EGF228M1VI30RR

SAMXON A L U M I N U M E L E C T R O LY T I C C A PA C I T O R S 2017-2018 Contents (目錄) Series Chart 產品體系圖 Series Table 產品一覽表 Application Guidelines 應用指引 Index 002 004 006 015 016 017 018 Part Number System 產品編碼 Taping Specifications 編帶產品規格 Packing Specifications 包裝規格 Lead Forming Specifications 成型產品規格 Miniature Aluminum Electrolytic Capacitors 小型鋁電解電容器 Miniature Miniature Type 小型品 General Purpose 普通品 Low Impedance Type 低阻抗品 High Reliability Type 高可靠品 High Temperature Type 高溫度品 For Audio Type 音響用品 Non-polarized Type 無極性品 Large Can Aluminum Electrolytic Capacitors 大型鋁電解電容器 093 095 113 146 147 Lug / Snap-in Terminal Type Case Size Table 插入/自立型產品圖解 Lug / Snap-in Terminal Standard Type 插入/自立型標准品 Large Can Pen Cap Type 筆型電容 Lug / Snap-in Terminal High Reliability Type 插入/自立型高可靠品 Screw Terminal Type Case Size Table 螺釘型產品圖解 Screw Terminal Type 螺釘型 V-Chip Aluminum Electrolytic Capacitors 貼片式鋁電解電容器 178 Surface Mount Type Packing Specifications 貼片品包裝規格 179 Surface Mount Type 貼片品 V-Chip 019 023 034 061 072 081 083 087 1 Series Chart (產品體系圖) 導針型 Radial Lead Type Low Impedance SK P.47 SH P.45 GK P.43 Index -40 ~ +105˚C 6,000 ~ 10,000 Hrs Highest Ripple Current Lower Impedance Longest Life -40 ~ +105˚C 5,000 ~ 6,000 Hrs Highest Ripple Current Lowest Impedance Long Life -40 ~ +105˚C 2,000 ~ 5,000 Hrs Higher Ripple Current Lower Impedance GF Miniaturization KF P.19 -40 ~ +105˚C 1,000 Hrs 5mmL KS P.34 P.21 RF P.57 -55 ~ +105˚C 1,000 ~ 4,000 Hrs Wide Temperature High Ripple Current Low Impedance -40 ~ +105˚C 1,000 Hrs 7mmL P.23 -40(-25) ~ +85˚C 2,000 Hrs General KM P.26 RR P.61 -40(-25) ~ +105˚C 3,000 Hrs Long Life High Ripple Current P.30 -55 ~ +105˚C 1,000 ~ 2,000 Hrs Wide Temperature P.83 -40 ~ +85˚C 1,000 Hrs Non-polar NH RE P.66 -40 ~ +85˚C 1,000 Hrs For Audio Standard OM P.85 KM P.87 RT P.63 RD P.68 RH P.70 -40(-25) ~ +105˚C 10,000 ~ 12,000 Hrs Longest Life High Ripple Current RW P.89 -25 ~ +105˚C 5,000 Hrs Long Life Pen Cap -25 ~ +105˚C 2,000 Hrs Pen Cap RY P.91 -25 ~ +105˚C 10,000 Hrs Longer Life Pen Cap High Temperature P.32 -25 ~ +105˚C 2,000 Hrs Withstanding Overvoltage BD P.72 -40 ~ +125˚C 1,000 ~ 2,000 Hrs High Temperature RA -40(-25) ~ +130˚C 1,000 ~ 4,000 Hrs High Temperature High Ripple Current 2 P.55 Pen Cap -40 ~ +105˚C 1,000 Hrs Non-polar P.81 GY -40 ~ +105˚C 4,000 ~ 10,000 Hrs Longer Life Low Impedance -40(-25) ~ +105˚C 8,000 ~ 10,000 Hrs Longer Life High Ripple Current -25 ~ +105˚C 8,000 ~ 10,000 Hrs Longer Life Special Type FA P.51 P.40 -40 ~ +105˚C 4,000 ~ 10,000 Hrs High Ripple Current Longer Life Low Impedance -40(-25) ~ +105˚C 5,000 Hrs Long Life High Ripple Current Non-polar NP RS GT High Reliability -40(-25) ~ +105˚C 2,000 Hrs General KG P.38 -40 ~ +105˚C 3,000 ~ 7,000 Hrs High Ripple Current Longer Life Low Impedance General GS SF -40 ~ +105˚C 3,000 ~ 6,000 Hrs High Ripple Current Long Life Low Impedance -40 ~ +105˚C 1,000 ~ 4,000 Hrs High Ripple Current Low Impedance P.74 RB -40(-25) ~ +130˚C 3,000 ~ 4,000 Hrs High Temperature High Ripple Current Long Life P.77 RC -25 ~ +130˚C 5,000 ~ 6,000 Hrs High Temperature High Ripple Current Longer Life P.79 Series Chart (產品體系圖) 插入/自立型 Lug / Snap-in Terminal Type General TP P.95 -40(-25) ~ +85˚C 2,000 Hrs Standard P.111 Index LP Long Life -25 ~ +85˚C 10,000 Hrs Ultra Long Life HP GP P.113 -40(-25) ~ +105˚C 2,000 Hrs Wide Temperature KP P.143 -40(-25) ~ +105˚C 2,000 Hrs Ultra Small Size EP P.121 -40(-25) ~ +105˚C 3,000 Hrs Long Life P.127 -40(-25) ~ +105˚C 5,000 Hrs Long Life SP P.134 -40(-25) ~ +105˚C 7,000 Hrs Longer Life Special Type QP VP P.103 -40(-25) ~ +85˚C 2,000 Hrs Withstanding Vibration P.137 -40(-25) ~ +105˚C 2,000 Hrs Withstanding Vibration Low Impedance AP UP P.101 -40 ~ +85˚C 1,000 Hrs For Audio DP P.119 FP P.109 -40(-25) ~ +85˚C 5,000 Hrs Long Life Low Impedance -25 ~ +105˚C 2,000 Hrs Withstanding Overvoltage P.132 -40(-25) ~ +105˚C 5,000 Hrs Long Life Low Impedance 螺釘型 Screw Terminal Type General WR Long Life WI P.147 -40(-25) ~ +85˚C 2,000 Hrs Standard WX P.152 P.160 -25 ~ +85˚C 2,000 Hrs High Ripple Current -40(-25) ~ +85˚C 5,000 Hrs Longer Life WT WF P.155 -40(-25) ~ +105˚C 2,000 Hrs Standard WH -25 ~ +85˚C 10,000 Hrs Longer Life P.169 High Temperature WL P.172 -25 ~ +85˚C 20,000 Hrs Ultra Long Life WB P.175 -25 ~ +125˚C 3,000 Hrs High Temperature P.164 -40(-25) ~ +105˚C 5,000 Hrs Long Life 貼片型 Surface Mount Type Low Impedance General VS1 P.179 -40 ~ +85˚C 2,000 Hrs General Φ4 ~ Φ10 -55 ~ +105˚C 1,000 Hrs General Φ4 ~ Φ6.3 High Voltage VTG -25 ~ +105˚C 3,000 Hrs High Voltage Φ8 ~ Φ10 VT1 P.185 P.181 VTD -55 ~ +105˚C 2,000 Hrs Low Impedance Φ6.3 ~ Φ10 P.183 VZ2 P.187 -55 ~ +105˚C 2,000 Hrs Low Impedance Φ4 ~ Φ10 Long Life VTL P.189 -40 ~ +105˚C 3,000 ~ 5,000 Hrs Long Life Φ4 ~ Φ10 3 Series Table (產品一覽表) Series Features (特點) Letter Color Sleeve Color Temp. (˚C) Voltage (VDC) Cap. (μF) Load Life Page 小型鋁電解電容器 Miniature Aluminum Electrolytic Capacitors 小型品 Miniature Type KF 5mmL (高), +105˚C White (白) Black (黑) -40 ~ +105 4 ~ 50 3.3 ~ 330 1,000 Hrs. KS 7mmL (高), -40˚C ~ +105˚C White (白) Black (黑) -40 ~ +105 6.3 ~ 50 3.3 ~ 330 1,000 Hrs. P.19 P.21 Index 普通品 General Purpose GS +85˚C, General (普通品) White (白) Dark Blue (深藍) -40(-25) ~ +85 6.3 ~ 450 2.2 ~ 22000 2,000 Hrs. KM +105˚C, General (普通品) White (白) Black (黑) -40(-25) ~ +105 6.3 ~ 450 0.47 ~ 33000 2,000 Hrs. P.23 P.26 KG -55 ~ +105˚C, Wide Temperature (寬溫度) White (白) Black (黑) -55 ~ +105 6.3 ~ 100 2.2 ~ 22000 1,000 ~ 2,000 Hrs. P.30 OM +105˚C, Withstanding Overvoltage (耐過電壓品) White (白) Black (黑) -25 ~ +105 200 & 400 22 ~ 330 2,000 Hrs. P.32 低阻抗品 Low Impedance Type +105˚C, High Ripple Current, Low Impedance (高紋波, 低阻抗) White (白) Sea Green (海綠) -40 ~ +105 6.3 ~ 100 3.3 ~ 4700 1,000 ~ 4,000 Hrs. P.34 +105˚C, High Ripple Current, Long Life Assurance, SF Low Impedance (高紋波, 長壽命, 低阻抗) White (白) Black (黑) -40 ~ +105 6.3 ~ 100 15 ~ 3900 3,000 ~ 6,000 Hrs. P.38 Silver (銀) Black (黑) -40 ~ +105 6.3 ~ 100 15 ~ 3900 4,000 ~ 10,000 Hrs. P.40 White (白) Sea Green (海綠) -40 ~ +105 6.3 ~ 25 100 ~ 3900 2,000 ~ 5,000 Hrs. P.43 +105˚C, Highest Ripple Current, Lowest Impedance, Long Life Assurance (更高紋波, 更低阻抗, 長壽命) White (白) Black (黑) -40 ~ +105 6.3 ~ 50 100 ~ 8200 5,000 ~ 6,000 Hrs. P.45 +105˚C, Highest Ripple Current, Longest Life Assurance, SK Lower Impedance (更高紋波, 更長壽命, 較低阻抗) Silver（銀） Black（黑） –40 ~ +105 6.3 ~ 100 33 ~ 8200 6,000 ~ 10,000 Hrs P47 +105˚C, High Ripple Current, Longer Life Assurance, RS Low Impedance (高紋波, 較長壽命, 低阻抗) White (白) Black (黑) -40 ~ +105 6.3 ~ 100 15 ~ 4700 3,000 ~ 7,000 Hrs. P.51 +105˚C, Longer Life Assurance, Low Impedance (較長壽命, 低阻抗) White (白) Black (黑) -40 ~ +105 6.3 ~ 100 3.3 ~ 15000 4,000 ~ 10,000 Hrs. P.55 White (白) Black (黑) -55 ~ +105 6.3 ~ 100 22 ~ 4700 1,000 ~ 4,000 Hrs. P.57 GF GT +105˚C, High Ripple Current, Longer Life Assurance, Low Impedance (高紋波, 較長壽命, 低阻抗) +105˚C, Higher Ripple Current, Lower Impedance GK (較高紋波, 較低阻抗) SH GY -55 ~ +105˚C, Wide Temperature, High Ripple Current, RF Low Impedance (寬溫度, 高紋波, 低阻抗) 高可靠品 High Reliability Type Long Life Assurance, High Ripple Current RR (長壽命, 高紋波) White (白) Black (黑) -40(-25) ~ +105 160 ~ 450 1 ~ 220 3,000 Hrs. P.61 Long Life Assurance, High Ripple Current RT (長壽命, 高紋波) White (白) Black (黑) -40(-25) ~ +105 160 ~ 450 1 ~ 220 5,000 Hrs. P.63 White (白) Black (黑) -25 ~ +105 160 ~ 450 1 ~ 220 8,000 ~ 10,000 Hrs. P.66 RD RE Longer Life Assurance (較長壽命) Longer Life Assurance, High Ripple Current (較長壽命, 高紋波) White (白) Black (黑) -40(-25) ~ +105 160 ~ 500 1 ~ 330 8,000 ~ 10,000 Hrs. P.68 RH Longest Life Assurance, High Ripple Current (更長壽命, 高紋波) White (白) Black (黑) -40(-25) ~ +105 160 ~ 500 1 ~ 220 10,000 ~ 12,000 Hrs. P.70 BD +125˚C, High Temperature (高溫度) White (白) Black (黑) -40 ~ +125 10 ~ 50 3.3 ~ 3900 1,000 ~ 2,000 Hrs. P.72 +130˚C, High Temperature, High Ripple Current RA (高溫度, 高紋波) White (白) Black (黑) -40(-25) ~ +130 10 ~ 450 1 ~ 4700 1,000 ~ 4,000 Hrs. P.74 +130˚C, High Temperature, High Ripple Current, RB Long Life Assurance (高溫度, 高紋波, 長壽命) White (白) Black (黑) -40(-25) ~ +130 160 ~ 450 1.5 ~ 100 3,000 ~ 4,000 Hrs. P.77 +130˚C, High Temperature, High Ripple Current, RC Longer Life Assurance (高溫度, 高紋波, 較長壽命) White (白) Black (黑) -25 ~ +130 160 ~ 450 1.5 ~ 100 5,000 ~ 6,000 Hrs. P.79 高温度品 High Temperature Type 音響用品 For Audio Type Standard, For Audio FA (標準品, 音響電容) White (白) Coffee (咖啡) -40 ~ +85 6.3 ~ 100 2.2 ~ 10000 1,000 Hrs. NP +85˚C, Non-polar (無極性) Black (黑) Green (綠) -40 ~ +85 6.3 ~ 100 2.2 ~ 6800 1,000 Hrs. P.83 NH +105˚C, Non-polar (無極性) White (白) Black (黑) -40 ~ +105 6.3 ~ 100 2.2 ~ 1000 1,000 Hrs. P.85 White (白) Black (黑) -25 ~ +105 200 ~ 450 22 ~ 270 2,000 Hrs. P.87 無極性品 Non-polarized Type 筆型電容 Pen Cap Type KM +105˚C, Pen Cap (筆型電容) P.81 RW +105˚C, Pen Cap, Long Life Assurance (筆型電容, 長壽命) White (白) Black (黑) -25 ~ +105 200 ~ 450 22 ~ 220 5,000 Hrs. P.89 RY +105˚C, Pen Cap, Longer Life Assurance (筆型電容, 較長壽命) White (白) Black (黑) -25 ~ +105 200 ~ 450 22 ~ 220 10,000 Hrs. P.91 大型鋁電解電容器 Large Can Aluminum Electrolytic Capacitors 標準品 Standard Type LP Lug / Snap-in Terminal Type, Standard (插入/自立型, 標準品) White (白) Black (黑) -40(-25) ~ +85 10 ~ 500 56 ~ 82000 2,000 Hrs. P.95 AP Lug / Snap-in Terminal Type, For Audio (插入/自立型, 音響電容) White (白) Coffee (咖啡) -40 ~ +85 16 ~ 100 680 ~ 10000 1,000 Hrs. P.101 White (白) Black (黑) -40(-25) ~ +85 10 ~ 500 56 ~ 82000 2,000 Hrs. P.103 Lug / Snap-in Terminal Type, Long Life Assurance, Low Impedance (插入/自立型, 長壽命, 低阻抗) White (白) Black (黑) -40(-25) ~ +85 160 ~ 450 47 ~ 2200 5,000 Hrs. P.109 Lug / Snap-in Terminal Type, Ultra Long Life Assurance TP (插入/自立型, 超長壽命) White (白) Black (黑) -25 ~ +85 200 ~ 450 56 ~ 2200 10,000 Hrs. P.111 Lug / Snap-in Terminal Type, Withstanding Vibration QP (插入/自立型, 耐振動) DP 4 Series Table (產品一覽表) Features (特點) Letter Color Sleeve Color Temp. (˚C) Voltage (VDC) Cap. (μF) Load Life Page 大型鋁電解電容器 Large Can Aluminum Electrolytic Capacitors 高可靠品 High Reliability Type Lug / Snap-in Terminal Type, Wide Temperature HP (插入/自立型, 寬溫度) White (白) Black (黑) -40(-25) ~ +105 10 ~ 500 47 ~ 56000 2,000 Hrs. P.113 Lug / Snap-in Terminal Type, Withstanding Overvoltage (插入/自立型, 耐過電壓品) White (白) Black (黑) -25 ~ +105 200 ~ 450 56 ~ 1200 2,000 Hrs. P.119 Lug / Snap-in Terminal Type, Long Life Assurance KP (插入/自立型, 長壽命) White (白) Black (黑) -40(-25) ~ +105 10 ~ 450 47 ~ 56000 3,000 Hrs. P.121 Lug / Snap-in Terminal Type, Long Life Assurance EP (插入/自立型, 長壽命) White (白) Black (黑) -40(-25) ~ +105 10 ~ 450 82 ~ 47000 5,000 Hrs. P.127 Lug / Snap-in Terminal Type, Long Life Assurance, FP Low Impedance (插入/自立型, 長壽命, 低阻抗) Silver (銀) Black (黑) -40(-25) ~ +105 10 ~ 450 100 ~ 33000 5,000 Hrs. P.132 UP SP Lug / Snap-in Terminal Type, Longer Life Assurance (插入/自立型, 較長壽命) White (白) Black (黑) -40(-25) ~ +105 160 ~ 450 39 ~ 2200 7,000 Hrs. P.134 VP Lug / Snap-in Terminal Type, Withstanding Vibration (插入/自立型, 耐振動) White (白) Black (黑) -40(-25) ~ +105 10 ~ 500 39 ~ 56000 2,000 Hrs. P.137 GP Lug / Snap-in Terminal Type, Ultra Small Size (插入/自立型, 超小體積) White (白) Black (黑) -40(-25) ~ +105 160 ~ 450 100 ~ 3300 2,000 Hrs. P.143 螺釘型 Screw Terminal Type +85˚C, Screw Terminal Type, Standard WR (螺釘型, 標準品) Silver (銀) Black (黑) -40(-25) ~ +85 10 ~ 630 100 ~ 680000 2,000 Hrs. P.147 WI +85˚C, Screw Terminal Type, High Ripple Current (螺釘型, 高紋波) Silver (銀) Black (黑) -25 ~ +85 350 ~ 450 390 ~ 22000 2,000 Hrs. P.152 WT +105˚C, Screw Terminal Type, Standard (螺釘型, 標準品) Silver (銀) Black (黑) -40(-25) ~ +105 10 ~ 500 180 ~ 680000 2,000 Hrs. P.155 WX +85˚C, Screw Terminal Type, Long Life Assurance (螺釘型, 長壽命) Silver (銀) Black (黑) -40(-25) ~ +85 10 ~ 550 1000 ~ 1500000 5,000 Hrs. P.160 WF +105˚C, Screw Terminal Type, Long Life Assurance (螺釘型, 長壽命) Silver (銀) Black (黑) -40(-25) ~ +105 10 ~ 500 330 ~ 390000 5,000 Hrs. P.164 WH +85˚C, Screw Terminal Type, Longer Life Assurance (螺釘型, 較長壽命) Silver (銀) Black (黑) -25 ~ +85 350 ~ 500 470 ~ 22000 10,000 Hrs. P.169 WL +85˚C, Screw Terminal Type, Ultra Long Life Assurance (螺釘型, 超長壽命) Silver (銀) Black (黑) -25 ~ +85 350 ~ 450 2200 ~ 12000 20,000 Hrs. P.172 WB +125˚C, Screw Terminal Type, High Temperature (螺釘型, 高溫度) Silver (銀) Black (黑) -25 ~ +125 160 ~ 400 330 ~ 15000 3,000 Hrs. P.175 貼片式鋁電解電容器 V-Chip Aluminum Electrolytic Capacitors 貼片品 Surface Mount Type VS1 +85˚C, Surface Mount Type, General Purpose（貼片普通品） –40 ~ +85 VT1 +105˚C, Surface Mount Type, General Purpose, 1,000 Hours（貼片普通品） –55 ~ +105 6.3 ~ 50 0.1 ~ 220 1,000 Hrs. P.181 VTD +105˚C, Surface Mount Type, General Purpose, 2,000 Hours（貼片普通品） –55 ~ +105 25 ~ 100 4.7 ~ 1500 2,000 Hrs. P.183 VTG +105˚C, Surface Mount Type, High Voltage, 3,000 Hours（高壓貼片品） –25 ~ +105 400 2.2 ~ 4.7 3,000 Hrs. P.185 VZ2 +105˚C, Surface Mount Type, Low Impedance（低阻抗貼片品） –55 ~ +105 6.3 ~ 100 1 ~ 1500 2,000 Hrs. P.187 VTL +105˚C, Surface Mount Type, Long Life, 3,000/5,000 Hours（長壽命貼片品） –40 ~ +105 10 ~ 50 0.1 ~ 1000 3,000/5,000Hrs. P.189 6.3 ~ 50 0.1 ~ 1500 2,000 Hrs. 5 P.179 Index Series Application Guidelines (應用指引) 1. Circuit Design Index 1.1 Please make sure the environment and mounting conditions to which the capacitor will be exposed are within the conditions specified in this catalog (or alternate SAMXON’S specifications, such as series drawings). 1.2 Operating temperature and applied ripple current must be within SAMXON’S specification. ■ The capacitor must not be used in an ambient temperature which exceeds the operating temperature specified in this catalog. ■ Do not apply excessive current which exceeds the allowable ripple current. 1.3 Appropriate capacitors which comply with the life requirement of the products should be selected when designing the circuit. 1.4 Aluminum electrolytic capacitors are polarized. Do not apply reverse voltage or AC voltage. Please use nonpolar capacitors for a circuit that can possibly see reversed polarity. Note: Even non-polar capacitors cannot be used for AC voltage application. 1.5 Do not use aluminum electrolytic capacitors in a circuit that requires rapid and very frequent charge/discharge. In this type of circuit, it is necessary to use a special design capacitor with extended life characteristics. 1.6 Do not apply excess voltage. 1.7 ■ Please pay attention so that the peak voltage, which is DC voltage overlapped by ripple current, will not exceed the rated voltage. ■ In the case where more than 2 aluminum electrolytic capacitors are used in series , please make sure that applied voltage will be lower than rated voltage and the voltage will be applied to each capacitor equally using a balancing resistor in parallel with the capacitor. Outer sleeve of the capacitor is not guaranteed as an electrical insulator. 1.8 ■ Do not use a standard sleeve on a capacitor in applications that require the electrical insulation. When the application requires special insulation, please contact our sales office for details. ■ Do not connect the blank terminal (reinforcing terminal) of a multi-terminal (three- or four-terminal) product of the snap-in type to another circuit it may cause a short circuit. Capacitors must not be used under the following conditions: 1.9 ■ Capacitors must not be exposed to water (including condensation), brine or oil. ■ Ambient conditions that include toxic gases such as hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonium, etc. ■ Ambient conditions that expose the capacitor to ozone, ultraviolet ray and radiation. ■ Severe vibration and physical shock conditions that exceed SAMXON’S specifications. When designing a circuit board, please pay attention to following: 6 ■ Make the hole spacing on the P.C. board match the lead spacing of the capacitor. ■ There should not be any circuit pattern or circuit wire above the capacitor safety vent. ■ Unless otherwise specified, following clearance should be mad above the safely vent. Case Diameter Gap Required Φ6.3~16 2mm or more Φ18~35 3mm or more Φ40 or more 5mm or more ■ In case the vent side is placed toward P.C. board (such as end seal vented parts), make a corresponding hole on the P.C. board to release the gas when vent is operated. The hole should be made to match the capacitor vent position. ■ Do not install screw terminal capacitor with end seal side down. When you install a screw terminal capacitor in a horizontal mount, the positive terminal must be in the upper position. 1.10 The main chemical solution of the electrolyte and the separator paper used in the capacitors are combustible. The electrolyte is conductive. When it comes in contact with the P.C. board, there is a possibility of pattern corrosion or short circuit between the circuit pattern which could in result of smoking or catching fire. Do not locate any circuit pattern beneath the capacitor end seal. 1.11 Do not design a circuit board so that heat generating components such as resistor and transistors are placed near an aluminum capacitor or reverse side of P.C. board (under the capacitor). 1.12 Electrical characteristics may vary depending on changes in temperature and frequency. Please consider this variation when you design circuits. 1.13 When you are designing capacitors for use on double-sided P.C. boards, do not place capacitors on circuit patterns or over the unused holes. 1.14 The torque for terminal screw or brackets screws must be within the specified value on SAMXON’s drawings. 1.15 When you install more than 2 capacitors in parallel, consider the balance of current flowing into the capacitors. 2. Mounting 2.1 Once a capacitor has been assembled in the set and power applied, do not attempt to reuse the capacitor in other circuits or application. 2.2 Electric potential between positive and negative terminal may exist as a result or returned electromotive force, so please discharge the capacitor using a 1kΩ resistor. 2.3 Leakage current of the parts that have been stored for more than 6 months may increase. When leakage current has increased, please perform a voltage treatment using 1kΩ resistor. 2.4 Please confirm ratings before installing capacitors on the P.C. board. 2.5 Please confirm polarity before installing capacitors on the P.C. board. 2.6 Do not drop capacitors on the floor, nor use a capacitor that was dropped. 2.7 Be careful not to deform the capacitor during installation. 2.8 Please confirm that the lead spacing of the capacitor matches the hole spacing of the P.C. board prior to installation. 2.9 Snap-in can type capacitor such as JIS configuration 692, 693, 694 and 695 type should be installed tightly to the P.C. board (allow no gap between the P.C. board and bottom of the capacitor). 2.10 Please pay attention that the clinch force is not too strong when capacitors are placed and fixed by an automatic insertion machine. 7 Index Application Guidelines (應用指引) Application Guidelines (應用指引) 2.11 Please pay attention to that the mechanical shock to the capacitor by suction nozzle of the automatic insertion machine or automatic mounter, or by product checker, or by centering mechanism. 2.12 Soldering condition must be confirmed to be within SAMXON’S specification. Index ■ Pb/Sn Type Flow Soldering: 235 ±5˚C ≤10 sec. Hand Soldering (Soldering iron tip): 350 ±10˚C ≤3 sec. ■ Pb-free Type Flow Soldering: 260 ±5˚C ≤10 sec. Hand Soldering (Soldering iron tip): 400 ±10˚C ≤3 sec. 2.13 Do not tilt lay down or twist the capacitor body after the capacitor are soldered to the P.C. board. 2.14 Do not carry the P.C. board by grasping the soldered capacitor. 2.15 Please do not allow anything to touch the capacitor after soldering. If P.C. board are stored in stack, please make sure P.C. board or the other components do not touch the capacitor. The capacitors shall not be effected by any radiated heat from the soldered P.C. board or other components after soldering. 2.16 Do not clean capacitors with halogenated cleaning agent. 2.17 Precautions on fixing materials and coating materials. ■ Do not use any ingredients which contain halogen. ■ Please pay attention to remove flux and any contamination which remains in the gap between the end seal and P.C. board and dry that portion well before coating. ■ Please do not apply any material all around the capacitor body but apply it partially. ■ Please contact our sales office to make sure whether the curing condition of coating material would cause any problems. 2.18 Do not install screw terminal capacitor with end seal side down. When you install a screw terminal capacitor in a horizontal position, the positive terminal must be in the upper position. 3. 4. Storage 3.1 The characteristics of aluminum electrolytic capacitors degrade when stored in a static condition for long period of time. The rate of deterioration depends upon temperature and humidity. 3.2 Capacitors should be stored at the temperature of 5˚C to 35˚C, the humidity of less than 75% RH and out of direct sunlight. 3.3 Capacitors that have been stored for long periods normally over one year should be subjected to a “voltage aging” treatment before use. This will reform and repair the oxide dielectric. 3.4 Suggested aging procedure is gradually applying the rated voltage to the capacitor(s) for 30 to 60 minutes. If the capacitance still exceeds the specified leakage current value, please do not use it. Disposal 4.1 Dispose of capacitors as industrial waste. 4.2 Consignment to the waste disposal specialists to handle it professionally. The above mentioned material according to EIAJ RCR-2367B (issued in March, 2002), titled “Guideline of notabilia for aluminum electrolyic capacitors for use in electronic equipment”. Please refer to the book for details. 8 Application Guidelines (應用指引) Printed Circuit Board Cleaning 5.1 Foreword It had been generally accepted that halogen type organic solvents were hazardous to aluminum electrolytic capacitors. This is because an organic solvent can permeate the capacitor through the end seal. Then, the solvent dissolves and free chlorine ion (CI¯ion), which can corrode the aluminum electrodes. The following measures were previously the only way to avoid this phenomenon. ■ Use of cleaning agents, not hazardous to capacitors such as water or alcohol. ■ Mount capacitors on PC boards cleaned with a halogen type solvent beforehand. ■ Use of epoxy end seals These measures have disadvantages with respect to working efficiency, cleaning capability, cost etc. Therefore, aluminum electrolytic capacitors which can withstand halogen type cleaning agents are desirable. 5.2 Types of Cleaning Agents Generally there are three types of cleaning agents. ■ Water type ■ Alcohol type ■ Halogen type Of these, water and alcohol will have little effect even if they permeate the capacitor. However, halogens can cause corrosion of aluminum foil and tab. Common types of halogen cleaning agents are listed in Table below: Chemical Name Trichlorotrifluoroethane Fluorotrichloromethane Trichloroethane Trichloroethylene Methyl Chloride Structural Formula C2CI3F3 CCI3F C2H3CI3 C2HCI3 CH3CI Representative Brand Name Freon TF, Daiflon S-3 Freon-11, Daiflon S-1 Chloroethene Trichlene MC The last four solvents listed above are particularly corrosive to aluminum and are not recommended to use as cleaning solvents. 5.3 Penetration Channel of Solvent and Corrosion Mechanism The three channels by which solvents can penetrate into the capacitor are illustrated: ■ ᰑ Penetration through a clearance between the rubber and the aluminum case (curled section) ■ ᰒ Penetration through a clearance between the rubber and the lead wires ■ ᰓ Permeation through the rubber end seal To reduce the possibility of solvents entering a capacitor, tight sealing is required to eliminate clearances between the rubber and the aluminum case/lead wires. A solvent resistant rubber material is also a necessity. When a solvent, for example, trichlo-rotrifluoroethane gets inside a non anti-solvent capacitor, the chlorine ion is free as shown by the following reaction formula. Thus, the CI¯ion is free again and repeats the corrosion of aluminum. The degree of this reaction depends on the volume of solvent, the ambient temperature of the capacitor in service, the applied voltage and time etc. 9 Index 5. Application Guidelines (應用指引) 6. Basic Electrical Characteristics Capacitance: Index The capacitance of capacitor is determined as AC capacitance by measuring its impedance. As the AC capacitance depends on frequency, voltage and other measuring methods, JIS C 5102 prescribes that the series capacitive component of an equivalent series circuit shall be considered as the capacitance by measuring it at a frequency of 120Hz and a maximum AC voltage of 0.5Vrms with a DC bias voltage of 1.5 to 2.0V applied for aluminum electrolytic capacitors. The capacitance of an aluminum electrolytic capacitor shows smaller values as a measuring frequency increases. See the typical behavior shown as right chart. Measuring temperature as well as frequency effects the capacitance. As the measuring temperature decreases, the capacitance shows smaller values. See the typical behavior shown as right chart. On one hand, DC capacitance, which can be determined by measuring the charge when a DC voltage is applied, shows a slightly larger value than the AC capacitance at a normal temperature and has the flatter characteristic over the temperature range. Tan δ (tangent of loss angle or dissipation factor): The tan δ is the ratio of the resistive component (ESR) to the capacitive reactance (1/ωC) in the equivalent series circuit, and its measuring conditions are the same as the capacitance. The tan δ show higher values as a measuring frequency increases and a measuring temperature decreases, as follows: Equivalent Series Resistance (ESR) The ESR is comprised of the resistance due to aluminum oxide layer and electrolyte/separator combination and other resistance effected with foil length, foil surface area, etc. The ESR value depends on the temperature. Decreasing the temperature makes the resistivity of the electrolyte increase with the result of the ESR increasing. As the measuring frequency increases, the ESR decreases and reaches an almost constant value that is mainly the frequency-independent resistance due to electrolyte/separator combination. 10 Application Guidelines (應用指引) Impedance (Z): Index The impedance is the resistance which oppose the flow of alternating current at a specific frequency. It is related to capacitance (C) and inductance (L) in terms of capacitive and inductive reactance, and also related to the ESR. It is expressed as follows: As shown as right chart, the capacitive reactance (Xc) predominates at the range of low frequencies, and the impedance decreases with increasing frequency until it reaches the ESR in the middle frequency range. At the range of the higher frequencies the inductive reactance (XL) comes to predominate, so that the impedance increases with increasing the measuring frequency. As shown as right chart, the impedance value varies with temperature, because the resistance of the electrolyte strongly changes with temperature. Leakage Current: The dielectric of a capacitor has a very high resistance which prevents the flow of DC current. However, due to the characteristics of the aluminum oxide layer that functions as a dielectric in contact with electrolyte, a small amount of current, called leakage current, will flow to reform and repair the oxide layer while a voltage is being applied. As shown below, a high leakage current flows in the first minutes as a voltage is applied to the capacitor, and then the leakage current will decrease and reach an almost steady-state value with time. Measuring temperature and voltage effect the leakage current. The leakage current shows higher values as the temperature and voltage increase. In general, the leakage current is measured at 20˚C by applying the rated voltage, which is applied through a resistor of 1,000Ω connected in series with the capacitor, and several minutes after the capacitor reached the rated voltage. The catalog prescribes the measuring temperature and time. LIFE ESTIMATION CHART 11 Application Guidelines (應用指引) 7. Quality Policy 7.1 General Index Our basic corporate goals and commitment to total quality are set down in our quality policy. The quality of our products and services is an essential part of our corporate strategy, whose paramount aim is total customer satisfaction. Consistent application of quality management system results in flawless products and a high level of user benefit from our components. Our quality management system always reflects the most stringent international standards. Our corporate goals is to play a leading role among the world’s most competitive companies in electronic components. All quality management measures are geared to optimum customer benefit. They include: ■ Mastery of processes ■ Continuous improvement programs to narrow process tolerances, and to increase quality and yield. ■ Enhanced productivity ■ Continuous optimization of material, capital and human resources. ■ Promotion of innovation ■ Putting customer benefit first in every product we design. Determining customer needs in partnership with customers, and rapid implementation of agreements. The SAMXON quality management system, which is documented in the new edition of the company-wide SAMXON Quality Management Handbook, is designed to support this strategy. 7.2 Quality assurance The required measures and regulations for quality assurance are documented in instructions on operations and procedures; the effectiveness and adequacy of the QA system are regularly checked in internal audits. 7.3 Quality programs Project-oriented improvement programs pursuing the strategic objective of zero defects are set up and conducted by specialist teams. 7.4 Process assurance Assurance of production processes starts as early as the planning and development phase. Quality tools like FMEA and SVP help detect and avoid potential errors, and safeguard process capability and product quality. Documentation of all production and testing steps as well as training of personnel are essential to flawless production. Statistical process control (SPC) is used wherever applicable. Permanent availability of plant is ensured by preventive maintenance. 7.5 Incoming inspection Raw materials, parts and consumable undergo incoming inspection appropriate to their significance in the end product, unless this responsibility has been transferred to the supplier under a quality assurance agreement or similar. 7.6 In-process inspection Wherever possible, in-process inspection in conducted to certify the conformity not only of intermediate products, but also of process supervision and control (e.g. SPC). It is generally integrated into the process steps and designed to be as preventive as possible, i.e. to avoid errors. 7.7 Final inspection/approval for shipment Final inspection verifies the major properties of the end products batch by batch, usually by means of fully automated selection tests. Approval for shipment helps certify that products shipped comply with specifications. It includes: ■ Testing of principal parameter, ■ Identification check and visual assessment, ■ Examination of papers accompanying the batch. 12 Application Guidelines (應用指引) Manufacturing and quality assurance procedures for Al electrolytic capacitors Incoming goods Inspection of raw materials and parts Automatic monitoring of etching and forming process Etching and forming of aluminum foil Prefabrication Index QC gate Inspection of etching and forming electrolytes, electrolyte monitoring Foil sampling, testing of mechanical and electrical characteristics Checking the plotter diagrams of the etching and forming process QC gate Classification and sorting of anode groups Foil cutting and delivery Inspection and approval by quality control team Capacitor production QC gate Testing and final inspection 8. Winding Checking that the winding data are adhered to, inspection of terminals Impregnation and forming Checking of equipment and settings, electrolyte monitoring Riveting, welding, assembly Sampling of assembly, riveting and weld quality (SPC) Seal curling, washing, marking, insulating and aging Sampling to test seals and finish 100% final inspection of electrical parameters Checking automatic test equipment and relevant settings QC gate Visual inspection and packing Inspection of packing (markings, contents, date code) Conformance inspection Tests of mechanical and electrical characteristics, packing QC gate Stock Approval by quality control team Dispatch Identity check 13 Application Guidelines (應用指引) 9. Environmental Environmental policy Our fundamental commitment to protection of the environment is laid down in SAMXON environmental policy: Index 10. ■ We work continuously to lighten the burden on the environment and to reduce consumption of energy and resources beyond statutory requirements. ■ We take all precautions to avoid environmental hazards and to prevent damage to the environment. ■ Potential impact on the environment is assessed and flows into product and process planning at the earliest possible stage. ■ Our environmental management system ensures that our environmental policy is effectively implemented. The technical and organizational procedures required are regularly monitored and constantly upgraded. ■ Every employee is required to act in an environmentally conscious manner. It is a permanent task of management to promote awareness of responsibility for the environment at all levels. ■ We seek to influence our business associates to follow environmental guidelines similar to ours. We supply our customers with information on environmentally friendly use of our products. We work in a spirit of cooperation with the authorities. ■ We inform the public of the environmental impact of our activities and the environmental achievements of our company. Compliance with RoHS Directive The company is committed to compliance with the European Union Restriction of Hazardous Substance (RoHS) Directive. We hereby guarantee that our products do not contain following materials exceeding the RoHS Directive (2011/65/EU). 11. ■ Lead (Pb) and its compounds ≤1000ppm ■ Mercury (Hg) and its compounds ≤1000ppm ■ Cadmium (Cd) and its compounds ≤100ppm ■ Hexavalent chromium, Cr6+, Cr VI ≤1000ppm ■ Polybrominated biphenyls, PBBs ≤1000ppm ■ Polybrominated diphenyls, PBDEs ≤1000ppm Halogen Free Compliant The products identified in the catalogue, and their homogeneous subcomponents, do not contain any of the following substances in concentrations greater than the listed maximum limits. Substance Bromine (Br) Chlorine (Cl) Total concentration of Chlorine (Cl) + Bromine (Br) 14 Maximum Limit (ppm) 900 ppm (0.09%) 900 ppm (0.09%) 1500 ppm (0.15%) Part Number System (產品編碼) 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 SA P EGS 105 M 1H D11 TC SERIES CAPACITANCE TOLERANCE VOLTAGE CASE SIZE TYPE Code Tol. (%) Code 0.1 104 ±5 J ±10 K 0.22 224 ±15 L ±20 M Cap (uF) 0.33 0.47 334 474 ±30 N 1 105 -40 0 W 2.2 225 -20 0 A 3.3 335 -20 +10 C -20 +40 X -20 +50 S 336 -10 0 B 47 476 -10 +20 V 100 107 -10 +30 Q 220 227 -10 +50 T 330 337 +13 +50 E -5 +15 F 4.7 475 10 106 22 226 33 470 477 2200 228 22000 229 -5 +20 G 33000 339 0 +20 R 47000 479 0 +30 O 100000 10T 0 +50 I 150000 15T +5 +15 Z 220000 22T +5 +20 D 330000 33T 10M +10 +50 H 1000000 1500000 15M 2200000 22M 3300000 33M Vol. (W.V.) 2 2.5 4 6.3 8 10 12.5 16 20 25 30 32 35 40 42 50 57 63 71 75 80 85 90 100 120 125 150 160 180 200 215 220 230 250 275 300 310 315 330 350 Code 0D 0E 0G 0J 0K 1A 1B 1C 1D 1E 1I 13 1V 1G 1M 1H 1L 1J 1S 1T 1K 1R 19 2A 2O 2B 2Z 2C 2P 2D 22 2N 23 2E 2T 2I 2R 2F 2U 2V 360 375 385 400 420 450 500 550 600 630 2X 2Q 2Y 2G 2M 2W 2H 25 26 2J Case Size Diameter(Φ) Code 3 B 3.5 1 4 C 5 D 6.3 E 8 F 10 G 12.5 I 13 J 13.5 V 14 4 14.5 A 16 K 16.5 7 18 L 18.5 8 20 M 22 N 25 O 30 P 34 W 35 Q 40 R 42 4 45 6 51 S 63.5 T 76 U 80 8 90 X 100 Z Len. (mm) Code 4.5 45 5 05 5.4 54 7 07 7.7 77 10.2 T2 11 11 11.5 1A 12 12 12.5 1B 13 13 13.5 1C 20 20 25 25 29.5 2J 30 30 31.5 3A 35 35 35.5 3E 50 50 80 80 100 1L 105 1K 110 1M 120 1N 130 1P 140 1Q 150 1R 155 1E 160 1S 165 1F 170 1T 180 1U 190 1V 200 2L 215 2A 210 2M 220 2N 240 2Q 250 2R 260 2S 270 2T Feature Code Radial bulk RR Ammo Taping 2.0mm Pitch TT 2.5mm Pitch TU 3.5mm Pitch TV 5.0mm Pitch TC SLEEVE MATERIAL SAMXON Product Line For internal use only (The product lines we have H,A,B,C,D,E,M or 0,1,2,3,4,5,9). Sleeve Material Code PET P PVC If the sleeve material is PVC, there will be blank in seventeenth digit. Series EKF EKS EGS EKM EKG EOM EGF ESF EGT EGK ESK ESH ESK ERS EGY ERF ERR ERT ERE ERD ERH EBD ERA ERB ERC EFA ENP ENH ERW ERY ELP EAP EQP EDP ETP EHP EUP EKP EPK EEP EFP ESP EVP EGP EWR EWI EWT EWX EWF EWH EWL EWB VS1 VT1 VTD VTG VZ2 VTL SAMXON PRODUCT LINE Lead Cut & Form CB-Type CB CE-Type CE HE-Type HE KD-Type KD FD-Type FD EH-Type EH PCB Terminal SW Snap-in SX SZ Lug SG O5 O6 T5 Screw T6 D5 D6 15 Index 1 Taping Specifications (編帶產品規格) Index SPECIFICATIONS Item Dimensions (mm) Reference figure Fig 1 Diameter D Height Lead Diameter Fig 2 3 4~5 5 6.3 A 5 5~7 9 ~ 15 5~7 d 0.4 0.45 0.5 0.45 Fig 3 8 10 12.5 16, 18 9 ~ 15 11 ~ 20 9 ~ 21 0.5 0.5 0.6 0.6 0.8 15 ~ 35 15 ~ 40 Fig 4 Tol. 4, 5, 6.3 5, 6.3 8 5~7 9 ~ 15 5~9 11 ~ 20 0.45 0.5 0.45 0.5 ±0.05 Component Spacing P 12.7 12.7 12.7 12.7 15 30 12.7 12.7 ±1.0 Pitch of sprocket holes P0 12.7 12.7 12.7 12.7 15 15 12.7 12.7 ±0.2 Distance between centres of component leads F 2.5 2.5 3.5 5.0 5.0 7.5 5.0 5.0 ±0.8 0.5 Carrier tape width W 18.0 18.0 18.0 18.0 18.0 18.0 18.0 18.0 ±0.5 Distance between the center of upper edge of carrier tape and sprocket holes W1 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 ±0.5 Distance between the abscissa and the bottom of the components body H 18.5 18.5 18.5 18.5 18.5 18.5 Distance between the abscissa and the reference plane of the components with crimped leads H0 – – – – – – 16.0 16.0 ±0.5 Hold down tape width W0 7.0 7.0 7.0 7.0 12 12 7.0 7.0 Min. Max. lateral deviation of the component body vertical to the tape plane Δh 0 0 0 0 0 0 0 0 ±1.0 Distance between the upper edges of the carrier tape and the hold down tape W2 0~3 0~3 0~3 0~3 0~3 0~3 0~3 0~3 – Distance between center of terminal and the sprocket holes P1 5.1 5.1 4.6 3.85 5.0 3.75 3.85 3.85 ±0.5 Distance between center of the component and sprocket holes P2 6.35 6.35 6.35 6.35 7.5 7.5 6.35 6.35 ±1.0 16 17.5 18.5 17.5 20.0 ±0.75 0.5 Index Packing Specifications (包裝規格) PACKING QUANTITY (TAPING TYPE) ΦD x L (mm) 3x5 4x5~7 5 x 5 ~ 11 6.3 x 5 ~ 12 8 x 5 ~ 12 8 x 14 ~ 20 10 x 12.5 10 x 16 10 x 20 ~ 25 10 x 30 12.5 x 20 12.5 x 25 12.5 x 35 16 x 25 16 x 30 ~ 35 18 x 20 ~ 25 18 x 30 ~ 35 18 x 40 L (mm) 330 330 330 330 330 330 330 330 323 330 325 325 325 315 315 343 343 343 W (mm) 229 229 229 229 229 229 191 191 191 191 267 270 270 221 221 275 275 275 H (mm) 51 51 51 51 51 64 51 56 64 69 58 63 74 63 76 63 73 73 Inner Box Quantity 3,000 2,500 2,000 1,500 1,000 1,000 500 500 500 500 500 500 500 250 250 250 250 250 Outer Box Quantity 30,000 25,000 20,000 15,000 10,000 8,000 5,000 5,000 4,000 4,000 2,000 2,000 2,000 1,000 1,500 1,000 500 500 PACKING QUANTITY (BULK TYPE) Long Lead Wire Product ΦD x L (mm) 3x5 4x5 4x7 5x5 5x7 5 x 11 6.3 x 5 ~ 7 6.3 x 11 8x5~7 8x9 8 x 10 ~ 16 8 x 20 8 x 25 10 x 12.5 10 x 15 ~ 20 10 x 25 ~ 30 12.5 x 20 12.5 x 25 12.5 x 30 ~ 35 12.5 x 40 16 x 20 16 x 25 ~ 30 16 x 35 ~ 40 18 x 15 ~ 20 18 x 25 ~ 30 18 x 35 ~ 50 Plastic Bag Quantity 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 500 500 200 200 400 200 200 150 150 100 – – – – – – – Inner Box Quantity 24,000 16,000 14,000 12,000 10,000 8,000 8,000 6,000 6,000 4,000 3,000 1,600 1,200 2,400 1,200 1,200 1,200 900 600 300 200 200 200 150 150 150 Outer Box Quantity 96,000 64,000 56,000 48,000 40,000 32,000 32,000 24,000 24,000 16,000 12,000 6,400 4,800 9,600 7,200 4,800 4,800 3,600 2,400 1,800 2,000 1,600 1,200 1,500 1,200 900 PACKING QUANTITY (SNAP-IN) Snap-in Terminal Product ΦD x L (mm) 20 x 25 20 x 30 ~ 40 22 x 25 22 x 30 ~ 40 22 x 45 ~ 50 25 x 25 Inner Box Quantity 100 100 100 100 100 100 Outer Box Quantity 1,200 1,000 1,200 1,000 800 1,000 ΦD x L (mm) 25 x 30 ~ 35 25 x 40 ~ 50 30 x 30 ~ 35 30 x 40 ~ 50 35 x 30 ~ 35 35 x 40 ~ 50 Inner Box Quantity 100 100 50 50 40 40 Outer Box Quantity 800 600 500 400 400 320 17 Lead Forming Specifications (成型產品規格) Index SHAPE CODE ΦD F 1.5 2.0 2.5 3.5 5.0 5.0 7.5 7.5 CB H 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Φd ±0.05 0.45 0.5 0.5 0.5 0.6 0.6 0.8 0.8 F 5.0 5.0 5.0 5.0 – – – – – HE FD KD EC PC 18 4 5 6.3 8 (L >5mm) 10 13 16 18 H1 5.0 5.0 5.0 5.0 – – – Φd ±0.05 0.45 0.5 0.5 0.5 – – – – F 5.0 5.0 5.0 5.0 – – – – H1 4.5 4.5 4.5 4.5 – – – – H2 1.8 1.8 1.8 1.8 – – – – – Φd ±0.05 0.45 0.5 0.5 0.5 – – – E 1.12 1.12 1.12 1.30 – – – – F – – – – 5.0 5.0 7.5 7.5 H1 – – – – 4.5 4.5 4.5 4.5 H2 – – – – 2.0 2.0 2.0 2.0 Φd ±0.05 – – – – 0.6 0.6 0.8 0.8 E – – – – 1.30 1.30 1.30 1.30 F 5.0 5.0 5.0 5.0 – – – – F1 1.2 1.2 1.2 1.2 – – – – H1 4.0 4.0 4.0 4.0 – – – – Φd ±0.05 0.45 0.5 0.5 0.5 – – – – F – 2.0 2.5 3.5 5.0 5.0 7.5 7.5 H – 4.0 4.0 4.0 4.0 4.0 4.0 4.0 H1 – 3.0 3.0 3.0 3.0 3.0 3.0 3.0 Φd ±0.05 – 0.5 0.5 0.5 0.6 0.6 0.8 0.8 KF 5mmL (高), +105˚C Series FEATURES Ò Super miniature, 5mmL, high temperature, suitable for use in electronic circuit of high density assembly of video recorder, remote controller, VCD etc. Performance Characteristics Operating Temperature Range -40 to +105˚C Rated Working Voltage Range 4 to 50V Nominal Capacitance Range 3.3 to 330μF Capacitance Tolerance ±20% at 120Hz, +20˚C Leakage Current I ≤0.01CV or 3 (μA) whichever is greater measured after 2 minutes application of rated working voltage at +20˚C Working Voltage (V) tan δ (max.) tan δ (120Hz, +20˚C) Low Temperature Characteristics 4 0.37 6.3 0.28 10 0.24 16 0.20 25 0.16 35 0.13 50 0.12 4 6 12 6.3 3 8 10 3 5 16 2 4 25 2 3 35 2 3 50 2 3 Impedance ratio max. at 120Hz Working Voltage (V) Z-25˚C / Z+20˚C Z-40˚C / Z+20˚C Test time : 1,000 hours Test temperature : +105˚C Test conditions : Rated DC working voltage High Temperature Loading Post test requirements at +20˚C Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured with rated ripple current value (4V: within ±30%) : ≤200% of the initial specified value tan δ Shelf Life At +105˚C no voltage applied after 1,000 hours and then being stabilized at +20˚C the capacitors shall meet the following limits Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured value (4V: within ±30%) tan δ : ≤200% of the initial specified value Industrial Standard JIS C - 5101-4 (IEC 60384-4) CASE SIZE TABLE ΦD 4 5 6.3 8 F 1.5 2.0 2.5 2.5 Φd 0.45 RIPPLE CURRENT MULTIPLIER Frequency Coefficient Coefficient Freq. (Hz) 50 120 300 1k 10k~ ≤47 0.75 1.00 1.35 1.57 2.00 68~330 0.80 1.00 1.23 1.34 1.50 Cap (μF) PART NUMBER SYSTEM (EXAMPLE : 16V 33μF) 1 23 456 7 89 10 11 12 13 14 E KF 336 M 1C E 05 RR Type (Radial Bulk) Case Length (5mm) Diameter (6.3mm) Voltage (16V) Tolerance (±20%) Capacitance (33μF) Series E-CAP 19 Miniature Aluminum Electrolytic Capacitors Item KF SPECIFICATIONS KF 5mmL (高), +105˚C Series STANDARD RATINGS Voltage (Code) Cap. (μF) Code 10 106 22 4V (0G) 6.3V (0J) 10V (1A) 16V (1C) Case Size Ripple Current Case Size Ripple Current Case Size Ripple Current Case Size Ripple Current 226 4x5 22 4x5 22 4x5 24 4x5 18 5x5 33 336 5x5 30 5x5 30 5x5 30 35 6.3 x 5 40 50 47 476 5x5 36 5x5 36 6.3 x 5 46 6.3 x 5 100 107 6.3 x 5 60 6.3 x 5 60 6.3 x 5 67 6.3 x 5 73 220 227 8x5 103 8x5 116 8x5 126 330 337 8x5 127 Case Size ΦD x L (mm) Maximum Allowable Ripple Current (mArms) at 105˚C 120Hz Voltage (Code) Cap. (μF) Code 3.3 335 4.7 475 25V (1E) 35V (1V) 50V (1H) Case Size Ripple Current Case Size Ripple Current Case Size Ripple Current 4x5 11 4x5 14 4x5 13 4x5 15 5x5 19 KF 10 106 4x5 20 5x5 25 6.3 x 5 30 22 226 6.3 x 5 38 6.3 x 5 48 8x5 52 8x5 63 33 336 6.3 x 5 48 6.3 x 5 59 47 476 6.3 x 5 58 8x5 82 100 107 8x5 97 Maximum Allowable Ripple Current (mArms) at 105˚C 120Hz Case Size ΦD x L (mm) Miniature Aluminum Electrolytic Capacitors Specifications are subject to change without notice. Should a safety or technical concern arise regarding the product, please be sure to contact our sales offices or agents immediately. 20 KS 7mmL (高), -40˚C~+105˚C Series FEATURES Ò Ò Rated working voltage range 6.3 to 50V DC operation temperature range -40 to +105˚C. This series is for communication equipments, switching power supply, industrial measuring instruments, automotive electric products, etc. SPECIFICATIONS Item Performance Characteristics Operating Temperature Range -40 to +105˚C Rated Working Voltage Range 6.3 to 50V Nominal Capacitance Range 3.3 to 330μF Capacitance Tolerance ±20% at 120Hz, +20˚C I ≤0.01CV or 3 (μA) Leakage Current Low Temperature Characteristics Impedance ratio max. at 120Hz Working Voltage (V) Z-25˚C / Z+20˚C Z-40˚C / Z+20˚C 6.3 0.24 10 0.21 16 0.18 25 0.15 35 0.13 50 0.12 6.3 10 16 25 35 50 4 8 2 5 2 4 2 3 2 3 2 3 Test time : 1,000 hours Test temperature : +105˚C Test conditions : Rated DC working voltage High Temperature Loading Post test requirements at +20˚C Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured with rated ripple current value tan δ : ≤200% of the initial specified value Shelf Life At +105˚C no voltage applied after 1,000 hours and then being stabilized at +20˚C the capacitors shall meet the following limits Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured value tan δ : ≤200% of the initial specified value Industrial Standard JIS C - 5101-4 (IEC 60384-4) CASE SIZE TABLE ΦD 4 5 6.3 8 F 1.5 2.0 2.5 3.5 Φd 0.45 α (L ≤7) 1 (L ≥9) 1.5 RIPPLE CURRENT MULTIPLIER Frequency Coefficient Coefficient Freq. (Hz) 50 120 300 1k 10k~ ≤47 0.75 1.00 1.35 1.57 2.00 68~220 0.80 1.00 1.23 1.34 1.50 Cap (μF) PART NUMBER SYSTEM (EXAMPLE : 6.3V 47μF) 1 23 456 7 89 10 11 12 13 14 E KS 476 M 0J D 07 RR Type (Radial Bulk) Case Length (7mm) Diameter (5mm) Voltage (6.3V) Tolerance (±20%) Capacitance (47μF) Series E-CAP 21 Miniature Aluminum Electrolytic Capacitors Working Voltage (V) tan δ (max.) tan δ (120Hz, +20˚C) KS whichever is greater measured after 2 minutes application of rated working voltage at +20˚C KS 7mmL (高), -40˚C~+105˚C Series STANDARD RATINGS Voltage (Code) 6.3V (0J) Case Size 10V (1A) Cap. (μF) Code 10 106 Ripple Current 22 226 4x7 34 4x7 33 336 4x7 37 47 476 4x7 44 100 107 5x7 67 220 227 6.3 x 7 112 330 337 8x7 158 Case Size 16V (1C) Ripple Current 25V (1E) Case Size Ripple Current Case Size Ripple Current 4x7 29 4x7 29 34 4x7 38 5x7 45 4x7 40 5x7 50 5x7 55 5x7 50 5x7 60 6.3 x 7 67 5x7 72 6.3 x 7 92 6.3 x 7 97 6.3 x 7 83 8x7 106 8x7 113 8x7 140 8x9 174 Case Size ΦD x L (mm) Maximum Allowable Ripple Current (mArms) at 105˚C 120Hz Voltage (Code) 35V (1V) Case Size 50V (1H) KS Cap. (μF) Code 3.3 335 4.7 475 4x7 24 10 106 5x7 36 22 226 6.3 x 7 57 33 336 6.3 x 7 62 47 476 6.3 x 7 74 100 107 8x9 65 Miniature Aluminum Electrolytic Capacitors Maximum Allowable Ripple Current (mArms) at 105˚C 120Hz Ripple Current Case Size Ripple Current 4x7 24 5x7 29 5x7 38 6.3 x 7 44 8x7 65 Case Size ΦD x L (mm) Specifications are subject to change without notice. Should a safety or technical concern arise regarding the product, please be sure to contact our sales offices or agents immediately. 22 GS +85˚C, General (普通品) Series FEATURES Ò Ò High CV value, guarantee 2,000 hours load life at 85˚C. Suitable for use in electronic circuits in colour TV receiver, video recorder etc. SPECIFICATIONS Item Performance Characteristics Operating Temperature Range -40 to +85˚C -25 to +85˚C Rated Working Voltage Range 6.3 to 100V 160 to 450V Nominal Capacitance Range 2.2 to 22000μF Capacitance Tolerance ±20% at 120Hz, +20˚C Leakage Current tan δ (120Hz, +20˚C) I ≤0.01CV or 3 (μA) whichever is greater measured after 2 I ≤0.03CV +40 (μA) after 2 minutes application of rated minutes application of rated working voltage at +20˚C working voltage at +20˚C Working Voltage (V) tan δ (max.) 6.3 0.28 10 0.24 16 0.20 25 0.16 35 0.14 50 0.12 Working Voltage (V) tan δ (max.) 160 0.20 200 0.20 250 0.20 350 0.25 400 0.25 450 0.25 63 0.10 100 0.08 63 2 3 100 2 3 Impedance ratio max. at 120Hz Working Voltage (V) 6.3 Z-25˚C / Z+20˚C 5 Z-40˚C / Z+20˚C 12 Low Temperature Characteristics Working Voltage (V) Z-25˚C / Z+20˚C 160 3 10 4 10 16 3 8 25 2 5 35 2 4 50 2 3 200 3 250 4 350 4 400 6 450 15 GS For capacitance value >1000μF, add 0.02 per another 1000μF Test time : 2,000 hours Test temperature : +85˚C Test conditions : Rated DC working voltage High Temperature Loading Post test requirements at +20˚C Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured with rated ripple current value tan δ : ≤200% of the initial specified value Shelf Life At +85˚C no voltage applied after 1,000 hours and then being stabilized at +20˚C the capacitors shall meet the following limits Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured value tan δ : ≤200% of the initial specified value Industrial Standard JIS C - 5101-4 (IEC 60384-4) CASE SIZE TABLE ΦD 8 (L 1000μF, add 0.5 per another 1000μF for Z-25˚C / Z+20˚C add 1.0 per another 1000μF for Z-40˚C / Z+20˚C Miniature Aluminum Electrolytic Capacitors Test time : 2,000 hours Test temperature : +105˚C Test conditions : Rated DC working voltage High Temperature Loading Post test requirements at +20˚C Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured with rated ripple current. value tan δ : ≤200% of the initial specified value Shelf Life At +105˚C no voltage applied after 1,000 hours and then being stabilized at +20˚C the capacitors shall meet the following limits Leakage current : ≤Initial specified value Cap. change : within ±20% of the initial measured value tan δ : ≤200% of the initial specified value Industrial Standard JIS C - 5101-4 (IEC 60384-4) CASE SIZE TABLE ΦD 5 6.3 F 2.0 2.5 Φd 0.5 0.5 1 23 456 7 89 10 11 12 13 14 KM 337 M 1E F 12 RR 12.5 16 18 22 25 3.5 5.0 5.0 7.5 7.5 10.0 12.5 0.5 0.6 0.6 0.6 0.8 0.8 0.8 1.0 (L