RAPIDPLUS high speed fuse links for semiconductors |2 E PAG E PAG UCTORS MICOND DUCTORS FOR SE N LINKS S FOR SEMICOMICONDUCTORS E FUSE E LINK S FOR S PEED IGH S D FUS E LINK aR H SPEE D FUS S PLU PID RA H | EE 04 | gR HIG HIGH SP 05 | gS NH 06 E PAG RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR RAPIDPLUS aR fuse links are intended to clearing short-circuits and have been designed and manufactured to have very low I t 2 values as well as reduced arc voltages that guarantee an optimum protection of semiconductors. They have a very good cycling ability. RAPIDPLUS aR range comprise three sizes with dimensions 10x38, 14x51 and 22x58, with rated currents between 4A and 100A and a rated voltage of 690 V AC. Sizes 14x51 and 22x58 are available also with striker, for use in fuse bases with microswitch. Made of ceramic tubes with high withstand to internal pressure and thermal shock, and silver plated copper contacts. Typical application comprise protection of semiconductors (diodes, thyristors, triacs, etc) used in power rectifiers, UPS, converters, motor drives (AC and DC), soft starters, solid state relays, photovoltaic inverters, welding inverters and any application where it i necessary to protect semiconductor devices. www.df-sa.es/rapidplus/aR/ In 10x38 U BREAKING CAPACITY (A) WITHOUT STRIKER REFERENCE WITH STRIKER (V AC) (kA) PACKING 4 6 8 10 12 16 20 25 32 491113 491115 491120 491125 491130 491135 491140 491145 491155 – – – – – – – – – 690 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 10 491215 491225 491230 491235 491237 491241 491245 491250 491260 491265 491270 – – 491730 491735 491737 491741 491745 491750 491760 491765 491770 690 690 690 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 10 10 10 491300 491305 491310 491315 491320 491325 491330 491335 491800 491805 491810 491815 491820 491825 491830 491835 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 491125 700 VDC - BREAKING CAPACITY 30 kA 14x51 4 6 8 10 12 16 20 25 32 40 50 491215 700 VDC - BREAKING CAPACITY 30 kA 22x58 20 25 32 40 50 63 80 100 700 VDC - BREAKING CAPACITY 30 kA STANDARDS IEC 60269-1 IEC 60269-4 EN 60269-1 EN 60269-4 |4 491355 APPROVALS TECHNICAL DIMENSIONS AND TECHNICAL DATA D I R E C T I V E 2002/95/EC 07 PAGE TECHNICAL t-I AND CUT-OFF CHARACTERISTICS 07 PAGE TECHNICAL RAPIDPLUS FUSES IN PMC, PMF & PMX MODULAR FUSE HOLDERS COMPATIBLE PMF MODULAR FUSE HOLDERS COMPATIBLE PMX MODULAR FUSE HOLDERS COMPATIBLE BAC OPEN FUSE BASES PAGE SEE CYLINDRICAL www.df-sa.es/cylindrical/ SEE SEE fuse-holders/pmf/ fuse-holders/pmx/ fuse-holders/bac/ 22 CYLINDRICAL www.df-sa.es/cylindrical/ CYLINDRICAL www.df-sa.es/cylindrical/ RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gR SEMICONDUCTOR RAPIDPLUS gR fuse links are capable to clearing all types of overcurrents, overloads as well as short-circuits, thus the fuse links protect semiconductors as well as cables and all switchgear of installation. RAPIDPLUS gR range comprise three sizes with dimensions 10x38, 14x51 and 22x58, with rated currents between 4A and 100A and a rated voltage of 690V AC. Sizes 14x51 and 22x58 are available also with striker, for use in fuse bases with microswitch. Typical application comprise protection of semiconductors (diodes, thyristors, triacs, etc) used in power rectifiers, UPS, converters, motor drives (AC and DC), soft starters, solid state relays, photovoltaic inverters, welding inverters and any application where it is necessary to protect semiconductor devices. www.df-sa.es/rapidplus/gR/ In 10x38 U BREAKING CAPACITY (A) WITHOUT STRIKER REFERENCE WITH STRIKER (V AC) (kA) PACKING 4 6 8 10 12 16 20 25 32 492003 492004 492005 492006 492007 492008 492009 492010 492011 – – – – – – – – – 690 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 10 492014 492015 492016 492017 492018 492019 492020 492021 492022 492023 492024 – – 492116 492117 492118 492119 492120 492121 492122 492123 492124 690 690 690 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 10 10 10 492033 492034 492035 492036 492037 492038 492039 492040 492133 492134 492135 492136 492137 492138 492139 492140 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 10 10 10 10 10 10 10 10 492006 440 VDC - BREAKING CAPACITY 30 kA 14x51 4 6 8 10 12 16 20 25 32 40 50 492014 440 VDC - BREAKING CAPACITY 30 kA 22x58 20 25 32 40 50 63 80 100 440 VDC - BREAKING CAPACITY 30 kA STANDARDS IEC 60269-1 IEC 60269-4 EN 60269-1 EN 60269-4 APPROVALS 492040 TECHNICAL DIMENSIONS AND TECHNICAL DATA D I R E C T I V E 2002/95/EC 11 PAGE TECHNICAL t-I AND CUT-OFF CHARACTERISTICS 11 PAGE TECHNICAL RAPIDPLUS FUSES IN PMC, PMF & PMX MODULAR FUSE HOLDERS COMPATIBLE PMF MODULAR FUSE HOLDERS COMPATIBLE PMX MODULAR FUSE HOLDERS COMPATIBLE BAC OPEN FUSE BASES PAGE SEE CYLINDRICAL www.df-sa.es/cylindrical/ SEE SEE fuse-holders/pmf/ fuse-holders/pmx/ fuse-holders/bac/ 22 CYLINDRICAL www.df-sa.es/cylindrical/ CYLINDRICAL www.df-sa.es/cylindrical/ 5| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS NEW gS RAPIDPLUS NH gS fuse links are capable to clearing all types of overcurrents, overloads as well as short-circuits, thus the fuse NH SEMICONDUCTOR FUSE LINKS links protect semiconductors as well as cables and all switchgear of installation. They are optimized to have reduced power dissipations that allow the utilization of a wide range of fuse-bases and fuse-switch disconnectors. RAPIDPLUS NH gS range comprise five sizes NH000, NH00, NH1, NH2 and NH3 with rated currents between 20A and 630A and a rated voltage of 690V AC. Typical application comprise protection of semiconductors (diodes, thyristors, triacs, etc) used in power rectifiers, UPS, converters, motor drives, soft starters, solid state relays, photovoltaic inverters, welding inverters and any application where it is necessary to protect semiconductor devices. www.df-sa.es/rapidplus/gs/ In REFERENCE (A) U BREAKING CAPACITY (V AC) (kA) PACKING NH000 20 25 32 40 50 63 80 100 371025 371030 371035 371045 371050 371055 371060 371065 690 690 690 690 690 690 690 690 100 100 100 100 100 100 100 100 3 3 3 3 3 3 3 3 NH00 125 160 371070 371075 690 690 100 100 3 3 371075 371273 NH1 125 160 200 250 280 371250 371255 371260 371270 371273 690 690 690 690 690 100 100 100 100 100 3 3 3 3 3 NH2 250 315 355 400 450 371360 371370 371375 371380 371387 690 690 690 690 690 100 100 100 100 100 3 3 3 3 3 355 400 450 500 630 371450 371455 371463 371465 371470 690 690 690 690 690 100 100 100 100 100 1 1 1 1 1 NH3 371378 440 VDC - BREAKING CAPACITY 30 kA STANDARDS IEC 60269-1 IEC 60269-4 EN 60269-1 EN 60269-4 |6 APPROVALS TECHNICAL DIMENSIONS D I R E C T I V E 2002/95/EC 15 PAGE TECHNICAL t-I CHARACTERISTICS 16 PAGE TECHNICAL CUT-OFF CHARACTERISTICS 17 PAGE TECHNICAL TECHNICAL DATA 18 PAGE COMPATIBLE ST 690V NH FUSE BASES COMPATIBLE CR 690V NH FUSE BASES SEE SEE fusebases/st/ fusebases/cr/ NH www.df-sa.es/nh/ NH www.df-sa.es/nh/ 371470 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 10x38 aR 10x38 10x38 aR Peak Arc Voltage (UL) 10x38 aR Correction Factor for Power Loss (Cp) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 4 6 4,9 10 0,97 1,69 14,0 28 1,40 2,46 10 4,7 38 1,23 2,07 8 12 3,0 6,8 16 12,0 25 48,0 20 32 24 54 96 18,8 150 75,0 600 384 0,91 1,53 2,11 2,57 2,60 3,65 1,52 2,62 3,72 4,50 4,55 6,65 I2t Total clearing (K) The total clearing I²t at rated voltage and at power factor of 0,15 are given in the electrical characteristics. For other voltages, the clearing I²t is found by multipliying by correction factor, K, given as a function of applied working voltage, Eg (RMS). Power loose(Cp) Watts loss at rated current are given in the electrical characteristics. The curve allows the calculation of the power losses at load currents lower than the rated value. The correction factor Cp, is given as a function of the RMS load current Ib in % of the rated current. Arc voltage (UL) This curve gives the peak arc voltage, UL, wich may appear across the fuse during its operation as a function of the applied working voltage, Eg (RMS) at a power factor of 0,15. 7| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 14x51 aR 14x51 In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 4 6 5,6 14 1,32 2,28 16,0 40 1,80 3,18 10 6,3 37 1,39 2,36 8 12 4,1 9,1 16 12,4 25 36,6 20 32 40 50 |8 14x51 aR Peak Arc Voltage (UL) 14x51 aR Correction Factor for Power Loss (Cp) 23 53 72 20,6 119 82,3 475 146,3 260,0 211 844 1500 1,01 1,63 2,43 3,04 3,75 3,92 4,52 5,60 1,69 2,78 4,16 5,43 6,11 7,17 8,15 10,6 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 22x58 aR 22x58 22x58 aR Peak Arc Voltage (UL) 22x58 aR Correction Factor for Power Loss (Cp) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 20 19 103 3,00 5,25 32 34 60 182 3,40 5,85 94 506 6,10 10,80 7,70 14,00 25 40 50 158 80 634 63 100 324 856 375 2025 1500 8100 3422 4,50 7,50 9,65 10,30 8,20 13,70 17,60 18,00 9| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR t-I CHARACTERISTICS TECHNICAL 14x51 22x58 Prearcing time (s) Prearcing time (s) 10x38 Prearcing time (s) 10x38 14x51 22x58 Prospective current (r.m.s. A) Prospective current (r.m.s. A) Prospective current (r.m.s. A) FUSES aR SEMICONDUCTOR CUT-OFF CHARACTERISTICS TECHNICAL 10x38 Maximum value of current (kA peak) 10x38 14x51 22x58 Maximum value of current (kA peak) 14x51 22x58 Maximum value of current (kA peak) Prospective current (A ef) Prospective current (A ef) Prospective current (A ef) |10 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 10x38 gR 10x38 Peak Arc Voltage (UL) 10x38 gR 10x38 gR Correction Factor for Power Loss (Cp) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 4 6 5,6 17 1,13 2,05 16,0 48 1,56 3,00 10 6,6 59 1,20 2,09 8 12 4,3 9,6 38 84 16 17,0 150 25 60,2 512 20 32 23,5 94,0 200 800 0,97 1,69 2,31 2,86 2,94 3,82 1,68 2,99 4,27 5,35 5,52 7,43 11| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 14x51 gR 14x51 Peak Arc Voltage (UL) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 4 6 5,6 17 1,56 2,94 16,0 48 2,25 4,20 10 5,9 47 1,41 2,52 8 12 16 20 25 3,8 8,4 30 68 15 120 53 333 27 170 32 108 50 211 1331 350 2200 40 |12 14x51 gR 14x51 gR Correction Factor for Power Loss (Cp) 679 1,18 1,95 2,67 2,91 3,38 3,72 4,13 5,36 2,00 3,54 4,83 5,40 6,00 6,93 7,52 9,80 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gR SEMICONDUCTOR DIMENSIONS & TECHNICAL DATA TECHNICAL I2t Correction Factor (K) 22x58 gR 22x58 Peak Arc Voltage (UL) 22x58 gR 22x58 gR Correction Factor for Power Loss (Cp) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 20 24 154 3,23 6,00 43 274 3,66 6,65 40 120 760 6,05 11,32 63 516 7,35 13,80 25 32 50 80 100 97 616 273 1362 1092 5448 2065 2575 10300 4,86 6,26 8,40 9,40 9,21 11,85 14,00 17,70 13| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gR SEMICONDUCTOR t-I CHARACTERISTICS TECHNICAL 14x51 Prospective current (r.m.s. A) Prearcing time (s) 22x58 Prearcing time (s) 10x38 Prearcing time (s) 10x38 14x51 22x58 Prospective current (r.m.s. A) Prospective current (r.m.s. A) FUSES gR SEMICONDUCTOR CUT-OFF CHARACTERISTICS TECHNICAL 10x38 Maximum value of current (kA peak) 10x38 14x51 22x58 Maximum value of current (kA peak) 14x51 22x58 Maximum value of current (kA peak) Prospective current (A ef) Prospective current (A ef) Prospective current (A ef) |14 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR DIMENSIONS TECHNICAL NH000 NH00 NH1 NH2 NH3 SIZE A B C D E F G H I J K L NH000 NH00 NH1 NH2 NH3 49 49 68 68 68 45 44 62 62 62 52 52 71,5 71,5 73 78,5 78,5 135 150 150 15 15 20 25 32 10 10 10 10 10 9,5 9,5 9,5 9,5 9,5 6 6 6 6 6 21 29 39 53 70 35 35 40 48 60 40 47 52 60 75 53 59 64 72 87 15| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR t-I CHARACTERISTICS TECHNICAL NH000 NH00 NH1 NH1 Prearcing time (s) NH2 NH3 Prearcing time (s) NH000 NH00 Prospective current (r.m.s. A) Prospective current (r.m.s. A) Prearcing time (s) NH3 Prearcing time (s) NH2 Prospective current (r.m.s. A) |16 Prospective current (r.m.s. A) RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR CUT-OFF CHARACTERISTICS TECHNICAL NH000 NH00 NH1 NH2 NH3 NH1 Maximum value of current (kA peak) Maximum value of current (kA peak) NH000 NH00 Prospective current (A ef) Prospective current (A ef) Maximum value of current (kA peak) NH3 Maximum value of current (kA peak) NH2 Prospective current (A ef) Prospective current (A ef) 17| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR TECHNICAL DATA TECHNICAL I2t Correction Factor (K) NH000 NH00 Correction Factor for Power Loss (Cp) NH000 In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 20 31 116 2,9 5,1 32 49 3,2 5,6 40 96 181 196 724 4,2 7,2 63 782 25 50 |18 355 331 1.224 80 1.420 5.270 2.130 7.880 125 3.380 6.400 100 NH00 Peak Arc Voltage (UL) 160 2.897 3,9 5,1 5,3 6,6 8,5 9,1 6,3 11,0 7,6 13,3 11.550 8,3 14,7 21.840 10,5 18,2 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR TECHNICAL DATA TECHNICAL I2t Correction Factor (K) NH1 Correction Factor for Power Loss (Cp) NH1 Peak Arc Voltage (UL) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 125 3.800 11.680 10,7 19,7 200 6.290 13.120 19.300 14,5 25,3 280 25.160 37.590 77.230 19,5 33,2 160 250 40.280 115.370 16,1 20,1 28,6 35,7 19| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR TECHNICAL DATA TECHNICAL I2t Correction Factor (K) NH2 Correction Factor for Power Loss (Cp) NH2 In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 250 24.280 74.460 18,6 32,2 355 50.660 67.450 155.360 20,8 35,8 100.770 309.000 24,4 42,6 315 400 450 |20 Peak Arc Voltage (UL) 140.740 206.850 431.580 23,4 33,9 40,1 47,2 RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS gS SEMICONDUCTOR TECHNICAL DATA TECHNICAL I2t Correction Factor (K) NH3 Correction Factor for Power Loss (Cp) NH3 Peak Arc Voltage (UL) In I2t Prearcing Operating I2t @ 690 V Power loss 0.8 · In Power loss In (A) (A2S) (A2S) (W) (W) 355 54.240 151.700 22,7 39,6 450 75.760 114.770 211.900 24,3 42,7 630 165.270 303.060 462.200 27,6 47,1 400 500 320.970 847.570 26,3 34,3 46,0 60,4 21| RAPIDPLUS HIGH SPEED FUSE LINKS FOR SEMICONDUCTORS FUSE LINKS aR SEMICONDUCTOR USE OF SEMICONDUCTOR FUSE LINKS (RAPIDPLUS) IN PMC, PMF & PMX MODULAR FUSE HOLDERS AND TECHNICAL gR BAC FUSE BASES The modular fuse holders for cylindrical fuses have a rated power acceptance according to the maximum power dissipations allowed for the general use fuse links (gG) and back up fuse links. These maximum values allowed for the fuse links (gG/aM) are regulated by standards (IEC/EN60269-2). In the same way, this standards specify the minimum power acceptance for the fuse holders. This power acceptance is the power dissipated by the fuse links (converted in heat) that the fuse holder can accept with an acceptable increase of the temperature (values also regulated by standards). The fuse links for protection of semiconductors RAPIDPLUS have a rated power dissipation (or power loss) higher than the gG or aM types, and for this reason there are some limitations for the application of these fuses in closed modular fuse holders. It is necessary to check that the fuse links have a power diissipation not higher than the maximum value admissible of the fuse holder indicated by the manufacturer. When it is no possible to use modular fuse holders the solution is the use of an open fuse base where the heat can be appropriately dissipated. In the following table are indicated the maximum values of power acceptance for DF ELECTRIC fuse holders. These limits should never be exceeded: |22 FUSE HOLDER TYPE RATED POWER ACCEPTANCE IEC/EN60269-2-1 MAX. POWER ACCEPATNCE DF ELECTRIC FUSE HOLDERS PMC 10x38 3W 4W PMF/PMX 10x38 3W 4W PMX 14x51 5W 6W PMX 22x58 9,5 W 12 W BAC 10x38 – 8W BAC 14x51 – 12 W BAC 22x58 – 20 W THE PROTECTION FORMULA ELECTRONIC CYLINDRICAL PHOTOVOLTAIC RAPIDPLUS NH SPECIAL FUSES DOMESTIC D & DO TRANSFORMERS eXperts in PROTECTION 23| HEAD OFFICE & FACTORY SILICI, 67-69 08940 CORNELLA DE LLOBREGAT BARCELONA SPAIN Tel. +34 93 377 85 85 Fax +34 93 377 82 82 EXPORT SALES Tel. +34 93 475 08 64 Fax +34 93 480 07 75 export@df-sa.es NATIONAL SALES Tel. 93 475 08 64 Fax 93 480 07 76 comercial@df-sa.es www.df-sa.es/rapidplus |24