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1 2018 产品目录

2 New New

3

4 New New

5

6 ECQUA ECQE(AC) ECQUG ECQUL ECQUA ECQE(AC) ECQUG ECQUL ECQUL ECQUL ECQE ECWF ECQE ECWF ECQE ECWF ECQE ECWF ECQE ECWF ECQUA ECQE(AC) ECQUA ECQE(AC) ECQE ECWF ECQE ECWF ECWH ECQE ECWF ECPU ECPU + PWM + ECHU ECWU ECHU ECHU ECWH ECWF ECHU ECWH ECWF ECHU Wave generator ECHU ECWU

7 Phone Line ECWU ECQE ECHU TX ECWU ECQE ECHU ECHU ECHU ECHU ECHU RX ECQUA ECQUG ECQE ECQUL (AC) ECQUA ECQUG ECQE ECQUL (AC) ECWF ECWH 144 V ~ ECWF ECWF 12 V ECHU Wireless Igniter ECQE

8 New

9 12.7 mm 5 mm AD, AS, AB I 15.0 mm 5 mm 7.5 mm B, C, D, E, F II 8 mm, 12 mm, 16 mm, 24 mm Style AD P Style AS P Style AB P H1 H0 F H1 H 1 MAX F H1 H0 F P0 P0 P0 mm mm mm P P F H (H) H max max max. I Style B P Style C P Style D P Style E P Style F P H1 H0 F H1 H0 F H1 H0 F H1 H0 F H1 H0 F P0 P0 P0 mm mm mm mm mm P P F H H max 39.0 max max max max. P0 P0 II

10 t Style AD, Style B, Style D, Style F P2 P h Style C, Style E P H1 H0 W2 F P1 H1 H0 F W W1 W0 L P0 k P0 fd0 k0 P'0 Style AB, AD, AS Style B Style C Style D, F Style E P 12.7± ± ± ± ±1.0 P ± ± ± ± ±0.2 P ± ±0.2 P ± ± ± ± ±0.50 P ± ± ± ± ±1.3 F Δh 0±2.0 W 18.0±0.5 W min. W 1 9.0±0.5 W H ± ± ± H max max max max max. k 0 k max. 0D 0 4.0±0.2 t 0.7±0.2 L 11.0 max. mm 450 max. 65 max. 350 max. mm

11 B0 A0 P0 P1 P2 fd1 fd0 F E W K T T2 K1 f pcs/reel J1, J2, H1, H2 f pcs/reel H3, G1, G2, G3 f pcs/reel E1, E2, D1, D2 f pcs/reel E3a, E3, D3, D4, D5 f pcs/reel B, Z f pcs/reel X, Y, V f pcs/reel (mm) A 0±0.10 B 0±0.10 W±0.3 F±0.05 E±0.10 P 1±0.1 P 2±0.05 P 0± fd 0 0 fd 1 0 T±0.05 T 2±0.2 K±0.1 K J J H1, H H G1, G G E E E3a, E D1, D D3, D D B Z (mm) A 0±0.1 B 0±0.1 W +0.3 F±0.1 E±0.10 P 1±0.1 P 2±0.1 P 0± fd 0 0 fd 1 0 T±0.02 T 2±0.2 K±0.1 X, Y V E C Tape end Leader part D W1 W2 N A 40 min. 20Empty Pocket min. 400 min. mm (mm) size f180 size f A ±2.0 C 13.0± ±0.2 D 21.0± ±0.8 E 2.0± ±0.5 N ±1.0 W ± ±1.0 W ± ± ±1.0

12 ΔC/C (%) ΔC/C (%) ECQE ECWF ECWH Temp. ( C) ECWU ECHU tan d (%) tan d (%) ECQE ECWF ECWH Temp. ( C) ECWU ECHU IR (MΩ) IR (MΩ) ECWF ECWH ECQE Temp. ( C) ECWU ECHU Temp. ( C) Temp. ( C) Temp. ( C) Cap. : 0.01 μf ECWF ECWH ECQE Cap. : 0.01 μf ECQE 4 7 ΔC/C (%) tan d (%) Frequency (khz) ECWF ECWH Frequency (khz) ΔC/C (%) 10 8 Cap. : 0.01 μf 6 4 ECHU 2 0 ECWU Frequency (khz) tan d (%) Cap. : 0.01 μf ECWU ECHU Frequency (khz)

13 mm PPS PEN Thermoset resin ECHU(X) ECHU(C) ECWU(C) ECWU(C)V16 ECWU(X) ECPU(A) 16 V.DC 50 V.DC 100 V.DC 100 V.DC 250 V.DC 630 V.DC 250 V.DC 100 V.DC 16 V.DC 55 C ~ +125 C 55 C ~ +105 C 55 C ~ +125 C 55 C ~ +85 C 55 C ~ +105 C 40 C ~ +85 C ±2 %, ±5 % ±5 %, ±10 % ±5 % ±5 % ±20 % H H H H H H H H H May. 2016

14 ECHU(X) E C H U X 1C 1H 16 V.DC 50 V.DC G J ±2 % ±5 % mm 12 mm f180 mm f330 mm 8 mm f 330 mm tan d IR 55 C ~ +125 C 16 V.DC, 50 V.DC > 0.12 μf : 105 C 1.25 %/ C 50 V.DC 16 V.DC μf ~ 0.10 μf (E12) 50 V.DC μf ~ 0.22 μf (E12) ±2 %(G), ±5 %(J) tan d < 0.6 % (20 C, 1 khz) (V.DC) 150 %, 60 s 16 V.DC : IR > 3000 MΩ (20 C, 10 V.DC, 60 s) 50 V.DC : IR > 3000 MΩ (20 C, 50 V.DC, 60 s) : : 260 C, 220 C 95 L±0.2 (±0.3) (±0.15) W±0.2 H±0.2 (±0.15) e±0.30 (±0.25) (±0.20) g e±0.30 (±0.25) (±0.20) J1,J2 E1,E2,D1,D3,D4 K1 mm L W H e g K > 0.4 J > 0.6 J > 0.6 H > 1.0 H > 1.0 H > 1.0 G > 1.0 G > 1.0 G > 1.0 E > 2.0 E > 2.0 D > 2.0 D > 2.0 D > 2.0

15 16 V.DC 50 V.DC (mm) (mm) L W H L W H ECHU1C101 X K1 ECHU1H101 X J ECHU1C121 X K1 ECHU1H121 X J ECHU1C151 X K1 ECHU1H151 X J ECHU1C181 X K1 ECHU1H181 X J ECHU1C221 X K1 ECHU1H221 X J ECHU1C271 X K1 ECHU1H271 X J ECHU1C331 X K1 ECHU1H331 X J ECHU1C391 X K1 ECHU1H391 X J ECHU1C471 X K1 ECHU1H471 X J ECHU1C561 X K1 ECHU1H561 X J ECHU1C681 X K1 ECHU1H681 X J ECHU1C821 X K1 ECHU1H821 X J ECHU1C102 X K1 ECHU1H102 X J ECHU1C122 X K1 ECHU1H122 X J ECHU1C152 X K1 ECHU1H152 X J ECHU1C182 X K1 ECHU1H182 X J ECHU1C222 X K1 ECHU1H222 X J ECHU1C272 X K1 ECHU1H272 X J ECHU1C332 X J1 ECHU1H332 X H ECHU1C392 X J1 ECHU1H392 X H ECHU1C472 X J1 ECHU1H472 X H ECHU1C562 X J1 ECHU1H562 X H ECHU1C682 X J1 ECHU1H682 X H ECHU1C822 X J2 ECHU1H822 X H ECHU1C103 X J ECHU1H103 X H ECHU1C123 X H1 ECHU1H123 X G ECHU1C153 X H1 ECHU1H153 X G ECHU1C183 X H1 ECHU1H183 X G ECHU1C223 X H1 ECHU1H223 X G ECHU1C273 X H2 ECHU1H273 X G ECHU1C333 X H2 ECHU1H333 X G ECHU1C393 X H3 ECHU1H393 X G ECHU1C473 X H3 ECHU1H473 X E ECHU1C563 X G2 ECHU1H563 X E ECHU1C683 X G2 ECHU1H683 X E ECHU1C823 X G3 ECHU1H823 X E ECHU1C104 X G3 ECHU1H104 X E ECHU1H124 X D ECHU1H154 X D ECHU1H184 X D ECHU1H224 X D A B C mm A B C K J1, J H1, H2, H G1, G2, G E1, E D1, D3, D

16 ECHU(C) E C H U 1 C V.DC G ±2 % J ±5 % 9 12 mm V 16 mm 55 C ~ +105 C 100 V.DC μf ~ 0.22 μf (E12) ±2 %(G), ±5 %(J) tan d tan d < 0.6 % (20 C, 1 khz) (V.DC) 150 %, 60 s IR IR > 3000 MΩ (20 C, 100 V.DC, 60 s) : : 260 C, 220 C May. 2016

17 (±0.4) (±0.4) L±0.2 W± ± ±0.20 Z,Y H±0.2 (±0.3) mm L W H E E E3a E D D D D D Z Y V.DC (mm) L W H ECHU1103 C E ECHU1123 C E ECHU1153 C E ECHU1183 C E ECHU1223 C E3a ECHU1273 C E ECHU1333 C D ECHU1393 C D ECHU1473 C D ECHU1563 C D ECHU1683 C D ECHU1823 C Z 0.10 ECHU1104 C Z 0.12 ECHU1124 C Z 0.15 ECHU1154 CV Y 0.18 ECHU1184 CV Y 0.22 ECHU1224 CV Y A B C mm A B C E1, E2, E3a, E D1, D2, D3, D4, D Z Y May. 2016

18 ECWU(X) E C W U 1 J X V.DC J ±5 % 5 8 mm tan d 55 C ~ +105 C 100 V.DC μf ~ μf (E12) ±5 %(J) tan d < 1.0 % (20 C, 1 khz) (V.DC) 150 %, 60 s IR IR > 3000 MΩ (20 C, 100 V.DC, 60 s) : : 250 C, 220 C 60 e±0.30 L±0.2 g e±0.30 W±0.2 H±0.2 mm L W H e g H > 1.0 H > 1.0 G > 1.0 G > May. 2016

19 100 V.DC (mm) L W H ECWU1102JX H ECWU1122JX H ECWU1152JX H ECWU1182JX H ECWU1222JX H ECWU1272JX H ECWU1332JX H ECWU1392JX H ECWU1472JX H ECWU1562JX G ECWU1682JX G ECWU1822JX G ECWU1103JX G μf ECWU(C) 100 V A B C mm A B C H2, H G2, G May. 2016

20 ECWU(C) E C W U C V.DC V.DC J K ±5 % ±10 % 9 V 12 mm 16 mm E C W U V V.DC ±5 %12 mm E C W U C 2 J J 12 V 2J 630 V.DC J ±5 % V 16 mm tan d IR 55 C ~ +125 C 100 V.DC, 250 V.DC, 630 V.DC (85 C 1.25 %/ C) 100 V.DC μf ~ 1.0 μf (E12) 250 V.DC μf ~ 0.12 μf (E12) 630 V.DC μf, μf, μf 100 V.DC ±5 %(J), ±10 %(K) ( 0.18 μf ±10 %(K)) 250 V.DC ±5 %(J), ±10 %(K) 630 V.DC ±5 %(J) tan d < 1.0 % (20 C, 1 khz) (V.DC) 150 %, 60 s C < 0.33 μf 100 V.DC, 250 V.DC, 630 V.DC : IR > 3000 MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf 100 V.DC : IR > 1000 MΩ μf (20 C, 100 V.DC, 60 s) 100 V.DC 250 V.DC : : 250 C, 220 C V.DC : : 250 C, 217 C μμ

21 (±0.5) (±0.4) L± ± ±0.20 Z, X V V (±0.4) W±0.3 H±0.2 (±0.3) mm L W H E E E3a E D D D D D B Z X V V.DC 250 V.DC (mm) (mm) L W H L W H ECWU2102 C E ECWU2122 C E ECWU2152 C E ECWU2182 C E ECWU2222 C E ECWU2272 C E μf ~ 0.01 μf ECWU2332 C E1 ECWU(X) ECWU2392 C E ECWU2472 C E ECWU2562 C E ECWU2682 C E ECWU2822 C E ECWU2103 C E ECWU1123 C E1 ECWU2123 C E ECWU1153 C E1 ECWU2153 C E ECWU1183 C E1 ECWU2183 C E ECWU1223 C E1 ECWU2223 C E ECWU1273 C E ECWU2273 C E3a ECWU1333 C E1 ECWU2333 C E ECWU1393 C E1 ECWU2393 C D ECWU1473 C E2 ECWU2473 C D ECWU1563 C E2 ECWU2563 C D ECWU1683 C E3a ECWU2683 C D ECWU1823 C E3 ECWU2823 C B 0.10 ECWU1104 C D ECWU1104V E3 ECWU2104 C B 0.12 ECWU1124 C D ECWU2124 C B 0.15 ECWU1154 C D ECWU1184KC Z 0.22 ECWU1224KC Z 0.27 ECWU1274KC Z ECWU1334KC Z 0.39 ECWU1394KCV x 0.47 ECWU1474KCV x 0.56 ECWU1564KCV V 0.68 ECWU1684KCV V 0.82 ECWU1824KCV V 1.0 ECWU1105KCV V

22 630 V.DC (mm) L W H ECWUC2J223JV Y ECWUC2J273JV Y ECWUC2J333JV Y 1000 A B C mm A B C E1, E2, E3a, E D1, D2, D3, D4, D B Z Y X V

23 ECWU(V16) E C W U 2 V V.DC V16 xdsl400 V.DC ±5 % 55 C ~ +85 C 250 V.DC μf ~ 0.12 μf (E12) ±5 %(J) tan d tan d < 1.0 % (20 C, 1 khz) 400 V.DC, 60 s IR IR > 3000 MΩ (20 C, 100 V.DC, 60 s) : : 250 C, 220 C 60 mm L± ± ±0.20 B (±0.4) W±0.3 H±0.2 (±0.3) L W H E E E3a E D D D D B

24 250 V.DC (mm) L W H ECWU2102V E ECWU2122V E ECWU2152V E ECWU2182V E ECWU2222V E ECWU2272V E ECWU2332V E ECWU2392V E ECWU2472V E ECWU2562V E ECWU2682V E ECWU2822V E ECWU2103V E ECWU2123V E ECWU2153V E ECWU2183V E ECWU2223V E ECWU2273V E3a ECWU2333V E ECWU2393V D ECWU2473V D ECWU2563V D ECWU2683V D ECWU2823V B 0.10 ECWU2104V B ECWU2124V B A B C mm A B C E1, E2, E3a, E D2, D3, D4, D B

25 ECPU(A) k E C P U 1 C M A 5 1C 16 V.DC 5 8 mm 40 C ~ +85 C 16 V.DC 0.10 μf ~ 1.0 μf (E6) ±20 %(M) tan d tan d < 1.5 % ( 20 C, 1 khz ) IR (V.DC) 150 %, 60 s C < 0.33 μf : IR > 1000 MΩ (20 C, 10 V.DC, 60 s) C > 0.33 μf : IR > 300 MΩ μf (20 C, 10 V.DC, 60 s) : : 240 C, 220 C 60 L±0.2 e±0.30 g (±0.25) W±0.20 e±0.30 (±0.25) J1 H±0.2 mm L W H e g J > 0.6 H > 1.0 H > 1.0 H > 1.0 G > May. 2016

26 (mm) L W H 0.10 ECPU1C104MA J ECPU1C154MA H ECPU1C224MA H ECPU1C334MA H ECPU1C474MA H ECPU1C684MA H3 1.0 ECPU1C105MA G A B C mm A B C J H H H G May. 2016

27 ECQE(F) I E C Q E F V.DC V.DC V.DC V.DC V.DC V.DC 1A 125 V.AC 2A 250 V.AC J ±5 % K ±10 % B Z E C Q E R F

28 100 V.DC, 250 V.DC, 400 V.DC, 630 V.DC, 1000 V.DC, 1250 V.DC 40 C ~ +105 C 125 V.AC, 250 V.AC 40 C ~ +105 C 100 V.DC, 250 V.DC,400 V.DC, 630 V.DC, 1000 V.DC, 1250 V.DC (85 C 1.25 %/ C 125 V.AC, 250 V.AC 100 V.DC 0.56 μf ~ 10.0 μf (E12) 250 V.DC μf ~ 10.0 μf (E12) 400 V.DC μf ~ 2.2 μf (E12) 630 V.DC μf ~ 2.2 μf (E12) 1000 V.DC μf ~ 0.22 μf (E12) 1250 V.DC μf ~ 0.22 μf (E12) 125 V.AC μf ~ μf (E12) 250 V.AC μf ~ 2.2 μf (E12) ±5 %(J), ±10 %(K) tan d tan d < 1.0 % (20 C, 1 khz ) IR 100 V.DC ~ 630 V.DC (V.DC) 150 %, 60 s 1000 V.DC, 1250 V.DC (V.DC) 175 %, 2 s ~ 5 s or 1000 V.AC, 60 s 1500 V.AC, 60 s 125 V.AC, 250 V.AC (V.AC) 230 %, 60 s 1500 V.AC, 60 s 100 V.DC ~ 630 V.DC : C < 0.33 μf : IR > 9000 MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf : IR > 3000 MΩ μf 1000 V.DC, 1250 V.DC : IR > MΩ (20 C, 100 V.DC, 60 s) IR > 2000 MΩ (20 C, 500 V.DC, 60 s) 125 V.AC, 250 V.AC : C < 0.47 μf : IR > 2000 MΩ (20 C, 500 V.DC, 60 s) C > 0.47 μf : IR > 3000 MΩ μf (20 C, 100 V.DC, 60 s) L max. T max. L max. L max. G max. F±1.0 H max. 20 min. fd±0.05 S±0.8 Type B H max. 4.5±0.5 S±0.8 Type D H max. 4.5± ±0.5 mm

29 Style AD Style AB P Style B P P H1 H0 F H1 H0 F H1 H0 F P0 P0 P0 Style C Style D Style E P P P H1 H0 F H1 H0 F H1 H0 F P0 P0 P0 AD AS AB B C D E 0.56 ~ 0.68 ( ) F3 100 V.DC 0.82 ~ 1.0 ( ) F3 1.2 ~ 3.3 ( ) F3 1.2 ~ 3.3 R( ) F ~ 0.27 ( ) F ( ) F3 250 V.DC 0.39 ~ 1.5 ( ) F ~ 0.33 R( ) F 0.39 ~ 1.5 R( ) F ~ 0.10 ( ) F3 400 V.DC 0.12 ~ 0.47 ( ) F ~ 0.10 R( ) F ECQE(F) 0.12 ~ 0.47 R( ) F ~ ( ) F ~ ( ) F3 630 V.DC ~ 0.22 ( ) F ~ R( ) F ~ 0.22 R( ) F 1000 V.DC ~ 0.10 R( ) F 1250 V.DC ~ R( ) F 125 V.AC ~ ( ) F ~ R( ) F ~ ( ) F6 250 V.AC ~ R( ) F ~ 0.22 R( ) F AD AB B C D E 5.0 mm 5.0 mm 5.0 mm 5.0 mm 7.5 mm 7.5 mm

30 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE1564 F( ) ECQE1684 F( ) ECQE1824 F( ) ECQE1105 F( ) ,000 ECQE1125 F( ) ECQE1155 F( ) ECQE1185 F( ) ECQE1225 F( ) ECQE1275 F( ) ECQE1335 F( ) ECQE1395 F( ) ECQE1475 F( ) ECQE1565 F( ) ECQE1685 F( ) ECQE1825 F( ) ECQE1106 F( ) (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE2103 F( ) ECQE2123 F( ) ECQE2153 F( ) ECQE2183 F( ) ECQE2223 F( ) ECQE2273 F( ) ECQE2333 F( ) ECQE2393 F( ) ECQE2473 F( ) ECQE2563 F( ) ECQE2683 F( ) ECQE2823 F( ) ECQE2104 F( ) ECQE2124 F( ) ECQE2154 F( ) ECQE2184 F( ) ECQE2224 F( ) ECQE2274 F( ) ECQE2334 F( ) ECQE2394 F( ) ECQE2474 F( ) ECQE2564 F( ) ECQE2684 F( ) ECQE2824 F( ) ECQE2105 F( ) ECQE2125 F( ) ECQE2155 F( ) ECQE2185 F( ) ECQE2225 F( ) ECQE2275 F( ) ECQE2335 F( ) ECQE2395 F( ) ECQE2475 F( ) ECQE2565 F( ) ECQE2685 F( ) ECQE2825 F( ) ECQE2106 F( ) Type D : 0.56 μf ~ 1.0 μf Type B : 1.2 μf ~ 10.0 μf Type D : μf ~ 0.33 μf Type B : 0.39 μf ~ 10.0 μf

31 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE4103 F( ) ECQE4123 F( ) ECQE4153 F( ) ECQE4183 F( ) ECQE4223 F( ) ECQE4273 F( ) ECQE4333 F( ) ECQE4393 F( ) ECQE4473 F( ) ECQE4563 F( ) ECQE4683 F( ) ECQE4823 F( ) ECQE4104 F( ) ECQE4124 F( ) ECQE4154 F( ) ECQE4184 F( ) ECQE4224 F( ) ECQE4274 F( ) ECQE4334 F( ) ECQE4394 F( ) ECQE4474 F( ) ECQE4564 F( ) ECQE4684 F( ) ECQE4824 F( ) ECQE4105 F( ) ECQE4125 F( ) ECQE4155 F( ) ECQE4185 F( ) ECQE4225 F( ) Type D : μf ~ 0.10 μf Type B : 0.12 μf ~ 2.2 μf

32 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE6102 F( ) ECQE6122 F( ) ECQE6152 F( ) ECQE6182 F( ) ECQE6222 F( ) ECQE6272 F( ) ECQE6332 F( ) ECQE6392 F( ) ECQE6472 F( ) ECQE6562 F( ) ECQE6682 F( ) ECQE6822 F( ) ECQE6103 F( ) ECQE6123 F( ) ECQE6153 F( ) ECQE6183 F( ) ECQE6223 F( ) ECQE6273 F( ) ECQE6333 F( ) ECQE6393 F( ) ECQE6473 F( ) ECQE6563 F( ) ECQE6683 F( ) ECQE6823 F( ) ECQE6104 F( ) ECQE6124 F( ) ECQE6154 F( ) ECQE6184 F( ) ECQE6224 F( ) ECQE6274 F( ) ECQE6334 F( ) ECQE6394 F( ) ECQE6474 F( ) ECQE6564 F( ) ECQE6684 F( ) ECQE6824 F( ) ECQE6105 F( ) ECQE6125 F( ) ECQE6155 F( ) ECQE6185 F( ) ECQE6225 F( ) Type D : μf ~ μf Type B : μf ~ μf μf ~ 2.2 μf

33 (mm) H max. F S G max. L max. T max. fd 7.5 mm ECQE10103 F( ) ECQE10123 F( ) ECQE10153 F( ) ECQE10183 F( ) ECQE10223 F( ) ECQE10273 F( ) ECQE10333 F( ) ECQE10393 F( ) ECQE10473 F( ) ECQE10563 F( ) ECQE10683 F( ) ECQE10823 F( ) ECQE10104 F( ) ECQE10124 F( ) ECQE10154 F( ) ECQE10184 F( ) ECQE10224 F( ) Type D : μf ~ μf Type B : μf ~ 0.22 μf

34 (mm) H max. F S G max. L max. T max. fd 7.5 mm ECQE12102 F( ) ECQE12122 F( ) ECQE12152 F( ) ECQE12182 F( ) ECQE12222 F( ) ECQE12272 F( ) ECQE12332 F( ) ECQE12392 F( ) ECQE12472 F( ) ECQE12562 F( ) ECQE12682 F( ) ECQE12822 F( ) ECQE12103 F( ) ECQE12123 F( ) ECQE12153 F( ) ECQE12183 F( ) ECQE12223 F( ) ECQE12273 F( ) ECQE12333 F( ) ECQE12393 F( ) ECQE12473 F( ) ECQE12563 F( ) ECQE12683 F( ) ECQE12823 F( ) ECQE12104 F( ) ECQE12124 F( ) ECQE12154 F( ) ECQE12184 F( ) ECQE12224 F( ) Type D : μf ~ μf Type B : μf ~ 0.22 μf

35 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE1A103 F( ) ECQE1A123 F( ) ECQE1A153 F( ) ECQE1A183 F( ) ECQE1A223 F( ) ECQE1A273 F( ) ECQE1A333 F( ) ECQE1A393 F( ) ECQE1A473 F( ) ECQE1A563 F( ) ECQE1A683 F( ) Type D : μf ~ μf 125 V.AC 250 V 250 V 0-P

36 (mm) H max. F S G max. L max. T max. fd 5 mm 7.5 mm ECQE2A103 F( ) ECQE2A123 F( ) ECQE2A153 F( ) ECQE2A183 F( ) ECQE2A223 F( ) ECQE2A273 F( ) ECQE2A333 F( ) ECQE2A393 F( ) ECQE2A473 F( ) ECQE2A563 F( ) ECQE2A683 F( ) ECQE2A823 F( ) ECQE2A104 F( ) ECQE2A124 F( ) ECQE2A154 F( ) ECQE2A184 F( ) ECQE2A224 F( ) ECQE2A274 F( ) ECQE2A334 F( ) ECQE2A394 F( ) ECQE2A474 F( ) ECQE2A564P( )( ) ECQE2A684P( )( ) ECQE2A824P( )( ) ECQE2A105P( )( ) ECQE2A125P( )( ) ECQE2A155P( )( ) ECQE2A185P( )( ) ECQE2A225P( )( ) μf ~ 2.2 μf Type D : μf ~ μf Type B : μf ~ 0.47 μf 250 V.AC 470 V 630 V 0-P

37 ECQE(B) I E C Q E B V.DC 1A 125 V.AC J ±5 % K ±10 % B Z E C Q E R B 250 V.DC 40 C ~ +105 C 125 V.AC 40 C ~ +105 C 250 V.DC, 125 V.AC 85 C 1.25 %/ C 250 V.DC 250 V.DC μf ~ 4.7 μf (E12) 125 V.AC μf ~ 4.7 μf (E12) ±5 %(J), ±10 %(K) tan d tan d < 1.0 % ( 20 C, 1 khz ) 250 V.DC (V.DC) 150 %, 60 s 125 V.AC (V.AC) 230 %, 60 s 1500 V.AC, 60 s IR 250 V.DC C < 0.33 μf : IR > 9000 MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf : IR > 3000 MΩ μf (20 C, 100 V.DC, 60 s) 125 V.AC C < 0.47 μf : IR > 2000 MΩ (20 C, 500 V.DC, 60 s) C > 0.47 μf : IR > 3000 MΩ μf (20 C, 100 V.DC, 60 s) 02 Sep. 2016

38 Lmax. T max. L max. L max. 1.0 max. F±1.0 H max. 20 min. fd±0.05 S±0.8 Type B H max. 4.5±0.5 S±0.8 Type D H max. 4.5± ±0.5 mm Style AB P Style AD P Style AS P H1 H0 F H1 H0 F H1 H 1 MAX F P0 P0 P0 Style C P Style D P Style E P H1 H0 F H1 H0 F H1 H0 F P0 P0 P0 ECQE(B) 250 V.DC 125 V.AC AD AS AB B C D E ~ 0.15 ( ) B ~ 0.68 ( ) B ~ 1.5 ( ) B ~ 0.68 R( ) B 0.82 ~ 4.7 R( ) B ~ ( ) B ~ 0.22 ( ) B ~ 2.7 ( ) B ~ 0.68 R( ) B 0.82 ~ 2.7 R( ) B AD AS AB C D E 5.0 mm 5.0 mm 5.0 mm 5.0 mm 7.5 mm 7.5 mm 02 Sep. 2016

39 (mm) H max. F S L max. T max. fd 5 mm 5 mm 7.5 mm ECQE2103 B( ) ECQE2123 B( ) ECQE2153 B( ) ECQE2183 B( ) ECQE2223 B( ) ECQE2273 B( ) ECQE2333 B( ) ECQE2393 B( ) ECQE2473 B( ) ECQE2563 B( ) ECQE2683 B( ) ECQE2823 B( ) ECQE2104 B( ) ECQE2124 B( ) ECQE2154 B( ) ECQE2184 B( ) ECQE2224 B( ) ECQE2274 B( ) ECQE2334 B( ) ECQE2394 B( ) ECQE2474 B( ) ECQE2564 B( ) ECQE2684 B( ) ECQE2824 B( ) ECQE2105 B( ) ECQE2125 B( ) ECQE2155 B( ) ECQE2185 B( ) ECQE2225 B( ) ECQE2275 B( ) ECQE2335 B( ) ECQE2395 B( ) ECQE2475 B( ) Type D : μf ~ 0.68 μf Type B : 0.82 μf ~ 4.7 μf 02 Sep. 2016

40 (mm) H max. F S L max. T max. fd 5 mm 5 mm 7.5 mm ECQE1A103 B( ) ECQE1A123 B( ) ECQE1A153 B( ) ECQE1A183 B( ) ECQE1A223 B( ) ECQE1A273 B( ) ECQE1A333 B( ) ECQE1A393 B( ) ECQE1A473 B( ) ECQE1A563 B( ) ECQE1A683 B( ) ECQE1A823 B( ) ECQE1A104 B( ) ECQE1A124 B( ) ECQE1A154 B( ) ECQE1A184 B( ) ECQE1A224 B( ) ECQE1A274 B( ) ECQE1A334 B( ) ECQE1A394 B( ) ECQE1A474 B( ) ECQE1A564 B( ) ECQE1A684 B( ) ECQE1A824 B( ) ECQE1A105 B( ) ECQE1A125 B( ) ECQE1A155 B( ) ECQE1A185 B( ) ECQE1A225 B( ) ECQE1A275 B( ) ECQE1A335 B( ) ECQE1A395 B( ) ECQE1A475 B( ) Type D : μf ~ 0.68 μf Type B : 0.82 μf ~ 4.7 μf 125 V.AC 250 V 250 V 0-P 02 Sep. 2016

41 ECQE(T) I E C Q E T V.DC V.DC V.DC 1A 2A 125 V.AC 250 V.AC J ±5 % K ±10 % B Z E C Q E R T 250 V.DC,400 V.DC, 630 V.DC 40 C ~ +105 C 125 V.AC, 250 V.AC 40 C ~ +105 C 250 V.DC,400 V.DC, 630 V.DC 85 C 1.25 %/ C 125 V.AC, 250 V.AC 250 V.DC μf ~ 10.0 μf (E12) 400 V.DC μf ~ 2.2 μf (E12) 630 V.DC μf ~ 2.2 μf (E12) 125 V.AC μf ~ 0.47 μf (E12) 250 V.AC μf ~ 0.47 μf (E12) ±5 %(J), ±10 %(K) tan d tan d < 1.0 % (20 C, 1 khz ) 250 V.DC ~ 630 V.DC (V.DC) 150 %, 60 s 125 V.AC, 250 V.AC (V.AC) 230 %, 60 s 1500 V.AC, 60 s 250 V.DC ~ 630 V.DC : C < 0.33 μf : IR > 9000 MΩ IR C > 0.33 μf : IR > 3000 MΩ μf (20 C, 100 V.DC, 60 s) 125 V.AC, 250 V.AC : IR > 2000 MΩ (20 C, 500 V.DC, 60 s)

42 Lmax. T max. L max. L max. G max. F±1.0 H max. 20 min. fd±0.05 S±0.8 Type B H max. 4.5±0.5 S±0.8 Type D H max. 4.5± ±0.5 mm Style AD Style AB P Style C P P H1 H0 F H1 H0 F H1 H0 F P0 P0 P0 Style D P Style E P H1 H0 F H1 H0 F P0 P0 AD AB C D E ~ 0.15 ( ) T ~ 0.33 ( ) T3 250 V.DC 0.39 ~ 1.5 ( ) T ~ 0.33 R( ) T 0.39 ~ 1.5 R( ) T ~ ( ) T ~ 0.10 ( ) T3 400 V.DC 0.12 ~ 0.47 ( ) T ~ 0.10 R( ) T 0.12 ~ 0.47 R( ) T ~ ( ) T3 ECQE(T) ~ 0.22 ( ) T3 630 V.DC ~ R( ) T ~ 0.22 R( ) T 0.27 ~ 0.47 ( ) T ~ 0.10 ( ) T6 125 V.AC 0.12 ~ 0.22 ( ) T ~ 0.22 R( ) T 0.27 ~ 0.47 R( ) T ~ 0.22 ( ) T3 250 V.AC ~ ( ) T ~ R( ) T ~ 0.22 R( ) T AD AB C D E 5.0 mm 5.0 mm 5.0 mm 7.5 mm 7.5 mm

43 (mm) L T H max. F S G max. fd max. max. 5 mm 5 mm 7.5 mm ECQE2103 T( ) ECQE2123 T( ) ECQE2153 T( ) ECQE2183 T( ) ECQE2223 T( ) ECQE2273 T( ) ECQE2333 T( ) ECQE2393 T( ) ECQE2473 T( ) ECQE2563 T( ) ECQE2683 T( ) ECQE2823 T( ) ECQE2104 T( ) ECQE2124 T( ) ECQE2154 T( ) ECQE2184 T( ) ECQE2224 T( ) ECQE2274 T( ) ECQE2334 T( ) ECQE2394 T( ) ECQE2474 T( ) ECQE2564 T( ) ECQE2684 T( ) ECQE2824 T( ) ECQE2105 T( ) ECQE2125 T( ) ECQE2155 T( ) ECQE2185 T( ) ECQE2225 T( ) ECQE2275 T( ) ECQE2335 T( ) ECQE2395 T( ) ECQE2475 T( ) ECQE2565 T( ) ECQE2685 T( ) ECQE2825 T( ) ECQE2106 T( ) Type D : μf ~ 0.33 μf Type B : 0.39 μf ~ 10.0 μf

44 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE4103 T( ) ECQE4123 T( ) ECQE4153 T( ) ECQE4183 T( ) ECQE4223 T( ) ECQE4273 T( ) ECQE4333 T( ) ECQE4393 T( ) ECQE4473 T( ) ECQE4563 T( ) ECQE4683 T( ) ECQE4823 T( ) ECQE4104 T( ) ECQE4124 T( ) ECQE4154 T( ) ECQE4184 T( ) ECQE4224 T( ) ECQE4274 T( ) ECQE4334 T( ) ECQE4394 T( ) ECQE4474 T( ) ECQE4564 T( ) ECQE4684 T( ) ECQE4824 T( ) ECQE4105 T( ) ECQE4125 T( ) ECQE4155 T( ) ECQE4185 T( ) ECQE4225 T( ) (mm) H max. F S G max. L max. T max. fd 5 mm 7.5 mm ECQE6103 T( ) ECQE6123 T( ) ECQE6153 T( ) ECQE6183 T( ) ECQE6223 T( ) ECQE6273 T( ) ECQE6333 T( ) ECQE6393 T( ) ECQE6473 T( ) ECQE6563 T( ) ECQE6683 T( ) ECQE6823 T( ) ECQE6104 T( ) ECQE6124 T( ) ECQE6154 T( ) ECQE6184 T( ) ECQE6224 T( ) ECQE6274 T( ) ECQE6334 T( ) ECQE6394 T( ) ECQE6474 T( ) ECQE6564 T( ) ECQE6684 T( ) ECQE6824 T( ) ECQE6105 T( ) ECQE6125 T( ) ECQE6155 T( ) ECQE6185 T( ) ECQE6225 T( ) Type D : μf ~ 0.10 μf Type B : 0.12 μf ~ 2.2 μf Type D : μf ~ μf Type B : μf ~ 2.2 μf 500

45 (mm) H max. F S G max. L max. T max. fd 5 mm 5 mm 7.5 mm ECQE1A103 T( ) ECQE1A123 T( ) ECQE1A153 T( ) ECQE1A183 T( ) ECQE1A223 T( ) ECQE1A273 T( ) ECQE1A333 T( ) ECQE1A393 T( ) ECQE1A473 T( ) ECQE1A563 T( ) ECQE1A683 T( ) ECQE1A823 T( ) ECQE1A104 T( ) ECQE1A124 T( ) ECQE1A154 T( ) ECQE1A184 T( ) ECQE1A224 T( ) ECQE1A274 T( ) ECQE1A334 T( ) ECQE1A394 T( ) ECQE1A474 T( ) Type D : μf ~ 0.22 μf Type B : 0.27 μf ~ 0.47 μf (mm) H max. F S G max. L max. T max. fd 5 mm 7.5 mm ECQE2A103 T( ) ECQE2A123 T( ) ECQE2A153 T( ) ECQE2A183 T( ) ECQE2A223 T( ) ECQE2A273 T( ) ECQE2A333 T( ) ECQE2A393 T( ) ECQE2A473 T( ) ECQE2A563 T( ) ECQE2A683 T( ) ECQE2A823 T( ) ECQE2A104 T( ) ECQE2A124 T( ) ECQE2A154 T( ) ECQE2A184 T( ) ECQE2A224 T( ) ECQE2A274 T( ) ECQE2A334 T( ) ECQE2A394 T( ) ECQE2A474 T( ) Type D : μf ~ μf Type B : μf ~ 0.47 μf 125 V.AC 250 V 250 V 0-P 250 V.AC 470 V 630 V 0-P

46 ECWF(L) E C W F L V.DC V.DC H ±3 % J ±5 % B C E C W F R L tan d IR 40 C ~ +105 C 400 V.DC, 630 V.DC 400 V.DC μf ~ 2.4 μf 630 V.DC μf ~ 1.3 μf ±3 %(H), ±5 %(J) tan d < 0.05 % ( 20 C, 1 khz ) tan d < 0.20 % ( 20 C, 10 khz ) (V.DC) 150 %, 60 s C < 0.33 μf : IR > 9000 MΩ (20 C, 100 V.DC, 60 s for 400 V.DC) C > 0.33 μf : IR > 3000 MΩ μf (20 C, 500 V.DC, 60 s for 630 V.DC)

47 L max. T max. L max. 1.5 max. F±1.5 H max. H max. 4.5± min. 0d± ±0.5 mm S±0.8 Style D P Style E P H1 H0 F H1 H0 F P0 P0 ECWF(L) (V.DC) AD AB C D E ~ R( ) L 0.10 ~ 1.0 R( ) L ~ R( ) L ~ 0.43 R( ) L D 7.5 mm E 7.5 mm

48 (mm) H max. F S L max. T max. fd 7.5 mm ECWF4223 L( ) ECWF4243 L( ) ECWF4273 L( ) ECWF4303 L( ) ECWF4333 L( ) ECWF4363 L( ) ECWF4393 L( ) ECWF4433 L( ) ECWF4473 L( ) ECWF4513 L( ) ECWF4563 L( ) ECWF4623 L( ) ECWF4683 L( ) ECWF4753 L( ) ECWF4823 L( ) ECWF4913 L( ) ECWF4104 L( ) ECWF4114 L( ) ECWF4124 L( ) ECWF4134 L( ) ECWF4154 L( ) ECWF4164 L( ) ECWF4184 L( ) ECWF4204 L( ) ECWF4224 L( ) ECWF4244 L( ) ECWF4274 L( ) ECWF4304 L( ) ECWF4334 L( ) ECWF4364 L( ) ECWF4394 L( ) ECWF4434 L( ) ECWF4474 L( ) ECWF4514 L( ) ECWF4564 L( ) ECWF4624 L( ) ECWF4684 L( ) ECWF4754 L( ) ECWF4824 L( ) ECWF4914 L( ) ECWF4105 L( ) ECWF4115 L( ) ECWF4125 L( ) ECWF4135 L( ) ECWF4155 L( ) ECWF4165 L( ) ECWF4185 L( ) ECWF4205 L( ) ECWF4225 L( ) ECWF4245 L( )

49 (mm) H max. F S L max. T max. fd 7.5 mm ECWF6103 L( ) ECWF6113 L( ) ECWF6123 L( ) ECWF6133 L( ) ECWF6153 L( ) ECWF6163 L( ) ECWF6183 L( ) ECWF6203 L( ) ECWF6223 L( ) ECWF6243 L( ) ECWF6273 L( ) ECWF6303 L( ) ECWF6333 L( ) ECWF6363 L( ) ECWF6393 L( ) ECWF6433 L( ) ECWF6473 L( ) ECWF6513 L( ) ECWF6563 L( ) ECWF6623 L( ) ECWF6683 L( ) ECWF6753 L( ) ECWF6823 L( ) ECWF6913 L( ) ECWF6104 L( ) ECWF6114 L( ) ECWF6124 L( ) ECWF6134 L( ) ECWF6154 L( ) ECWF6164 L( ) ECWF6184 L( ) ECWF6204 L( ) ECWF6224 L( ) ECWF6244 L( ) ECWF6274 L( ) ECWF6304 L( ) ECWF6334 L( ) ECWF6364 L( ) ECWF6394 L( ) ECWF6434 L( ) ECWF6474 L( ) ECWF6514 L( ) ECWF6564 L( ) ECWF6624 L( ) ECWF6684 L( ) ECWF6754 L( ) ECWF6824 L( ) ECWF6914 L( ) ECWF6105 L( ) ECWF6115 L( ) ECWF6125 L( ) ECWF6135 L( )

50 ECWF(A) E C W F A V.DC 2W 450 V.DC H ±3 % J ±5 % J ±5 % K ±10 % B Q C E C W F R 12 A E C W F A 2 J J 12 2J 630 V.DC J ±5 % B Q C 4

51 tan d 40 C ~ +105 C 250 V.DC 450 V.DC 240 Vp-p 450 Vo-p 85 C 1.25 %/ C 630 V.DC85 C 1.0 %/ C 250 V.DC 0.1 μf ~ 6.8 μf 450 V.DC 0.1 μf ~ 4.7 μf 630 V.DC 0.1 μf ~ 2.2 μf 250 V.DC ±3 %(H), ±5 %(J) 450 V.DC ±5 %(J), ±10 %(K) 630 V.DC ±5 %(J) tan d < 0.1 % (20 C, 1 khz) (V.DC) 150 %, 60 s 250 V.DC C < 0.33 μf : IR > 9000 MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf : IR > 3000 MΩ μf IR 450 V.DC C < 0.33 μf : IR > MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf : IR > MΩ μf 630 V.DC C < 0.33 μf : IR > 9000 MΩ (20 C, 500 V.DC, 60 s) C > 0.33 μf : IR > 3000 MΩ μf T max. L max. L max. L max. G max. F±1.0 H max. H max. H max. 4.5± min. 0d±0.05 S± ±0.5 S± ±0.5 mm Type B Type D 02 Sep. 2017

52 Style D P Style E P Style F P H1 H0 P0 F H1 H0 P0 F H1 H0 F P0 ECWF(A) (V.DC) AD AS B C D E F 0.10 ~ ~ ~ 0.47 R( ) A ~ ~ 0.68 J4 D 7.5 mm E 7.5 mm F 7.5 mm (mm) H max. F S G max. L max. T max. fd 7.5 mm ECWF2104 A( ) ECWF2124 A( ) ECWF2154 A( ) ECWF2184 A( ) ECWF2224 A( ) ECWF2274 A( ) ECWF2334 A( ) ECWF2394 A( ) ECWF2474 A( ) ECWF2564 A( ) ECWF2684 A( ) ECWF2824 A( ) ECWF2105 A( ) ECWF2125 A( ) ECWF2155 A( ) ECWF2185 A( ) ECWF2225 A( ) ECWF2275 A( ) ECWF2335 A( ) ECWF2395 A( ) ECWF2475 A( ) ECWF2565 A( ) ECWF2685 A( )

53 (mm) H max. S L max. T max. F G max. fd 7.5 mm ECWF2W104 A( ) ECWF2W124 A( ) ECWF2W154 A( ) ECWF2W184 A( ) ECWF2W224 A( ) ECWF2W274 A( ) ECWF2W334 A( ) ECWF2W394 A( ) ECWF2W474 A( ) ECWF2W564 A( ) ECWF2W684 A( ) ECWF2W824 A( ) ECWF2W105 A( ) ECWF2W125 A( ) ECWF2W155 A( ) ECWF2W185 A( ) ECWF2W225 A( ) ECWF2W275 A( ) ECWF2W335 A( ) ECWF2W395 A( ) ECWF2W475 A( ) (mm) H max. S L max. T max. F G max. fd 7.5 mm ECWFA2J104J( ) ECWFA2J124J( ) ECWFA2J154J( ) ECWFA2J184J( ) ECWFA2J224J( ) ECWFA2J274J( ) ECWFA2J334J( ) ECWFA2J394J( ) ECWFA2J474J( ) ECWFA2J564J( ) ECWFA2J684J( ) ECWFA2J824J( ) ECWFA2J105J( ) ECWFA2J125J( ) ECWFA2J155J( ) ECWFA2J185J( ) ECWFA2J225J( )

54 ECWFD E C W F D W 2J 450 V.DC 630 V.DC J ±5 % K ±10 % B Q C 3 4 μ μ μ μ E C W F D W 2J 450 V.DC 630 V.DC P Q ±5 %(J) ±10 %(K) 1 B Q C Sep. 2017

55 450 V.DC 40 C ~ +110 C 630 V.DC 40 C ~ +105 C 450 V.DC 240 Vp-p 450 Vo-p85 C 0.62 %/ C 630 V.DC 400 Vp-p 630 Vo-p85 C 1.0 %/ C 450 V.DC 0.1 μf ~ 4.7 μf 630 V.DC μf ~ 4.7 μf ±5 %(J), ±10 %(K) tan d tan d < 0.1 % ( 20 C, 1 khz ) (V.DC) 150 %, 60 s IR C < 0.33 μf : IR > MΩ 450 V.DC C > 0.33 μf : IR > MΩ μf (20 C, 100 V.DC, 60 s) C < 0.33 μf : IR > 9000 MΩ 630 V.DC C > 0.33 μf : IR > 3000 MΩ μf (20 C, 500 V.DC, 60 s) L max. T max. L max. L max. G max. F±1.0 H max. H max. H max. 4.5± min. 0d±0.05 S± ±0.5 S± ±0.5 mm Type B Type D Style AB P Style E P Style F P H1 H0 F H1 H0 P0 F H1 H0 F P0 P0 ECWFD (V.DC) AD AS AB B C D E F 0.10 ~ , 0.68, 1.0 P3/Q ~ , 0.68, 1.0 P4/Q ~ ~ ~ P4/Q4 AB 5.0 mm E 7.5 mm F 7.5 mm 03 Sep. 2017

56 (mm) H max. S G L max. T max. F fd max. ECWFD2W104 ( ) ECWFD2W124 ( ) ECWFD2W154 ( ) ECWFD2W184 ( ) ECWFD2W224 ( ) mm 7.5 mm ECWFD2W274 ( ) ECWFD2W334 ( ) ECWFD2W394 ( ) ECWFD2W474P( ) ECWFD2W474Q( ) ECWFD2W474 ( ) ECWFD2W564 ( ) ECWFD2W684P( ) 0.68 ECWFD2W684Q( ) ECWFD2W684 ( ) ECWFD2W824 ( ) ECWFD2W105P( ) ECWFD2W105Q( ) ECWFD2W105 ( ) ECWFD2W125 ( ) ECWFD2W155 ( ) ECWFD2W185 ( ) ECWFD2W225 ( ) ECWFD2W275 ( ) ECWFD2W335 ( ) ECWFD2W395 ( ) ECWFD2W475 ( ) Sep. 2017

57 (mm) H max. S L T G F fd max. max. max. ECWFD2J473 ( ) ECWFD2J563 ( ) ECWFD2J683 ( ) ECWFD2J823 ( ) ECWFD2J104 ( ) ECWFD2J124 ( ) ECWFD2J154 ( ) ECWFD2J184 ( ) ECWFD2J224 ( ) ECWFD2J274 ( ) ECWFD2J334 ( ) ECWFD2J394 ( ) ECWFD2J474 ( ) ECWFD2J564 ( ) ECWFD2J684 ( ) ECWFD2J824 ( ) ECWFD2J105P( ) ECWFD2J105Q( ) ECWFD2J105 ( ) ECWFD2J125 ( ) ECWFD2J155 ( ) ECWFD2J185 ( ) ECWFD2J225 ( ) ECWFD2J275 ( ) ECWFD2J335 ( ) ECWFD2J395 ( ) ECWFD2J475 ( ) Sep. 2017

58 ECWFE E C W F E W 450 V.DC 2J 630 V.DC J ±5 % K ±10 % A μ E C W F E 2 W 2W 450 V.DC P ±5 % Q ±10 % A 40 C ~ +105 C 450 V.DC 240 Vp-p 450 Vo-p85 C 1.25 %/ C 630 V.DC 400 Vp-p 630 Vo-p85 C 1.0 %/ C 450 V.DC 0.1 μf ~ 4.7 μf 630 V.DC 0.1 μf ~ 2.2 μf ±5 %(J), ±10 %(K) tan d tan d < 0.1 % ( 20 C, 1 khz ) (V.DC) 150 %, 60 s IR 450 V.DC C < 0.33 μf : IR > MΩ C > 0.33 μf : IR > MΩ μf (20 C, 100 V.DC, 60 s) 630 V.DC C < 0.33 μf : IR > 9000 MΩ C > 0.33 μf : IR > 3000 MΩ μf (20 C, 500 V.DC, 60 s)

59 L±0.5 H±0.5 T±0.5 WFE2W 105J F± min. 0d± ±0.5 Q P mm (mm) L T H F fd P Q ECWFE2W104 ( ) ± ECWFE2W154 ( ) ± ECWFE2W224 ( ) ± ECWFE2W334 ( ) ± ECWFE2W474P( ) ± ECWFE2W474Q( ) 1000 ECWFE2W474 ( ) ± ECWFE2W684 ( ) ± ECWFE2W105 ( ) ± ECWFE2W155 ( ) ± ECWFE2W225 ( ) ± ECWFE2W335 ( ) ± ECWFE2W475 ( ) ± (mm) L T H F fd P Q ECWFE2J104 ( ) ± ECWFE2J154 ( ) ± ECWFE2J224 ( ) ± ECWFE2J334 ( ) ± ECWFE2J474 ( ) ± ECWFE2J684 ( ) ± ECWFE2J105 ( ) ± ECWFE2J155 ( ) ± ECWFE2J225 ( ) ±

60 ECWH(V) E C W H V V.DC V.DC V.DC V.DC H ±3 % J ±5 % B C E C W H R 12 V 40 C ~ +105 C 1000 V.DC, 1250 V.DC (1000 Vp-p) 1600 V.DC (1200 Vp-p), 2000 V.DC (1500 Vp-p) 85 C 1.25 %/ C 1000 V.DC μf ~ 0.10 μf 1250 V.DC μf ~ 0.10 μf 1600 V.DC μf ~ μf 2000 V.DC μf ~ μf ±3 %(H), ±5 %(J) tan d tan d < 0.1 % (20 C, 1 khz) tan d < 0.2 % (20 C, 10 khz) (V.DC) 150 %, 60 s 1500 V.AC 60 s IR IR > MΩ (20 C, 500 V.DC, 60 s)

61 L max. T max. L max. 1.5 max. F±1.25 H max. H max. 4.5± min ±0.05 S± ±0.5 mm Style E P H1 H0 F P0 ECWH(V) (V.DC) AD AS B C D E ~ 0.10 R( ) V ~ R( ) V ~ R( ) V ~ R( ) V E 7.5 mm

62 (mm) H max. F S L max. T max. fd 7.5 mm ECWH10752 V( ) ECWH10822 V( ) ECWH10912 V( ) ECWH10103 V( ) ECWH10113 V( ) ECWH10123 V( ) ECWH10133 V( ) ECWH10153 V( ) ECWH10163 V( ) ECWH10183 V( ) ECWH10203 V( ) ECWH10223 V( ) ECWH10243 V( ) ECWH10273 V( ) ECWH10303 V( ) ECWH10333 V( ) ECWH10363 V( ) ECWH10393 V( ) ECWH10433 V( ) ECWH10473 V( ) ECWH10513 V( ) ECWH10563 V( ) ECWH10623 V( ) ECWH10683 V( ) ECWH10753 V( ) ECWH10823 V( ) ECWH10913 V( ) ECWH10104 V( )

63 (mm) H max. F S L max. T max. fd 7.5 mm ECWH12362 V( ) ECWH12392 V( ) ECWH12432 V( ) ECWH12472 V( ) ECWH12512 V( ) ECWH12562 V( ) ECWH12622 V( ) ECWH12682 V( ) ECWH12752 V( ) ECWH12822 V( ) ECWH12912 V( ) ECWH12103 V( ) ECWH12113 V( ) ECWH12123 V( ) ECWH12133 V( ) ECWH12153 V( ) ECWH12163 V( ) ECWH12183 V( ) ECWH12203 V( ) ECWH12223 V( ) ECWH12243 V( ) ECWH12273 V( ) ECWH12303 V( ) ECWH12333 V( ) ECWH12363 V( ) ECWH12393 V( ) ECWH12433 V( ) ECWH12473 V( ) ECWH12513 V( ) ECWH12563 V( ) ECWH12623 V( ) ECWH12683 V( ) ECWH12753 V( ) ECWH12823 V( ) ECWH12913 V( ) ECWH12104 V( )

64 (mm) H max. F S L max. T max. fd 7.5 mm ECWH16132 V( ) ECWH16152 V( ) ECWH16162 V( ) ECWH16182 V( ) ECWH16202 V( ) ECWH16222 V( ) ECWH16242 V( ) ECWH16272 V( ) ECWH16302 V( ) ECWH16332 V( ) ECWH16362 V( ) ECWH16392 V( ) ECWH16432 V( ) ECWH16472 V( ) ECWH16512 V( ) ECWH16562 V( ) ECWH16622 V( ) ECWH16682 V( ) ECWH16752 V( ) ECWH16822 V( ) ECWH16912 V( ) ECWH16103 V( ) ECWH16113 V( ) ECWH16123 V( ) ECWH16133 V( ) ECWH16153 V( ) ECWH16163 V( ) ECWH16183 V( ) ECWH16203 V( ) ECWH16223 V( ) ECWH16243 V( ) ECWH16273 V( ) ECWH16303 V( ) ECWH16333 V( ) ECWH16363 V( ) ECWH16393 V( ) ECWH16433 V( ) ECWH16473 V( ) ECWH16513 V( ) ECWH16563 V( )

65 (mm) H max. F S L max. T max. fd 7.5 mm ECWH20102 V( ) ECWH20112 V( ) ECWH20122 V( ) ECWH20132 V( ) ECWH20152 V( ) ECWH20162 V( ) ECWH20182 V( ) ECWH20202 V( ) ECWH20222 V( ) ECWH20242 V( ) ECWH20272 V( ) ECWH20302 V( ) ECWH20332 V( ) ECWH20362 V( ) ECWH20392 V( ) ECWH20432 V( ) ECWH20472 V( ) ECWH20512 V( ) ECWH20562 V( ) ECWH20622 V( ) ECWH20682 V( ) ECWH20752 V( ) ECWH20822 V( ) ECWH20912 V( ) ECWH20103 V( ) ECWH20113 V( ) ECWH20123 V( ) ECWH20133 V( ) ECWH20153 V( )

66 ECWH(A) E C W H H A V.DC H ±3 % B Q C E C W H R H A E C W H A 3 C C 1600 V.DC H ±3 % J ±5 % B Q C 4

67 40 C ~ +105 C 800 V.DC 1600 V.DC μf ~ μf μf ~ μf ±3 %(H) ±3 %(H), ±5 %(J) tan d tan d < 0.1 % ( 20 C, 1 khz ) (V.DC) 150 %, 60 s IR IR > MΩ (20 C, 500 V.DC, 60 s) L max. T max. L max. L max. 1.5 max. F±1.0 H max. 25 min. 0d±0.05 S±0.8 H max. 4.5±0.5 S± ±0.5 H max. 4.5±0.5 mm Style E P H1 H0 F P0 (V.DC) AD AS B C D E ECWH(A) ~ RHA ECWH(A) ~ ( ) 4 E 7.5 mm (mm) H max. S L max. T max. F fd ECWH8103HA( ) ECWH8123HA( ) ECWH8153HA( ) ECWH8183HA( ) ECWH8223HA( ) ECWH8273HA( ) ECWH8333HA( ) ECWH8393HA( ) ECWH8473HA( ) mm

68 (mm) H max. S L max. T max. F fd ECWHA3C102 ( ) ECWHA3C112 ( ) ECWHA3C122 ( ) ECWHA3C132 ( ) ECWHA3C152 ( ) ECWHA3C162 ( ) ECWHA3C182 ( ) ECWHA3C202 ( ) ECWHA3C222 ( ) ECWHA3C242 ( ) mm ECWHA3C272 ( ) ECWHA3C302 ( ) ECWHA3C332 ( ) ECWHA3C362 ( ) ECWHA3C392 ( ) ECWHA3C432 ( ) ECWHA3C472 ( ) ECWHA3C512 ( ) ECWHA3C562 ( ) ECWHA3C622 ( ) ECWHA3C682 ( ) ECWHA3C752 ( ) ECWHA3C822 ( ) ECWHA3C912 ( ) ECWHA3C103 ( ) ECWHA3C113 ( ) ECWHA3C123 ( ) ECWHA3C133 ( ) ECWHA3C153 ( ) ECWHA3C163 ( ) ECWHA3C183 ( ) ECWHA3C203 ( ) ECWHA3C223 ( ) ECWHA3C243 ( ) ECWHA3C273 ( ) ECWHA3C303 ( ) ECWHA3C333 ( ) ECWHA3C363 ( ) ECWHA3C393 ( ) ECWHA3C433 ( ) ECWHA3C473 ( )

69 ECWH(C) E C W H H C V.DC H ±3 % C E C W H R H C E C W H C 3 B J 12 A 3B 1250 V.DC J ±5 % A E C W H C 3 F J 12 3F 3000 V.DC J ±5 % D Q 03 Sep. 2017

70 tan d 630 V.DC 40 C ~ +105 C 40 C ~ +85 C 1250 V.DC 40 C ~ +105 C 40 C ~ +85 C 3000 V.DC 40 C ~ +85 C 630 VDC, 1250 VDC, 3000 VDC 630 V.DC 0.10 μf ~ 0.33 μf 1250 V.DC 0.08 μf ~ 0.12 μf 3000 V.DC μf ~ 0.01 μf 630 V.DC ±3 %(H) 1250 V.DC ±5 %(J) 3000 V.DC ±5 %(J) 630 V.DC tan d < 0.05 % ( 20 C, 1 khz ) 1250 V.DC tan d < 0.1 % ( 20 C, 10 khz ) 3000 V.DC tan d < 0.1 % ( 20 C, 1 khz ), tan d < 0.1 % ( 20 C, 10 khz ) 630 V.DC 1250 V.DC (V.DC) 150 %, 60 s 3000 V.DC 6615 V.DC, 3s IR 630 V.DC 1250 V.DC IR > 9000 MΩ (20 C, 500 V.DC, 60 s) 3000 V.DC IR > MΩ (20 C, 500 V.DC, 60 s) L max. T max. G max. F±1.0 H max. 25 min ±0.05 S± ±0.5 7 max. H max. 4.5± ±0.5 mm 5.5±0.5 Style E P H1 H0 F P0 (V.DC) AD AS B C D E ECWH(C) ~ 0.21 E 7.5 mm 03 Sep. 2017

71 (mm) L max. T max. H max. F G max. fd 7.5 mm ECWH6104HC( ) ECWH6114HC( ) ECWH6124HC( ) ECWH6184HC( ) ECWH6214HC( ) ECWH6244HC( ) ECWH6274HC( ) ECWH6284HC( ) ECWH6304HC( ) ECWH6324HC( ) ECWH6334HC( ) (mm) L max. T max. H max. F G max. fd ECWHC3B803JA ECWHC3B104JA ECWHC3B114JA ECWHC3B124JA (mm) S L max. T max. H max. F G max. fd ECWHC3F242J( ) ECWHC3F362J( ) ECWHC3F392J( ) ECWHC3F432J( ) ECWHC3F562J( ) ECWHC3F822J( ) ECWHC3F103J( ) Sep. 2017

72 TMF KS SS V V 150 V.AC ~ 220 V.AC 300 V.AC ~ 2300 V.AC V.DC ~ 630 V.DC 500 V.DC ~ 1200 V.DC 150 V.AC ~ 220 V.AC 1 μf ~ 10 μf 300 V.AC ~ 2300 V.AC 0.01 μf ~ 4.0 μf V.DC ~ 630 V.DC 1 μf ~ 10 μf 500 V.DC ~ 1200 V.DC 0.01 μf ~ 4.0 μf 85 C

73 ECQUA [Class X2] μ E C Q U A A F K ±10 % M ±20 % A UL UL Class X2 CSA CAN/CSA E Class X2 UL EN Class X2 IEC Class X2 VDE μ 40 C ~ +110 C 275 V.AC 0.10 μf ~ 4.7 μf ±10 % (K), ±20 % (M) (tan d) C < 1.0 μf : tan d < 0.1 % ( 20 C, 1 khz ) C > 1.0 μf : tan d < 0.2 % ( 20 C, 1 khz ) 633 V.AC, 1183 V.DC, 60 s 2050 V.AC, 60 s C < 0.33 μf : IR > MΩ (20 C, 100 V.DC, 60 s) (IR) C > 0.33 μf : IR > 5000 MΩ μf (20 C, 100 V.DC, 60 s) C < 0.47 μf : IR > 2000 MΩ (20 C, 500 V.DC, 60 s) 310 V.AC 03 Feb. 2018

74 L±0.5 T±0.5 H±0.5 (A) side (B)(C) side F± min. 0d± ±0.5 ECQUA V ~ X2 K Q (A) (C) (B) P mm NEW NEW (mm) L T H F fd P Q ECQUAAF104 ( ) ± ECQUAAF154 ( ) ± ECQUAAF224 ( ) ± ECQUAAF334 ( ) ± ECQUAAF474 ( ) ± ECQUAAF684 ( ) ± ECQUAAF105 ( ) ± ECQUAAF155 ( ) ± ECQUAAF225 ( ) ± ECQUAAF335 ( ) ± ECQUAAF475 ( ) ± Feb. 2018

75 ECQUL [Class X2] [Class Y2/X2] E C Q U 2 A L K ±10 % M ±20 % Blank A UL CSA UL Class Y2/X2 ( μf ~ μf) Class X2 ( μf ~ 2.2 μf) UL Class Y2/X2 ( μf ~ μf) CAN/CSA E Class X2 ( μf ~ 2.2 μf) CSA C22.2 Electromagnetic (1.2 μf ~ 2.2 μf) No.8-M1986 Interference (EMI) Filters CSA EN Class Y2/X2 ( μf ~ μf) Class X2 ( μf ~ 2.2 μf) IEC Class Y2/X2 ( μf ~ μf) Class X2 ( μf ~ 2.2 μf) VDE μ 40 C ~ +100 CCSA C22.2 No C max. 275 V.ACCSA C22.2 No V.AC μf ~ 2.2 μf ±10 % (K), ±20 % (M) (tan d) tan d < 1.0 % (20 C, 1 khz) 575 V.AC, 1768 V.DC, 60 s ( μf ~ 2.2 μf) 1500 V.AC, 2121 V.DC, 60 s ( μf ~ μf) 2050 V.AC, 60 s C < 0.33 μf : IR > MΩ (20 C, 100 V.DC, 60 s) (IR) C > 0.33 μf : IR > 5000 MΩ μf (20 C, 100 V.DC, 60 s) IR > 2000 MΩ (20 C, 500 V.DC, 60 s)

76 L±0.5 T±0.5 STYLE (A) side (B) side F±0.4 H± min. 0d± ± μf ~ μf μf ~ 1.0 μf.001 μf K.0082 μf K ECQUL 275V~ X2/Y2 ECQUL 275V~ X2 Q (A) (B) μf ~ 2.2 μf 1.5 μf K 8X ECQUL 250 V~ 275V~ X2 P mm (mm) L T H F fd P Q ECQU2A102 L( ) ± ECQU2A122 L( ) ± ECQU2A152 L( ) ± ECQU2A182 L( ) ± ECQU2A222 L( ) ± ECQU2A272 L( ) ± ECQU2A332 L( ) ± ECQU2A392 L( ) ± ECQU2A472 L( ) ± ECQU2A562 L( ) ± ECQU2A682 L( ) ± ECQU2A822 L( ) ± ECQU2A103 L( ) ± ECQU2A123 L( ) ± ECQU2A153 L( ) ± ECQU2A183 L( ) ± ECQU2A223 L( ) ± ECQU2A273 L( ) ± ECQU2A333 L( ) ± ECQU2A393 L( ) ± ECQU2A473 L( ) ± ECQU2A563 L( ) ± ECQU2A683 L( ) ± ECQU2A823 L( ) ± ECQU2A104 L( ) ± ECQU2A124 L( ) ± ECQU2A154 L( ) ± ECQU2A184 L( ) ± ECQU2A224 L( ) ± ECQU2A274 L( ) ± ECQU2A334 L( ) ± ECQU2A394 L( ) ± ECQU2A474 L( ) ± ECQU2A564 L( ) ± ECQU2A684 L( ) ± ECQU2A824 L( ) ± ECQU2A105 L( ) ± ECQU2A125 L( ) ± ECQU2A155 L( ) ± ECQU2A185 L( ) ± ECQU2A225 L( ) ±

77 ECQUG [Class X1] E C Q U 3 A M G M ±20 % Blank A UL UL Class X1 UL CSA CAN/CSA E Class X1 CSA EN Class X1 IEC Class X1 VDE μ 40 C ~ +100 C 300 V.AC μf ~ 1.0 μf (E6) ±20 % (M) (tan d) tan d < 1.0 % (20 C, 1 khz ) 575 V.AC, 1768 V.DC, 60 s 2100 V.AC, 60 s C < 0.33 μf : IR > MΩ (20 C, 100 V.DC, 60 s) (IR) C > 0.33 μf : IR > 5000 MΩ μf (20 C, 100 V.DC, 60 s) IR > 2000 MΩ (20 C, 500 V.DC, 60 s) 04 Sep. 2017

78 L±0.5 T±0.5 (A) side (B) side H± μf ECQUG 300V~X1 10 F± min. 0d± ±0.5 Q (A) (B) P mm (mm) L T H F fd P Q ECQU3A103MG( ) ± ECQU3A153MG( ) ± ECQU3A223MG( ) ± ECQU3A333MG( ) ± ECQU3A473MG( ) ± ECQU3A683MG( ) ± ECQU3A104MG( ) ± ECQU3A154MG( ) ± ECQU3A224MG( ) ± ECQU3A334MG( ) ± ECQU3A474MG( ) ± ECQU3A684MG( ) ± ECQU3A105MG( ) ± Sep. 2017

79 DMF D S E Z W UL/cUL JIS C 4908 Capacitors for electrical apparatus CMJ C (JET) UL810/CSA C22.2 No. 190 FILE No. E76560 EN AC motor Capacitors TUV GB/T CQC 1 JIS UL EN GB P1CMJ AFC (UL) S2 (50/60 Hz) V.AC ~ 450 V.AC EN GB : 440 V.AC, 450 V.AC 2 10 μf ~ 60 μf 5 %/+10 %, ±5 % s s (min V.AC) (V.AC)60 s 70 C

80 mm (V.AC) 370 to 440 (mm) A B C D E 5.0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ (V.AC) 450 (mm) A B C D E 5.0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Sep. 2017

81 PMF D S E Z P UL/cUL JIS C 4908 Capacitors for electrical apparatus CMJ C (JET) UL810 FILE No. E76560 CSA C22.2 No. 190 EN AC motor Capacitors TUV GB/T CQC 1 JIS UL EN GB (50/60 Hz) 2 2 P2CMJ AFC (UL) S3 150 V.AC ~ 500 V.AC EN/TUV : 450 V.AC UL max. 480 V.AC GB : 250 V.AC, 450 V.AC 0.5 μf ~ 65 μf 5 %/+10 %, ±5 % s s (min V.AC) (V.AC)60 s 70 C

82 A± max. C±0.5 E±1.0 f4.3± Lap±2.5 max. mm 4.0±1.0 C±1.0 F±0.5 G F± B± ±0.5 H±0.5 D±0.5 P±1.0 f0.8±0.1 A±1.0 mm 4.0 min. 4.0 min. f max. 4.0±1.0 f1.4 mm

83 (V.AC) (mm) A B C D E F G H 3.0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Q (V.AC) (mm) A C F P 3.0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ T

84 SMF D S E Z S UL/cUL JIS C 4908 Capacitors for electrical apparatus CMJ C (JET) UL810 FILE No. E76560 EN AC motor Capacitors TUV GB/T CQC 1 JIS UL EN GB P2CMJ AFC (UL) S0 (50/60 Hz) V.AC ~ 450 V.AC 400 V.AC, 450 V.AC μf ~ 9 μf 5 %/+10 %, ±5 % s s (min V.AC) (V.AC)60 s 70 C

85 A± max. C±0.5 E±1.0 f4.3± Lap±2.5 max. mm 4.0±1.0 C±1.0 F±0.5 G F± B± ±0.5 H±0.5 D±0.5 P±1.0 f0.8±0.1 A±1.0 mm 4.0 min. 4.0 min. f max. 4.0±1.0 f1.4 mm

86 (V.AC) (mm) A B C D E F G H 1.5 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ SQ (V.AC) (mm) A C F P 1.5 ~ ~ ~ ~ ~ ~ ~ ~ T

87 ECQE E C Q E C ~ +130 C 250 V.DC+85 C 1.11 %/ C 0.47 μf, 2.2 μf, 4.7 μf ±20 % (M) (tan d) tan d < 1.0 % (20 C, 1 khz ) 250 V.DC 150 % for 60 s (IR) IR > 3000 MΩ μf (20 C, 100 V.DC, 60 s) : 090, 090II, 187 etc. L±10 L=80 mm, 90 mm, 100 mm, 110 mm, 120 mm etc.

88

89

90 塑料薄膜电容器 安全规格认证金属化 PP 薄膜电容器 ( 车载用 ) Type: ECQUA [Class X2] NEW 使用金属化聚丙烯薄膜无介质结构, 配有安全装置, 耐燃树脂外壳封装, 径向引线 特点 应对 AEC-Q200 高安全性 ( 内置保安功能 ) 高耐湿性 (THB 保证 :85, 85 %, 240 V.AC, 1000 h) 高耐热冲击性 ( 保证 , 1000 循环 ) 耐燃树脂外壳封装 已应对 RoHS 指令 主要用途 车载用的电源降噪 型号命名方式 E C Q U A A F 产品符号特性 结构额定电压静电容量补充符号 1 补充符号 2 符号 T S 静电容量容差 ±10%(K) ±20%(M) 符号引线形状 1 直脚 A 切割型引线 认证规格与认证符号 *Type ECQUA 已被下列规格认证 认证规格 级 认证机关 UL UL Class X2 CSA CAN/CSA E Class X2 UL 欧洲规格 EN Class X2 国际规格 IEC Class X2 VDE * 使用该电容申请欧美规格时, 请勿使用 ECQUAAF104S1 等零件符号申请, 必须使用 ECQUA, 0.1 μf 等类型名称和额定规格申请 * 安全规格认证书 ( 文件号 ) 可能修改, 如需要认证书请另行垂询 规 格 类别温度范围额定电压静电容量范围静电容量容差 介质损耗因数 (tan δ) 耐电压 绝缘电阻 (IR) 最大 AC 印加电压 ** 40 C ~ +110 C 275 V.AC 0.10 μf~ 4.7 μf ±10 % (K), ±20 % (M) C 1.0 μf : tan δ 0.1 % ( 20 C, 1 khz ) C > 1.0 μf : tan δ 0.2 % ( 20 C, 1 khz ) 端子间 :633 V.AC, 1183 V.DC, 60 s 端子与外封装间 :2050 V.AC, 60 s C 0.33 μf : IR MΩ (20 C, 100 V.DC, 60 s) C > 0.33 μf : IR 5000 MΩ μf (20 C, 100 V.DC, 60 s) C 0.47 μf : IR 2000 MΩ (20 C, 500 V.DC, 60 s) 310 V.AC * 本产品请勿用于商用频率 50 Hz/60 Hz 正弦波以外的情况 * 随着电源电压波动, 最大交流施加电压为 310 V.AC ** 最大交流施加电压 310 V.AC 为相对额定电源电压 240 V.AC 电源电压波动时的最大值, 所以, 并非为连续施加电压的保证值 因该 最大交流施加电压 仅适用于 ECQUA, 不可用于其它种类和型号 有关使用寿命, 请参照各自的产品说明书 另外, 如有追加询问的话, 请与本公司联系 在额定电压下会发生微弱的电晕放电, 但不会影响可靠性 本公司在更改设计, 规格时可能不予事先通知, 敬请谅解 请务必在购买及使用本公司产品前向本公司索要相关技术规格书 如对产品的安全性有疑义时, 请速与本公司联系 2018/8/2

91 塑料薄膜电容器 外观尺寸, 标识 L±0.5 T±0.5 切割型引线 ( 补充符号 A) 示例 F± min. H±0.5 镀锡铜线或镀锡铜膜铁线 Q +1.4 (C) -0.6 Φd±0.05 (A) (B) 4.0±0.5 (A) side ECQUA V ~ X2 (B) 或 (C)side K P( 引线到中心的位置有规定 ) 单位 : mm 仅以 ±10 %(K) 表示静电容量差 是生产编号 额定 尺寸 数量型号 ECQUAAF104T( ) ECQUAAF104S( ) ECQUAAF154T( ) ECQUAAF154S( ) ECQUAAF224T( ) ECQUAAF224S( ) ECQUAAF334T( ) ECQUAAF334S( ) ECQUAAF474T( ) ECQUAAF474S( ) ECQUAAF684T( ) ECQUAAF684S( ) ECQUAAF105T( ) ECQUAAF105S( ) ECQUAAF155T( ) ECQUAAF155S( ) ECQUAAF225T( ) ECQUAAF225S( ) ECQUAAF335T( ) ECQUAAF335S( ) ECQUAAF475T( ) ECQUAAF475S( ) 静电容量 尺寸 ( mm ) 最少订单数量 L T H F Φd P Q 直脚 切割型引线 ± ± ± ± ± ± ± ± ± ± ± *( ): 引线形状符号 本公司在更改设计, 规格时可能不予事先通知, 敬请谅解 请务必在购买及使用本公司产品前向本公司索要相关技术规格书 如对产品的安全性有疑义时, 请速与本公司联系 2018/8/2

92 TYPE E Z T V K C T Y P 1 H A 40 C ~ +105 C 581 μf % % at 1 khz, 25 ºC 450 V.DC 600 V.DC Arms at 10 khz, Fig.1 ESR < 0.8 mω at 10 khz ESL < 20 nh at 1 MHz > 1 GΩ 500 V.DC mm : 980 g

93 100 Arms at 10 khz C C Fig. 1 mm 164±1 136±1 43.1±1 N P 8±0.3 17± f (7.5) 0 (34.5) (6.5) 149± STAMPING AREA (40) 33 STAMPING AREA ±0.4 (51.5) (20) HATCHED AREA : LABEL 34.5± ±1 63.5±0.4 6 (22) 2-f ±0.4 0

94 10 ΔC/C 10 ESR ΔC/C (%) at 1 khz ESR (mω) at 10 khz Temperature ( C) Temperature ( C) 1.0 ESR 0.8 ESR (mω) Frequency (khz)

95 EZPE E Z P E T A V.DC V.DC 1B 1100 V.DC 1D 1300 V.DC L M (T C) 1 40 C ~ +85 C (V R) V.DC, 800 V.DC, 1100 V.DC, 1300 V.DC 70 C V.DC 10 μf ~ 110 μf (C R) 800 V.DC 10 μf ~ 60 μf 1100 V.DC 10 μf ~ 40 μf 1300 V.DC 10 μf ~ 25 μf ±10 % (V.DC) 150 %, 10 s 2110 V.AC (50 Hz or 60 Hz), 10 s (CR) CR > Ω F (20 C, 500 V.DC, 60 s) 01 May. 2016

96 H± ±2.0 H± ±2.0 P1±1 P1±1 P2±1 0±0.2 0±0.2 W±0.5 L±0.5 W±0.5 L±0.5 (ex.) Panasonic (a) (b) DC V μf (c) mm (a) (b) (c) Lot No. (mm) 3 dv/dt ESR typ tan d 4 C R W H L P1 P2 f [V/μs] 1 2 (mω) (%) (g) (A o-p) (A rms) EZPE50106LTA EZPE50156LTA EZPE50206LTA EZPE50256LTA EZPE50306MTA EZPE50356MTA EZPE50406MTA EZPE50456MTA EZPE50506MTA EZPE50556MTA EZPE50606MTA EZPE50656MTA EZPE50706MTA EZPE50756MTA EZPE50806MTA EZPE50856MTA EZPE50906MTA EZPE50956MTA EZPE50107MTA EZPE50117MTA (pcs) May. 2016

97 (mm) 3 dv/dt ESR typ tan d 4 C R W H L P1 P2 f [V/μs] 1 2 (mω) (%) (g) (A o-p) (A rms) EZPE80106LTA EZPE80156MTA EZPE80206MTA EZPE80256MTA EZPE80306MTA EZPE80356MTA EZPE80406MTA EZPE80456MTA EZPE80506MTA EZPE80556MTA EZPE80606MTA (pcs) (mm) 3 dv/dt ESR typ tan d 4 C R W H L P1 P2 f [V/μs] 1 2 (mω) (%) (g) (A o-p) (A rms) EZPE1B106MTA EZPE1B156MTA EZPE1B206MTA EZPE1B256MTA EZPE1B306MTA EZPE1B356MTA EZPE1B406MTA (pcs) C R (mm) W H L P1 P2 f dv/dt [V/μs] 1 (A o-p) 2 (A rms) ESR typ 3 (mω) tan d 4 (%) (g) 5 (pcs) EZPE1D106MTA EZPE1D156MTA EZPE1D206MTA EZPE1D256MTA May. 2016

98 EZPE E Z P E T V.DC V.DC V.DC V.DC L M (T C) 1 40 C ~ +85 C (V R) V.DC, 525 V.DC, 575 V.DC, 630 V.DC 70 C V.DC 66 μf (C R) 525 V.DC 29 μf 575 V.DC 12 μf 630 V.DC 10 μf ±15 % (V.DC) 150 %, 10 s 2000 V.AC (50 Hz or 60 Hz), 10 s (CR) CR > Ω F (20 C, 500 V.DC, 60 s) 03 Sep. 2017

99 H±1.0 P1±1.0 P2±1.0 mm W±1.0 L±1.0 Panasonic (a) (b) DC V μf (c) (a) (b) (c) Lot No. C R (mm) W H L P1 P2 f dv/dt [V/μs] 1 (A o-p) 2 (A rms) ESR typ 3 (mω) tan d 4 (%) (g) 5 (pcs) EZPE45666MTB C R (mm) W H L P1 P2 f dv/dt [V/μs] 1 (A o-p) 2 (A rms) ESR typ 3 (mω) tan d 4 (%) (g) 5 (pcs) EZPE52296MTB C R (mm) W H L P1 P2 f dv/dt [V/μs] 1 (A o-p) 2 (A rms) ESR typ 3 (mω) tan d 4 (%) (g) 5 (pcs) EZPE57126LTB C R (mm) W H L P1 P2 f dv/dt [V/μs] 1 (A o-p) 2 (A rms) ESR typ 3 (mω) tan d 4 (%) (g) 5 (pcs) EZPE63106LTB Sep. 2017

100 EZPQ E Z P Q T A V.AC L M (T C) 1 40 C ~ +85 C (V R) 2 (C R) 250 V.AC 12, 22, 36 μf 250V.AC ±10 % (V.AC) 175 %, 10 s 2000 V.AC (50 Hz or 60 Hz), 10 s (CR) CR > Ω F (20 C, 100 V.DC, 60 s) 00 Nov. 2016