the capacitors through a resistor of approximately 1kΩbefore use. ③Leakage current of Aluminum Electrolytic Capactors may be increased during long storage time. In this case, the capacitors shall be applied with a DC voltage which is equal to the Rated Voltage of the capacitor through aresistor of 1kΩ in series for 1 hour. ④Confirm the rated capacitance and voltage of capacitors before installation. ⑤Confirm the polarity of capacitors before installation. ⑥Do not try to use the capacitors that were dropped to the floor and so forth. ⑦Do not deform the can case of a capacitor. ⑧Make sure that the terminal spacing of a capacitor equals the holes spacing on the PC board before installing the capacitor. For radial lead type capacitors, some standard pre-formed lead types are also available. ⑨Do not apply excessive mechanical force to capacitors more than the limits prescribed in the catalogs or product specifications. Avoid excessive mechanical force while the capacitors are in the process of vacuum-picking, placing and positioning by automatic mounting machines or cutting the lead wires by automatic insertion machines 2）Cleaning assembly boards ①Do not clean capacitors with the following cleaning agents: * Halogenated solvents: cause capacitor failures due to corrosion. * Alkali system solvents: corrode (dissolve) the aluminum can case. * Terpene and petroleum system solvents: deteriorate the rubber seal materials. * Xylene: deteriorates the rubber seal materials as well. * Acetone: erases the markings printed on a capacitor. 3)Maintenance inspections 1) For industrial use capacitors, make periodic inspections of the capacitors. 2) Characteristics to be inspected ①Significant damage in appearance: vent opening, electrolyte leakage, etc. ②Electrical characteristics: leakage current, capacitance, tanδ and other characteristics prescribed in the catalogs or product specifications If finding anything abnormal on the characteristics above, check the specifications of the capacitor and take appropriate actions such as replacement 4)Storage Do not store capacitors at high temperature or high humidity. Store the capacitors indoors at temperatures of 5 to 35℃and humidities of less than 75%RH.In principle, aluminum electrolytic capacitors should be used within three years after production. 5)Capacitor disposal Please consult with a local organization for the proper disposal of industrial waste. For incinerating capacitors, apply a hightemperature incineration (over 800℃). Incinerating them at temperatures lower than that may produce toxic gases such as chlorine. To prevent capacitors from explosion, punch holes in or sufficiently crush the can cases of the capacitors, then incinerate. 6)Environmental Consideration ①In accordance with the EU RoHS2.0 Directive 2015/863 related to limits of hazardous substances requirements / EU regulations, the giant container products comply with the relevant provisions ②RONGJU each year in accordance with EU directives RoHS latest test, while the products inside and outside packaging are marked RoHS. EIAJ RCR-2367B- Guideline of notabilia for fixed aluminium electrolytic capacitors for use in electronic equipment[Technical Standardization Committee on Passive Components (Established in March 1995, Revised in March 2002)].