Type 41P Wrap-and-Fill Polyester ielectric Film / Foil Construction Voltage erating: At +15 C, 7% of the 85 C rating At +125 C, 5% of the 85 C rating Voltage Test: 2% of rated voltage for 1 minute Insulation Resistance: At +25 C, 5, Megaohm-Microfarads, need not exceed 1, Megaohms At +85 C, 2,5 Megaohm-Microfarads, need not exceed 5, Megaohms At +15 C, 1, Megaohm-Microfarads, need not exceed 2, Megaohms At +125 C, 1 Megaohm-Microfarads, need not exceed 15 Megaohms MAXIMUM PUSE RISE TIME Features Extended Foil Construction Moisture Resistant PHYSICA CHARACTERISTICS Construction: Non-inductive wound polyester film and foil. Case: Flame retardant tape wrap and epoxy endfill. ead Material: Solder coated solid wire. ead Wire Sizes: Case ia. ead AWG.437.25 (No. 22) >.437.32 (No. 2) ead Strength: Capable of withstanding a five pound pull force on lead axis. Marking: earborn trademark, type or catalog number, capacitance, tolerance and voltage. EECTRICA SPECIFICATIONS Capacitance Range:.1 μf to 5. μf Capacitor Rise Time dv / dt (V / μs) ength (inch) 5 VC 1 VC 2 VC 4 VC 6 VC.45-1 - - -.531 735 - - - -.594 54 - - - -.656 36 - - - -.718 288 288 413 875 1563.75 275 - - - -.812 252 - - - -.844-219 268 62 15.875 - - - - 118.969 - - 217 - - 1. - - 18 475 764 1.62 161 - - - - 1.25-127 16 329 515 1.375 124 - - - - 1.562-114 137 31 359 11 - - - - 1.75 - - 124 29-1.875 1-11 - - 1.937-1 - 25 344 2.125 75 - - - 316 2.375-9 1 185 261 2.625-74 9-234 3.62 - - 83 - - dimensions (in inches) Solid tinned wire* Voltage Rating: 5 VC to 6 VC 32 VAC to 22 VAC Capacitance Tolerance: ±2%, ±1%, ±5% Operating Temperature: -55 C to +125 C issipation Factor: 1.%, maximum Min. Min. * eads to be within ±.62 of center line at egress, but not less than.31 from edge. 18
Wrap-and-Fill Polyester ielectric Film / Foil Construction Type 41P STANAR RATINGS Capacitance Voltage Code 5 5 VC / 32 VAC* Voltage Code 1 1 VC / 63 VAC* Voltage Code 2 2 VC / 126 VAC* Voltage Code 4 4 VC / 2 VAC* Voltage Code 6 6 VC / 22 VAC* μf Code.1 12 - - - -.19.45.19.718.19.718.15 152 - - - -.19.45.19.718.19.718.22 222 - - - -.19.45.19.718.19.718.33 332 - - - -.19.45.19.718.25.718.47 472 - - - -.19.45.19.718.235.718.68 682 - -.19.45.19.718.19.718.24.844.1 13 - -.19.45.19.718.2.844.27.844.15 153.19.531.19.718.19.718.23.844.315.875.22 223.2.594.19.718.19.718.265.844.375 t.875.33 333.21.656.19.718.19.844.315.875.395 1..47 413.215.718.215.718.21.844.325 1..4 1.25.68 683.25.718.215.844.24.844.34 1.25.455 1.25.1 14.29.75.245.844.275.969.4 1.25.47 1.562.15 154.312.812.285.844.345 1..45 1.562.545 1.562.22 224.315 1.62.29 1.25.355 1.25.48 1.562.59 1.937.33 334.375 1.62.325 1.25.425 1.25.65 1.75.8 1.937.47 474.43 1.62.38 1.25.44 1.562.725 1.937.89 2.125.68 689.45 1.375.455 1.562.61 1.75.75 2.375.98 2.375 1. 15.5 1.375.535 1.562.71 1.875.9 2.375 - - 1.5 155.64.645 1.937.73 2.375 - - - - 2. 25.73.715 1.937.8 2.375 - - - - 2.5 255.75 1.875.715 2.375.834 2.625 - - - - 3. 35.83 1.875.77 2.375.95 2.625 - - - - 4. 45.85 2.125.83 2.625.945 3.62 - - - - 5. 55.94 2.125.915 2.625 - - - - - - Additional capacitance values, voltages, and tolerances are available upon request. * AC voltage rating is at 6Hz 1.4 x VRMS + VC should not exceed the rated VC. 19
Typical characteristics Polyester Film / Foil Types TYPICA CHARACTERISTICS CAPACITANCE CHANGE VS. TEMPERATURE Insulation Resistance Vs. Temperature % Capacitance Change 6 Megaohms X Microfarads 1,, 4 2 1, 1, -2 -.4 1, -6-5 -25 25 5 75 1 125 1 25 45 65 85 15 125 Typical issipation Factor Vs. Temperature % issipation Factor 1.4 1.2 Polyester Film/foil 1.8.6.4.2-5 -25 25 5 75 1 125 Measured at 1kHz 9
Guide to Ordering GROUNE SECTION TO CASE GROUNE TO CASE SECTION INSUATE FROM CASE SECTION INSUATE FROM CASE IMENSIONS IN INCHES imensions (in inches) CASE STYE 1 CASE STYE 1. IMENSIONS IN INCHES imensions (in inches) CASE STYE 2. CASE STYE 2 IA. IA CASE STYE 3 ±.62.2.37 INSUATING SEEVE.75 MAX. THICKNESS CASE STYE 12 C IA ±.5 IA.2 IA. ±.62 IA CASE STYE 3 C INSUATING SEEVE.75 MAX. THICKNESS CASE STYE 12 IA.2 A C B C B W SOI TINNE EAS.33 ±.5 FOR.4 IA.,.51 ±.5 FOR IA..5 AN ARGER. The length of grounded styles is.62 shorter than the length shown in tabulations in the catalog. ±.5.SOI TINNE EAS CASE STYE 4. W C. ±.31 CASE STYE 4 ±.31 INSUATING SEEVE.75 MAX THICKNESS CASE STYE 13 INSUATING SEEVE.75 MAX THICKNESS CASE STYE 13.2.2 IA WRAP-AROUN C APPROX. 135 FOR.4 IA., AN APPROX. 225 FOR ARGER IA. ±.5 A C B IA A IA C B WRAP-AROUN APPROX. 135 FOR.4 IA., AN APPROX. 225 FOR ARGER IA..33 ±.5 FOR.4 IA.,.51 ±.5 FOR IA..5 AN ARGER W.33 ±.5 FOR.4 IA.,.51 ±.5 FOR IA..5 AN ARGER W.33 ±.5 FOR.4 IA.,.51 ±.5 FOR IA..5 AN ARGER 19
Guide to Ordering Bracket imensions (Style 12 & 13 / in inches) W A B C.4.25.144.187.312.5.5.156.25.437±.62.562.5.156.25.437±.62.67.5.156.25.437±.62.75.5.156.25.437±.62 1..5.156.25.437±.62 *Based on 1 in. = 25.4 mm TYPICA TAB TERMINA IMENSIONS c.2 ±.5 c.125 Slot.62 x.125.296 ±.62 A B wg. No A-9525 A =.156 ±.15 (3.96 ±.38 mm) B =.187 ±.15 (4.75 ±.38 mm) Tab Terminal available only on case diameters equal to or greater than.4 inches. T1 & T3 styles are supplied with one tab terminal on the insulated end and a ground lead on the opposite end. 2
Ordering tables metal case EXAMPE: 218P 223 X9 1 S 2 Catalog numbering system wrap and fill EXAMPE: 43P 183 X9 1 X F Case style Terminal: S = Wire leads T = Soldering tab*. C Voltage rating: Expressed in volts. See standard ratings charts for voltage code. Capacitance Tolerance: X = ±2% X9 = ±1% X5 = ±5% X2 = ±2% Capacitance: Expressed in picofarads, the first two digits are significant figures; the third is the number of zeros following. See standard ratings tables for capacitance code. earborn type number: Identifies the basic capacitor. * Soldering tabs are available only on case diameters equal to or greater then.4 inches. Catalog numbering system F applies only to ROHS compliant parts. Terminal: No suffix required unless specified on applicable specification sheet (Terminal style). C Voltage rating: Expressed in volts. See standard ratings charts for voltage code. Capacitance Tolerance: X = ±2% X9 = ±1% X5 = ±5% X2 = ±2% Capacitance: Expressed in picofarads, the first two digits are significant figures; the third is the number of zeros following. See standard ratings tables for capacitance code. earborn type number: Identifies the basic capacitor. 21
PROPERTIES OF IEECTRIC FIMS Polyester (Polyethylene Terephtalate, P.E.T.) Capacitors with smaller dimensions can be manufactured due to the high dielectric constant and excellent electrical performance of this film. Metalized polyester capacitors also have outstanding self-healing properties. Polypropylene (P.P.) This film features very low dielectric losses, low dielectric adsorption, high dielectric strength, very high insulating strength and a practically linear temperature coefficient in all temperature ranges. All these properties make this film suitable for the manufacturing of power electronics capacitors. However, the operating temperature is limited to 15 C. Polyphenylene Sulfide (P.P.S.) The properties of this film are as follows: very low dielectric losses, low temperature coefficient, high stability of the capacitance value, resistant to humidity and a high melting point. This material is suited for surface mounted precision capacitors (SM). This film also has high temperature advantages and can be used for temperature up to 15 C. Properties of Metalized Film Capacitors The metalized film consists of an extremely thin layer (some hundredths μm) of zinc or aluminum deposited by evaporation under vacuum on the dielectric. The nature, thickness and geometry of the metalized layer modify the properties of the capacitors, especially as far as permissible peak or effective current is concerned. Metalized film capacitors are smaller than film-foil capacitors. Self-healing is a fundamental property of these capacitors. When a dielectric breakdown occurs between the metal layers, due to a dielectric failure, an electrical arc causes local vapor deposition of the metallization which results in an insulating metallic oxide. Thus regenerated, the capacitor is once again operational. The self-healing operation generally requires only a very small amount of energy (5 to 15 μjoules) and is performed in several μseconds (< 5). However, a minimum amount of energy is required below which self-healing operations are unpredictable. This energy is calculated in relation to the capacitance value and the load voltage: E = 1 / 2 CV 2. Properties of Film-Foil Capacitors Film Foil capacitors are especially recommended to meet high voltage or current and / or power stresses. The thickness of the metal foil enables the reduction of the series resistance and improves the general performance of the capacitors. These improvements are made to the detriment of the volume of the capacitor which also loses its self-healing properties. Composite dielectrics combine films of different types with complementary specific characteristics. For high voltage and power electronics applications, these capacitors are usually impregnated with impregnating fluids or solid substances. Capacitor Performance vs. Temperature The capacitors performance versus temperature essentially depends upon the dielectric type. The figure below shows ranges of operating temperatures. % of CAPACITANCE change VS. TEMPERATURE ( C) % Capacitance Change Important differences affect the laws governing the changes of the main electrical characteristics. They are highlighted by the following curves: % of issipation Factor (F) vs. temperature ( C) % issipation Factor 2 15 1 5-5 -1-15 -5-25 25 5 75 1 125 15 175 2 1.75 1.5 1.25 1..75 PAPER/POYESTER POYPROPYENE POYESTER PAPER/POYESTER POY- PHENYENE SUFIE POYCARBONATE POYESTER wg. No. A-14,682B POY-.5 CARBONATE POY- PHENYENE.25 SUFIE POYPROYENE -5-25 25 5 75 1 125 15 175 2 wg. No. A-14,683C 5
PROPERTIES OF IEECTRIC FIMS % of issipation Factor (F) vs. frequency (Hz) A real capacitor may be represented by the following diagram: 1.5 1.4 1.3 IFFERENT IEECTRICS.1µF METAIZE POYESTER IR 1.2 1.1 PAPER/POYESTER FOI s Rs Cd R Percent issipation Factor 1..9.8.7.6.5.4.3.2.1.5kHz 1kHz IR vs. temperature ( C) 1,, METAIZE POYPHENYENE SUFIE 1kHz METAIZE POYCARBONATE POYESTER FOI POYPROPYENE FOI Series Inductance Resistance of metal foil & connections Insulation Resistance ielectric Absorption Resistance equivalent to the dielectric losses Capacitance 1kHz Frequency (Hz) wg. No. A-14,684B Resistive terms generate temperature rises when the capacitors carry AC current (I rms ). epending upon the frequency range, they may be more or less preponderant. The equivalent series resistance (ESR) is the sum of the following terms: ESR = Rs + F / Cω + 1 / IR C 2 ω 2 C s Rs IR Cd R C Typical Insulation Resistance In Megohms X Microfarads 1, 1, 1, 1 POYPROPYENE POYCARBONATE POYPHENYENE SUPHIE POYESTER PAPER / POYESTER 1 25 5 75 1 125 15 175 2 When the frequency increases, the term 1 / IRC 2 ω 2 becomes rapidly insignificant. For plastic dielectrics, losses remain constant within a wide range of frequencies and the affect of the term: F / Cω decreases: ESR = Rs + F / Cω The metal foil and the connections are designed to obtain a resistance value (Rs) as low as possible. This value is dependent on the capacitors technology and geometry. Inductance (s) also disturbs the equation of the capacitors at high frequencies. Impedance (Z) is stated as follows: Z = Rs 2 + (sω -1 / Cω) 2 When frequency increases, the affect of s will gradually cancel the capacitance component of the capacitors until it reaches the resonance frequency where: Z = Rs and Cω 2 = 1 wg. No. A-14,687B 6