ERS1HM4R7D11B20T

CUSTOMER: DATE: August 20,2020 SPECIFICATION DESCRIPTION: Aluminium Electrolytic Capacitors AISHI P/N: Part of RS Series SERIES: RS ITEM: CUSTOMER P/N: No.: CRS-ZD-2008227 APPROVED BY Please Return One Copy with Your Approval 承认后请寄回一份 PREPARED BY CHECKED BY APPROVED BY 变更记录 Change Records 编号 No. 更改原因 Explanation of changes 更改内容 Content 修订人 Reviser 生效日期 Effective date CRS-ZD-2008227 新建 新建 杨钧 2020/08/20 1 概述 SCOPE 本承认书规定了RS系列径向引线引出铝电解电容器的技术规范，本技术规范条文解释权归本公司所有。 This specification covers“RS series” miniature single-ended aluminium electrolytic capacitors，AISHI reserves the right of final interpretation for this technical specification. 2 参考标准 APPLICABLE SPECIFICATION 本承认书参考JIS-C-5101-1和 JIS-C-5101-4制定。 This specification consulted the institute of JIS-C-5101-1 and JIS-C-5101-4. 3 工作温度范围 OPERATING TEMPERATURE RANGE 工作温度范围是电容器在施加额定工作电压条件下，可以长期可靠工作的环境温度范围。 -40℃~+105℃（6.3 VDC） Operating temperatureVDC~100 range is the range of ambient temperature at which the capacitor can be operated continuously at rated voltage. -40℃~+105℃ 6.3V.DC~120V.DC 4 测试环境 CONDITION OF TEST 如果没有其他规定，标准的测试、检验环境条件如下所示： 环境温度：15℃~35℃ 相对湿度：45%~75% 大气压力：86kPa~106kPa 如果对测试结果有异议，可以在以下条件测试: 环境温度：20±1℃ 相对湿度：60%~67% 大气压力：86kPa~106kPa Unless otherwise specified, the standard range of atmospheric conditions for making measurements and tests are as follows: Ambient temperature ：15℃ to 35℃ Relative humidity ：45% to 75% Air pressure：86kPa to 106kPa If there may be doubt on the results, measurements shall be made within the following limits: Ambient temperature ：20±1℃ Relative humidity ：60% to 67% Air pressure ：86kPa to 106kPa File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 1 5 产品特性 PRODUCT CHARACTERISTICS 5.1电气特性 Electrical Characteristics 序号 No. 5.1.1 项目 Item 测试方法 Test method 额定工作电压 Rated voltage 5.1.2 电容量 Capacitance 5.1.3 损失角正切值 Dissipation factor 性能 Performance 电压：直流电压值+交流电压峰值≤额定电压 6.3V.DC~120V.DC Voltage: DC voltage + peak ripple voltage ≤Rated voltage 测试频率：120Hz(±20%) 测试电路：串联等效 测试电压：0.5Vrms以下+1.5~ 2.0VDC Measuring frequency: 120Hz±20% Measuring circuit: Series equivalent circuit Measuring voltage: 0.5Vrms or less +1.5 to 2.0 VDC 容量偏差 : -20%~+20% Capacitance tolerance: 测试条件与5.1.2电容量测试相同。 DF见表1 DF: See TABLE-1 Testing conditions are the same as 5.1.2 for capacitance. 在电容器两端施加额定工作电压，并串联 1000±100Ω电阻，在施加规定时间电压 后，测量漏电流。 测试电路如下图： The rated voltage shall be applied across the capacitor and its protective resistor shall be 1000±100Ω. The leakage current shall then be measured after an electrification period of schedule time.Measurement circuit: 5.1.4 -20%~+20% 6.3V~120V: I≤0.01CV或3μA， 取较大值（2分钟后） 6.3V~120V: I≤0.01CV or 3μA Whichever is greater（after 2 min） I：漏电流（μA） C：容量（μF） V：额定工作电压（V） I：Leakage current(μA) C：Capacitance(μF) V：Rated voltage (V) 漏电流 Leakage current Rs: Protective resistor(1000±100Ω) DC ammeter DC voltmeter S1: Switch S2: Protective switch for an ammeter File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 2 阶段 温度 时间 1 20±2℃ -- 2 3 2h 20±2℃ 4 5.1.5 15min. 2h 阶段1：测量容量和阻抗（|z| 20℃ 120Hz±20%）； 阶段2：电容器恒温贮存2小时，在热平衡状态测 温度特性 阻抗（|z|- 25, -40℃ 120Hz±20%）； Temperature characteristic 阶段4：电容器恒温贮存2小时，在热平衡状态测 电容量。 Step 1: Capacitance and impedance shall be measured. (|z| 20℃ 120Hz±20%); Step 2: After the capacitor being stored for 2 hours,impedance shall be measured at thermal stability. (|z|-25，-40℃ 120Hz±20%); Step 4:After the capacitor being stored for 105℃ 2 hours, capacitance shall be measured. The measurement shall be made at thermal stability. 阶段2： 阻抗值与阶段1阻抗值相比，不大于表2要求； 阶段4： 容量变化应在初值的±20%范围内。 Step 2: Impedance value ratio to the value at step 1 shall be not more than the value given in TABLE-2. Step 4: Variation of capacitance Within ±20% of the initial value. 容量变化：在初始值的±20%以内。损耗角正切值不大于 表1规定值的200%。 漏电流：满足5.1.4要求。 测试温度：15℃-35℃ 然后在标准大气条件下放置达到热稳定，测试各参 Capacitance change:Within±20% of the initial value Dissipation factor: 数 Application of DC surge Voltage stated at Not more than 200% of the specified value in TABLE-1. TABLE-3. 1000 times of charging for 30±5 sec., Leakage current: discharging with a period of 5.5±0.5 min.. To satisfy No. 5.1.4 . Test temperature: 15℃-35℃ And the capacitor shall be stored under standard atmospheric conditions to obtain thermal stability, after which measurements shall be made. 施加表3所列浪涌电压，充电30±5秒，放电 5.5±0.5分钟作为一个周期，共进行1000次。 5.1.6 耐浪涌电压 Test circuit Surge test Note: This requirement is applicable only to instantaneous over voltage which may be applied to terminals of capacitor, therefore, not applicable to such over voltages as often applied. File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 3 5.2 机械特性 Mechanical Performance 序号 No. 项目 Item 测试方法 Test method 特性 Performance 端子抗拉强度： 沿电容器端子引线方向施加拉力(如下表)，10±1秒。 引线直径Φ 0.45 0.5 0.6 5 拉力N 0.8 10 1.0 20 端子抗弯强度： 在电容器引线施加固定重力（如下表），然后将电容体弯折90°后回到原 位，再向相反方向弯折90°后回到原位。 测量电容器应无接触不良、开 路或短路，无可见机械损伤。 When the capacitor is measured, there shall be no intermittent contacts, or open or short-circuiting. There shall be no visible mechanical damage. 上述过程在5秒内完成。 5.2.1 端子强度 Terminal strength 引线直径Φ 0.45 0.5 0.6 2.5 拉力N 0.8 5 1.0 10 Tensile strength of terminal: A static load （stated in the table above） shall be applied to the terminal in the axial direction and acting in a direction away from the body for 10±1 sec.. Bending strength of terminal: Hang the specified dead weight （stated in the table above）, then bend the body through 90°, return to the original position. Next bend it in opposite direction through 90° with the same speed, again return to the original position. Complete this operation in about 5 sec.. 5.2.2 5.2.3 依据JISC 5101-1 4.17试验。 在3个互相垂直的方向分别施加2小时振动，共6小时。 频率：10-55Hz 振幅峰-峰值：1.5mm. 振动试验 振速：1分钟内振速10～55～10Hz Resistance To comply with JIS C 5101-1 4.17 to vibration Direction and duration of vibration: 3 orthogonal directions mutually each for 2h , Total 6h. Vibration frequency range :10-55Hz. Peak to peak amplitude: 1.5mm Sweep rate :10 to 55 to 10Hz in about 1 min. 测量电容器应无接触不良开路 或短路，无可见机械损伤。 When the capacitor is measured there shall be no intermittent contacts, or open or short circuiting。There shall be no visible mechanical damage. 依据JISC 5101-1 4.15进行试验。 焊锡温度：235±5℃ 浸入时间：2±0.5秒 To comply with JISC 5101-1 4.15 可焊性 Solderability Temperature of solder: 235±5℃ Dipping time: 2±0.5sec. This specification shall be met after the capacitors are stored under standard atmospheric conditions for 6 months. 浸入焊锡的引线表面积约90% 以上应附着新锡。 At least 90% of circumferential surface of the dipping portion of terminal shall be covered with new solder. File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 4 5.3 耐久性测试 Endurance Performance 序号 No. 5.3.1 5.3.2 项目 Item 耐焊接热 Resistance to soldering heat 稳态湿热 Resistance to damp heat (steady state) 测试方法 Test method 特性 Performance 焊槽法： 焊锡温度：260±5℃ 浸入时间：10±1秒 电 路 板 ：1.6mm Solder bath method Solder bath temperature : 260±5℃ Immersion time : 10±1sec. Printed wiring board: 1.6mm 容量变化：在初始值±10%范围内。 损失角正切值：不大于表1规定值。 漏电流：满足5.1.4要求。 外观：无异状。 依据JISC 5101-1 4.22进行试验。 试验温度：40±2℃ 试验时间：240±8h 相对湿度：90~95% 试验后，电容器在标准大气条件下1~2 小时，然后测试参数。 容量变化：在初始值±10%范围内。 损失角正切值：不大于表1规定值。 漏电流：满足5.1.4要求。 外观：无异状。 Variation of capacitance: Within ±10% of the initial value. Dissipation factor: To comply JIS C 5101-1 4.22 . Test time : with 240±8h Relative humidity: 90~95% Not more than the specified value in TABLE-1. Leakage current: After completion of test, the capacitor To satisfy No. 5.1.4 . Appearance: shall be subjected to standard No remarkable abnormality. atmospheric conditions for 1 to 2 hours, after which measurements shall be made. 1. 试验温度：105±2℃,施加额定电压 和额定纹波电流 Application of the rated voltage and the rated ripple current, Test temperature:105±2℃ 2. 试验时间： Test time: 5.3.3 高温负荷试验 Load life test Case Dia Life time(Hrs) 6.3-10V 16-100V ФD≤6.3 ФD=8 4000 5000 6000 7000 ФD=10 6000 7000 ФD≥12.5 8000 10000 File Description Component P/N Variation of capacitance: Within ±10% of the initial value. Dissipation factor: Not more than the specified value in TABLE-1. Leakage current: To satisfy No. 5.1.4 . Appearance: No remarkable abnormality. 容量变化：在初始值±20%范围内(6.3V,10V:±30%) 损耗角正切值：不超过规定值的200% 漏电流：不大于规定值 外观：无异状 Variation of capacitance: Within ±20% of the initial value.(6.3V,10V:±30%) Dissipation factor: Not more than 200% of the specified value Leakage current: Not more than the specified value Appearance: No remarkable abnormality. Approval Sheet RS Version 01 STANDARD MANUAL Page 5 在105±2℃环境下无负荷贮存 h，至少恢复 16小时后。 The capacitors are stored without voltage load at 5.3.4 高温贮存试验 Shelf life test 105±2℃ for h and then resumed 16 hours. 5.3.5 防爆试验 Safety vent 以下试验只适用于铝壳直径≥Φ8产品。 The following tests only apply to those products with vent products at diameter≥Φ8 with vent. 在电容器两极施加反向直流电压，其中通过的电流为 1A，在测试时防爆装置应能在30分钟内动作。 DC Application test: The capacitor shall be subjected to a reverse DC voltage. The current flowing through the capacitor shall be 1A. If the vent does work with the voltage applied for 30 minutes, the test is considered to be passed. File Description Component P/N 容量变化：初始值±20%范围内。(6.3V,10V: ±30%) 损耗角正切值：不超过规定值的200% 漏电流：不超过规定值的200% 外观：无异状 Variation of capacitance: Within ±20% of the value before test. (6.3V,10V: ±30%) Dissipation factor: Not more than 200% of the specified value Leakage current: Not more than 200% of the specified value Appearance: No remarkable abnormality. 上述过程中应无引线、铝箔等散射，无火花产生。 The safety vent is actuated under the test conditions, thereby preventing terminals, metal pieces, etc, of the capacitor from scattering due to burst, the case from separating from the seal packing, or the capacitor from producing flame. Approval Sheet RS Version 01 STANDARD MANUAL Page 6 6 标记 MARKING 6.1 在电容器体上应注明如下内容 ： （1）生产厂商商标 （2）型号-额定温度 RS （3）周期代码-我司代码-套管材质 YyWw□PET (Yy表示年份，Ww表示制造周期， 105℃ □表示我司代码，我司代码：“Z、Y、J、S……” PET表示套管材质) --V--μF （4）电压容量 （5）负极标志 6.1 The Following Items Shall Be Marked Indelibly On The Capacitor: （1）Manufacture’s name or trade mark. （2）Series - rated temperature RS （3）Date code- AIHUA code -sleeve material YyWw□PET (Yy denotes last two digit of years and Ww 105℃ denotes the week in which the capacitor been manufactured， □denotes the code of AIHUA，AIHUA code:“ Z、Y、J、 S……”PET denotes the sleeve material ) --V--μF （4）Voltage / Capacity （5）Negative polarity 6.2 标记颜色 Color 套管颜色：紫兰色 标记颜色：白 Sleeve color：Violet Marking color：White File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 7 7 物料编码 PART NO SYSTEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Sleeve code ⑧ Terminal code⑦ Size code⑥ Capacitance code ⑤ Capacitance tolerance code ④ Voltage code ③ Series code ② Category code ① ①Category code Type Electrolytic Capacitor ③Voltage code Code 1th E WV (V) 4 6.3 10 16 25 35 40 50 63 80 100 120 140 160 180 200 220 250 300 315 350 380 400 420 450 500 550 ②Series code Series name RS ⑥Size code ΦD 4 5 6.3 8 10 11 12 12.5 13 14 16 18 19 20 22 25 30 35 40 50 64 76 90 Code 2th 3th R S Code 10th C D E F G H J W K X L M Z N O P Q R Y S T U V File Description Component P/N L 5 7 9 10 11 12 13 14 16 20 25 30 31 35 40 45 46 50 60 80 100 115 120 130 140 160 200 Code 11th 12th 0 5 0 7 0 9 1 0 1 1 1 2 1 3 1 4 1 6 2 0 2 5 3 0 3 1 3 5 4 0 4 5 4 6 5 0 6 0 8 0 A 0 B 5 C 0 D 0 E 0 G 0 K 0 RS ④Capacitance tolerance code Code 4th 5th 0 G 0 J 1 A 1 C 1 E 1 V 1 G 1 H 1 J 1 B 1 K 2 B 2 A 2 C 2 L 2 D 2 N 2 E 2 M 2 F 2 V 2 P 2 G 2 T 2 W 2 H 2 J Code 6th K M Q T V A C B D E F N G H Tol.(%) -10～+10 -20～+20 -10～+30 -5～+15 -10～+20 0～+20 -5～+20 -20~-10 -5～+5 0～+10 -20～-5 -15～+5 -20~0 -15~+15 ⑦Terminal code Code 13th O 14th - 15h - 编带Taping F=5mm (Ф4~Ф8) P 5 0 Taping F=2.5mm (Ф4~Ф5) X 2 5 B 5 3 2 2 1 0 5 5 0 5 C 3 6 C B 0 F 4 5 J 4 5 G - - L G 1 Specification Bulk packing Taped Straightpack Lead Cut L=3.6mm Lead Cut L=11.0mm Lead Forming & cut L=4.5mm Kink & cut L=4.5mm Long lead wire (-30mm) Horizontal forming Size Approval Sheet Version 01 Page STANDARD MANUAL ⑤Capacitance code Cap (µF) 0.10 0.22 0.33 0.47 0.68 1 1.5 2.2 3.3 4.7 5.6 6.8 8.2 10 12 15 18 22 33 47 56 68 82 100 150 220 330 470 560 680 820 1000 1500 2200 3300 4700 6800 10000 22000 33000 68000 7th R R R R R 0 1 2 3 4 5 6 8 1 1 1 1 2 3 4 5 6 8 1 1 2 3 4 5 6 8 1 1 2 3 4 6 1 2 3 6 ⑧Sleeve code Sleeve PVC PET 8 Code 8th 1 2 3 4 6 1 R R R R R R R 0 2 5 8 2 3 7 6 8 2 0 5 2 3 7 6 8 2 0 5 2 3 7 8 0 2 3 8 Code 16th C T 9th 0 2 3 7 8 0 5 2 3 7 6 8 2 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 2 2 2 2 2 2 3 3 3 3 8 产品规格 PRODUCT SPECIFICATION 8.1尺寸图 DIMENSIONS (mm) ※ΦD=5&L≤7,Φd=0.45mm;ΦD=5&L＞7,Φd=0.5mm ※ΦD=8&L＜20,Φd=0.5mm;ΦD=8&L≥20,Φd=0.6mm 8.2 特性参数CHARACTERISTIC PARAMETERS ※ TABLE-1：损耗 Dissipation Factor 额定工作电压 6.3 10 16 25 35 40 50 63 80 100 120 Rated voltage (Vdc) Tanδ (120Hz) 0.22 0.19 0.16 0.14 0.12 0.12 0.10 0.09 0.08 0.08 0.12 (Max) When nominal capacitance exceeds 1,000µF, add 0.02 to the value above for each 1,000µF increase (at 20℃, 120Hz) 损耗 Dissipation Factor ※ TABLE-2：阻抗比 Max. Impedance Ratio 额定工作 电压 Rated voltage (Vdc) |z|-25℃ /|z|20℃ 6.3 10 4 3 16 25 35 40 50 63 80 100 120 2 3 ※ TABLE-3：浪涌电压 Surge Voltage 额定工作电压 Rated voltage (Vdc) 耐浪涌电压 Surge Test(Vdc) 6.3 10 16 25 35 40 50 63 80 100 120 8 13 20 32 44 50 63 79 100 125 150 ※ TABLE-4：纹波电流频率因子 RIPPLE CURRENT FREQUENCY COEFFICIENT Freq.(Hz) Cap(μF) Cap.＜220 120 1k 10k 100k 0.40 0.75 0.90 1.00 220≤Cap.＜680 680≤Cap.＜2200 0.50 0.85 0.94 1.00 0.60 0.87 0.95 1.00 2200≤Cap.＜4700 Cap.≥4700 0.75 0.90 0.95 1.00 0.85 0.95 0.98 1.00 ※TABLE-5：纹波电流温度系数 RIPPLE CURRENT TEMPERATURE COEFFICIENT Capacitor ambient temperature 85℃ 65℃以下 电容器环境温度 15℃ 10℃ Guide limit of max.△Tx 中心温升△Tx最大极限值 Temperature coefficient(Actualrmsripple / Ratedrmsmax. ripple) 1.73 1.41 温度系数(实际纹波值/额定最大纹波值) NOTE:Temperature coefficient is not used in life formula but for reference. 注：温度系数不使用在寿命计算公式中,只能作为参考。 File Description Approval Sheet Component P/N RS Version 01 STANDARD MANUAL Page 105℃ 5℃ 1.00 9 8.3标准品一览表 STANDARD RATINGS (Impedance :at 20℃100kHz /Ωmax , Ripple current :mArms/105°C -100kHz) (Ωmax) Rated ripple current (mArms) (Ωmax) Rated ripple current (mArms) 0.22 0.570 200 3300 12.5×25 0.23 0.026 2230 6.3×9 0.22 0.740 180 3900 6.3×11 0.22 0.210 350 3900 12.5×30 0.23 0.024 2650 16×20 0.23 0.027 2530 8×9 0.22 0.270 310 8×12 0.22 0.130 660 4700 12.5×35 0.25 0.020 2880 5600 12.5×40 0.27 0.017 3350 10×9 0.22 0.170 590 5600 16×25 0.27 0.021 2930 820 10×13 0.22 0.080 870 1000 8×16 0.22 0.086 850 5600 18×20 0.27 0.026 2860 6800 16×30 0.29 0.017 3450 1200 8×20 0.22 0.070 1200 10×16 0.22 0.060 1050 6800 18×25 0.29 0.019 3140 1230 8200 16×35 0.33 0.015 3610 1500 10×20 0.22 0.046 1800 12.5×16 0.22 0.049 1400 8200 18×30 0.33 0.015 4170 1450 10000 16×40 0.37 0.013 4100 2200 10×20 0.24 0.042 1650 10000 18×35 0.37 0.014 4220 2700 10×30 2700 16×15 0.24 0.030 1920 12000 18×40 0.41 0.012 4300 0.24 0.041 1950 56 5×11 0.16 0.570 200 3300 3900 12.5×20 0.26 0.035 1910 56 6.3×9 0.16 0.740 180 12.5×25 0.26 0.026 2230 120 6.3×11 0.16 0.210 350 4700 12.5×30 0.28 0.024 2650 120 8×9 0.16 0.270 310 5600 12.5×35 0.30 0.020 2880 330 8×12 0.16 0.130 660 5600 16×20 0.30 0.027 2530 330 10×9 0.16 0.170 590 6800 12.5×40 0.32 0.017 3350 470 8×16 0.16 0.087 850 6800 16×25 0.32 0.020 2930 470 10×13 0.16 0.080 870 6800 18×20 0.32 0.026 2860 680 8×20 0.16 0.069 1050 8200 16×30 0.36 0.017 3450 680 10×16 0.16 0.060 1230 10000 16×35 0.40 0.015 3610 1000 10×20 0.16 0.046 1400 10000 18×25 0.40 0.019 3140 1000 12.5×16 0.16 0.049 1450 12000 16×40 0.44 0.013 4100 1200 10×25 0.16 0.042 1650 12000 18×30 0.44 0.015 4170 1500 10×30 0.16 0.031 1920 15000 18×35 0.50 0.014 4220 1500 12.5×20 0.16 0.035 1910 18000 18×40 0.56 0.012 4300 1500 16×15 0.16 0.041 1950 100 5×11 0.19 0.570 200 2200 12.5×25 0.18 0.027 2230 100 6.3×9 0.19 0.740 180 2700 12.5×30 0.18 0.024 2650 220 6.3×11 0.19 0.210 350 2700 16×20 0.18 0.027 2530 220 8×9 0.19 0.270 310 3300 12.5×35 0.20 0.020 2880 470 8×12 0.19 0.130 660 3900 12.5×40 0.20 0.017 3350 470 10×9 0.19 0.170 590 3900 16×25 0.20 0.021 2930 680 8×16 0.19 0.086 850 3900 18×20 0.20 0.026 2860 680 10×13 0.19 0.080 870 4700 16×30 0.22 0.017 3450 1000 8×20 0.19 0.069 1050 4700 18×25 0.22 0.019 3140 1000 10×16 0.19 0.060 1230 5600 16×35 0.24 0.015 3610 1200 10×20 0.19 0.046 1400 5600 18×30 0.24 0.015 4170 1500 10×25 0.19 0.042 1650 6800 16×40 0.26 0.013 4100 1500 12.5×16 0.19 0.049 1450 8200 18×35 0.30 0.014 4220 2200 10×30 0.21 0.030 1920 10000 18×40 0.34 0.012 4300 2200 12.5×20 0.21 0.035 1910 2200 16×15 0.21 0.041 1950 WV Cap Case size (Vdc) (µF) ΦD×L(mm) 150 5×11 150 330 330 680 680 6.3(0J) 10(1A) tanδ Impedance File Description Component P/N WV Cap Case size (Vdc) (µF) ΦD×L(mm) 10(1A) 16(1C) tanδ Impedance Approval Sheet RS Version 01 STANDARD MANUAL Page 10 Impedance Rated ripple current WV Impedance Rated ripple current (Ωmax) (mArms) (Vdc) 0.570 200 (Ωmax) (mArms) 0.024 2650 0.14 0.740 180 0.14 0.210 350 0.12 0.028 2247 0.12 0.027 2530 8×9 0.14 0.270 8×12 0.14 0.130 12.5×35 0.12 0.020 2880 12.5×40 0.12 0.017 3350 10×9 0.14 1800 16×25 0.12 0.021 2930 330 8×16 330 10×13 1800 18×20 0.12 0.026 2860 2200 16×30 0.14 0.017 3450 470 470 1050 2200 18×25 0.14 0.019 3140 1230 2700 16×35 0.14 0.015 3610 680 680 0.046 1400 2700 18×30 0.14 0.015 4170 0.049 1450 3300 16×40 0.16 0.012 4100 820 0.14 0.042 1650 3300 18×35 0.16 0.014 4220 10×30 0.14 0.030 1920 3900 18×40 0.16 0.011 4300 12.5×20 0.14 0.035 1910 22 5×12 0.10 0.680 190 16×15 0.14 0.041 1950 22 6.3×9 0.10 0.890 170 12.5×25 0.14 0.026 2230 56 6.3×11 0.10 0.300 300 12.5×30 0.14 0.024 2650 56 8×9 0.10 0.390 270 16×20 0.14 0.027 2530 100 8×12 0.10 0.170 560 12.5×35 0.16 0.020 2880 100 10×9 0.10 0.220 500 2200 18×20 0.16 0.026 2860 120 8×16 0.10 0.120 740 2700 12.5×40 0.16 0.017 3350 150 10×13 0.10 0.120 760 2700 16×25 0.16 0.021 2930 180 8×20 0.10 0.090 910 3300 16×30 0.18 0.017 3450 220 10×16 0.10 0.084 1050 3300 18×25 0.18 0.019 3140 270 10×20 0.10 0.058 1230 3900 16×35 0.18 0.015 3610 270 12.5×16 0.10 0.061 1260 3900 18×30 0.18 0.015 4170 330 10×25 0.10 0.055 1440 4700 16×40 0.20 0.013 4100 470 10×30 0.10 0.043 1700 4700 18×35 0.20 0.014 4220 470 12.5×20 0.10 0.045 1660 5600 18×40 0.22 0.012 4300 470 16×15 0.10 0.055 1690 33 5×11 0.12 0.570 200 560 12.5×25 0.10 0.034 1960 33 6.3×9 0.12 0.740 180 680 12.5×30 0.10 0.030 2310 56 6.3×11 0.12 0.210 350 820 12.5×35 0.10 0.025 2510 56 8×9 0.12 0.270 310 820 16×20 0.10 0.034 2210 150 8×12 0.12 0.130 660 1000 12.5×40 0.10 0.021 2920 150 10×9 0.12 0.170 590 1000 16×25 0.10 0.025 2560 220 8×16 0.12 0.086 850 1000 18×20 0.10 0.036 2490 220 10×13 0.12 0.080 870 1200 16×30 0.10 0.021 3010 270 8×20 0.12 0.069 1050 1200 18×25 0.10 0.026 2740 330 10×16 0.12 0.060 1230 1500 16×35 0.10 0.019 3150 470 10×20 0.12 0.046 1400 1800 16×40 0.10 0.016 3710 470 12.5×16 0.12 0.049 1450 1800 18×30 0.10 0.021 3640 560 10×25 0.12 0.042 1650 2200 18×35 0.12 0.017 3680 680 10×30 0.12 0.030 1920 2700 18×40 0.12 0.014 3800 680 12.5×20 0.12 0.035 1910 680 16×15 0.12 0.041 1950 1000 12.5×25 0.12 0.026 2230 WV Cap Case size (Vdc) (µF) ΦD×L(mm) 47 5×11 0.14 47 6.3×9 100 6.3×11 100 220 220 25(1E) 35(1V) Cap Case size (µF) ΦD×L(mm) 1200 12.5×30 0.12 1200 16×20 1200 16×25 310 1500 660 1800 0.170 590 0.14 0.086 850 0.14 0.080 870 8×20 0.14 0.069 10×16 0.14 0.060 10×20 0.14 12.5×16 0.14 10×25 1000 1000 1000 1500 1800 1800 2200 tanδ File Description Component P/N 35(1V) 50(1H) tanδ Approval Sheet RS Version 01 STANDARD MANUAL Page 11 Impedance Rated ripple current WV Cap Case size Impedance Rated ripple current (Ωmax) (mArms) (Vdc) (µF) ΦD×L(mm) 0.880 165 6.8 5×11 0.08 (Ωmax) (mArms) 1.400 0.09 1.150 145 6.8 6.3×9 125 0.08 1.900 110 6.3×12 0.09 0.350 265 15 8×9 0.09 0.460 235 15 6.3×12 0.08 0.570 205 8×9 0.08 0.750 56 8×12 0.09 0.220 500 180 27 8×12 0.08 0.360 56 10×9 0.09 0.290 355 440 27 10×9 0.08 0.450 310 82 8×16 0.09 82 10×13 0.09 0.160 665 39 8×16 0.08 0.250 450 0.110 690 47 10×13 0.08 0.170 120 8×20 480 0.09 0.120 820 56 8×20 0.08 0.190 120 565 10×16 0.09 0.076 950 68 10×16 0.08 0.110 600 180 10×20 0.09 0.056 1150 82 10×20 0.08 0.084 800 180 12.5×16 0.09 0.072 1150 100 12.5×16 0.08 0.110 750 220 10×25 0.09 0.046 1350 120 10×25 0.08 0.069 900 330 12.5×20 0.09 0.041 1500 150 12.5×20 0.08 0.062 1100 390 12.5×25 0.09 0.031 1900 220 12.5×25 0.08 0.047 1250 470 12.5×30 0.09 0.028 2300 220 16×20 0.08 0.048 1350 470 16 X 20 0.09 0.032 2000 270 12.5×30 0.08 0.042 1500 560 12.5×35 0.09 0.024 2500 330 12.5×35 0.08 0.036 1650 680 12.5×40 0.09 0.021 2800 330 16×25 0.08 0.038 1700 680 16×25 0.09 0.025 2600 330 18×20 0.08 0.045 1500 680 18×20 0.09 0.030 2500 390 12.5×40 0.08 0.032 1800 820 16×30 0.09 0.021 2850 470 16×30 0.08 0.032 1850 820 18×25 0.09 0.024 2800 470 18×25 0.08 0.036 1750 1000 16×35 0.09 0.019 2900 560 16×35 0.08 0.029 2000 1200 16×40 0.09 0.018 3400 560 18×30 0.08 0.030 1900 1200 18×30 0.09 0.020 3300 680 16×40 0.08 0.027 2200 1500 18×35 0.09 0.018 3400 680 18×35 0.08 0.027 2200 1800 18×40 0.09 0.017 3500 820 18×40 0.08 0.026 2700 68 10×13 0.08 0.170 480 10 6.3×11 0.12 6.000 85 100 10×16 0.08 0.110 600 15 6.3×12 0.12 5.000 110 120 10×20. 0.08 0.084 800 18 8×9 0.12 4.500 125 150 10×25 0.08 0.069 900 22 8×12 0.12 4.000 140 150 12.5×16 0.08 0.110 750 33 8×16 0.12 3.500 245 220 12.5×20 0.08 0.062 1100 33 10×13 0.12 3.500 245 330 12.5×25 0.08 0.047 1250 47 8×20 0.12 2.800 300 330 16×20 0.08 0.048 1350 47 10×16 0.12 2.800 315 390 12.5×30 0.08 0.042 1500 56 10×16 0.12 2.500 315 470 12.5×35 0.08 0.036 1650 68 10×16 0.12 2.200 315 470 16×25 0.08 0.038 1700 82 10×20 0.12 2.000 330 470 18×20 0.08 0.045 1500 100 10×25 0.12 1.700 410 560 12.5×40 0.08 0.032 1800 120 12.5×20 0.12 1.500 470 680 16×30 0.08 0.032 1850 150 12.5×25 0.12 1.000 620 680 18×25 0.08 0.036 1750 220 13×30 0.12 0.850 760 820 16×35 0.08 0.029 2000 220 16×20 0.12 0.850 760 WV Cap Case size (Vdc) (µF) ΦD×L(mm) 15 5×11 0.09 15 6.3×9 33 33 63(1J) 80(1B) tanδ 100(1K) 120(2B） tanδ 820 18×30 0.08 0.030 1900 270 16×25 0.12 0.600 860 1000 16×40 0.08 0.027 2200 270 18×20 0.12 0.600 860 1000 18×35 0.08 0.027 2200 330 16×30 0.12 0.460 930 1200 18×40 0.08 0.026 2700 330 18×25 0.12 0.460 930 470 16×40 0.12 0.330 1035 470 18×30 0.12 0.330 1035 File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 12 9 加工型式 LEAD FORMING TYPE 9.1 编带 Taping PIN Code: X ΦD=4~5 PIN Code: B ΦD=4~8 File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 13 PIN Code: B ΦD=10~12.5 ΦD=10~13 DIMENSIONS(mm) CASE SIZE Items Lead forming symbol Lead-wire diameter Pitch of componet Feed hole pitch Hole center to lead Hole center to component Symbol 4x5 4x7 X 5x5 5x7 B X 5x11 5x12 B X B 6.3x7 6.3x9 6.3x5 6.3x11 6.3x12 8x5 8x7 8x11 8x12 8x16 8x20 10x12 10x13 12.5x16 Tolerance 10x16 12.5x20 10x20 13x20 B B B B B B Φd 0.45 0.45 0.5 0.45 0.5 0.45/0.5 0.5/0.6 0.6 0.6 ±0.05 P 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 15.0 ±1.0 P0 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 15.0 ±0.2 5.1 5.1 4.6 4.6 3.85 5.0 ±0.7 6.35 6.35 6.35 6.35 6.35 7.5 ±1.0 2.5 2.5 3.5 3.5 5.0 5.0 ±0.5 P1 P2 5.1 5.6 5.1 5.35 5.1 6.35 6.35 5.35 6.35 Lead to lead distance F Height of component from tape center H 18.5 18.5 18.5 18.5 18.5 18.5 18.5 18.5 18.5 ±0.75 Tape width W 18.0 18.0 18.0 18.0 18.0 18.0 18.0 18.0 18.0 ±0.5 Hold down tape width W0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 min Feed hole position W1 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 ‘+0.75 -0.5 Hole down tape position W2 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 max 2.5 1.5 2.5 2.0 2.5 2.0 File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 14 PIN Code: P ΦD=4~8 DIMENSIONS(mm) Case Sise Items Symbol Lead forming symbol 6.3x11 8x5 8x7 8x11 8x12 8x16 8x20 P P P P 4x5 4x7 5x5 5x7 5x11 6.3x5 6.3x7 P P P P P Tolerance Lead-wire diameter Φd 0.45 0.45 0.45 0.5 0.45 0.5 0.5 0.45/0.5 0.5/0.6 ±0.05 Pitch of componet P 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 ±1.0 P0 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 12.7 ±0.2 P1 3.85 3.85 3.85 3.85 3.85 3.85 3.85 3.85 3.85 ±0.7 Hole center to component P2 6.35 6.35 6.35 6.35 6.35 6.35 6.35 6.35 6.35 ±1.0 Lead to lead distance F 1.5 2.0 2.0 2.0 2.5 2.5 2.5 3.5 3.5 ±0.5 Lead to lead distance F1 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 +0.8 -0.2 Height of component from tape center H 18.5 18.5 18.5 18.5 18.5 18.5 18.5 18.5 18.5 ±0.75 Lead-wire clinch height H0 16.0 16.0 16.0 16.0 16.0 16.0 16.0 16.0 16.0 ±0.5 Tape width W 18.0 18.0 18.0 18.0 18.0 18.0 18.0 18.0 18.0 ±0.5 Hold down tape width W0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 11.0 min Feed hole position W1 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 +0.75 -0.5 Hole down tape position W2 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 max Version 01 Feed hole pitch Hole center to lead File Description Component P/N Approval Sheet RS STANDARD MANUAL Page 15 9.2 端子切脚或成型 Lead Cut& Lead Forming ● Lead cut ● Lead forming and cut PIN code：C Range：Φ4~Φ18 PIN code：F Range：Φ4~Φ8 ΦD F L ΦD F L 4 1.5 3.0~12.0 4 5.0 3.5，4.5，5.0，7.0 5 2.0 3.0~12.0 5 5.0 3.5，4.5，5.0，7.0 6.3 2.5 3.0~12.0 6.3 5.0 3.5，4.5，5.0，7.0 8 3.5 3.0~12.0 8 5.0 3.5，4.5，5.0，7.0 10 5.0 3.0~12.0 - - - 12.5 5.0 3.0~12.0 - - - 16 7.5 3.0~12.0 - - - 18 7.5 3.0~12.0 - - - ● Kink & Cutting PIN code: J Range: Φ10～Φ18 ΦD F L 10 5.0 4.0，4.5，5.0 12.5 5.0 4.0，4.5，5.0 16 7.5 4.0，4.5，5.0 18 7.5 4.0，4.5，5.0 File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 16 10 包装PACKING 包装标签内容 Label on the packaging box or bag (The following items shall be marked on the label) (Inside box or bag) ： 1 系列 Series 2 料号 P/N 3 容量 Rated capacitance 4 电压 Rated voltage 5 数量 Quantity 6 尺寸 Size 7 批号LOT Number 编带产品按下图包装 Taped Packing 散包装按下图包装方式 Bulk Packing 内盒 inner box 外箱 carton File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 17 11 其它说明 OTHER REMARKS 11.1铝电解电容器使用注意事项 Important Information On The Application Of Aluminium Electrolytic Capacitors 1 直流铝电解电容器应按正确的极性使用 DC aluminium electrolytic capacitors are normally polarized 当直流铝电解电容器按反极性接入电路时，电容器会导致电子线路短路，由此产生的电流会引致电容器损坏。若电路中有可能 在负 引线施加正电压，请选用无极性产品。 When reverse voltage is applied on DC aluminium electrolytic capacitor the circuit will be short out and the capacitor will be damaged due to abnormal current flows through the capacitor. Please use non-polar types of capacitors the positive voltage is applied on the cathode terminal. 2 在额定工作电压以下使用 Use capacitor within rated voltage 当电容器上所施加电压高于额定工作电压时，电容器的漏电流将上升，其电气特性将在短时内劣化直至损坏。 请注意电压峰值勿超出额定工作电压。 When capacitor is used at higher voltage than the rated voltage, leakage current may increase and characteristics may be deteriorated and damaged in a short period. Please take extra caution that the peak voltage should not exceed the rated voltage. 3 作快速充放电使用 Sudden charge and discharge 当常规电容器被用作快速充电用途,其使用寿命可能会因为容量下降,温度急剧上升等而缩减。 When aluminium electrolytic capacitors for general purpose-use are employed in rapid charge and discharge its life may be shortened resulted from capacitance decrease, heat rise, etc. 4 电容器储存 Storage of the capacitor ① 请保管在室温5～35℃，湿度75%以下的环境。 We recommend the following conditions for storage: Ambient temperature：5~35℃,Ambient humidity：75%RH; a) 产品储存期限:≤12个月；Storage life:≤12 months; b) 产品储存期限 12个月时，需充电后再使用； If storage life 12 months，the products need to be charged again before c) 存放时间超过3年的电解电容器应报废处理；If storage time three years, the products need to be discarded; d) 库存有效期以套管上印刷的时间开始计算；Expiry date: calculating from the date marked on the sleeve; e) 请尽量以包装状态保管；Please keep capacitors in the original package; f) 请避免在以下环境中保管：Avoid storing the capacitors under such circumstances: ※ 溅水、高温高湿及结露的环境。With water and oil or damp & dewing location ※ 溅油、或者充满气体油成分的环境。With gas and oil. ※ 充满酸性有毒气体（硫化氢，亚硫酸，亚硝酸，氯，溴，溴化甲烷等）的环境。 With toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, bromine and methane ※ 阳光、臭氧、紫外线及放射线照射的环境。With direct sunlight, Ozone, ultraviolet rays or radiation. ② 当电容器长期储存后，漏电流会升高，温度愈高，漏电流上升愈快，因此应注意储存环境。在电容器上施加电压后，漏电流值 降，如铝电解电容器的漏电流上升对电路有不良影响，请在使用前充电处理。 Leakage current tends to increase when capacitors have been stored for long period of time.The higher storage Temp.rise, the higher leakage current increase. Please take caution when selecting the storage location. The leakage current will decrease gradually as voltage is applied to the capacitor. The capacitor is subjected to aging before using where increased leakage may cause problems in the circuit. 5 施加纹波电流应小于额定值 Use capacitor within rated ripple current 施加纹波电流超过额定值后，会导致电容器体过热，容量下降，寿命缩短。电容器上标注了额定电压，请将和直流电压叠加的 纹波 电压的峰值控制在额定工作电压以下。 If excessive ripple current is applied on the capacitor, excessive heat will be generated inside, the capacitance be reduced and capacitor’s life shall be shortened. Rated voltage has been marked on the capacitor; therefore, the peak value of the ripple voltage should be less than the rated voltage. File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 18 19 6 使用环境温度 Ambient temperature 铝电解电容器使用寿命会受到环境温度的影响。据科学统计，使用环境温度下降10℃其使用寿命增加1倍。 Life of aluminium electrolytic capacitor is affected by the ambient temperature.It is generally known that the life doubles for each 10℃ decrease in temperature. 7 引出线强度 Tensile strength of lead wire 当拉力施加到电容器引出线，该拉力将作用于电容器内部，这可能导致电容器内部短路，开路或漏电流上升。在电容器焊装到电 路 板，请勿强烈摇动电容器。 When a strong force is applied to the lead wires or terminals, stress is put on the internal connections, which may result in short circuit, open circuit or leakage current increase. Therefore it is not advisable to bend or handle a capacitor after it has been to the PC board. 8 焊接过程耐热性 Heat resistance at the soldering process 当电容器装至电路板浸焊或波峰焊时，其塑料套管可能因焊接时间过长、温度过高而发生破裂或二次收缩。 During soldering process, secondary shrinkage or sleeve crack may occur when soldering temperature is too high or soldering time is too long. 9 电路板的安装孔孔距及安装位置 Hole pitch and position of PC board 电路板安装孔的设计应与产品说明书的引线脚距相一致，如果将电容器强行插入孔距不配套的电路板，那么会有应力作用于引出 线，这可能导致短路或漏电流上升。 When designing a PC board, its hole pitch should be designed to coincide with the lead pitch(lead spacing) of the specified in the catalog or specifications. When a capacitor is forcibly inserted into an unmatched hole pitch, a will put on the leads and which could result in a short circuit or increased leakage current. 10 关于焊接以后的清洗 Cleaning after soldering ①电容器不能用卤化有机物系列的清洗剂进行清洗。如果必须清洗，请使用能够保证电容器质量的清洗剂。 The aluminium electrolytic capacitors should be free of halogenated solvents during board cleaning after soldering. Use solvent proof capacitors when halogenated solvents are used. ②对于能够保证电容器质量的清洗剂，清洗后请不要在清洗溶液或者密封容器中保管。清洗后的电容器请和电路板一起在热风下 干 燥10分钟以上，热风的温度不可高于电容器规定上限温度。 After cleaned with the solvent which can guarantee the quality of capacitors, the capacitors should not be kept in solvent environments of non-ventilated places. Let the capacitors after cleaning dry with hot blast fully above 10 mins and the temperature of hot blast should not be over than specified upper limit of that of capacitors. 11 关于固定剂以及镀层（涂层剂）Adhesives、fixative and coating materials(coating agent) ①请不要使用含有卤化有机物系列的固定剂及镀层（涂层剂）。 Do not use halogenated adhesives and coating materials to fix aluminium electrolytic capacitors. ②请不要让固定剂及镀层（涂层剂）将电容器封口部位（端子一侧）全部封住。 Do not cover up all the sealing area of capacitors with adhesives、fixative or coating materials(coating agent),make coverage only partial. 12 符合 RoHS RoHS Compliance 符合欧盟RoHS的最新标准，若客户有特殊要求，按照双方签订的相关协议为准。 Completely in accordance with the latest standard of RoHS or relevant agreements reached by both parts if customer has special requirements. File Description Component P/N Approval Sheet RS Version 01 STANDARD MANUAL Page 19