Products catalog

Transcription

1 8

2 EJ XG, G, G, 3G, 6G, 8G, 4,, Z, T 3 EJ XG, G,,, 3, 6, 3E, 6E, 8E, 4,, T 6 EA A, A, 3A, 6A, 8A EJ PB3, PB6 3 EJ W, 3W, 6W, BW,3BW,6BW,8BW,6CW,8CW EJ B, 3B, 6D, 6B, 8B, 4B, 3, 6, 8, 4,,Z, EJ T, 3, 6, 8, 4,, D, W EJ MS4S, MS4H, MS6S, MBS EJ MWS, MWT 4 EJ MFBA 6 EJ A, B, B, B3 8 EJ D, D 3 EJ PA, P3, PA3, P6, P8, P4 34 EJ T6, T8, T4 37 EJ S, S3, S6, S8, S4, S, SD, ST EJ U, U, U3, U6, U8, U4, U, UD, UT EJ U6S, U6Q EJ UP6, UP8 43 EJ C 46 EXB 4V, 8V, 4V, 8V, N8V, HV, 34V, V4V, 38V, V8V, S8V 48 EXB U4, U8, U4, U8, UH, U34, U38 5 EXB D, E, A, Q 55 EXB 4AT, 4AT EG S, S, F, S, F, 3S, 3F, 5S, 5F EX S, S, F, S, F, 3S, 3F, 5S, 5F 68 EG D, D, D, 3D 75 EX,, 77 EQ Z, Z, Z, 4Z EQ AB, AB, A, 4A Sep. 8

3 Jul. 4

4 EJ XG, G, G, 3G, 6G, 8G, 4,, Z, T E J 3 G E Y J V XGN GN GE 3GE 6GE 8GE 4 Z T W.5 W. W. W.5 W.5 W.5 W.75 W.75 W W Y J ±5 % 3 () :.k Ω 47: 4.7 Ω Y W8P, pcs. EJXGN U W4P4, pcs. C X Y V U mm5, pcs. mm, pcs. mm, pcs. 4 mm5, pcs. 4 mm4, pcs. EJGN EJGE EJ3GE EJ6GE EJ8GE EJ4 4 mm5, pcs. EJ EJZ EJT 6 Aug. 8 3

5 W a t b (mm) W a b t (g/ pcs.) EJXG.4 ±.. ±.. ±.3. ±.3.3 ±..4 EJG.6 ±.3.3 ±.3. ±.5.5 ±.5.3 ±.3.5 EJG. ±.5.5 ±.5. ±..5 ±.5.35 ±.5.8 EJ3G.6 ± ±..3 ±.5.45 ±. EJ6G. ±..5 ±..4 ±..4 ±..6 ±. 4 EJ8G ±..5 ±..6 ±. EJ4 3. ±..5 ±..5 ±..5 ±..6 ±. 6 EJ 4.5 ±. 3. ±..5 ±..5 ±..6 ±. 7 EJZ 5. ±..5 ±..6 ±..6 ±..6 ±. 7 EJT 6.4 ±. 3. ±..65 ±..6 ±..6 ±. 45 EJXG (4) EJG (63) EJG (5) EJ3G (68) EJ6G () EJ8G (36) EJ4 (35) EJ (453) EJZ (55) EJT (643) 3 (7 C) (W) (V) (V) (%) Ω ( -6 / C) ( C) AEC-Q Grade ±5 ~ M (E4) < Ω : ~ +6 Ω ~ Ω : ±3 Ω : ± 55~ ±5 ~ M (E4) 55~+5 Grade. 5 ±5 ~ M (E4) < Ω : 55~+55 Grade ±5 ~ M (E4) ~+6 55~+55 Grade.5 5 ±5 ~ M (E4) 55~+55 Grade.5 4 ±5 ~ M (E4) Ω~M Ω : ± 55~+55 Grade.5 4 ±5 ~ M (E4) 55~+55 Grade.75 5 ±5 ~ M (E4) M Ω< : 55~+55 Grade.75 5 ±5 ~ M (E4) 4~+5 55~+55 Grade 5 ±5 ~ M (E4) 55~+55 Grade 6 Aug. 8 4

6 (A) (A) () EJXG EJG.5 EJG EJ3G EJ6G EJ8G EJ4 EJ EJZ EJT 4 (%) 55 C C XG, G 55 C 5 C ( C) G, 3G, 6G, 8G, 4,, Z, T 5m Ω C 5m Ω +5 C/+55 C (EJXG, EJG : +5 C/+5 C) ±% 5m Ω.5 5 s 5 s ±% 5m Ω 7 C, s ±% 5m Ω 55 C (3 / +55 C (EJXG, EJG : +5 C)(3 ) ±% 5m Ω +55 C ((EJXG, EJG : +5 C), h ±% 5m Ω 6 C, 9% ~ 95%H, h ±3% 5m Ω 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 5m Ω 7 C.5 h ON /.5 h OFF h 6 Aug. 8 5

7 EJXG, G EJ,, 3, 6 EJ 3E, 6E, 8E, 4,, T E J 3 B D V W.63 W. W. W H B K E ±5 6 / C (, ) ±5 6 / C (3, 6) ± 6 / C () D ±.5 % ± 6 / C (3, 6) : k Ω C X mm, 5, pcs. mm,, pcs. EJ EJ V 4 mm, 5, pcs. EJ3 EJ6 8 Aug. 8 6

8 E J 8 E N F V XGN GN C K 3EK 6EN 8EN 4N N S TN W.5 W. W. W. W.5 W.5 W.5 W.75 W.75 W W F ± % 4 : k Ω Y W8P, pcs. U C X V W4P4, pcs. mm, 5, pcs. mm,, pcs. 4 mm, 5, pcs. EJXGN EJGN EJC EJK EJ3EK EJ6EN EJ8EN U 4 mm, 5, pcs. EJ4N EJN EJS 4 mm, 4, pcs. EJTN a W t b (mm) W a b t (g/ pcs.) EJXGN.4 ±.. ±.. ±.3. ±.3.3 ±..4 EJGN EJ.6 ±.3.3 ±.3. ±.5.5 ±.5.3 ±.3.5 EJ. ±.5.5 ±.5. ±..5 ±.5.35 ±.5.8 EJ3 EJ3EK.6± ±..3 ±.5.45 ±. EJ6 EJ6EN.±..5 ±..4 ±..4 ±..6 ±. 4 EJ8EN ±..5 ±..6 ±. EJ4N 3. ±..5 ±..5 ±..5 ±..6 ±. 6 EJN 4.5 ±. 3. ±..5 ±..5 ±..6 ±. 7 EJS 5. ±..5 ±..6 ±..6 ±..6 ±. 7 EJTN 6.4 ±. 3. ±..65 ±..6 ±..6 ± Aug. 8 7

9 EJH (63) EJH (5) EJK (5) EJ3B (68) EJ3E (68) EJ6B () EJ6E () 4 (7 C) (W) (V) (V) (%) ± ± ±.5. 5 ±.5. 5 ±.5. 5 ±.5. 5 ±.5 Ω k ~ M (E4, E96) ~ k (E4, E96) ~ 97.6 k ~ M (E4, E96) ~ k (E4, E96) ~ 97.6 k ~ M (E4, E96) ~ k (E4, E96) ~ 97.6 k ~ M (E4, E96) ( -6 / C) ( C) AEC-Q Grade ±5 55~+5 ±5 55~+55 Grade ± 55~+55 Grade ±5 55~+55 Grade ± 55~+55 Grade ±5 55~+55 Grade ± 55~+55 Grade EJXGN (4) EJGN (63) EJC (5) EJK (5) EJ3EK (68) EJ6EN () EJ8EN (36) EJ4N (35) EJN (453) EJS (55) EJTN (643) 4 (7 C) (W) (V) (V) (%) ± ±. 5 ±. 5 ± ±.5 5 ±.5 4 ±.5 4 ±.75 5 ±.75 5 ± 5 ± Ω ~ M (3) (E4, E96) ~ M (3) (E4, E96) ~ 9.76 (E4, E96) ~ M (E4, E96) ~ M (E4, E96) ~.M (E4, E96) ~.M (E4, E96) ~ M (E4, E96) ~ M (E4, E96) ~ M (E4, E96) ~ M (E4, E96) ( -6 / C) < Ω : ±3 Ω : ± ( C) AEC-Q Grade 55~+5 - ± 55~+5 Grade ~ +6 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade ± 55~+55 Grade Ω (%) 55 C 7 C 8, 3, 6, 6 3E, 6E, 8E, 4,, T 4 XG, G, 5 C 55 C ( C) 8 Aug. 8 8

10 C +5 C/+5 C ±%.5 5 s ±% 7 C, s ±% 55 C (3 / +55 C (EJ : +5 C)(3 ±% +55 C (EJ : +5 C), h ±% 6 C, 9% ~ 95%H, h ±% EJ : ±3% ±% EJ : ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h 7 C.5 h ON /.5 h OFF h C +5 C/+55 C (EJXG, EJG : +5 C/+5 C) ±%.5 5 s ±% 7 C, s ±% 55 C (3 / +55 C (EJXG, EJG : +5 C)(3 ±% +55 C (EJXG, EJG : +5 C), h ±% 6 C, 9% ~ 95%H, h ±% EJXG,G : ±3% ±% EJXG,G : ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h 7 C.5 h ON /.5 h OFF h 8 Aug. 8 9

11 EA A, A, 3A, 6A, 8A E A 3 A E B V A A 3A 6A 8A W.63 W. W.5 W.5 W P E H K ± -6 / C ±5-6 / C ±5-6 / C ±5-6 / C ± -6 / C W ±.5 % B ±. % C ±.5 % D ±.5 % E43 () : k Ω C X V mm, 5, pcs mm,, pcs 4 mm, 5, pcs. EAA EAA EA3A EA6A EA8A E A 3 A E B 5 V A A 3A 6A 8A W.63 W. W.5 W.5 W P E H K ± -6 / C ±5-6 / C ±5-6 / C ±5-6 / C ± -6 / C W ±.5 % B ±. % C ±.5 % D ±.5 % E964 3 () 5 :.5k Ω C mm, 5, pcs EAA X V mm,, pcs 4 mm, 5, pcs. EAA EA3A EA6A EA8A Sep. 8

12 W a t b (mm) W a b t (g/ pcs.) EAA.6 ±.3.3 ±.3.5 ±.5.5 ±.5.3 ±.3.4 EAA. ± ±..5 ±..35 ±.5.6 EA3A.6 ±..8 ±..3 ±..3 ±..45 ±. EA6A. ±..5 ±..4 ±.5.4 ±.5.5 ±. 4 EA8A 3. ± ±.5.5 ±.5.6 ±. 8.5 EAA (63) EAA (5) EA3A (68) EA6A () EA8A (36) (85 C) W () (V) () (V) (%) ( 6 / C ) (3)(4) (Ω) EAAEB ±. EAAEC ±.5 ±5 ~ k (E4, E96) EAAC ±.5 EAAB ±. ± ~ k (E4, E96) EAAW ±.5 k ~ k (E4, E96) EAAKD ±.5 ± ~ 46.4 (E4, E96) EAAED ±.5 EAAEC ±.5 ±5 47 ~ k (E4, E96) EAAEB ±. EAAPC ±.5 EAAPB ±. ±5 ~ 47k (E4, E96) EAAC ±.5 EAAB ±. ± ~ 47k (E4, E96) EA3AHD ±.5 ±5 ~ 46.4 (E4, E96) EA3AED ±.5 EA3AEC ±.5 ±5 47 ~ 33k (E4, E96) EA3AEB ±. EA3APC ±.5 EA3APB ±. ±5 47 ~ k (E4, E96) EA3AC ±.5 EA3AB ±. ± k ~ k (E4, E96) EA3AW ±.5 EA6AHD ±.5 ±5 ~ 46.4 (E4, E96) EA6AED ±.5 EA6AEC ±.5 ±5 47 ~ M (E4, E96) EA6AEB ±. EA6APC ±.5 EA6APB ±. ±5 47 ~ k (E4, E96) EA6AC ±.5 EA6AB ±. ± k ~ k (E4, E96) EA6AW ±.5 EA8AHD ±.5 ±5 ~ 46.4 (E4, E96) EA8AED ±.5 EA8AEC ±.5 ±5 47 ~ M (E4, E96) EA8AEB ±. EA8APC ±.5 EA8APB ±. ±5 47 ~ k (E4, E96) EA8AC ±.5 EA8AB ±. ± k ~ k (E4, E96) EA8AW ±.5 ( C) 55 ~ +55 =.5 E9 E4 E96E9 E4 3 Sep. 8

13 (%) 55 C 85 C C ( C) Sep. 8

14 EJ PB3, PB6 Ω E J P B 6 B V PB3 PB6 68. W.5 W B ±. % D ±.5 % 4 5 : 5 Ω 3 : k Ω V EJPB3 4 mm, 5, pcs. EJPB6 a W t b (mm) W a b t (g/ pcs.) EJPB3.6 ± ±..45 ±..5. EJPB6. ±..5 ±..5 ±..4 ±..6 ±. 4 Feb. 6 3

15 3 (7 C) (W) (V) (V) (%) (Ω) ( 6 / C ) ( C) EJPB3 (68). 5 ±. ±.5 ~k (E4, E96) ±5 55 ~ +55 EJPB6 ().5 5 ±. ±.5 ~M (E4, E96) ±5 55 ~ +55 =.5 (%) 55 C 7 C C ( C) Feb. 6 4

16 EJ W, 3W, 6W BW, 3BW, 6BW, 8BW, 6CW, 8CW EJ B, 3B, 6D, 6B, 8B, 4B, 3, 6, 8, 4,, Z, T EJ 3, 6, 8, 4,, D,W Ω E J B W G 4 7 X W 3W 6W BW 3BW 6BW 8BW 6CW 8CW W.5 W.5 W.5 W.33 W.5 W W.5 W W m Ω 5m Ω, m Ω 5, 6, 7, 8, 9m Ω 47m Ω ~ m Ω m Ω ~ m Ω m Ω ~ m Ω m Ω ~ m Ω m Ω ~ 3m Ω m Ω ~ 5m Ω D F G J ±.5 % ± % ± % ±5 % 47 :.47 Ω=47m Ω X EJW mm,, pcs. EJBW V EJ3W EJ6W EJ3BW EJ6BW 4 mm 5, pcs. EJ8BW EJ6CW EJ8CW 4 Feb. 8 5

17 E J 8 Q F V B 3B 3 6D 6B 6 8B 8 4B 4 Z T W.5 W. W.5 W.33 W.5 W.5 W.5 W.5 W.5 W.5 W.5 W W S. Ω ~. Ω Q. Ω ~ 9. Ω B. Ω ~. Ω D F G J ±.5 % ± % ± % ±5 % D ( E4,E96) F (E96 :. Ω :. Ω X V U mm,, pcs. EJB EJ3B/3 EJ6D/6B/6 4 mm, 5, pcs. EJ8B/8 EJ4B/4 EJ 4 mm, 5, pcs. EJZ 4 mm, 4, pcs. EJT E J 4 K J 5 M U D W W.5 W.33 W.33 W.5 W.5 W W K m Ω, m Ω, 33m Ω, 39m Ω, ( 47m Ω, 5m Ω, m Ω ) U m Ω ~ m Ω 3, 6, 847m Ω ~ m Ω D, W4m Ω ~ m Ω F J ± % ±5 % 5M : 5m Ω, C : m Ω V U 4 mm, 5, pcs. 4 mm, 5, pcs. 4 mm, 3, pcs. EJ3 EJ6 EJ8 EJ4 EJ EJD EJW () (7 C) W (%) () (Ω) ( 6 / C ) ( C) AEC-Q Grade EJW (5). ±, ±, ±5 m ~ 5 55 ~ +5 Grade EJ3W (68).5 ±, ±, ±5 5m ~ 7 55 ~ +5 m ~ 3 55 ~ +5 Grade EJ6W ().5 ±, ±, ±5 5, 6, 7, 8, 9m ~ 3 55 ~ +5 Grade EJBW (5).5 ±, ±, ±5 47m ~ m (E4) ±3 55 ~ +55 Grade EJ3BW (68).33 ±, ±, ±5 m ~ m (E4) m Ω < 39m Ω : ±5 39m Ω m Ω : ±5 55 ~ +55 Grade EJ6BW ().5 ±, ±, ±5 m ~ m (E4) m Ω < 5m Ω : ±3 5m Ω m Ω : ± 55 ~ +55 Grade EJ8BW (36) ±, ±, ±5 m ~ m (E4) m Ω < m Ω : ± m Ω < 47m Ω : ±5 47m Ω m Ω : ± 55 ~ +55 Grade EJ6CW ().5 ±.5, ±, ±, ±5 m ~ 3m (E4) ±75 55 ~ +5 Grade EJ8CW (36) ±, ±, ±5 m ~ 5m (E4) ±75 55 ~ +5 Grade 4 Feb. 8 6

18 EJBS (5) () (7 C) W (3) (%) () (Ω) ( 6 / C ). ~. (E4) ±3.66 ±, ±, ±5 EJBQ (5). ~. (E4) ±5 EJ3BS (68). ~. (E4) ±3.5 ±, ±, ±5. ~.9 (E4) EJ3BQ (68). ~ 9. (E4) ± EJ6DS () ±.5, ±,. ~. (E4,E96) ±5.5 EJ6DQ () ±, ±5. ~ 9. (E4,E96) ± EJ6BS (). ~. (E4) ±5.33 ±, ±, ±5. ~.9 (E4) EJ6BQ (). ~ 9. (E4) ± EJ8BS (36). ~. (E4) ±5.5 ±, ±, ±5. ~.9 (E4) EJ8BQ (36). ~ 9. (E4) ± EJ4BS (35). ~. (E4) ±.5 ±, ±, ±5. ~.9 (E4) EJ4BQ (35). ~ 9. (E4) ± ( C) AEC-Q Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade EJ3S (68) () (7 C) W (%) () (Ω) ( 6 / C ). ~. (E4) ±3. ±, ±, ±5. ~.9 (E4) EJ3Q (68). ~ 9. (E4) ± EJ6S (). ~. (E4) ±5.5 ±, ±, ±5. ~.9 (E4) EJ6Q (). ~ 9. (E4) ± EJ8S (36). ~. (E4) ±5.5 ±, ±, ±5. ~.9 (E4) EJ8Q (36). ~ 9. (E4) ± EJ4S (35). ~. (E4) ±.5 ±, ±, ±5. ~.9 (E4) EJ4Q (35). ~ 9. (E4) ± EJS (453). ~. (E4) ±.5 ±, ±, ±5. ~.9 (E4) EJQ (453). ~ 9. (E4) ± EJZS (55). ~. (E4) ±.5 ±, ±, ±5. ~.9 (E4) EJZQ (55). ~ 9. (E4) ± EJTS (643). ~. (E4) ± ±, ±, ±5. ~.9 (E4) EJTQ (643). ~ 9. (E4) ± ( C) AEC-Q Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 4 Feb. 8 7

19 () (7 C) W (%) () (Ω) ( 6 / C ) ( C) AEC-Q Grade EJ3 (68). ±, ±5 47m ~ m ± 55 ~ +5 Grade EJ6 ().5 ±, ±5 47m ~ m ± 55 ~ +5 Grade EJ8 (36).33 ±, ±5 47m ~ m ± 55 ~ +5 Grade EJ4 (35).33 ±, ±5 m ~ m 55 ~ +5 Grade EJ (453).5 ±, ±5 m ~ m < 47m Ω : ±3 55 ~ +5 Grade EJD (55).5 ±, ±5 4m ~ m 47m Ω : ± 55 ~ +5 Grade EJW (643) ±, ±5 4m ~ m 55 ~ +5 Grade Ω Ω Ω Ω Ω Ω Ω Ω 55 C 7 C (%) C 5 C ( C) a W t b (mm) W a b t (g/ pcs.) EJW. ± ±..5 ±..4 ±.5.8 EJBW. ± ±..4 ±..35 ±.5.8 EJBS EJBQ. ± ±..7 ±..35 ±.5.8 EJ3W (5m Ω).6 ±.5.8 ±.5.5 ±..5 ±..55 ±. 3 EJ3W (m Ω).6 ±.5.8 ±.5.4 ±..4 ±..55 ±. 3 EJ3BW EJ3 EJ3B EJ3 EJ6W.6 ±.5. ± ±..3 ±..63 ±..3 ±.5.63 ±..45 ±..7 ±. 6 EJ6BW. ±..5 ±..55 ±..55 ±..65 ±. 6 EJ6CW.6 ( ~ 3m Ω).6 ±..5 ±..3 ±. EJ6CW.45 (5 ~ 3m Ω).45 ±..65 ±. 6 EJ6D. ±..5 ±..4 ±..55 ±.5.6 ±. 5 EJ6 EJ6B EJ6. ±..5 ±..4 ±..4 ±..6 ±. 5 (mm) W a b t (g/ pcs.) EJ8BW 3. ±..6 ±.. ±.. ±..65 ±. 3 EJ8CW ( ~ 6m Ω) 3. ±..6 ±.. ±.. ±..65 ±. 3 EJ8CW (8 ~ 5m Ω) 3. ±..6 ±..6 ±..6 ±..65 ±. 3 EJ8 EJ8B EJ8 EJ ±..5 ±..6 ±. EJ4B EJ4 EJ EJ 3. ±. 4.5 ±..5 ±. 3. ±..5 ±..5 ±..5 ±..5 ±..6 ±..6 ±. 6 7 EJZ EJD 5. ±..5 ±..6 ±..6 ±..6 ±. 7 EJT 6.4 ±. 3. ±..65 ±..6 ±..6 ±. 45 EJW 6.4 ±. 3. ±..65 ±..3 ±.. ± Feb. 8 8

20 C +5 C/+5 C ±%. 5 s EJ6W :.77 5 s EJ8BW ( >.5 Ω) :.77 5 s ±% 7 C, s ±% EJW : ±% 55 C (3 / +55 C (EJ W, EJ CW : +5 C) (3 ) ±% +55 C (EJ W, EJ CW : +5 C), h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 7 C.5 h ON /.5 h OFF h C +5 C/+5 C ±%.5 (EJ6D :.77 )5 s ±% 7 C, s ±% 55 C (3 / +55 C (3 ) ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h 7 C ±3% 7 C.5 h ON /.5 h OFF h C +5 C/+5 C ±%.5 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ) ±% +5 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h 7 C ±3% 7 C.5 h ON /.5 h OFF h 4 Feb. 8 9

21 EJ MS4, MS6, MB E J M S 4 S F M U F ± % S4S S4H S6S BS M : m Ω M5 :.5m Ω : m Ω U 4 mm,, pcs. 8 mm,, pcs. 4 mm, 3, pcs. EJMS4 EJMS6 EJMB EJMS4S (643) EJMS4H (643) EJMS6S (6468) EJMBS (55) (7 C) (W) (mω) (%) ( -6 / C) ( C) ( C) 3,, 3, 4 F : ± ±75 65 ~ , 6 F : ± ±75 65 ~ , 8, 9, F : ± ±75 65 ~ ,, F : ± ±75 65 ~ +7 3,, 3, 4, 5 F : ± ±75 65 ~ +7 3 (%) C EJMS4H (7~m Ω) C 3 C ( C) 7 C 3 Oct. 6

22 t t t W W W A A A b b b c a c a c a EJMS4S (643) EJMS4H (643) EJMS6S (6468) EJMBS (55) (mm) (mm) (g/ pcs.) W A t a b c 6.4±.5 3.±.5.±.5.± ±.5 3.±.5.5±.5.± ±.5 6.8±.5.±.5.± ±.5 5.± ± (%).5.5 (%).5.5 EJMS4SFMU 4 C ( C) Oct. 6

23 (J). EJMS4S m Ω EJMS4H 5m Ω EJMS4H m Ω.. (W) (s). EJMS6S.5m Ω EJMS6S m Ω (J) EJMS6S 3m Ω.. (W) (s) (J). EJMBS m Ω EJMBS 3m Ω EJMBS 5m Ω.. (W) (s). 3 Oct. 6

24 55 C/55 C, cycles ± %. % 3, 5 sec ±.5 %. % 45 C, 3 sec 95 % 95 % MI-STD- method 5,.a,.d 65 C, 4 h ±.5 %.3 % MI-STD- method (6 C, s) ±.5 %. % MI-STD- method 6 ±.5 %. % MI-STD- method 3-A ±.5 %. % ~ (Hz) ±.5 %.5 % 7 C,, h ± %.3 % 7 C, h ± %.3 % 4 C, h ±.5 %.5 % < 5 nh < nh 55 C/55 C, cycles ± %.3 %.5, 5 sec ± %.3 % 45 C, 3 sec 95 % 95 % MI-STD- method 5,.a,.d 65 C, 4 h ±.5 %.3 % MI-STD- method (6 C, s) ±.5 %. % MI-STD- method 6 ±.5 %. % MI-STD- method 3-A ±.5 %. % ~ (Hz) ±.5 %.5 % 7 C,, h ± %.3 % 7 C, h ± %.3 % 4 C, h ±.5 %.5 % < 5 nh < nh ( C) (W) ( C) (W) ( C) (W) 3 Oct. 6 3

25 EJMW Ω Ω E J M W S F 3 M U MW 643 W S F ± % T J ±5 % 3 3M : 3 mω, M : mω U 4mm, 3, pcs. EJMWS (643) EJMWT (643) (7 C) W (mω) (%) ( 6 / C ) 3, 4 ±35 5, 6,, 5, ± F: ±, J: ±5,.5 35±, 3, 4 ±5 ( C) 55 ~ +7 (%) C EJMW C ( C) Oct. 4 4

26 a W T (mm) W T a (g/ pcs.) EJMWS 6.4 ±.5 3. ±.5.8 ±.3. ±.5 7 EJMWT 6.4 ±.4. ±.3 9 a b c (mm) a b c EJMWS EJMWT Oct. 4 5

27 E J M F B A F M X BA 5.33 W F ± % X 5M : 5m Ω mm,, pcs. : m Ω EJMFBA (5) (7 C) (W) (mω) (%) ( -6 / C) ( C).33 5,, F : ± ±5 55 ~ +5 (%) 55 C 7 C C ( C) 8 Dec. 7 6

28 t () () (3) (4) (5) (6) A W () () (3) (4) (5) (6) (mm) W A t (g/ pcs.) EJMFBA.±..55±..5±..3±..73 a b a c (mm) a b c EJMFBA C/5 C, 5 cycles ± %. % 3, 5 sec ± %. % 45 C, 3 sec 95 % 95 % MI-STD- method 5,.a,.d 65 C, 4 h ± %. % MI-STD- method (6 C, s) ± %. % MI-STD- method 6 ± %. % MI-STD- method 3-A ± %. % ~ (Hz) ± %. % 7 C,, h ±3 %.3 % 5 C, h ± %. % < 5 nh < nh Jan. 8 7

29 EJ A, B, B, B E J A A J U A Ω F ± % 3 A W B. Ω < Ω G ± % V W, C. Ω <. Ω J ±5 % B 55 W 3 (( Ω)) D.5 Ω <. Ω 4.75 W, U B 63 W :.k Ω (( Ω)) 47 : 4.7 Ω.33 W, :. Ω=m Ω B3.5 W 5 :.5 Ω=5m Ω (( Ω)) 4 mm, 5, pcs. 4 mm, 5, pcs. 4 mm, 4, pcs. EJB EJB3 EJB EJA 6 Oct. 7 8

30 EJA (364) EJB (55) EJB (63) EJB3 () (3) (7 C) W () (V) () (V).33 4 ( Ω).75 ( Ω).33.5( Ω) (%) Ω ( 6 / C ) ( C) AEC-Q Grade ± m ~ k (E4) ± ±, ±5 m ~ k (E4) < m Ω : ±35 55 ~ +55 Grade m Ω : ± < m Ω : ±35 m Ω < 47m Ω : ± ± m ~ k (E4) 47m Ω < m Ω : ±5 m Ω : ± 55 ~ +55 Grade ±, ±5 m ~ k (E4) < m Ω : ±35 m Ω : ± < m Ω : ~+3 m Ω < 47m Ω : ~+ ± m ~ M (E4) 47m Ω < m Ω : ~+5 m Ω < m Ω : ~+ ± m ~ M (E4) m Ω : ± < m Ω : ~+3 55 ~ +55 Grade m Ω < 47m Ω : ~+ ±5 5m, 6m, 7m, 8m, 9m, m ~ M (E4) m Ω < m Ω : ~+ m Ω : ± 47m Ω < m Ω : ~+5 < 47m Ω : ~+3 ± m ~ (E4) 47m Ω < Ω : ~+ Ω : ± < 47m Ω : ~+3 55 ~ +55 Grade ±, ±5 m ~ (E4) 47m Ω < Ω : ~+ Ω : ± (%) 55 C 7 C C ( C) 6 Oct. 7 9

31 -fd P W A A B B B T ( < m Ω ) ( m Ω M Ω ) W T W T b b a a l b b a a B C (mm) (mm) ( pcs.) : 4g W T A B 3.±. 6.4±..55±..7±..45±. A B P D C.7±..5±.5.7± min. ( pcs.) : g (mm) W T a b 5m Ω < m Ω.65±.5.3±..3±. m Ω < m Ω.6±.5 3.±..55±.5.5±. m Ω M Ω.5±. W T W l 3 a b a b b b T a a (mm) ( pcs.) : 7g W T a b.5±. 5.±..55±..5±..9±. (mm) ( pcs.) : 4.8g W T a b.5±..±.5.5±..5±..4±. Ω 6 Oct. 7 3

32 C +5 C/+5 C ±% EJA, EJB ( > ), EJB3 ( > ) :.5 5 s EJB ( > ) :. 5 s EJB ( ), EJB ( ), EJB3 ( ) :. 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h ±3% 7 C.5 h ON /.5 h OFF h 6 Oct. 7 3

33 EJ D, D E J D D F U DC m Ω m Ω F ± % 4 55 W DD m Ω m Ω J ±5 % U DC 33m Ω m Ω :. Ω=m Ω 63 W DD m Ω 3m Ω V 4 mm, 5, pcs. 4 mm, 5, pcs. EJD EJD EJD (55) EJD (63) () (7 C) (W) (%) () (Ω) ( -6 / C) ±, ±5 m ~ m (E4) ± ±, ±5 m ~ m (E4) ± ( C) AEC-Q Grade 55 ~ +55 Grade Aug. 8 3

34 (%) C 7 C 55 C ( C) W T W T. l a a. l b a b b a b ( pcs.) : 7g (mm) W T a b EJD.5±. 5.±..6±..3±..9±. ( pcs.) : g (mm) W T a b EJD.6±.5 3.±..65±.5.3±..5±. C +5 C/+5 C ±%. 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF h ±3% 7 C.5 h ON /.5 h OFF h Aug. 8 33

35 EJ PA, P3, PA3, P6, P8, P E J P 6 D V PA P3 PA3 P6 P8 P W. W.5 W.5 W.66 W.5 W D ±.5 % F ± % J ±5 % ±5% ±.5% ±% :.k Ω : k Ω X mm,, pcs. EJPA EJP3 EJPA3 V 4 mm, 5, pcs. EJP6 EJP8 U 4 mm, 5, pcs. EJP4 a W t b (mm) W a b t (g/ pcs.) EJPA. ±.5.5 ±.5. ±.5.5 ±.5.35 ±.5.8 EJP3.6 ± ±.5.45 ±. EJPA3.6 ± ±..45 ±. EJP6. ±..5 ±..5 ±..4 ±..6 ±. 4 EJP ±..5 ±..6 ±. EJP4 3. ±..5 ±..35 ±..5 ±..6 ±. 6 Nov. 7 34

36 EJPA (5) EJP3 (68) EJPA3 (68) EJP6 () EJP8 (36) EJP4 (35) 3 (7 C) (W) (V) (V) (%) (Ω) ( 6 / C ) ±.5, ± ~ M (E4, E96) ± ±5 ~ M (E4) ± ±.5 ~ M (E4, E96) ±5 ± ~ M (E4, E96) ± < Ω : 5 ~ +4 ±5 ~ M (E4) Ω : ± ±.5, ± ~ M (E4, E96) ± ±5 ~.5M (E4) ± ±.5, ± ~ M (E4, E96) < 33 Ω : ±3 33 Ω : ± < Ω : ~ +6 ±5 ~ 3.3M (E4) Ω < 33 Ω : ±3 33 Ω : ± ±.5, ± ~ M (E4, E96) ± ±5 ~ M (E4) < Ω : ~ +6 Ω : ± ±.5, ± ~ M (E4, E96) ± ±5 ~ M (E4) < Ω : ~ +6 Ω : ± ( C) AEC-Q Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade (%) 55 C C EJ PA, P3, PA3, P4 55 C ( C) 5 C EJ P6, P8 Nov. 7 35

37 = Ω(.5k Ω)/5 Ω(>.5k Ω) E C=5p F 5 E=±k V 68,, 36, 35 E=±3k V (%) 5% % -5% -% -5% -% -5% -3% Ω EJPA (5) EJPA EJG Ω k Ω k Ω k Ω M Ω (%) 5% % -5% -% -5% -% -5% -3% Ω EJP3, PA3 (68) EJPA3 EJP3 EJ3G Ω k Ω k Ω k Ω M Ω (%) (%) 5% % -5% -% -5% -% -5% -3% 5% % -5% -% -5% -% -5% -3% Ω Ω EJP6 () EJP6 EJ6G Ω k Ω k Ω k Ω M Ω EJP4 (35) EJP4 EJ4 Ω k Ω k Ω k Ω M Ω (%) 5% % -5% -% -5% -% -5% -3% Ω EJP8 (36) EJP8 EJ8G Ω k Ω k Ω k Ω M Ω C +5 C/+55 C (EJPA : +5 C) ±% EJP3D, P4D ±.5% EJP6 :.77 5 s EJPA, EJPA3, EJP8 :. 5 s EJP3, EJP4 :.5 5 s D ±.5%, F, J ±% 7 C, s ±% 55 C (3 / +55 C (3 ) ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±% 6 C, 9% ~ 95%H, EJP3D, P4D ±%.5 h ON /.5 h OFF, h 7 C ±% 7 C EJP3D, P4D ±%.5 h ON /.5 h OFF h Nov. 7 36

38 EJ T6, T8, T4 EJ T E J T 6 J V T6 T8 T W.33 W.5 W J ±5 % :. kω V EJT6 4 mm, 5, pcs. EJT8 U 4 mm, 5, pcs. EJT E J T 4 M U T W K ± % M ± % :. kω U EJT4 4 mm, 5, pcs. 5 Nov. 5 37

39 W a t b (mm) W a b t (g/ pcs.) EJT6. ±..5 ±..5 ±..4 ±..6 ±. 4 EJT ±..5 ±..6 ±. EJT4 EJT4 3. ±..5 ±..35 ±..5 ±..6 ±. 6 EJT6 () (7 C) (W) (V) (V) (%).5 5 ±5 Ω ~M (E4) ( -6 / C) Ω : ~ Ω : ±3 33 Ω : ± ( C) 55 ~ +55 EJT8 (36).33 4 ±5 ~M (E4) Ω : ~ +6 Ω : ± 55 ~ +55 EJT4 (35).5 4 ±5 ~M (E4) Ω : ~ +6 Ω : ± 55 ~ +55 EJT4 (35).5 4 ± ± ~M (E) Ω : ~ +6 Ω : ± 55 ~ +55 =.5 (%) 55 C 7 C C ( C) 5 Nov. 5 38

40 Pp : t : s EJT6 EJT8 EJT4, EJT4 t t t 5 Nov. 5 39

41 EJ S, S3, S6, S8, S4, S, SD, ST EJ U, U, U3, U6, U8, U4, U, UD, UT, U6S, U6Q ΩΩ E J S 6 F V U 63.5 W S U 5. W S3 U3 68. W S6 U6.5 W S8 U W S4 U W S U W SD UD W ST UT 643. W D F J ±.5 % ± % ±5 % (±5% (±.5%±% :.k Ω : k Ω C mm, 5, pcs. X V U 4 mm, 4, pcs. EJU EJS, EJU mm,, pcs. EJS3, EJU3 EJS6, EJU6 4 mm, 5, pcs. EJS8, EJU8 4 mm, 5, pcs. EJS4, EJU4 EJS, EJU EJSD, EJUD EJST, EJUT E J U 6 S J V U6.5 W S Q. Ω ~. Ω. Ω ~ Ω F G J ± % ± % ±5 % :. Ω=m Ω :. Ω=m Ω V EJU6S 4 mm, 5, pcs. EJU6Q 8 Nov. 7 4

42 a W t b (mm) W a b t (g/pcs.) EJU.6 ±.3.3 ±.3. ±.5.5 ±.5.3 ±.3.5 EJS EJU. ±.5.5 ±.5. ±..5 ±..35 ±.5.8 EJS3 EJU3.6 ± ±..3 ±.5.45 ±. EJS6 EJU6. ±..5 ±..4 ±..4 ±..6 ±. 4 EJU6. ±..5 ±..45 ±..45 ±..55 ±. 6 EJS8 EJU ±..5 ±..6 ±. EJS4 EJU4 3. ±..5 ±..5 ±..5 ±..6 ±. 6 EJS EJU 4.5 ±. 3. ±..5 ±..5 ±..6 ±. 7 EJSD EJUD 5. ±..5 ±..6 ±..6 ±..6 ±. 7 EJST EJUT 6.4 ±. 3. ±..65 ±..6 ±..6 ±. 45 EJU (63) EJS EJU (5) EJS3 EJU3 (68) EJS6 EJU6 () EJS8 EJU8 (36) EJS4 EJU4 (35) EJS EJU (453) EJSD EJUD (55) EJST EJUT (643) (7 C) (W) (V) (V) (%) Ω ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ 3.3M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ±.5, ± ~ M (E4, E96) ±5 ~ M (E4) ( -6 / C) < Ω: ~+6 Ω~M Ω: ±(±5%) ±(±.5%, ±%) EJU, EJS EJU : ± M Ω<: 4~+5 ( C) AEC-Q Grade 55~+5 55~+55 Grade 55~+55 Grade 55~+55 Grade 55~+55 Grade 55~+55 Grade 55~+55 Grade 55~+55 Grade 55~+55 Grade (7 C) (W) (%) Ω ( -6 / C) ( C) AEC-Q Grade EJU6S () EJU6Q ().5 ±, ±, ±5. ~. (E4). ~ (E4) ±5 55~+55 Grade 8 Nov. 7 4

43 (A) (A) () EJU.5 EJS EJU EJS3 EJU3 EJS6 EJU6 EJS8 EJU8 EJS4 EJU4 EJS EJU EJSD EJUD EJST EJUT 4 (%) 55 C C EJU ( C) 5 C 55 C m Ω C m Ω +5 C/+55 C (EJU : +5 C/+5 C) ±% m Ω.5 5 s 5 s ±% m Ω 7 C, s ±% m Ω 55 C (3 / +55 C (EJU : +5 C)(3 ) ±% m Ω +55 C (EJU : +5 C), h ±% m Ω 6 C, 9% ~ 95%H, h ±3% m Ω 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% m Ω 7 C.5 h ON /.5 h OFF h C +5 C/+5 C ±%.5 5 s ±% 7 C, s ±% 55 C (3 / +5 C(3 ) ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 7 C.5 h ON /.5 h OFF h 8 Nov. 7 4

44 EJ UP3, UP6, UP E J U P 6 D V UP3 68 UP6 UP W.5 W.66 W D ±.5 % F ± % J ±5 % ±5% ±.5% ±% :.k Ω : k Ω V EJUP3 4 mm, 5, pcs. EJUP6 EJUP8 a W t b (mm) W a b t (g/ pcs.) EJUP3.6 ± ±..45 ±. EJUP6. ±..5 ±..5 ±..4 ±..6 ±. 4 EJUP ±..5 ±..6 ±. Nov. 7 43

45 EJUP3 (68) EJUP6 () EJUP8 (36) 3 (7 C) (W) (V) (V) (%) (Ω) ( 6 / C ) ±.5, ± ~ M (E4, E96) ± ±5 ~.5M (E4) ± ±.5, ± ~ M (E4, E96) ± < Ω : ~ +6 ±5 ~ 3.3M (E4) Ω : ± ±.5, ± ~ M (E4, E96) ± < Ω : ~ +6 ±5 ~ M (E4) Ω : ± ( C) AEC-Q Grade 55 ~ +55 Grade 55 ~ +55 Grade 55 ~ +55 Grade (%) 8 55 C 7 C C 5 % EJUP3 55 C ( C) EJUP6, UP8 = Ω(.5k Ω)/5 Ω(>.5k Ω) E C=5p F E=±3k V (%) 5% % -5% -% -5% -% -5% -3% Ω EJUP3 (68) EJUP3 EJU3 Ω k Ω k Ω k Ω M Ω (%) 5% % -5% -% -5% -% -5% -3% Ω EJUP6 () EJUP6 EJU6 Ω k Ω k Ω k Ω M Ω (%) 5% % -5% -% -5% -% -5% -3% Ω EJUP8 (36) EJUP8 EJU8 Ω k Ω k Ω k Ω M Ω Nov. 7 44

46 C +5 C/+55 C ±% EJUP6 :.77 5 s EJUP3, EJUP8 :. 5 s D ±.5% F, J ±% 7 C, s ±% 55 C (3 / +55 C (3 ) ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±% 7 C.5 h ON /.5 h OFF h Nov. 7 45

47 EJ C E J C C F U B m Ω Ω F ± % C 55 W C m Ω < m Ω J ±5 % U 4 mm, 5, pcs. EJC :. Ω=m Ω 5 :.5 Ω=5m Ω W a a T b b (mm) W T a b (g/ pcs.) EJCB.5±. 5.±..55±..35±..9±. 7 EJCC.6±. 5 Nov. 7 46

48 () (7 C) (W) (%) (Ω) ( -6 / C) ( C) AEC-Q Grade EJC (55) ± ±5 m ~ (E4) m Ω < m Ω : ±35 m Ω < 47m Ω : ± 47m Ω < m Ω : ±5 m Ω Ω : ± m Ω < m Ω : ±35 m Ω < Ω : ± 55 ~ +55 Grade (%) 55 C 7 C C ( C) C +5 C/+5 C ±%. 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ) ±% +55 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 7 C.5 h ON /.5 h OFF h 5 Nov. 7 47

49 EXB 4V, 8V, 4V, 8V, N8V, HV, 34V, V4V, 38V, V8V, S8V E X B V 8 V 4 7 J V H N8 V4 V8 S V 3, :.k Ω J ±5 % EXBS8V 4 mm,,5 pcs. X mm,, pcs. V EXB4V, 8V, 4V, 8V, N8V EXBHV, 34V, 4 mm, 5, pcs. 38V, V4V, V8V 4V, 4V, 34V, V4V 8V, 8V, N8V, 38V, V8V, S8V HV Feb. 8 48

50 (7 C) (W/ ) (V) (V) (%) Ω ( -6 / C) ( C) AEC-Q Grade EXB4V (63 ) ±5 ~ M (E4) 55~+5 EXB8V.3 (63 4). W /.5 5 ±5 ~ M (E4) 55~+5 EXB4V (5 ).63 5 ±5 ~ M (E4) 55~+5 Grade EXB8V (5 4).63 5 ±5 ~ M (E4) 55~+5 Grade EXBHV.63 < Ω : 5 5 ±5 ~ M (E4) (65 8).5 W / ~+6 55~+5 Grade EXB34V.63 5 ±5 ~ M (E4) 55~+5 Grade (68 ) EXB38V Ω~M Ω :.63 5 ±5 ~ M (E4) (68 4) ± 55~+5 Grade EXBN8V (5 4).3 5 ±5 ~ M (E4) 55~+5 EXBV4V (68 ).63 5 ±5 ~ M (E4) 55~+5 EXBV8V (68 4).63 5 ±5 ~ M (E4) 55~+5 EXBS8V ( 4). ±5 ~ M (E4) 55~+5 (A / ) () (A) EXB4V (63 ).5 EXB8V (63 4).5 EXB4V (5 ) EXB8V (5 4) EXBHV (65 8) EXB34V (68 ) EXB38V (68 4) EXBN8V (5 4) EXBV4V (68 ) EXBV8V (68 4) EXBS8V ( 4) 4 (%) 55 C C 5 C ( C) 4 Feb. 8 49

51 A EXB4V, 4V, 34V A A EXB8V, 38V B B G G W B B G G W P T P T A A EXBHV G B B W G P T (mm) (g/ pcs.) W T A A B P G EXB4V (63 ).8 ±..6 ±..35 ±..35 ±..5 ±. (.5).5 ±..5 EXB4V (5 ). ±.. ±..35 ±..4 ±..8 ±. (.65).5 ±.. EXB8V (5 4). ±.. ±..35 ±..45 ±..35 ±.. ±. (.5).5 ±.. EXBHV (65 8) 3.8 ±..6 ±..45 ±..35 ±..35 ±..3 ±. (.5).3 ±. 9. EXB34V (68 ).6 ±..6 ±.5.5 ±..65 ±.5.3 ±. (.8).3 ±. 3.5 EXB38V (68 4) 3. ±..6 ±.5.5 ±..65 ±.5.45 ±.5.3 ±. (.8).35 ±. 7. A EXBV4V A A EXBN8V, V8V, S8V B G B G W W B G B G P T P T A A EXB8V (mm) (g/ pcs.) W T A A B P G EXBN8V (5 4). ±.. ±..45 ±..3 ±..3 ±.. ±.5 (.5).3 ±.5 3. EXBV4V (68 ) ±..6 ±..3 ±.5 (.8).45 ±.5 5. EXBV8V (68 4) ±..6 ±..6 ±..3 ±.5 (.8).45 ±.5 EXBS8V ( 4) ±.5.8 ±.5.5 ±.5 (.7).55 ±.5 3 B G W B G P T (mm) (g/ pcs.) W T A A B P G EXB8V (63 4).4 ±..6 ±..35 ±.. ±.. ±.. ±. (.4). ±.. 4 Feb. 8 5

52 C +5 C/+5 C ±%.5 5 s 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ) ±% +5 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 7 C.5 h ON /.5 h OFF h 4 Feb. 8 5

53 EXB U4, U8, U4, U8, UH, U34, U E X B U J X U U8 63 4, J ±5 % EXBU4, U8, X U4 5 mm,, pcs. U4, U8 U8 5 4 EXBUH, U34, :.k Ω V UH mm, 5, pcs. U38 U34 U U4, U4, U34 U8, U8, U38 UH Feb. 8 5

54 EXBU4 (63 ) EXBU8 (63 4) EXBU4 (5 ) EXBU8 (5 4) EXBUH (65 8) EXBU34 (68 ) EXBU38 (68 4) (7 C) (W/ ) (V) (V) (%) Ω ±5 ~ M (E4).3. W / ( -6 / C) ( C) AEC-Q Grade 55~ ±5 ~ M (E4) 55~ ±5 ~ M (E4) < Ω : 55~+5 Grade ~ ±5 ~ M (E4) 55~+5 Grade.63.5 W / Ω~M Ω : 5 5 ±5 ~ M (E4) ± 55~+5 Grade.63 5 ±5 ~ M (E4) 55~+5 Grade.63 5 ±5 ~ M (E4) 55~+5 Grade (A / ) () (A) EXBU4 (5 ) EXBU8 (5 4) EXBUH (65 8) EXBU34 (68 ) EXBU38 (68 4) (%) 55 C C 5 C ( C) 5 Feb. 8 53

55 A EXBU4, U4, U34 A A EXBU8 B B G P T B B G G W W G P T A A EXBU8, U38 A A EXBUH B B G W G B B G W G P T P T (mm) (g/ pcs.) W T A A B P G EXBU4 (63 ).8 ±..6 ±..35 ±..35 ±..5 ±. (.5).5 ±..5 EXBU8 (63 4).4 ±..6 ±..35 ±.. ±.. ±.. ±. (.4). ±.. EXBU4 (5 ). ±.. ±..35 ±..4 ±..8 ±. (.65).5 ±.. EXBU8 (5 4). ±.. ±..35 ±..45 ±..35 ±.. ±. (.5).5 ±.. EXBUH (65 8) 3.8 ±..6 ±..45 ±..35 ±..35 ±..3 ±. (.5).3 ±. 9. EXBU34 (68 ).6 ±..6 ±.5.5 ±..65 ±.5.3 ±. (.8).3 ±. 3.5 EXBU38 (68 4) 3. ±..6 ±.5.5 ±..65 ±.5.45 ±.5.3 ±. (.8).35 ±. 7. C +5 C/+5 C ±%.5 5 s 5 s ±% 7 C, s ±% 55 C (3 / +5 C (3 ) ±% +5 C, h ±% 6 C, 9% ~ 95%H, h ±3% 6 C, 9% ~ 95%H,.5 h ON /.5 h OFF, h 7 C ±3% 7 C.5 h ON /.5 h OFF h 5 Feb. 8 54

56 EXB D, E, A, Q V CC EXBEC V CC EXBAP V CC IC IC IC IC IC IC.4 mm.635 mm E X B E C 3 J D E A Q 3. mm.6 mm 4. mm. mm 6.4 mm3. mm 3.8 mm.6 mm (EXBD, E, A) 6(EXBQ) C (EXBD,EXBE) (5,) P (EXBA) P (6) (EXBQ) E (,6) (EXBA) 3 J ±5 % Sep. 4 55

57 EXBD EXBE EXBA EXBQ.±..4±.5.4±.5.33±.5 f.±..±..635±. 3.±.5.3±..5±..±..±..5±..35±.5.35±.5.6±.5.55±..5±. f ±..3±..5±..35±..5±. I3.8±. 4.±..4±..5±..5±..35±..4±..4±..±..55±..7±. f I3.7±. 6.4±..5±..5±..5±..3±..3±. 3.±. EXBAP I3.55±. EXBAE I ±. 3.8±..±. 47.5± ±.5.3±.5.6±..45±. ( pcs.) : g ( pcs.) : 6 g ( pcs.) : 4 g ( pcs.) : 9 g EXBD, EXBE EXBA EXBQ EXBAP EXBAE EXBD EXBE EXBA EXBQ 47 Ω ~ MΩ (E ) Ω ~ 47 kω (E6 ) ±5% C.5 W/.63 W/.5 W/ () 5V 5 V 5V () 5 V V 5 V ± 6 / C 55 C ~ +5 C = =.5 (%) 55 C 7 C C ( C) Sep. 4 56

58 EXB 4AT, 4AT E X B 4 A T 3 A 3 X 4AT 4AT.8 mm.6 mm p. mm. mm p () db, A db A 5 Ω 3 ±.3 db 5 ±.5 db X mm,, pcs. (db) db db 3dB 4dB 5dB 6dB db 3 k k M M M G 3 G (Hz) p 4 3 Sep. 4 57

59 EXB4AT EXB4AT A 4 EXB4AT 3 B A 4 3 EXB4AT B W P P T C C W T (mm) W T A B C P.8 ±..6 ±..35 ±..35 ±..5 ±..5 ±..5 (mm) W T A B C P. ±.. ±..35 ±..4 ±..5 ±..5 ±..65 < > 3, 4 pcs.:.7 g < > 4 pcs.:. g EXB4AT, EXB4AT db, db, 3 db, 4 db, 5 db, 6 db, db db, db, 3 db, 4 db, 5dB : ±.3 db 6 db, db : ±.5 db 5 Ω (7 C).4 W/ DC ~ 3. GHz VSW C ~ +5 C (%) C 7 C 5 C ( C) Sep. 4 58

60 (mm) ( mm ) ( mm ) (4 mm ) (4 mm ) EJXGN 4, 4, EJGN 63 5, EJGE 5,,, EJ3GE 68 5, EJ6GE 5, EJ8GE 36 5, EJ4 35 5, EJ 453 5, EJZ 55 5, EJT 643 4, EJXGN 4, 4, EJGN/H 63 5, EJC/H/K 5, EJ3B/3E/3EK 68 5, EJ6B/6E/6EN 5, EJ8EN 36 5, EJ4N 35 5, EJN 453 5, EJS 55 5, EJTN 643 4, EAA 63 5, EAA/V EA3A/3V 5 68, 5, EA6A/6V 5, EA8A 36 5, EJW/BW 5, EJBS/BQ 5, EJ3/3B/3/3 68 5, EJ6/6B/6C EJ6D/6/6 5, EJ8B/8C/8/8 36 5, EJ4B/4/4 35 5, EJ/ 453 5, EJZ/D 55 5, EJT 643 4, EJW 643 3, EJMP 36 3, EJMP3 55 3, EJMP4 643, EJMS4 643, EJMS6 6468, (8 mm) EJMB 55 3, EJMW 643 3, EJMFBA 5, 59 7 Aug. 8

61 (mm) ( mm ) ( mm ) (4 mm ) (4 mm ) EJA 364 4, EJB/EJC () () EJD 55 5, EJB/EJD () 63 5, EJB3 5, EJPA 5, EJPB3/P3/PA3 68 5, EJPB6/P6 5, EJP8 36 5, EJP4 35 5, EJT6 5, EJT8 36 5, EJT4 35 5, EJU 63 5, EJS/U 5, EJS3/U3 68 5, EJS6/U6 EJU6S/U6Q/UP6 5, EJS8/U8/UP8 36 5, EJS4/U4 35 5, EJS/U 453 5, EJSD/UD 55 5, EJST/UT 643 4, EXB4V 86, EXB4V, EXB34V 66 5, EXBV4V 66 5, EXB8V 46, EXB8V, EXBN8V, EXB38V 36 5, EXBV8V 36 5, EXBS8V 5,5 EXBHV 386 5, EXBU4 86, EXBU8 46, EXBU4, EXBU , EXBU8, EXBU , EXBUH 386 5, EXBD 36 5, EXBE 4 4, EXBA 643 4, EXBQ 386 5, EXB4AT 86, EXB4AT, 6 7 Aug. 8

62 fd P P P B W F E T T T A P mm fd ( : mm) A B W F E P P P D T EJXGN 4.4 ±.3.45 ±.3.3 ±.5 EJGN EJ EJU ±.5.68 ±.5 8. ±. 3.5 ±.5.75 ±.. ±.. ±.5 4. ± ±.5 EAA EJW ±..6 ±.5 EJBW.67 ±..7 ±..6 ±.5 ( : mm) A B W F E P P P D T EJ EJPA.5 EJ 5.67 ±.5.7 ±.5 8. ±. 3.5 ±.5.75 ±.. ±.. ±.5 4. ± EA EJMFBA.6 ±.5 ±. A B W F E P P P D T EXB4V EXB4AT EXB8V 46.6 ±. EXB4V EXBU4 8. ±. 3.5 ±.5.75 ±.. ±.. ±.5 4. ± ±.5. EXB4AT. EXB8V ±. EXBU8 EXBN8V. ±. ( : mm) ( : mm) A B W F E P P P D T EJ3 EJ3W( mω) EJ3BW.7 ±.5 EJ ±..9 ±. EA3 EJ3W(5 mω) EJ6 EJ 6 EJU6S, U6Q EA6.65 ±.5.5 ±..84 ±.5 EJB3 8. ±. 3.5 ±.5.75 ±. 4. ±.. ±.5 4. ± EJ6BW EJ6W.55 ±.5.3 ±. EJ6CW.94 ±.5 EJ8 EJ8 W EJ 8 36 EA8A. ± ±..84 ±.5 EJB EJD Aug. 8

63 ( : mm) A B W F E P P P D T EXB34V EXBU ±. EXB38V EXBU ±..7 ±.5 EXBHV.95 ±.5 EXBUH ±.5 8. ±. 3.5 ±.5.75 ±. 4. ±.. ±.5 4. ± EXBV4V ±. EXBV8V ±..84 ±.5 EXBD 36. ±. 3.6 ±..84 ±. EXBQ ±. 4. ±..64 ±.5 ( : mm) A B W F E P P P D T EJXGN 4.5 ±.5.45 ±.5 4. ±..8 ±.5.9 ±.. ±.. ±.. ±..8 ±..5 max. ( : mm) A B W F E P P P D T D EJ4 EJ ±. 3.5 ±. 8. ± ± EJ EJ ±. 4.8 ±. EJZ EJS 55. EJ D ±..8 ±. 5.3 ±..75 ±. 4. ±.. ±.5 4. ± EJB EJC 55. ± ±..5 min. EJD EJT EJ T ±. 6.9 ±. EJW.6 ±. EJA ±. 6.8 ±.. ±. ( : mm) A B W F E P P P D T D EJMP (m Ω) ±. EJMP (m Ω) 36.9 ±. 3.5 ±. 8. ± ±..4 ±. EJMP (3~5m Ω) 36. ±. EJMP3 ( ~m Ω) 55.55±. EJMP3.9 ±. 5.4 ±.. ± ±..75 ±. 4. ±.. ±.5 4. ± (3~5m Ω) EJMB ±. EJMP4 ( ~m Ω) ±..5 min. EJMP4 (3~5m Ω) ±. 6.9 ±.. ± ±.. ±. EJMS ±..5 min. EJMW ±..5 min. ( : mm) A B W F E P P P D T D EXBS8V 5.8 ±. 5.7 ±..6 max. EXBE 4.5 ±. 4.4 ±.. ± ±..75 ±. 4. ±.. ±.5 4. ± min.. ±. EXBA ±. 6.8 ±. 6 4 Aug. 8

64 ( : mm) A B W F E P P P D T D EJMS ±. 7.5 ±.. ± ±.5.75 ±. 8. ±.. ±.5 4. ± ±..5 min. fc ( : mm) fn (W) A N C W W 4 mm 8. ± ±.5 7. ±.5 fa W W 8 mm ± ±. mm ±. 4 mm 38. ±. 8. ±. 5.4 ±. 9.4 ± Aug. 8

65 a b (mm) a b c EJW/BW ~.6.4 ~.6 EJ3W/3BW 68.5 ~.8.5 ~.7.9 ~. EJ6W.6 ~.8 3. ~ 3.8. ~.4 EJ6BW.9 3. ~ 3.8. ~.4 EJ6CW ( ~ 3 mω).7 ~.9 3. ~ 3.8. ~.4 EJ6CW (5 ~ 3 mω).9 ~. 3. ~ 3.8. ~.4 EJ8BW 36 EJ8CW. 4.4 ~ 5..3 ~.8 ( ~ 6 mω) 36 EJ8CW (8 ~ 5 mω) 36. ~ ~ 5.. ~.8 c (mm) a b c 4.5 ~..5 ~.7. ~ ~.4.8 ~.9.5 ~ ~.6.4 ~.6.4 ~ ~.9. ~..8 ~.. ~.4 3. ~ ~ ~ ~ 5.. ~ ~ ~ 5..8 ~ ~ ~ ~ ~ ~ 7..8 ~ ~ ~ ~ ~ ~ ~ 3.5 EJW c b b a (mm) a b c EJA EJB EJC () EJD () EJB () EJD EJB Mar. 6

66 a d f a b c b P c EXB4V EXB4A EXB4V EXBU4 EXB4A (mm) a b c d ~ ~ ~.5 (mm) a b c f P EXB8V. ~.3.5 ~..5 ~..8 ~.9.4 EXBV4V,V8V.7 ~.9.4 ~.45.4 ~.45 ~.4.8 EXB34V,38V.7 ~.9.4 ~.5.4 ~.5. ~.6.8 EXBU34,U38 EXBS8V ~..5 ~.75.5 ~ ~ f a f a b d c d c d b b d c d c d c d c d c d c d b (mm) a b c d f EXB8V EXBU8 EXBN8V.45~.5.35~ ~. EXBHV EXBUH (mm) a b c d f EXBA.7 mm.8 mm EXBE.8.35 ~.4. ~ ~ ~.5.4 ~.5 3. ~ ~ ~ ~ mm. EXBAP EXBAE mm. ~ ~ ~ ~ EXBD EXBQ.635 mm.635. ~.3.5 mm.3 ~.4.9 ~.. ~.6. ~.6.9 ~..6 ~ ~ 4.. ~ Mar. 6

67 (Sn/Pb ) 4 C ~ 6 C 6 ~ C 3 ~ 4 35 ±5 C (Sn/Ag/Cu ) 5 C ~ 8 C 6 ~ 3 C 3 ~ 4 max. 6 C 4 C ~ 6 C 6 ~ 5 C ~ 8 C 6 ~ 45±5 C ~ 3 max. 6 C (Sn/Pb ) 4 C ~ 6 C 6 ~ C 3 ~ 4 35 ±5 C (Sn/Ag/Cu ) 5 C ~ 8 C 6 ~ 3 C 3 ~ 4 max. 6 C Sep. 4 66

68 67 Sep. 4

69 EG(X)S (.5 W, W, W, 3 W, 5 W) EG(X)F ( W, W, 3 W, 5 W) Ω Ω E X S Z J W E EX W W W 3 W 5 W S F.5 W ~ 5 W W ~ 5 W Ω EX SZ EX S EXS ±5 %. ~.8. ~ 9. ± %. ~.9. ~ 9. EXS ±5 %. ~.8. ~ 9. EXF ± %. ~.9. ~ 9. EXS ±5 %. ~.. ~ 9. EXF ± %. ~.9. ~ 9. EX3S ±5 %. ~.. ~ 9. EX3F ± %. ~.9. ~ 9. EX5S ±5 % _.33 ~ 9. EX5F ± %. ~ 9. J ±5 % G ± % 3 :. Ω S S S 3S 5S F F 3F 5F P V U V E W E H S E Ω E G S J W 3 E EG W W W 3 W 5 W S F.5 W ~ 5 W W ~ 5 W J ±5 % G ± % P V U V E W E H S E 3 3 : kω S S S 3S 5S F F 3F 5F Ω Sep. 4 68

70 k k fd fd (mm) fd k fd (g/ ) EG(X)S ±3..65 ±.5.6 EG(X)S.65 ±.5 EG(X)F ±.5 3. ±3..8 ±.5.33 EG(X)S EG(X)F EG(X)3S EG(X)3F ±. 3. ±3..8 ± ± ±. 38. ±3..8 ±.5.47 EG(X)5S EG(X)5F 4. ±.5 8. ±. 38. ±3..8 ± (7 C) (W) () (V) () (V) (3) (V) (V) EG(X)S EG(X)S EG(X)F EG(X)S EG(X)F EG(X)3S EG(X)3F EG(X)5S EG(X)5F = =.5 =4. (4) (%) (5) (Ω) min. (6) max. G (±) k J (±5). 47 k G (±) 68 k J (±5). k G (±) k J (±5). k G (±) k J (±5). k G (±) k J (±5).33 k ( -6 / C) ±35 E4 ±35 E4 ±35 E4 ±3 E4 ± E4 Ω 9.Ω Z S ± %. ~.9 Ω S ± %. ~.9 Ω ±5 %. ~.8 Ω F ±5 %. ~. Ω Z S ± %. ~.9 Ω 3S ± %. ~.9 Ω F ±5 %. ~.8 Ω 3F ±5 %. ~. Ω (%) 55 C 7 C 8 EG(X)S, F 6 EG(X)S, F EG(X)S EG(X)3S, 3F 4 EG(X)5S, 5F 3 C 35 C ( C) Sep. 4 69

71 EG(X) S V 6.±.5 EG(X) S U V fd P P fd W H W H.8 mm ( W). mm ( W, 3 W) W (pcs./box) mm mm P 5 P W H W fd a b c EG(X)S V, 5. ±.3 5 ± 5. ±.5.65 ± b EG(X) S V, 5. ±.3 5 ± 5. ±.5.65 ±.5 EG(X) S U V EG(X) S V, 5. ±.3 5 ± 5. ±.5.8 ±.5 EG(X) S U V a c EG(X) 3S V,. ±.5 5 ± 74. ±..8 ±.5 EG(X) 3S U V EG(X) S P S f.65±.5 (.5 W, W) f.8±.5 ( W, 3 W, 5 W) fd h h.8 (.5 W, W). ( W, 3 W, 5 W).±. (.5 W, W).4±. ( W, 3 W, 5 W) (pcs./box) mm D S h h EG(X)S P, ±.5 4. ±.5 4. ±.5 EG(X)S P, ±.5.5 ±.5 4. ±.5 4. ±.5 EG(X)S P, ±. 5. ±.5 6. ±.5 4. ±.5 EG(X)3S P, 5. ± ±.. ±. 6.5 ±.5 4. ±.5 EG(X)5S P 5 4. ±.5 8. ±. 3. ±. 7.5 ±.5 4. ±.5 EG(X) F H S f.8±.5 fd..4±. h h (pcs./box) mm D S h h EG(X)F H, ±.5.5 ±.5 8 ± 4. ±.5 EG(X)F H, ±. 5. ±.5 6 ± 5. ±.5 EG(X)3F H, 5. ± ±.. ±. ± 5. ±.5 EG(X)5F H 5 4. ±.5 8. ±. 3. ±. ± 5. ±.5 Sep. 4 7

72 EG(X) S E (S, S, S) P P fd A F P H H fd W W P fd (mm) (mm) (mm) (mm) (mm) P.7±. W 8.±.5 S 3 max. S S P.7±.3 W 9.±.5 H S 3 max. A S D S.8±.5 P 3.85±.7 S 38 max. S S 4.±. P 6.35±. H 6.±.5 d.65±.5 F 5.±.8 D 4.±. b (mm) a b c (pcs./box) EG(X)S E , EG(X) S E , EG(X) S E , a c EG(X) S W E (S, S, S, 3S) P P A B P F fd P fd fd H H W W (mm) (mm) P S.7±. D S, S, S, 3S 4.±. S, S, 3S 3.±. S S.7±.3 S P A S, S, 3S 5.±.3 S S 6.35±. 3S 5.±.5 P S, S, 3S 7.5±. S. max. S 3.85±.7 S 4. max. P B S, S, 3S 3.75±.5 S 7. max. F S 5.±.5 3S. max. S, S, 3S 7.5±.8 S W S, S, S, 3S 8.±.5 S.8±.5 D W S, S, S, 3S 9.±.5 S 4.±. H S, S 8.±. S.65±.5 d 3S 9.±. S, S, 3S.8±.5 S 6.±.5 3S 5.5±. H S, S S S Sep. 4 7

73 EG(X) F S E (F, F, 3F) H P P A B F P fd P H H fd fd W W H (mm) (mm) P 3.±. H.±.3 P 5.±.3 D 4.±. P 7.5±. F P 3.75±.5 A F F 7.5±.8 3F 5.±.5 W 8.±.5 F 4 max. W 9.±.5 B F 7 max. H F max. F D F 4.±. F F.8±.5 3F F 5.5±. d.8±.5 b a c (mm) a b c (pcs./box) EG(X)S W E , EG(X) S W E EG(X) F S E , EG(X) S W E EG(X) F S E EG(X) 3F S E Sep. 4 7

74 A B F-A T ( C) S-A S-B S-A S-B T ( C) S-A S-B F-B (%) (%) F-A 3S-A + 5F-A 5S-A T ( C) S-B 3F-B T ( C) S-B 5F-B (%) (%) Sep. 4 73

75 PP (VP) t PP : (W) VP : (V) t : (s) T : (s) V : (V) P : (W) : (Ω) Vp max. : (V) T t t t t K Vp max. (V) EG(X) S.5 6 EG(X) S.5 6 EG(X) S.5 7 EG(X) 3S.5 7 EG(X) 5S.5 Sep. 4 74

76 EGD (.5 W, W, W, 3 W) Ω E G D J 4.5 W W W 3 3 W G J ± % ±5 % 3 4 : kω V P U V E W E D D D 3D Ω k k fd fd (mm) fd k fd (g/ ) EGD ±3..65 ±.5.6 EGD ±.5 3. ±3..65 ±.5.33 EGD ±. 3. ±3..8 ±.5.66 EG3D 5. ± ±. 38. ±3..8 ±.5.47 Sep. 4 75

77 (7 C) (W) () (V) () (V) (3) (V) (V) (%) (4) (Ω) min. max. EGD J (±5) G (±) 5 k 4 k E4 EGD 5 5 J (±5) G (±) k 33 k E4 EGD 5 7 J (±5) G (±) k 5 k E4 EG3D J (±5) G (±) k 75 k E4 =.5 =4. (%) 55 C 7 C 8 EGD ~ 3D 6 EGD 4 3 C 35 C ( C) Sep. 4 76

78 (.5 W, W, W) Ω Ω E X J 4 7 M EX.5 W W W J ±5 % mω V M P E 47 M : 47 mω W E Ω k k fd fd (mm) fd k fd (g/ ) EX ±3..65 ±.5.6 EX ±.5 3. ±3..65 ±.5.33 EX ±. 3. ±3..8 ±.5.66 Sep. 4 77

79 () (7 C) (W) (VAC) () (%) () (Ω) min. max. ( 6 / C) EX.5 35 J (±5) m 8 m E EX 35 J (±5) m 8 m ~ 39 mω=± 47 ~ 8 mω=± 5 E EX 6 J (±5) m 8 m E (%) 55 C 7 C 8 EX, 6 EX 4 3 C 35 C ( C) Sep. 4 78

80 (.5 W,.5 W, W, W ) E Q A B J 4.5 W.5 W W W A Z AB Z Ω Ω J ±5 % 3, :. Ω 47 : 47 Ω P P S E W E.5 W.5 W W W Ω Sep. 4 79

81 (7 C) (W) () (V) (V) (%) (Ω) ( -6 / C) (g/ ) EQ4Z..8.5 AC 35 J (± 5) EQ4A. 47 ±35 E4.4 EQZ AC 35 J (± 5) ±35 E4 EQA EQZ ()..8 5 AC 6 J (± 5) EQAB. 56 ±35 E4.64 EQZ..8 5 AC J (± 5) EQAB. 56 ±35 E4.54 (%) C 7 C EQ4 EQ EQ EQ 5 C 3 C ().5 W.5 W W W.5 W.5 W W W Ω ~.8 ~ W ~ 47.5 W 3 W W ~ 56 Sep. 4 8

82 l l fd fd (mm) fd k fd EQ ±.5 3. ±3..65 ±.5 EQ ±.5 3. ±3..65 ±.5. EQ ±. 3. ±3..8 ±.5 EQ 5. ± ±. 38. ±3..8 ±.5 Q W ΩJ 7 5 W5 % W EQ AJ P EQ ZJ P S f.65±.5 fd h 3 max..8.±. 4.±. (mm) (7 C) (pcs.) (W) fd S h EQ4 J P.5, ±.5. ±.5 4. ±.5 EQ J P.5, ±.5.5 ±.5 4. ±.5 EQ ABJP S EQ ZJP S S f.8±.5 fd h 3.5 max...4±. 4.±.5 (mm) (7 C) (pcs.) (W) fd S h EQ JP S, ±. 5. ±.5 6. ±.5 EQ JP S, 5. ± ±.. ±. 6.5 ±.5 8 Sep. 4

83 EQ AJ E EQ ZJ E (4A/4Z, A/Z, AB/Z) P P D A H F P H fd W W P fd (mm) (mm) (mm) (mm) (mm) P.7±. W 8.±.5 4A/4Z max. 4A/4Z A/4Z.3±.5 P.7±.3 W 9.±.5 H A/Z 5.5 max. A/Z D A/Z.8±.5 P 3.85±.7 AB/Z 9 max. AB/Z AB/Z 4.±. P 6.35±. H 6.±.5 fd.65±.5 F 5.±.8 fd 4.±. A b a c EQ4AJ E EQ4ZJ E EQAJ E EQZJ E EQABJ E EQZJ E (mm) a b c , pcs./box , pcs./box , pcs./box EQ A/ZJW E (4A/4Z, A/Z, AB/Z) P P A F fd P P B fd H H fd W W P P P P (mm) (mm) 4A/4Z.7±. 4A/4Z A/Z, AB/Z 3.±. H A/Z A/4Z.7±.3 AB/Z A/Z, AB/Z 5.±.3 fd 4.±. 4A/4Z 6.35±. 4A/4Z A/Z, AB/Z 7.5±. A A/Z A/4Z 3.85±.7 AB/Z A/Z, AB/Z 3.75±.5 4A/4Z. max. F 4A/4Z B A/Z 4 max. A/Z, AB/Z AB/Z 7 max. W 8.±.5 4A/4Z W 9.±.5 fd A/Z.8±.5 4A/4Z 6.±.5 AB/Z 4.±. H A/Z 8.±. 4A/4Z.65±.5 fd AB/Z 8.±. A/Z, AB/Z.8±.5 Sep. 4 8

84 EQ4A. ~ 9. (Ω) EQA. ~ 9. (Ω) ~ 47 (Ω) ~ 56 (Ω) 5 5 () 3 () EQAB. ~ 9. (Ω) EQAB. ~ 9. (Ω) ~ 56 (Ω) ~ 56 (Ω) 5 5 () 3 () T (K) 4 3 AB AB A 4A Sep. 4 83

85 Pp (Vp) t T PP : (W) VP : (V) t : (s) T : (s) V : (V) P : (W) : (Ω) Vp max. : (V) t t K Vp max. (V) EQ4A.6 EQA.6 5 EQAB.6 5 EQAB.4 5 t t Sep. 4 84

86 IEC Publication 66: Marking codes for resistors and capacitors. IEC Publication 663: Preferred number series for resistors and capacitors. JIS C 56: JIS C 563: E6 ± % 6 =.46 E ± % =. E4 ± 5 % 4 =. E48 ± % 48 =.5 E96 ± % 96 =. Ω Ω Ω k 73 7 k 4 k 75.7 M 6 M 7 M k k 73 7 k 4 M M 6 M 85 Sep. 4

87 W B C D F G J K M (%) ±.5 ±. ±.5 ±.5 ± ± ±5 ± ± W : Ω±.5 % B : Ω±. % C : Ω±.5 % D : Ω±.5 % F : Ω± % G : Ω± % J : Ω±5 % K : Ω± % M : Ω± % 3 % ± F ± G ±.5 W ±.5 D ±.5 C ±. B ±5 J ± K ± M Ω Ω () (5) (4) () (± %) () (5) () (±5 %) 86 Sep. 4

88 E6 E E4 E48 E E6 E E4 E48 E E6 E E4 E48 E Sep. 4

89