Emotron MSF 2.0 Softstarter
Emotron MSF 2.0 Softstarter Emotron MSF 2.0 Softstarter
13.8 Power- and signal connectors.Table 26PCB TerminalsTerminal Function Electrical characteristics01100-240 VAC ±10% alternativeControl supply voltage02380-500 VAC ±10% see rating platePE Protective Earth Protective Earth11 Digital input 1 0-3 V --> 0; 8-27 V--> 1.12 Digital input 2Max. 37 V for 10 sec. Impedance to 0 VDC: 2.2 kΩ.13Control signal supply voltage to PCB terminal 11 and 12, +12 VDC ±5%. Max. current from +12 VDC: 50 mA.10 kΩ potentiometer, etc.Short circuit-proof but not overload-roof.14Analogue input, 0-10 V, 2-10 V, 0-20 mA andImpedance to terminal 15 (0 VDC) voltage signal:4-20 mA/digital input.125 kΩ, current signal: 100 Ω.15 GND (common) 0 VDC16 Digital input 3 0-3 V --> 0; 8-27 V--> 1.17 Digital input 4Max. 37 V for 10 sec. Impedance to 0 VDC: 2.2 kΩ.18Control signal supply voltage to PCB terminal 16 and 17, +12 VDC ±5%. Max. current from +12 VDC = 50 mA.10 kΩ potentiometer, etc.Short circuit-proof but not overload-proof.19 Analogue outputAnalogue output contact:0-10 V, 2-10 V; min load impedance 700Ω0-20 mA and 4-20 mA; max load impedance 750Ω2122Programmable relay K1. Factory setting is “Operation”with indication by closing terminal 21 to 22.23 Programmable relay K2. Factory setting is “Full voltage”24 with indication by closing terminals 23 to 24.1-pole closing contact, 250 VAC 8 A or 24 VDC 8 A resistive,250 VAC, 3 A inductive.1-pole closing contact, 250 VAC 8 A or 24 VDC 8 A resistive,250 VAC, 3 A inductive.31 Programmable relay K3. Factory setting is “All alarms”.32 Indication by closing terminals 31 to 33 and opening terminals3332 to 33.1-pole change-over contact, 250 VAC 8A or 24 VDC 8Aresistive, 250 VAC, 3A inductive.69-70 PTC Thermistor input Alarm level 2.4 kΩ. Switch back level 2.2 kΩ.71-72* Clickson thermistorControlling softstarter cooling fan temperatureMSF-310 - MSF-140073-74* NTC thermistor Temperature measuring of softstarter cooling fin75 Current transformer input, cable S1 (blue) Connection of L1 or T1 phase current transformer76 Current transformer input, cable S1 (blue)Connection of L3, T3 phase (MSF 017 to MSF 250) or L2,T2 phase (MSF 310 to MSF 1400)77 Current transformer input, cable S2 (brown) Common connection for terminals 75 and 7678* Fan connection 24 VDC79* Fan connection 0 VDC*Internal connection, no customer use.Emotron AB 01-4135-01r2 Technical data 121
13.9 Semi-conductor fusesAlways use standard commercial fuses to protect the wiringand prevent short circuiting. To protect the thyristorsagainst short-circuit currents, superfast semiconductor fusescan be used if preferred (e.g. Bussmann type FWP or similar,see table below).TypeFWP/FWJ Bussmann fuseI 2 t (fuse) at 700 VMSF-017 FWP-80A 2400MSF-030 FWP-125A 7300MSF-045 FWP-150A 11700MSF-060 FWP-175A 16700MSF-075 FWP-250A 42500MSF-085 FWP-300A 71200MSF-110 FWP-350A 95600MSF-145 FWP-450A 250000MSF-170 FWP-700A 300000MSF-210 FWP-700A 300000MSF-250 FWP-800A 450000MSF-310 FWP-800A 450000MSF-370 FWP-1000A 600000MSF-450 FWJ-1200A 1470000MSF-570 FWJ-1400A 1890000MSF-710 FWJ-1800A 37100000MSF-835 FWJ-2000A 5320000MSF-1000 FWJ-2000A 5320000MSF-1400
- Page 74 and 75: Max power alarm [400]In this menu m
- Page 76: Min power alarm response delay [410
- Page 79 and 80: Undervoltage level [437]This menu i
- Page 81 and 82: Relay outputsPTC inputPTCCurrent tr
- Page 83 and 84: Analogue start/stop off-value [503]
- Page 85 and 86: Digital input 3 function [512]In th
- Page 87 and 88: Scaling analogue output, max [523]T
- Page 89 and 90: K1 contact function [533]In this me
- Page 91 and 92: !CAUTION: Very high currents can ar
- Page 93 and 94: For applications which use the reve
- Page 95 and 96: It is possible to use just one digi
- Page 97 and 98: Line main voltage L1-L38.10.2 Statu
- Page 99 and 100: 8.11 Alarm listThe alarm list is ge
- Page 101 and 102: whether they need a Reset signal (m
- Page 103 and 104: 100 Protection and alarm Emotron AB
- Page 105 and 106: Observation Fault indication Cause
- Page 107 and 108: Observation Fault indication Cause
- Page 109 and 110: 106 Maintenance Emotron AB 014135-0
- Page 111 and 112: 12.3.1 Cable kit for external curre
- Page 113 and 114: 110 Options Emotron AB 01-4135-01r2
- Page 115 and 116: Table 19Typical motor power at main
- Page 117 and 118: Table 21Typical motor power at main
- Page 119 and 120: 13.2 General electrical specificati
- Page 121 and 122: Table 25Power lossesModelPower loss
- Page 123: 13.5 Derating at highertemperatureB
- Page 127 and 128: Table 27Parameter listMenuno.Functi
- Page 129 and 130: Table 27Parameter listMenuno.Functi
- Page 131 and 132: Table 27Parameter listMenuno.Functi
- Page 133 and 134: Table 27Parameter listMenuno.Functi
- Page 135: Operation R .......................
- Page 138: Emotron AB, Mörsaregatan 12, SE-25
13.9 Semi-conductor fusesAlways use standard commercial fuses to protect the wiringand prevent short circuiting. To protect the thyristorsagainst short-circuit currents, superfast semiconductor fusescan be used if preferred (e.g. Bussmann type FWP or similar,see table below).TypeFWP/FWJ Bussmann fuseI 2 t (fuse) at 700 V<strong>MSF</strong>-017 FWP-80A 2400<strong>MSF</strong>-030 FWP-125A 7300<strong>MSF</strong>-045 FWP-150A 11700<strong>MSF</strong>-060 FWP-175A 16700<strong>MSF</strong>-075 FWP-250A 42500<strong>MSF</strong>-085 FWP-300A 71200<strong>MSF</strong>-110 FWP-350A 95600<strong>MSF</strong>-145 FWP-450A 250000<strong>MSF</strong>-170 FWP-700A 300000<strong>MSF</strong>-210 FWP-700A 300000<strong>MSF</strong>-250 FWP-800A 450000<strong>MSF</strong>-310 FWP-800A 450000<strong>MSF</strong>-370 FWP-1000A 600000<strong>MSF</strong>-450 FWJ-1200A 1470000<strong>MSF</strong>-570 FWJ-1400A 1890000<strong>MSF</strong>-710 FWJ-1800A 37100000<strong>MSF</strong>-835 FWJ-2000A 5320000<strong>MSF</strong>-1000 FWJ-2000A 5320000<strong>MSF</strong>-1400