Plastic Film Capacitors SAMHWA CB Non-Inductive Metallized Polycarbonate Film Series Non-inductive construction e Flame retardant resin case Wide operating temperature range of 55~ 105C Almost linear capacitance temperature coefficient * Low self-inductance and low dissipation factor * Applications : Heat resistance circuits and time constant circuits Item Characteristics Operating temperature range 55~ +105C Capacitance tolerance +5% (J), 10% (K), +20% (M) at 1kHz, 20C Dissipation factor 0.003 max. at 1kHz, 20C Insulation resistance CS0.33y~F: 15000 MQ min., C>0.33~F: 5000 OF min. Withstand voltage Test voltage: Rated voltage x 1.6 (VDC) (Terminal to terminal) Test time :25s DRAWING Unit : mm we T+0.2 *Lead Cut 140.2 Lead 75 ob Lead~Space | 5 Dia. Ts4|T>4 H+0.2 d 0.6 | 06 | 08 __ f5t05 15 n t d+0.05 . od +0.05 P+0.4 P+0.4 @ TAPING Lead Taping Capacitors for Automatic Insertion r*LEAD SPACE :5mm r=*LEAD SPACE: 7.5mm r Po at Pe. P = Th, mar mo ma [ We = Ltn " ft H | Ww t WEEE A v | & | W aa he a Qy Wo. | + d = \ gDo | 120 Plastic Film Capacitors CB SERIES SAMHWA @ LEAD TAPING DIMENSIONS Unit : mm Description Symbol 5 Lead space 75 Tolerance Lead wire diameter od 0.6 0.6/0.8 +0.05 Body pitch P 12.7 12.7 +1.0 Feeding hole pitch Po 12.7 12.7 +03 _ Feeding hole off alignment P 6.35 _ __+1.0 Lead center spacing F 5.0 10.0 +0.6, -0.2 Body inclination Ah 0 0 : +20 Body (bottom) height H 18.5 18.5 +0.75 Tape width W 18.0 18.0 +05 Adhesive tape width Wo 6.0 6.0 min. Feeding hole off alignment Wi 90 90 05 Adhesive tape margin Wo. 2.0 2.0 max. Feeding hole diameter @Do 4.0 40 +0.2 Total tape thickness t 0.7 _ 0.7 +02 DIMENSIONS / LEAD SPACE : 5mm Unit : mm VDC (VAC) 63 (40) 100 (63) uF Code T Ww H T Ww H | 0.01 2.5 7.2 65 0.012 2.5 7.2 65 0.015 25 72 i 6.5 0.018 2.5 7.2 6.5 0.022 2.5 7.2 6.5 3.0 7.2 65 0.027 2.5 7.2 65 3.0 7.2 6.5 0.033 2.5 7.2 6.5 3.5 7.2 75 0.039 2.5 7.2 6.5 3.5 7.2 7.5 0.047 3.0 7.2 6.5 45 7.2 95 0.056 3.5 7.2 7.5 - oo 0.068 3.5 7.2 7.5 7 : 0.082 3.5 7.2 7.5 0.1 45 7.2 9.5 0.12 45 7.2 9.5 @ DIMENSIONS / LEAD SPACE : 7.5mm Unit : mm VOC (VAC) 63 (40) 100 (63) pe T Ww H T Ww H 0.027 40 10.5 9.0 0.033 40 10.5 9.0 0.039 40 40.5 9.0 0.047 4.0 10.5 90 0.056 4.0 10.5 9.0 0.068 4.0 10.5 9.0 0.082 4.0 10.5 3.0 0.1 4.0 10.5 9.0 - 0.12 4.0 10.5 9.0 5.0 10.5 11.0 0.15 4.0 10.5 9.0 5.0 10.5 11.0 0.18 4.0 10.5 9.0 0.22 5.0 10.5 11.0 0.27 5.0 10.5 11.0 0.33 6.0 10.5 12.0 al CB SERIES Plastic Film Capacitors SAMHWA TYPICAL PERFORMANCE (CB SERIES) TEMPERATURE CHARACTERISTICS Capacitance change vs. temperature Dissipation factor vs. temperature ~ 1 e +4 _ 0.016 > < 2 +2 0.008 5 2 0 8 6 8 & 000 g 6 g -2 0.004 o @ 6 3 -4 O 9.002 -60 -40 -20 0 20 40 60 80 100 120 -~60 -40 -20 0 20 40 60 80 100 120 Temperature (C) Temperature (C) @ FREQUENCY CHARACTERISTICS . Capacitance change vs. frequency Dissipation factor vs. frequency +04 0.008 S ws S402 @ 2 c 5 0.006 5 6 8 oO 9 5 0.004 c +~ = -0.2 gs QO 0002 O o4 -06 10? 108 10 10 10 10 Frequency (Hz) Frequency (Hz) @LOAD LIFE (at + 105C) Capacitance change vs. time Dissipation factor vs. time set 1.0 0.005 O oS 2 +05 & 0.004 Q 0 8 0.003 = a < -05 s 0.002 s a Oo G a) -1.0 6 0.001 -15 0 500 1000 1500 2000 0 500 1000 1500 2000 Time (hours) Time (hours) 122 Plastic Film Capacitors SAMHWA TYPICAL PERFORMANCE @ TEMPERATURE CHARACTERISTICS Capacitance change (%) Capacitance change vs. temperature 40 ~20 0 20 40 60 80 100 Temperature (C) Dissipation factor vs. temperature FREQUENCY CHARACTERISTICS Capacitance change vs. frequency +04 Capacitance change (%) 103 104 10 Frequency (Hz) Dissipation factor vs. frequency 0.02 0.01 = oy s a awh, 5 2 ak & = 0.008 5 0.015 CAF S o Low - @ O _ oO = 0.006 S Ss % 0.01 3 3 et a Be 0.004 a - Ry 3 wen 0.005 _ 0.002 oa _ __ PY.PX,PM.PH 108 10 10 Temperature (C) Frequency (Hz) Insulation resistance vs. temperature Impedance vs. frequency 0.001 pF 108 = 0.01 nF = = 10 g a O.4uF @ H 108 10 3 c a So g E & ~ 1 Vv 3 / on \ = .7 Mi 104 v 0.1 -40 -20 0 20 40 60 80 100 108 107 108 Temperature (C) Frequency (Hz) 123 Plastic Film Capacitors SAMHWA DAMP HEAT STEADY STATE at+ 40C, humid 95 @LOAD LIFE (at+85C) ( % ) | Capacitance change vs. time Capacitance change vs. time 2 4 1s.1E - g x : = 4) PY,PX,PM,PH ey o : ne ee ee ee ee ee e a aera , 5 5 oO oO g ' 8 TX.TM.E! 2 5 EB TRIM EN GS oO a 3 a MY,MX.MM_ 8 o =A TTT PY,PX,PM.PH -1 0 00 1000 1500 2000 500 1000 1500 2000 Time (hours) Time (hours) Dissipation factor vs. time Dissipation factor vs. time 0.010 ; _ 0.010 i ~o as : } c 5 : g = 0.008! = 0.008 S : i 2 & 0.006 | i ee __ _-SE__| 5 1S Te 2 ! oo TYTXTMEH.EBj 8 _ -- oO L : a 80.004 ' @ 0.004 EB, TY,TX,1M.EH 3 | MY,MX,MM 5 OCA 0.002 ! 0.002 > i PY,PX,PM,PH PY,PX,PM,PH . 0 500 1000 1500 2000 9 500 1000 1500 2000 Time (hours) Time ( hours ) Insulation resistance vs. time Insulation resistance vs. time 107 10 e Ss = PY,P < ,PX,PM, ~ 3 poor rH ~~ __ Q PY,PX.PM. PH S 5 a % 108 { B 108! ~~ . MY,MX,MM : 2 + MY,MX,MM ee < ee ee oe! c re me ~~, i 5 ~~ 3 i _TY,1X,TS,TE.EH a LT, TM,.EH EB, Tx ~~ 3B 10oh = 3 ts Ewe - & ee. 108 | or 0 500 1000 1500 2000 Q 500 1000 1500 2000 Time ( hours) 124 Time (hours)