power electronic capacitors
Transcription
power electronic capacitors
HISTORY DRIVES THE FUTURE ES TA B POWER ELECTRONIC CAPACITORS N 1926 I ED H S LI POWER POWER ELECTRONICS ELECTRONICS CAPACITORS CAPACITORS MAIN TYPES OF CAPACITORS: CAPACITOR TYPE SERIES APPLICATIONS 3-PHASE AC FILTERING Modulo XD - 416.46 3-phase filter/PFC for wind generator / AC filters GENERAL PURPOSE HIGH-DENSITY / HIGH-TEMPERATURE DC APPLICATION GP 42 - 416.42 switching, high performance lighting, UPS filter, AC-link, resonant circuit, PFC with high harmonics, DC-link, filter GP 84 - 416.84 DCH 85C - 416.85.V/H DCH 86 PS - 416.86.V/H High-Density / High-Temperature DC-Link, Filtering and Storage DC 82 P - 416.82 DC 85 C/B - 416.85 DC 86 P - 416.86 DC-link, filtering and storage DC APPLICATION DC 86 PS - 416.86 DC89 HC - 416.89 DC 88 M - 416.88 DC 45 - 415.45 2 2 POWER ELECTRONICS CAPACITORS CROSS REFERENCE TABLE Rated DC / AC voltage (V) versus Capacitance (uF) DC rated voltage Un [V] AC rated voltage Urms [V] 400 - 800 800 - 1400 1400 - 2000 2000 - 2500 2500 - 3000 3000 - 4000 4000 - 6000 250 - 550 690 - 930 - - - - - DC89 HC DC82 P GP42 GP84 XD DC89 HC DC85 B DC85 B DC85 B DC85 C DC85 B DC85 B DC86 P DC82 P 0 - 50 50 - 100 GP42 GP84 XD DC89 HC DC82 P GP42 GP84 XD DC89 HC GP84 XD DC89 HC DC89 HC 100 - 150 DC85 C GP84 XD DC85 C DC85 B DC85 B DC85 C DC85 B DC85 B DC85 C DC85 B DC86 P GP84 DC89 HC DC89 HC 150 - 200 DC 85 C GP84 DC86 P DC86 P DC86 P DC86 P GP84 DC89 HC 200 - 250 GP84 250 - 300 DC85 C DC85 C DC86 P DC85 C DC85 C DC86 P DC85 C DC85 C DC86 P DC85 C DC85 C DC86 P DC85 C DC85 C DC85 B DC86 P DC85 C DC85 B DC86 P DC86 P DC85 C DC85 B DC86 P DC86 P DC85 C DC88 M DC86 P DC88 M CAPACITANCE Cn [uF] GP84 DC85 C 300 - 400 GP84 DC85 C 400 - 500 DC86 P GP84 DC85 C 500 - 600 DC45 GP84 600 - 1000 DC85 C DC85 C 1000 - 2000 DC85 B DC85 C 2000 - 3000 DC85 B 3000 - 6000 DC 85 C DC85 B DC86 P 6000 - 10000 DC86 P 10000 - 20000 DC86 P DC88 M DC45 DC86 P DC86 P DC88 M DC86 P DC45 DC88 M DC45 DC86 P DC88 M DC45 DC88 M DC45 DC - series: - DC Application: expressly designed for operation with DC voltage GP - series: - General purpose application: designed for operation both AC and DC voltage XD - series - Three-phases capacitors for harmonic filtering applications and PFC applications 2 3 DC45 POWER ELECTRONICS CAPACITORS CONTENTS: 4 CONTENTS INTRODUCTION Ducati Energia Group Certifications Technologies Terms and definitions Safety Mounting and Operating Instructions Disposal 5 5 6 7 7 9 10 10 GENERAL SAFETY AND INSTALLATION REQUIREMENTS 11 3-PHASE AC FILTER CAPACITORS Modulo XD 12 12 GENERAL PURPOSE CAPACITORS GP Series GP 42 Series GP 84 Series 15 15 16 20 DC CAPACITORS NEW DHC DCH 85 C Series DCH 86 PS Series DC 82 P Series DC 85 C Series DC 85 B Series DC 86 P Series DC 86 PS Series DC 89 HC Series DC 88 M Series DC 45 Series 25 INQUIRY FORM 64 26 27 32 35 39 44 47 50 53 58 62 4 2 POWER ELECTRONICS CAPACITORS CAPACITOR EXCELLENCE SINCE 1926 In 1926 Ducati has been among the first to start industrial production of capacitors, and has been a market leader ever since. Since its foundation, Ducati Energia has always been in the forefront of technical and industrial development, leading the research shaping today’s technology and cooperating to the upgrades and improvements leading to the current IEC and EN Standards for Capacitors. Ducati Energia firstly introduced the Metallised Polypropylene Film technology and it’s innovative PPM and PPMh film set the reference for this technology, outclassing the obsolete paper/oil and gas technology in terms of superior performance and reduced dimensions. Constantly driven to quality, environmental engagement and safety, Ducati Energia is fully certified following ISO 9001:2008, ISO 14001 and OHSAS 18001. Today the Ducati Energia Group counts approx. 800 employees working in 6 plants: • Ducati Energia (Bologna - Italy) • Ducati Energia Romania (Busteni - Romania) • Ducati Komponenti (Ludbreg - Croatia) • Ducati Energia India (Pune - India) • C.R.D. Centro Ricerche Ducati (Trento - Italy) • Ducati Energia Sud America (Buenos Aires - Argentina) Ducati Energia Group main fields of activities are: • Motor Lighting Capacitors • Power Electronics Capacitors • Power Factor Correction Capacitors and Systems (LV and MV) • Alternators and Ignition Systems • Wind Power Generators • Electrical Vehicles and Charging Stations for Electrical Vehicles • Energy Analysers • Control Systems for energy grids • Railways Signalling systems • Ticketing and Transpor t Automation systems do Brasil Sao Paulo, Brazil 5 2 POWER ELECTRONICS CAPACITORS The great attention to the product Quality and to the customer service are constants in DUCATI’s history and these are main factors which contribute to its success all over the world. Ducati ha always been one of the first companies, in its field, in Italy and in Europe to adopt the most modern standards and procedures in order to assure the highest level of the quality and reliability of products. Constantly driven to quality, environmental engagement and safety, Ducati Energia is fully certified following ISO 9001:2008, ISO 14001 and OHSAS 18001. High quality standards are provided thanks to Ducati's innovative technologies. Its new equipment and machinaries, its production control over processes based on accurate specifications and operative management skills assure the best performances. Certification of Quality Management System ISO 9001:2008 Certification of Environmental Management System ISO 14001:2004 Certification of Occupational Health and Safety Management System BS OHSAS 18001:2007 6 2 POWER ELECTRONICS CAPACITORS INTRODUCTION: Ducati was founded in 1926 and was the first company in Italy, and among the first in the world, to introduce capacitors for the radiobroadcasting equipment produced by Guglielmo Marconi. Building upon this tradition, which has always seen Ducati in the forefront of capacitor technology, the company has developed the innovative PPMh (AC applications) and PPMd films (DC applications). Superior performance and reduced dimensions compared to the by now obsolete paper and oil and gas solutions make these capacitors the new standard of reference for industrial power electronics systems. However, the present range also includes traditional PPM versions for applications where the capacitor is not subjected to severe working conditions. All the capacitors manufactured by Ducati Energia feature a protection device conforming to standards IEC 61071-1/2. This protection has been achieved by means of a special engineering technology: if a fault occurs the connections will be broken due to overpressure, leaving the insulation of the case intact and preventing the capacitor from exploding or burning. The device has been designed and dimensioned to ensure more efficient, prompt operation with both low and high short circuit currents (up to 10,000 A). TECHNOLOGIES TERMS AND DEFINITIONS PPM / MKP TECHNOLOGY Metallized polypropylene technology (PPM – MKP) utilizes a vacuum evaporation technique to deposit an extremely thin layer of metal on one side of the polypropylene film. The capacitor elements built using this technology are obtained by winding two polypropylene films. The capacitor plates consist in the metallized surface of the two films and the dielectric is the propylene film itself. The main advantage of capacitors with metallized plates is their self-healing capacity. This means that they are capable of restoring their electrical properties following the occurrence of a short circuit between the plates. Due to the reduced thickness of the plates, the short circuit current generated in the area of a fault is capable of vaporizing the metal coating; the short circuit is thereby automatically extinguished without an appreciable reduction in capacitance or expenditure of energy. (According to IEC 61071) Rated capacitance (Cn) Capacitance value rated at ambient temperature (20 ±5°C) and at the rated voltage. For capacitors made with metallized polypropylene dielectric film, the capacitance and dissipation factor change versus temperature. Typical graphs of these deviations are shown in the below diagrams. C/C[%] Capacitance change with temperature (general guide) 6 4 2 0 -2 -4 -6 -40 -20 0 20 40 60 80 100 Temperature [°C] tan δ [x 10-4] PPMh AND PPMd TECHNOLOGY The continuous research conducted in Ducati Energia laboratories has lead to the development of a polypropylene film with a special metallization, whose purpose is to increase gradient of voltage without decreasing lifetime. Thanks to this innovative metallization treatment, the capacitor has a significantly dimension reduction and maintains its dielectric properties and performance in terms of both current and voltage: - PPMh is film designed for AC voltage, can suppor t also DC applications, agree with technical data; - PPMd is designed for DC voltage, with high superimposed ripple. Dissipation factor change with temperature (general guide) 8 7 6 5 4 3 2 1 0 -40 -20 0 20 40 60 80 100 Temperature [°C] Tolerance on capacitance The maximum admitted deviation from the rated value of capacitance, measured at ambient temperature (20 ±5°C) and at the rated voltage. PPMdH HIGH DENSITY / HIGH TEMPERATURE TECHNOLOGY The latest development of Ducati Energia research is a particularly crystalline film with a special metallization type. The result is a superior capability in terms of voltage gradient and temperature stability. PPMdH therefore provides: · Up to +25% capacity in the same volume · Up to +20°C Operating Temperatures, without current or lifetime derating Rated AC Voltage (Un AC) The maximum operating peak recurrent voltage of either polarity of a reversing type wave form, for which the capacitor has been designed. Rated DC Voltage (Un DC) The maximum operating peak voltage of either polarity but of a non- reversing type wave form, for which the capacitor has been designed. 2 7 POWER ELECTRONICS CAPACITORS Rated Rms voltage (Urms) Root mean square of the maximum permissible value of A.C. voltage, in continuous operation. In case of sinusoidal wave form voltage, the following relationship could be considered: Picture 1 Non-recurrent surge voltage (Us) A peak voltage inducted by switching or any other faults or disturbance of the system, which is allowed for a maximum of 500 times and for a durations shorter than 100 msec. Ripple voltage (Ur) The peak-to-peak alternating unidirectional voltage. component of Ipk Iw (Impulsive waveform): for high distorsion current waveform, typical when the t0/T < 0,1% - picture 2 Picture 2 the Illustrative Voltage Curve for terms and definitions of AC application Illustrative Voltage Curve for terms and definitions of AC application. U(t) U(t) Us (if non-recurrent peak voltage) Up Up (if Peak recurrent peak voltage (if recurrent peak)voltage) or Us Peak voltage (if non-recurrent peak) Un AC Rated AC Voltage Un AC Rated AC Voltage Urms Urms Rate of voltage rise (du/dt) Maximum permitted repetitive rate of voltage rise of the operational voltage RMS Voltage RMS Voltage t t Peak surge current (Is) The admissible peak current inducted by switching or any other faults or disturbance of the system, which is allowed for a maximum of 500 times and for a durations shorter than 100 msec. Equivalent series resistance (RESR) An effective resistance which, if connected in series with an ideal capacitor with the same value capacitance,would have a power loss equal to the active power dissipated in the capacitor under specified operating conditions. Normally, for frequency lower than the resonanting one, the following relationship could be considered: Illustrative Voltage Curve for terms and definitions of DC application Illustrative Voltage Curve for terms and definitions of DC application. U(t) Us (if non-recurrent peak voltage) Up peak voltage) Up Peak voltage (if recurrent peak) (if(ifrecurrent Us Peak voltage non-recurrent peak) or U(t) Un DC Ur Rated DC Voltage peak to peak Voltage (ripple) t Un DC Rated DC Voltage U Ur (peak to peak voltage) U DC Voltage DC Voltage t Maximum current (Imax) The maximum rms value of permissible current in continuous operation. This value is related to the maximum power dissipation at the highest permitted temperature of the case (θmax) at which the capacitor may be operated. Operating at the maximum r.m.s current (IMAX), the capacitor produces a case temperature rise of about 10 – 15 °C over the ambient, according to the capacitor type (please see RTHC for each models) and the application. To avoid thermal instability on the capacitor the case temperature of the capacitor must not exceed the maximum operating temperature (θmax), so it could be necessary to reduce the ambient temperature with a cooling air system or to reduce the Imax current. Series resistance (Rs) It is the resistance produced by the current heat losses in the capacitor. Equivalent series inductance (LESR) The value of equivalent inductance that the capacitors has due to the internal connections, terminals, winding characteristics and physical dimensions. Thermal resistance (RTHC) It is the thermal resistance (°C/W) between the hottest point on the case of the capacitor in thermal equilibrium and the natural cooling environment, with the temperature measured approximately at 0,1 meter away from the capacitor container and at two-third of the height from its base. The following relationship could be considered: Maximum peak current (Ipk) The maximum current amplitude which occurs istantaneously during continuos operation. For some capacitors series and according to the typical application (high or low distorsion), it’s possible to describe two different maximum peak current: Ipk Cw (continuos waveform): for linear or low distorsion current waveform - picture 1 2 8 POWER ELECTRONICS CAPACITORS POWER ELECTRONICS CAPACITORS POWER ELECTRONICS CAPACITORS Maximum dissipation factor (tanδ max) Maximum of the loss (tan angle, expressed as the Maximum tangent dissipation factor δ max) ratio between the equivalent the Maximum tangent of the lossseries angle,resistance expressedand as the capacitive reactance of factor the capacitor at 50Hz sinusoidal Maximum dissipation (tanδ resistance max) ratio between the equivalent series and the frequency. The nominal (tan)atexpressed is50Hz calculated as Maximum of ofthe loss angle, as the capacitive tangent reactance thevalue capacitor sinusoidal follows: frequency. Thethenominal value (tan)resistance is calculated as ratio between equivalent series and the follows: reactance of the capacitor at 50Hz sinusoidal capacitive frequency. Safety areaThe nominal value (tan) is calculated as follows: The following Safety area charts shown the maximum permissible voltage or current case of overloadpermissible operation. The following chartsin shown thean maximum The amplitude of overvoltages may be voltage or current in case of or an overcurrents overload operation. Safety area tolerated without in the permissible lifemay timebe of The following amplitude of significant overvoltages overcurrents The charts shownreduction theormaximum capacitor, ifcurrent the case temperature ofinthe is toleratedorwithout significant reduction thecapacitor life time of voltage in case of an overload operation. within the operating temperature. capacitor, if theofcase temperature of the capacitor is The amplitude overvoltages or overcurrents may be tolerated significant reduction in the life time of within thewithout operating temperature. capacitor, if the case temperature of the capacitor is Safety area for overload CURRENT within the operating temperature. Maximum duration within one day [min]one day [min] Maximum duration within 1.000 Safety area for overload CURRENT 1.000 100 100 10 Safety Area 10 1 1,1 1 1,1 1,3 I / Imax Safety area for overload VOLTAGE 1,2 1,3 OVERCURRENT I / Imax 1.000 Maximum duration within one day [min] Maximum duration within one day [min] 1,2 OVERCURRENT Safety Area Safety area for overload VOLTAGE 1.000 100 100 10 Safety Area 10 1 1,1 1,2 Safety OVERVOLTAGE Area 1,3 V / Vrms Voltage test between terminals (Utt) Routine test of all OVERVOLTAGE capacitors at room V / Vrmsconducted temperature, prior to delivery. The capacitor shall be Voltage test tt) subjected for between 10 s to a terminals test voltage(Uapplied between the Routine test of the all test, capacitors conducted at room Voltage test between terminals (U tt) terminals. During neither puncture nor flashover temperature, prior to delivery. The capacitor shall be Routine test of all capacitors conducted at room shall occur, self-healing breakdowns are permitted. For temperature, prior The capacitor shall be subjected for regarding 10 s totoa delivery. test voltage between the more details the value of applied test voltage, please subjected for 10 sthe to a voltage applied between the terminals. During test, neither puncture nor flashover see the data sheet fortest each single capacitor model. terminals. During the test, neither puncture nor flashover shall occur, self-healing breakdowns For Voltage test between terminals (Utt)are permitted. shall occur, breakdowns arevoltage, permitted. For more details regarding the value ofconducted test Routine testself-healing of all capacitors at please room more details the valuesingle of test voltage, please see the dataregarding sheettofor each capacitor model. temperature, prior delivery. The capacitor shall be see the data foraeach single(U capacitor model. the tt) Voltage test between terminals subjected forsheet 10 s to test voltage applied between Routine of the all test, capacitors conducted at room terminals.test During neither puncture nor flashover temperature, prior to delivery. The be shall occur, breakdowns are permitted. Voltage testself-healing between terminals andcapacitor case (Utcshall ) For subjected for regarding 10 to a capacitors test voltage applied between the more details the value ofconducted test voltage, Routine test ofs all atplease room terminals. During neither puncture nor flashover temperature, priorthe to delivery. The capacitor having all see the data sheet fortest, each single capacitor model. shall occur, self-healing breakdowns For terminals insulated from the container are shallpermitted. be subjected more regarding the value of test voltage, for 10details s to a AC test voltage applied between terminals ) please Voltage test between terminals and case (Utc (joined together) and the container. During the test, see the data sheet for each single capacitor model. Routine test of all capacitors conducted at room neither puncture flashoverThe shall occur. having For more temperature, priornor to delivery. capacitor all details regarding the value of testand voltage, please see Voltage test between terminals casebe(U tc) terminals insulated from the container shall subjected the data sheet fortest each singleapplied capacitor model.terminals for 10 s to a AC between Routine test of all voltage capacitors conducted at room (joined together) and the container. During the test, temperature, prior to delivery. The capacitor having all Lowest operating temperature (θ min) neither puncture flashover shall occur. more terminals insulatednor from the container shall be For subjected Lowest case ofapplied temperature, in terminals thermal details thevoltage value test voltage, please see for 10 sregarding topermissible a AC test between equilibrium, at which capacitor may During be used. (joined andthethe container. the test, the datatogether) sheet for each single capacitor model. neither puncture nor flashover shall occur. For more details regarding the value of test voltage, please see the data sheet for each single capacitor model. 1 1,1 1,2 1,3 Maximum operating temperature (θ max) Highest operating permissible case temperature, in thermal Lowest temperature (θ min) equilibrium, at which the capacitor may be used. Lowest permissible case temperature, in thermal Lowest operating θ min) equilibrium, at whichtemperature the capacitor (may be used. Climatic categories Lowest permissible case temperature, Maximum operating temperature (θ max) in thermal F class: permissible Highest case temperature, in thermal equilibrium, at which the capacitor may be used. -Maximum maximum operating relative 75% may - annual means, temperature (θ max) equilibrium, at whichhumidity the capacitor be used. -Highest permittedpermissible maximum 95% 30 days/year, in thermal casefor temperature, - condensation not permitted Climatic categories equilibrium, at which the capacitor may be used. F class: -Climatic maximumcategories relative humidity 75% - annual means, -Fpermitted for 30 days/year, class: maximum 95% SAFETY maximum relative humidity 75% - annual means, --condensation not permitted - permitted maximum 95% for 30 days/year, SAFETY Capacitor Protection: - condensation not permitted Capacitor - AgainstProtection: accidental contact SAFETY In accordance with IEC 61071, all capacitors are -checked Against by accidental contact 100% routine test (voltage test between Capacitor Protection: In accordance with IEC Accessible 61071, all capacitors capacitors must are terminations and case). checked by 100% routine test (voltage test between -beAgainst accidental contact earthed at thecase). bottom stud or with an additional terminations and with capacitors must In accordance IECAccessible 61071, all capacitors are earthing clamp. be earthedbyat100% the bottom with antest additional checked routinestud test or (voltage between earthing clamp.and case). Accessible capacitors must terminations -be Overload failure at the end service life earthed and at the bottom stud orofwith an additional All described capacitors are “self-healing“: in the -earthing Overload and failure at the end of service life event clamp. of described a voltage breakdownare the“self-healing“: metal layersinaround the All capacitors the event breakdown channel are evaporated by the temperature of- Overload a voltage and breakdown thethe metal layers around the at of service of the electric arcfailure between theend electrodes, andlife create breakdown channel are evaporated by the temperature All described capacitors are “self-healing“: in the event small overpressure. An insulation area is formed which of electric breakdown arc between themetal electrodes, and create of the a voltage the layers the is reliably resistive An andinsulation voltage proof forformed allaround operating small overpressure. area is which breakdown channel are evaporated by the temperature of theand capacitor. The capacitor remains isrequirements reliably resistive voltage proof for all operating of the electric during arc between thethe electrodes, and create fully functional and after breakdown. requirements of the An capacitor. Thearea capacitor remains small overpressure. insulation is formed which In the event of overvoltage or at the the breakdown. end capacitor service fully functional during and after is reliably resistive and voltage proof for all operating life, an increasing number of selfhealing breakdowns In the event of overvoltage or at the end capacitor service requirements of the capacitor. The the capacitor remains may rising pressure capacitor and life, ancause increasing number of inside selfhealing breakdowns fully functional during and after the breakdown. brake the can. To prevent it, the capacitor is fitted with may cause rising pressure inside the capacitor and In the event of“overpressure overvoltage at the end capacitor an obligatory brake the can. To prevent it,ormechanism“. the capacitor is fittedservice with life, an increasing number of selfhealing breakdowns This safety mechanism is based on an attenuated spot an obligatory “overpressure mechanism“. may cause rising pressure inside capacitorspot and at one of the connecting inside capacitor. This safety mechanism iswires based on anthe attenuated with brake can. To prevent it, the capacitor is fitted When the rising pressure, the casing begins to expand, at one of the connecting wires inside the capacitor. an obligatory “overpressure disconnects the attenuated wire and the and When the rising pressure, themechanism“. casingspot begins to expand, This safety mechanism is based on an attenuated spot current path is interrupted irreversibly. It has be noted and disconnects the attenuated spot wiretoand the at one ofsafety theisconnecting wires capacitor. that thispath system can actinside properly only within the current interrupted irreversibly. Itthe has to be noted When rising the casing to expand, permitted limits ofpressure, loadscan and overloads. that thisthe safety system act properlybegins only within the and capacitors disconnects the attenuated wire and with the The rectangular casespot are provided permitted limits ofinloads and overloads. current path is interrupted irreversibly. It has to be noted an overpressure switch that would signalize a rising The capacitors in rectangular case are provided with thatoverpressure this safety system act properly only within the pressure inside the case.can A corresponding external safety an switch that would signalize a rising permitted limits of case. loadsAand circuit which disconnects theoverloads. capacitor external immediately pressure inside the corresponding safetyin The capacitors rectangular are provided with such event toinbe provided bycase the user. circuit whichhas disconnects the capacitor immediately in an overpressure switch that by would signalize a rising such event has to be provided the user. -pressure Overvoltages and Short Circuits inside the case. A corresponding external safety shown above, capacitors are self-healing and -As Overvoltages andthe Short Circuits circuit which disconnects the capacitor immediately in regenerate themselves after breakdowns of the dielectric. As shown capacitors self-healing and such eventabove, has to the be provided by are the user. For voltages within theafter permitted testing operating regenerate themselves breakdowns of and the dielectric. - Overvoltages and maximum thewithin capacitors are Circuits overvoltage-proof. For voltages theShort permitted testing and operating As shown above, capacitors are short self-healing They are the also prooftheagainst external circuits and as maximum capacitors are overvoltage-proof. regenerate themselves after breakdowns of the dielectric. far asare the also resulting discharges not exceed the They proofsurge against external do short circuits as Forasvoltages within the(IS). permitted testing operating specified limits far the current resulting surge discharges do notand exceed the maximumcurrent the capacitors specified limits (IS).are overvoltage-proof. They are life also proof against external short circuits as Operating Operating far as thelife resulting the The capacitors havesurge beendischarges designeddofornotanexceed average The capacitors have designed for an average specified current limitsbeen (IS). service life of 100,000 hrs (with 50 fit permitted). service life of 100,000 hrs (with 50 fit permitted). Above all, the the operating life lifeofofthe thecapacitors capacitorsdepends depends Above all, Operating lifeoperating on the temperature inside during operation, and field on the temperature inside during operation, and the field The capacitors have been designed for an the average strength in its dielectric. service life ofdielectric. 100,000 hrs (with 50 fit permitted). strength in its The following diagram demonstrates thecapacitors correlationbetween between life of the depends Above all, the operating The following diagram demonstrates the correlation service life,hot hotspot spottemperature, temperature, and operatingand voltage. on the life, temperature inside during operation, the field service and operating voltage. strength in its dielectric. The following diagram demonstrates the correlation between 2 service life, hot spot temperature, and operating voltage. 29 9 POWER ELECTRONICS CAPACITORS Life [hours] is required. Capacitors with hard resin filling can be mounted in any position without restrictions. Life versus Voltage and Hot Spot Temperature PPM standard film 10.000.000 Earthing Capacitors with a metal case must be earthed at the mounting stud or by means of a separate metal strap or clamp. 50°C 1.000.000 70°C 60°C 90°C 80°C Discharge If there is no discharge of the capacitors provided by external circuits, the capacitors should be provided with discharge resistors. In any event, the poles of the capacitors must be short-circuited before being touched. Note that capacitors with nominal voltages above 750 V in particular may regenerate new voltage at their terminals after having been short-circuited just for short periods. This condition results from the internal series connection of the capacitor elements and will be avoided by storing them permanently short-circuited. 100.000 10.000 1.000 0,8 0,9 1,0 1,1 1,2 1,3 Operating Voltage [V/Un] FIT vs Hot Spot Temperature FIT [10-9 comp. x hour] 1.000 DISPOSAL 85°C Our capacitors do not contain PCB, solvents, or any other toxic or banned materials. The impregnants and filling materials contain vegetable oil or polyurethane mixtures. The capacitors are not rated as hazardous goods in transit and do not have to be marked under the Regulations for Hazardous Goods. They are rated WGK 0 (water risk category 0 “no general threat to water“). We recommend disposing of the capacitors through professional recycling centres for electric/electronic waste. The capacitors can be disposed of as follows: • Capacitors: acc. to European Waste Catalogue (EWC) No. 160216 (“Components taken from discarded equipment“) • Liquid filling materials: acc. to EWC No. 080402 (“Waste adhesives and sealants free of halogenated solvents“) • Hardened filling materials: acc. to EWC No. 080404 (“Hardened adhesives and sealants“). Caution: When touching or wasting capacitors with activated break-action mechanism, please consider that even after days and weeks these capacitors may still be charged with high voltages ! Capacitors are hermetic sealed, to maintain a long operating life and for the correct functioning of the break action mechanism, please pay special attention not to damage any parts of the can, cover or isolators. 100 70°C 55°C 10 0,6 0,7 0,8 0,9 1,0 1,1 1,2 1,3 1,4 Operating Voltage [U/Un] MOUNTING AND OPERATING INSTRUCTIONS Connection Connection at threaded studs have to be made between two nuts. It is not recommended to solder cables to the terminals. Permitted torque for screw connections. See individual data sheets fur each range. Capacitors overpressure device: All the AC capacitors with overpressure device shall be connected with sufficiently flexible leads to permit the functioning of the mechanism, and sufficient space for expansion of the capacitor case must be left above the terminals. Depending on the specific dimensions of the capacitors the case could expand between 15 mm and 30 mm. Mounting Location As mentioned, the useful life of a capacitor may be reduced dramatically if exposed to excessive heat. To avoid overheating the capacitors must be allowed to emit their heat losses unhindered and shall be shielded from external heat sources. If attenuating circumstances give cause for doubt, special tests should be conducted to ensure that the permitted maximum temperature of the capacitor is not exceeded even under the most critical ambient circumstances. It should be noted that the internal heat balance of large capacitors is only reached after a couple of hours. NOTE: Capacitors of the DC series are not provided with an internal safety mechanism which would separate them in a controlled and reliable manner from the energy supply in case of malfunctioning. These capacitors consist mainly of polypropylene (up to 90%), i.e. their energy content is comparably high. Capacitors may rupture and ignite as a result of internal faults or external overload (e.g. temperature, overvoltage, harmonic distortion). It must therefore be ensured by proper measures that they not perform any hazard for their environment in the event of failure. Energy content in case of fire: approx. 40 MJ/kg. Mounting position Capacitors with liquid or viscous filling shall be installed upright with terminals facing upwards. Please consult our technical department if different mounting position 10 2 Power Electronics Capacitors GENERAL SAFETY RECOMMENDATIONS V. RISK FACTORS FOR THE CAPACITOR I. SCOPE The most frequent risk factors which cause capacitor damage and possibly also the failure of the internal protective devices are: 1) Exceeding the permissible temperature on the capacitor surface (a continuous increase temperature of 7 K cuts life expectancy in half). 2) Over voltages, over currents and high inrush currents even if they only occur briefly or cyclically (a continuous increase in the operating voltage of the capacitor of 8% cuts life expectancy in half). 3) Network harmonics, resonances created by harmonics or flicker even when they occur only briefly or cyclically. 4) Aging of the lighting equipment and consequential excess temperature or high UV stress. 5) Failure of other components in a common circuit and consequential over voltages or over currents. 6) Interaction with other reactive power components, and also parasitic capacitances (cable) or inductivities in common circuits. 7) Even if the test based on the capacitor standard is passed, this does not ensure comprehensive protection against all possible overloading. 8) During the operation of thyristor-switched capacitor system, high DC voltages can occur continuously on the capacitors of compensation systems which are not switched on. These DC voltages must be considered when designing the capacitors and the discharge devices. These safety recommendations and requirements apply to the following power electronics capacitors and standards. Their purpose is to describe the state of technology which must as a rule be adhered to in all relevant contracts for goods and services. 1) Capacitors for power IEC / DIN EN 61071 electronics (PEC). 2) Capacitors for railway IEC / DIN EN 61881 applications (PEC). II. GENERAL SAFETY RULES Since power capacitors are electrical energy storage devices, they must always be handled with caution. Even after being turned off for a relatively long period of time, they can still be charged with potentially lethal high voltages. III. GENERAL CONDITIONS FOR STORAGE AND USE 1) The manufacturer’s installation, application and maintenance instructions and the relevant standards must always be complied with. 2) Capacitors must never be stored or used outside the specified temperature ranges. 3) Capacitors may not be stored or operated in corrosive atmospheres, particularly not when chlorides, sulfides, acids, alkalis, salts, organic solvents or similar substances are present. 4) The maximum temperatures (including inherent heat) voltages, currents, power, reactive power, thermal resistances, frequencies, discharge times and switching frequencies specified in the data sheet must be adhered to. 5) A means of sufficient dissipation of heat loss (fan, cooling) or escaping gases in case of malfunction must be provided. Required minimum distances (e.g. to sources of heat) must be maintained. 6) Specified torques for electrical connections and fasteners must be adhered to. 7) Mechanically or electrically damaged, leaky or otherwise damaged capacitors may not be used or continue to be used. 8) Existing protective devices of the capacitors may not be manipulated, removed or impaired in their function. VI. RISKS WHEN A FAULT OCCURS 1) Power capacitors can be a significant risk in the case of failure due to their stored energy and/or their properties during operation in networks with high short-circuit power. 2) Power capacitors can actively fail when internal or external protective devices are missing, incorrectly dimensioned or have failed. They can burst, burn or, in extreme cases, explode. VII. RISK MINIMIZATION 1) The capacitor manufacturer cannot predict all possible stresses which a power capacitor can be subjected to and which must be taken into account in the design. This means that the user bears crucial co-responsibility here. For this reason alone, safety and quality should be the top priorities when a capacitor is selected. This is why we urgently recommend the use of capacitors with appropriate internal protective devices. 2) Before designing the application, capacitors must be checked for their suitability for this particular application. All influences (parameters) must be considered. Unexamined use in an application may have serious consequences. Particularly with sensitive applications, the internal protective devices of the capacitors should be supplemented by the user with suitable external protective measures. External protective measures are even mandatory when capacitors are used without internal protective devices. 3) When power capacitors are used, suitable measures must always be taken to eliminate possible danger to humans, animals and property both during operations and when a failure occurs. This applies to capacitors both without and with protective devices. IV. INTERNAL PROTECTIVE DEVICES 1) Internal protective devices offer basic protection against certain internal faults, aging and overload. 2) Internal protective devices alone are not sufficient to prevent all conceivable dangers in case of malfunction. The so-called self-healing capability is not the same as fail safe system stability. 3) Depending on their protective mechanism, internal protective devices are subject to technical and functional limits which when exceeded will definitely cause malfunctions. Such violations can be excess temperature, overvoltage, wrong application, wrong installation, faulty maintenance, mechanical damage, or operation outside the technical limits of the specification. 4) Most internal protective devices can interrupt the voltage only within the capacitor. They are not fuses in the classical sense such as cable or device fuses which interrupt the voltage upstream from the faulty system component. 47 11 2 Power Electronics Capacitors 3-PHASE AC FILTER CAPACITORS Modulo XD series Metallized polypropylene three-phases capacitors for harmonic filtering applications and power factor correction applications. - Aluminum case - Dry resin - Self-healing polypropylene metallized film - Overpressure safety device - PFC with high AC voltage and high rms and surge current harmonics filtering - Wind turbines Rated voltage Capacitance range Capacitance tolerance Test voltage between terminals Test voltage between terminals and case Temperature class Protection degree Hot spot temperature Voltage raise (dV/dt) Dielectric losses (tan δo) Typical total losses (tan δ) Maximum cable section Three-phase connection Filling Dielectric Case Life expectancy Failure quota Installation Reference standard ) UL–CSA approved ( AC 450 ÷ 800 V (*) 1÷ 250 µF (*) – 5% / +10% 2,15 x Urms - 2s 3,0 KVac 50 Hz - 10s –40 / D (max 55 °C) IP 20 (IP54 on request) 85 °C 110 V/us 0,2 W/kVAr 0,55 W/kVAr 25 mmq Delta Dry polyurethane resin Metallized polypropylene film Aluminum 100.000 h (**) 50/10E9 Vertical / horizontal IEC 1071-1/2; UL 810 File n. 192559 M4 screw clamp terminals Max 1,5 Nm M12 fixing bolt Max 10 Nm (*) Standard values, other values on request. (**) For details please refer to page 10 10 12 Power Electronics Capacitors 3-PHASE AC FILTER CAPACITORS XD Series Capacitance Dimension (ØxH) 3x Cn [µF] [mm] Urms = 450V RMS Current Repet. Peak Current Surge Current IRMS [A] Ip [kA] Is [kA] Un AC = 640V Series Resistance Rs [mΩ] Inductance Ls [nH] Thermal Resistance Typical Weight RTHC [°C/W] [kg] Pcs. / box Box type Part number 416.46.xxxx Surge Voltage [Us] = 1380 V 3x 7,9 65 x 165 10 0,3 0,9 5,90 120 5,8 0,65 14 E 3020 3x 13 65 x 165 10 0,5 1,4 5,90 120 4,3 0,65 14 E 3030 3x 26 75 x 165 14 1,0 2,9 5,90 120 2,2 0,80 12 F 3050 3x 39 75 x 255 20 1,6 4,3 4,04 150 1,9 1,25 6 F 3080 3x 52 75 x 255 27 2,1 5,7 3,03 150 1,9 1,60 6 F 3100 3x 66 85 x 255 34 2,6 7,3 2,64 150 1,6 1,60 6 F 3150 3x 79 90 x 255 40 3,2 8,7 2,20 150 1,4 1,80 6 F 3200 3x 104 100 x 255 54 4,2 11,4 1,65 150 1,1 2,25 6 G 3260 3x 131 116 x 255 55 5,2 12,0 2,15 150 0,9 2,85 6 H 3310 3x 157 116 x 290 55 6,3 12,0 2,58 Electronics Capacitors 180 0,8 3,30 6 H 3360 3x 235 116 x 370 65 200 0,7 4,20 4 I 3375 Urms = 500V Power 9,4 14,0 2,72 3-PHASE AC FILTER Surge CAPACITORS U = 710V Voltage [Us] = 1530 V n AC 3x 6,3 65x165 10 0,3 0,7 5,90 120 5,8 0,65 14 E 4020 3x 10,5 65x165 10 0,4 0,1 5,90 120 4,3 0,65 14 E 4030 75x165 12 0,8 2,3 5,90 120 2,2 0,80 12 F 4050 1,9 1,25 6 F 4080 1,9 1,60 6 F 4100 1,6 1,60 6 F 4150 XD 3x Series 21 RMS 3x 32 Dimension 75x255 Capacitance 3x Cn [µF] Current (ØxH) IRMS [A] [mm] 75x255 3x 43 3x 53 85x255 3x7,9 65 x 165 10 Repet.18 Peak Current Ip [kA] 24 Thermal4,99 Typical Surge 1,3 Series Inductance 3,5 Resistance Current Resistance Ls Weight Is [kA] 1,7 Rs [m• ]• [nH] 4,7 RTHC [°C/W] 3,74 [kg] Urms = 450 V 30 0,3 0,9 2,1 UnAC = 640 V 5,8 5,90 120 3x 64 3x13 90x255 65 x 165 10 36 0,5 1,4 2,65,90 7,0 120 3x26 3x 85 1,0 49 2,9 3x39 75 x 165 14 100x255 75 x 255 20 3,45,90 120 9,4 3x52 75 x 255 116x255 1,6 4,3 27 55 2,1 3x66 34 3x 127 85 x 255 116x290 2,6 55 3x79 3,2 8,7 11,4 3x 106 3x 190 90 x 255 40 116 x 370 65 4,04 0,1 2,20 75x165 12 1,65 2,58 0,2 Un AC 5,90 0,8 2,3 3,5 1,04,99 3x43 3x 34 75x25575x255 24 1,7 4,7 2,1 5,8 1,4 3x106 116x255 55 3x127 116x290 55 3x 70 100x255 3x 87 116x255 3x5,1 65x165 3x8,5 3x 158 3x17 3x25 3x 105 Urms 3x34 10 4,2 44 5,1 3x67 3x 21 35 116x255 44 75x255 116x290 53 85x255 3x17 3x 25 75x25590x255 15 3x21 85x255 19 2,15 2,8 7,7 26 3,5 9,6 11,6 4,2 35 Urms = 690 V 150 2,82,58 7,7 180 3,5 UnAC = 780 V9,6 0,8 2,47 3,30 Us 2,15 = 1680 V 6,50 120 5,8 6,50 120 4,3 4,2 U n AC = 980V 1,4 3,7 11,6 2,58 0,65 F 5050 150 6 F 1,9 4080 1,25 6 F 5080 6 150 F 4100 1,9 1,60 6 F 5100 1,60 6 F 5150 1,80 6 F 5200 1,1 2,25 6 G 5260 0,9 2,85 6 H 5310 0,8 3,30 6 H 5360 4,20 4 I 5375 12 6 0,65 4,53 3,29 14 E 180 F 5080 6 F 5100 150 2,4 150 6 F 1,9 5150 6 F 1,6 5,83 1,60 1,4 1,80 4,66 G H 1,4 5310 1,80 6 F 6200 2,58 180 5,0 UnAC = 980 V 0,8 3,30 3,56 Us = 2110 V 6 150 H 5360 1,1 2,25 6 G 6260 150 6 F 0,9 6100 2,85 6 H 6310 F 6150 0,8 F 6200 3,30 6 H 6360 1,9 2,85 1,60 3,6 U 1,8 5,0 3,56 n AC = 1140V 2,2 6,2 2,85 150 0,9 2,59 180 0,8 3,30 Us6,27 = 2440 V 23 1,3 38 6150 6 1,3 90x255 6100 F 150 6 1,6 2,59 1,60 6 180 150 1,4 1,80 6 [Us] 2,25 = 2440 V 6 150Surge Voltage 1,1 100x255 30 116x255 F 6 1,1 150 7,4 3x25 6 1,60 5200 0,9 4,75 2,85 2,74,66 3x33 3x 41 1,60 1,6 150 1,8 2,25 150 5030 3,6 150 1,32,15 3,1 1,9 5020 6 1,1 53 2,7 7,4 19 Urms = 800 V 4360 0,7 5050 3,1 2,47 150 4310 F 150 1,1 150 E 6,2 150 5260 4,75 G 6260 H 6310 1,9 1,60 6 F 8100 1,6 1,60 6 F 8150 8100 1,4 1,80 6 F 8200 1,1 6 G 8260 0,7 1,9 0,8UnAC = 1140 V2,3 1,07,84 150 2,8 6,27 150 7,84 2,85 6 150 6 150 H 1,9 6,39 1,60 1,6 1,60 6 150 F 6 F 6360 8150 2,8 1,36,39 3,6 150 1,4 4,79 1,80 150 6 F 8200 2,25 3,6 1,64,79 150 4,5 6 150 G 8260 0,9 2,85 6 H 8310 6 H 6 H 0,8 3,30 6 H 8360 3x41 116x255 38 1,6 4,5 3x50 116x290 46 2,0 5,5 46 4150 14 2,25,83 0,7 23 F 4050 200 12 2,4 15 F 2,2 2,72 0,80 150 1,9 1,25 Surge Voltage 2110 V 150 1,9 [Us] = 1,60 120 14,0 44 0,9 2,3 NOTES: (Cn) (Cn) - (Ums) (Rs) (RTHC) (IRMS) 12 H 30 1,0 116x290 0,80 4030 6 0,8 3x 50 2,2 H 100x255 3x 33 E 6 11,7 44 = 100x255 800V 14 4260 1,4 5,7 Urms 3x45 120 F 2,1 3x56 3x 17 1,60 4,3 4020 G 33 26 1,60 E 6 150 90x255 90x255 4,53 120 14 3360 1,1 3,29 2,25 0,9 2,85 3x52 3x33 3,7 H 150 5,7 0,93,95 85x255 22 116x290 120 6 120 3260 3310 2,12,04 4,7 3x28 3x 67 5030 6,50 H 7,0 1,7 18 116x255 75x255 18 1,9 G 9,4 85x25575x255 28 3x 56 3x22 5020 E 6 6 1,6 4200 6,04 116x290 55 100x255 E 14 3200 0,7 150 6 2,8 3x105 3x 45 14 0,65 200 1,4 3,95 1,80 1,0 100x255 0,65 5,8 6,50 0,65 4,3 0,65 1,6 75x255 90x255 116x255 55 5,8 150 7,66,50 3x70 4375 2,25 3,27 1,9 3x 33 3x87 I 1,9 0,9 22 4 150 0,7 65 85x255 4360 4,20 2,72 4,7 150 3x 22 3x43 3x 28 H 3,74 0,3 22 6 2,2 0,80 1,9 6,04 1,25 65x165 10 116 x 370 75x165 11 = 75x255 690V 3,30 2,8 150 0,6 17 4310 3150 0,8 3080 1,72,72 12,0 Urms 55= 550 V 55 120 5,90 0,2 116x290 120 0,9 0,7 17 1,3 3,4 33 H 150 0,9 [Us] = 2,85 Surge Voltage 1680 V 180 0,8 3,30 0,6 6,50 = 710 V Us = 1530 V 0,35,90 75x25575x255 18 100x255 49 90x255 14,0 2,15 3x 25 3x32 3x85 3x 52 6 1,1 0,4 28 2,6 3100 2,85 150 10 30 4260 0,9 F 65x165 90x25585x255 36 G 6 3x10,5 85x255 F 6 150 0,7 3x 43 3x64 6 2,25 F 0,3 10 3x53 3050 1,1 F 65x16565x165 10 22 F 6 3x 8,5 3x6,3 3x21 12 150 6 180 6,3 12,0 10 Urms = 500 V 11 4200 2,2 2,04 0,80 1,9 1,25 1,6 2,58 1,60 1,4 1,80 4,2 75x165 F 150 12,0 5,2 12,0 U n AC = 780V 3x 17 6 5,12,64 54 55 1,80 5,7 8,5 3020 1,4 3030 7,3 55 65x165 E E 150 100 x 255 116 x 290 14 Part number 416.46.xxxx 150 14 1,9 2,15 1,60 x 255 =116 550V rms 5,8 0,65 4,3 2,72 0,65 150 11,7 150 3x104 3x 5,1 3,27 150 Box type 4,23,03 3x131 U 3x157 150 Us = 1380 V 150 Pcs. for box 3,83 150 1,1 3,83 2,25 0,9 2,85 3,48 180 0,8 2,0 5,5 3,48 3,30 Tolerance standard value: –5% / +10%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Releted at 1 KHz. Thermal resistance natural cooling, AMBIENT to CASE. RMS Current @ 45 °C ambient temperature. On request, external box discharge resistor (not available for series 690 V - 800 V). 11 13 2 180 8310 8360 Power Electronics Capacitors 3-PHASE AC FILTER CAPACITORS Safety system: Overpressure protection device. To enable the device to operate efficiently, it is necessary to leave a gap of at least 30 mm above the element and use flexible leads for the connection. Safety system: Dimension with overpressure device activated. Box TYPE Standard box dimensions: E 195 x 390 x 255 mm 185 x 290 x 270 mm F 225 x 340 x 270 mm G 330 x 340 x 225 mm H 270 x 270 x 450 mm I Capacitor diameter (Ø) Terminal cover Terminal cover (Ø MAX) Pcs. x box [mm] 85 90 100 116 CODE 316523338 316523339 316523340 316523341 [mm] 94 99 109 125 30 30 30 30 Terminal cover IP54 when properly used (*) External box discharge resistor (not available for series 690V - 800V) (*) Only for capacitor diameter ≥ 85 mm 12 14 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP SERIES Metallized Polypropylene AC and DC capacitors for power electronics application with high current and harmonics distortion with long expected life. FEATURES - Cylindrical aluminum case - Over pressure device - Dry resin - Double/single tags or screw type bolts terminals - Self healing PPM/PPMh dielectric - AC / DC voltage applications TYPICAL APPLICATIONS - Inverter Filtering Switching High power lighting GENERAL CHARACTERISTICS RMS Voltage range DC Voltage range Rate Capacitance Test voltage between terminals Test voltage between terminals and case Terminals 250 - 1000V (*) 420 - 2100V (*) 0,1÷600 µF 1,5 Un 10s 3 kV 50 Hz 10s Single or double tag 6.3 x 0.8 mm (GP 42 series) 2 x M6 or 2 x M10 screw-type bolts (GP 84 series) –40 / +70°C –40 / +85°C IP 00 Dry polyurethane resin Self-healing metallized polypropylene film Aluminum Over pressure device 2000 m a.s.l. Vertical / horizontal IEC 1071-1/2; UL 810 UL-CSA (**) Working temperature Storage temperature Protection degree Filling Dielectric Case Protection Maximum altitude Installation Reference standard Approvals (*) Standard values, other values on request. (**) For GP84 series. 13 15 2 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 42 Series RMS Voltage range Capacitance range Capacitance tolerance Max. RMS current Maximum working frequency Thermal resistance natural cooling (RTHc) Series resistance (RS) Terminals Working temperature Storage temperature Test voltage Filling Dielectric Cylindrical case Life expectancy Failure quota Reference standard Integrated overpressure protection M8 fixing bolt M12 fixing bolt (*) Life Derating at operating voltage Life expectancy 80.000 h (rated) 40.000 h 20.000 h 10.000 h 4.16.42.1xxx Series 250 V 275 V 300 V 330 V 250÷930 V 0,1÷100 µF ±5% / ±10% 10 A / 16 A 10 kHz < 12 °C/W < 5 mΩ Single or double tag 6,3x0,8 mm –40 / +70 °C –40 / +85 °C Utc= 3 kVac / 6 kVac @50 Hz 10s Utt= 1,5 x UnDC 10s Dry polyurethane resin Metallized PPM film Aluminum 80.000 h (*) 300/10E9 IEC 1071-1/2; UL 810 Max 5 Nm Max 10 Nm (according to the chart on page 10) 4.16.42.2xxx Series 330 V 360 V 400 V 450 V 4.16.42.3xxx Series 450 V 500 V 540 V 600 V 14 16 2 4.16.42.4xxx Series 550 V 575 V 630 V 690 V 4.16.42.6xxx Series 690 V 760 V 830 V 930 V 4.16.42.9xxx Series 930 V 1025 V 1120 V 1250 V Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 42 Series Cn [µF] IMAX [A] IPK Cw [A] IS [kA] dV/dTmax [V/µs] RTHC natural cooling Tan MAX @50Hz [10-4] Ø [mm] H Weight [mm] [g] Part n. 416.42. [°C/W] 2 5 10 15 20 25 30 40 50 60 70 80 100 5,0 6,5 7,5 8,0 8,5 8,5 9,0 10,0 10,0 10,0 10,0 10,0 10,0 1 2 5 10 15 20 25 35 50 60 5,0 6,0 7,0 8,0 8,5 9,0 10,0 10,0 10,0 10,0 1 2 5 10 15 20 25 30 35 40 5,0 6,5 8,0 8,5 10,0 10,0 10,0 10,0 10,0 10,0 Urms = 250 V 8 0,1 10 0,3 11 0,5 12 0,7 13 0,7 13 0,8 14 1,0 15 0,9 15 1,1 15 1,3 15 1,5 15 1,5 15 1,7 Urms = 330 V 8 0,1 9 0,2 11 0,3 12 0,5 13 0,5 14 0,7 15 0,6 15 0,8 15 0,8 15 1,0 Urms = 450 V 8 0,1 10 0,1 12 0,2 13 0,3 15 0,3 15 0,4 15 0,4 15 0,5 15 0,6 15 0,7 50 50 45 45 30 30 30 20 20 20 20 20 15 50 70 50 45 30 30 20 20 15 15 50 50 45 30 20 20 15 15 15 15 UnAC = 350 V 3,5 4,0 4,5 5,0 5,5 5,5 5,5 6,0 6,0 6,0 6,5 6,5 7,0 UnAC = 470 V 11,7 3,5 10,4 3,5 7,8 4,5 5,8 5,0 4,5 5,5 3,9 5,5 3,3 6,0 2,9 6,5 2,4 6,5 2,1 7,0 UnAC = 640 V 11,7 3,5 9,4 4,0 5,8 5,0 4,5 5,5 3,3 6,0 2,9 6,5 2,4 6,5 2,4 6,5 2,1 7,0 2,1 7,0 11,7 9,4 6,8 5,8 4,5 4,5 3,9 3,3 3,3 2,9 2,6 2,6 2,1 15 17 2 UnDC = 490 V 25 60 30 60 35 72 40 72 40 98 40 98 40 98 45 122 45 122 50 122 55 122 55 122 60 137 UnDC = 600 V 25 60 30 53 35 60 40 72 40 98 45 98 45 122 50 122 55 132 60 137 UnDC = 890 V 25 60 30 60 40 72 40 98 45 122 50 122 55 132 55 132 60 137 60 137 Us = 840 V 40 1.05.x 50 1.23.x 80 1.42.x 100 1.55.x 140 1.63.x 150 1.68.x 170 1.69.x 220 1.82.x 230 1.89.x 270 1.92.x 320 1.95.x 330 1.97.x 420 1.99.x Us = 1120 V 40 2.03.x 50 2.12.x 80 2.39.x 100 2.49.x 140 2.58.x 180 2.68.x 220 2.75.x 270 2.88.x 350 2.94.x 430 2.98.x Us = 1400 V 40 3.08.x 50 3.29.x 100 3.47.x 140 3.58.x 220 3.77.x 270 3.88.x 350 3.92.x 360 3.95.x 430 3.97.x 440 3.99.x Pcs. / box Box type 250 200 100 100 50 50 50 25 25 25 25 25 25 6 6 7 6 7 7 7 7 7 7 6 6 6 250 200 125 100 50 50 25 25 25 25 6 7 6 6 7 6 7 7 6 6 250 200 100 50 25 25 25 25 25 25 6 6 6 7 7 7 6 6 6 6 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 42 Series Cn [µF] IMAX [A] IPK Cw [A] IS [kA] dV/dTmax [V/µs] RTHC natural cooling Tan MAX @50Hz [10-4] Ø [mm] H Weight [mm] [g] Part. n. 416.42. [°C/W] 1 2 5 10 15 20 25 35 7,0 7,0 8,5 9,5 10,0 10,0 10,0 10,0 0,68 1 2 5 8 10 12 20 7,0 7,0 8,0 9,5 10,0 10,0 10,0 10,0 0,68 1 2 5 8 10 12 14 8,5 8,5 8,5 10,5 12,0 14,0 16,0 16,0 Urms = 550 V 11 0,1 11 0,1 13 0,3 14 0,7 15 0,7 15 0,9 15 1,1 15 1,0 Urms = 690 V 11 0,1 11 0,1 12 0,1 14 0,3 15 0,4 15 0,4 15 0,7 15 0,6 Urms = 930 V 13 0,1 13 0,1 13 0,1 16 0,3 18 0,4 21 0,4 24 0,5 24 0,5 60 60 60 60 40 40 40 25 60 60 60 60 40 40 40 25 60 60 60 60 40 40 35 35 UnAC = 780 V 3,0 3,0 3,5 4,0 4,5 4,5 5,0 5,5 UnAC = 990 V 6,3 3,0 6,3 3,0 5,2 3,0 3,5 4,0 2,4 4,5 2,4 4,5 2,1 5,0 1,7 5,5 UnAC = 1300V 3,9 3,0 3,9 3,0 3,9 3,0 2,7 4,0 2,0 4,5 1,8 5,0 1,7 5,5 1,7 5,5 6,3 5,2 4,5 3,5 2,4 2,4 2,1 1,7 UnDC = 940 V 30 98 30 98 40 98 50 98 55 132 55 132 60 137 60 181 UnDC = 1350 V 30 98 30 98 35 98 50 98 55 132 55 132 60 137 60 181 UnDC = 1700 V 40 115 40 115 40 115 55 115 60 150 65 150 65 165 65 165 Us = 1680 V 70 4.10.x 80 4.15.x 140 4.33.x 220 4.58.x 360 4.63.x 370 4.68.x 420 4.78.x 560 4.88.x Us = 2240 V 80 6.12.x 90 6.15.x 110 6.23.x 220 6.51.x 360 6.62.x 370 6.68.x 420 6.74.x 560 6.88.x Us = 2800 V 160 9.10.4 170 9.14.4 190 9.18.4 300 9.49.4 470 9.61.4 550 9.75.4 600 9.85.4 620 9.89.4 (Cn) Standard values, other values on request. Code "x": according to the mechanical configuration, see figures at page 17 (only for A solution). Box TYPE 6 7 STUD M8 M12 Standard box dimensions mm 195 x 390 x 250 mm 195 x 390 x 200 Capacitor diameter Ø 25 - 30 - 40 - 45 - 50 Ø 55 - 60 16 18 2 Pcs. / box Box type 125 125 50 25 25 25 25 18 6 6 7 7 6 6 6 6 125 125 50 25 25 25 25 18 6 6 7 7 6 6 6 6 50 50 50 25 25 20 15 15 7 7 7 6 6 6 6 6 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 42 Series Mechanical Solutions A solution Urms B solution 690V Urms = 930V X = according to table 1 X=4 Over pressure safety device A solution B solution Overpressure safety device Overpressure safety device In order to ensure proper device operation, when the capacitor is installed, a clearance of at least 10mm must be left above terminals. In order to ensure proper device operation, when the capacitor is installed, a clearance of at least 20mm must be left above terminals. Plastic cover configurations - only for A solutions Table 1 17 19 2 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 84 Series RMS Voltage range Capacitance range Capacitance tolerance Max. RMS current Series resistance (Rs) Thermal resistance natural cooling (RTHc) Max. voltage raise of rise (dV/dT) Terminals Working temperature Storage temperature Test voltage Filling Dielectric Cylindrical case Life expectancy Failure quota Reference standard UL-CSA approved ( ) -10 kA AFC Integrated overpressure protection M6 Screw Terminals M10 Screw Terminals M12 fixing bolt 250÷1000V 10÷600 µF ±5% / ±10% 80 A < 8 mΩ < 3,0 °C/W 100 V/µs M6 or M10 screw-type bolts or double tag 6,3 x 0,8 mm –40 / + 70 °C –40 / + 85 °C Utc= 3 kVac / 6 kVac @50 Hz 10s Utt= 1,5 x UnDC 10s Dry polyurethane resin Metallized PPMh film Aluminum 100.000 h (*) /10E9 IEC 1071-1/2; UL 810 File n. E102953 (**) 3 Nm 6 Nm(***) Max 10 Nm (*) Life Derating at operating voltage (according to the chart on page 10) Life expectancy 100.000 h (rated) 50.000 h 25.000 h 12.500 h 4.16.84.2xxx Series 250 V 275 V 300 V 330 V 4.16.84.3xxx Series 330 V 360 V 400 V 450 V 4.16.84.4xxx Series 450 V 500 V 540 V 600 V 4.16.84.5xxx Series 550 V 575 V 630 V 690 V (**) UL Approved for A, C and F solution (excepted series 690 V - 930 V solution A). (***) To avoid breaking, complete the tightening of the nuts using two wrenches. 18 20 2 4.16.84.6xxx Series 690 V 760 V 830 V 930 V 4.16.84.9xxx Series 930 V 1025 V 1120 V 1250 V Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 84 Series Cn [µF] IMAX* [A] IPK CW [A] 60 80 100 120 150 175 200 230 250 300 350 400 500 600 22 22 25 25 32 36 38 40 40 40 45 45 78 80 33 33 38 38 48 54 57 60 60 60 68 68 117 120 50 80 100 120 150 175 200 250 300 350 400 450 22 26 26 30 34 38 40 40 45 70 75 80 33 39 39 45 51 57 60 60 68 105 113 120 20 30 40 50 70 80 90 100 150 200 250 300 20 20 24 24 28 28 32 38 42 70 75 78 30 30 36 36 42 42 48 57 63 105 113 117 IPK IW [kA] IS [kA] Urms = 250 V 1,7 9 1,7 9 1,9 11 1,9 11 2,4 13 2,7 16 2,9 12 3,0 20 3,0 20 3,0 20 3,4 20 3,4 20 5,9 20 6,0 18 Urms = 330 V 1,7 7 2,0 8 2,0 8 2,3 10 2,6 13 2,9 10 3,0 14 3,0 14 3,4 18 5,3 16 5,6 18 6,0 13 Urms = 450 V 1,5 4 1,5 4 1,8 4,5 1,8 4,5 2,1 6,8 2,1 6,8 2,4 5,2 2,9 7,4 3,2 9,9 5,3 9,7 5,6 7,9 5,9 9,1 RTHC [°C/W] LESR [nH] 2,7 2,7 2,2 2,2 2,0 1,8 1,7 1,3 1,3 1,3 1,1 1,1 0,9 0,8 130 130 160 160 160 170 180 200 200 200 210 210 230 300 2,7 2,2 2,2 2,0 1,8 1,7 1,3 1,3 1,1 1,0 0,9 0,8 160 160 160 160 170 180 200 200 210 230 230 300 2,7 2,7 2,2 2,2 1,8 1,8 1,7 1,3 1,1 0,9 0,8 0,7 130 130 160 160 170 170 180 200 210 230 300 300 Tan MAX @50Hz [10-4] Ø [mm] UnAC = 350 V 5,0 55 5,0 55 5,0 55 5,0 55 5,5 60 6,0 65 6,5 65 7,0 75 7,0 75 7,0 75 7,5 85 7,5 85 8,5 90 9,0 85 UnAC = 470 V 5,0 55 6,0 55 6,0 55 6,0 60 65 6,5 7,0 65 7,5 75 7,5 75 7,5 85 8,0 85 8,5 90 9,0 85 UnAC = 630 V 5,0 55 5,0 55 6,0 55 6,0 55 6,5 65 6,5 65 7,0 65 7,5 75 8,0 85 8,5 90 9,0 85 9,0 90 19 21 2 H [mm] Weight Mechanical [g] solution Part. n. 416.84. UnDC = 490 V Us = 950 V 115 300 A/C 2.1x.y 115 340 A/C 2.1x.y 150 370 A/C 2.2x.y 150 390 A/C 2.2x.y 150 450 A/C 2.3x.y 150 520 A/C 2.4x.y 165 580 A/C 2.5x.y 180 820 F 2.6x.7 180 830 F 2.6x.7 180 860 F 2.6x.7 180 980 F 2.7x.7 180 1050 F 2.7x.7 210 1400 F 2.9x.7 280 1700 F 2.9x.7 UnDC = 600 V Us = 1150 V 115 320 A/C 3.1x.y 150 390 A/C 3.2x.y 150 400 A/C 3.2x.y 150 460 A/C 3.3x.y 50 540 A/C 3.4x.y 165 600 A/C 3.5x.y 180 860 F 3.6x.7 180 860 F 3.6x.7 180 1100 F 3.7x.7 210 1350 F 3.8x.7 210 1450 F 3.9x.7 280 1750 F 3.9x.7 UnDC = 825 V Us = 1600 V 115 250 A/C 4.0x.y 115 300 A/C 4.0x.y 150 370 A/C 4.1x.y 150 400 A/C 4.1x.y 150 530 A/C 4.3x.y 150 550 A/C 4.3x.y 165 590 A/C 4.4x.y 180 860 F 4.5x.7 180 1100 F 4.6x.7 210 1450 F 4.8x.7 280 1710 F 4.9x.7 280 1920 F 4.9x.7 Pcs. / box Box type 28 28 21 21 18 16 16 6 6 6 6 6 6 6 1 1 1 1 1 1 1 2 2 2 2 2 3 4 28 21 21 18 16 16 6 6 6 6 6 6 1 1 1 1 1 1 2 2 2 3 3 4 28 28 21 21 16 16 16 6 6 6 6 6 1 1 1 1 1 1 1 2 2 3 4 4 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 84 Series Cn [µF] IMAX* [A] IPK CW [A] 20 30 40 50 70 80 100 125 150 200 250 300 18 20 20 22 26 34 38 38 70 70 76 76 27 30 30 33 39 51 57 57 105 105 114 114 10 15 20 30 40 50 70 85 100 125 150 175 20 20 22 26 30 30 34 36 38 40 45 45 30 30 33 39 45 45 51 54 57 60 68 68 10 15 20 30 35 40 45 50 55 70 85 100 18 20 22 24 28 30 30 30 34 38 42 45 27 30 33 36 42 45 45 45 51 57 63 68 IPK IW [kA] IS [kA] Urms = 550 V 1,4 2,9 1,5 3,3 1,5 3,3 1,7 4,1 2,0 3,9 2,6 5,3 2,9 7,2 2,9 7,2 5,3 5,7 5,3 5,7 5,7 8,3 5,7 8,3 Urms = 690 V 1,0 1,8 1,0 1,8 1,1 2,8 1,3 2,9 1,5 4,0 1,5 4,0 1,7 4,9 1,8 5,5 1,9 7,1 2,0 4,2 2,3 5,3 2,3 5,3 Urms = 930 V 0,9 1,2 1,0 1,8 1,1 1,8 1,2 2,6 1,4 2,3 1,5 3,1 1,5 3,1 1,5 3,1 1,7 3,5 1,9 4,5 2,1 2,7 2,3 3,4 RTHC [°C/W] LESR [nH] 2,7 2,2 2,2 2,0 1,7 1,3 1,1 1,1 0,8 0,8 0,6 0,6 130 160 160 160 180 200 210 210 300 300 320 320 2,2 2,2 1,8 1,7 1,3 1,3 1,0 0,9 0,8 0,7 0,6 0,6 160 160 170 180 200 200 210 220 220 300 300 300 2,2 1,8 1,7 1,3 1,1 1,0 1,0 1,0 0,9 0,8 0,7 0,6 160 170 180 200 210 210 210 210 220 220 300 300 Tan MAX @50Hz [10-4] UnAC = 790 V 5,0 55 5,5 55 5,5 55 6,0 60 7,0 65 7,5 75 8,0 85 8,0 85 8,5 85 8,5 85 9,0 100 9,0 100 UnAC = 990 V 5,0 55 5,0 55 5,0 65 5,0 65 5,5 75 5,5 75 6,0 85 6,5 90 7,0 100 7,5 90 8,0 100 8,0 100 UnAC = 1300 V 4,5 55 4,7 65 5,0 65 5,3 75 5,5 75 5,5 85 5,5 85 5,5 85 5,7 90 5,7 100 6,0 90 6,5 100 (Cn) Standard values, other values on request. Code “x”: internal reference. Code “y”: mechanical solution. (*) The maximum rms current is referred to A or F solutions. Imax Box TYPE 1 2 3 4 5 Ø [mm] H [mm] Weight Technical [g] solution UnDC = 940 V 115 300 150 350 150 390 150 460 165 590 180 820 180 950 180 1050 280 1550 280 1700 280 2100 280 2400 UnDC = 1350 V 150 310 150 350 150 500 165 560 180 780 180 850 210 1150 210 1400 210 1680 280 1860 280 2150 280 2360 UnDC = 1700 V 150 360 150 480 165 550 180 840 210 980 210 1150 210 1220 210 1280 210 1380 210 1720 280 1840 280 2250 16 A for C solution. Standard box dimensions mm 250 x 386 x 190 mm 190 x 285 x 265 mm 190 x 285 x 325 mm 190 x 285 x 375 mm 335 x 220 x 375 20 22 2 Part. n. 416.84. Us = 1800 V A/C 5.0x.y A/C 5.1x.y A/C 5.1x.y A/C 5.2x.y A/C 5.4x.y F 5.5x.7 F 5.6x.7 F 5.6x.7 F 5.8x.7 F 5.8x.7 F 5.9x.7 F 5.9x.7 Us = 2600 V A/C 6.0x.y A/C 6.0x.y A/C 6.1x.y A/C 6.2x.y F 6.3x.7 F 6.3x.7 F 6.5x.7 F 6.6x.7 F 6.7x.7 F 6.8x.7 F 6.9x.7 F 6.9x.7 Us = 3250 V A/C 9.0x.y A/C 9.1x.y A/C 9.2x.y F 9.3x.7 F 9.4x.7 F 9.5x.7 F 9.5x.7 F 9.5x.7 F 9.6x.7 F 9.7x.7 F 9.8x.7 F 9.9x.7 Pcs. / box Box type 28 21 21 18 16 6 6 6 6 6 6 6 1 1 1 1 1 2 2 2 4 4 5 5 21 21 16 16 6 6 6 6 6 6 6 6 1 1 1 1 2 2 3 3 5 4 5 5 21 16 16 6 6 6 6 6 6 6 6 6 1 1 1 2 3 3 3 3 3 5 4 5 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 84 Series General technical information: maximum current (Imax) versus temperature. RMS working Current vs ambient temperature 1,3 RMS working Current / Imax 1,2 1,1 1,0 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 30 35 40 45 50 55 60 65 Ambient temperature (°C) Mechanical Configurations: A solution C solution M6 Screw-type bolts CODE: 41684.xxx.0 Code "y"=0 Double tag 6,3x0,8 mm CODE: 41684.xxx.2 Code "y"=2 21 23 2 D solution (*) M6 crew-type bolts / plastic top CODE: 41684.xxx.6 Code "y"=6 (*) For Ø=65mm, on request also for other different diameter. 70 Power Electronics Capacitors GENERAL PURPOSE CAPACITORS GP 84 Series F solution E solution (*) M6 crew-type bolts / plastic top CODE: 41684.xxx.5 Code "y"=5 M10 Screw-type bolts / plastic tops CODE: 41684.xxx.7 Code "y"=7 (*) For Ø=60mm, on request also for other different diameter. Overpressure safety device In order to ensure proper device operation, when the capacitor is installed, a clearance of at least the values given on drawing below must be left above terminals. 22 24 2 Power Electronics Capacitors DC CAPACITORS DC SERIES - DC-link capacitor Capacitors for power inverter in railway, welding and special applications by energy storage and filtering. FEATURES - Plastic, steel and aluminum case/can - Dry type - Internal thread, screw type bolts or tinned wires for PCB mounting TYPICAL APPLICATIONS - Traction and railway filtering ing - DC filtering - Welding - Special inverter GENERAL CHARACTERISTICS DC Voltage range Capacitance range Capacitance tolerance Test voltage between terminals Test voltage between terminals and case Operating Temperature Protection degree Filling Dielectric Case Life expectancy Installation Reference standard UL - CSA approved ( ) DC 500÷6800 V (*) 1÷15000 µF (*) ±10% ; ±5% ; +0% / –15% 1,5 x Un 10s 3 KVac 50 Hz - 10s –25 / +75 °C IP 00 Self-extinguishing (V0) polyurethane resin Self healing MKP dielectric with high performances (PPMd) Cylindrical aluminum case, self-extinguishing (V0) plastic box or stainless steel case 100.000 h Vertical / horizontal Standards IEC 1071-1/2; IEC 1881; UL 810 File n. 192559 (*) Standard values, other values on request. 23 25 2 Power Electronics Capacitors DC CAPACITORS NEW DCH High-Density / Temperature Series Up to 30% more density compared to standard ranges! DCH Series Capacitors are equipped with the new PPMdH High-Performance Film developed by Ducati Energia, which guarantees high capacity densities and high operating temperatures. • DCH85C – Cylindrical, High-Density, Low-Induction DC-Link Capacitor 60÷5600µF – 700÷2100Vdc, Page 27÷31 • DCH86PS – Boxed, High-Density, Very_Low-Induction DC-Link Capacitor 230÷2100µF -700÷2500Vdc, Page 32÷34 The New, DC-specific Metallized PPMdH Polypropylene Film is the result of Ducati Energia efforts to increase dielectric strength and temperature behavior respective to traditional Metallized Polypropylene Films. Respective to traditional Polypropylene Films, PPMdH provides • Increased Dielectric Strength: +25% The increased Dielectric Strength allows the use of thinner Polypropylene Films for the same Voltage Rating; the result is a higher Capacity [µF] / Volume [cm3] density as detailed in the product pages for DCH85C (pp 27÷31) and DCH86PS (pp 32÷34) and summarized in the diagram. • Increased Operating Temperature (HotSpot): +20°C The special metallization and higher crystallinity of the polypropylene increase the critical temperature for the film and decrease its ageing rate when used at high temperatures. Conventional Polypropylene Films reach maximum 100.000hrs of operation at 70°C HotSpot, whereas PPMdH reaches the same 100.000hrs at 90°C HotSpot. High Temperature Use: The DCH85C and DCH86PS product pages in this catalogue express the high capacity density application of the new PPMdH film; for the high-temperature application of the new PPMdH film, we kindly invite you to contact Ducati Energia. 26 2 Power Electronics Capacitors DC CAPACITORS H IG W RIE NEENSITY SE HD DCH 85 C SERIES: Dc - Link Capacitors / high density serie and low inductance in cylindrical can DC Voltage range Maximum ripple voltage Maximum ripple current Capacitance range Capacitance tolerance Series resistance (RS) Maximum Voltage rate of rise (dV/dT) Terminals Voltage test Climatic Ambient Temperature Working temperature (θMIN – θMAX) Storage temperature Filling New PP Dielectric Cylindrical case Failure quota Life expectancy Maximum altitude Reference standard Internal thread terminals M8 screw terminals M12 fixing bolt UL - CSA approved ( ) 700÷2100 V 1150 V 100 A Up to 5600 µF ±10% or ±5% < 4,5 mΩ 40 V/µs M6 internal threads M8 screw types bolts Utc= 3,5 kVac @50Hz 10s Utt= 1,5 x UnDC 10s –25 / +45 °C –25 / +85 °C –25 / +85 °C Dry polyurethane resin Self healing. PPMdh film Aluminum 50/10E9 100.000 h 2000 m a.s.l. IEC 1071-1/2 IEC 1881 UL 810 Max 3 Nm Max 6 Nm Max 12 Nm File n. E192559 Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. 24 27 2 Power Electronics Capacitors DC CAPACITORS DCH 85 C SERIES Capacitance Diameter Height Max. RMS Current Repet. Peak Current Surge Current Series Resistance Thermal Resistance Series Inductance Weight Pcs. / Box - Part number Cn [uF] Ø [mm] H [mm] IMAX [A] Ip [A] Is [kA] Rs [mΩ] RTHC [°C/W] Lesr [nH] [Kg] Box type 416.85.V. UnDC = 700 V Ur = 320 V Up = 1050 V Us = 1470V 480 75 105 25 1500 5,0 3,8 5,4 < 45 0,6 12 - A 009.x 750 75 140 30 2200 6,5 3,6 4,8 < 50 0,8 6-B 019.x 840 75 155 35 2200 7,0 3,0 4,6 < 60 0,9 6-B 029.x 980 85 140 35 3000 7,5 2,9 4,2 < 50 1,0 6-B 039.x 1.050 90 140 40 3000 8,0 2,8 4,0 < 50 1,1 6-B 045.x 1.100 85 155 40 3000 9,0 2,7 3,6 < 60 1,1 6-B 049.x 1.800 100 185 65 3700 11,0 1,6 2,6 < 60 1,8 6-C 055.x 2.500 116 185 70 4000 12,0 1,4 2,3 < 60 2,3 4-G 059.X 2.700 100 255 70 4200 13,0 1,2 2,3 < 75 2,4 6-D 069.x 3.700 116 255 75 5800 15,0 1,0 2,1 < 75 3,2 4-G 079.x 4.300 5.600 116 116 285 373 80 100 6700 10000 18,0 0,8 1,7 3,6 4-G 22,0 0,7 1,6 < 80 < 90 4,8 4-G 089.x 095.x UnDC = 900 V Ur = 550 V Up = 1350 V Us = 1900V 340 75 105 28 2200 6,6 3,9 5,4 < 45 0,6 12 - A 500 75 140 30 2800 8,4 3,7 4,8 < 50 0,8 6-B 119.x 600 75 155 35 3200 9,6 3,2 4,6 < 60 0,9 6-B 129.x 680 85 140 35 3300 10,0 3,1 4,2 < 50 1,0 6-B 135.x 780 90 140 40 3500 10,0 3,0 4,0 < 50 1,1 6-B 139.x 800 85 155 40 3800 11,5 2,9 3,6 < 60 1,1 6-B 149.x 1.300 100 185 65 5400 16,0 1,8 2,6 < 60 1,8 6-C 155.x 1.850 116 185 70 6600 20,0 1,7 2,3 < 60 2,3 4-G 159.x 2.000 100 255 70 7000 21,0 1,6 2,3 < 75 2,4 6-D 169.x 2.700 116 255 75 7100 21,0 1,3 2,1 < 75 3,2 4-G 179.x 3.200 116 285 85 8200 24,5 1,2 1,7 < 80 3,5 4-G 189.x 4.500 116 373 100 10000 28,0 1,0 1,6 < 90 4,6 4-G 195.x UnDC = 1100 V Ur = 700 V Up = 1650 V 109.x Us = 2300V 260 75 105 30 2200 6,7 4,1 5,4 < 45 0,7 12 - A 219.x 400 75 140 35 2400 7,1 3,8 4,8 < 50 0,8 6-B 239.x 520 85 140 35 3400 10,3 3,6 4,2 < 50 1,0 6-B 249.x 600 90 140 40 3600 10,3 3,5 4,0 < 50 1,1 6-B 259.x 680 90 155 40 3900 11,7 3,5 3,6 < 60 1,3 6-B 269.x 1.000 100 185 65 5300 15,8 2,2 2,6 < 70 1,8 6-C 279.x 1.400 116 185 70 7300 21,8 2,0 2,3 < 70 2,3 4-G 285.x 1.500 100 255 70 7800 23,3 1,9 2,3 < 75 2,4 6-D 289.x 1.750 100 285 75 8100 24,3 1,8 2,2 < 80 2,6 6-E 291.x 2.100 116 255 75 9900 29,7 1,4 2,1 < 75 3,2 4-G 293.x 2.300 100 373 100 10500 31,7 1,2 1,8 < 90 3,5 6-F 295.x 2.400 116 285 85 10000 30,0 1,5 1,7 < 80 3,6 4-G 297.x 3.200 116 373 100 11550 30,0 1,1 1,6 < 90 4,7 4-H 299.x UnDC = 1350 V Ur = 850 V Up = 2000 V Us = 2800V 170 75 105 30 2160 6,5 4,2 5,4 < 45 0,6 12 - A 250 75 140 35 3240 9,7 3,9 4,8 < 50 0,8 6-B 329.X 340 85 140 35 3960 11,9 3,7 4,2 < 50 1,0 6-B 339.X 380 85 155 40 4200 12,6 3,6 3,6 < 60 1,1 6-B 350.X 500 90 185 65 5200 16,0 3,1 2,8 < 70 1,5 6-C 355.X 640 100 185 65 5850 17,6 2,3 2,6 < 70 1,8 6-C 360.X 880 116 185 70 8100 24,3 2,1 2,3 < 70 2,4 4-G 365.X 960 100 255 70 8500 25,5 2,0 2,3 < 75 2,4 6-D 370.X 1.100 100 285 75 9200 27,6 1,9 2,2 < 80 2,6 6-E 380.X 1.350 116 255 75 11900 30,0 1,7 2,1 < 75 3,2 4-G 385.X 1.450 100 373 100 13500 32,0 1,3 1,8 < 90 3,5 6-F 389.X 1.550 116 285 85 12800 32,0 1,7 1,7 < 80 3,5 4-G 393.X 2.000 116 373 100 14400 32,0 1,3 1,6 < 90 4,4 4-H 398.X 28 2 319.X Power Electronics Capacitors DC CAPACITORS DCH 85 C SERIES Ω 480 120 75 105 25 30 1500 2160 140 30 35 2200 3240 3,8 4,3 3,6 4,0 5,4 5,4 4,8 < 50 0,6 0,6 0,8 12 12 -- A A 6-B 009.x 419.x 75 5,0 6,5 6,5 9,7 < 45 750 180 840 230 75 85 155 140 35 2200 4000 7,0 12,0 3,0 3,9 4,6 4,2 < 60 50 0,9 1,0 6-B 029.x 430.x 980 260 85 140 155 35 40 3000 4200 7,5 12,0 2,9 3,8 4,2 4,0 < 50 1,0 1,2 6-B 039.x 435.x 1.050 350 90 140 185 40 3000 4480 8,0 13,5 2,8 3,7 4,0 3,6 < 50 60 1,1 1,5 6-B 045.x 440.x 1.100 450 85 100 155 185 40 65 3000 7200 9,0 21,6 2,7 2,3 3,6 2,6 < 60 70 1,1 1,8 6-C B 049.x 450.x 530 1.800 90 100 255 185 70 65 8500 3700 11,0 25,0 1,6 2,2 2,6 2,4 70 < 60 1,8 2,3 66-- D C 453.x 055.x 620 2.500 116 185 70 9750 4000 12,0 29,5 1,4 2,2 2,3 70 < 60 2,3 2,4 4-G 455.x 059.X 680 2.700 100 255 70 9800 4200 13,0 30,0 1,2 2,1 2,3 < 75 2,4 2,5 6-D 460.x 069.x 780 3.700 100 116 285 255 75 11200 5800 15,0 32,0 1,0 2,0 2,1 2,2 < 75 80 3,2 2,7 46 - G E 470.x 079.x 930 4.300 5.600 1.000 116 116 100 255 285 373 75 80 100 12740 6700 10000 12600 32,0 18,0 1,8 0,8 2,1 1,7 3,2 3,6 4-G 22,0 32,0 0,7 1,3 1,6 1,8 75 < 80 < 90 4,8 3,5 46 - G F 475.x 089.x 095.x 485.x 1.100 116 285 85 13800 32,0 1,8 1,7 < 80 3,6 4-G 489.x 340 1.400 75 116 105 373 28 100 2200 14500 6,6 32,0 3,9 1,4 5,4 1,6 < 45 90 0,6 4,7 12 4 --HA 109.x 495.x 500 75 140 30 2800 8,4 3,7 4,8 < 50 0,8 6-B 119.x 600 85 680 130 75 75 85 75 155 105 140 140 35 30 35 35 3200 2250 3300 2940 140 140 155 155 40 35 40 40 3500 3600 3800 4200 4,6 5,4 4,2 4,8 0,9 0,6 1,0 0,8 6 --BA 12 6 6 -- B B 129.x 519.x 135.x 520.x 90 85 85 85 3,2 4,4 3,1 4,1 < < 60 45 < < 50 50 780 170 800 200 9,6 6,5 10,0 9,7 1.300 230 1.850 330 100 90 116 100 185 155 185 185 65 45 70 65 5400 5000 6600 7000 10,0 12,0 11,5 13,5 3,0 4,0 2,9 3,8 1,8 3,4 4,0 4,2 3,6 3,6 2,6 3,3 1,1 1,0 1,1 1,1 1,8 1,2 6 6 -- B B 6 6 -- B B 6 6 -- C B 2.000 380 2.700 450 100 90 116 116 255 255 255 185 70 70 75 70 7000 7500 7100 8460 1,7 2,3 1,6 2,2 2,3 2,6 2,3 2,4 2,3 1,9 2,4 2,1 4 6 -- G C 66-- D D 3.200 500 4.500 570 116 100 116 100 285 255 373 285 85 70 100 75 8200 9000 10000 9600 1,3 2,3 1,2 2,2 1,0 2,0 2,1 2,3 1,7 2,3 1,6 2,2 3,2 2,4 3,5 2,4 4,6 2,6 4 -- G G 4 4 6 -- G D 16,0 15,0 20,0 21,6 21,0 25,0 21,0 29,5 24,5 30,0 28,0 32,0 < < 50 50 < < 60 60 < 60 60 < < 70 60 < < 75 < 70 < 70 75 < < 75 80 < < 90 < 80 019.x 420.x 139.x 530.x 149.x 540.x 155.x 545.x 159.x 550.x 169.x 557.x 4 6 -- G E 179.x 555.x 189.x 560.x 195.x 570.x 680 116 255 75 11200 32,0 1,9 2,1 < 75 3,2 4-G 575.x 260 740 75 100 105 373 30 100 2200 12000 6,7 32,0 4,1 1,4 5,4 1,8 45 < 90 0,7 3,3 12 6 --FA 219.x 580.x 400 780 75 116 140 285 35 85 2400 13120 7,1 32,0 3,8 1,9 4,8 1,7 50 < 80 0,8 3,6 B 46 - G 239.x 585.x 520 1.030 600 85 116 90 140 373 140 35 100 40 3400 14700 3600 10,3 32,0 10,3 3,6 1,4 3,5 4,2 1,6 4,0 < < 50 90 < 50 1,0 4,6 1,1 6 -- H B 4 6-B 249.x 598.x 259.x 680 60 1.000 90 1.400 125 1.500 145 1.750 160 2.100 210 2.300 90 75 100 75 116 85 100 85 100 90 116 100 100 155 105 185 140 185 140 255 155 285 155 255 185 373 40 30 65 35 70 35 70 40 75 45 75 65 100 3900 2100 5300 3000 7300 3375 7800 3450 8100 3900 9900 4800 10500 11,7 6,5 15,8 9,7 21,8 12,0 23,3 13,5 24,3 15,0 29,7 21,6 31,7 3,5 4,5 2,2 4,2 2,0 4,1 1,9 3,9 1,8 3,4 1,4 2,3 1,2 3,6 5,4 2,6 4,8 2,3 4,2 2,3 3,6 2,2 3,3 2,1 2,6 1,8 < 60 < 45 < 70 < 50 < 70 < 50 < 75 < 60 < 80 < 60 < 75 < 90 70 < 1,3 0,6 1,8 0,8 2,3 1,0 2,4 1,1 2,6 1,3 3,2 1,5 3,5 6-B 12 - A 6-C 6-B 4-G 6-B 6-D 6-B 6-E 6-B 4-G 6 6 -- C F 269.x 610.x 279.x 620.x 285.x 630.x 289.x 640.x 291.x 645.x 293.x 650.x 295.x 290 2.400 320 3.200 255 285 185 373 255 70 85 70 100 70 6500 10000 6800 11550 360 90 116 116 116 100 7400 25,0 30,0 29,5 30,0 30,0 2,1 1,5 2,2 1,1 2,1 2,4 1,7 2,3 1,6 2,3 < < 70 80 < 90 70 < < 75 2,2 3,6 2,4 4,7 2,3 46-- D G 4 4 -- G H 6-D 653.x 297.x 655.x 299.x 660.x 420 170 510 250 540 340 580 380 760 500 100 75 116 75 100 85 116 85 116 90 285 105 255 140 373 140 285 155 373 185 75 30 75 35 100 35 85 40 100 65 9600 2160 10750 3240 11500 3960 12500 4200 14400 5200 32,0 6,5 32,0 9,7 32,0 11,9 32,0 12,6 32,0 16,0 2,0 4,2 2,0 3,9 1,4 3,7 1,9 3,6 1,5 3,1 2,2 5,4 2,1 4,8 1,8 4,2 1,7 3,6 1,6 2,8 < 80 < 45 < 75 < 50 < 90 < 50 < 80 < 60 < 90 < 70 2,7 0,6 3,3 0,8 3,5 1,0 3,6 1,1 4,7 1,5 6-E 12 - A 4-G 6-B 6-F 6-B 4-G 6-B 4-H 6-C 670.x 319.X 675.x 329.X 680.x 339.X 685.x 350.X 698.x 355.X 640 100 185 65 5850 17,6 2,3 2,6 < 70 1,8 6-C 360.X 880 116 185 70 8100 24,3 2,1 2,3 < 70 2,4 4-G 365.X 960 100 255 70 8500 25,5 2,0 2,3 < 75 2,4 6-D 370.X 1.100 100 285 75 9200 27,6 1,9 2,2 < 80 2,6 6-E 380.X 1.350 116 255 75 11900 30,0 1,7 2,1 < 75 3,2 4-G 385.X 1.450 100 373 100 13500 32,0 1,3 1,8 < 90 3,5 6-F 389.X 1.550 116 285 85 12800 32,0 1,7 1,7 < 80 3,5 4-G 393.X 2.000 116 373 100 14400 32,0 1,3 1,6 < 90 4,4 4-H 398.X 29 2 5 Power Electronics Capacitors DC CAPACITORS Mechanical standard configuration: B solution A solution M8 screw-type bolts Code "x" = 1 Internal thread M6 Code "x" = 0 Diameter Ø A spacing Type of terminal s [mm] [mm] From 75 to 100 32 M6 female / M8 male 90 45 (*) M6 female / M8 male 116 50 M6 female / M8 male (*) Available also in the dimension: 32 - 50 mm Insulation spacing Surface [mm] 36 49 54 Air [mm] 20 33 38 Terminal type on request: Two different terminals height for special BUS BAR coupling. Available M8 internal thread on the same terminal dimension. 30 2 Power Electronics Capacitors DC CAPACITORS DCH 85 C Series Box Type Box Type Dimensions A mm 190 x 285 x 280 B mm 190 x 285 x 200 C mm 220 x 335 x 265 D mm 220 x 335 x 325 E mm 220 x 335 x 375 F mm 220 x 335 x 450 G mm 270 x 270 x 380 H mm 270 x 270 x 450 RMS working Current vs ambient temperature Mechanical Configurations 1,3 RMS working Current / Imax (A) 1,2 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 40,0 45,0 50,0 55,0 60,0 65,0 70,0 75,0 Ambient temperature (°C) A solution B solution Internal Thread M6 Code “x” = 0 M8 Screw-type bolts Code “x” = 1 27 31 2 Ø CAP. [mm] I [mm] 75 ÷ 100 32 ± 0,5 116 50 ± 0,5 Power Electronics Capacitors DC CAPACITORS H IG W RIE NEENSITY SE HD DCH 86 PS SERIES: Dc - Link Capacitors / high density and low inductance serie in box case DC Voltage range Maximum ripple current Capacitance range Capacitance tolerance Thermal resistance natural cooling (RTHc) Equivalent series inductance (LESR) Terminals 700÷2500 V 165 A Up to 2100 µF ±10% 2.60 °C/W < 30 nH M8 x 15 internal threads Test voltage Utc= 4.5 kVac @50 Hz 60s Utt= 1.5 x UnDC 10s Climatic Ambient Temperature Working temperature (θMIN – θMAX) –25 / +45 °C –25 / +85 °C –25 / +85 °C Storage temperature Filling Self-extinguishing (UL94 V0) polyurethane resin New PP Dielectric Self healing PPMdh film Container Self-extinguishing (UL94 V0) plastic box Failure quota Life expectancy Maximum altitude 50/10E9 100.000 h 2000 m a.s.l. Reference standard IEC 1071-1/2 IEC 1881 UL 810 M8 internal thread terminals Fixing slots Max 4 Nm Max 10 Nm UL - CSA approved ( File n. E192559 ) Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. 34 32 2 Power Electronics Capacitors DC CAPACITORS DCH86 PS SERIES Thermal Resistance Weight Part number RTHS [°C/W] [kg] 416.86.V.xxxx < 0,48 2,60 < 4,5 1095 26,0 < 0,50 2,60 < 4,5 1595 25,0 < 0,55 2,60 < 4,5 2095 23,0 < 0,59 2,60 < 4,5 2595 21,5 < 0,66 2,60 < 4,5 3095 10.640 20,5 < 0,73 2,60 < 4,5 3595 10.500 19,0 < 0,85 2,60 < 4,5 4095 18,5 < 0,89 2,60 < 4,5 4595 14,5 < 0,98 2,60 < 4,5 5095 Capacitance Rated DC Voltage Repet. Peak Voltage Surge Voltage Max. RMS Current Repet. Peak Current Surge Current Cn [uF] Un [V] Up [KV] Us [KV[ IMAX [A] Ip [A] Is [kA] 2.100 700 1,1 1,2 165 15.000 28,0 1.500 850 1,0 1,5 155 13.800 1.150 1100 1,7 2,3 150 12.000 750 1250 1,9 2,625 140 11.400 600 1400 2,1 2,9 130 11.000 500 1600 2,4 3,36 120 380 1800 2,7 3,8 120 300 2100 3,2 4,5 110 9.660 230 2500 3,8 4,5 100 8.200 NOTES: (Cn) (Cn) - (Un) (Rs) (RTHS) (IMAX) Tollerance standard value: ±10%. Other tollerance values on request. Capacitance and rated voltage standard values, other values on request. Releted at 1KHz. Thermal resistance AMBIENT - HOT SPOT (air forced cooling system) Maximum RMS Current @ 50°C ambient temperature 33 2 Series Resistance Ω Power Electronics Capacitors DC CAPACITORS MECHANICAL SOLUTION: Box TYPE Creepage distance (mm) Clearance distance (mm) 35 35 Standard box dimensions: No. pieces per box: 34 2 mm 450 x 470 x 220 8 Power Electronics Capacitors DC CAPACITORS DC 82 P SERIES: Dc - Link and Snubber Capacitor in plastic box case - lead terminals for PCB mounting DC Voltage range Maximum ripple voltage Maximum ripple current Capacitance range Capacitance tolerance Series resistance (RS) Maximum Voltage rate of rise (dV/dT) Lead terminal (2 or 4 pin version) 450÷1200 V 700 V 21 A Up to 80 µF ±10% or ±5% < 10 m Ω 100 V/µs Tinner copper lead for PCB mounting Voltage test Utc= 3,5 kVac @50Hz 10s Utt= 1,5 x UnDC 10s –25 / +60 °C –25 / +105 °C –25 / +85 °C Dry epoxy resin UL94V0 Self healing PPMd film PBT plastic box 100 /10E9 100.000 h (**) 2000 m a.s.l. IEC 1071-1/2 IEC 1881 UL 810 Climatic Ambient Temperature Operating temperature (θMIN – θMAX) Storage temperature Filling Dielectric Case Failure quota Life expectancy Maximum altitude Reference standard (**) For details please refer to page 10 24 35 2 Power Electronics Capacitors DC CAPACITORS DC82 P SERIES - STANDARD TYPE RATED DC Voltage [UnDC] = 450V Capacitance Box dimension (1) Repetitive Peak Voltage [Up] =670V Pin (3) (4) Surge Voltage [Us] = 900V Ip[KA] ESR Part number [g] 416.82.3 (5) W [mm] H [mm] L [mm] P1 [mm] P2 [mm] Ø D [mm] 2 Pins 4 Pins Repetitive 10,0 12,0 16,0 12,0 20,0 28,0 34,0 50,0 75,0 17 28 42,5 37,5 - 0,8 9,0 - 0,70 < 10,5 30 10x 19 32 41,5 37,5 - 0,8 12,0 - 0,72 < 8,5 30 12x 22 30 42,5 37,5 10,2 0,8 - 1,0 11,0 11,5 0,96 < 7,5 40 16x 22 37 32 27,5 10,2 0,8 - 1,0 12,0 13,0 0,66 < 6,0 30 12x 22 33,5 42,5 37,5 10,2 0,8 - 1,0 12,0 13,0 0,70 < 5,5 40 20x 28 37 42,5 37,5 10,2 0,8 - 1,0 15,0 16,0 0,84 < 5,0 50 28x 30 45 42,5 37,5 20,3 1,2 17,0 18,5 0,51 < 5,0 70 34x 30 45 57,5 52,5 20,3 1,2 15,5 16,5 0,65 < 4,5 90 50x 35 50 57,5 52,5 20,3 1,2 19,0 20,5 0,98 < 4,5 120 75x RATED DC Voltage [UnDC] = 700V 8,0 10,0 14,0 10,0 14,0 22,0 28,0 40,0 55,0 Box dimension 6,5 8,0 10,0 8,0 10,0 16,0 22,0 34,0 45,0 H [mm] L [mm] P1 [mm] P2 [mm] Ø D [mm] 2 Pins 4 Pins Repetitive 17 28 42,5 37,5 - 0,8 - 1,0 9,0 - 0,56 < 13,0 30 08x 19 32 41,5 37,5 - 0,8 - 1,0 12,0 - 0,60 < 12,5 30 10x 22 30 42,5 37,5 10,2 0,8 - 1,0 11,0 11,5 0,84 < 10,5 40 14x 22 37 32 27,5 10,2 0,8 - 1,0 12,0 13,0 0,55 < 8,5 30 10x 22 33,5 42,5 37,5 10,2 0,8 - 1,0 12,0 13,0 0,49 < 7,5 40 14x 28 37 42,5 37,5 10,2 0,8 - 1,0 15,0 16,0 0,66 < 6,0 50 22x 30 45 42,5 37,5 20,3 1,2 17,0 18,5 0,42 < 5,5 70 28x 30 45 57,5 52,5 20,3 1,2 15,0 15,5 0,60 < 5,0 90 40x 35 50 57,5 52,5 20,3 1,2 19,0 20,5 0,72 < 4,5 120 55x Box dimension 5,0 7,0 8,5 6,5 10,0 14,0 18,0 28,0 35,0 [m ] (2) [g] 416.82.5 (5) W [mm] Repetitive Peak Voltage [Up] =1200V Surge Voltage [Us] = 1600V IRMS [A] (4) Part number Pin Ip[KA] ESR Weight (3) W [mm] H [mm] L [mm] P1 [mm] P2 [mm] Ø D [mm] 2 Pins 4 Pins Repetitive [g] 416.82.6. (5) 17 28 42,5 37,5 - 0,8 - 1,0 8,0 - 0,49 < 32,0 30 06x 19 32 41,5 37,5 - 0,8 - 1,0 10,0 - 0,52 < 20,0 30 08x 22 30 42,5 37,5 10,2 0,8 - 1,0 9,5 10,5 0,65 < 13,0 40 10x [m ] (2) 22 37 32 27,5 10,2 0,8 - 1,0 10,0 11,0 0,48 < 12,5 30 08x 22 33,5 42,5 37,5 10,2 0,8 - 1,0 10,0 11,0 0,40 < 10,5 40 10x 28 37 42,5 37,5 10,2 0,8 - 1,0 11,0 12,0 0,56 < 8,5 50 16x 30 45 42,5 37,5 20,3 1,2 15,5 16,5 0,44 < 7,5 70 22x 30 45 57,5 52,5 20,3 1,2 14,5 16,0 0,51 < 6,0 90 34x 35 50 57,5 52,5 20,3 1,2 17,0 18,0 0,59 < 5,0 120 45x RATED DC Voltage [UnDC] = 900V Capacitance Cn [µF] (2) Repetitive Peak Voltage [Up] =1050V Surge Voltage [Us] = 1400V IRMS [A] (4) Pin Ip[KA] ESR Weight Part number (3) RATED DC Voltage [UnDC] = 800V Capacitance (1) Cn [µF] ±10% [m ] Weight Cn [µF] ±10% Capacitance (1) Cn [µF] ±10% (1) (2) (3) (4) (5) IRMS [A] Box dimension (1) Repetitive Peak Voltage [Up] =1350V Surge Voltage [Us] = 1800V IRMS [A] (4) Pin Ip[KA] ESR Weight Part number (3) W [mm] H [mm] L [mm] P1 [mm] P2 [mm] Ø D [mm] 2 Pins 4 Pins Repetitive 17 28 42,5 37,5 - 0,8 - 1,0 9,0 - 0,40 [m ] < 35,0 30 05x 19 32 41,5 37,5 - 0,8 - 1,0 9,0 - 0,49 < 20,0 30 07x 22 30 42,5 37,5 10,2 0,8 - 1,0 8,0 8,5 0,60 < 13,0 40 08x 22 37 32 27,5 10,2 0,8 - 1,0 9,5 10,5 0,43 < 14,0 30 06x 22 33,5 42,5 37,5 10,2 0,8 - 1,0 11,0 11,5 0,45 < 12,5 40 10x 28 37 42,5 37,5 10,2 0,8 - 1,0 12,0 13,0 0,56 < 9,5 50 14x 30 45 42,5 37,5 20,3 1,2 14,0 16,0 0,36 < 8,0 70 18x 30 45 57,5 52,5 20,3 1,2 13,0 13,5 0,42 < 7,0 90 28x 35 50 57,5 52,5 20,3 1,2 16,0 17,0 0,53 < 6,0 120 35x (2) [g] 416.82.7. (5) Intermediate capacitance values available on request. Equivalent series resistance @5KHz - referred to 4 pins configuration, when available. Standard box dimension, other type on request. Maximum RMS current at 5kHz Last three digit of the code according to: capacitance and tolerance value, mechanical configuration and terminals DC82 P SERIES - STANDARD TYPE - RATED DC Voltage [Un ] = 1100V 36 2 Repetitive Peak Voltage [Up] =1650V Surge Voltage [Us] = 2200V (2) Equivalent series resistance @5KHz - referred to 4 pins configuration, when available. (2) Equivalent series resistance @5KHz - referred to 4 pins configuration, when available. (3) Standard box dimension, other type on request. (3) Standard box dimension, other type on request. (4) Maximum RMS current at 5kHz (4) RMS at 5kHz (5)Maximum Last three digitcurrent of the code according to: capacitance and tolerance value, mechanical configuration and terminals (5) Last three digit of the code according to: capacitance and tolerance value, mechanical configuration and terminals Power Electronics Capacitors DC CAPACITORS DC82PPSERIES SERIES - STANDARD TYPE DC82 - STANDARD TYPE RATEDDC DCVoltage Voltage[Un [UnDC ] = 1100V RATED DC] = 1100V Capacitance (1) Capacitance (1) Cn [" F] Cn [µF] 3,5 3,5 4,5 4,5 6,0 6,0 4,5 4,5 6,5 6,5 10,0 10,0 12,0 12,0 18,0 18,0 26,0 26,0 W [mm] W [mm] 17 17 19 19 22 22 22 22 22 22 28 28 30 30 30 30 35 35 Repetitive Peak Voltage [Up] =1650V Surge Voltage [Us] = 2200V Repetitive Peak Voltage [Up] =1650V Surge Voltage [Us] = 2200V I [A] (4) Pin Ip[KA] ESR Weight Part number IRMSRMS[A] (4) Pin Ip[KA] ESR Weight Part number Box dimension (3) Box dimension (3) H [mm] H [mm] 28 28 32 32 30 30 37 37 33,5 33,5 37 37 45 45 45 45 50 50 L [mm] L [mm] 42,5 42,5 41,5 41,5 42,5 42,5 32 32 42,5 42,5 42,5 42,5 42,5 42,5 57,5 57,5 57,5 57,5 P1 [mm] P2 [mm] Ø D [mm] 2 Pins P1 [mm] P2 [mm] Ø D [mm] 2 Pins 37,5 37,5 37,5 37,5 37,5 37,5 27,5 27,5 37,5 37,5 37,5 37,5 37,5 37,5 52,5 52,5 52,5 52,5 - - 10,2 10,2 10,2 10,2 10,2 10,2 10,2 10,2 20,3 20,3 20,3 20,3 20,3 20,3 RATEDDC DCVoltage Voltage[Un [UnDC ] = 1200V RATED DC] = 1200V Capacitance (1) Capacitance (1) Cn [" F] Cn [µF] 3,0 3,0 3,5 3,5 5,5 5,5 3,0 3,0 5,0 5,0 7,5 7,5 12,0 12,0 16,0 16,0 22,0 22,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 0,8 - 1,0 1,2 1,2 1,2 1,2 1,2 1,2 6,5 6,5 8,0 8,0 6,5 6,5 8,0 8,0 9,5 9,5 11,0 11,0 13,0 13,0 14,0 14,0 15,0 15,0 4 Pins Repetitive [m! ] (2) 4 Pins Repetitive [m ] (2) - - 7,0 7,0 8,5 8,5 10,0 10,0 12,0 12,0 14,0 14,0 14,5 14,5 16,0 16,0 [g] [g] 30 30 30 30 40 40 30 30 40 40 50 50 70 70 90 90 120 120 416.82.8. (5) 416.82.8. (5) 03x 03x 04x 04x 06x 06x 04x 04x 06x 06x 10x 10x 12x 12x 18x 18x 23x 23x RMS W [mm] W [mm] H [mm] H [mm] L [mm] L [mm] P1 [mm] P2 [mm] Ø D [mm] 2 Pins P1 [mm] P2 [mm] Ø D [mm] 2 Pins [g] [g] 416.82.9. (5) 416.82.9. (5) 1717 1919 2828 3232 42,5 42,5 41,5 41,5 37,5 37,5 37,5 37,5 - - - - 1,0 0,80,8 - 1,0 - 1,0 0,80,8 - 1,0 6,56,5 8,08,0 - - - 0,30 0,30 0,35 0,35 < 45,0 < 45,0 < 25,0 < 25,0 3030 3030 03x03x 03x03x 2222 2222 3030 3737 42,5 42,5 3232 37,5 37,5 27,5 27,5 10,2 10,2 10,2 10,2 - 1,0 0,80,8 - 1,0 0,8 - 1,0 0,8 - 1,0 6,56,5 8,08,0 7,07,0 8,58,5 0,55 0,55 0,30 0,30 < 15,0 < 15,0 < 18,0 < 18,0 4040 3030 05x05x 03x03x 2222 2828 33,5 33,5 3737 42,5 42,5 42,5 42,5 37,5 37,5 37,5 37,5 10,2 10,2 10,2 10,2 - 1,0 0,80,8 - 1,0 0,8 0,8 - 1,01,0 9,59,5 11,0 11,0 10,0 10,0 12,0 12,0 0,30 0,30 0,38 0,38 < 15,0 < 15,0 < 10,5 < 10,5 4040 5050 05x05x 07x07x 3030 3030 4545 4545 42,5 42,5 57,5 57,5 37,5 37,5 52,5 52,5 20,3 20,3 20,3 20,3 1,21,2 1,21,2 13,0 13,0 14,0 14,0 14,0 14,0 14,5 14,5 0,30 0,30 0,40 0,40 < 9,0 < 9,0 < 8,5 < 8,5 7070 9090 12x12x 16x16x 3535 5050 57,5 57,5 52,5 52,5 20,3 20,3 1,21,2 15,0 15,0 16,0 16,0 0,55 0,55 < 7,0 < 7,0 120 120 22x22x Specific reference Specific referencedata dataatat85°C 85°Cworking workingtemperature temperature For different temperature, For different temperature,please pleasesee seethe thefollowing followingderatiting: deratiting: Temp. Temp. 7070°C°C 8585°C°C 105°C°C 105 < 42,0 < 42,0 < 23,0 < 23,0 < 15,0 < 15,0 < 16,5 < 16,5 < 14,0 < 14,0 < 10,0 < 10,0 < 8,5 < 8,5 < 8,0 < 8,0 < 6,5 < 6,5 Repetitive Peak Voltage [Up] =1800V SurgeVoltage Voltage [Us] = 2400V Repetitive Peak Voltage [Up] =1800V Surge [Us] = 2400V Pin Ip[KA] ESR Weight Part Part number I IRMS[A][A](4)(4) Pin Ip[KA] ESR Weight number Box dimension(3)(3) Box dimension 4 Pins Repetitive [m! ] (2) 4 Pins Repetitive [m ] (2) (1)(1)Intermediate capacitance Intermediate capacitancevalues valuesavailable availableononrequest. request. (2)(2)Equivalent series Equivalent seriesresistance resistance@5KHz @5KHz- referred - referredtoto4 4pins pinsconfiguration, configuration,when whenavailable. available. (3)(3)Standard box Standard boxdimension, dimension,other othertype typeononrequest. request. (4)(4)Maximum RMS Maximum RMScurrent currentatat5kHz 5kHz (5)(5)Last three digit Last three digitofofthe thecode codeaccording accordingto:to:capacitance capacitanceand andtolerance tolerancevalue, value,mechanical mechanicalconfiguration configurationand andterminals terminals Uop Uop Un Un DCDC Uop Uop 0,34 0,34 0,43 0,43 0,57 0,57 0,36 0,36 0,36 0,36 0,45 0,45 0,28 0,28 0,42 0,42 0,52 0,52 [V][V] 500 500 450 450 300 300 [V][V] 800 800 700 700 500 500 [V][V] 900 900 800 800 550 550 [V][V] 1100 1100 900 900 650 650 Mechanical configuration pins): Mechanical configuration (4 (4 pins): 4 pin version 4 pin version [V][V] 1350 1350 1100 1100 800 800 2 pin version 2 pin version Typicallead leadversion: version: Typical Version Diameter High High Spacing(*)(*) Version Diameter (*)(*) Spacing pin P1 P1(mm) (mm) P2P2(mm) (mm) ØD ØD (mm) A A (mm) # #pin (mm) (mm) 27,5/ 37,5 / 37,5 0,8- 1,0 - 1,0 22 27,5 - 0,8 66 27,5/ 37,5 / 37,5 10,2 0,8- 1,0 - 1,0 44 27,5 10,2 0,8 66 37,5/ 52,5 / 52,5 20,3 1,2 44 37,5 20,3 1,2 66 (*)(*)Typical values onon request Typicaldimension dimensionand andconfiguration, configuration,other other values request Mounting guidelines Solder Solderbath bathtemperature temperature235 235±5±5°C°C Soldering << 10,2 mm) Solderingtime time2.0 2.0±0.5 ±0.5s s(for (forlead leadspacings spacings 10,2 mm) Immersion body oror seating plane Immersiondepth depth2.0 2.0+0/! +0/! 0.5 0.5mm mmfrom fromcapacitor capacitor body seating plane [V][V] 1500 1500 1200 1200 850 850 37 2 Typical lead version: Version Diameter High (*) Spacing (*) Power Electronics Capacitors # pin P1 (mm) P2 (mm) ØD (mm) A (mm) 2 27,5 / 37,5 0,8 - 1,0 6 4 27,5 / 37,5 10,2 0,8 - 1,0 6 4 37,5 / 52,5 20,3 1,2 6 (*) Typical dimension and configuration, other values on request DC CAPACITORS Mounting guidelines Solder bath temperature 235 ±5 °C Soldering time 2.0 ±0.5 s (for lead spacings < 10,2 mm) Immersion depth 2.0 ±0.5 mm from capacitor body or seating plane The solderability of terminal leads is tested to IEC 60068-2-20, test Ta, method 1. FIT vs Hot Spot Temperature DC 82 P serie 10.000 -9 FIT [10 comp. x hour] DUCATI recommends the following conditions: Pre-heating with a maximum temperature of 110 °C, Temperature inside the capacitor should not exceed 110 °C 1.000 105°C 85°C 100 70°C 55°C 10 0,6 0,7 0,8 0,9 1,0 1,1 1,2 1,3 1,4 Operating Voltage [U/Un] Operating Voltage [U/Un] Expected Lifetime vs Voltage and Hot spot temperature DC 82P serie 1,4 55°C 1,3 70°C 1,2 85°C 1,1 105°C 1,0 0,9 0,8 0,7 10 100 1.000 10.000 100.000 Expected Lifetime [h] 38 2 1.000.000 Power Electronics Capacitors Power Electronics Capacitors DC DC CAPACITORS CAPACITORS DC 85 C SERIES: Dc - Link Capacitors in cylindrical can DC Voltage range Maximum ripple voltage Maximum ripple current Capacitance range Capacitance tolerance Series resistance (RS) Maximum Voltage rate of rise (dV/dT) Terminals Voltage test Climatic Ambient Temperature temperature (θMIN – θMAX) Storage temperature Filling Dielectric Cylindrical case Failure quota Life expectancy Maximum altitude Reference standard Internal thread terminals M8 screw terminals M12 fixing bolt UL - CSA approved ( ) 550÷1800 V 1150 V 100 A Up to 4450 µF +0% / –15% < 4,5 mΩ 40 V/µs M6 internal threads M8 screw types bolts Utc= 3,5 kVac @50Hz 10s Utt= 1,5 x UnDC 10s –25 / +45 °C –25 / + 5 °C –25 / +85 °C Dry polyurethane resin Self healing PPMd film Aluminum /10E9 100.000 h 2000 m a.s.l. IEC 1071-1/2 IEC 1881 UL 810 Max 3 Nm Max 6 Nm Max 12 Nm Fi Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. (**) For details please refer to page 10 24 39 2 Power Electronics Capacitors DC CAPACITORS DC85 C SERIES Capacitance Cn [uF] Diameter Height Max. RMS Current Repet. Peak Current Surge Current Series Resistance Thermal Resistance Series Inductance Weight Pcs. / Box - Part number Ø [mm] H [mm] IMAX [A] Ip [A] Is [kA] Rs [mΩ] RTHC [°C/W] Lesr [nH] [Kg] Box type 416.85. Un [V] = 550VDC Ur [V] = 230V Up [V] = 850V Us [V] = 1160V 500 75 105 25 1500 5,0 3,8 5,4 < 45 0,6 12 - A L09.x 760 75 140 30 2200 6,5 3,6 4,8 < 50 0,8 6-B L19.x 870 75 155 35 2200 7,0 3,0 4,6 < 60 0,9 6-B L29.x 1.000 85 140 35 3000 7,5 2,9 4,2 < 50 1,0 6-B L39.x 1.150 85 155 40 3000 9,0 2,7 3,6 < 60 1,1 6-B L49.x 1.850 100 185 65 3700 11,0 1,6 2,6 < 60 1,8 6-C L55.x 2.550 116 185 70 4000 12,0 1,4 2,3 < 60 2,3 4-G L59.X 2.800 100 255 70 4200 13,0 1,2 2,3 < 75 2,4 6-D L69.x 3.900 116 255 75 5800 15,0 1,0 2,1 < 75 3,2 4-G L79.x 4.450 116 285 80 6700 18,0 0,8 1,7 < 80 3,6 4-G L89.x Un [V] = 700VDC Ur [V] = 320V Up [V] = 1050V Us [V] = 1470V 370 75 105 28 2200 6,6 3,9 5,4 < 45 0,6 12 - A 009.x 560 75 140 30 2800 8,4 3,7 4,8 < 50 0,8 6-B 019.x 640 75 155 35 3200 9,6 3,2 4,6 < 60 0,9 6-B 029.x 740 85 140 35 3300 10,0 3,1 4,2 < 50 1,0 6-B 039.x 830 90 140 40 3500 10,0 3,0 4,0 < 50 1,1 6.B 039.x 850 85 155 40 3800 11,5 2,9 3,6 < 60 1,1 6-B 049.x 1.350 100 185 65 5400 16,0 1,8 2,6 < 60 1,8 6-C 055.x 1.900 116 185 70 6600 20,0 1,7 2,3 < 60 2,3 4-G 059.x 2.350 100 255 70 7000 21,0 1,6 2,3 < 75 2,4 6-D 069.x 2.850 116 255 75 7100 21,0 1,3 2,1 < 75 3,2 4-G 079.x 3.300 116 285 85 8200 24,5 1,2 1,7 < 80 3,5 4-G 089.x Un [V] = 900VDC Ur [V] = 550V Up [V] = 1350V Us [V] = 1900V 280 75 105 30 2200 6,7 4,1 5,4 < 45 0,7 12 - A 119.x 430 75 140 35 2400 7,1 3,8 4,8 < 50 0,8 6-B 139.x 570 85 140 35 3400 10,3 3,6 4,2 < 50 1,0 6-B 149.x 620 90 140 40 3600 10,3 3,5 4,0 < 50 1,1 6-B 159.x 650 85 155 40 3900 11,7 3,5 3,6 < 60 1,1 6-B 169.x 1.050 100 185 65 5300 15,8 2,2 2,6 < 70 1,8 6-C 179.x 1.450 116 185 70 7300 21,8 2,0 2,3 < 70 2,3 4-G 185.x 1.550 100 255 70 7800 23,3 1,9 2,3 < 75 2,4 6-D 189.x 1.800 100 285 75 8100 24,3 1,8 2,2 < 80 2,6 6-E 191.x 2.200 116 255 75 9900 29,7 1,4 2,1 < 75 3,1 4-G 193.x 2.350 100 373 100 10500 31,7 1,2 1,8 < 90 3,4 6-F 195.x 2.500 116 285 85 10000 30,0 1,5 1,7 < 80 3,5 4-G 197.x 3.300 116 373 100 11550 30,0 1,1 1,6 < 90 4,6 4-H 199.x Un [V] = 1100VDC Ur [V] = 700V Up [V] = 1650V Us [V] = 2300V 180 75 105 30 2160 6,5 4,2 5,4 < 45 0,6 12 - A 270 75 140 35 3240 9,7 3,9 4,8 < 50 0,8 6-B 219.X 229.X 370 85 140 35 3960 11,9 3,7 4,2 < 50 1,0 6-B 239.X 420 85 155 40 4200 12,6 3,6 3,6 < 60 1,1 6-B 250.X 510 90 185 65 5200 16,0 3,1 2,8 < 70 1,6 6-C 255.X 650 100 185 65 5850 17,6 2,3 2,6 < 70 1,8 6-C 260.X 900 116 185 70 8100 24,3 2,1 2,3 < 70 2,3 4-G 265.X 1.000 100 255 70 8500 25,5 2,0 2,3 < 75 2,4 6-D 270.X 1.200 100 285 75 9200 27,6 1,9 2,2 < 80 2,6 6-E 280.X 1.400 116 255 75 11900 30,0 1,7 2,1 < 75 3,2 4-G 285.X 1.500 100 373 100 13500 32,0 1,3 1,8 < 90 3,4 6-F 289.X 1.600 116 285 85 12800 32,0 1,7 1,7 < 80 3,5 4-G 293.X 2.400 116 373 100 14400 32,0 1,3 1,6 < 90 4,4 4-H 298.X 40 2 Power Electronics Capacitors DC CAPACITORS DC85 C SERIES DC85 C Capacitance Cn [uF] Diameter Height Max. RMS Current Ø [mm] H [mm] IMAX [A] Un DC Un [V] [V] = = 550V 1300V DC 75 120 75 DC 85 500 C Series 760 75 180 75 90 140 180 200 350 470 500 600 700 750 820 1.050 60 100 135 150 240 340 370 430 530 560 610 800 Repet. Peak Current Surge Current Series Resistance Thermal Resistance Series Inductance Weight Pcs. / Box - Part number Ip [A] Is [kA] Rs [mΩ] RTHC [°C/W] Lesr [nH] [Kg] Box type 416.85. Ur Ur [V] [V] = = 230V 850V Us Us [V] [V] = = 1160V 2700V 3,8 4,3 3,6 4,0 5,4 5,4 4,8 4,8 < < 45 45 < < 50 50 0,6 0,6 0,8 0,8 12 12 -- A A 6 6 -- B B L09.x 319.x L19.x 320.x 75 85 Height 85 90 155 35 2200 140 35 4000 Max. RMS Repet. Peak 140 35 3000 40 4200 7,0 12,0 3,0 3,9 4,6 4,2 < < 60 50 0,9 1,0 1,0 1,1 6 6 -- B B L29.x 330.x 85 155 1.850 470 100 185 11,0 21,6 1,6 2,3 2,6 2,6 < 60 70 2.550 550 116 90 1,8 1,8 2,3 2,3 6 6 -- C C 46-- D G A64 - D G L59.X 353.x H [mm] Current IMAX [A] UnDC 185 = 1300 V 255 75 105 30 2.800 100 255 650 116 185 75 140 3.900 116 255 35 700 100 85 4.450 116 140 285 35 800 100 85 155 40 Un [V] 980 116 = 700V255 DC 100 185 65 1.000 100 373 370 75 105 116 185 1.150 116 285 70 560 75 140 70 640 100 75 255 155 1.450 116 373 100 285 740 85 = 1550V 140 75 Un [V] DC 830 116 90 255 140 75 90 75 105 100 373 850 85 155 100 140 75 140 116 285 1.350 100 185 85 180 85 140 1.900116 116 373 185 100 200 85 155 = 1550 V 2.350 100 UnDC 255 250 90 155 2.850 75 116 105 255 30 350 100 185 3.300 75 116 140 285 35 400 90 255 85 Un [V]140 35 DC 470 116 = 900V185 85 155 40 280 75 105 500 100 255 100 185 65 430 75 140 600 100 285 116 185 70 570 85 140 255 700 116 100 255 70 620 90 140 750 100 373 100 285 75 650 85 155 820 116 285 116 255 75 1.050 100 185 1.050 116 373 100 373 100 1.450 116 185 Un [V] = 1800V DC 1.550116 100285 255 85 60 75 105 1.800116 100373 285 100 100 75 140 1800 V 2.200 116 UnDC = 255 135 85 140 75 105 2.350 100 373 30 150 85 155 2.500 75 116 140 285 35 190 85 90 140 155 3.300 116 373 35 240 85 100155 185 40 Un [V] = 1100VDC 310 100 90 185 255 65 180 75 105 340 116 116185 185 70 270 75 140 370 100 100255 255 70 370 85 140 430 100 100285 285 75 420 85 155 530 116 116255 255 75 510 90 185 560 100 100373 373 100 650 100 185 610 116 116285 285 85 900 116 185 800 116 373 116 373 1.000 100 255 100 1.200 (Cn)1.400 (Cn)1.500 - (Un) (Ur) 1.600 (Rs)2.400 (RTHC) (IMAX) (x code) 100 285 25 30 30 35 Up [V] [V] == 1950V 850V Up 5,0 6,5 6,5 9,7 870 250 105 105 140 140 DC CAPACITORS 1500 2160 2200 3240 CapaciDiameter 1.000 270 tance 1.150 Cn [µF] 300 Ø [mm] 120 180 250 300 470 650 700 800 980 1.000 1.150 1.450 Power Electronics Capacitors SERIES Surge Series Thermal Series Weight 7,5 2,9 4,2 < 50 12,0 3,8 4,0 Current Current Resistance Resistance Inductance 40 3000 9,0 2,7 3,6 3,6 Lesr [nH] < 60 [Kg] Ip [A] 4480 Is [kA]13,5 Rs [m• ]•3,7R THC [°C/W] 65 3700 7200 70 4000 8500 2160 4200 9750 3240 5800 9800 4000 11200 80 6700 75 75 4480 12740 7200 12600 100 28 2200 85 9750 13800 30 2800 35 9800 14500 3200 100 35 11200 3300 40 12740 3500 30 2250 40 12600 3800 35 2940 65 13800 5400 35 3600 70 14500 6600 70 75 70 40 70 45 75 65 85 70 4200 7000 5000 7100 7000 8200 7500 2250 2940 3600 70 8460 4200 2200 30 70 9000 7000 2400 35 75 9600 8460 3400 35 75 11200 9000 12000 40 3600 100 9600 13120 40 3900 85 11200 5300 65 100 14700 70 12000 7300 70 13120 7800 30 2100 75 14700 8100 35 75 35 100 2100 40 85 3000 45 100 3375 65 3450 3000 9900 3375 10500 3450 10000 3900 11550 4800 70 4800 6500 30 2160 70 6800 6800 35 3240 70 7400 7400 35 3960 75 9600 9600 40 4200 75 10750 10750 65 5200 10011500 11500 65 5850 85 12500 12500 70 8100 100 14400 70 14400 8500 75 9200 Ur 12,0 = 850 V 1,4 Up = 1950 2,3 V Us = 2700 V < 60 70 25,0 2,2 2,4 6,5 13,0 4,3 5,4 < 45 0,6 1,2 2,3 < 75 70 29,5 2,2 9,7 15,0 4,0 1,0 4,8 2,1 < 50 < 75 0,8 30,0 2,1 2,3 12,0 18,0 3,9 0,8 4,2 1,7 < 50 < 80 1,0 32,0 2,0 2,2 13,5 32,0 3,7 3,6 < 60 Ur [V] = 320V Up [V] = 1050V < 75 1,1 1,8 2,1 21,6 32,0 2,3 2,6 < 70 < 45 90 1,8 1,3 1,8 6,6 3,9 5,4 29,5 32,0 2,2 3,7 2,3 4,8 < 70 < 50 80 2,3 1,8 1,7 8,4 30,0 9,6 2,1 3,2 2,3 4,6 < 75 < 60 2,4 < 90 32,0 1,4 1,6 32,0 10,0 2,0 3,1 2,2 4,2 < 80 < 50 3,1 Ur [V] = 990V Up [V] = 2300V 32,0 10,0 1,8 3,0 2,1 4,0 < 75 < 50 3,2 < 45 6,5 4,4 5,4 32,0 11,5 1,3 2,9 1,8 3,6 < 90 < 60 3,5 < 50 9,7 4,1 4,8 32,0 16,0 1,8 1,8 1,7 2,6 < 80 < 60 3,6 < 50 12,0 4,0 4,2 32,0 20,0 1,4 1,7 1,6 2,3 < 90 < 60 4,6 < 60 13,5 3,8 3,6 Ur 21,0 = 990 V 1,6 Up = 2300 2,3 V Us = 3000 < 75 V < 60 15,0 3,4 3,3 6,5 21,0 4,4 1,3 5,4 2,1 < 45 < 75 0,6 < 70 21,6 2,3 2,6 9,7 24,5 4,1 1,2 4,8 1,7 < 50 < 80 0,8 < 70 25,0 2,2 2,4 12,0 Ur [V]4,0 4,2 < 50 1,0 = 550V Up [V] = 1350V < 70 29,5 2,3 2,3 13,5 3,8 3,6 < 60 < 45 1,1 6,7 4,1 5,4 75 30,0 2,2 2,3 21,6 2,3 2,6 < 70 < 50 2,2 7,1 3,8 4,8 80 32,0 2,0 2,2 29,5 10,3 2,3 3,6 2,3 4,2 < 70 < 50 2,3 75 32,0 1,9 2,1 30,0 10,3 2,2 3,5 2,3 4,0 < 75 < 50 2,4 90 32,0 1,4 1,8 32,0 11,7 2,0 3,5 2,2 3,6 < 80 < 60 2,6 80 32,0 1,9 1,7 32,0 15,8 1,9 2,2 2,1 2,6 < 75 < 70 3,2 90 32,0 1,4 1,6 32,0 21,8 1,4 2,0 1,8 2,3 < 90 << 70 3,3 Ur [V] = 1150V Up [V] = 2700V 32,0 23,3 1,9 1,9 1,7 2,3 < 80 < 75 3,7 6,5 4,5 5,4 < 90 < 45 4,6 32,0 24,3 1,4 1,8 1,6 2,2 < 80 < 50 9,7 4,2 4,8 Ur =29,7 1150 V 1,4 Up = 27002,1 V Us = 3000 < 75 V 12,0 4,1 4,2 < 45 < 50 0,6 6,5 31,7 4,5 1,2 5,4 1,8 < 90 60 13,5 3,9 3,6 9,7 30,0 4,2 1,5 4,8 1,7 < 50 << 80 0,8 < 60 1,0 15,0 3,4 3,3 12,0 30,0 4,1 1,1 4,2 1,6 < 50 < 90 < 70 2,3 13,5 21,6 3,6 2,6Up [V] < 60 Ur [V]3,9 = 700V = 1650V 1,1 70 1,8 21,6 25,0 2,3 2,1 2,6 2,4 < 70 << 45 6,5 4,2 5,4 70 2,2 29,5 29,5 2,2 2,2 2,3 2,3 < 70 << 50 9,7 3,9 4,8 75 2,3 30,0 30,0 2,1 2,1 2,3 2,3 < 75 << 50 11,9 3,7 4,2 32,0 2,0 2,2 < 80 < 80 2,6 32,0 12,6 2,0 3,6 2,2 3,6 < 60 32,0 2,0 2,1 < 75 < 75 3,3 32,0 16,0 2,0 3,1 2,1 2,8 < 70 32,0 1,4 1,8 < 90 < 90 3,5 32,0 17,6 1,4 2,3 1,8 2,6 < 70 32,0 1,9 1,7 < 80 < 80 3,6 32,0 24,3 1,9 2,1 1,7 2,3 < 70 32,0 1,5 1,6 < 90 < 90 4,6 1,6 2,3 32,0 25,5 1,5 2,0 < 75 27,6 1,9 2,2 < 80 Pcs. Part. 6 L39.x 335.x 6 -- B B X Box number 1,1 6 B 340.x 1,1 Box type 6 - B 416.85. L49.x 2,4 2,3 3,2 2,4 3,6 3,1 3,2 3,5 0,6 3,6 0,8 0,9 4,6 1,0 1,1 0,6 1,1 0,8 1,8 1,0 2,3 1,1 2,4 1,3 3,2 2,2 3,5 2,3 2,3 0,7 2,4 0,8 2,6 1,0 3,2 1,1 3,3 1,1 3,7 1,8 4,6 2,3 2,4 0,6 2,6 0,8 3,1 1,0 3,4 1,1 3,5 1,3 4,6 1,8 2,2 0,6 2,2 0,8 2,3 1,0 2,6 1,1 3,3 1,6 3,5 1,8 3,6 2,3 4,6 2,4 2,6 12 319.x 6 - B46 - G 320.x D 6 - B46 - GE 330.x 6-B 340.x Us 4 -[V] G = 1470V 6 - C12 350.x 6 -- FA 4 - G46 - G 355.x B 6 - D6 - B 360.x 4-H 6 - E6 - B 370.x Us [V] = 3000V 4 - G6 . B 375.x -A 6 - F12 399.x 6-B 6-B 4 - G6 - C 385.x 4 - H46 -- GB 388.x 6-B 6-D 6-B 12 - A4 - G 6-C 6 - B4 - G 6- D 419.x 420.x 6-B 430.x Us 4 -[V] G = 1900V 6-B 440.x 12 6 --DA 6-C 450.x 6-B E 4 - G6 B 455.x 4-G 6 - D6 - B 460.x F 6 - E6 B 470.x 4-G 4 - G6 - C 475.x H 6 - F44 -- G 480.x Us [V] = 3000V 4 - G6 - D 485.x - A 498.x 4 - H12 6-E 6-B 4-G 12 - A66 -- FB 510.x 6 - B46 -- GB 520.x 6 - B46 -- HB 530.x 6-C 6-B Us [V] = 540.x 2300V 6 - C6- D 550.x 12 - A 4 - G4 - G 555.x 6-B 6 - D6 - D 560.x 6-B 6 - E66 -- BE 570.x G 575.x 4 - G64 -- C 6 - F66 -- CF 580.x G 585.x 4 - G44 -- G 4 - H64 -- DH 598.x 6-E L55.x 350.x L69.x 355.x L79.x 360.x L89.x 370.x 375.x 399.x 009.x 385.x 019.x 029.x 388.x 039.x 039.x 419.x 049.x 420.x 055.x 430.x 059.x 440.x 069.x 445.x 079.x 450.x 089.x 457.x 455.x 119.x 460.x 139.x 470.x 149.x 475.x 159.x 480.x 169.x 485.x 179.x 498.x 185.x 189.x 510.x 191.x 520.x 193.x 530.x 195.x 540.x 197.x 545.x 199.x 550.x 553.x 219.X 555.x 229.X 560.x 239.X 570.x 250.X 575.x 255.X 580.x 260.X 585.x 265.X 598.x 270.X 280.X 116 255 value: 75 11900 < 75 285.X Tolerance standard -15 .. +0%. Other tolerance values 30,0 1,7 on request. 2,1 3,2 4-G Capacitance and 100 373rated voltage 100 standard 13500 values, < 90 289.X 32,0other values 1,3 on request. 1,8 3,4 6-F Maximum peak 285 to peak alternating voltage component on1,7 the DC working voltage.< 80 116 85 12800 293.X 32,0 1,7 3,5 4-G Related 116 to 1 KHz. 373 100 14400 < 90 298.X 32,0 1,3 1,6 4,4 4-H Thermal resistance CASE TO AMBIENT in natural cooling environment. Maxmimum RMS current, referred to ambient temperature of 50 °C (natural cooling) and a working frequency of 1 KHz. In case of different temperature, see diagram below. According to the terminal type: x = 0 —> A SOLUTION (internal thread M6) / x = 1 —> B SOLUTION (M8 screw type bolts). 41 2 Power Electronics Capacitors DC CAPACITORS Mechanical standard configuration: B solution A solution M8 screw-type bolts Code "x" = 1 Internal thread M6 Code "x" = 0 Diameter Ø A spacing Type of terminal s [mm] [mm] From 75 to 100 32 M6 female / M8 male 90 45 (*) M6 female / M8 male 116 50 M6 female / M8 male (*) Available also in the dimension: 32 - 50 mm Insulation spacing Surface [mm] 36 49 54 Air [mm] 20 33 38 Terminal type on request: Two different terminals height for special BUS BAR coupling. Available M8 internal thread on the same terminal dimension. 42 2 Power Electronics Capacitors Power Electronics Capacitors DC CAPACITORS DC CAPACITORS DCH 85 C Series RMS working Current vs ambient temperature 1,3 Box Type Box Type Dimensions A mm 190 x 285 x 280 B mm 190 x 285 x 200 C mm 220 x 335 x 265 D mm 220 x 335 x 325 Power Electronics Capacitors E mm 220 x 335 x 375 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 F mm 220 x 335 x 450 0,2 G mm 270 x 270 x 380 0,1 40,0 H mm 270 x 270 x 450 DC CAPACITORS ions RMS working Current / Imax (A) 1,2 45,0 50,0 55,0 60,0 65,0 70,0 Ambient temperature (°C) Mechanical Configurations RMS working Current vs ambient temperature 1,3 RMS working Current / Imax (A) 1,2 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 40,0 45,0 50,0 55,0 60,0 65,0 70,0 75,0 Ambient temperature (°C) A solution B solution Internal Thread M6 Code “x” = 0 M8 Screw-type bolts Code “x” = 1 27 43 2 Ø CAP. [mm] I [mm] 75 ÷ 100 32 ± 0,5 116 50 ± 0,5 75,0 Power Electronics Capacitors DC CAPACITORS DC 85 B SERIES: Dc - Link Capacitors on cubic box DC Voltage range Maximum ripple current Capacitance range Capacitance tolerance Series resistance (RS) Thermal resistance natural cooling (RTHc) Equivalent series inductance (LESR) Terminals Test voltage Climatic Ambient Temperature Working temperature (θMIN – θMAX) Storage temperature Filling 550÷6000 V 120 A Up to 38000 µF +0% / –15% < 5 mΩ 2,0 °C/W < 30 nH M10 screw-type bolts Utt= 1.5 x UnDC 10s –25 / +45 °C –25 / +85 °C –25 / +85 °C Self-extinguishing (UL94 V0) polyurethane resin Dielectric Container Self healing PPMd film Self-extinguishing (UL94 V0) plastic box Failure quota Life expectancy Maximum altitude Reference standard 50/10E9 100.000 h (**) 2000 m a.s.l. IEC 1071-1/2 IEC 1881 UL 810 Max 10 Nm Max 10 Nm M10 screw terminals Fixing slots Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. (**) For details please refer to page 10 28 44 2 Power Electronics Capacitors DC CAPACITORS DC 85 B Series Capacitance Cn [µF] 3.800 2.800 2.250 1.500 1.200 1.000 800 750 420 280 180 80 50 40 30 (Cn) (Cn) - (Un) (Rs) (RTHC) (A/B solut.) Rated DC Repet. Peak Voltage Voltage Un [V] Up [kV] 550 650 750 900 1100 1250 1350 1450 1800 2200 2800 4000 5000 5500 6000 0,8 1,0 1,1 1,4 1,7 1,9 2,0 2,2 2,7 3,3 4,2 6,0 7,5 8,3 9,0 Surge Voltage Us [kV] Max. RMS Repet. Peak Current Current IMAX [A] Ip [A] 1,2 1,4 1,6 1,9 2,3 2,6 2,9 3,0 3,8 4,6 5,8 8,5 10,0 10,0 10,0 120 120 120 120 120 120 100 100 100 80 80 60 50 40 35 9800 9300 9500 9500 9600 9000 8800 8500 8200 7000 6300 4000 3500 3200 2700 Surge Current Is [kA] 25 25 25 25 25 20 20 20 15 15 15 10 10 8 8 Series Thermal Resistance Resistance Rs [mΩ] RTHC [°C/W] < < < < < < < < < < < < < < < 0,80 0,80 0,80 0,80 0,80 0,85 1,20 1,20 1,20 1,80 1,90 3,20 4,60 7,50 8,20 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 1,65 Weight [kg] < < < < < < < < < < < < < < < 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 5,0 Terminal solution A/B A A A A A A A A A A A A A A A /B /B /B /B /B /B /B /B /B /B /B /B /B /B /B Part number 416.85. 001.X 005.X 090.X 190.X 290.X 390.X 405.X 490.X 590.X 690.X 790.X 890.X 990.X A90.X B90.X Tolerance standard value: -15 + 0%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Related to 1KHz. Thermal resistance CASE TO AMBIENT in natural cooling enviroment. .X = “5” for A solution (M10 terminals on surface without handles) / .X = “6” for B solution (M10 terminals on handle surface)” Box TYPE Standard box dimensions No. pieces x box: mm 450 x 470 x 220 4 TERMINAL TYPES Standard length value for M10 terminals: - 19 mm - 34 mm 29 45 2 Power Electronics Capacitors DC CAPACITORS DC 85 B Series TERMINAL SOLUTIONS: A SOLUTION: 41685.xxx.5 B SOLUTION: 41685.xxx.6 M10 terminals on surface without handles M10 terminals on handle surface 30 46 2 Power Electronics Capacitors DC CAPACITORS DC 86 P SERIES: Dc - Link Capacitors in prismatic box DC Voltage range Maximum ripple current Capacitance range Capacitance tolerance Thermal resistance natural cooling (RTHc) Equivalent series inductance (LESR) Terminals Test voltage Climatic Ambient Temperature Working temperature (θMIN – θMAX) Storage temperature Filling 550÷6800 V 300 A Up to 15000 µF +0% / –15% 0,52 °C/W < 45 nH 4 x M6 internal threads per pole or bus-bars Utc= 12 kVac @50 Hz 60s Utt= 1,5 x UnDC 10s –25 / +45 °C –25 / +85 °C –25 / +85 °C Self-extinguishing (UL94 V0) polyurethane resin Self healing PPMd film Self-extinguishing (UL94 V0) plastic box 50/10E9 100.000 h (**) 2000 m a.s.l. IEC 1071-1/2 IEC 1881 UL 810 Max 3 Nm Max 10 Nm Dielectric Container Failure quota Life expectancy Maximum altitude Reference standard M6 internal thread terminals Fixing slots Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. (**) For details please refer to page 10 31 47 2 Power Electronics Capacitors DC CAPACITORS DC 86 P Series Capacitance Cn [µF] 15.000 11.000 8.500 5.600 3.800 2.800 2.100 1.700 1.050 650 500 300 200 160 120 80 (Cn) (Cn) - (Un) (Rs) (RTHC) (A/B solut.) (X Code) Rated DC Repet. Peak Voltage Voltage Un [V] Up [kV] 550 650 800 1000 1200 1350 1600 1800 2100 2700 3200 3800 4500 5200 6000 6800 0,8 1,0 1,2 1,5 1,8 2,0 2,4 2,7 3,1 4,0 4,8 5,7 6,7 7,8 9,0 10,0 Surge Voltage Us [kV] Max. RMS Repet. Peak Current Current IMAX [A] Ip [A] 1,3 1,5 1,8 2,3 2,8 3,1 3,7 4,1 4,8 6,2 7,4 8,7 10,0 10,0 10,0 10,0 300 300 300 250 250 250 200 200 200 200 200 200 150 150 150 120 34500 30800 28050 26880 22800 22400 21000 20400 19950 19500 17500 13500 13000 11200 10800 9600 Surge Current Is [kA] Series Thermal Resistance Resistance Rs [mΩ] RTHC [°C/W] 45 45 45 40 40 40 40 40 40 35 35 35 30 30 25 20 < 0,30 < 0,30 < 0,30 < 0,45 < 0,50 < 0,50 < 0,65 < 0,70 < 0,70 < 0,75 < 0,75 < 0,75 < 1,20 < 1,20 < 1,40 < 1,50 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 0,52 Weight [kg] Terminal solution A/B Part number 416.86. < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 < 19,0 A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B A A A A 009.X 109.X 159.X 209.X 259.X 309.X 359.X 409.X 459.X 508.X 559.X 609.X 659.0 709.0 759.0 809.0 Tolerance standard value: –15 + 0%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Related to 1 KHz. Thermal resistance CASE TO AMBIENT in natural cooling environment. Due to the clearance distance, B solution (X code = 1) is available only up to Un = 3800 V (Rated Voltage). According to terminal type: A solution X = 0 / B solution X = 1. Box TYPE Standard box dimensions No. pieces x box: INTERNAL CONNECTION: mm 477 x 252 x 172 1 1 NOTE: For A Solution: please, pay attention to connect all of the four M6 internal thread terminals for each polarity. A solution (41686.xxx.0) B solution (41686.xxx.1) Creepage distance (mm) 100 40 Clearance distance (mm) 93 41 32 48 2 Power Electronics Capacitors DC CAPACITORS DC 86 P Series MECHANICAL SOLUTIONS: A SOLUTION 41686.xxx.0 4 x M6 internal threads per pole B SOLUTION 41686.xxx.1 Bus bar terminals with 3 x Ø 9 holes 33 49 2 Power Electronics Capacitors DC CAPACITORS DC 86 PS SERIES: Dc - Link Capacitors in box case DC Voltage range Maximum ripple current Capacitance range Capacitance tolerance Thermal resistance natural cooling (RTHc) Equivalent series inductance (LESR) Terminals 550÷2700 V 165 A Up to 2100 µF ±10% 2.60 °C/W < 30 nH M8 x 15 internal threads Test voltage Utc= 4.5 kVac @50 Hz 60s Utt= 1.5 x UnDC 10s Climatic Ambient Temperature Working temperature (θMIN – θMAX) –25 / +45 °C –25 / + 5 °C –25 / +85 °C Storage temperature Filling Self-extinguishing (UL94 V0) polyurethane resin Dielectric Self healing PPMd film Container Self-extinguishing (UL94 V0) plastic box Failure quota Life expectancy Maximum altitude 50/10E9 100.000 h (**) 2000 m a.s.l. Reference standard IEC 1071-1/2 IEC 1881 UL 810 M8 internal thread Fixing slots Max 4 Nm Max 10 Nm UL-CSA approved ( ) File n. E192559 Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. (**) For details please refer to page 10 34 50 2 Power Electronics Capacitors DC CAPACITORS DC 86 PS Series Max. RMS Repet. Peak Current Current IMAX [A] Ip [A] Thermal Surge Series Weight Part number Current Resistance Resistance [kg] 416.86.xxxx RTHS [°C/W] Rs [mΩ] Is [kA] Capacitance Cn [µF] Rated DC Voltage Un [V] Repet. Peak Voltage Up [kV] Surge Voltage Us [kV] 2.100 550 0,8 1,2 165 16.800 29,5 < 0,48 2,60 < 4,5 0095 1.500 700 1,0 1,5 165 15.000 28,0 < 0,50 2,60 < 4,5 1095 1.150 850 1,3 1,8 155 13.800 26,0 < 0,55 2,60 < 4,5 1595 750 1100 1,7 2,3 150 12.000 25,0 < 0,59 2,60 < 4,5 2095 600 1250 1,9 2,6 140 11.400 23,0 < 0,66 2,60 < 4,5 2595 500 1400 2,1 2,9 130 11.000 21,5 < 0,73 2,60 < 4,5 3095 380 1600 2,4 3,4 120 10.640 20,5 < 0,85 2,60 < 4,5 3595 300 1800 2,7 3,8 120 10.500 19,0 < 0,89 2,60 < 4,5 4095 230 2100 3,2 4,4 110 9.660 18,5 < 0,98 2,60 < 4,5 4595 120 2700 4,1 5,7 100 7.800 14,5 < 1,15 2,60 < 4,5 5095 NOTES: (Cn) (Cn) - (Un) (Rs) (RTHS) (IMAX) Tolerance standard value: ±10%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Related at 1 KHz. Thermal resistance AMBIENT - HOT SPOT (air forced cooling system). Maximum RMS Current @ 50 °C ambient temperature. MECHANICAL SOLUTION: 35 51 2 Power Electronics Capacitors DC CAPACITORS MECHANICAL SOLUTION: Box TYPE Creepage distance (mm) Clearance distance (mm) 35 35 Standard box dimensions: No. pieces per box: 52 2 mm 450 x 470 x 220 8 Power Electronics Capacitors DC CAPACITORS DC 89 HC SERIES: High current, low inductance in cylindrical plastic case, optimised for heatsink mounting DC Voltage range Maximum ripple current Maximum working frequency Capacitance range Capacitance tolerance Terminals 500÷1450 V(*) 100 A 10 kHz Up to 220 µF (*) ±10% (*) M8 screw-type bolts ur female M5 Test voltage Utc= 3,0 kVac @50 Hz 60s Utt= 1,5 x UnDC 10s Climatic Ambient Temperature Working temperature (θMIN – θMAX) –25 / +45 °C –25 / +85 °C –25 / +85 °C Polyurethane resin Self healing PPM film Storage temperature Filling Dielectric Container Self-extinguishing (UL94 V0) plastic box Failure quota Life expectancy Maximum altitude 50/10E9 100.000 h(**) 2000 m a.s.l. Reference standard IEC 1071-1/2 IEC 1881 UL 810 Driving tourque for M8 screw-type Driving tourque for fixing holes (MAX) Standard Box dimension Number pieces for box M8 screw terminals Fixing slots 5 Nm 2,5 Nm 386 x 190 x 200 mm 16 Max 5 Nm Max 2,5 Nm UL - CSA approved ( File n. E192559 ) (**) For details please refer to page 10 36 53 2 Power Electronics Capacitors DC CAPACITORS DC 89 HC Series Capacitance Height Cn [µF] H [mm] Repet. Peak Max. RMS Repet. Peak Current Voltage Current IMAX [A] Up [kV] Ip [A] Series Thermal Series Surge Weight Part number Current Resistance Resistance Inductance [kg] 416.89. Is [kA] RESR [mΩ] RTHC [°C/W] LESR [nH] UnDC = 500 V Us = 1,0 kV 70 40 0,75 100 9000 13,0 0,55 4,8 < 25 < 0,45 051X 100 40 0,75 100 8500 12,7 0,60 4,8 < 25 < 0,45 052X 130 51 0,75 85 8000 11,5 0,70 5,7 < 30 < 0,55 053X 160 51 0,75 85 7000 10,5 0,75 5,7 < 30 < 0,55 055X 190 64 0,75 70 6500 10,0 0,78 7,8 < 40 < 0,70 057X 220 64 0,75 70 6200 9,3 0,80 7,8 < 40 < 0,65 059X UnDC = 700 V Us = 1,4 kV 60 40 1,05 90 8000 12,0 0,70 4,8 < 25 < 0,45 071X 80 40 1,05 90 7500 11,3 0,75 4,8 < 25 < 0,45 072X 100 51 1,05 80 7400 11,0 0,80 5,7 < 30 < 0,55 072X 130 51 1,05 80 7200 10,8 0,85 5,7 < 30 < 0,55 075X 150 64 1,05 65 6400 10,5 0,87 7,8 < 40 < 0,70 075X 180 64 1,05 65 6600 9,9 0,90 7,8 < 40 < 0,65 079X 45 40 1,35 85 5300 8,0 0,80 4,8 < 25 < 0,45 091X 70 40 1,35 85 5250 7,8 0,85 4,8 < 25 < 0,45 092X 100 51 1,35 75 4700 7,5 0,95 5,7 < 30 < 0,55 095X 110 51 1,35 75 4650 7,3 0,98 5,7 < 30 < 0,55 096X 125 64 1,35 60 4600 7,0 1,00 7,8 < 40 < 0,70 097X 150 64 1,35 60 4500 6,8 1,10 7,8 < 40 < 0,65 099X 30 40 1,65 80 4800 7,8 0,90 4,8 < 25 < 0,45 111X 45 40 1,65 80 4750 7,2 0,95 4,8 < 25 < 0,45 112X 70 51 1,65 65 4600 7,0 1,00 5,7 < 30 < 0,55 114X 75 51 1,65 65 4550 6,8 1,10 5,7 < 30 < 0,55 115X 100 64 1,65 55 4500 6,7 1,20 7,8 < 40 < 0,70 118X 110 64 1,65 55 4400 6,6 1,25 7,8 < 40 < 0,65 119X < 25 < 0,45 121X UnDC = 900 V Us = 1,8 kV UnDC = 1100 V Us = 2,2 kV UnDC = 1250 V Us = 2,5 kV 20 40 1,90 75 4500 6,8 1,15 4,8 35 40 1,90 75 4200 6,6 1,20 4,8 < 25 < 0,45 122X 45 51 1,90 65 4200 6,4 1,25 5,7 < 30 < 0,55 123X 55 51 1,90 65 4200 6,2 1,30 5,7 < 30 < 0,55 125X 70 64 1,90 55 4000 6,0 1,35 7,8 < 40 < 0,70 127X 80 64 1,90 55 4000 6,0 1,40 7,8 < 40 < 0,65 129X < 25 < 0,45 141X UnDC = 1450 V Us = 2,9 kV 15 40 2,20 70 3500 5,2 1,25 4,8 25 40 2,20 70 3380 5,1 1,30 4,8 < 25 < 0,45 142X 30 51 2,20 60 3200 4,8 1,45 5,7 < 30 < 0,55 143X 40 51 2,20 60 3200 4,8 1,45 5,7 < 30 < 0,55 145X 50 64 2,20 50 3100 4,6 1,50 7,8 < 40 < 0,70 147X 55 64 2,20 50 3050 4,5 1,55 7,8 < 40 < 0,65 149X (Cn) (Cn) - (Un) (Rs) (RTHC) (IMAX) (X) Code Tolerance standard value: ±10%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Related to 1KHz. Thermal resistance CASE TO AMBIENT in natural cooling environment. In order to decrease the thermal resistance, install the capacitors on a heatsink (with conductive paste) through the optimised bottom aluminum plate. Maximum RMS current, referred to an ambient temperature of 50 °C, natural cooling. In case of different temperature, see diagram at page .... According to mechanical solution: from Ø to 4 fot M8 screw type bolt, from 5 to 8, for female M5 internal threads. 37 54 2 H = 40 ± 2 mm H = 51 ± 2 mm Power Electronics Capacitors H = 64 ± 2 mm DC CAPACITORS Creepage distance (mm) 37 Clearance distance (mm) DC 89 HC Series 27 Box TYPE No. pieces x box: RMS working Current vs ambient temperature mm 386 x 190 x 200 1,3 1,2 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 Power Electronics Capacitors 16 RMS working Current / Imax (A) Standard box dimensions DC CAPACITORS DC 89 HC Series 40,0 45,0 50,0 55,0 60,0 65,0 70,0 75,0 Ambient temperature (°C) MECHANICAL SOLUTIONS: Type A: MALE M8 SCREW TYPE BOLT 38 Solutions: H = 40 ± 2 mm H = 51 ± 2 mm H = 64 ± 2 mm Creepage distance (mm) 37 Clearance distance (mm) 27 Box TYPE No. pieces x box: 16 Creepage distance (mm) 37 Clearance distance (mm) 27 Box TYPE Solutions: RMS working Current vs ambient temperature mm 386 x 190 x 200 RMS working Current / Imax (A) Standard box dimensions 1,3 1,2 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 40,0 H = 40 ± 2 mm H = 51 ± 2 mm H = 64 ± 2 mm 45,0 50,0 55,0 60,0 65,0 70,0 Ambient temperature (°C) 38 55 2 RMS working Current vs ambient temperature 75,0 Solutions: Power Electronics Capacitors H = 40 ± 2 mm DC CAPACITORS H = 51 ± 2 mm H = 64 ± 2 mm NEW MECHANICAL CONFIGURATION: FEMALE M5 INTERNAL THREADS Type B: FEMALE M5 INTERNAL THREADS Box TYPE No. pieces x box: RMS working Current vs ambient temperature mm 386 x 190 x 200 16 RMS working Current / Imax (A) Standard box dimensions 1,3 1,2 1,1 1 0,9 0,8 0,7 0,6 0,5 0,4 0,3 0,2 0,1 40,0 45,0 50,0 55,0 60,0 Ambient temperature (°C) 38 Solutions: H = 40 ± 2 mm H = 51 ± 2 mm H = 64 ± 2 mm (x) digit: from 6 to 9 for M5 internal threads configuration Creepage distance (mm) 37 Clearance distance (mm) 27 56 2 65,0 70,0 75,0 Power Electronics Capacitors DC CAPACITORS 57 2 Power Electronics Capacitors DC CAPACITORS DC 88 M SERIES: standard model Dc - Link Capacitors in stainless steel, non-magnetic casing DC-Link Capacitors, resin filled in prism metal case Capacitor specifically designed for high working current, low inductance and optimised on customer request. TYPICAL APPLICATIONS: DC filternig or DC LINK capacitor for INVERTER with terminals suited for a direct connection to the IGBT module terminals or bus-bars. FEATURES: The aluminum or steel box is hermetically sealed by a polyurethane resin that assure a total protection against the environment and also allows use of different terminal types. The internal metallized polypropilene film assures excellent self healing properties, moreover the special internal connection between elements gives low series inductance. DC Voltage range Maximum ripple current Capacitance range Capacitance tolerance Equivalent series inductance (LESR) Terminals Test voltage Climatic Ambient Temperature Working temperature (θMIN – θMAX) Storage temperature Filling Dielectric Container Failure quota Life expectancy Maximum altitude Reference standard M10 internal thread Fixing slots 550÷1550 V(*) 300 A Up to 10500 µF ±10% 35 nH to 50 nH 4x M10 screw type lts Utc= 4.5 kVac @50 Hz 60s Utt= 1.5 x UnDC 10s –25 / +45 °C –25 / +85 °C –25 / +85 °C Polyurethane resin Self healing PPMd film Non painted, stailess steel, not magnetic casing 50/10E9 100.000 h (**) 2000 m a.s.l. IEC 1071-1/2 IEC 1881 Max 6 Nm Max 15 Nm Safety system: These capacitors are designed with a particular type of polypropylene metalized film (PPMd film) that assures an open circuit at the end of life, if the operation is within the specification. (**) For details please refer to page 10 39 58 2 Power Electronics Capacitors DC CAPACITORS DC 88 M Series Capacitance Cn [µF] Height H [mm] Width W [mm] Max. RMS Repet. Peak Current Current IMAX [A] Ip [kA] UnDC = 550 V Thermal Inductance Typical Surge Series Part number Current Resistance Resistance Ls Weight 416.88. RTHC [°C/W] Rs [mΩ] Is [kA] [nH] [kg] Up = 8,5 kV Us = 1,3 kV 3.200 170 95 180 22,4 36 < 0,80 1,25 35 < 10,5 1091 5.000 240 95 300 25,0 40 < 0,40 0,85 45 < 13,0 1192 5.500 170 145 170 24,8 40 < 0,85 1,35 40 < 14,5 1293 8.500 240 145 230 25,5 41 < 0,50 1,15 50 < 18,5 1394 6.650 170 170 150 21,3 34 < 1,05 1,35 45 < 16,0 1495 10.500 240 170 230 26,3 42 < 0,65 0,95 50 < 21,5 1596 2091 UnDC = 700 V Us = 1,6 kV Up = 1,05 kV 2.400 170 95 180 19,2 31 < 0,85 1,25 35 < 10,5 3.800 240 95 300 22,8 36 < 0,45 0,85 45 < 13,0 2192 4.250 170 145 170 23,4 37 < 0,85 1,35 40 < 14,5 2293 6.500 240 145 220 22,8 36 < 0,60 1,15 50 < 18,5 2394 5.000 170 170 150 20,5 33 < 1,10 1,35 45 < 16,0 2495 8.000 240 170 230 24,8 40 < 0,65 0,95 50 < 21,5 2596 1.600 170 95 180 19,2 31 < 0,85 1,25 35 < 10,5 3091 2.530 240 95 300 20,2 32 < 0,45 0,85 45 < 13,0 3192 2.650 170 145 170 18,6 30 < 0,85 1,35 40 < 14,5 3293 4.300 240 145 220 21,5 34 < 0,60 1,15 50 < 18,5 3394 3.250 170 170 150 16,3 26 < 1,10 1,35 45 < 16,0 3495 5.060 240 170 230 20,2 32 < 0,65 0,95 50 < 21,5 3596 UnDC = 1000 V Up = 1,4 kV UnDC = 1200 V Us = 2,3 kV Up = 1,7 kV Us = 2,4 kV 1.100 170 95 170 22,0 35 < 0,90 1,25 35 < 10,5 4091 1.750 240 95 280 19,3 31 < 0,50 0,85 45 < 13,0 4192 1.900 170 145 160 19,0 30 < 1,00 1,35 40 < 14,5 4293 3.000 240 145 250 21,0 34 < 0,55 1,15 50 < 18,5 4394 2.250 170 170 140 19,1 31 < 1,25 1,35 45 < 16,0 4495 3.700 240 170 240 20,4 33 < 0,65 0,95 50 < 21,5 4596 35 < 10,5 5091 UnDC = 1350 V 750 170 1.300 1.350 Up = 1,9 kV Us = 2,4 kV 95 160 21,0 34 < 1,10 1,25 240 95 270 18,2 29 < 0,55 0,85 45 < 13,0 5192 170 145 150 20,3 32 < 1,15 1,35 40 < 14,5 5293 2.200 240 145 250 22,0 35 < 0,55 1,15 50 < 18,5 5394 1.650 170 170 130 19,8 32 < 1,45 1,35 45 < 16,0 5495 2.700 240 170 230 21,6 35 < 0,70 0,95 50 < 21,5 5596 6091 UnDC = 1550 V Up = 2,1 kV Us = 2,4 kV 550 170 95 150 18,7 30 < 1,15 1,25 35 < 10,5 900 240 95 240 18,0 29 < 0,65 0,85 45 < 13,0 6192 1.000 170 145 140 22,0 35 < 1,20 1,35 40 < 14,5 6293 1.600 240 145 230 19,2 31 < 0,60 1,15 50 < 18,5 6394 1.200 170 170 120 21,6 35 < 1,60 1,35 45 < 16,0 6495 2.000 240 170 220 20,0 32 < 0,75 0,95 50 < 21,5 6596 (Cn) (Cn) - (Un) (Rs) (RTHC) (IMAX) (Ls) Tolerance standard value: ±10%. Other tolerance values on request. Capacitance and rated voltage standard values, other values on request. Releted at 1 KHz. Thermal resistance AMBIENT - CASE. Maximum RMS Current @ 45 °C ambient temperature. Standard stray inductance. On request very low stray inductance models. 40 59 2 Power Electronics Capacitors DC CAPACITORS DC 88 M Series MECHANICAL SOLUTIONS: K (mm) 95 50 145 100 170 100 65 ±0.5 65 ±0.5 65 ±0.5 2 3 4 1-1 0 H±2 1 H+6 ±2 Width (W mm) 335 ±2 W±2 1 2 3 4 25 ±2 K±0.5 W-10 M10 Contact area 80 ±1.5 80 ±1.5 Ø5.5 355 ±1 1-3 375 ±2 2-4 Safety system: This capacitors are designed with a particular type of polypropylene metalized film (PPM-D film) that assures an open circuit at the end of life, if the service is within the specification. Expected life vs. temperature RMS working Current vs ambient temperature (on surface case, at 3/4 of height) 1,3 1.000.000 1,1 1 Expected life [hours] RMS working Current / Imax (A) 1,2 0,9 0,8 0,7 0,6 0,5 0,4 100.000 0,3 Unsafe area 0,2 0,1 40,0 10.000 45,0 50,0 55,0 60,0 65,0 70,0 75,0 50 Ambient temperature (°C) 55 60 65 70 75 Operating Temperature - _o [°C] 41 60 2 80 85 90 Power Electronics Capacitors DC CAPACITORS DC 88 M Series CUSTOMIZED MECHANICAL AND TERMINAL SOLUTIONS ELECTRICAL AND MECHANICAL CHARACTERISTICS Examples Capacitance Cn [µF] 1000 3000 1000 2x 3000 Rated DC Voltage Un [V] 900 1200 500 700 Repet. Peak Voltage Up [kV] 1250 1700 750 1050 Surge Voltage Us [kV] 1900 2500 1000 1500 Max. RMS Current IMAX [A] 170 300 150 2x 230 Repet. Peak Current Ip [A] 9000 22000 15000 20000 Surge Current Is [kA] 15 35 25 30 Series Resistance Rs [m_] < 2,0 < 1,0 < 3,0 < 1,5 Series Inductance LESR [nH] < 45 nH < 50 nH < 30 nH < 80 nH L x W x H (mm) 165 x 75 x 170 340 x 145 x 240 172 x 105 x 94 440 x 100 x 270 Dimensions 42 61 2 Power Electronics Capacitors DC CAPACITORS DC 45 SERIES Capacitors for filtering in locomotive, traction applications and welding machine by capacitance discharge with high capacitance and high voltage GENERAL CHARACTERISTICS DC Voltage range Capacitance range Capacitance tolerance Test voltage between terminals Test voltage between terminals and case Terminals Ambient operating temperature Protection degree Filling Dielectric Case Life expectancy Installation Reference standard 800÷5000V (*) 100÷5000 µF (*) ±5% / ±10% 1,5 Un 10s 2 Un 50 Hz 60s Bushings –25 / + 55 °C IP 00 Castor oil Mosaic metallized polypropylene Steel 100.000 h (**) Vertical / horizontal IEC 1071-1/2; IEC 1881; UL 810 (*) Standard values, other values on request. (**) For details please refer to page 10 43 62 2 Power Electronics Capacitors DC CAPACITORS Example of filter capacitor: 146 CHARACTERISTICS 1000 µF ±10 % 3500 V 300 A ˜ 300 nH ˜ 25 10-4 (50 Hz, 20 °C) 654 Rated Capacitance Capacitance Tolerance Rated Voltage Un(DC) Rated Current (In) Serial Inductance Tanδ 35 MAXIMUM RATINGS Max Voltage Max Peak Current (du/dt)max Max Duty Cycle 3600 V 5 kA 5 V/µs 1 discharge/1sec TEST DATA AC Test voltage terminal to terminal AC test voltage terminal to case 422 376 CLIMATIC CATEGORY Oblong hole 14x76 - 25 / + 55 °C 107 Operating Temperature 330 5 kVac (2 sec) 7 kVac (50 Hz - 60 sec) MECHANICAL CHARACTERISTICS 80 175 x 330 x 570 mm <45 Kg Stainless steel 146 35 74 Dimensions Weight Case Painted case With Overpressure device Without discharge resistor Z type Ceramic Creepage distance Clearance 40 mm 31 mm Expected life Impregnation 100000 h Non polluting oil (NO PCB) 478 Terminal Material 580 TERMINALS AND INSULATION 175 44 63 2 Power Electronics Capacitors INQUIRY FORM In case of custom design, or for any special request / quotation, please complete the following form. Company Name ___________________________________________________________________________ Contact Person ___________________________________________________________________________ Phone / Fax / E-mail ________________________________________________________________________ Application _______________________________________________________________________________ _________________________________________________________________________________________ Technical characteristics Value Unit CAPACITANCE Rated Capacitance Capacitance Tolerance µF % VOLTAGE Rated AC Voltage (Urms) Rated DC Voltage (Un) Superimposed ripple voltage (Ur) Frequency of ripple voltage (fr) Maximum recurrent peak voltage Maximum surge voltage (Us) Voltage raise of rise (dV/dT) V V Vpp Hz V V V/µs CURRENT Rated rms current Maximum rms Current @ θ MAX (IMAX) Maximum peak current (Is) A A kA OPERATING DATA Maximum permissible inductance Maximum series resistance (RS) Maximum tan δ (10E–4) @ 50 Hz Min.operating temperature (θ MIN) Max. operating temperature (θ MAX) Storage temperature MIN / MAX Altitude maximum Expected life timehours nH mΩ °C °C °C m MECHANICAL REQUIREMENTS Maximum dimensions (WxLxH) Flash over distance Creepage distance Terminals mm mm mm FURTHER REQUIREMENTS Quantity Start of delivery pcs/year (*) Bold type: fundamental parameters 45 64 2 Condition / Time / Note Power Electronics Capacitors INQUIRY FORM Circuit scherme Current and voltage waveforms PLEASE COPY, COMPLETE AND RETURN TO: 46 65 2 Notes 66 CAPACITORS / PFC PRODUCT RANGE Low Voltage Power Factor Correction • Capacitors • Components • Power Factor Correction Equipments • Static / Real-Time PFC Equipments • Active Harmonic Filters Medium / High Voltage Power Factor Correction • Capacitors • Components • Outdoor / Indoor Rack-Type PFC Equipment • Outdoor / Indoor Metal-Clad PFC Equipment • Passive Harmonic Filters Power / Energy Analysers and Measurement Instruments • Panel Mounted Power / Energy Analysers • DIN-rail Power / Energy Analysers • Energy Monitoring Networks & Accessories • Energy Monitoring Software Motor-Run / Motor-Start Capacitors • Plastic Case P0 / S0 Capacitors • Plastic Case P2 / S3 Capacitors • Plastic Case P0 / S0 Capacitors with Disconnector • Aluminum Case P2 / S2 Capacitors • Electrolytic Motor-Start Capacitors • Assembled Motor-Start/Run Boxes Lighting Capacitors • Plastic Case Type-A Capacitors • Aluminum Case Type-B Capacitors • Aluminum Case Type-B, Heavy-Duty Capacitors 67 HISTORY DRIVES THE FUTURE Via M. E. Lepido, 182 - 40132 Bologna - Italy Tel. +39 051 6411511 - Fax +39 051 402040 www.ducatienergia.com - E-mail: commri@ducatienergia.com Per la continua evoluzione della nostra tecnologia, ci riserviamo il diritto di cambiare le suddette specifiche senza preavviso. Due to the continual development of our technology, we reserve the right to change the above specifications. Grafiche E. GASPARI - Cadriano di G. (BO) - 04-2015