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| PowerSTACK Datasheet: 1B6I 690/1100-400W S Key Data 3 x 400A AC at 690V AC, watercooled Preliminary Data General Information Stack with IGBT, heatsinks, capacitors, drivers and sensors for several inverter applications. These are only technical data! Please read heedful the complete documentation and attend the adopted design environment! Especially the EMC environment and the controller functionality. Topology Load Type Cooling Targed Application Extra DC Link + B6I Resistive, inductive load By Water Industrial Drive Slave [S] to build the 3B6I690/1100-400W with 2B6I690/1100-400W Scale Driver Current-, Voltage-, Temperature-Monitoring n.a. 3x FF800R17KF6C Electrical, opt. optical EN50178, UL94, prepared for UL508C Slave 24359 380000016_B_MB 57000002 Unit 1 DC LINK B6I Unit 2 Drivercore Monitors Module (Unit1) Module (Unit2) Interface Standards IGBT = SIGNAL CONDITIONER & MONITOR INTERFACE = DRIVER Product ID (eupec) Drawing No. Circuit Diagram No. Electrical Data Assumed Linevoltage DC Link Voltage DC Link Overvoltage Shutdown DC Link Current Voltage Unit1 Continious Current Unit1 Shorttime Current Unit1 Pulse Current Unit1 Parameter For IsolationManagement Within 100s At IUnit2, VUnit2, cos_Unit2 Min Typ Max VLine VDC IDCLink Input 690 975 VDCmax 445 1219 VRMS Vav V Aav VRMS ARMS ARMS Apeak 2003-03-17 =air_inlet 10s, every 180s, initial load = IUnit1 Sinehalfwave 20ms VUnit1 IUnit1 IUnit1_10 1B6I690-1100-400W.doc 1 of 10 PowerSTACK Datasheet: 1B6I 690/1100-400W S DC Current at Unit1 No rotating field, Preliminary Data Aav % 690 -0,9 +0,9 400 Hz W VRMS ARMS =air_inlet, IUnit1_DC Overcurrent Shutdown Percentage of IUnit1. Within 15s Unit1 Switching Freq. Unit1 Power Losses Unit1 V=Vunit1_min, I=IUnit1, fsw=fsw1 Depending on Voltage Unit2 Controller fsw1 Ploss1 VUnit2 cos_Unit2 Displacement factor Continious Current Unit2 =water_inlet, chip <= 125C fUnit2>5Hz Both B6I connected in parallel (1U1 ->2U1..) IUnit2 Shorttime Current Unit2 Pulse Current Unit2 DC Current at Unit2 Overcurrent Shutdown Unit2 Switching Freq. Unit2 Power Losses Unit2 Power Losses (PCB and Capacitor) Filterresistors at Output Unit2 Auxiliary Voltage Auxiliary Power Demand EMC Test water_inlet<=40C, 10s, every 180s, initial load = IUnit2 Sinehalfwave 20ms, starting from IUnit2. No rotating field, IUnit2_10 480 ARMS IUnit2peak IUnit2_DC 125 fsw2 Ploss2 Ploss_aux RFilter PRFilter 18 0,4* IUnit2 2250 5000 200 24 40 2 1 1 1,8 30 Apeak ADC % Hz W W Ohm Watt Vav W kV kV kVRMS =air_inlet, Percentage of IUnit2. Within 15s I=IUnit2, fsw=fsw2 Applicable for Sinewavefilters (damping, optionally) Vaux Vaux=24 Vav, to feed Paux with B6U According EN61800-3 at named interfaces Power Control Aux (24V) According EN50178 Insulation Test Voltage f=50Hz, t=1min VBurst VBurst VSurge Visol Important Component Data DC Link Capacitor DC Link Capacitor Capacitor Design Lifetime Loadcycle for: Wind Loadcycle for: Solar CDC Type LTD LTD 2 of 10 7,83 Elcap - mF Year Year 2003-03-17 1B6I690-1100-400W.doc PowerSTACK Datasheet: 1B6I 690/1100-400W S (eupec approximation) Loadcycle for: Industrial Drive (air=35C, I=0,8, Duration=24h/Day) Preliminary Data 11 Year LTD Requirements to the Powersource Assumed Inductance Of Feeding Powersource (Necessary inductance not included, feeded by B6U) LFeed 220 H Fan Data (assumed when excluded) Fan Type Fan Voltage Fan Frequency Fan Current Fan Air Pressure Assumed VFan fFan IFan pAirFan VRMS Hz ARMS Pa Assumed Controller Interface Data Driver Paralleling Interface Optical Interface Digital Input Level Digital Output Level Analog Current Outputs Unit1 Analog Current Outputs Unit2 Analog DC Link Voltage Output Analog Temperature Out Optical Input Level Optical Output Level See Datasheet PCB PCB 0 0 TR100 15 15 4 V V V V V V 60 W W PCB Resistor to Gnd (1,8k) Vin High = on min 15mA Open collector Low = ok max 15mA Load max 1mA at IUnit1 Load max 1mA at IUnit2 Load max 1 mA At VDCmax Load max 1mA At j=125C optionally optionally Vout VDCout Vout 12 9 9 Requirements to the Controller EMC Protection EMC Environment According EN61800-3 at auxiliary power and controlinterface 1 Shieldconcept with TE (True Earth) separated from PE, HF conform installation 3 of 10 kV 1B6I690-1100-400W.doc 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S Drive Pulse Time Blockout Time Overvoltage Shut Down Reaction Time Overcurrent Shut Down Reaction Time ton_min tpause After overvoltage message by PowerSTACK Interface After overcurrent message by PowerSTACK Interface Preliminary Data 10 10 50 s s s 10 s Mechanical Data Airvelocity Airflow heatsink Air Pressure Drop heatsink Waterflow heatsink Water Pressure Drop heatsink Max. Water Pressure Water connection (Tube diameter) Dimensions Mass Storage Temperature Range Operating Temperature range (PCB and Capacitor) Cooling Air Inlet Temperature (Heatsink) Cooling Water Inlet Temperature (Heatsink) Cooling Airvelocity (PCB and Capacitor) Air Pressure Humidity Installation Height Vibration Air=20C Pair=1013 hPa Dry- and dustfree, measured outside of heatsink. According DIN 41882 According Coolingwater Specification from eupec for copper tubes vAir dV/dtAir pAir - m/s m/h Pa dV/dt Water 12 200 8 3/4" l/min mbar bar Inch 250 +65 +55 +40 mm kg C C C C m/s 1100 95 1000 10 20 100 hPa % m m/s m/s m/s pWater Width x Depth x Hight Approximation 1090 stor -40 -25 (0) water_ inlet 600 70 Minimal 0 C for optional optical interface op air_inlet Heatsink temperature > -25C -25 2 900 0 0 vAir_PCB Standard atmosphere No Condensation pAir Rel. F EN60068-2-6, Fc 10..59Hz 0,075mm Permanence Vibration EN60068-2-6, Fc 10-150Hz, 20 Cycles EN60068-2-27, Ea Shock Halfsine 11ms, 3 pulses 1B6I690-1100-400W.doc 4 of 10 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S Protection Degree Pollution Degree Overvoltage Category Preliminary Data IP00 2 III 1B6I690-1100-400W.doc 5 of 10 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S Derating Curves (IGBT Part) Current derating at low rotating field frequency (f0). Maximal 100% current is allowed. cos(phi) = 0.64, (motor) Theta_air = 40C 120 100 80 60 40 20 0 -5 0 5 10 15 20 25 f0 [Hz] 30 35 40 45 50 55 Preliminary Data I/I_nom [%] cos(phi) = -0.64, (generator) Theta_air = 40C 120 100 80 60 40 20 0 -5 0 5 10 15 20 25 f0 [Hz] 30 35 40 45 50 55 1B6I690-1100-400W.doc I/I_nom [%] 6 of 10 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S Preliminary Data Current derating at different switching frequencies. See datatable for nominal switching frequency. In this drawing 2500Hz ist assumed. Maximal 100% current is allowed. IGBT, cos(phi) = 0.64 Theta_air = 40C 180 160 140 120 I/I_nom [%] 100 80 60 40 20 0 0 1000 2000 3000 4000 5000 6000 7000 fsw [Hz] FF 400 R12 KL4C FF 800 R17 KF6CB2 FF 1200 R17 KE3 Diode, cos(phi) = 0.64 Theta_air = 40C 200 180 160 140 I/I_nom [%] 120 100 80 60 40 20 0 0 1000 2000 3000 4000 5000 6000 7000 fsw [Hz] FF 400 R12 KL4C FF 800 R17 KF6CB2 FF 1200 R17 KE3 1B6I690-1100-400W.doc 7 of 10 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S IGBT, cos(phi) = - 0.64 Theta_air = 40C 180 160 140 120 I/I_nom [%] 100 80 60 40 20 0 0 1000 2000 3000 4000 5000 6000 7000 fsw [Hz] FF 400 R12 KL4C FF 800 R17 KF6CB2 FF 1200 R17 KE3 Preliminary Data Diode, cos(phi) = -0.64 Theta_air = 40C 180 160 140 120 I/I_nom [%] 100 80 60 40 20 0 0 1000 2000 3000 4000 5000 6000 7000 fsw [Hz] FF 400 R12 KL4C FF 800 R17 KF6CB2 FF 1200 R17 KE3 1B6I690-1100-400W.doc 8 of 10 2003-03-17 PowerSTACK Datasheet: 1B6I 690/1100-400W S Miscellaneous This technical information specifies semiconductor stacks but promises no characteristics. It is valid in combination with the belonging technical notes. This document may be changed without prior notice. Preliminary Data Warning! Prior to installation and commissioning all safety notices and warnings and all warning signs attached to the equipment have to be carefully read. Make sure that all warning signs remain in a legible condition and missing or damaged signs are replaced. The safety instructions have to be strictly adhered to. The manual contains detailed information on all technical topics with regard to the eupec PowerSTACK. For further details regarding publications of the eupec PowerSTACK and information on other publications in the area of PowerSTACKs please contact your nearest eupec branch or visit our website: http://www.eupec.com. eupec GmbH 2003. All rights reserved Prepared by Approved by 2003-04-03 2003-04-03 Date of publication Revision 0 1B6I690-1100-400W.doc 9 of 10 2003-03-17 PowerSTACK 1B6I 690/1100-400W S, Drawing, Preliminary Data 1B6I690-1100-400W.doc 10 of 10 2003-03-17 |
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