NH Solid Blades 6 VAC sizes 000 to gs-class Protistor NH 6 VAC fuse-links provide maximum flexibility in equipment design and ultimate protection for today s power conversion equipment. This range is a fast acting, engineered to provide state of the art protection for power semiconductors in drives. These solid blades square body fuse-links are available in various body sizes with a broad range of ampere ratings allowing the greatest flexibility in equipment design. They have pure silver fuse elements embedded in bound sand which provides optimized I t and high breaking capacity. All contact surfaces are silver plated and all hardware non-magnetic. These products comply with the RoHS European Directive. All fuses are standard with a low voltage dual blown fuse indicator. This indicator can operate a microswitch which is easily mounted directly on to the fuse in service. The first gs-class range in the marketplace! Features/Benefits Broad range of ampere ratings in each body size for design flexibility IEC 69-4 compliance for fuses for worldwide semiconductor applications Ratings AC: up to 6 A - 6 VAC - ka IR DC: up to 0 V L/R 0ms for high di/dt (capacitor discharges), consult us Approvals AC: Tested to IEC 69.4 at 6V +0% UL/CSA recognized pending Features Ultra fast acting Highly current limiting. High breaking capacities Very low I t Reduced power losses No derating in standard NH fusegear (ref. to page 9) Worldwide mounting acceptance. Superior cycling ability. High widstanding in rush current and overloads Applications Protection of rectifiers, inverters, static switch, AC & DC drives and UPS systems. Innovations The first gs-class range in the market FERRAZ SHAWMUT IS NOW
Electrical characteristics Rating Pre-Arcing Total I t Pn: Power losses (W) Breaking Voltage Size Type In I t @ ms @ 6 V PV 46 capacities @ Un (A) (A s) (A s) 0,8In ka 6V IEC V UL 000 gs, 96 000 gs 8, 8 8 000 gs 40 68, 86 9 000 gs 6 64 0 000 gs 6 40 000 gs 4 000 gs 064 9 4 00 gs 08 6 00 gs 469 40 9 gs 8 gs 88 9 gs 0 6 gs 4 9 gs 866 9 gs 48 640 gs 9 9 6 gs 8 9 8 gs 4 4 gs 4 9 404 4 gs 9 96 4 gs 8 406 44 gs 4 4 gs 4 864 9 gs 88 440 gs 8 40 6 gs 6 49889 49440 6 DC working voltage possibilities Peak Arc Voltage vs Applied DC voltage L/R Time constant vs DC voltage capability L/R= ms L/R= ms L/R= 0 ms gs000-00 gs gs- Peak Arc Voltage (V) 0 0 L/R time constant (ms) 40 0 Applied DC voltage (V) DC voltage capability (V)
P Main dimensions and references Size Cat Number Reference Weight Pack [kg] [pcs] 000 NH000GS69VPV S9C 000 NH000GS69VPV X4C 000 NH000GS69V40PV B4C 000 NH000GS69VPV FC 000 NH000GS69V6PV KC 000 NH000GS69VPV P9C 000 NH000GS69VPV T6C 00 NH00GS69VPV E6C 00 NH00GS69VPV J69C NHGS69VPV X6C NHGS69VPV B69C NHGS69VPV DC NHGS69VPV HC NHGS69VPV L89C NHGS69VPV R4C 4 NHGS69VPV W49C 4 NHGS69VPV X4C 4 NHGS69VPV A48C 4 NHGS69V4PV C48C 4 NHGS69VPV E9A NHGS69VPV FA NHGS69VPV J8A NHGS69V4PV L8A NHGS69VPV N8A NHGS69VPV P88A NHGS69V6PV Q89A Microswitches MSNHB6 + PRES: consult us (6,mm clips) MSNHB + PRES: consult us (.8 mm clips) Automatically resetable, these microswitch systems indicate fuse presence (PRES) and proper mounting In case of improper mounting or fuse melting, this is indicated (terminal -4 closed) P Size A B C H L M N P R T 000,8 40,, 9,, 4,4 49, 000.9.0 9...9.8 00 9, 4, 9, 9,, 4,4 00.6.8.4 9...9.8 9,, 64,,, 4,4 68 40.6.0.4 9..6.6..68. 6 8,8 8,8 4,4 68 48.0.6.8.0.9....68.89 4 86 8,8 8,8 4,4 68.6.9.9..9....68.6
Times/Current Characteristics size 000-00 Actual prearcing time (s) 0 0 0 0 0 0. 0.0 0.0 0.0 0.0 0.0 0.00 0.00 0.00 0.00 0.00 0.000 0.000 0.000 0.000 A A A A 40A 6A A A A a= A = B =. =0 for tp>s = for tp s =0 for s>tp Cf =0 ----- : 000 size ----- : 00 size 0 0 0 RMS value of prearc current (A) Cut off characteristics - Peak let thru current - size 000-00 Maximum peak let thru current (Im)(A) 00 00 00 00 0 0 0 0 0 0 0 0 0 0 Im =. Ip 00 00 00 00 00 000 Hz RMS Symetrical prospective current (Ip)(A) A A A A 6 A A 40 A A A Peak arc voltage vs applied AC voltage size 000 Peak arc voltage (V) 0 0 ----- : 000 size ----- : 00 size Clearing I²t and arcing time correction factor vs Applied AC voltage size 000-00. Clearing I t and arcing time correction factor.. 0.9 Watts loss vs % rated current size 000-00 0. Correction Factor for Watts Loss % rated current 4
Times/Current Characteristics size Actual prearcing time (s) 0 0 0 0 0 0. 0.0 0.0 0.0 0.0 0.0 0.00 0.00 0.00 0.00 0.00 0.000 0.000 0.000 0.000 A A A A A 0 a= A = B =. =0 for tp>s = for tp s =0 for s>tp Cf =0 0 0 0 RMS value of prearc current (A) Cut off characteristics - Peak let thru current - size Maximum peak let thru current (Im)(A) 00 00 00 00 0 0 0 0 0 0 0 0 0 0 Im =. Ip 00 00 00 00 00 000 000 Hz RMS Symetrical prospective current (Ip)(A) A A A A A Peak arc voltage vs applied AC voltage size Peak arc voltage (V) 0 0 Clearing I²t and arcing time correction factor vs Applied AC voltage size. Clearing I t and arcing time correction factor.. 0.9 Watts loss vs % rated current size 0. Correction Factor for Watts Loss % rated current
Times/Current Characteristics size Actual prearcing time (s) A A A 0 0 0 0 0 0. 0.0 0.0 0.0 0.0 0.0 0.00 0.00 0.00 0.00 0.00 0.000 0.000 0.000 0.000 A 4A a= A = B =. =0 for tp>s = for tp s =0 for s>tp Cf =0 Cut off characteristics - Peak let thru current - size Maximum peak let thru current (Im)(A) 00 00 00 00 0 0 0 0 0 0 0 0 0 0 Im =. Ip 00 00 00 00 00 000 000 Hz RMS Symetrical prospective current (Ip)(A) Peak arc voltage vs applied AC voltage size Peak arc voltage (V) 0 4 A A A A A 0 0 0 0 0 00 00 RMS value of prearc current (A) 0 Clearing I²t and arcing time correction factor vs Applied AC voltage size Clearing I t and arcing time correction factor... 0.9 0. Watts loss vs % rated current size Correction Factor for Watts Loss % rated current 6
Times/Current Characteristics size Actual prearcing time (s) 0 0 0 0 0 0. 0.0 0.0 0.0 0.0 0.0 0.00 0.00 0.00 0.00 0.00 0.000 0.000 0.000 0.000 A A A 4A A A 6A 0 0 0 0 0 a= A = B =. =0 for tp>s = for tp s =0 for s>tp Cf =0 00 00 00 RMS value of prearc current (A) Maximum peak let thru current (Im)(A) 00 00 00 00 0 0 0 0 0 Cut off characteristics - Peak let thru current - size 0 0 0 0 0 Im =. Ip 00 00 00 00 00 000 Hz RMS Symetrical prospective current (Ip)(A) 6 A A A 4 A A A A Peak arc voltage vs applied AC voltage size Peak arc voltage (V) 0 0 Clearing I²t and arcing time correction factor vs Applied AC voltage size Applied AC voltage (V... Watts loss vs % rated current size Clearing I t and arcing time correction factor 0.9 0. Correction Factor for Watts Loss % rated current
Fuse holders and switch-disconnectors Fuse holder unprotect Fuse holder finger safe Switch Disconnector Fuse switch Disconnector fast handle Type Characteristics Poles Size 000/00 Size Size Size Mounting Fuse holder Unprotected (4) R69 A8 E X644 DIN Rail Fuse holder screw connection F88 G96 V9 B44 DIN Rail Fuse holder for hole and bar terminals V9 Y40 D9 F4664 DIN Rail Fuse holder for mm Din rail 4 Z H8 R6 K4 DIN Rail Fuse holder Unprotected (4) F E8 F8 W64 Screw Fuse holder screw connection A F484 S9 D466 Screw Fuse holder for holes or bar terminals W9 Y6 B H Screw Fuse holder for panels 4 S9 X9 C4 L68 Screw Fuse holder Finger Safe Protected S840 P64 R66 T68 DIN Rail Fuse holder for DIN rail S99 Q6 S6 V69 DIN Rail T9 Screw Switch disconnector Linocur xm8 N666 Switch disconnector Linocur S/BL N88 Switch disconnector Linocur Horizontal xm8 B868 Switch disconnector Linocur S/BL C8 Switch disconnector Linocur xm8 Y Switch disconnector Linocur S/BL W4 Multibloc clamp connection J99 Screw Multibloc screw connection H994 S988 Screw Fused switch discon. front handle ITC 6 III complete () M4 Fused switch discon. front handle ITC III complete () T Fused switch discon. front handle ITC III complete () Fused switch discon. front handle ITC III complete () Fused switch discon. front handle ITC 6 III complete () Fused switch discon. front handle ITC 0 III complete () A9 + Y () N + Y () B8 + Y () W964 + Y () () Necessary heighten for the use of microswitch (MSNHB or MSNHB6) (4) Unprotected against accidental contact-not finger safe () Finger safe (IP) Warning : for all holders, please check maximum fuse and fuse holder operating limit. Derating size 00 Max I RMS 0A for the A model size 00 Max I RMS 40A for the A model size 000 Max I RMS 9A for the A model no derating for other models 8
Fuse monitoring The most suitable and reliable solution for monitoring the Protistor NH gs fuses. No need of microswitch!! Snap-on mounting on ITC switch disconnectors and screw mounting on NH bases For technical data, refer to GP009 Fuse Monitoring brochure. Microswitches Main Characteristics AC Positive Current Interrupting rating AC voltage Impulse Fire class Catalog Insulation operating rating Current Non inductive circuit withstand voltage test according Number voltage voltage/ (A) Inductive circuit : L/R = ms test Uimp./ to UL 94 rating (***) current V 0V V V 0V V (*) µs (**) MSNHB MSNHB6 on NH base on ITC V V Hz 4A 4A A - A A kv 6 kv A V0 ma DC - - - - A 0,4A 8 kv kv V V /Hz 0A 0A 0A 0A 0A 0A 0A 8 kv 0 kv V0 ma DC 8A 0,4A 0,A 4A 0,A 0,A * Between power circuit and microswitch terminals as per IEC and 694 and NFC 6400 (/ Hz min duration in dry air) ** Between power circuit and microswitch terminals Uimp: impulse voltage as per IEC 94- *** Between power circuit and microswitch terminals Catalog Number Ref. Number Weight Pack. MSNHB Consult us MSNHB6 Consult us 6 Automatically resettable, these microswitch systems indicate fuse presence (PRES) and proper mounting. In case of improper mounting or fuse melting, this is indicated (terminal -4 closed) MSNHB6 6. mm clips MSNHB.8 mm clips 9