三菱低圧気中遮断器AE形 World Super AE

Size: px

Start display at page:

Download "三菱低圧気中遮断器AE形 World Super AE"

さわあんさい
5 years ago
Views:

1 6AF~60AF A

- 6 7-8 9 - - 7 7-8 9-0 - - - 6 7-8 9 - - - 7 8 9-0 -

000 00 60 AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA

3 AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW AE00-SW AE60-SW

4 WS WS WS WM WM WM WB WB WB WF WF WF LTD+STD+INST / MCR LTD+STD+INST / MCR INST / MCR LTD+STD+INST / MCR G E AP N P P P P P EX DP TAL MCR-SW

5 MELSECNET/ PC MELSECNET/ CC-Link PLC I/O MDU/MDU EcoMonitor Pro EcoMonitorII MENSR AE-SW CC-Link BNET WS, WB, WM, WF WS, WB, WM, WF WS, WB, WM, WF AE6 600-SW, AE SW, AE000-SW AE000-SWA, AE000-SWA, AE00-SW AE60-SW WS : WM : WB : WF : G: N: E: AP: NA: P: AC DC0-0V P: DC-60V P: AC0-0 / DC0-V P: DC-60V P: DC0-0V

6 SW SWA SW SWA SW AE000-SS AE000-SWA

7 DCV AE000-SW AE0-SW AE00-SW AE000-SWA DC0V DC600V AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW* AE0-SW* 6

8 AE600-SW P AE600-SW P

9 AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW AE00-SW AE60-SW 6 IEC EN 6097-(CE) JIS C 80-- NK LR GL BV ABS DNV CCS

10 9 JIS C 80-- Ann Ann IEC EN NK GL BV LR ABS DNV CCS (A) (/60Hz) (AC.V) (/60Hz) (AC.V) (kv) (A) AC600/690V AC0/0/0V AC600/690V AC0/0/0V AC600/690V AC0/0/0V AC600/690V AC0V AC600/690V AC0V () () AC0V In AC690V In AE6-SW (CT 0A) (CT A) (CT A) AE000-SW (CT 600A) (CT A) (A) AE6-SW AE00-SW AE-SW AE600-SW Ir Ir Ir Ir / / / / /. /. / / /. / ,000,000,000 B A, ,600,900 69,0 77,0 7 AE600-SW AE00-SW AE000-SWA AE000-SWA AE60-SW (CT 6000A)

11 AE000-SWA AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW AE00-SW AE60-SW B A, B A, Ir Ir 00 0 Ir Ir Ir Ir 0 0 Ir 000 Ir / /87 7/ 7/ /9. /9. 7/ /87 7/67 / /87 /86 /87 0/0 / / /87 8/ /88. 8/ ,0,0,0,0,000, ,000,000-0,000 -,000 (P) /,000 (P) ,900 97,00,7,000,,000,669,000,66,000,709,000,990, AE600-SW AE000-SWA AE00-SW AE000-SWA AE600-SW AE000-SWA AE00-SW AE000-SWA AE60-SW AE60-SW

12 (AE6~600-SW, AE000~00-SW) FIX-VTA FIX-FTA DR-VT DR-FT DR-VTA DR-FTA (AE000-SWA, AE000-SWA, AE000~-SW) FIX-VT DR-VT AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW AE00-SW AE60-SW

13 U U Axb U U + DC DC8 AC/DC 0- AC/DC 00-8 ~ 6. ~.8 ~ ~ () () (7) 6(8) 6 () () () () AC DC

14 A A CC DC-8V (6.8~.8) AC DC 0-V(70-7) AC80~0V (66~) AC DC DCV.A (0W) DC8V 6.0A (00W) AC0V 0.A (0VA) DC0V 0.6A (0W) ACV.A (VA) DCV.6A (00W) AC80V 0.A (VA) AC0V 0.7A (0VA) - C C SHT

15 97 98 AC DC 0 0 AC0-0V AC00-0V AC80-60V DCV DC8V DC0-V DC0-V ~V ~70V 7~V.6~0.V.~0.8V ~V 78~V ~70V 90~0V 7~66V.8~6.8V.6~.6V ~70V ~8V 0VA AC0-0V DCV 0VA /60Hz - D D DT DT ~ D D DT DT ~ IN IN OUT OUT AC DC ab ab ab 0. 0.

16 7 8 9 (mm) -M 7. -R M6 φ φ8 φ C C SHT DC- DC+ R R C R AC AC LED

17 0~ ACB ACB ACB ACB 6 7 ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB ACB AE6-SW~ AE600-SW AE000-SW~ AE000-SWA AE000-SWA AE00-SW AE000-SW~ AE60-SW 6

18 (mm) φ DISCON TEST CONNECT ON ON ON OFF OFF OFF AC DC 7

19 AC DC DISCON TEST CONNECT ON OFF 8

A D C F E H B F G A B C D E F G H 9 WS, WB, WM, WF AE6 600-SW G: P: AC DC0-0V AE000 00-SW AE000-SW N: E: P:

20 A D C F E H B F G A B C D E F G H 9 WS, WB, WM, WF AE6 600-SW G: P: AC DC0-0V AE SW AE000-SW N: E: P: DC-60V P: WS, WB, WM, WF AE000-SWA AP: AE000-SWA AE00-SW NA: P: WS, WB, WM, WF AE60-SW P: WS : WM : WB : WF :

21 ➀ ➁ ➂ ➃ ➄ ➅ cosφ=0. cosφ=.0 L/R= AC DC AC DC AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA 6A 00A A 600A 000A AE000-SW AE0-SW AE00-SW AE000-SWA A A 0A A 600A 000A 0A 00A 000A AE000-SW AE00-SW AE60-SW 000A 00A 60A BIF-CC BIF-BN BIF-CON BIF-CL 0

G D E F B A L H I J K A B C D E F G H I J K L M N O P C P M O N No. G Ir 0. ~.0.0 H Iu 0.8 ~.0 x Ir 0.0, x Iu.0 I TL 0 s at Iu x ± 0% J Isd.. 6 7 8 9 x Ir ± % K Tsd 0. 0. 0. 0. 0. 0.06 0.06 0. 0. 0. 0. 0.s (I t ON) (I t OFF) at Isd x.

22 G D E F B A L H I J K A B C D E F G H I J K L M N O P C P M O N No. G Ir 0. ~.0.0 H Iu 0.8 ~.0 x Ir 0.0, x Iu.0 I TL 0 s at Iu x ± 0% J Isd x Ir ± % K Tsd s (I t ON) (I t OFF) at Isd x. AE6-SW~AE600-SW x Ir AE000-SW~AE00-SW (INST) (MCR) AE000-SW WS ± 0% 0. (I t ON) WS 6 (INST) L Ii AE000-SWA, AE000-SWA AE00-SW (INST) (MCR) x Ir WS ± % WS (INST) AE60-SW (INST) (MCR) x Ir WS WS (INST) N Ip Iu x 0.68 ~.0 OVER ± % OVER Tp / TL at Iu x TL ± 0%

23 (h) ± 0 (min) (s) ±0% (at Iu x ) 0 0 TL/ ±0% (at Iu x ) Ir x ±% 0 (s) (s) ±0% (at Isd x.) I t ON (ramp) I t OFF Ir x ±% (WS) Ir x ±% (WS) Ir x ±% (WS)

24 D E F B A K G H I J A B C D E F G H I J K L M N O C L N O M No. Ir G IL x Ir ± %. H TL s at IL x. ± 0% 0 I Isd.... x Ir ± % J Tsd s (I t ON) (I t OFF) at Isd x. AE6-SW~AE600-SW x Ir AE000-SW~AE00-SW (INST) (MCR) AE000-SW WM ± 0% 0. (I t ON) WM 6 (INST) K Ii AE000-SWA, AE000-SWA AE00-SW (INST) (MCR) x Ir WM ± % WM (INST) AE60-SW (INST) (MCR) x Ir WM WM (INST) M Ip IL x 0.68 ~.0 OVER ± % OVER Tp / TL at IL x. TL ± 0%

25 (h) ± ±% 0 (min) (s) ±0% (at IL x.) 0 0 TL/ ±0% (at IL x.) 0 Ir x ±% (s) ±0% (at Isd x.) (s) I t ON (ramp) I t OFF Ir x ±%(WM) Ir x ±%(WM) Ir x ±%(WM)

26 D E F B A C G H A B C D E F G H I J K K J I No. G Ir 0. ~.0 x In.0 AE6-SW~AE600-SW AE000-SW~AE00-SW AE000-SW (INST) (MCR) x Ir WB WB 6 (INST) H Ii AE000-SWA, AE000-SWA AE00-SW (INST) (MCR) x Ir WB ± % WB (INST) AE60-SW (INST) (MCR) x Ir WB WB (INST) I Ip Tp Ir x 0.68 ~.0 OVER 7s at Ir x ± % ± 0% OVER

27 (h) Ir x 0.68 ~.0(0.0)-OVER ± % 7s ± 0% at Ir x 8 6 (min) Ir x ±% (WB) Ir x ±% (WB) Ir x ±% (WB) (s)

G D E F B A C P N L H I J K M O (I -)t = const. (I -)t = const. (I -)t = const. (I-)t = const. (I 0.0 -)t = const. A B C D E F G H I J K L M N O P 000 00 000 00 000 00 0 00 0 00 0 60 0 0......0.0.0.0.0 a= : Ip Ir x 0.

28 G D E F B A C P N L H I J K M O (I -)t = const. (I -)t = const. (I -)t = const. (I-)t = const. (I 0.0 -)t = const. A B C D E F G H I J K L M N O P a= : Ip Ir x 0.68~.0(0.0)-OVER±% : Ir 0.~.0(0.0) x In(CT) LTD. x Ir....0 x Ir... : Tsd (s)±0% (at Isd x.) : Isd Ir x ±% : Tp TL /±0% (at Ir x ) : TL (s)±0% (at Ir x ) I t ON (ramp) I t OFF : Ii Ir x ±% : WF Ir x ±% : WF Ir x ±% : WF (h) (min) (s) No. G H I Ir TL a 0. ~.0 (0.0) x In () :. x Ir 6 8 8s 0.0 at Ir x. x Ir.0 x Ir ± % (.IrIr) ± 0% (Ir).0 8 J Isd x Ir ± % 7 ± 0% K Tsd s (I t ON) (I t OFF) at Isd x. AE6-SW~AE600-SW AE000-SW~AE00-SW x Ir (INST) (MCR) AE000-SW WF L Ii AE000-SWA, AE000-SWA ± % x Ir AE00-SW (INST) (MCR) WF AE60-SW x Ir (INST) (MCR) WF N Ip Ir x 0.68 ~.0 OVER ± % ± % (.IrIr) Tp / TL at Ir x TL ± 0% (Ir) 0. (I t ON) WF 6 (INST) WF (INST) WF (INST) OVER

29 000 a=0.0 (h) 000 a= (h) : Ip Ir x 0.68~.0(0.0)-OVER ±% : Ir 0.~.0(0.0) x In(CT). x Ir... LTD.0 x Ir : Ip Ir x 0.68~.0(0.0)-OVER ±% : Ir 0.~.0(0.0) x In(CT) LTD. x Ir....0 x Ir (min) (min) : Tp TL/ ±0% (at Ir x ) : TL (s) ±0% (at Ir x ) : Tp TL/ ±0% (at Ir x ) : TL (s) ±0% (at Ir x ) 0 0 MCR (s) MCR (s).... : Tsd (s) ±0% (at Isd x.) : Isd Ir x ±% : Tsd (s) ±0% (at Isd x.) : Isd Ir x ±% I t ON (ramp) I t OFF : Ii Ir x ±% WF Ir x ±% WF Ir x ±% WF I t ON (ramp) I t OFF : Ii Ir x ±% WF Ir x ±% WF Ir x ±% WF a= (h) 000 a= (h) : Ip Ir x 0.68~.0(0.0)-OVER±% : Ir 0.~.0(0.0) x In(CT) LTD. x Ir....0 x Ir : Ip Ir x 0.68~.0(0.0)-OVER ± % : Ir 0.~.0(0.0) x In(CT) LTD. x Ir....0 x Ir (min) (min) : Tp TL /±0% (at Ir x ) : TL (s)±0% (at Ir x ) : Tp TL/ ± 0% (at Ir x ) : TL (s) ± 0% (at Ir x ) 0 0 MCR (s) MCR (s).... : Tsd (s)±0% (at Isd x.) : Isd Ir x ±% : Tsd (s) ± 0% (at Isd x.) : Isd Ir x ± ± % It ON (ramp) It OFF : Ii Ir x ±% : WF Ir x ±% : WF Ir x ±% : WF a = tltd = (/.) a I = (A) - x TL (I/.Ir) a Ir = 0.~.0 x In (A) - TL = ~8 (s) I t ON.0 (ramp).0.0 I t OFF.0.0 : Ii.0.0 Ir x ± % : WF.0 Ir x ± % : WF Ir x ± % : WF a = tpal = I = (A) (Ir/0.97Ip) a - TL x Ir = 0.~.0 x In (A) (I/0.97Ir) a - Ip = 0.68~. x Ir (A) TL = ~8 (s) 8

Ig 0.-0.-0.-0.-0.-0.6-0.7-0.8-0.9-.0 x In -.-0.8-0.-0.-0.-<0. - <0.-0.-0.-0.-0.8-.-s Tg TRIP ALARM ±0% s (TRIP) (at. x Ig) (TRIP) ±0%.0 ACB P P 0 ~± ACB 8 6 0..0.0 N N P P. ±.. AE6-SW 6A AE00-SW 00A 6A 00A.

30 Ig x In <0. - < s Tg TRIP ALARM ±0% s (TRIP) (at. x Ig) (TRIP) ±0%.0 ACB P P 0 ~± ACB N N P P. ±.. AE6-SW 6A AE00-SW 00A 6A 00A. 0. AE-SW A AE600-SW 600A AE000-SWA 000A AE000-SW A AE000-SW 600A AE000-SW 000A A 600A 000A. <0. (0.0~0.) AE0-SW 0A AE00-SW 00A 0A 00A.0.0 AE000-SWA 000A 000A.0 AE000-SW 000A AE00-SW 00A 000A 00A AE60-SW 60A 60A

IΔn Te A-A-A-A-A -.-0.8-0.-0.-0.-<0. - <0.-0.-0.-0.-0.8-.-s TRIP ALARM (at.

AE600-SW ZCT AE000-SW ~ AE00-SW ZCT AE000-SW ~ AE00-SW ACB ZCT 0 : IΔn A-A-A-A-A ZTA00A ZTA000A +0 -%

31 IΔn Te A-A-A-A-A <0. - < s TRIP ALARM (at. x IΔn) 0% % ±0% A s (TRIP) (TRIP) ZTB ZTB ZT0B ZT60B ZT80B ZT0B ZCT6 AE6-SW ~ AE600-SW AE6-SW ~ AE600-SW ZCT AE000-SW ~ AE00-SW ZCT AE000-SW ~ AE00-SW ACB ZCT 0 : IΔn A-A-A-A-A ZTA00A ZTA000A +0 -% AE6-SW, AE00-SW AE-SW ~ AE000-SW AE000-SWA Z Z 8 6 A A P P.0 ACB. < s±0%.. ZCT Z Z P P.. 0. <0. (0.0~0.)

32 Ip

33 LTD,STD,INST,GFR,PAL % ~ 0% 0(W) x (H) x 0(D) ~ s AC0 0V / 60Hz.kg

34 CC-Link B/NET WS, WB, WM, WF WS, WB, WM, WF WS, WB, WM, WF AE6 600-SW, AE SW, AE000-SW AE000-SWA, AE000-SWA, AE00-SW AE60-SW WS : WM : WB : WF : G: P: AC DC0-0V N: P: DC-60V E: P: AP: P: NA: P: BIF-CC BIF-BN

36 B/NET CC-Link BIF-CON BIF-CL PC MELSECNET/ MELSECNET/ MDU/MDU EcoMonitor Pro EcoMonitorII MENSR AE-SW PLC CC-Link

37 ➀ WS / WF ➁ NA AP G E ➂ + ➀ ➁ - ➂ ;EX;DP(;DP) WM NA AP G E P~P WB NA G E + + ➀ ➁ ➂ - ;EX;DP(;DP);VT WS / WF WM NA AP G E NA AP G E P~P (...9) WB NA G E

38 N N Z Z 0V V+ 6 7 V+ V+ 0V N CPU I/O ➀ ➁ ➂ ➃ ➄ ➇ ➆ ➅ RS RS P P P FG 7

39 ➀ ➁ (XIu) ➀ ➁ 8

40 L L L N RS RS OFF ON P P 97 C A D D U AL SHT CC UVT CLS M N N Z Z P FG NCT ZCT C A DT DT U ERR TAL PAL G/E/AP STD/INST LTD ~ ~ U U D D DT DT A A C C P P P RS RS 6 7 Z Z N N SHT CC M UVT AX AL CLS SBC CL 9

41 OFF ON SBC SBC SBC SBC SBC AX AX AX AX AX AX AX AX AX AX CL CL CL CL D D IN IN OUT OUT D D 0

42 DCV AE000-SW AE0-SW AE00-SW AE000-SWA DC0V AE000-SW AE0-SW AE00-SW AE000-SWA DC600V AE000-SW* AE0-SW* AE000-SW AE0-SW AE00-SW AE000-SWA JIS C 80- IEC DC-A / 0/0 0/0 / 0/0 0/0 / 0/0 / 0/0

43 DCV DC0V DC600V

B C A E F A B C D E F G H D H G No. D Ir 0.9-0.9-.0 x In E Ii/Isd.

44 B C A E F A B C D E F G H D H G No. D Ir x In E Ii/Isd x 00A F Ti/Tsd INST-0.-0.sat Ii / Isd x. ± 0% 0ms INSTms INST

46 L L L OFF ON RS RS P P 97 C A D D U AL SHT CC UVT CLS M N N Z Z FG P C A DT DT U ERR STD/INST ~ ~ U U D D DT DT A A C C P P P RS RS 7 SHT CC M UVT AX AL CLS SBC

47 OFF ON AX SBC AX SBC AX SBC AX SBC AX SBC AX AX AX AX AX P P D D D D IN IN OUT OUT 6

48 AE6-SW, AE00-SW, AE-SW, AE600-SW () 8 8 P P *00 -φ (9) 7 * P P P P P P -φ 7

49 P P P P 70 -ø *0 7 *00 0 (9) 9 () φ AE000-SWA 8

50 AE000-SW, AE0-SW, AE00-SW 0 (9) 8 P P T T T T *00 (9) -φ 7 * AE000-SW AE0-SW AE00-SW 7 T T 0 (mm) W W T P P P P P P 8 8 W W AE000-SW AE0-SW AE00-SW W 9 (mm) -φ -φ -φ 9

51 * φ 0 (9). * (9) P P -φ P P AE000-SWA

52 AE000-SW, AE00-SW, AE60-SW (8.) 67(87) P P * M -M AE000-SW AE00-SW AE60-SW 0 0 W T -φ (mm) * M M8.6~ *6.(.) P P -M *8 6 6 *.. W T

53 AE6-SW, AE00-SW, AE-SW, AE600-SW 7 7() 9. 9 P P *6 8 *(6) -φ * (70) P P 8 φ φ 7

54 AE000-SWA 70 (70) 7() *6 -φ *(6) 8 7 P P P P 8 0 -φ φ *7

55 AE000-SW, AE0-SW, AE00-SW 7(87) P P -φ * *(0) () 0 9 P P 8 φ * φ 7

56 . () 7 7(87) -φ *(0) 60 * P P P P -φ. AE000-SWA φ *7

57 AE000-SW, AE00-SW, AE60-SW P 6. * (79.) *9.(.) 8.(.) M. P -φ -φ 0 97 P P φ (.6~.) *7 6

58 AE000-SW, AE0-SW, AE00-SW φ φ φ φ. 7 7

59 AE000-SWA φ φ φ. 7 8

60 A A T C T D D T φ φ φ φ AE6~600-SW AE000~00-SW AE6~600-SW AE6~600-SW, AE000~00-SW, AE000-SWA, AE000-SWA, AE000~00-SW T D C (mm) (mm) 7 9 A (mm) T AE000-SW,0-SW AE00-SW (mm) AE6-SW~600-SW AE000-SW,0-SW AE00-SW φ A A B B C 79 (mm) AE000~60-SW 9

61 φ M φ φ M 9 φ K B 00 C D 7 9 E A C D 7.7 C D G A 90 E 70 0 A E 8 0 H B F B 8 68 A 0 B 9 7 C D E 0 F G H ZTB ZTB ZT0B (mm) 0 60 A B C D 6 8 E ZT60B ZT80B ZT0B (mm) M8 M M M R R 70 0 A B C 00 D E ZCT6 ZCT ZCT (mm) R M 60

62 R φ. IECmm DG DB DA FG mm IEC P P SLD mm IEC S N D FG B/NET P P IN IN OUT OUT 0 φ. 7 6

63 0 77. IECmm mm IEC φ. mm IEC K K K K C C A A U U 0 0 IECmm mm IEC φ. mm IEC V V V VN 6

64 M 0~ AE SW 00mm (A) (0.) (0.) (0.) (0.) 7(0.) (0.) 0(0.) (0.) AE6-SW~ AE600-SW 7,700,0,00, AE000-SWA,700,00,800 6, ,0,00 7,0 9, AE000-SW~ AE00-SW,0 9,900,000,600,0 0, AE000-SWA 90 70,0 6,800 9,600 6,00,0 7, ,900 7,600,700 8,0,0, ,0 8,0,000 0,00 6,900,0 - -,0 8,900,600,00 8,00, AE000-SW~ AE60-SW 6 (N),0,000 7,000,800,800 0,000 7,800 7, (00)* 0 x 60 x 80 x 0 x 0 x 0 x 0 x x 000 AE000-SWA x 000 AE000-SWA x AE SW m m x x 00 x * 6

65 A B C D A B C D AC660V, 690V AC690V C B A A D B 6

66 AE6-SW AE00-SW AE-SW AE600-SW AE000-SWA AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SW AE00-SW AE60-SW Ω Ω

67 (A) (A) 66

68 NF-SV NV-SV NF6-SV NV6-SV NF6-HV NV6-HV NF6-HRV NF-SV NV-SV NF-SEV NV-SEV NF-HV NV-HV NF-SV NF-SEV NV-SV NV-SEV NF-HV NF-HEV NV-HV NV-HEV NF00-SW NV00-SW NF00-SEW NV00-SEW NF00-HEW NV00-HEW NF00-REW NV00-REW NF6-SW NV6-SW NF6-SEW NV6-SEW NF6-HEW NV6-HEW NF6-REW NF800-SEW NV800-SEW NF800-HEW NV800-HEW NF800-REW NF6-CV NV6-CV NF-CV NV-CV NF-CV NV-CV NF00-CW NV00-CW NF6-CW NV6-CW NF800-CEW NF-RV NF-UV NF-RV NF-UV NF00-UEW NF800-UEW AE6-SW AE00-SW AE-SW AE600-SW AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SWA AE000-SW AE00-SW AE60-SW () 9() 9() 9() 9() 9() 9() 9() 9() 9() 9() 9() 7. 9() 9() 9() 9() 9() 7. () () () () 0() () () () () () () 7. () () () () 7. () () 0() 0() 0() 0() 0() 8() 8() 8() 8() 8() 7. 8() 8() 0() 8() 8() 7. () () () () () () () () () () () () 7. () () 7() () 9() () 7. () () () () () () () () () () () () 7. () () 7() () 9() () 7. 0 () 8(7) 8(7) 8(7) 8(7) (7) (7) (7) (7) (7) (7) 7. () () 8(7) (7) (7) 70(7) 70(7) 70(7) 0(7) 0(7) 0(7) 0(7) 0(7) 0(7) 7. 0() 7(7) (7) 60(7) 60(7) 60(7) 60(7) 60(7) 7. 68(7) (7) 60(7) 60(7) 60(7) 60(7) 60(7) 7. 68(7) () 7() 7(0) 7() 7(0) 7(0) 7. (0) () 7() 7(0) 7() 7(0) 7(0) 7. (0) () 7() 7(0) 7() 7(0) 7(0) 7. (0) 67

69 NF-SV NV-SV NF6-SV NV6-SV NF6-HV NV6-HV NF-HCW NF6-HRV NF-SV NV-SV NF-SEV NV-SEV NF-HV NV-HV NF-SV NF-SEV NV-SV NV-SEV NF-HV NF-HEV NV-HV NV-HEV NF00-SW NV00-SW NF00-SEW NV00-SEW NF00-HEW NV00-HEW NF00-REW NV00-REW NF6-SW NV6-SW NF6-SEW NV6-SEW NF6-HEW NV6-HEW NF6-REW NF800-SEW NV800-SEW NF800-HEW NV800-HEW NF800-REW NF6-CV NV6-CV NF-CV NV-CV NF-CV NV-CV NF00-CW NV00-CW NF6-CW NV6-CW NF800-CEW NF-RV NF-UV NF-RV NF-UV NF00-UEW NF800-UEW AE6-SW AE00-SW AE-SW AE600-SW AE000-SW AE0-SW AE00-SW AE000-SWA AE000-SWA AE000-SW AE00-SW AE60-SW () 9() 9() 9() 7() 7() 9() 7() 7() 9() 9() 9(). 9() 9() () () 9() 9() 9(). 7. 0() 0() () () () () () () () () (). () () () (). 7. () () 9() () 8() 8() 8() 8() 8() 8() 8() 8() 8() 8(). 8() 8() 8() 8() 8(). 7. () () () () () () () () () () () () () (). () () () 9() (). 7. () () () () () () () () () () () () (). () () () 9() () () () (70) (7) () () (70) (7) () (70) (7). () () () 8(7) (7) () 9() 9(70) 9(7) 7() 7() 7(70) 7(7) 7() 7(70) 7(7). 7(7) (70) 8(7) 8() 8(70) 8(7). 68(7) (70) 8(7) 8() 8(70) 8(7). 68(7) (0) 70 7(0). (0) (0) 70 7(0). (0) (0) 70 7(0). (0) A A 68

70 AE -SW AE -SWA P P Ir A CT A CL- JIS C 80-- Ann, Ann/IEC6097- JEC60 (AE6~600-SW / AE000~00-SW) (AE000-SWA / AE000-SWA) (AE000~60-SW) ( AE000-SWA / AE000-SWA / AE00060-SW ) WS, WB, WF AE6 600-SW, AE SW, AE000-SW WS, WB, WF AE000-SWA, AE000-SWA, AE00-SW WS, WB, WF AE60-SW WS WB WF G: N: E: AP: NA: P: AC DC0-0V P: DC-60V P: AC0-0V / DC0-V P: DC-60V P: DC0-0V ZCT ZT B ZTA BIF-CC (CC-Link) BIF-BN (B/NET) AC DC0 V AC DC00 V DCV DC8V AC DC0 V DC 8V AC DC0 V AC80 0V DC 8V AC0 0V AC00 0V AC80 60V DCV DC8V DC0 V DC0 V AC0 V AC00 0V 69

71 AE -SW AE -SWA P P Ir A CT A CL- JIS C 80-- Ann, Ann/IEC6097- JEC60 (AE6~600-SW / AE000~00-SW) (AE000-SWA / AE000-SWA) (AE000~60-SW) ( AE000-SWA / AE000-SWA / AE00060-SW ) WS, WB, WF AE6 600-SW, AE SW, AE000-SW WS, WB, WF WS, WB, WF WS WB WF AE000-SWA, AE000-SWA, AE00-SW AE60-SW G: N: E: AP: NA: P: AC DC0-0V P: DC-60V P: AC0-0V / DC0-V P: DC-60V P: DC0-0V ZCT ZT B ZTA BIF-CC (CC-Link) BIF-BN (B/NET) AC DC0 V AC DC00 V DCV DC8V AC DC0 V DC 8V AC DC0 V AC80 0V DC 8V AC0 0V AC00 0V AC80 60V DCV DC8V DC0 V DC0 V AC0 V AC00 0V 70

72 AE -SW AE -SWA P P Ir JIS C 80-- Ann, Ann / IEC (AE6~600-SW / AE000~00-SW) (AE000-SWA / AE000-SWA) (AE000~60-SW) A ( AE000-SWA / AE000-SWA / AE00060-SW ) CL- WM AE6 600-SW, G: P: AC DC0-0V AE SW, AE000-SW N: P: DC-60V WM AE000-SWA, E: P: AC0-0V / DC0-V AE000-SWA, AP: AE00-SW P: DC-60V WM AE60-SW NA: WM P: DC0-0V LTD pick-up current : IL LTD time: TL STD pick-up current : Isd STD time: Tsd INST pick-up current:ii Pre-alarm current:ip BIF-CC (CC-Link) BIF-BN (B/NET) ZCT ZT B ZTA AC DC0 V AC DC00 V DCV DC8V AC DC0 V DC 8V AC DC0 V AC80 0V DC 8V AC0 0V AC00 0V AC80 60V DCV DC8V DC0 V DC0 V AC0 V AC00 0V 7

73 AE -SW AE -SWA P A CL- (AE6~600-SW / AE000~00-SW) (AE000-SWA / AE000-SWA) (AE000~60-SW) ( AE000-SWA / AE000-SWA / AE00060-SW ) WM AE6 600-SW, AP nd TAL AE SW, NA MCR-SW MCR AE000-SW WM AE000-SWA, AE000-SWA, AE00-SW WM AE60-SW P ACDC0-0V P DC-60V P AC0-0/DC0-V 6 P DC-60V 6 P DC0-0V 6-SSR, AC DC0 V AC DC00 V DCV DC8V AC DC0 V DC 8V AC DC0 V AC80 0V DC 8V AC0 0V AC00 0V AC80 60V DCV DC8V DC0 V DC0 V 7

74 7

76 Y-069F MDOC 0

;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;; World Class Air Circuit Breakers

;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;; World Class Air Circuit Breakers Air Circuit Breakers www.terasaki.co.jp 05 I55K @@@@@@@@@@@@@@@@ ;;;;;;;;;;;;;;;; @@@@@@@@@@@@@@@@ ;;;;;;;;;;;;;;;; @@@@@@@@@@@@@@@@ ;;;;;;;;;;;;;;;; World Class Air Circuit Breakers @@@@@@@@@@@@@@@@ ;;;;;;;;;;;;;;;;