Power Electronics Film Capacitors CONTENTS page Product selection guide......................................................................................................................................................... 2 Typical polypropylene dielectric characteristics..................................................................................................................... 3 Introduction . ......................................................................................................................................................................... 4 Specifications and test methods............................................................................................................................................ 5 Capacitors failure modes....................................................................................................................................................... 7 MKP C4A Series – Box case capacitors with wire terminals................................................................................................ 8 MKP C4AE Series.............................................................................................................................................................. 12 MKP C4B Series – Box case capacitors with lug terminals................................................................................................ 13 MKP C4C - C4H – C4G – C4M Series – Axials capacitors .............................................................................................. 17 Ordering Codes for Axials................................................................................................................................................... 22 MKP C4D Series – Capacitors for GTO protection and clamping...................................................................................... 23 MKP C44A Series – General purpose power capacitors in aluminum case....................................................................... 27 MKP C44B Series – Snubber capacitors in aluminum case............................................................................................... 32 MKP C44H Series – AC filter capacitors for UPS applications . ........................................................................................ 35 MKP C44E Series – AC filter capacitors – NO FPU........................................................................................................... 36 MKP C44P / C20A Series – AC filter capacitors – FPU..................................................................................................... 38 MKP C44U Series – DC Link capacitors in aluminum case............................................................................................... 40 MKP C9T Series – Three Phase PFC and AC Filter capacitors in aluminum case............................................................ 43 MKP C93 Series – Single Phase PFC and AC Filter capacitors in aluminum case........................................................... 45 Ordering Codes for C44 and Box versions.......................................................................................................................... 47 Warning............................................................................................................................................................................... 48 KEMET reserves the right, at any time, to make any changes to the components, parts and accessories both for technical and commercial purposes without reprinting this catalogue. For further information please refer to KEMETs’ Internet web site: http://www.kemet.com PRODUCT SELECTION GUIDE Axials capacitors Snubber C4C / C4H Axials capacitors Switching C4G / C4M Alluminium Case General Purpose C44A Alluminium Case AC Filtering C44E Single and Three Phase C44P C20A C44H C9T Alluminium Case DC Link C44U Alluminiun Case Snubber C44B / C20B Plastic Box Wire Terminals DC Link C4AE Plastic Box Wire Terminals Snubber C4AS Plastic Box Wire Terminals Switching C4AT Plastic Box Lug Terminals Snubber C4BS Plastic Box Lug Terminals Switching C4BT FLAT Execution GTO Snubber C4DC FLAT Execution DC Link C4DE FLAT Execution GTO Clamper C4DR Applications • Snubber • Clamper • • • • • • • • • • • • Commutation • DC Ripple Filter / Energy Storage • • • • • • • • • Resonance • • • • • • Pulse • • • • • • • Harmonic Filters • • • • • • Power Factor Correction • Blocking Coupling / Decoupling • • • • • • • • • Polypropylene Typical Dielectric Features The selection of Polypropylene as a dielectric is due to the following inherent properties: qVery low dissipation factor qHigh insulation re e qHigh thermal stability qGood self-healing features ∆C/C (%) ∆C/C (%) 2,0 0,00 1,5 -0,25 1,0 0,5 -0,50 0,0 -0,5 -0,75 -1,0 -1,00 -1,5 -2,0 -1,25 -2,5 -1,50 1 10 100 -3,0 -75 1000 Capacitance change vs. frequency (room temperature) -50 -25 0 25 50 75 T(°C) 100 Capacitance change vs. temperature at 1kHz Tgδ x 10(-4) Tgδ x 10(-5) 100 50 40 30 10 20 10 1 1 10 100 0 1000 f (kHz) Dissipation factor vs. frequency (Room temperature) MΩ x µ F 10 5 10 4 10 3 0 25 50 75 100 T (°C) -50 -25 0 25 50 75 Dissipation factor vs. temperature at 1kHz 10 6 10 2 -75 125 Time constant vs. temperature 100 T (°C) Introduction MARKING The marking is made in black color. Every product is marked with most of the information that can be fitted on the case depending on its dimensions. The standard marking is the following: KEMET trade-Mark, Series number, Capacitance in microfarad, tolerance in %, Rated DC and AC voltages, operating temperature range in degree Centigrade, coded climatic class and reliability data according to DIN 40040, Self-healing property SH,Batch number, year and month of production coded in accordance with DIN 42314 standard shown in the following table: The technological development of Power semiconductors led to an ever-increasing widespread use of power electronics. Many of these applications are based on the usage of capacitors specially designed to withstand the electric and thermal stresses required. KEMET developed a wide range of capacitors for power electronics that are shown in this catalogue and suitable to be used in applications like forced commutation, damping, clamping, snubbering, A.C. and D.C. filtering. These capacitors are wound in such a way to provide low values of stray inductance (ESL), series resistance (ESR) in order to minimize the power dissipation (Tgδ). With these characteristics the capacitors for power electronics made by KEMET allow to operate with high values of RMS and Peak currents producing a negligible temperature rise of the case. These performances are obtained using low loss dielectrics, which assure high stability of capacitance versus temperature and time. The metallized electrodes under vacuum assure the selfhealing characteristic, this means that voltage transients exceeding the rated voltage can be applied without causing short circuits. The tight production of the case guarantees a complete protection against humidity and external pollutants. The capacitors for power electronics shown in this catalogue are the most common models, but many others are normally in production or in development stage. For particular requirements or custom designed products please contact directly the KEMET local office. Year Letter Month Letter 1995 F January 1 1996 H February 2 1997 J March 3 1998 K April 4 1999 L May 5 2000 M June 6 2001 N July 7 2002 P August 8 2003 R September 9 2004 S October O 2005 T November N 2006 U December D 2007 V 2008 X GENERAL TECHNICAL DATA The capacitive cartridge is wound on high-speed automated machines, in cylindrical shape, non-inductive, self-healing, QUALITY surge proof and low loss metallized plastic dielectric films. Arcotronics capacitors are manufactured with maximum The terminations are connected to the electrodes through attention to product quality and customer service is our first metal-sprayed front ends (Shoopage), assuring a high contact task.In order to assure high quality and reliability to its products, reliability and low values of ESR. Arcotronics adopts the most modern worldwide standards and procedures of continuous improvement. KEMET quality VIBRATION STRENGTH system is certified by ISO9001 EN 29001–BS5750 part 2 and CECC 00114 part 1. The target of Arcotronics quality control The vibration strength of Aluminum can capacitors havinga diameter ≤ 60mm and height ≤ 160mm, corresponds tothe test is the achievement of zero defects. loading according to the standard DIN 40046 page 8, test FC – B1 or IEC Publication 68-2-6 at the following conditions: TERMINATIONS Case diameter .......... ≤ 60mm .....................65mm The standard terminations of capacitors with aluminum case Test duration ........... 6 hours .....................6 hours are made by two M6 tinned brass screws allowing a maximum Frequency range.......10 to 55 Hz .................10 to 55 Hz driving torque of 6 Nm. Upon request it is possible to supply Amplitude .................. 0.75mm .....................0.75 mm single or double tinned brass 6.35x0.8 mm faston or 2.8x0.5 mm mini faston. The solderability of fastons is guaranteed for Acceleration max ......10 g ............................2 g a period of 4 months starting from the manufacturing date Fixing method is very important in order to minimize the marked on the case. Axial and Box executions are provided Detrimental effects of vibrations. with tinned copper wire terminations. Specifications and Test Methods - Capacitance: C (µF) The rated capacitance measured at 20°C±5°C at 1 kHz. - - Dissipation Factor DF (tgδ) Two values may be specified: 1) tgδ max, that represents the max guaranteed value. Tolerance The maximum admitted deviation from the rated value of 2) tgδ typ, that is the typical value of the capacitors. Capacitance measured at 20°C, ±5% code J, 610% Code K. The tgδ value is measured at 20°C ± 5°C at 1 kHz. The max error of tgδ measurement is less than ±1x10-4± 10% of the measured value. Capacitance change versus temperature The capacitance changes from nominal value at 20°C ± 5°C Note: the measurements of capacitance and tgδ of in the specified temperature range. The typical capacitance capacitors MKP C.44/3 series are carried out at 50 Hz. change versus temperature is shown in the diagrams on Page 4. - Equivalent Series-Inductance: ESL - Rated D.C. Voltage: Un The Un voltage refers to the maximum operating peak recurring voltage of either polarity but of the non-reversing type waveform. - - Rated A.C. Voltage: URMS The maximum RMS value of the sinusoidal alternating - voltage marked on the capacitor. - Non recurrent surge voltage: UPK The maximum non-recurrent peak D.C. voltage that can be applied in either polarity for a limited number of times. The application of higher than rated peak voltage Upk may - result in premature failure of the dielectric. - URMS trapezoidal The RMS value of trapezoidal A.C. voltage at which the capacitor will provide full rated life. The capacitor has a certain inductance due to the length of connections and capacitive element; the sum of these stray inductances represents the Equivalent Series Inductance (ESL).The value indicated is typical and is measured at 20°C ± 5°C at the self-resonance frequency; it is expressed in nano-Henry (nH). Equivalent Series Resistance: ESR The ESR is the equivalent series resistance due to resistivity of electrodes, internal connections and dielectric losses. The ESR is measured in milliohm (mΩ) at 20 °C ± 5 °C and a frequency of 10 kHz. Insulation Resistance: I.R. The insulation resistance between terminals is expressed by means of the discharge time constant R.C. according to DIN 41180. The standard guaranteed value is of RC≥3000 s Measured for 1 minute at 100 Vdc and at 20°C ± 5°C. Climatic category: 40/85/21 according to IEC 68-1. - I.R. between terminals and case. - ÛMAX - The maximum repetitive peak DC voltage that can Applying a D.C. voltage of 500 V, the capacitor should be applied in either polarity. display a Resistance value higher than 3 x 10-4 MW. - Voltage test between terminal: Utt - Rated insulation Voltage: Ui All capacitors are tested at 20 °C ± 5 °C for 10 s at one or The rated insulation voltage is the RMS value of the A.C. both the following voltages: Voltage for which the capacitor insulation between terminals D.C. Test Voltage: 2.5 Un / Ø2 and case is designed. A.C. Test Voltage: 1.5 URMS - Operating temperature - Climatic category - Reliability Data All capacitors for Power Electronics are made inaccordance with standard DIN 40040.Metal case execution: DIN 40040 GPD/LS. G = -40 °C, P = + 85 °C, D = average humidity ≤ 80 %, L = Failure quota 300/109 components hours, S = load duration 30,000 hours. Self-healing: SH E = average humidity ≤ 75%. Polyester film coated The capacitors for Power Electronics are wound with execution: DIN 40040 GPE/LS. vacuum metallized films with the self-healing characteristics. Electrical discharges between electrodes may thus occur - Storage temperature during operation without damaging dielectric, producing The range over which the capacitor may be only a negligible capacitance reduction. stored unenergized, with no degradation is - 55… + 105°C. - Voltage test between terminals and case UTC The standard test conditions are 3 kVRMS sinus at 50 Hz, 20°C ± 5°C for 1 minute, no breakdown discharges are admitted. The maximum operating voltage applied continuously between each terminal and case is: - 1.25 URMS for A.C. Applications - 1.25 UPK for D.C. Applications - Specifications and Test Methods - Peak Repetitive Current: IPKR The peak repetitive current is the maximum value that the The maximum allowable altitude is 2200 meters.As the peak current can assume. barometric pressure decreases, the terminal arc-over susceptibility increases. Heat generated cannot be properly dissipated operating at high altitude and can result in high - Peak Non Repetitive Current: IPKN RI2 losses and eventual failure. The peak non-repetitive current is the maximum admissible non-periodic current peak. - Thermal Dissipation Coefficient: K The thermal dissipation coefficient K is the typical value that - Expected life allows to calculate the temperature rise of capacitor case Any material or element has a longer or shorter life according compared to the ambient temperature in operating conditions. to the working conditions to which it is submitted due to its ∆T = K ESR I2RMS (°C) intrinsic properties. The capacitor is subjected to several types of stresses: overvoltage, overheating, pollution, humidity, radiation, and vibrations. The ageing causes an irreversible - Rated RMS current: IRMS change of its properties as a result of the application of an The rated RMS current is the highest permissible RMS value external stress. The expected life is the time required by the of the continuous current flowing through the capacitor at capacitor to reach the specified limit of reduced value of the the max temperature of 70 °C.Operating at the rated RMS electrical parameters. The main stresses are both electric current, the capacitor produces a case temperature rise of and thermal in origin. It is possible to demonstrate a model about 15 °C over the ambient due to the resistive losses of of life for each series of capacitors and type of stress in dielectrics, plates and conductors.The rated RMS current order to estimate the life of the component according to the IRMS must be derated taking into account the ambient temperature and voltage applied. temperature and the skin effect due to the duration of peak L (hours) = F (V, T) current time according to the following diagram: - Altitude Voltage (V) 2-3#U R R EN T )N Rated RMS Current versus ambient temperature 50 40 30 0 20 Time (hours) 10 0 -40 0 40 70 85 95 T (°C) !MBIENT4EMPERATURE # Life expectancy - Life expectancy versus voltage - Materials and environment The life expectancy of a capacitor subjected to a voltage The selection of materials, used by Arcotronics for the different from the nominal one, can be approximately production of capacitors, is the result of a long experience calculated with the following simplified formula: and constant attention to the environment protection. Arcotronics selects its suppliers according to ISO9001 LE =LN x (VN / V)8 standards and carries out statistical analysis on the materials LE =Life expectancy at operating voltage (hours) purchased before acceptance. All materials are, to its present LN =Life expectancy at nominal voltage (hours) knowledge, non-toxic and free from: Cadmium, Mercury, VN =Nominal voltage Un (V) Chrome and compounds, PCB (Polychlorine Triphenyl), V =Operating voltage (V) Bromide and Chlorine Dioxins Bromurate Clorurate, CFC The above formula is valid within ± 20% of the nominal and HCFC, Asbestons. Voltage. - Disposal The capacitors should be disposed of in compliance with the - Life expectancy versus temperature The life expectancy of a capacitor subject to a local laws and active regulations according to the following temperaturedifferent form the rated one of 70 °C can be European classifications: calculated with: 91/156/CEE LE =LTo x 2 (To – Ths ) / 7 91/ 689 / CEE LE =Life expectancy at operating temperature (hours) LTo=Life expectancy at 70°C (hours) - Voltage rise time: dv/dt To =Reference temperature (70°C) This value shows the maximum voltage rise/fall time, it Ths=Hot spot case temperature (≤ 70°C) is expressed in volts per microsecond, and cannot be overcome. 7 =Arrhenius coefficient Capacitors Failure Modes - Insulation resistance When the capacitor temperature increases the insulation resistance decreases. This is due to increased electron activity. Low insulation resistance can also be the result of moisture tapped in the windings, caused by a prolonged exposure to excessive humidity. - Dissipation factor tgδ The dissipation factor is a complex function involved with the inefficiency of the capacitor. The tgδ may change up and down with increased temperature (see diagram tgδ/T on page 5). - Dielectric strength The dielectric strength (dielectric withstanding voltage or “stress” voltage) level decreases as the temperature increases. This is due to chemical activity of the dielectric material that causes a change in the physical or electrical properties of the capacitor. - Sealing Hermetically Sealed Capacitors When the temperature increases, the pressure inside the Capacitor increases. If the internal pressure is high enough, it can cause a breach in the capacitor, which can then cause leakage of impregnation or filling fluid or moisture susceptibility. - Epoxy encased / Wrap and fill capacitors The epoxy seals on both epoxy encased and wrap and fill Capacitors will withstand short-term exposure to high humidity environments without degradation. Epoxies and plastic tapes will form a pseudo-impervious barrier to humidity and chemicals. These case materials are somewhat porous and through osmosis can cause contaminants to enter the capacitor. The second area of contaminated absorption is the lead-wire / epoxy interface.Since epoxies cannot 100% bond to tinned wires, there can be a path formed, up to the lead wire, into the capacitor section. Aqueous cleaning of circuit boards can aggravate this. - Vibration, Acceleration and shock A capacitor can be mechanically destroyed or may malfunction if it is not designed, manufactured, or installed to meet the vibrations, shock or acceleration requirement within a particular application. Movement of the capacitor within the case can cause low insulation resistance, shorts or opens. Fatigue in the leads or mounting brackets can also cause a catastrophic failure. - Barometric Pressure The altitude at which hermetically sealed capacitors have to be operated controls the voltage rating of the capacitor.As the barometric pressure decreases so does the terminal arc over susceptibility increase. Non-hermetic capacitors can be affected by internal stresses due to pressure changes. This can be in the form of capacitance changes or dielectric arc-over as well as low insulation resistance.Heat transfer can also be affected by altitude operation.Heat generated in operation cannot be dissipated properly and can result in high RI2 losses and eventual failure. - Radiation Radiation capabilities of capacitors must be taken into consideration. Electrical degradation in the form of dielectric embitterment can take place causing shorts or opens. Plastic dielectric film capacitors can undergo two classic failure modes: opens or shorts. Included in these categories are intermittent opens, shorts or high resistance shorts. In addition to these failures, capacitors may fail due to capacitance drift, instability with temperature, high dissipation factor or low insulation resistance. Failures can be the result of electrical, mechanical or environmental overstress, due to dielectric degradation during operation. - Dielectric breakdown (Shorts) The classic capacitor failure mechanism is dielectric breakdown. The dielectric in the capacitor is subjected to the full potential to which the device is charged and, high electrical stresses are common. Dielectric breakdowns may develop after many hours of satisfactory operation. There are several causes that could be associated with operational failures. If the device is operating at or below its maximum rated conditions, most dielectric materials gradually deteriorate with time and temperature to the point of eventual failure. Most of the common dielectric materials undergo a slow ageing process by which they become brittle and are more susceptible to cracking. The higher the temperature is, the more the process is accelerated. Chemical or aqueous cleaning may also have an adverse effect on capacitors. Dielectric breakdown may occur as a result of misapplication of high transients (surges). The capacitor may survive many repeated applications of high voltage transients, however, this may cause a premature failure. - Open capacitors Open capacitors usually occur as a result of overstress in application. For instance operation of DC rated capacitors at high AC current levels can cause a localized heating at the end terminations. The localized heating is caused by high RI2 losses. Continued operation of the capacitor can result in increased end termination resistance, additional heating, and possible failure. The open condition is caused by a separation of the end-connection of the capacitor. Both RMS and Peak currents may cause the open condition when overcome.Mounting capacitors by the leads in high vibration environment may also cause an open condition. The lead wire may fatigue and break at the egress area if a severe resonance is reached. The capacitor body must be fastened into place by use of a clamp or a structural adhesive. - Environmental considerations The following list is a summary of most common environmentally critical factors affecting the life of capacitors. The design engineer must take into consideration his own applications and the effects caused by combinations of various environmental factors. - Service life of a capacitor must be taken into consideration. The service life decreases when the temperature increases (see page 8). - Capacitance will change up and down with temperature Due to the dielectric constant and an expansion or Shrinking of the dielectric material (see diagram ∆C/T on page 5). Capacitance changes can be the result of excessive clamping pressure on non-rigid cases. C4A MKP Series BOX CAPACITORS PCB APPLICATIONS H B H - Self-Healing - Low losses - High ripple current - High contact reliability - Suitable for high frequency applications L B Ød Wire Diameter 0.8 mm 20 AWG 1.2 mm 16 AWG 13th digit code 1 3 0 6_ 2 P1±0.4 Ød P1±0.4 P1±0.4 TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 Application class (DIN 40040) GPD / LS Temperature range (Case) -40 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code (15th digit ) J = ± 5 % ; K = ± 10% Peak non-repetitive max current IPKR x 1.5 Test voltage terminal to terminal UTT 2 Un for 10 seconds Test voltage terminal to case UTC 3kV - 50Hz for 60 seconds Dissipation factor (tgδ) ≤ 5 x 10-4 at 1 kHz and 20 °C Permissible relative humidity Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 100%. Dewing not admissible IEC climatic category 40 / 85 / 56 according to IEC 68-1 Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Case components Solvent resistant plastic case with epoxy resin sealing. Flame retardant execution (UL class 94 V0). Terminals Tinned copper 2 or 4 wires (See figure on top) Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 0 L 6_ 2 General characteristics C4AS MKP Series BOX CAPACITORS SNUBBER APPLICATIONS PEAK VOLTAGE TABLE Un 850 V 1000 V 1200 V 2000 V 3000 V ÛMAX 1200 V 1300 V 1600 V 2400 V 3500 V GENERAL CHARACTERISTICS Code C4ASMB_3150__A_ C4ASMB_3220__B_ C4ASMB_3330__C_ C4ASMB_3470__E_ C4ASMB_3680__G_ C4ASMB_4100__F_ C4ASMB_4200__H_ C4ASMB_4300__M_ C4ASMB_4400__M_ C4ASMB_4500__N_ C4ASNB_3150__A_ C4ASNB_3220__B_ C4ASNB_3330__C_ C4ASNB_3470__E_ C4ASNB_3680__G_ C4ASNB_4100__F_ C4ASNB_4150__J_ C4ASNB_4200__L_ C4ASNB_4220__L_ C4ASNB_4300__M_ C4ASNB_4400__N_ C4ASNB_4470__N_ C4ASPB_3100__A_ C4ASPB_3150__B_ C4ASPB_3220__C_ C4ASPB_3330__E_ C4ASPB_3470__G_ C4ASPB_3680__F_ C4ASPB_4100__F_ C4ASPB_4120__J_ C4ASPB_4200__M_ C4ASPB_4220__M_ C4ASPB_4250__M_ C4ASPB_4300__N_ C4ASPB_4350__N_ C4ASWB_2330__A_ C4ASWB_2470__A_ C4ASWB_2680__B_ C4ASWB_3100__C_ C4ASWB_3150__E_ C4ASWB_3220__E_ C4ASWB_3330__F_ C4ASWB_3680__H_ C4ASWB_4100__M_ C4ASWB_4150__N_ C4ASYB_2220__A_ C4ASYB_2330__B_ C4ASYB_2470__C_ C4ASYB_2680__C_ C4ASYB_3100__E_ C4ASYB_3150__G_ C4ASYB_3220__F_ C4ASYB_3330__H_ C4ASYB_3470__M_ C4ASYB_3820__N_ C Un URMS dv/dt IPKR µF Vdc Vac V/µs A 0.15 0.22 0.33 0.47 0.68 1 2 3 4 5 0.15 0.22 0.33 0.47 0.68 1 1.5 2 2.2 3 4 4.7 0.1 0.15 0.22 0.33 0.47 0.68 1 1.2 2 2.2 2.5 3 3.5 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.68 1 1.5 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.82 850 850 850 850 850 850 850 850 850 850 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 500 500 500 500 500 500 500 500 500 500 600 600 600 600 600 600 600 600 600 600 600 600 630 630 630 630 630 630 630 630 630 630 630 630 630 700 700 700 700 700 700 700 700 700 700 750 750 750 750 750 750 750 750 750 750 1232 1232 1232 1232 1232 758 758 469 469 469 1344 1344 1344 1344 1344 827 827 827 827 512 512 512 1568 1568 1568 1568 1568 965 965 965 598 598 598 598 598 2240 2240 2240 2240 2240 2240 1380 1380 850 850 3360 3360 3360 3360 3360 3360 2070 2070 1280 1280 185 271 407 579 838 758 1516 1407 1876 2345 202 296 444 632 914 827 1241 1654 1819 1536 2048 2406 157 235 345 517 737 656 965 1158 1196 1316 1495 1794 2093 74 105 152 224 336 493 455 937 850 1280 74 111 158 228 336 504 455 682 601 1050 IRMS (A) ESR (mΩ) max @ 100kHz 100kHz @70°C d=0.8 d=1.2 d=1.2 d=0.8 d=1.2 d=1.2 2 wires 2 wires 4 wires 2 wires 2 wires 4 wires 14.3 10.2 7.6 6.2 5.2 6.2 4.6 5.6 4.9 4.7 13.3 9.7 7.3 6.0 5.0 5.9 4.7 4.5 4.4 5.4 5.0 4.7 17.4 12.2 9.2 7.0 5.8 7.0 5.6 5.0 6.2 5.9 5.5 5.3 5.0 40.0 28.5 20.3 14.6 10.7 8.0 9.4 6.1 7.7 6.3 47.9 32.6 23.7 17.0 12.4 9.2 10.5 7.9 10.1 7.2 13.6 9.5 6.9 5.3 4.2 5.2 3.5 4.5 3.8 3.5 12.7 9.0 6.5 5.1 4.0 5.0 3.8 3.4 3.3 4.3 3.8 3.5 16.8 11.6 8.4 6.1 4.8 6.0 4.6 4.0 5.0 4.7 4.4 4.1 3.7 39.3 27.9 19.6 13.8 9.8 7.1 8.5 5.0 6.6 5.1 47.3 31.9 22.9 16.2 11.5 8.2 9.4 6.8 9.0 6.0 6.0 4.3 3.1 4.1 2.3 3.2 2.5 2.1 8.3 5.6 4.1 3.0 3.9 2.7 2.2 2.0 3.0 2.4 2.1 7.5 5.1 3.7 4.9 3.5 2.9 3.8 3.5 3.1 2.7 2.4 13.0 8.8 6.1 7.4 3.8 5.3 3.7 22.0 15.3 10.5 7.2 8.2 5.6 7.7 4.6 8 9 9 9 9 9 9 9 9 9 8 9 9 9 9 9 9 9 9 9 9 9 7 9 9 9 9 9 9 9 9 9 9 9 9 5 6 8 9 9 9 9 9 9 9 5 7 9 9 9 9 9 9 9 9 8 10 13 14 14 14 14 14 14 14 8 11 14 14 14 14 14 14 14 14 14 14 7 10 12 14 14 14 14 14 14 14 14 14 14 5 6 8 10 14 14 14 14 14 14 5 7 9 10 13 14 14 14 14 14 14 19 25 22 29 29 29 29 11 15 20 25 22 29 29 29 29 29 29 13 18 23 20 26 28 28 29 29 29 29 11 15 17 16 25 24 29 9 11 15 19 18 21 20 27 DIMENSIONS mm B H L p p1 10 13 14 18 22 20 24 30 30 35 10 13 14 18 22 20 28 30 30 30 35 35 10 13 14 18 22 20 20 28 30 30 30 35 35 10 10 13 14 18 18 20 24 30 35 10 13 14 14 18 22 20 24 30 35 20 22 28 33 37 40 44 45 45 50 20 22 28 33 37 40 37 45 45 45 50 50 20 22 28 33 37 40 40 37 45 45 45 50 50 20 20 22 28 33 33 40 44 45 50 20 22 28 28 33 37 40 44 45 50 32 32 32 32 32 41.5 41.5 57.5 57.5 57.5 32 32 32 32 32 41.5 42.5 42 42 57.5 57.5 57.5 32 32 32 32 32 41.5 41.5 42.5 57.5 57.5 57.5 57.5 57.5 32 32 32 32 32 32 41.5 41.5 57.5 57.5 32 32 32 32 32 32 41.5 41.5 57.5 57.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 52.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 37.5 37.5 52.5 52.5 52.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 37.5 52.5 52.5 52.5 52.5 52.5 27.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 27.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 5.1 5.1 10.2 10.2 10.2 10.2 20.3 20.3 5.1 5.1 5.1 10.2 10.2 10.2 20.3 20.3 20.3 20.3 20.3 5.1 5.1 10.2 10.2 10.2 10.2 10.2 10.2 20.3 20.3 20.3 5.1 5.1 10.2 10.2 10.2 10.2 20.3 5.1 5.1 10.2 10.2 10.2 10.2 10.2 20.3 C4AT MKP Series BOX CAPACITORS SWITCHING APPLICATIONS PEAK VOLTAGE TABLE Un 250 V 400 V 450 V 600 V 700 V 850 V ÛMAX 400 V 600 V 660 V 800 V 1000 V 1200 V GENERAL CHARACTERISTICS Code IRMS (A) ESR (mΩ) max @ 100kHz DIMENSIONS mm C Un URMS dv/dt IPKR µF Vdc Vac V/µs A C4ATDB_4100__0_ C4ATDB_4220__0_ C4ATDB_4330__0_ C4ATDB_4500__0_ C4ATDB_5100__0_ C4ATDB_5200__0_ C4ATDB_5300__0_ C4ATDB_5400__0_ C4ATDB_5500__0_ C4ATDB_5600__0_ 1 2.2 3.3 5 10 20 30 40 50 60 250 250 250 250 250 250 250 250 250 250 160 160 160 160 160 160 160 160 160 160 30 30 30 30 30 20 20 15 15 15 30 66 99 150 300 400 600 600 750 900 23.3 11.8 8.7 6.8 5.2 5.5 5.3 5.7 5.7 5.7 22.6 11.0 7.8 5.8 4.0 4.2 3.7 4.2 4.1 3.9 3.1 3.1 2.6 3.1 2.8 2.6 5 7 7 7 7 7 7 7 7 7 5 8 10 12 12 12 12 12 12 12 20 22 22 22 22 22 10 10 13 14 18 28 30 30 35 35 C4ATFB_4100__A_ C4ATFB_4150__A_ C4ATFB_4200__B_ C4ATFB_4330__C_ C4ATFB_4400__E_ C4ATFB_4500__E_ C4ATFB_4680__G_ C4ATFB_5100__F_ C4ATFB_5150__J_ C4ATFB_5200__L_ C4ATFB_5250__M_ C4ATFB_5300__M_ C4ATFB_5350__N_ C4ATFB_5400__N_ 1 1.5 2.0 3.3 4 5 6.8 10 15 20 25 30 35 40 400 400 400 400 400 400 400 400 400 400 400 400 400 400 250 250 250 250 250 250 250 250 250 250 250 250 250 250 74 74 74 74 74 74 74 50 50 50 34 34 34 34 74 111 148 244 296 370 504 502 753 1004 846 1015 1184 1350 10.8 7.7 6.3 4.8 4.5 4.0 3.8 4.3 4 3.7 4.4 4.1 4.2 4.0 10.2 7.1 5.6 4.0 3.6 3.2 2.8 3.3 2.9 2.6 3.3 3.0 2.9 2.8 3.1 2.6 2.2 1.7 2.2 1.7 1.4 2.0 1.7 1.6 1.4 8 8 9 9 9 9 9 9 9 9 9 9 9 9 8 10 11 13 14 14 14 14 14 14 14 14 14 14 18 21 23 25 28 25 29 29 29 29 29 C4ATGB_4100__A_ C4ATGB_4330__E_ C4ATGB_4680__G_ C4ATGB_5100__F_ C4ATGB_5150__L_ C4ATGB_5200__M_ C4ATGB_5330__N_ 1 3.3 6.8 10 15 20 33 450 450 450 450 450 450 450 275 275 275 275 275 275 275 82 82 82 55 55 37 37 82 269 554 552 828 744 1228 10.0 4.8 3.6 4.5 3.9 4.6 4.1 9.4 3.8 2.7 3.3 2.8 3.5 2.9 2.9 1.6 2.1 1.6 2.2 1.5 8 9 9 9 9 9 9 8 14 14 14 14 14 14 C4ATHB_3680__A_ C4ATHB_4100__B_ C4ATHB_4200__E_ C4ATHB_4220__E_ C4ATHB_4330__G_ C4ATHB_4470__F_ C4ATHB_4500__F_ C4ATHB_4680__J_ C4ATHB_4900__L_ C4ATHB_5100__L_ C4ATHB_5120__M_ C4ATHB_5200__N_ 0.68 1 2 2.2 3.3 4.7 5 6.8 9 10 12 20 600 600 600 600 600 600 600 600 600 600 600 600 350 350 350 350 350 350 350 350 350 350 350 350 104 104 104 104 104 70 70 70 70 70 47 47 70 103 207 228 342 330 351 477 632 702 568 947 11.5 8.4 5.6 5.3 4.4 5.3 5.2 4.8 4.3 4.1 5.2 4.5 10.9 7.7 4.7 4.4 3.5 4.4 4.2 3.6 3.2 3.0 4.0 3.2 3.7 3.4 2.4 3.3 3.1 2.4 1.9 1.8 2.8 1.9 8 9 9 9 9 9 9 9 9 9 9 9 C4ATJB_3470__A_ C4ATJB_4100__D_ C4ATJB_4150__E_ C4ATJB_4220__E_ C4ATJB_4300__G_ C4ATJB_4500__L_ C4ATJB_4900__M_ C4ATJB_5100__M_ C4ATJB_5150__N_ 0.47 1 1.5 2.2 3 5 9 10 15 700 700 700 700 700 700 700 700 700 400 400 400 400 400 400 400 400 400 119 119 119 119 119 80 54 54 54 55 119 178 260 355 400 487 540 811 14.3 7.9 6.2 4.9 4.4 4.8 5.6 5.3 4.7 13.6 7.1 5.3 4.0 3.4 3.8 4.5 4.2 3.5 6.3 4.3 3.0 2.3 2.8 3.2 2.9 2.1 7 9 9 9 9 8 9 9 9 C4ATMB_3220__A_ C4ATMB_3470__B_ C4ATMB_4100__E_ C4ATMB_4150__G_ C4ATMB_4330__J_ C4ATMB_4470__L_ C4ATMB_4680__M_ C4ATMB_5100__N_ 0.22 0.47 1 1.5 3.3 4.7 6.8 10 850 850 850 850 850 850 850 850 450 450 450 450 450 450 450 450 148 148 148 148 100 100 68 68 32.6 69 148 222 331 471 460 676 23.8 12.1 7.1 5.6 5.7 4.8 5.8 5.1 23.1 11.4 6.2 4.7 4.6 3.7 4.6 3.8 5.2 3.6 3.3 2.5 3.4 2.5 5 8 9 9 9 9 9 9 100kHz @70°C d=0.8 d=1.2 d=1.2 d=0.8 d=1.2 d=1.2 2 wires 2 wires 4 wires 2 wires 2 wires 4 wires 10 B H L p p1 20 20 22 28 33 37 45 45 50 50 32 32 32 32 32 42.5 42.5 57.5 57.5 57.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 52.5 10.2 10.2 20.3 20.3 20.3 20.3 10 10 13 14 18 18 22 20 28 30 30 30 35 35 20 20 22 28 33 33 37 40 37 45 45 45 50 50 32 32 32 32 32 32 32 41.5 42.5 42 57.5 57.5 57.5 57.5 27.5 27.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 37.5 52.5 52.5 52.5 52.5 5.1 10.2 10.2 10.2 10.2 10.2 20.3 20.3 20.3 20.3 20.3 21 29 29 29 29 29 10 18 22 20 30 30 35 20 33 37 40 45 45 50 32 32 32 41.5 42 57.5 57.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 5.1 10.2 10.2 20.3 10.2 20.3 8 10 14 14 14 14 14 14 14 14 14 14 18 19 25 22 22 28 29 29 29 29 10 13 18 18 22 20 20 28 30 30 30 35 20 22 33 33 37 40 40 37 45 45 45 50 32 32 32 32 32 41.5 41.5 42 42 42 57.5 57.5 27.5 27.5 27.5 27.5 27.5 37.5 37.5 37.5 37.5 37.5 52.5 52.5 5.1 5.1 10.2 10.2 10.2 10.2 20.3 20.3 10.2 20.3 7 12 14 14 14 14 14 14 14 13 17 20 25 27 29 29 29 10 15 18 18 22 28 30 30 35 20 24.5 33 33 37 37 45 45 50 32 32 32 32 32 42.5 57.5 57.5 57.5 27.5 27.5 27.5 27.5 27.5 37.5 52.5 52.5 52.5 5.1 5.1 10.2 10.2 10.2 10.2 10.2 20.3 5 8 14 14 14 14 14 14 16 21 24 29 28 29 10 13 18 22 28 30 30 35 32 32 32 32 42.5 42 57.5 57.5 27.5 27.5 27.5 27.5 37.5 37.5 52.5 52.5 5.1 10.2 10.2 20.3 20.3 20.3 20 22 33 37 37 45 45 50 C4AE MKP Series BOX CAPACITORS DC-LINK APPLICATIONS General characteristics L B Ød 6+0-2 H - Self-Healing - High Capacitance Density - Low losses - High ripple current - High contact reliability - Suitable for high frequency applications P1±0.4 P1±0.4 TECHNICAL DATA General technical data VDE 0560-12 – IEC 1071 – EN 61071 Application class (DIN 40040) GPD / LS Temperature range (Case) -40 to + 85 °C Max ambient temperature +70 °C Capacitance tolerance code (15th digit ) J = ± 5 % ; K = ± 10% Max repetitive peak Voltage 1.15 x Vn (max 30 min. within one day) Max non-repeatitive max Peak current IPKR x 1.5 Test voltage terminal to terminal UTT 1,5 Un for 10 seconds at 25°C Test voltage terminal to case UTC 2kV - 50Hz for 10 seconds Dissipation factor (tgδ) ≤ 5 x 10-4 at 1 kHz and 20 °C Permissible relative humidity Annual average ≤ 70% on 30 days / year randomly distribuited throughout the year 85%; dewing not admissible. IEC climatic category 40 / 85 / 56 according to IEC 68-1 Capacitance deviation in the operating temperature range of –40 to +85 °C ±2% max on capacitance value measured at +25 °C Change of capacitance versus operating time -5% after 100.000 hours at Un Case components Solvent resistant plastic case with epoxy and polyurethanic resin sealing. Flame retardant execution (UL class 94 V0). Terminals Tinned copper 2+2 wires (See figure on top) Installation Whatever Position Life Expectancy ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 11 C4AE MKP Series BOX CAPACITORS DC-LINK APPLICATIONS PEAK VOLTAGE TABLE Un 450 V 700 V 900 V 1100 V ÛMAX 660 V 1000 V 1250 V 1500 V GENERAL CHARACTERISTICS C Un dv/dt µF Code IPKR ESL A ESR DIMENSIONS IRMS mm 70°C @ 10kHz 70°C @ 10kHz Vdc V/µs nH mΩ A B H L p p1 C4AEGBW5300A3FJ 30 450 21 616 30 10.54 8 20 40 41.5 37.5 10.2 C4AEGBW5350A3JJ 35 450 21 719 30 9.05 9 28 37 42.5 37.5 10.2 C4AEGBW5400A3HJ 40 450 21 822 30 7.97 10 24 44 41.5 37.5 10.2 C4AEGBW5500A3LJ 50 450 21 1027 30 6.42 12 30 45 42 37.5 20.3 C4AEGBW5750A3MJ 75 450 14 1039 35 5.45 14 30 45 57.5 52.5 10.2 C4AEGBW6100A3NJ 100 450 14 1368 35 4.17 17 35 50 57.5 52.5 20.3 C4AEJBW5150A3FJ 15 700 13 196 30 6.33 10 20 40 41.5 37.5 5.1 C4AEJBW5200A3JJ 20 700 13 262 30 4.78 12 28 37 42.5 37.5 10.2 C4AEJBW5220A3HJ 22 700 13 287 30 4.39 13 24 44 41.5 37.5 10.2 C4AEJBW5300A3LJ 30 700 13 390 30 3.28 16 30 45 42 37.5 20.3 C4AEJBW5450A3MJ 45 700 10 450 35 3.55 17 30 45 57.5 52.5 20.3 C4AEJBW5550A3NJ 55 700 10 550 35 3.08 21 35 50 57.5 52.5 20.3 C4AEOBW5120A3FJ 12 900 16 196 30 6.38 10 20 40 41.5 37.5 10.2 C4AEOBW5140A3JJ 14 900 16 224 30 5.49 11 28 37 42.5 37.5 10.2 C4AEOBW5160A3HJ 16 900 16 256 30 4.85 13 24 44 41.5 37.5 10.2 C4AEOBW5200A3LJ 20 900 16 327 30 3.93 15 30 45 42 37.5 20.3 C4AEOBW5300A3MJ 30 900 11 330 35 4.23 16 30 45 57.5 52.5 20.3 C4AEOBW5400A3NJ 40 900 11 441 35 3.25 20 35 50 57.5 52.5 20.3 C4AEQBW4800A3FJ 8 1100 20 157 30 8.00 9 20 40 41.5 37.5 10.2 C4AEQBW5100A3JJ 10 1100 20 196 30 6.43 11 28 37 42.5 37.5 10.2 C4AEQBW5120A3LJ 12 1100 20 235 30 5.42 13 30 45 42 37.5 20.3 C4AEQBW5200A3MJ 20 1100 13 265 35 5.26 14 30 45 57.5 52.5 20.3 C4AEQBW5250A3NJ 25 1100 13 331 35 4.27 17 35 50 57.5 52.5 20.3 SINGLE PACKING UNIT Box dimensions N° of pieces Weight kg Box dimensions N° of pieces Weight kg 20x40x41.5 54 3.0 30x45x42 36 3.4 28x37x42.5 36 2.7 30x45x57.5 27 3.2 24x44x41.5 42 3.2 35x50x57.5 23 3.5 12 C4B MKP Series BOX CAPACITORS IGBT APPLICATIONS General characteristics B L 7±0.5 0.8 H - Self-Healing - Low losses - High ripple current - High contact reliability - Suitable for high frequency applications P±0.5 16 P1±0.5 12 6.2 10 17 TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 Application class (DIN 40040) GPD / LS Temperature range (Case) -40 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code (15th digit ) J = ± 5 % ; K = ± 10% Peak non-repetitive max current IPKR x 1.5 Test voltage terminal to terminal UTT 2 Un for 10 seconds Test voltage terminal to case UTC 3kV - 50Hz for 60 seconds Dissipation factor (tgδ) ≤ 5 x 10-4 at 1 kHz and 20 °C Permissible relative humidity Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 100%. Dewing not admissible IEC climatic category 40 / 85 / 56 according to IEC 68-1 Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Case components Solvent resistant plastic case with epoxy resin sealing. Flame retardant execution (UL class 94 V0). Terminals Tinned brass lugs Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 13 C4BS MKP Series BOX CAPACITORS IGBT APPLICATIONS PEAK VOLTAGE TABLE Un 850 V 1000 V 1200 V 2000 V 3000 V ÛMAX 1200 V 1300 V 1600 V 2400 V 3500 V GENERAL CHARACTERISTICS Code ESR ESL IRMS DIMENSIONS mm C Un URMS dV/dt IPKR µF Vdc Vac V/µs A mΩ nH A B H L max @ 100 kHz 100 kHz @ 70°C C4BSMBX3470ZEE_ C4BSMBX3470Z_F_ C4BSMBX3680Z_F_ C4BSMBX4100Z_F_ C4BSMBX4150Z_J_ C4BSMBX4200Z_L_ C4BSMBX4220Z_L_ C4BSMBX4250Z_M_ C4BSMBX4300Z_M_ C4BSMBX4330Z_M_ C4BSMBX4400Z_N_ C4BSMBX4500Z_N_ C4BSNBX3470ZEE_ C4BSNBX3470Z_F_ C4BSNBX3680Z_F_ C4BSNBX4100Z_F_ C4BSNBX4150Z_J_ C4BSNBX4200Z_L_ C4BSNBX4220Z_M_ C4BSNBX4250Z_M_ C4BSNBX4300Z_M_ C4BSNBX4330Z_M_ C4BSNBX4400Z_N_ C4BSPBX3330ZEE_ C4BSPBX3330Z_F_ C4BSPBX3470Z_F_ C4BSPBX3680Z_F_ C4BSPBX4100Z_J_ C4BSPBX4120Z_J_ C4BSPBX4150Z_L_ C4BSPBX4200Z_M_ C4BSPBX4220Z_M_ C4BSPBX4250Z_M_ C4BSPBX4300Z_N_ C4BSPBX4330Z_N_ C4BSWBX3100ZEE_ C4BSWBX3100Z_F_ C4BSWBX3150ZEE_ C4BSWBX3150Z_F_ C4BSWBX3220Z_F_ C4BSWBX3330Z_F_ C4BSWBX3470Z_F_ C4BSWBX3680Z_H_ C4BSWBX3820Z_L_ C4BSWBX4100Z_M_ C4BSWBX4120Z_M_ C4BSWBX4150Z_N_ C4BSYBX2470ZEE_ C4BSYBX2470Z_F_ C4BSYBX2680ZEE_ C4BSYBX2680Z_F_ C4BSYBX3100Z_F_ C4BSYBX3220Z_F_ C4BSYBX3330Z_L_ C4BSYBX3470Z_M_ C4BSYBX3680Z_N_ 0.47 0.47 0.68 1 1.5 2 2.2 2.5 3 3.3 4 5 0.47 0.47 0.68 1 1.5 2 2.2 2.5 3 3.3 4 0.33 0.33 0.47 0.68 1 1.2 1.5 2 2.2 2.5 3 3.3 0.1 0.1 0.15 0.15 0.22 0.33 0.47 0.68 0.82 1 1.2 1.5 0.047 0.047 0.068 0.068 0.1 0.22 0.33 0.47 0.68 850 850 850 850 850 850 850 850 850 850 850 850 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 3000 3000 3000 3000 3000 3000 3000 3000 3000 550 550 550 550 550 550 550 550 550 550 550 550 600 600 600 600 600 600 600 600 600 600 600 630 630 630 630 630 630 630 630 630 630 630 630 700 700 700 700 700 700 700 700 700 700 700 700 750 750 750 750 750 750 750 750 750 579 356 516 758 1138 1517 1668 1174 1408 1549 1878 2347 632 389 563 827 1241 1655 1127 1280 1536 1690 2049 518 319 454 656 965 1158 1448 1195 1315 1494 1793 1972 224 138 336 207 303 455 648 938 1131 854 1024 1280 158 97 229 141 207 455 683 602 871 4.2 8.2 5.7 4.0 2.7 2.1 1.9 1.7 3.0 2.8 2.3 1.9 3.9 7.6 5.3 3.7 2.5 2.0 3.8 3.3 2.8 2.6 2.2 5.0 9.5 6.7 4.7 3.3 2.8 2.3 3.6 3.3 2.9 2.5 2.3 12.9 23.3 8.6 15.6 10.7 7.2 5.1 3.6 3.0 5.1 4.3 3.5 21.9 36.6 15.2 25.4 17.3 8.0 5.4 7.5 5.3 36 41 41 41 36 43 43 45 45 45 48 48 36 41 41 41 36 43 45 45 45 45 48 36 41 41 41 36 36 43 45 45 45 48 48 36 41 36 41 41 41 41 43 43 45 45 48 36 41 36 41 41 41 43 45 48 20 16 19 22 29 36 37 39 32 33 36 42 20 16 20 23 30 36 29 30 33 34 40 19 15 18 21 27 29 34 29 30 32 37 39 12 10 15 12 14 17 20 26 30 24 26 31 10 8 12 10 12 17 24 20 23 18 20 20 20 28 30 30 30 30 30 35 35 18 20 20 20 28 30 30 30 30 30 35 18 20 20 20 28 28 30 30 30 30 35 35 18 20 18 20 20 20 20 24 30 30 30 35 18 20 18 20 20 20 30 30 35 33 40 40 40 37 45 45 45 45 45 50 50 33 40 40 40 37 45 45 45 45 45 50 33 40 40 40 37 37 45 45 45 45 50 50 33 40 33 40 40 40 40 44 45 45 45 50 33 40 33 40 40 40 45 45 50 32 41.5 41.5 41.5 42.5 42 42 57.5 57.5 57.5 57.5 57.5 32 41.5 41.5 41.5 42.5 42 57.5 57.5 57.5 57.5 57.5 32 41.5 41.5 41.5 42.5 42.5 42 57.5 57.5 57.5 57.5 57.5 32 41.5 32 41.5 41.5 41.5 41.5 41.5 42 57.5 57.5 57.5 32 41.5 32 41.5 41.5 41.5 42 57.5 57.5 C4BSYBX3820Z_N_ 0.82 3000 750 1280 1050 4.4 48 28 35 50 57.5 1232 758 758 758 758 758 758 469 469 469 469 469 1344 827 827 827 827 827 512 512 512 512 512 1568 965 965 965 965 965 965 598 598 598 598 598 2241 1379 2241 1379 1379 1379 1379 1379 1379 854 854 854 3361 2068 3361 2068 2068 2068 2068 1280 1280 14 C4BT MKP Series BOX CAPACITORS SWITCHING APPLICATIONS PEAK VOLTAGE TABLE Un 250 V 400 V 600 V 700 V 850 V ÛMAX 400 V 600 V 800 V 1000 V 1200V GENERAL CHARACTERISTICS Code C4BTDBX4470ZEE_ C4BTDBX4680ZEE_ C4BTDBX5100Z_F_ C4BTDBX5150Z_F_ C4BTDBX5200Z_J_ C4BTDBX5250Z_H_ C4BTDBX5300Z_L_ C4BTDBX5400Z_M_ C4BTDBX5500Z_N_ C4BTDBX5600Z_N_ C4BTFBX4330ZEE_ C4BTFBX4400ZEE_ C4BTFBX4400Z_F_ C4BTFBX4500ZEE_ C4BTFBX4500Z_F_ C4BTFBX4680Z_F_ C4BTFBX5100Z_F_ C4BTFBX5125Z_J_ C4BTFBX5150Z_J_ C4BTFBX5200Z_L_ C4BTFBX5250Z_M_ C4BTFBX5300Z_M_ C4BTFBX5350Z_N_ C4BTFBX5400Z_N_ C4BTHBX4250ZEE_ C4BTHBX4250Z_F_ C4BTHBX4300Z_F_ C4BTHBX4400Z_F_ C4BTHBX4500Z_F_ C4BTHBX4680Z_J_ C4BTHBX4800Z_H_ C4BTHBX5100Z_L_ C4BTHBX5125Z_M_ C4BTHBX5150Z_M_ C4BTHBX5200Z_N_ C4BTJBX4150ZEE_ C4BTJBX4150Z_F_ C4BTJBX4200ZEE_ C4BTJBX4200Z_F_ C4BTJBX4220Z_F_ C4BTJBX4300Z_F_ C4BTJBX4400Z_F_ C4BTJBX4500Z_J_ C4BTJBX4800Z_L_ C4BTJBX5100Z_M_ C4BTJBX5150Z_N_ C4BTMBX4100ZEE_ C4BTMBX4100Z_F_ C4BTMBX4150Z_F_ C4BTMBX4200Z_F_ C4BTMBX4300Z_F_ C4BTMBX4400Z_H_ C4BTMBX4500Z_L_ C4BTMBX4800Z_N_ C4BTMBX5100Z_N_ C Un URMS dv/dt IPKR µF Vdc Vac V/µs A 4.7 6.8 10 15 20 25 30 40 50 60 3.3 4 4 5 5 6.8 10 12.5 15 20 25 30 35 40 2.5 2.5 3 4 5 6.8 8 10 12.5 15 20 1.5 1.5 2 2 2.2 3 4 5 8 10 15 1 1 1.5 2 3 4 5 8 10 250 250 250 250 250 250 250 250 250 250 400 400 400 400 400 400 400 400 400 400 400 400 400 400 600 600 600 600 600 600 600 600 600 600 600 700 700 700 700 700 700 700 700 700 700 700 850 850 850 850 850 850 850 850 850 160 160 160 160 160 160 160 160 160 160 250 250 250 250 250 250 250 250 250 250 250 250 250 250 330 330 330 330 330 330 330 330 330 330 330 400 400 400 400 400 400 400 400 400 400 400 450 450 450 450 450 450 450 450 450 59 59 40 40 40 40 40 27 27 27 74 74 50 74 50 50 50 50 50 50 34 34 34 34 104 70 70 70 70 70 70 70 47 47 47 119 80 119 80 80 80 80 80 80 54 54 148 100 100 100 100 100 100 68 68 279 403 402 602 803 1004 1205 1082 1353 1624 245 296 201 370 251 341 502 627 753 1004 846 1015 1184 1353 259 176 211 281 351 478 562 703 592 710 947 178 120 237 161 177 241 321 402 642 541 812 148 100 151 201 301 402 502 541 677 ESR max @ 100 kHz 15 ESL IRMS DIMENSIONS mm 100 kHz @ 70°C mΩ nH A B H L 2.6 1.9 2.6 1.8 1.4 1.2 1.0 1.5 1.2 1.1 3.0 2.5 4.9 2.0 4.0 3.0 2.1 1.7 1.5 1.2 1.8 1.6 1.4 1.2 2.9 5.7 4.8 3.6 2.9 2.2 1.9 1.6 2.5 2.1 1.7 4.2 8.2 3.2 6.2 5.7 4.2 3.2 2.6 1.7 2.7 1.9 5.1 9.9 6.7 5.1 3.4 2.6 2.2 2.8 2.3 36 36 41 41 36 43 43 45 48 48 36 36 41 36 41 41 41 36 36 43 45 45 48 48 36 41 41 41 41 41 43 43 45 45 48 36 41 36 41 41 41 41 36 43 45 48 36 41 41 41 41 43 43 48 48 22 26 27 32 39 43 50 46 54 58 21 23 19 25 22 25 30 35 38 46 41 45 52 54 21 18 20 23 25 31 34 40 35 38 47 18 15 20 17 18 21 24 29 38 34 44 16 14 17 19 23 29 34 37 40 18 18 20 20 28 24 30 30 35 35 18 18 20 18 20 20 20 28 28 30 30 30 35 35 18 20 20 20 20 28 24 30 30 30 35 18 20 18 20 20 20 20 28 30 30 35 18 20 20 20 20 24 30 35 35 33 33 40 40 37 44 45 45 50 50 33 33 40 33 40 40 40 37 37 45 45 45 50 50 33 40 40 40 40 37 44 45 45 45 50 33 40 33 40 40 40 40 37 45 45 50 33 40 40 40 40 44 45 50 50 32 41.5 41.5 41.5 42.5 42 42 57.5 57.5 57.5 32 41.5 41.5 41.5 42.5 42 57.5 57.5 57.5 57.5 57.5 32 41.5 41.5 41.5 42.5 42.5 42 57.5 57.5 57.5 57.5 57.5 32 41.5 32 41.5 41.5 41.5 41.5 41.5 42 57.5 57.5 57.5 32 41.5 32 41.5 41.5 41.5 42 57.5 57.5 57.5 C4B MKP Series BOX CAPACITORS IGBT APPLICATIONS ° 90 16 0.8 14 B L 1.2 P1 10.5 10.5 10.5 25 b L P a b 41.5 25.5 21.5 29.5 42 25.5 21.5 29.5 42.5 25.5 21.5 29.5 57.5 41 37 45 ! ! ! ! L 6.2 Style L 41.5 42 42.5 57.5 " " " " P a B Style 16 H H 6 P1 7 14 0.8 b±0.2 p±0.2 g±0.2 P1 10 P 22 22 22 37 17 P1 6 6 6 21 7 7.5 P1 H H 1.9 7 a 10 17 16 ° 0.8 0.8 90 P1 b 28 28 28 43 p±0.2 14 16 a 16 16 16 31 B L L 6.2 L 41.5 42 42.5 57.5 & & & & P a b 12 Style P 22 22 22 37 a 16 16 16 31 Style P1 6 6 6 21 b 28 28 28 43 ' ' ' ' L 41.5 42 42.5 57.5 P 22 22 22 37 a 4 4 4 4 b P1 10.5 10.5 10.5 25 / / / / 10 17 P1 H H 0.8 11 17.5 6 ° P 4.3 14 90 0.8 b±0.2 p±0.2 g±0.2 P1 L b L P a 41.5 25.5 21.5 29.5 42 25.5 21.5 29.5 42.5 25.5 21.5 29.5 57.5 41 37 45 Style P1 10.5 10.5 10.5 25 8 1.5 ( ( ( ( L 8.5 Style B 10 B a b % % % % % % B 18 20 22 24 28 30 P 31 33 35 37 41 43 P1 44 46 48 50 54 56 a 29 31 33 35 39 41 b 33 35 37 39 43 45 SINGLE PACKAGE UNIT Box dimensions N° of pieces Weight kgr Box dimensions N° of pieces Weight kgr 20x40x41.5 54 3.0 30x45x42 36 3.4 28x37x42.5 36 2.7 30x45x57.5 27 3.2 24x44x41.5 42 3.2 35x50x57.5 23 3.5 16 C4C-C4H-C4G-C4M MKP Series AXIAL CAPACITORS PCB APPLICATIONS General characteristics Ød - Self-Healing - Low losses - High ripple current - High contact reliability - Suitable for high frequency applications < 10 mm 10 mm ÷ 22mm > 22 mm d 0.8 mm 20 AWG 1 mm 18 AWG 1.2 mm 16 AWG L 40±5 40±5 L 40±5 ØD Ød D 40±5 ØD TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 Application class (DIN 40040) GPE / LS Temperature range (Case) -40 °C to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code (15th digit) J = ± 5% ; K = ± 10% Peak non-repetitive max current IPKR x 1.5 Test voltage terminal to terminal UTT 2 Un for 10 seconds Insulation resistance test conditions : +25 °C ± 5% : 1 minute : 100 Vdc : 3000 seconds Temperature Voltage charge time Test voltage Typical value ( Ris x C ) Test voltage terminal to case UTC 3kVDC 50Hz for 60 seconds Dissipation factor ( tgδ ) ≤ 5 x 10-4 at 1 kHz and 20 °C Damp heat test - Test conditions Performances Temperature Relative humidity Test duration Capacitance change tgδ change Insulation resistance : +40 °C : 93% ±2% : 56 days : ≤ ± 5% : ≤ 50% of nominal value at 1 kHz : ≤ 50% of limit value IEC climatic category 40 / 85 / 56 according to IEC 68-1 Capacitance deviation in the operating temperature range of -40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Protection Polyester wrapping with epoxy resin fill Flame retardant ( IEC 384-1 ) Standard execution: not flame retardant 4th digit code A On request flame retardant execution category C, 4thdigit code S Leads Tinned copper (medium lead content 5%) Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour Vibration strength DIN 40040 , Table 6 , Class V 17 C4C MKP Series Ød AXIAL CAPACITORS SNUBBER APPLICATIONS 40±5 40±5 L ØD PEAK VOLTAGE TABLE Un 850 V 1200 V 2000 V 3000 V ÛMAX 1200 V 1600 V 2400 V 3500 V GENERAL CHARACTERISTICS Code C4CAMUB3100AA0J C4CAMUB3150AA0J C4CAMUC3220AA0J C4CAMUC3330AA0J C4CAMUC3470AA0J C4CAMUC3680AA1J C4CAMUD4100AA1J C4CAMUD4150AA1J C4CAMUD4200AA3J C4CAMUD4220AA3J C4CAMUD4250AA3J C4CAPUB2470AA0J C4CAPUB2680AA0J C4CAPUB3100AA0J C4CAPUC3150AA0J C4CAPUC3220AA0J C4CAPUC3330AA1J C4CAPUC3470AA1J C4CAPUD3680AA1J C4CAPUD4100AA1J C4CAPUD4120AA3J C4CAPUD4150AA3J C4CAWUB2220AA0J C4CAWUB2330AA0J C4CAWUC2470AA0J C4CAWUC2680AA0J C4CAWUC3100AA0J C4CAWUC3150AA1J C4CAWUD3220AA1J C4CAWUD3330AA1J C4CAWUD3470AA1J C4CAWUD3560AA3J C4CAWUD3680AA3J C4CAYUB1680AA0J C4CAYUB2100AA0J C4CAYUC2150AA0J C4CAYUC2220AA0J C4CAYUC2330AA0J C4CAYUC2470AA1J C4CAYUC2680AA1J C4CAYUD3100AA1J C4CAYUD3150AA1J C4CAYUD3220AA3J C Un Urms dv/dt Ipkr µF 0.1 0.15 0.22 0.33 0.47 0.68 1 1.5 2 2.2 2.5 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.68 1 1.2 1.5 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.56 0.68 0.0068 0.01 0.015 0.022 0.033 0.047 0.068 0.1 0.15 0.22 Vdc 850 850 850 850 850 850 850 850 850 850 850 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 Vac 450 450 450 450 450 450 450 450 450 450 450 500 500 500 500 500 500 500 500 500 500 500 630 630 630 630 630 630 630 630 630 630 630 750 750 750 750 750 750 750 750 750 750 V/µs 450 450 450 450 450 300 300 300 200 200 200 700 700 700 700 700 450 450 450 450 275 275 1150 1150 1150 1150 1150 700 700 700 700 400 400 2100 2100 2100 2100 2100 1250 1250 1250 1250 750 A 45 68 99 149 212 204 300 450 400 440 500 33 48 70 105 154 149 212 306 450 330 413 25 38 54 78 115 105 154 231 329 224 272 14.5 21 32 46 69 59 85 125 188 165 18 ESR Max @100kHz mΩ 16.6 11.5 8.1 5.8 4.6 5.1 3.8 3.1 3.8 3.7 3.5 27.1 19.1 13.4 9.2 6.8 7.2 5.6 4.2 3.5 4.5 4 48.2 32.5 23 16.3 11.6 11.3 8 5.9 4.8 6.1 5.4 132 90.3 60.5 41.6 28.3 25.7 18.3 12.8 9.2 9.5 Irms 100kHz @ 70°C A 5 7 9 9 9 9 12 12 12 12 12 4 5 7 9 9 9 9 12 12 12 12 3 4 6 7 9 9 12 12 12 12 12 2 3 4 5 6 7 9 12 12 12 Max Dimensions (mm) D L d 10.5 33 0.8 12.5 33 0.8 15.5 33 1.0 18.5 33 1.0 21.5 33 1.0 21 44 1.0 25 44 1.2 30.5 44 1.2 28.5 58 1.2 29.5 58 1.2 31.5 58 1.2 10 33 0.8 12 33 0.8 14 33 0.8 17.5 33 1.0 20.5 33 1.0 20 44 1.0 23 44 1.0 27.5 44 1.2 33 44 1.2 29 58 1.2 32 58 1.2 10.5 33 0.8 12.5 33 0.8 15 33 1.0 17.5 33 1.0 20.5 33 1.0 19.5 44 1.0 23.5 44 1.2 28.5 44 1.2 33.5 44 1.2 29 58 1.2 32 58 1.2 10 33 0.8 12 33 0.8 14.5 33 1.0 17 33 1.0 20.5 33 1.0 19 44 1.0 22.5 44 1.0 27 44 1.2 32 44 1.2 31 58 1.2 C4H MKP Series W Ød AXIAL FLAT CAPACITORS SNUBBER APPLICATIONS 40±0.5 40±0.5 L T PEAK VOLTAGE TABLE Un 850 V 1200 V 2000 V 3000 V Ûmax 1200 V 1600 V 2400 V 3500 V GENERAL CHARACTERISTICS Code C Un Urms dv/dt Ipkr ESR IRMS Max @ 100kHz 100kHz @70° MAX DIMENSIONS (mm) µF Vdc Vac V/µs A mΩ A T W L d C4HAMUB3100AA0J 0.1 850 450 450 45 16.7 5 8 12 33 0.8 C4HAMUB3150AA0J 0.15 850 450 450 68 11.5 6 10 14 33 0.8 C4HAMUC3220AA0J 0.22 850 450 450 99 8.1 9 11 17.5 33 1.0 C4HAMUC3330AA0J 0.33 850 450 450 149 5.8 9 14.5 20.5 33 1.0 C4HAMUC3680AA1J 0.68 850 450 300 204 5.1 9 17 23 44 1.0 C4HAMUD4100AA3J 1 850 450 190 190 6.1 12 16.5 22.5 58 1.2 C4HAPUB2470AA0J 0.047 1200 500 700 33 27.2 4 7.5 11.5 33 0.8 C4HAPUB2680AA0J 0.068 1200 500 700 48 19.1 5 9.5 13.5 33 0.8 C4HAPUB3100AA0J 0.1 1200 500 700 70 13.5 6 11.5 15.5 33 0.8 C4HAPUC3150AA0J 0.15 1200 500 700 105 9.2 9 13 19.5 33 1.0 C4HAPUC3220AA0J 0.22 1200 500 700 154 6.8 9 16.5 22.5 33 1.0 C4HAPUC3330AA1J 0.33 1200 500 450 149 7.2 9 15.5 22 44 1.0 C4HAPUC3470AA1J 0.47 1200 500 450 212 5.6 9 19 25.5 44 1.0 C4HAPUD3680AA3J 0.68 1200 500 270 184 6.6 12 18 24 58 1.2 C4HAWUB2220AA0J 0.022 2000 630 1150 25 48.3 3 8 11.5 33 0.8 C4HAWUB2330AA0J 0.033 2000 630 1150 38 32.6 4 9.5 13.5 33 0.8 C4HAWUC2470AA0J 0.047 2000 630 1150 54 23.1 5 10.5 17 33 1.0 C4HAWUC2680AA0J 0.068 2000 630 1150 78 16.3 7 13 19.5 33 1.0 C4HAWUC3100AA0J 0.1 2000 630 1150 115 11.6 9 16.5 22.5 33 1.0 C4HAWUC3150AA1J 0.15 2000 630 700 105 11.3 9 15.5 22 44 1.0 C4HAWUD3220AA1J 0.22 2000 630 700 154 8 12 19.5 25.5 44 1.2 C4HAWUD3330AA3J 0.33 2000 630 410 135 9.2 12 18.5 25 58 1.2 C4HAYUB1680AA0J 0.0068 3000 750 2100 14.5 133 2 7.5 11.5 33 0.8 C4HAYUB2100AA0J 0.001 3000 750 2100 21 90.5 2 9 13 33 0.8 C4HAYUC2150AA0J 0.015 3000 750 2100 32 60.6 3 10.5 16.5 33 1.0 C4HAYUC2220AA0J 0.022 3000 750 2100 46 41.7 4 13 19 33 1.0 C4HAYUC2330AA0J 0.033 3000 750 2100 69 28.3 5 16 22.5 33 1.0 C4HAYUC2470AA1J 0.047 3000 750 1250 59 25.7 6 15 21 44 1.0 C4HAYUC2680AA1J 0.068 3000 750 1250 85 18.3 9 18 24.5 44 1.0 C4HAYUD3100AA3J 0.1 3000 750 750 75 18.9 10 17 23.5 58 1.2 19 C4G Ød MKP Series 40±5 AXIAL CAPACITORS SWITCHING APPLICATIONS 40±5 L ØD PEAK VOLTAGE TABLE Un 250 V 400 V 600 V 700 V 850 V Ûmax 400 V 600 V 800 V 1000 V 1200 V GENERAL CHARACTERISTICS Code C4GADUB4100AA4J C4GADUB4220AA0J C4GADUB4250AA0J C4GADUC4300AA0J C4GADUC4330AA0J C4GADUC4400AA0J C4GADUC4500AA0J C4GADUC4680AA0J G4GADUC5100AA1J C4GADUD5150AA1J C4GADUD5200AA1J C4GADUD5250AA1J C4GADUD5300AA3J C4GADUD5400AA3J C4GAFUB3470AA5J C4GAFUB3680AA0J C4GAFUB4100AA0J C4GAFUC4150AA0J C4GAFUC4200AA0J C4GAFUC4220AA0J C4GAFUC4250AA0J C4GAFUC4300AA0J C4GAFUC4330AA1J C4GAFUC4400AA1J C4GAFUC4470AA1J C4GAFUC4500AA1J C4GAFUD4680AA1J C4GAFUD5100AA1J C4GAFUD5150AA3J C4GAFUD5200AA3J C4GAHUB3470AA0J C4GAHUB3680AA0J C4GAHUC4100AA0J C4GAHUC4200AA1J C4GAHUC4220AA1J C4GAHUC4300AA1J C4GAHUD4330AA1J C4GAHUD4400AA1J C4GAHUD4470AA1J C4GAHUD4500AA1J C4GAHUD4680AA3J C4GAHUD5100AA3J C4GAJUC3470AA0J C4GAHUB3680AA0J C4GAJUC4100AA0J C4GAJUC4150AA1J C4GAJUD4200AA1J C4GAJUD4220AA1J C4GAJUD4300AA1J C4GAJUD4330AA1J C4GAJUD4400AA1J C4GAJUD4470AA3J C4GAJUD4500AA3J C4GAJUD4680AA3J C4GAMUB3150AA0J C4GAMUB3220AA0J C4GAMUC3330AA0J C4GAMUC3470AA0J C4GAMUC3680AA0J C4GAMUC4100AA1J C4GAMUD4150AA1J C4GAMUD4200AA1J C4GAMUD4220AA1J C4GAMUD4250AA1J C4GAMUD4300AA3J C4GAMUD4330AA3J C4GAMUD4400AA3J C Un Urms dv/dt Ipkr µF 1 2.2 2.5 3 3.3 4 5 6.8 10 15 20 25 30 40 0.47 0.68 1 1.5 2 2.2 2.5 3 3.3 4 4.7 5 6.8 10 15 20 0.47 0.68 1 2 2.2 3 3.3 4 4.7 5 6.8 10 0.47 0.68 1 1.5 2 2.2 3 3.3 4 4.7 5 6.8 0.15 0.22 0.33 0.47 0.68 1 1.5 2 2.2 2.5 3 3.3 4 Vdc 250 250 250 250 250 250 250 250 250 250 250 250 250 250 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 600 600 600 600 600 600 600 600 600 600 600 600 700 700 700 700 700 700 700 700 700 700 700 700 850 850 850 850 850 850 850 850 850 850 850 850 850 Vac 160 160 160 160 160 160 160 160 160 160 160 160 160 160 250 250 250 250 250 250 250 250 250 250 250 250 250 250 250 250 330 330 330 330 330 330 330 330 330 330 330 330 400 400 400 400 400 400 400 400 400 400 400 400 450 450 450 450 450 450 450 450 450 450 450 450 450 V/µs 60 30 30 30 30 30 30 30 20 20 20 20 15 15 60 45 45 45 45 45 45 45 30 30 30 30 30 30 20 20 60 60 60 40 40 40 40 40 40 40 30 30 80 80 80 60 60 60 60 60 60 40 40 40 210 210 210 210 210 140 140 140 140 140 90 90 90 A 60 66 75 90 99 120 150 204 200 300 400 500 450 600 28 31 45 68 90 99 113 135 99 120 141 150 204 300 300 400 28 41 60 80 88 120 132 160 188 200 204 300 38 55 80 90 120 132 180 198 240 188 200 272 32 46 69 99 143 140 210 280 308 350 270 297 360 20 ESR Max @ 100kHz mΩ 6.7 10.9 9.8 8.2 7.5 6.4 5.4 4.4 5.3 3.9 3.4 3.1 4 3.5 11.1 11.7 8.3 5.8 4.7 4.4 4 3.6 5.2 4.6 4.1 4 3.2 2.7 4.8 4 13.1 9.4 6.6 6.3 5.2 4.8 4.3 3.8 3.5 3.4 6.8 5.3 9.5 7 5.2 6.4 5 4.7 3.9 3.7 3.5 7.9 7.5 6.1 14.5 10.3 7.1 5.4 4.2 4.7 3.5 3.1 3 2.9 3.6 3.5 3.2 IRMS 100kHz @ 70°C A 6 6 7 8 9 9 9 9 9 12 12 12 12 12 6 6 7 9 9 9 9 9 9 9 9 9 12 12 12 12 6 7 9 9 9 9 12 12 12 12 12 12 8 9 9 9 12 12 12 12 12 12 12 12 5 7 9 9 9 9 12 12 12 12 12 12 12 MAX DIMENSIONS (mm) D L d 11 20.5 0.8 11.5 33 0.8 12 33 0.8 13.5 33 1.0 14 33 1.0 15.5 33 1.0 17 33 1.0 19.5 33 1.0 20 44 1.0 24.5 44 1.2 28 44 1.2 31 44 1.2 29 58 1.2 33.5 58 1.2 9.5 28 0.8 10 33 0.8 12 33 0.8 14.5 33 1.0 16.5 33 1.0 17.5 33 1.0 18.5 33 1.0 20 33 1.0 18 44 1.0 19.5 44 1.0 21 44 1.0 21.5 44 1.0 25 44 1.2 30 44 1.2 31.5 58 1.2 35 58 1.2 11 33 0.8 13 33 0.8 15.5 33 1.0 18.5 44 1.0 19.5 44 1.0 22.5 44 1.0 23.5 44 1.2 25.5 44 1.2 27.5 44 1.2 28.5 44 1.2 28.5 58 1.2 34.5 58 1.2 14.5 33 1.0 17 33 1.0 20.5 33 1.0 20.5 44 1.0 23.5 44 1.2 24.5 44 1.2 28.5 44 1.2 30 44 1.2 33 44 1.2 29.5 58 1.2 30.5 58 1.2 35 58 1.2 10 33 0.8 12 33 0.8 14.5 33 1.0 17 33 1.0 20.5 33 1.0 20.5 44 1.0 24.5 44 1.2 28.5 44 1.2 29.5 44 1.2 31.5 44 1.2 28 58 1.2 29.5 58 1.2 32.5 58 1.2 C4M MKP Series 40±0.5 W Ød AXIAL FLAT CAPACITORS SWITCHING APPLICATIONS 40±0.5 L T PEAK VOLTAGE TABLE Un 250 V 400 V 600 V 700 V 850 V ÛMAX 400 V 600 V 800 V 1000 V 1200 V GENERAL CHARACTERISTICS Code C Un URMS dv/dt IPKR ESR IRMS Max @ 100kHz 100kHz @ 70°C MAX DIMENSIONS (mm) µF Vdc Vac V/µs A mΩ A T W L d C4MADUB4100AA4J 1 250 160 60 60 6.7 6 8.5 12.5 20.5 0.8 C4MADUB4220AA0J 2.2 250 160 30 66 11 6 9 13 33 0.8 C4MADUB4250AA0J 2.5 250 160 30 75 9.9 7 9.5 13.5 33 0.8 C4MADUC4300AA0J 3 250 160 30 90 8.2 8 9.5 16 33 1.0 C4MADUC4330AA0J 3.3 250 160 30 99 7.6 9 10 16.5 33 1.0 C4MADUC4400AA0J 4 250 160 30 120 6.5 9 11.5 17.5 33 1.0 C4MADUC4500AA0J 5 250 160 30 150 5.4 9 13 19.5 33 1.0 C4MADUC4680AA0J 6.8 250 160 30 204 4.4 9 15.5 22 33 1.0 C4MADUC5100AA1J 10 250 160 20 200 5.4 9 16 22.5 44 1.0 C4MADUD5150AA3J 15 250 160 15 225 6.4 12 17 23 58 1.2 C4MADUD5200AA3J 20 250 160 15 300 5.1 12 20 26.5 58 1.2 C4MAFUB3470AA5J 0.47 400 250 60 28 11.2 5 7 11 28 0.8 C4MAFUB3680AA0J 0.68 400 250 45 31 11.8 6 7.5 11.5 33 0.8 C4MAFUB4100AA0J 1 400 250 45 45 8.4 7 10 14 33 0.8 C4MAFUC4150AA0J 1.5 400 250 45 68 5.8 9 11 17.5 33 1.0 C4MAFUC4200AA0J 2 400 250 45 90 4.7 9 13 19.5 33 1.0 C4MAFUC4220AA0J 2.2 400 250 45 99 4.4 9 13.5 19.5 33 1.0 C4MAFUC4250AA0J 2.5 400 250 45 113 4 9 14.5 20.5 33 1.0 C4MAFUC4300AA0J 3 400 250 45 135 3.6 9 16 22.5 33 1.0 C4MAFUC4330AA1J 3.3 400 250 30 99 5.2 9 14 20.5 44 1.0 C4MAFUC4400AA1J 4 400 250 30 120 4.6 9 15.5 22 44 1.0 C4MAFUC4470AA1J 4.7 400 250 30 141 4.2 9 17 23.5 44 1.0 C4MAFUC4500AA1J 5 400 250 30 150 4 9 18 24 44 1.0 C4MAFUD4680AA3J 6.8 400 250 20 136 8.5 12 17.5 24 58 1.2 C4MAHUB3470AA0J 0.47 600 330 60 28 13.2 6 8.5 12.5 33 0.8 C4MAHUB3680AA0J 0.68 600 330 60 41 9.5 7 10.5 14.5 33 0.8 C4MAHUC4100AA0J 1 600 330 60 60 6.7 9 12 18 33 1.0 C4MAHUC4200AA1J 2 600 330 40 80 6.4 9 14.5 21 44 1.0 C4MAHUC4220AA1J 2.2 600 330 40 88 5.9 9 15.5 22 44 1.0 C4MAHUC4300AA1J 3 600 330 40 120 4.8 9 18.5 25 44 1.0 C4MAHUD4330AA3J 3.3 600 330 30 99 12.6 11 16.5 22.5 58 1.2 C4MAHUD4400AA3J 4 600 330 30 120 10.6 12 18 24.5 58 1.2 C4MAHUD4470AA3J 4.7 600 330 30 141 9.3 12 20 26 58 1.2 C4MAJUC3470AA0J 0.47 700 400 80 38 9.6 8 10.5 17 33 1.0 C4MAJUC3680AA0J 0.68 700 400 80 55 7 9 13.5 19.5 33 1.0 C4MAJUC4100AA0J 1 700 400 80 80 5.3 9 16.5 23 33 1.0 C4MAJUC4150AA1J 1.5 700 400 60 90 6.5 9 16.5 23 44 1.0 C4MAJUD4200AA3J 2 700 400 40 80 16.4 10 16 22 58 1.2 C4MAJUD4220AA3J 2.2 700 400 40 88 15 11 16.5 23 58 1.2 C4MAJUD4300AA3J 3 700 400 40 120 11.4 12 20 26 58 1.2 21 ORDERING CODES - Axial Series C4C, C4G, C4H, C4M 1 2 3 Digits 4 5 6 7 8 9 1011 12 13 14 15 Series Degree of protection Nominal Voltage Un Case Terminals Capacitance value Execution Total length of capacitor Tolerance % Digits 1-2-3: Series C4C C4G C4H C4M Axials cylindrical MKP capacitors for snubber applications Axials cylindrical MKP capacitors for switching applications Axials ovoidal MKP capacitors for snubber applications Axials ovoidal MKP capacitors for switching application Digit 4: Degree of protection: A S Standard execution not flame retardant Standard execution flame retardant Digit 5: Nominal D.C. Voltage Un A = 550 Vdc B E = 300 Vdc F I = 630 Vdc J M = 850 Vdc N S = 1500 Vdc T W = 2000 Vdc X = = = = = = 160 Vdc 400 Vdc 700 Vdc 1000 Vdc 1600 Vdc 2400 Vdc C G K P U Y = = = = = = Digit 6: Case 0 U Z Digit 7: Terminals 0 Without terminals B Tinned copper wire D 0.8 mm D Tinned copper wire D 1.2 mm 200 Vdc 450 Vdc 750 Vdc 1200 Vdc 1700 Vdc 3000 Vdc D H L R V Z = = = = = = 250 Vdc 600 Vdc 500 Vdc 1400 Vdc 1800 Vdc Special voltage Capacitor unprotected. Capacitor protected with tape and resin. Capacitor protected with a special executions. A Tinned copper wire D 0.6 mm C Tinned copper wire D 1.0 mm Z Special terminals Digits 8-9-10-11: Capacitance The nominal capacitance is exponential: the digits 9, 10, 11 show the first 3 significative numbers of capacitance, the digit 8 defines the exponent on 10 base to obtain the nominal capacitance in pF, 33000 pF = 0,033 µF example 2330 = 0,033 µF 330 x 102 330 x 100 Digits 12-13: Execution The standard execution is coded as AA, all the others are not standard. Digit 14: Total Length of Capacitor 0 = H max 33 mm 2 = H max 46 mm 4 = H max 20.5 mm 6 = H max 38 mm (tape H=31.5 mm) (tape H=44 mm) (tape H = 19 mm) (tape H = 36 mm) 1 = H max 44 mm (tape H=42 mm) 3 = H max 58 mm (tape H=56 mm) 5 = H max 28 mm (tape H=26.5 mm) Digit 15: Tolerance According to IEC 1968, this code defines the tolerance on nominal capacitance of the capacitor. J = ± 5% K = ± 10% X = Special tolerance 22 C4D MKP Series LOW INDUCTANCE CAPACITORS GTO APPLICATIONS The capacitors of C4D Series are designed with reinforced metallized polypropylene dielectric film. These capacitors are suitable to withstand the heavy current pulses usually met in GTO protection. The axial connections allow to reduce series inductance and provide strong mechanical mounting reliable electrical contact and good thermal dissipation of heat produced during service. Applications: - Protection of GTO - High ripple current D.C. filtering - Medium frequency tuning - Pulsed lasers Presentation: - Cylindrical plastic case - Mechanical fixing by means of brass connections, - Hole M8 threaded ( M6 on request ) TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 IEC climatic category 40 / 85 / 56 Temperature range ( Case ) -40 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code J = ± 5% ; K = ± 10% Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Test voltage terminal to case UTC 5kVDC 50Hz for 60 seconds Dissipation factor (tgδ) ≤ 3 x 10-4 at 1 kHz and 20°C Permissible relative humidity Annual average ≤ 95% on 30 days/year, continuously 100% on other days occasionally 100%. Dewing not admissible Case components Solvent resistant plastic case with resin sealing. Terminals Tinned brass (See figure on top) Tightening torque 10Nm max for M8 thread and 6Nm max for M6 thread Installation Whatever Position Life Expectancy ≥ 100.000 hours Failure quota 300 / 109 components hour 23 C4D MKP Series LOW INDUCTANCE CAPACITORS GTO PROTECTION 850 1700 1000 2000 1400 2800 3000 4500 L 2 2 Ø 16 Test voltage between terminals UTT VDC D M Rated D.C. Voltage VDC PEAK VOLTAGE TABLE 10 n 850 1000 1400 3000 max 1200 1400 2000 4000 s 1300 1500 2150 4200 GENERAL CHARACTERISTICS C Un URMS dV/dt IPKR Code ESR IRMS Max @ 100kHz 100kHz@70°C K Dimensions (mm) µF Vdc Vac V/µs A mΩ A °W/C D L C4DCMAQ4150AA0J 1.5 850 500 450 675 1.7 40 5.4 60 51 C4DCMAQ4200AA0J 2 850 500 450 900 1.5 43 5.5 60 51 C4DCMAQ4300AA0J 3 850 500 450 1350 1.2 53 4.5 72 51 C4DCMAQ4350AA0J 3.5 850 500 450 1575 1.1 55 4.4 72 51 C4DCMAQ4400AA0J 4 850 500 450 1800 1.1 59 3.8 80 51 C4DCMAQ4500AA0J 5 850 500 450 2250 1.1 62 3.7 80 51 C4DCMAQ4600AA0J 6 850 500 450 2700 1.0 69 3.1 90 51 C4DCNAQ4100AA0J 1 1000 600 525 525 2.1 36 5.5 60 51 C4DCNAQ4200AA0J 2 1000 600 525 1050 1.4 50 4.4 72 51 C4DCNAQ4250AA0J 2.5 1000 600 525 1312 1.3 56 3.6 80 51 C4DCNAQ4300AA0J 3 1000 600 525 1575 1.2 58 3.7 80 51 C4DCNAQ4350AA0J 3.5 1000 600 525 1837 1.1 65 3.1 90 51 C4DCNAQ4400AA0J 4 1000 600 525 2100 1.1 66 3.1 90 51 C4DCRAQ3500AA0J 0.5 1400 700 630 315 3.3 29 5.4 60 51 C4DCRAQ3800AA0J 0.8 1400 700 630 315 2.8 33 5.3 60 51 C4DCRAQ4100AA0J 1 1400 700 630 630 2.0 38 5.2 60 51 C4DCRAQ4100ZA0J 1 1400 700 1000 1000 0.6 70 1.9 90 51 C4DCRAQ4150AA0J 1.5 1400 700 380 570 2.2 38 4.7 60 64 C4DCRAQ4200AA0J 2 1400 700 380 760 1.8 46 3.9 72 64 C4DCRAQ4250AA0J 2.5 1400 700 380 950 1.6 50 3.8 72 64 C4DCRAQ4300AA0J 3 1400 700 380 1140 1.5 56 3.2 80 64 C4DCRAQ4400AA0J 4 1400 700 380 1520 1.3 64 2.8 90 64 24 C4D MKP Series LOW INDUCTANCE CAPACITORS 400 600 700 850 1200 600 900 1050 1275 1800 L 2 2 D PEAK VOLTAGE TABLE n max s 400 560 600 600 840 900 700 980 1050 850 1200 1300 1200 1680 1800 1500 2100 2250 10 GENERAL CHARACTERISTICS C Un Code C4DRFAQ5250AA0J C4DRFAQ5300AA0J C4DRFAQ5500AA0J C4DRFAQ5750AA0J C4DRFAQ6100AA0J C4DRFAQ6110AA0J C4DRFAQ6220AA0J C4DRHAQ5120AA0J C4DRHAQ5150AA0J C4DRHAQ5200AA0J C4DRHAQ5250AA0J C4DRHAQ5330AA0J C4DRHAQ5500AA0J C4DRHAQ6100AA0J C4DRJAQ4750AA0J C4DRJAQ5100AA0J C4DRJAQ5150AA0J C4DRJAQ5200AA0J C4DRJAQ5250AA0J C4DRJAQ5330AA0J C4DRJAQ5700AA0J C4DRMAQ4400AA0J C4DRMAQ4500AA0J C4DRMAQ4600AA0J C4DRMAQ4750AA0J C4DRMAQ4800AA0J C4DRMAQ5100AA0J C4DRMAQ5150AA0J C4DRMAQ5200AA0J C4DRMAQ5250AA0J C4DRMAQ5600AA0J C4DRPAQ4250AA0J C4DRPAQ4300AA0J C4DRPAQ4400AA0J C4DRPAQ4500AA0J C4DRPAQ4600AA0J C4DRPAQ4800AA0J C4DRPAQ5100AA0J C4DRPAQ5120AA0J C4DRPAQ5200AA0J C4DRPAQ5250AA0J C4DRSAQ4100AA0J C4DRSAQ4200AA0J C4DRSAQ4300AA0J C4DRSAQ4400AA0J C4DRSAQ4500AA0J C4DRSAQ4750AA0J C4DRSAQ5150AA0J µF 25 30 50 75 100 110 220 12 15 20 25 33 50 100 7.5 10 15 20 25 33 70 4 5 6 7.5 8 10 15 20 25 60 2.5 3 4 5 6 8 10 12 20 25 1 2 3 4 5 7.5 15 Vdc 400 400 400 400 400 400 400 600 600 600 600 600 600 600 700 700 700 700 700 700 700 850 850 850 850 850 850 850 850 850 850 1200 1200 1200 1200 1200 1200 1200 1200 1200 1200 1500 1500 1500 1500 1500 1500 1500 URMS Vac 160 160 160 160 160 160 160 220 220 220 220 220 220 220 250 250 250 250 250 250 250 330 330 330 330 330 330 330 330 330 330 440 440 440 440 440 440 440 440 440 440 500 500 500 500 500 500 500 dv/dt V/µs 40 40 40 40 25 25 12 50 50 50 50 50 35 15 70 70 70 70 45 45 20 90 90 90 90 90 90 90 55 55 25 320 320 320 320 320 190 190 190 75 75 400 400 400 400 250 250 100 IPKR A 1000 1200 2000 3000 2500 2560 2640 600 750 1000 1250 1650 1750 1500 525 700 1050 1400 1125 1485 1400 360 450 540 675 720 900 1350 1100 1375 1500 800 960 1280 1600 1920 1520 1900 2190 1875 1875 400 800 1200 1600 1250 1875 1500 25 ESR IRMS Max @ 100kHz 100kHz@70°C mW 1.8 1.5 1.2 1.1 1.3 1.5 1.8 2.2 1.9 1.6 1.5 1.3 1.6 2.4 2.6 2.1 1.7 1.5 2 1.7 2.6 3.6 3 2.6 2.2 2.1 1.9 1.5 2.1 1.8 2.7 1.4 1.3 1.1 1.1 1 1.2 1.1 1.1 1.5 1.5 2.3 1.5 1.3 1.1 1.3 1.2 1.7 A 42 49 60 70 70 70 67 37 44 48 55 64 61 58 34 42 51 60 50 58 55 29 32 34 41 42 49 49 49 57 54 47 54 58 64 72 65 73 74 74 74 37 51 60 69 61 71 69 K Max Dimensions °W/C 5.1 4.1 3.3 2.8 2.6 2.2 1.8 5 4.1 4.1 3.4 2.8 2.6 1.8 5 4 3.4 2.8 3.1 2.6 1.9 5 4.9 5 4.1 4 3.3 2.9 3 2.6 1.9 4.8 4 4 3.3 2.8 3 2.6 2.6 1.9 1.9 4.8 3.9 3.3 2.8 3 2.5 1.9 mm D 60 72 80 90 90 90 90 60 72 72 80 90 90 90 60 72 80 90 80 90 90 60 60 60 72 72 80 80 80 90 90 60 72 72 80 90 80 90 90 80 90 60 72 80 90 80 90 90 L 51 51 51 51 61 61 99 51 51 51 51 51 61 99 51 51 51 51 61 61 99 51 51 51 51 51 61 61 61 61 99 51 51 51 51 51 61 61 61 99 99 51 51 51 51 61 61 99 Ø 16 Test voltage between terminals UTT VDC M Rated D.C. Voltage VDC C4DE MKP Series LOW INDUCTANCE CAPACITORS DC-LINK APPLICATIONS GENERAL TECHNICAL DATA Reference Standards: IEC 61071 - EN 61071 Dielectric: Metallized polypropylene film Winding: Non-inductive type Case: Self extinguishing plastic case UL94 V0 Terminals: M6 or M8 threaded bolt; also available with threaded female connections Construction: dry construction, filled by solid resin IEC climatic category: 40/85/21 according to IEC 68-1 Temperature range (Case): -40 to +85 °C Temperature storage: -40 to +105°C Ø84±0.5 45±1 M8 1 5 H±1 (H+25)±2 20 Ø10 5 Ø16 5 5. Ø 10 5 0. 1± TEST METHODS AND PERFORMANCES 1.5*Un for 10 s at 25°C Test voltage terminal to case (UTC) 3 KV 50Hz for 2 sec. Capacitance deviation in temperature range (-25..+85°C) ± 1,5% max on capacitance value at 20°C Installation Whatever position 71.4 Test voltage terminal to terminal (UTT) 71.4 ELECTRICAL CHARACTERISTICS Capacitance 47 to 380 µF Tolerance ± 10 % Rated Voltage 400 to 1000 Vdc dv/dt 15 to 37 V/µs Repetitive Peak Current 1739 to 5700 Ap ESR 0.5 to 1.3 mΩ (at repetition frequency 10KHz) ESL 25 to 40 nH 1.2 x Vr @ 85°C ► 1.000 hours 1 x Vr @ 85°C ► 10.000 hours 0.9 x Vr @ 85°C ► 100.000 hours For working temperature between +85°C and +70°C an increasing factor of 0.67 on the rated Lifetime has to be applied. Derated Voltage and Lifetime expectancy: Derated Temperature and Lifetime expectancy Diameter / Packing Unit 84mm / 12pcs Code Vdc C H ESL ESR @ 10 kHz DV/dt IPKR V µF mm nH mΩ V/us A Irms @ 10 kHz Ambient Temperature 25°C 45°C 65°C Weight 85°C gr C4DEFPQ6175A8TK 400 175 40 25 0.50 25 4375 100 100 80 46 283 C4DEFPQ6260A8TK 400 260 51 32 0.62 20 5200 100 100 77 45 349 C4DEFPQ6380A8TK 400 380 64 40 0.81 15 5700 100 94 73 42 419 C4DEHPQ6100A8TK 600 100 40 25 0.60 30 3000 100 93 72 42 286 C4DEHPQ6150A8TK 600 150 51 32 0.75 25 3750 100 90 70 40 353 C4DEHPQ6220A8TK 600 220 64 40 1.00 20 4400 100 85 65 38 424 C4DEIPQ5680A8TK 800 68 40 25 0.70 35 2380 100 87 68 40 284 C4DEIPQ6100A8TK 800 100 51 32 0.90 30 3000 100 84 65 37 350 C4DEIPQ6140A8TK 800 140 64 40 1.20 25 3500 91 77 60 35 425 C4DENPQ5470A8TK 1000 47 40 25 0.80 37 1739 96 81 63 36 282 C4DENPQ5680A8TK 1000 68 51 32 1.10 32 2176 92 77 60 35 352 C4DENPQ6100A8TK 1000 100 64 40 1.30 27 2700 86 72 56 32 422 26 C44A MKP Series ALUMINIUM CASE CAPACITORS GENERAL PURPOSE APPLICATION SCREW TERMINALS TECHNICAL DATA General technical data VDE 0560 , IEC 071 , EN 61071 Application class ( DIN 40040 ) GPD / LS Temperature range ( Case ) -40 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code ( 15th digit ) J = ± 5% ; K = ± 10% Test voltage terminal to case UTT 1.5 URMS for 60 seconds Test voltage terminal to case UTC 3kV - 50Hz for 60 seconds Rated insulation voltage Ui 700 V - 50 Hz - Insulation group B ( VDE 0110 part 1 ) Permissible relative humidity Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 100%. Dewing not admissible IEC climatic category 40 / 85 / 21 Degree of protection IP00 Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Case components Aluminium case plus plastic insulating deck flame retardant execution ( UL class 94 V1 ) . Terminals Tinned brass fastons or screws ( See figure on top ) Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS ; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 27 C44A MKP Series ALUMINIUM CASE CAPACITORS GENERAL PURPOSE APPLICATION SCREW TERMINALS Un Vdc UPK Vdc URMS Vac 400 600 250 600 800 330 H±2 PEAK VOLTAGE TABLE Ø D±0.5 GENERAL CHARACTERISTICS C Un K µF Vdc °C/W Tgδ x 10-4 Code Max Typ. ESR Typ. dv/dt IRMS IPKR mΩ V/µs A A Approx Weight Case D H g C44AFFP5150ZA0J 15 400 7.8 10 5 5 30 16 450 45 80 135 C44AFFP5200ZE0J 20 400 6.2 10 5 5 30 18 600 45 80 135 C44AFFP5220ZA0J 22 400 6.2 12 6 5 30 18 660 45 80 135 C44AFFP5250ZA0J 25 400 6.2 12 7 5 30 18 750 45 80 135 C44AFFP5300ZA0J 30 400 3.5 20 15 6 20 22 600 50 101 200 C44AFFP5400ZA0J 40 400 2.7 20 15 6 20 25 800 50 101 200 C44AFFP5500ZE0J 50 400 2.6 20 15 6 20 25 1000 50 101 200 C44AFGP5600ZA0J 60 400 2.6 25 15 6 20 25 1200 60 101 240 C44AFGP5750ZA0J 75 400 3.2 30 20 5 20 30 1500 60 101 240 C44AFGP6100ZG0J 100 400 4.0 30 20 4 15 32 1500 60 138 315 C44AFGP6130ZA0J 130 400 4.0 30 20 4 15 32 2000 65 138 360 C44AFGP6150ZA0J 150 400 4.0 40 30 4 15 32 2250 70 138 530 C44AFGP6200ZE0J 200 400 4.0 40 30 4 10 32 2000 76 138 740 C44AFGR6250ZA0J 250 400 4.0 40 30 4 10 32 2500 85 150 900 C44AFGR6300ZA0J 300 400 1.25 50 40 5 20 50 6000 85 185 1080 C44AFGR6330ZA0J 330 400 1.25 50 40 5 20 50 6000 85 185 1150 C44AHFP5100ZA0J 10 600 7.8 10 5 5 40 16 400 45 80 135 C44AHFP5150ZA0J 15 600 7.7 10 5 4 40 18 600 45 105 160 C44AHFP5200ZB0J 20 600 5.2 15 6 4 30 22 600 45 101 160 C44AHFP5220ZA0J 22 600 5.3 15 6 3 30 25 660 50 101 200 C44AHFP5250ZB0J 25 600 3.5 20 15 6 20 22 600 50 101 200 C44AHFP5300ZC0J 30 600 10.3 15 7 2 30 25 900 50 101 200 C44AHGP5330ZA0J 33 600 8.0 15 7 2 30 25 990 55 101 235 C44AHGP5400ZB0J 40 600 8.0 10 6 2 30 25 1200 60 101 240 C44AHGP5500ZG0J 50 600 3.2 15 10 5 20 25 1000 55 138 300 C44AHGP5600ZB0J 60 600 3.1 15 8 5 20 32 1200 60 138 315 C44AHGP5700ZA0J 70 600 3.2 25 15 5 20 32 1400 65 138 360 C44AHGP5750ZA0J 75 600 3.2 25 15 5 20 32 1500 65 138 360 C44AHGP5800ZA0J 80 600 3.2 25 15 5 20 32 1600 65 135 530 C44AHGP6100ZA0J 100 600 3.2 25 15 5 20 32 2000 76 135 625 C44AHGR6100ZB0J 100 600 1.25 15 10 5 30 50 3000 85 138 28 770 C44A MKP Series ALUMINIUM CASE CAPACITORS GENERAL PURPOSE APPLICATION SCREW TERMINALS Un Vdc UPK Vdc URMS Vac 700 900 400 850 1000 450 H±2 PEAK VOLTAGE TABLE Ø D±0.5 GENERAL CHARACTERISTICS C Un K µF Vdc °C/W Max 5 700 13.0 8 dv/dt IRMS IPKR Typ. mΩ V/µs A A D H g 2 3 50 16 250 45 80 135 Code C44AJFP4500ZA0J Approx Weight ESR Typ. Tgδ x 10-4 Case C44AJFP4600ZA0J 6 700 13.0 8 2 3 50 16 300 45 80 135 C44AJFP4750ZA0J 7.5 700 10.3 10 3 3 50 18 375 45 80 135 C44AJFP5100ZA0J 10 700 10.0 10 3 3 50 18 500 50 101 200 C44AJFP5150ZB0J 15 700 5.3 15 6 3 40 25 600 50 101 200 C44AJFP5200ZD0J 20 700 5.3 15 10 3 40 25 800 50 101 200 C44AJGP5220ZA0J 22 700 5.3 15 10 3 40 25 880 55 101 235 C44AJGP5250ZA0J 25 700 5.3 15 10 3 40 25 1000 60 101 240 C44AJGP5300ZB0J 30 700 5.3 15 12 3 30 25 900 60 138 310 C44AJGP5330ZA0J 33 700 5.3 15 10 3 35 25 990 60 138 310 C44AJGP5400ZA0J 40 700 4.0 25 15 4 35 32 1200 65 138 360 C44AJGP5500ZA0J 50 700 4.0 25 15 4 35 32 1500 65 138 360 C44AJGP5600ZA0J 60 700 4.0 25 15 4 30 32 1800 76 138 625 C44AJGP5700ZA0J 70 700 4.0 25 15 4 30 32 2100 76 138 625 C44AJGR5750ZA0J 75 700 4.0 25 15 4 30 32 2250 85 137 770 C44AJGR6100ZA0J 100 700 2.0 15 10 3 40 50 4000 85 185 1150 C44AMFP4300ZA0J 3 850 7.8 10 5 5 60 16 180 45 80 135 C44AMFP4500ZA0J 5 850 7.8 10 5 5 60 16 300 45 80 135 C44AMFP4600ZA0J 6 850 6.2 10 5 5 60 18 360 45 80 135 C44AMFP4800ZA0J 8 850 4.1 10 6 5 50 22 400 45 105 200 C44AMFP5100ZD0J 10 850 3.2 10 6 5 50 25 500 50 101 200 C44AMGP5150ZA0J 15 850 2.0 10 7 8 50 25 750 60 101 240 C44AMGP5200ZA0J 20 850 2.6 10 7 6 50 25 1000 65 101 310 C44AMGP5220ZA0J 22 850 1.5 12 5 4 40 25 880 55 138 300 C44AMGP5250ZA0J 25 850 3.2 15 7 5 40 25 1000 55 138 300 C44AMGP5300ZA0J 30 850 3.2 15 8 5 40 32 1200 65 138 380 C44AMGP5330ZA0J 33 850 3.2 15 8 5 40 32 1320 65 138 360 C44AMGP5350ZA0J 35 850 3.2 15 10 5 40 32 1400 65 138 360 C44AMGP5400ZB0J 40 850 3.2 15 10 5 40 32 1600 76 138 580 C44AMGP5500ZA0J 50 850 3.2 20 10 5 40 32 2000 76 138 625 C44AMGR5600ZA0J 60 850 3.2 20 10 5 40 32 2400 85 137 770 29 C44A MKP Series ALUMINIUM CASE CAPACITORS GENERAL PURPOSE APPLICATION SCREW TERMINALS Un Vdc UPK Vdc URMS Vac 1200 1600 500 1500 2000 630 H±2 PEAK VOLTAGE TABLE Ø D±0.5 GENERAL CHARACTERISTICS Approx Weight ESR Typ. dv/dt IRMS IPKR Typ. mΩ V/µs A A D H g 5 2.5 2.5 300 15 300 45 80 135 5 2.5 2.5 300 15 450 45 80 135 17.7 5 2.5 2.5 300 15 600 45 80 135 1200 19.5 5 2.5 2 300 16 660 45 80 135 2.5 1200 15.4 5 2.5 2 300 18 750 45 80 135 C44APFP4300ZB0J 3 1200 12.5 5 2.5 2 300 20 900 50 76 150 C44APFP4400ZA0J 4 1200 12.5 5 2.5 2 300 20 1200 50 101 200 C44APFP4500ZB0J 5 1200 10.3 5 2.5 2 300 22 1500 50 101 200 C44APFP4500ZA0J 5 1200 3.3 5 2.5 2 400 40 2000 50 138 280 C44APGP4600ZB0J 6 1200 8.0 5 2.5 2 300 25 1800 55 101 235 C44APGP4680ZB0J 6.8 1200 8.0 5 2.5 2 300 25 2040 60 101 240 C44APGP4750ZF0J 7.5 1200 10.6 5 2.8 1.5 300 25 2250 50 138 280 C44APGP4800ZE0J 8 1200 4.5 5 2.8 3.5 250 25 2000 55 138 300 C44APGP5100ZE0J 10 1200 5.3 5 2.8 3 250 25 2500 55 138 300 C44APGP5100ZF0J 10 1200 3.2 5 2.5 2 300 50 3000 60 138 310 C44APGP5100ZH0J 10 1200 1.4 5 2.5 2 350 60 3500 65 158 350 C44APGP5125ZA0J 12.5 1200 3.2 5 2.5 2 300 50 3750 76 138 625 C44APGP5150ZB0J 15 1200 6.4 5 2.8 2.5 250 32 3750 76 138 625 C44APGR5200ZB0J 20 1200 6.4 5 2.8 2.5 250 32 5000 85 137 770 C44APGR5220ZA0J 22 1200 1.1 5 2.5 2.5 300 50 6600 76 200 940 C44ASFP4100ZA0J 1 1500 17.7 5 2.5 2.5 400 15 700 45 80 135 C44ASFP4200ZB0J 2 1500 15.6 5 2.8 2.5 400 16 800 50 76 150 C44ASFP4300ZA0J 3 1500 10.3 5 2.8 2 400 22 1200 50 101 200 C44ASGP4400ZA0J 4 1500 8.0 5 2.8 2 400 25 1600 60 101 265 C44ASGP4500ZB0J 5 1500 8.0 5 2.8 2 400 25 2000 65 101 350 C44ASGP4750ZA0J 7.5 1500 5.3 5 2.8 3 300 25 2250 65 138 380 C44ASGP5100ZA0J 10 1500 5.3 5 2.8 3 300 32 3000 70 138 530 C44ASGR5120ZA0J 12 1500 5.3 5 2.8 3 300 32 3600 85 137 770 C44ASGR5150ZA0J 15 1500 5.3 5 2.8 3 300 32 4500 85 137 770 C Un K µF Vdc °C/W Max. C44APFP4100ZA0J 1 1200 17.7 C44APFP4150ZA0J 1.5 1200 17.7 C44APFP4200ZD0J 2 1200 C44APFP4220ZA0J 2.2 C44APFP4250ZA0J Codes Tgδ x 10-4 30 Case C44A MKP Series ALUMINIUM CASE CAPACITORS GENERAL PURPOSE APPLICATION SCREW TERMINALS DRAWINGS MECHANICAL CHARACTERISTICS Creepage Distance Clearance In air M 45 4 14 10 M8 10 6 50 4 14 10 M8 10 6 55 4 16 10 M 12 12.5 10 60 4 18 10 M 12 12.5 10 65 4 20 10 M 12 12.5 10 70 4 22 10 M 12 12.5 10 85 7 22 10 M 12 12.5 10 M ØD ±0.5 H 6.5 Driving Torque Nm 6 Driving Torque Nm D M6 1.3 20.5 Bolt H±2 Brass screw terminals L Case 22.3±0.5 TERMINATIONS 22.3±0.5 4.5 27 L M M ØD±0.5 0.8 10 ØD±0.5 M ØD±0.5 M8 H±2 8 H±2 L L 22.5 6 11.5 6.3 19.5 7 25 H±2 6.5 31.5 M10 22.3±0.5 6 35±0.5 31 C44B MKP Series ALUMINIUM CASE CAPACITORS SNUBBER APPLICATION FASTON 2.8 TERMINALS TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 Application class ( DIN 40040 ) GPD / LS Temperature range ( Case ) -40 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code ( 15th digit ) J = ± 5% ; K = ± 10% Peak non-repetitive max current IPKR x 1.5 Test voltage terminal to case UTT 1.5 URMS for 60 seconds Test voltage terminal to case UTC 3kVDC 50Hz for 60 seconds Rated insulation voltage Ui 700 V – 50 HZ – Insulation group B ( VDE 0110 part 1 ) Dissipation factor ( tgδ ) ≤ 5 x 10-4 at 1 kHz and 20 °C Permissible relative humidity Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 100%. Dewing not admissible IEC climatic category 40 / 85 / 21 Degree of protection IP00 Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Case components Aluminium case plus plastic insulating deck flame retardant execution ( UL class 94 V1 ) . Terminals Tinned brass fastons or screws ( See figures on top ) Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS ; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 32 C44B MKP Series ALUMINIUM CASE CAPACITORS SNUBBER APPLICATION SCREW TERMINALS PEAK VOLTAGE TABLE 10±0.5 URMS Vac 1200 1600 500 2000 2400 630 2.8 10 H±2 4.5 UPK Vdc 12 Un Vdc 2.5 Ø D±0.5 0.8 M8 GENERAL CHARACTERISTICS Tgδ x 104 Approx Weight C Un µF Vdc Max C44BPF13100ZB0J 0.1 1200 C44BPF13150ZB0J 0.15 C44BPF13220ZB0J 0.22 C44BPF13330ZB0J C44BPF13470ZB0J C44BPF13680ZB0J 0.68 1200 5 2 9 500 6 340 35 60 70 C44BPF14100ZB0J 1 1200 5 2 4 500 6 500 35 60 70 C44BPF14150ZA0J 1.5 1200 5 2 3 500 6 750 45 60 100 C44BWF12470ZA0J 0.047 2000 5 2 30 750 4 35 25 60 35 C44BWF13100ZA0J 0.1 2000 5 2 27 750 5 75 25 60 35 C44BWF13150ZA0J 0.15 2000 5 2 26 750 6 113 25 60 35 C44BWF13220ZA0J 0.22 2000 5 2 25 750 6 165 35 60 70 C44BWF13330ZA0J 0.33 2000 5 2 20 750 6 250 35 60 70 C44BWF13470ZA0J 0.47 2000 5 2 15 750 6 350 40 60 85 C44BWF13680ZA0J 0.68 2000 5 2 10 750 6 510 45 60 100 ESR Typ. dv/dt IRMS IPKR Typ. mΩ V/µs A A D H g 5 2 25 500 4 50 25 60 35 1200 5 2 24 500 4 75 25 60 35 1200 5 2 23 500 5 120 25 60 35 0.33 1200 5 2 16 500 6 165 25 60 35 0.47 1200 5 2 10 500 6 235 25 60 35 Codes 33 Case C44B MKP Series ALUMINIUM CASE CAPACITORS SNUBBER APPLICATION SCREW TERMINALS MECHANICAL CHARACTERISTICS Clearance In air M L Driving Torque Nm 45 4 14 10 M8 10 6 50 4 14 10 M8 10 6 55 4 16 10 M 12 12.5 10 60 4 18 10 M 12 12.5 10 65 4 20 10 M 12 12.5 10 70 4 22 10 M 12 12.5 10 6 Creepage Distance 6.5 Driving Torque Nm L D M6 13 Bolt 20.5 Brass screw terminals H±2 Case 22.3±0.5 UPK Vdc URMS Vac 2400 4000 1000 Ø Un Vdc M D±0.5 PEAK VOLTAGE TABLE GENERAL CHARACTERISTICS C Un URMS µF Vdc Vac Max C44BXFP3100ZA0J 0.1 2400 1000 C44BXFP3220ZC0J 0.22 2400 1000 C44BXGP3330ZC0J 0.33 2400 C44BXFP3470ZA0J 0.47 2400 Codes tgδ x 10-4 Approx Weight dv/dt IRMS IPKR Case Typ. V/µs A A 5 2.5 500 5 50 45 78 135 5 2.5 500 5 110 45 78 135 1000 5 2.5 500 6 165 55 78 220 1000 5 2.5 500 10 235 45 105 180 D H g C44BXFP4100ZB0J 1 2400 1000 5 2.5 500 15 500 50 100 200 C44BXFP4150ZA0J 1.5 2400 1000 5 2.5 500 18 750 50 135 280 C44BXGP4200ZA0J 2 2400 1000 5 2.5 500 22 1000 55 200 410 C44BXGP4250ZA0J 2.5 2400 1000 5 2.5 500 22 1250 55 200 410 C44BXGP4300ZA0J 3 2400 1000 5 2.5 500 25 1500 65 175 620 C44BXGP4400ZA0J 4 2400 1000 5 2.5 500 25 2000 65 200 650 34 C44H MKP Series ALUMINIUM CASE CAPACITORS UPS FILTERING APPLICATIONS ALUMINIUM CASE - SAFETY DEVICE (FPU) 15 6.3 19 PROTECTED 10000 AFC -25 … +70°C Reference Standards: IEC 1071 VDE 0560 part 1 and 2 H±2 TECHNICAL DATA Dielectric: Polypropylene film Plates: Aluminium layer deposited under vacuum Cover: Metal deck and steatite insulator Terminals: Tinned double Faston 6.3 mm Winding: Non-inductive type Climatic category: GPD/LS DIN40040 40/85/21 IEC 68-1 Vibration strength: DIN 40040, table 6, class V C M ±0.5 ØD 400 Vdc 600 Vdc 700 Vdc 10±1 Nominal voltage Un: Rated voltage URMS 50Hz: 250 Vac 330 Vac 400 Vac Peak repetitive voltage UPKR: 600 Vdc 800 Vdc 900 Vdc Surge voltage Us: 750 Vdc 900 Vdc 1000 Vdc Category voltage (Vc): Capacitance tolerance: 0.8 ELECTRICAL CHARACTERISTICS up to 70°C Vc=Un ±5% (J) ; ±10% (K) TEST METHODS AND PERFORMANCES Test voltage terminal to terminal (UTT) 2,5 Vn/ for 10 s at 25°C or 1.5 URMS for 10s at 25°C Test voltage terminal to case (UTC) 3 kV 50Hz for 60 s Rated insulation Voltage Ui 700V - 50Hz - Insulation group B, according to VDE 0110 part 1 Damp heat test Permissible relative humidity: Annual average ≤ 80% at 24°C on 30 days/year, on other days occasionally 90% Dewing not admissible. Life expectancy ≥ 100.000 hours at URMS and at Un at 45°C Failure quota 300/109 components hours Capacitance deviation in temperature range (-40..+85°C) ± 1,5% max on capacitance value at 20°C Changes of capacitance as function of operating time - 5 % after 100.000 hours at URMS or Un Installation Whatever position Code C URMS Un tgδ max IRMS IPKR IPKS µF Vac Vdc x 10-4 A A A D H C Thread Torque C44HFF35150ZB0J 15 250 400 10 8 450 600 45 61 16 M8 10N C44HFG35400ZB0J 40 250 400 15 10 800 1000 50 105 16 M12 10N C44HFG35600ZB0J 60 250 400 35 18 800 1200 60 98 16 M12 10N C44HFG35750ZB0J 75 250 400 20 10 1500 2000 60 98 16 M12 10N C44HFG35800ZB0J 80 250 400 20 18 1200 1500 60 133 16 M12 10N C44HFG36120ZB0J 120 250 400 30 16 1800 2000 60 133 16 M12 10N C44HHG35150ZA0J 15 330 600 17 18 450 590 50 85 16 M12 10N C44HHG35300ZA0J 30 330 600 10 18 1200 1560 60 85 16 M12 10N C44HHG35420ZA0J 42 330 600 12 18 1260 1750 60 98 16 M12 10N C44HHG35560ZA0J 56 330 600 18 18 1120 1450 60 133 16 M12 10N C44HJG35300ZA0J 30 400 700 20 18 600 900 60 105 16 M12 10N C44HJG35550ZA0J 55 400 700 20 18 1100 1650 75 150 16 M12 10N 35 Case Bolt C44E MKP Series ALUMINIUM CASE CAPACITORS AC FILTER APPLICATIONS TECHNICAL DATA General technical data VDE 0560 - IEC61071 - EN61071 Application class ( DIN 40040 ) HSD / LS Temperature range ( Case ) -40 to + 70 °C Max permissible ambient temperature +70 °C Capacitance tolerance code ( 15th digit ) J = ± 5% ; K = ± 10% Test voltage terminal to case UTT 1.5 URMS for 10 seconds Test voltage terminal to case UTC 4kV - 50Hz for 60 seconds Rated insulation voltage Ui 700 V - 50 Hz - Insulation group B ( VDE 0110 part 1 ) Rated power Q Reactive power at rated A.C. voltage URMS - 50Hz Rated frequency F 50 ÷ 60 Hz Permissible relative humidity Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 100%. Dewing not admissible IEC climatic category 25 / 70 / 21 Degree of protection IP00 Capacitance deviation in the operating temperature range of –40 to +85 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 30.000 hours at URMS or after 100.000 hours at Un Terminals Tinned brass fastons or screws ( See figure on top ) Installation Whatever Position Life Expectancy ≥ 30.000 hours at URMS ; ≥ 100.000 hours at Un Failure quota 300 / 109 components hour 36 C44E MKP Series ALUMINIUM CASE CAPACITORS AC FILTER APPLICATIONS MECHANICAL CHARACTERISTICS Driving Torque Nm Creepage Distance Clearance In air Driving Torque Nm 13 M6 4 18 22 10 25 M 10 7 18 22 10 25 M 10 7 22 22 10 76 76 85 H±2 W 7 M D M Bolt W Brass screw terminals 6.5 Case 35±0.5 UPK Vdc URMS Vac 400 600 250 600 800 380 750 1000 440 1200 1600 550 M12 Ø D±0.5 Un Vdc 16.5 PEAK VOLTAGE TABLE GENERAL CHARACTERISTICS Code C Q Un URMS dv/dt IPKR IRMS μF kvar Vdc Vac V/μs A A D H kg C44EFGP6150ZA0J 150 2.95 400 250 10 1500 30 76 138 0.63 C44EFGR6200ZA0J 200 3.93 400 250 10 2000 30 85 137 0.75 C44EFGR6250ZA0J 250 4.9 400 250 10 2500 60 85 185 1.05 C44EFGR6300ZA0J 300 5.89 400 250 10 3000 60 85 230 1.35 C44EFGR6400ZA0J 400 7.85 400 250 10 4000 60 85 270 1.71 C44EHGP6100ZA0J 100 4.53 600 380 20 2000 30 76 138 0.63 C44EHGR6150ZA0J 150 6.8 600 380 20 3000 60 85 200 1.15 C44EHGR6200ZA0J 200 9.07 600 380 20 4000 60 85 260 1.5 C44EKGR6100ZA0J 100 6.08 750 440 20 2000 60 85 185 1.05 C44EKGR6120ZA0J 120 7.3 750 440 20 2400 60 85 200 1.15 C44EPGR5500ZA0J 50 4.75 1200 550 30 1500 60 85 260 1.5 C44EPGR5600ZA0J 60 5.7 1200 550 30 1800 60 85 260 1.5 37 Case Dimensions Appr. Weight C44P-C20A MKP Series ALUMINIUM CASE CAPACITORS AC FILTER APPLICATIONS ALUMINIUM CASE - SAFETY DEVICE ( FPU ) PROTECTED 10000 AFC -25 … +70°C TECHNICAL DATA General technical data IEC 1071 , EN 61071 , VDE 0560 - 12 Application class ( DIN 40040 ) HSF / LR according to DIN 40040 Temperature range ( Case ) -25 to + 70 °C Temperature storage -55 to + 85 °C Max permissible ambient temperature +70 °C Capacitance tolerance code ( 15th digit ) J = ± 5% ; K = ± 10% Test voltage terminal to terminal UTT 2,15 URMS for 10 seconds at 25°C Test voltage terminal to case UTC 4kV - 50Hz for 60 seconds Rated insulation voltage Ui 3600Vac for 10 seconds at 25°C for Vrms<600Vac 6000Vac for 10 seconds at 25°C for Vrms≥600Vac Insulation Resistance ≥10.000MΩ x µF Dissipation Factor tgδ ≤3 x 10-4 (Vn, 50Hz) Damp heat test Permissible relative humidity: Annual average ≤ 95% on 30 days / year, continuously 100% on other days occasionally 90%. Dewing not admissible IEC climatic category 25 / 70 / 56 according to IEC 68-1 Degree of protection IP00 Capacitance deviation in the operating temperature range of –40 to +70 °C ±1.5% max on capacitance value measured at +20 °C Change of capacitance versus operating time -3% after 100.000 hours at URMS Terminations Plastic Insulator with screw terminals M10 Installation Space for safety device ≥15mm Life Expectancy ≥ 100.000 hours at URMS Failure quota 300 / 109 components hour 38 C44P-C20A MKP Series ALUMINIUM CASE CAPACITORS AC FILTER APPLICATIONS PEAK VOLTAGE TABLE P±1 UPK Vdc 250 400 600 330 500 700 440 750 1000 550 750 940 640 900 1130 780 1100 1380 ø20 ±0.5 M W±1 Un Vdc W1±2 URMS Vac GENERAL CHARACTERISTICS U URMS IRMS IPKR D H Weight µF VDC VAC A A mm mm kg C44PFGR6200ZA0J 200 400 250 60 2000 85 155 1.0 C44PFGR6250AA0J 250 400 250 60 2500 85 195 1.1 C44PFGR6300ZA0J 300 400 250 60 3000 75 268 1.2 C44PFGR6400ZA0J 400 400 250 65 4000 85 268 1.7 C44PFGR6500AA0J 500 400 250 65 5000 85 268 1.7 C44PFGR6600AA0J 600 400 250 65 6000 95 280 2.1 C44PLGR6100AASJ 100 500 330 25 1500 65 115 0.5 C44PLGR6200ZASJ 200 500 330 43 3000 65 145 0.6 C44PLGR6300ZASJ 300 500 330 50 4500 65 247 0.8 C44PLGR6400ZASJ 400 500 330 50 6000 65 247 1.0 C44PLGR6500ZASJ 500 500 330 58 7500 75 247 1.2 C44PLGR6600ZASJ 600 500 330 70 9000 85 270 1.3 C44PKGR6100AASJ 100 750 440 30 2000 75 147 0.7 C44PKGR6133AASJ 133 750 440 40 3000 65 247 0.8 C44PKGR6150AASJ 150 750 440 45 3000 65 247 1.0 C44PKGR6200AASJ 200 750 440 55 4000 75 247 1.2 C44PKGR6300AASJ 300 750 440 60 4000 85 247 1.6 C20AKGR5220AASK 22 750 550 40 1540 65 117 0.4 C20AKGR5330AASK 33 750 550 45 2310 75 117 0.5 C20AKGR5470AASK 47 750 550 50 3290 65 247 0.8 C20AKGR5680AASK 68 750 550 55 4760 65 247 1.0 C20AKGR6100AASK 100 750 550 60 7000 75 247 1.5 C20AKGR6120AASK 120 750 550 60 8400 85 247 2.0 C20AKGR6150AASK 150 750 550 60 10500 95 247 2.3 C20ALGR5150AASK 15 900 640 45 1350 65 117 0.4 C20ALGR5220AASK 22 900 640 45 1980 75 147 0.5 C20ALGR5330AASK 33 900 640 50 2970 75 147 0.8 C20ALGR5470AASK 47 900 640 55 4230 65 247 1.0 C20ALGR5680AASK 68 900 640 60 6120 75 247 1.5 C20ALGR6100AASK 100 900 640 60 9000 95 247 2.3 C20ALGR6120AASK 120 900 640 60 10800 95 280 2.5 C20ALGR6150AASK 150 900 640 60 13500 116 280 3.0 C20AQGR5100AASK 10 1100 780 30 1000 65 147 0.4 C20AQGR5150AASK 15 1100 780 45 1500 75 147 0.5 C20AQGR5220AASK 22 1100 780 45 2200 75 147 0.8 C20AQGR5330AASK 33 1100 780 50 3300 85 147 1.2 C20AQGR5470AASK 47 1100 780 55 4700 75 247 1.5 C20AQGR5680AASK 68 1100 780 60 6800 85 247 2.0 C20AQGR6100AASK 100 1100 780 60 10000 95 280 2.5 H ±2 C 16±0.5 Code M12 ø ±0,5 Max Driving Torque: 10 Nm Creepage Distance: > 10mm Clearance in Air: > 10mm Insulation Group: D P = 28mm for D = 65mm P = 35mm for D ≥ 75mm Care should be taken to ensure that there still is electrical clearance of 15 mm between terminations and other live or earthed parts above the capacitor, in case of safety device activation. 39 C44U MKP Series ALUMINIUM CASE CAPACITORS DC LINK APPLICATIONS ......... High Capacitance density ......... ....................... ....................... .................... High Ripple Current ....................... ....................... .................... ........... ........... ........ ........ TECHNICAL DATA Reference Standards IEC 1071, EN 61071 IEC climatic category 40/85/21 according to IEC 68-1 Storage Temperature -40 to +105°C Temperature range (Case) -40 to +85 °C Case Aluminium case with or without, threaded bolt M12 Deck Plastic deck flame retardant execution UL94 V0 with high current M6 or M8 female terminals Test voltage terminal to terminal (UTT) 1.5*Un for 2 s at 25°C Test voltage terminal to case (UTC) 3 kV 50Hz for 2 sec. Life expectancy 100,000 hours at Un and 85°C Failure quota 300/109 components hours Capacitance deviation in temperature range (-25..+85°C) ± 1,5% max on capacitance value at 20°C Changes of capacitance as function of operating time - 10% after 100.000 hours at Un Vibration strength DIN 40040, table 6,class V Installation Whatever position D mm H ≥ 125mm H < 125mm 76 9 18 85 5 10 6th Code digit ⇒ G E Case WITH M12 STUD Case WITH NO STUD 7th Code digit ⇒ T Y Q M6 FEMALE Terminals M8 FEMALE Terminals M8 MALE Terminals 13th Code digit⇒ 7 8 Case D 76mm Case D 85mm 14thCode digit ⇒ T S Standard MKP Segmented MKP 40 C44U MKP Series ALUMINIUM CASE CAPACITORS DC LINK APPLICATIONS M6/M8x12 25 H±2 ....................... ....................... .................... H1±2 5 ø1 2.5 2.5 ........... 2±2 ........ 31.7±0.2 M12x16 ØD-01 + GENERAL CHARACTERISTICS DIM (mm) nH ESR mΩ (10kz) IRMS A 10 kHz (40°C) IRMS A 10 kHz (55°C) IRMS A 10 kHz (75°C) ∅ H H1 2520 36 1.0 63 55 33 76 55 61 280 3360 36 0.8 73 60 38 85 55 61 354 14 2450 40 1.2 62 52 34 76 70 76 348 700 14 3150 40 1.1 70 60 35 85 70 76 414 700 7 2450 50 2.6 55 45 30 76 120 126 569 425 700 6 2550 60 3.1 55 45 30 76 140 146 656 450 700 7 3150 50 2.2 65 55 32 85 120 126 723 C44UJGT6550A8SK 550 700 6 3300 60 2.5 65 55 32 85 140 146 831 C44UOGT5750A7TK 75 900 26 1950 36 1.1 57 47 30 76 55 61 283 C44UOGT6100A8TK 100 900 26 2600 36 1.0 65 53 32 85 55 61 355 C44UOGT6110A7TK 110 900 17 1870 40 1.5 57 47 30 76 70 76 324 C44UOGT6150A8TK 150 900 17 2550 40 1.2 65 55 35 85 70 76 437 C44UOGT6220A7SK 220 900 9 1980 50 3.2 50 42 27 76 120 126 574 C44UOGT6275A7SK 275 900 7 1925 60 3.7 50 42 28 76 140 146 654 C44UOGT6300A8SK 300 900 9 2700 50 2.5 60 50 30 85 120 126 711 C44UOGT6350A8SK 350 900 7 2450 60 3.1 60 48 30 85 140 146 833 C44UQGT5500A7TK 50 1100 31 1550 36 1.3 52 43 30 76 55 61 265 C44UQGT5700A8TK 70 1100 31 2170 36 1.1 62 50 30 85 55 61 356 C Vdc dv/dt IPKR ESL µF V V/µs Ap C44UJGT6120A7TK 120 700 21 C44UJGT6160A8TK 160 700 21 C44UJGT6175A7TK 175 700 C44UJGT6225A8TK 225 C44UJGT6350A7SK 350 C44UJGT6425A7SK C44UJGT6450A8SK Code Weight gr C44UQGT5750A7TK 75 1100 21 1575 40 1.7 58 43 30 76 70 76 352 C44UQGT6100A8TK 100 1100 21 2100 40 1.4 60 50 32 85 70 76 414 C44UQGT6150A7SK 150 1100 11 1650 50 3.8 45 38 25 76 120 126 577 C44UQGT6190A7SK 190 1100 9 1710 60 4.3 47 38 25 76 140 146 654 C44UQGT6200A8SK 200 1100 11 2200 50 3.0 55 45 30 85 120 126 723 C44UQGT6250A8SK 250 1100 9 2250 60 3.5 55 45 30 85 140 146 824 41 C44U MKP Series ALUMINIUM CASE CAPACITORS DC LINK APPLICATIONS 20 2.5 M8 M8 2.5 ø1 ......... 5 ±1 +0.5 0 H1 H ....................... ....................... .................... 25 ........... 16±0.5 ........ 31.7±0.2 M12 Ø +1-0 GENERAL CHARACTERISTICS DIM (mm) C µF Vdc V dv/dt V/µs IPKR Ap ESL nH ESR mΩ (10kHz) IRMS A 10 kHz (40°C) IRMS A 10 kHz (50°C) IRMS A 10 kHz (60°C) ∅ H H1 C44UOGQ6200F7SK 200 900 10 2000 36 2.4 45 36 25 76 95 101 645 C44UOGQ6270F7SK 270 900 10 2700 36 1.8 50 40 30 76 95 101 610 C44UOGQ6370F8SK 370 900 10 3700 40 1.5 60 50 35 85 95 101 715 C44UOGQ6510F8SK 510 900 7 3570 40 1.9 60 50 35 85 120 126 840 C44UOGQ6600F8SK 600 900 7 4200 40 2.2 58 47 33 85 140 146 950 C44UQGQ6130F7SK 130 1100 12 1560 36 2.8 40 33 23 76 95 101 580 C44UQGQ6175F7SK 175 1100 12 2100 36 2.2 46 38 27 76 95 101 610 C44UQGQ6240F8SK 240 1100 12 2880 40 1.7 56 46 32 85 95 101 710 C44UQGQ6280F7SK 280 1100 7 1960 40 3.5 43 35 25 76 140 146 805 C44UQGQ6330F8SK 330 1100 7 2310 40 3 50 40 28 85 140 146 990 C44UQGQ6500F8SK 500 1100 12 6000 80 1.3 90 72 50 85 174 180 1120 C44UUGQ5900F7SK 90 1300 15 1350 36 3.5 37 30 22 76 95 101 580 C44UUGQ6120F7SK 120 1300 15 1800 36 2.7 43 35 24 76 95 101 610 C44UUGQ6165F8SK 165 1300 15 2475 40 2.1 52 42 30 85 95 101 716 C44UUGQ6195F8SK 195 1300 9 1755 50 4.2 40 33 23 76 140 146 797 C44UUGQ6250F8SK 250 1300 9 2250 50 3.5 47 39 27 85 140 146 957 C44UUGQ6320F8SK 320 1300 15 4800 80 1.6 82 67 47 85 174 180 1130 C44UUGQ6550F8SK 550 1300 9 4950 100 2.3 82 67 47 85 264 270 1600 Code 42 Weight gr C9T MKP Series ALUMINIUM CASE CAPACITORS PFC & AC FILTERING APPLICATIONS THREE PHASE EXECUTION (WITH FPU) TECHNICAL DATA Service: Operating temperature Storage temperature Life Expectancy Dielectric Dissipation Factor tgδ0 Capacitance tolerance Test voltage terminal to case UTT Continuous -25 … +55°C -40 … +85°C ≥ 100.000 Hours at URMS 2 x 10-4 -5 … +15% (X) 2,15 URMS for 10 seconds URMS < 690[V~]: 3KV - 50Hz for 10 seconds URMS ≥ 690[V~]: 6kV - 50Hz for 10 seconds Test voltage terminal to case UTC Reactive power at rated A.C. voltage URMS - FN 1.1 times the nominal voltage 8h / 24h 1.3 times the nominal current In Annual average ≤ 95% on 30 days / year, continuosly 100% on other days occasionally 100%. Dewing not admissible IP30 ±1.5% max on cap. value measured at +20 °C Whatever Position Overpressure safety device Rated power Q Max admissible voltage: Max admissible current: Permissible relative humidity Degree of protection Capacitance deviation Installation Safety: GENERAL CHARACTERISTICS Code Dimensions C Q URMS dv/dt Freq IN µF kvar Vac V/µs Hz A Slim Conc. C9T_5AD5308AA0X 3*30.8 5 415 30 50 7.0 A G C9T_5AD5462AA0X 3*46.2 7.5 415 30 50 10.4 A H C9T_5BD5616AA0X 3*61.6 10 415 30 50 13.9 B I C9T_5MD5770AA0X 3*77 12.5 415 30 50 17.4 C J C9T_5MD5924AA0X 3*92.4 15 415 30 50 20.9 C K C9T_5MD6108AA0X 3*108 17.5 415 30 50 24.3 D L C9T_5MD6123AA0X 3*123.2 20 415 30 50 27.8 D M C9T_5MD6154AA0X 3*154 25 415 30 50 34.7 E N C9T_5MD6185AA0X 3*184.8 30 415 30 50 41.7 F O C9T_6AD5262AA0x 3*26.2 5 450 30 50 6.4 A G C9T_6AD5393AA0X 3*39.3 7.5 450 30 50 9.6 A H C9T_6BD5524AA0X 3*52.4 10 450 30 50 12.8 B I C9T_6MD5655AA0X 3*65.5 12.5 450 30 50 16.0 C J C9T_6MD5786AA0X 3*78.6 15 450 30 50 19.2 C K C9T_6MD5917AA0X 3*91.7 17.5 450 30 50 22.5 D L C9T_6MD6105AA0X 3*105 20 450 30 50 25.7 D M C9T_6MD6131AA0X 3*131 25 450 30 50 32.0 E N C9T_6MD6157AA0X 3*157 30 450 30 50 38.5 F O C9T_AAD5192AA0X 3*19.2 5 525 30 50 5.5 A G C9T_AAD5290AA0X 3*29 7.5 525 30 50 8.3 A H C9T_ABD5385AA0X 3*38.5 10 525 30 50 11.0 B I C9T_AMD5481AA0X 3*48.1 12.5 525 30 50 13.7 C J C9T_AMD5577AA0X 3*57.7 15 525 30 50 16.5 C K C9T_AMD5674AA0X 3*67.4 17.5 525 30 50 19.2 D L C9T_AMD5770AA0X 3*77 20 525 30 50 22.0 D M C9T_AMD5962AA0X 3*96.2 25 525 30 50 27.5 E N C9T_AMD6115AA0X 3*115 30 525 30 50 33.0 F O C9T_DBD5279AA0X 3*27.9 12.5 690 30 50 10.5 B J C9T_DMD5334AA0X 3*33.4 15 690 30 50 12.6 D K C9T_DMD5390AA0X 3*39 17.5 690 30 50 14.6 D L C9T_DMD5446AA0X 3*44.6 20 690 30 50 16.7 E M C9T_DMD5557AA0X 3*55.7 25 690 30 50 20.9 E N C9T_DMD5668AA0X 3*66.8 30 690 30 50 25.1 F O 43 Reference Standards: IEC 831-1 / 2 Protected 1000 AFC -25°C . . . +70°C C9T MKP Series ALUMINIUM CASE CAPACITORS A.C. FILTERING APPLICATIONS THREE PHASE EXECUTION (WITH FPU) DIMENSIONS & PACKAGING Dim D mm Case D1 mm H mm A 60 64 220 3 B 65 69 220 2 9 C 75 79 220 1 9 D 75 79 280 1 9 E 85 89 280 1 5 F 95 99 280 1 4 G 65 69 150 2 9 H 65 69 175 2 9 I 75 79 175 2 9 J 75 79 200 1 9 K 85 89 200 1 5 L 95 99 175 1 4 M 95 99 200 1 4 N O 116 116 120 120 175 200 1 1 4 4 SPQ Style 9 Ø D±0.5 Ø D1±0.5 Ø49 6.3X0.8 13 15 31±1 CODE STRUCTURE 36±2 10.5 690 6th dgt Terminal Style A 3 B 2 M 1 T 4 7th dgt Internal Connection D DELTA Y STAR H±2 D Ø D±0.5 Ø D±0.5 16±0.5 525 M12 Ø D1±0.5 6.3X0.8 25 25 H±2 A M12 M12 8th - 11th dgt → Single Capacitive Element Value Ø D±0.5 44 16±0.5 M12 Ø D±0.5 16±0.5 450 13±1 415 6 H±2 5 43 49 16±0.5 Rated Voltage 39±2 5th dgt H±2 Slim Concentric 22 S C 18 Type 44 4th dgt C.93 MKP Series ALUMINIUM CASE CAPACITORS P.F.C. and FILTER APPLICATIONS SAFETY DEVICE (FPU Reference standards : IEC 60831-1, IEC 60831-2 PROTECTED 10000 AFC -25 …+70°C UL 810 APPROVED (*) TECHNICAL DATA Service: Continuous Operating temperature: -25 … +55°C Storage temperature -40 … +90°C Rated Voltage Vac: 320 Vac; 415 Vac; 440Vac; 525 Vac Nominal frequency (Hz.): 50 - 60 Hz Max dv/dt: 30 V/µs Max admissible tension: temporarily 1.1 times the nominal voltage 8 hours/24 hours Life expectancy at nominal voltage 30.000 hours with (∆C/C>5%) at the operating temperature Max dissipation Factor (tgδ): 10x10 –4 at 20°C and 50 Hz. Tolerance (∆C): -5 … +15% Assembling Whatever position Case: Aluminum case Dielectric: Metallized polypropylene Voltage tests Between terminals 2,15 Vn for 2 s Between terminals and case Air distance 3600 V for 2 s Between live parts ≥ 5 mm Between live parts and case ≥ 6 mm Vibration test: IEC 68-2-6 Safety: Overpressure safety device 45 C.93 MKP Series ALUMINIUM CASE CAPACITORS P.F.C. and FILTER APPLICATIONS SAFETY DEVICE (FPU) TEST VOLTAGE TABLE 320 640 375 415 830 460 6.3 19 URMS max Vac 6.3 H±2 H±2 5 Test Voltage Vac (2s) 14.5 URMS Vac P P M12 16 12 M12 10±1 0.8 Ø D±0.5 0.8 10±1 Ø D±0.5 Code C Un URMS IRMS IPKR µF Vdc Vac A A D H P 50 400 320 4.5 1250 60 98 18.8 1 C930ZG35700ZA0X 70 400 320 9.1 1750 60 98 18.8 1 C930ZG36100ZA0X 100 400 320 13.0 2500 60 133 18.8 1 C931ZG35100ZA0X 10 600 415 1.7 250 40 78 13.4 1 C931ZG35300ZA0X 30 600 415 5.0 750 60 98 18.8 1 C931ZG35470ZA0X 47 600 415 8.5 1250 60 98 18.8 1 C931ZG35600ZA0X 60 600 415 10.1 1500 60 133 18.8 1 C931ZG35830ZA0X 83 600 415 13.5 2000 60 133 15.0 2 C931ZG36100ZA0X 100 600 415 16.9 2500 75 150 15.0 2 C930ZG35500ZA0X 46 Case Style ORDERING CODES - Series C4A , C4B , C4D , C44, C20 Cxx A F F P 6100 ZA 0 J Tolerance J = ± 5% K = ± 10% Only Box Types à different letter for each case dimensions BxHxL A1 = A3 = ZA = ZB = ZC = ZD = ZE = Box Capacitors Copper wire terminals d = 0.8 mm Copper wire terminals d = 1.2 mm Lug terminals - Style “A” Lug terminals - Style “B” Lug terminals - Style “C” Lug terminals - Style “D” Lug terminals - Style “E” Capacitance code in picofarads ( pF ) 6 = Number of zeros to be added to the capacitance value 100 = First 3 figures indicating the capacitance value Terminals code 1 =Single faston 2.8mm 2 =Single faston 6.35 mm 3 =Double faston 6.35 mm M =M3 screw terminals N =M4 screw terminals O =M5 screw terminals P =M6 screw terminals Q =M8 screw terminals R =M10 screw terminals S =M12 screw terminals U =Copper wire terminals W=Double copper wire terminals X =Flat rigid connection Z =Special terminal 0 =No terminations Y =Flat flexible connection Case and fixing bolt code A =Plastic case without bolt B = Box plastic case O =Uncased capacitor E = Cylindrical alu-case without bolt F =Cylindrical alu-case with M8 bolt G = Cylindrical alu-case with M12 bolt H =Oval alu-case without bolt I = Oval alu-case with M8 bolt L =Oval alu-case with M12 bolt M = Parallelepipedal plastic case N =Parallelepipedal steel case U = Polyester film coating Z =Special case Standard models Application code : A = Commutation MKP B = Snubber alu-case MKP D = Commutation MKT E = Filter MKP R = Clamper S = Snubber box case Safety device models Application code : H= Commutation MKP L = Snubber alu-case MKP M= Commutation MKT P= Filter MKP 47 Rated D.C. voltage Un code B =160 V C=200 V D=250 V F =400 V G=450 V E=300 V I =630 V L =500 V H=600 V M =850 V J =700 V K=750 V R =1400 V N=1000 V P=1200 V U =1700 V S=1500 V T =1600 V X =2400 V V=1800 V W=2000 V Y =3000 V Z=Special Voltage WARNING DO NOT MISAPPLY CAPACITORS FOR POWER ELECTRONICS KEMET is not responsible for any extent of possible damages to persons or things, of any kind, caused by the improper installation and application of capacitors for power electronics . 1.0 MISAPPLICATION FORMS Common misapplications which may cause failures : 1.1 Ripple current or peak current or voltage above specification. 1.2 Application voltages beyond surge voltage specified. 1.3 Temperature exposures beyond specified limits. 1.4 Unusual service conditions: - unusual mechanical shocks and vibrations, - corrosive and abrasive particles in cooling air, - conducting dust in the cooling air, - oil or water vapour or corrosive substances, - explosive gas or dust, - radioactivity, - unusual storage or transport temperature - excessive and rapid changes of ambient temperature or humidity, - service areas higher than 2000 m above sea level, - superimposed radiofrequency voltages. In case of doubt between service conditions and correspondent capacitor performances, the Arcotronics Technical Service MUST be consulted by customer for approval. 1.5 APPLICATIONS ACROSS THE MAINS The products of this catalogue fully comply with ECC Standard 89/366 but are not suitable for applications “Across the Line ” except the series C93 specifically designed for this purpose . 2.0 PERSONAL SAFETY 2.1 Electrical or mechanical misapplication of capacitor for power electronics may be hazardous. Personal injury or property damage may result from explosion of a capacitor or from the expulsion of oil due to mechanical disruption of a capacitor. In case of injury or skin or eye exposure to oil, contact a physician immediately . 2.2 Don’ t dispose of capacitors in fire, explosion may result . Before using capacitors in any application, please read this Technical Information Bulletin carefully familiarizing yourself thoroughly with the information contained herein. Special care should be taken to assure that the capacitors are proper for your application and that warnings and instructions for use are followed. CHECK in the intended application and operating conditions of the capacitor before using in any product to be sure that the capacitor is proper for your application. 48