Capacitors

www.DataSheet4U.com MAXCAP Electronics co., Ltd. www.DataSheet4U.com MAXCAP Electronics Co., Ltd. Background 1987 10 6 0.1 µF 680,000 µF -55 +125 2001 ( MAXCAP Electronics (M) Sdn. Bhd. 4V 450V, ) 1998 11 ISO9002 MAXCAP Electronics (KunShan) Co., Ltd. Established on the 6th of October 1987, Maxcap Electronics is the first manufacturer of axial, radial and snap-in type of aluminum electrolytic capacitors in the northern region of Malaysia. Our product ranges from 0.1 µF to 680,000 µF with a working voltage ranging from 4V to 450V and working temperature rangs from -55 to +125 . We also produce bi-polar capacitors for audio crossover networks and TV monitor horizontal deflection. In anticipation of increase in domestic and overseas demand for our products, The company has built a new factory in Kunshan, Jiangsu Province, China. This factory has been fully operational by year 2001. For more than a decade now, assurance of our products’quality accounts for our sustained sales growth. Equipped with high grade imported raw materials coming from different dependable companies and backed by Japanese modern technologies in the manufacturing facilities ensure our excellent quality. With the help of our dedicated employees to whom the company credits success, obtained the ISO9002 accreditation on November 6, 1998, which meant that we had already elevated ourselves to international quality status. This quality certification has been up-graded to ISO-9001:2000 version in year 2002. Our company accepts custommade requirements without neglecting the quality of the product. Our philosophy of excellent quality, dependable service, on-going innovation and designs keeps our customers with us year after year. www.DataSheet4U.com Aluminum Electrolytic Capacitor Contents 2 Series Table 3 Series Chart 4 Guidelines for Application of Aluminum Electrolytic Capacitors 6 How to Order Aluminum Electrolytic Capacitors 7 Lead Cut and Forming Specification 8 Taping Specification MAXCAP Electronics Co., Ltd. 1 www.DataSheet4U.com Aluminum Electrolytic Capacitor Series Table Series SSS SSE SSK SL MSR 5mm 5mm height Feature Terminal Type Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Radial Snap-in Snap-in Screw Screw Temperature Range (°C) - 40 ~ + 85 - 40 ~ + 85 - 55 ~ + 105 - 40 ~ + 85 - 40(25) ~ + 85 Voltage Range (V) 4 ~ 50 4 ~ 63 6.3 ~ 63 6.3 ~ 50 6.3 ~ 450 Capacitance Range (uF) 0.1 ~ 220 0.1 ~ 220 0.1 ~ 220 0.1 ~ 100 0.1 ~ 22,000 0.1 ~ 15,000 1.0 ~ 33,000 1.0 ~ 33,000 0.1 ~ 10,000 0.47 ~ 6,800 0.47 ~ 6,800 0.33 ~ 100 2.2 ~ 10 1.0 ~ 4,700 0.47 ~ 15,000 47 ~ 6,800 0.15 ~ 22,000 0.47 ~ 6,800 0.33 ~ 68 56 ~ 68,000 47 ~ 56,000 270 ~ 680,000 220 ~ 680,000 ( Load Life Hours) 2000 2000 1000 1000 Color Page 10 11 12 13 14 16 18 20 22 24 26 28 29 30 31 36 38 40 41 42 45 48 50 Black Black Dark purple Grey Black Dark purple Black Dark purple Grey Dark blue Dark blue Blue Light blue Dark green Dark brown Dark brown Black Dark blue Blue Black Dark brown Black Dark brown Ultra – Miniature Miniature Type Large Can 7mm 7mm height ,7mm 7mm height, 105°C ,7mm Low leakage current 7mm height , Standard products, General purpose use , , , 105°C MKR Standard products, General purpose use 3000 ~5000 1000 ~3000 1000 ~3000 1000 ~2000 3000 ~ 5000 1000 ~3000 1000 3000 3000 1000 1000 ~ 3000 2000 ~ 3000 2000 ~ 4000 2000 ~ 3000 2000 ~ 3000 3000 2000 3000 2000 - 40(25 ) ~ + 105 6.3 ~ 450 - 40(25) ~ + 85 - 40(25) ~ + 105 - 40 ~ + 85 - 40 ~ + 85 - 55 ~ + 105 - 40 ~ + 85 - 20 ~ + 85 - 40 ~ + 125 - 55 ~ + 105 - 55 ~ + 105 - 40(25) ~ + 85 - 40 ~ + 85 - 40 ~ + 85 - 40 (25) ~ + 85 6.3 ~ 450 6.3 ~ 450 6.3 ~ 100 6.3 ~ 250 6.3 ~ 250 25 ~ 100 25 ~ 50 10 ~ 50 6.3 ~ 100 6.3 ~ 63 6.3 ~ 450 6.3 ~ 100 25 ~ 100 10 ~ 450 SR SK LL MBP MKP SBP UBP HT MLI MLC MST MBT SBT LSR LKR LSS LKS , High CV value , , High CV value, 105°C Low leakage current , Miniaturized, Bi-polar , , , Miniaturized, Bi-polar, 105°C Bi-polar, Speaker cross over network , Bi-polar, Horizontal deflection 125°C For 125°C use , Low impedance, 105°C , Extremely low impedance, 105°C , Miniaturized, General purpose use , Miniaturized, Bi-polar , Bi-polar, Speaker cross over network General purpose use , General purpose use, 105°C General purpose use - 40(25) ~ + 105 10 ~ 450 - 40 (25) ~ + 85 10 ~ 450 , General purpose use, 105°C - 40(25) ~ + 105 10 ~ 400 2 MAXCAP Electronics Co., Ltd. www.DataSheet4U.com Aluminum Electrolytic Capacitor Series Chart SK 105ºC, , , 105ºC,High CV Value,General Purpose 105ºC, High CV MLC 105ºC, , 105ºC,Extremely Low Impedance Extre Low Impedance HT 125ºC, 125ºC, High Temperarue Purpose 125ºC High T MKR 105ºC, , 105ºC,Standard Products General Purpose MLI 105ºC, 105ºC, Low Impedance Low Impedance , SR 85ºC, , High CV 7mm SSE 85ºC, 7mm , 5mm SSS 85ºC, 5mm , 85ºC, 5mm Height, General Purpose 7mm Low LC 85ºC,High CV Value,General Purpose MSR 85ºC, Low LC , 7mm 85ºC, 7mm Height, General Purpose ,105ºC LL 85ºC, 85ºC, Low Leakage Current 85ºC,Standard Products General Purpose SSK 105ºC, 7mm , 105ºC, 7mm Height, General Purpose SL 85ºC, 7mm , 85ºC, 7mm Height, Low Leakage Current Bi-Polar Axial Snap-In Large Can SBP 85ºC, , Bi-Polar, Use For Speaker Cross Over Network Bi-Polar for Audio MBP 85ºC, , Bi-Polar, General Purpose MST 85ºC, 85ºC,General Purpose LSR 85ºC, 85ºC,General Purpose Screw Larger Can LSS 85ºC, 85ºC,General Purpose Bi-Polar for TV Bi-Polar 105ºC Axial Bi-Polar 105ºC Large Can 105ºC Larger Can UBP 85ºC, , Bi-Polar, Use For Horizontal Deflection MKP 105ºC, , , 105ºC,Bi-Polar, General Purpose MBT 85ºC, , 85ºC, Bi-Polar, General Purpose LKR 105ºC, , 105ºC,General Purpose LKS 105ºC, 105ºC,General Purpose , Axial Bi-Polar for Audio SBT 85ºC, , Bi-Polar, Use For Speaker Cross Over Network MAXCAP Electronics Co., Ltd. 3 www.DataSheet4U.com Aluminum Electrolytic Capacitor Guidelines for Application of Aluminum Electrolytic Capacitors 1. (DC) . , , . 1. Polarized Capacitor These capacitors are suitable for DC circuits. Identify correctly the polarity of the capacitor before use. Incorrect application of polarity may cause short circuit or venting. 2. Bi-Polar Capacitors Bi-polar type of capacitor is for a circuit where the polarity is occasionally reversed. However, take note that a bi-polar capacitor should not be used for AC voltage application. 3. Operating Voltage Do not apply a DC voltage which exceeds the rated voltage. The peak voltage of a superimposed (ripple current) on the DC capacitor must not exceed the rated voltage. A surge voltage value which exceeds the full rated voltage is prescribed in the catalog, but the application should be restricted to short period of time. 4. Ripple Current Ripple current exceeding the permissible value will cause heat on the capacitor, and may decrease the capacitance or damage the capacitor. Ripple current on the capacitor must be at or below allowable level. Generally, not more than 80% of the rated current. There is a specified rated ripple current correspond to the ripple frequency. The rated ripple current at a certain frequency must be calculated by multiplying the rated ripple current by a factor. 5. Operating Temperature Range The characteristics of capacitors change with the operating temperature. The capacitance and leakage current increase and dissipation factor decreases at higher temperature. The use of a capacitor exceeding the maximum rated temperature will considerably shorten the life or cause the capacitor to vent. Usage at lower temperature can ensure longer lifetime. The lifetime is approximately halved with each 10°C rise in ambient temperature. 6. Operating Frequency The capacitance of the electrolytic capacitors is usually measured at 120Hz. However, the capacitance will decrease and dissipation factor increases as the applied frequency becomes higher. If a capacitor is to be used at higher frequency, you may need a specially designed capacitor that is suitable for the purpose. Please contact our technical team. 7. Charge and Discharge Do not use the general purpose capacitors in circuits where frequent heavy charge and discharge cycles are required. Frequent, sharp, heavy, charge and discharge cycles will result in decrease in capacitance and damage to the capacitor due to the excessive generated heat. Specific capacitors can be designed to meet the requirements of charging and discharging cycles. Please tell us your requirement. 8. Installing Capacitors The excessive external force applied to terminals or lead wires may cause high leakage current, short /open circuit or leakage of electrolytic liquid. Make sure that the leads spacing of the capacitor matches the hole spacing of the PC board prior to installation. 2. , , . (AC) . 3. (DC) , . , . 4. , 80% , . (RC) . . 5. , , . . 10°C, . , (tan ) , 6. 120Hz , , (tan ) . . , 7. , , . . , 8. , , . . , , 4 MAXCAP Electronics Co., Ltd. www.DataSheet4U.com Aluminum Electrolytic Capacitor y p . : If the terminals spacing of a capacitor does not fit the hole spacing of the PC board, adjust the terminals carefully so as not to cause mechanical stress to the capacitors. The following are typical examples of stress to capacitors that should be avoided: Wide Pitch Distance Narrow Pitch Distance Inclined Bend After Solder Correct 9. 9.1 , 260 ˚C, 10 , 350 ˚C, 4 , , . 9. Soldering Temperature 9.1 Flow soldering (wave solder) temperature should be within 260ºC and at a duration of 10 seconds. Avoid 9.2 the board and the aluminum capacitor. 9.2 Hand soldering Recommended solder temperature is at 350ºC and the duration at 4 seconds. 10. , , . . 10. Cleaning after Soldering To prevent damage to sleeve, markings and sealing materials, the capacitor should never be washed with halogenous solvents such as trichlore