ECWU (C) Type DC100V series (Stacked Metallized Film) Electrical Characteristics < Typical Data > Temperature Characteristics Frequency Characteristics at 1kHz 10 10 Capacitance change(%) Capacitance change(%) 1.0uF 5 From 0.012uF to 1.0uF 0 -5 -10 0.47uF 5 0.10uF 0.047uF 0 0.012uF -5 -10 1 -60 -40 -20 0 20 40 60 80 100120 140 10 1000 10000 Frequency (kHz) Temperature(Dgree C) at 1kHz 10 10 8 8 Dissipation factor(%) Dissipation factor(%) 100 6 4 2 From 0.012uF to 1.0uF 0 1.0uF 6 0.47uF 0.10uF 4 0.047uF 2 0.012uF 0 -60 -40 -20 0 20 40 60 80 100 120 140 1 10 Temperature (Degree C) 100 1000 10000 Frequency (kHz) at DC 100V 10000 1000 1.E+11 From 0.012uF to 0.047uF 1.E+10 1.0uF 1.E+09 1.E+08 1.E+07 Impedance(ohm) Insuration resistance(ohm) 1.E+12 0.0 47 uF 100 0.0 0.1 1.0 u 10 F 12 uF 0u F 0.4 7u F 1 0.1 0.01 1.E+06 -60 -40 -20 0 20 40 60 80 100 120140 Temperature (Degree C) 0.001 1 10 100 1000 10000 100000 Frequency(kHz) ECWU (C) Type DC100V series (Stacked Metallized Film) Applicable Specifications Permissible current Permissible current 3 3 Effective value (A) Effective value (A) 0.68 uF 2 0.068 uF, 0.056 uF 0.039 uF, 0.033 uF 1.0 uF 0.82 uF 0.56 uF, 0.47 uF 2 0.39 uF 0.15 uF 0.082 uF 0.027 uF, 0.022 uF 1 1 0.047 uF 0.018 uF, 0.015 uF 0.33 uF, 0.27 uF 0.012 uF 0.22 uF, 0.18 uF 0.12 uF, 0.10 uF 0 0 1 10 100 1 1000 Permissible voltage Permissible voltage (at sine wave) 10 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.056 0.068 0.082 (at sine wave) 100 Effective value (V) Effective value (V) 1000 Frequency (kHz) Frequency (kHz) 100 100 10 10 uF uF uF uF uF uF uF, 0.047 uF uF uF uF 0.22 uF 0.27 uF 0.33 uF 0.39 uF 0.47 uF 0.56 uF 0.10 uF 0.12 uF 0.68 uF 0.82 uF 1 1 10 100 Frequency (kHz) 1000 1.0 uF 1 1 100 10 Frequency (kHz) 0.15 uF 0.18 uF 1000 * Please consult Panasonic if your condition exceeds the above spec. *Permissible voltage graph is the case of sine waveform. When you use this product, peak voltage must not exceed DC rated voltage. *The current value (Aop) is calculated using "nominal capacitance." In fact, it changes by the tolerance of a capacitance value, capacitance change, etc. 120 100 80 60 40 20 ECWU (C) Type DC250V series (Stacked Metallized Film) Electrical Characteristics < Typical Data > Temperature Characteristics at 1kHz 5 10 From 1000pF to 1.0uF 0 -5 Capacitance change(%) Capacitance change(%) 10 Frequency Characteristics -10 5 1.0uF 0.10uF 0 0.010uF 1000pF -5 -10 1 -60 -40 -20 0 20 40 60 80 100 120140 10 Temperature (Degree C) 1000 10000 Frequency (kHz) at 1kHz 10 Dissipation factor(%) 10 Dissipation factor(%) 100 8 6 4 2 From 1000pF to 1.0uF 8 6 1.0uF 0.10uF 4 0.010uF 2 1000pF 0 0 -60 -40 -20 0 20 40 60 80 100120 140 1 10 Temperature (Degree C) 100 1000 10000 Frequency (kHz) at DC 100V 10000 1000 1.E+11 From 1000pF to 0.10uF 1.E+10 1.E+09 1.0uF 1.E+08 Impedance(ohm) Insuration resistance(ohm) 1.E+12 1000pF 100 0.010uF 10 1.0uF 1.E+07 0.1 1.E+06 0.01 -60 -40 -20 0 20 40 60 80 100120 140 Temperature (Degree C) 0.10uF 1 1 10 100 1000 10000 100000 Frequency (kHz) ECWU (C) Type DC250V series (Stacked Metallized Film) Applicable Specifications Permissible current Permissible current 1 3 0.027 uF 0.010uF, 8200pF 0.022 uF 0.018 uF 0.5 5600pF, 4700pF 0.015 uF 0.012 uF Effective value (A) Effective value (A) 0.68 uF, 0.39uF 1.0 uF 0.82 uF 0.18uF, 0.27uF 2 0.47 uF 0.12 uF, 0.15uF 0.56 uF 0.33 uF 0.22 uF 6800 pF 1 3900 pF 3300 up 2700 pF 2200 pF 1800 pF 1500 pF 1200 pF 1000 pF 0.10 uF 0.056 0.047 0.033 0.039 uF uF uF uF 0.068uF, 0.082uF 0 100 10 1 0 0.1 1000 1 10 Permissible voltage 1000 Permissible voltage (at sine wave) (at sine wave) 100 1000pF 10 10 0.033 uF ~ 0.027 uF Effective value (V) 100 ~ Effective value (V) 100 Frequency (kHz) Frequency (kHz) 1 1 1.0 uF 0.1 0.1 1 10 Frequency (kHz) 100 1000 0.1 0.1 1 10 Frequency (kHz) 100 * Please consult Panasonic if your condition exceeds the above spec. *Permissible voltage graph is the case of sine waveform. When you use this product, peak voltage must not exceed DC rated voltage. *The current(0-P ) value is calculated using nominal capacitance. 1000 ECWU (C) Type DC250V series (Stacked Metallized Film) Applicable Specifications Pulse Handling Capability (dv/dt) (Max 10000cycles) Rating Voltage Capacitance Value(uF) Code Capacitance Value(uF) Code 0.0010 102 0.62 0.039 393 9.36 0.0012 122 0.74 0.047 473 11.28 0.0015 152 0.92 0.056 563 13.44 0.0018 182 1.11 0.068 683 dv/dt(V/us) Current(0-P ) (A) Rating Voltage dv/dt(V/us) 240 Current(0-P ) (A) 16.32 615 DC 250V 0.0022 222 1.35 0.082 823 19.68 0.0027 272 1.66 0.10 104 24.00 0.0033 332 2.03 0.12 124 28.80 0.0039 392 2.40 0.15 154 28.50 0.0047 472 1.69 0.18 184 0.0056 562 2.02 0.22 224 41.80 0.0068 682 2.45 0.27 274 31.05 0.0082 822 2.95 0.33 334 DC 250V 190 34.20 37.95 115 0.010 103 3.60 0.39 394 44.85 0.012 123 4.32 0.47 474 54.05 0.015 153 5.40 0.56 564 36.40 0.018 183 6.48 0.68 684 360 44.20 65 0.022 223 7.92 0.82 824 53.30 0.027 273 9.72 1.0 105 65.00 0.033 333 11.88 DC Rated Voltage (V) 300 Voltage Derating by Temperature 250 200 150 125 100 50 0 -60 -40 -20 0 20 40 60 80 100 120 140 Surface Temperature of Capacitor(Degree C) * Please consult Panasonic if your condition exceeds the above spec. *Permissible voltage graph is the case of sine waveform. When you use this product, peak voltage must not exceed DC rated voltage. *The current(0-P ) value is calculated using nominal capacitance. TYPE:ECWU (C) DC630V series (Stacked Metallized Film) Electrical Characteristics <Typical Data > Temperature Characteristics at 1kHz 10 5 0 0.022uF, 0.033uF -5 Capacitance change(%) Capacitance change(%) 10 Frequency Characteristics -10 -60 -40 -20 0 20 40 60 0.033uF 5 0 -5 -10 1 80 100 120 140 10 Temperature(Degree C) at 1kHz 1000 10 4 3 2 0.022uF, 0.033uF 1 0 10000 0.033uF 0.022uF 8 6 4 2 0 -60 -40 -20 0 20 40 60 80 100 120 140 1 10 Temperature(Degree C) 100 1000 10000 Frequency(kHz) at DC100V 1.E+12 10000 0.022uF 0.022uF,0.033uF 1.E+11 1000 Impedance(ohm) Insulation resistance(ohm) 100 Frequency(kHz) Dissipation factor(%) Dissipation factor(%) 5 0.022uF 1.E+10 1.E+09 1.E+08 0.033uF 100 10 1 0.1 1.E+07 0.01 1.E+06 -60 -40 -20 0 20 40 60 80 100 120 140 Temperature(Degree C) 1 10 100 1000 10000 100000 Frequency(kHz) 140 Panasonic Caution about Safety in Use 3.1. Washing of chip type ●Since the chip type capacitor does not have a coating, components of flux or detergent left over on the element at the time of washing may be activated and invade into the inside of the capacitor, and adverse effects may be caused. Observe the following cautions. ●In the case of washing, use flux and cream solder with halogen content of 0.1wt.% or less when mounting. ●In the case of ultrasonic washing, note that peeling of protective film, electrode separation due to resonance, or characteristic deterioration may occur depending on the detergent used or ultrasonic output. Check carefully beforehand. ●When using a CFC substitute detergent, with the washing method of spraying detergent (rinsing water) to the substrate at high pressure, the protective film on the element surface may be peeled off due to the water pressure. Check carefully beforehand. 2.4.2 Cautions for use of soldering iron ●Be careful that the soldering irons do not directly touch the main body of the chip film capacitor. In particular, don’t touch the side (cut section). If touched by the heated soldering iron, lowering of insulation resistance, shortcircuit or other characteristic deterioration may occur. ●Preheat the printed wining board land sufficiently with the soldering iron, and then solder. Solder without directly touching the iron tip to the electrode of the capacitor. ●Don’t reuse the products once removed by the soldering irons. ●Should not mount the chip film capacitors in the mass production by soldering iron. (The temperature control is difficult, and the characteristics may be deteriorated.) ●Should not resolder with heat directly from bottom side of P. W. Board. because capacitor will likely be damaged. 3. Washing the mounted boards <Usable detergent and washing method> (Usable detergent) Classification Detergent name Alcohol derivative Maker IPA (isopropyl alcohol) Halogenated hydrocarbon (Reagent for general industrial use) AK-225AES (Washing method) Condition Item Asahi Glass Co. Temperature Tine Immersion washing 50 ℃ Within 5 minutes Steam washing 50 ℃ Within 5 minutes Ultrasonic washing 50 ℃ Within 5 minutes <CFC substiture detergent> As a result of regulation of CFC and chlorine derivative detergents, many substitute detergents come to be used, but the performance of the chip type capacitor may be reduced depending on the type of detergent or washing condition. Check sufficiently beforehand. Consult us in advance if planning to use CFC substitute detergent. 3.2. Washing of leaded type The film capacitor varies significantly in the effect of washing depending on the structure and material, and generally it is less affected by CFC or alcohol derivative washing solvent, and is likely to be affected by highly polar solvent. The lead type film capacitor is coated with an epoxy resin excellent in chemical resistance, and is hardly affected by detergent, but it is recommended to be washed for short duration. <Drying after washing> Dry after washing so that the detergent is not left over. If drying is insufficient, the detergent is left over on the element surface, and the insulation resistance is measured to be lowered. Dry enough so as not to leave detergent. Applicability of detergents in film capacitors is listed for reference. Design,Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety arises from this product, please inform us immediately for technical consultation without fail. -11- Sep. 2008 Panasonic Caution about Safety in Use <List of applicability of detergents> Box type Washing condition Chip type Lead type Ethanol Ultrasonic washing or immersion washing for 5 min ○ ○ ○ Isopropyl alcohol (IPA) Ultrasonic washing or immersion washing for 5 min ○ ○ ○ FRW-17 Ultrasonic washing for 5 min, 60 ℃ ⇒FRW-1N Ultrasonic washing for 5 min, 60 ℃ ⇒FRW-100 Steam drying for 1 min, 100 ℃ ○ ○ ○ Asahi Clean AK-225AES Ultrasonic washing or immersion washing for 5 min ○ ○ ○ HCFC141b-MS Ultrasonic washing or immersion washing for 5 min ○ ○ ○ P3 Cold Cleaner 225S Ultrasonic washing for 5 min 60 ℃ ⇒ IPA ultrasonic rinsing for 5 min at ordinary temperature ⇒ hot air drying for 5 min, 40 ℃ ○ ○ ○ Toluene Ultrasonic washing or immersion washing for 5 min × ○ ○ Terpene Cleaner EC-7 Spray washing for 5 min at ordinary temperature ⇒ purified water spraying for 5 min, 50℃ ⇒ hot air drying for 5 min, 80℃ × ○ ○ Ultrasonic washing for 5 min 60 ℃ ⇒ wind-free drying for 5 min, 85 ℃ × ○ ○ Clean Through 750H Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ○ Clean Through 750L Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ― Clean Through 710M Ultrasonic washing for 5 min, 60℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ― Clean Through LC-841 Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ○ Ultrasonic washing for 5 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ○ Shower washing for 1 min, 60 ℃ ⇒ purified water ultrasonic washing for 5 min, 60 ℃ ⇒ hot air drying for 5 min, 85 ℃ × ○ ○ ECQUL Alcohol Solvent Silicon Halogen Petroleum hydrocarbon Terpene Water Purified water Surface active agent ○ : Washing enabled Wash-fre e <Wash-free flux> Low residue flux Inactivated flux × : Washing disabled ― : Not confirmed ULF-500VS ○ ○ ○ AM-173 ○ ○ ○ Washing disabled (x mark) detergent should be avoided because the appearance may be impaired, the characteristic may be deteriorated, and the reliability cannot be guaranteed Design,Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety arises from this product, please inform us immediately for technical consultation without fail. −12− Jul. 2011