A COMPLETER Absolute maximun ratings T AMBIENT = T AIR COOLING = 4 C unless otherwise specified Symbol Conditions Values Unit IOUT MAX Maximum continuous output current 2 ARMS VOUT MAX Maximum output voltage 5 VAC VBUS MAX Maximum DC Bus voltage in operation 9 VDC FOUT Inverter Output frequency 5 Hz FSW Maximum switching frequency 25 khz Electrical characteristics T AMBIENT = T AIR COOLING = 4 C unless otherwise specified Symbol Conditions min typ max Unit AC phase IOUT RATED Rated output current VBUS=75VDC, No overload, 2 ARMS VOUT Output voltage Tj<15 C, Power factor PF = 1, 4 VAC IGBT Module stack Cabinet airflow in operation at POUT Rated output power 14 kw 4m3/h FSW Inverter switching frequency Fan airflow through heatsink at 9 3 khz FOUT Output frequency m3/h 5 Hz SEMIKUBE - Size T.5 3-phase inverter DC Bus VBUS Rated DC voltage 75 VDC Efficiency Ordering No. 88445 PLOSS INV Total power losses 1 915 W η Inverter efficiency >98 % Filtering characteristics Description IGD-1-424-P1N4-DL-FA VBUS Rated DC voltage applied to the caps bank without switching 1 1 VDC Option C N P K - X - 1F2 Features τ d5% Discharge time of the capacitors (5%) 285 s CDC Capacitor bank capacity 1,43 1,68 mf Designed in regards to EN5178 recommandations LTE Calculated LTE of the caps with forced air cooling > 1 kh RoHS compliant Stack Insulation Fast mounting and dismounting Very high life-time expectancy Integrated voltage, current and temperature sensors Air cooled power stacks Typical Applications VDC CAPACITOR VISOL Max DC voltage applied to the caps bank (max 3% of LTE) without switching Frame / Power stage AC/DC (insulation test voltage DC, 6s) 1 1 VDC 3 2 V Industrial applications Solar Inverters Footnotes 1) the user shall ensure that the ambiant air shall be ventilated in order not to create temperature hot spots. REMARKS This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee, expressed or implied is made regarding delivery, performance or suitability. B6CI 1
Environmental conditions Characteristics Conditions min typ max Unit Climatic Ambient temperature 1) Humidity Mechanical IEC 6721-3-3, class 3K3 extended In operation IEC 6721-3-3, class 3K3 no condensation no icing -25 55 C 5 85 % Installation altitude without derating 1 m Protection index IEC 6529 IP - Pollution degree EN 5178 2 - Weight total 3-phase inverter including heatsink fan 25 kg IGBT Module stack Thermal data VSUPPLY Heatsink fan AC voltage supply 23 VAC PFAN at 5Hz Rated power at VSUPPLY 3 W SEMIKUBE - Size T.5 3-phase inverter Ordering No. 88445 Gate Driver Characteristcs T AMBIENT =25 C unless otherwise specified Symbol Conditions min typ max Unit Gate Driver / controler data Description IGD-1-424-P1N4-DL-FA VS supply voltage 21,6 24 26,4 VDC Option C N P K - X - 1F2 ISO Supply primary current No load 36 ma Max. Supply primary current 1 5 ma Features ViT+ input threshold voltage HIGH.7 x VS VDC ViT- input threshold voltage LOW.3 x VS VDC Designed in regards to EN5178 recommandations RIN Input resistance 17 kω RoHS compliant CIN Input capacitance 1 nf Fast mounting and dismounting Measurement & protection Very high life-time expectancy Scaling 1 mv.v -1 Integrated voltage, current and temperature sensors Accuracy of analogue signal @ T a =25 C -2 +2 % DC link voltage Air cooled power stacks Temperature coefficient,3 %.K -1 sensing U max. load current 5 ma DC analogue OUT Typical Applications Max. voltage range 15 VDC Max measurable DC Link Voltage 1 2 VDC Industrial applications Scaling 24 mv.a -1 Solar Inverters Current sensing Accuracy of analogue signal -4 +4 % I analogue OUT Temperature coefficient,7 %.K -1 per phase Max. output current 5 ma Max. voltage range 15 VDC Footnotes ITRIPSC Over current trip level 45 APEAK Scaling 1 mv. C -1 Temperature 1) the user shall ensure that the ambiant air shall be Minimum measurable temperature 25 C sensing ventilated in order not to create temperature hot spots. T Max. output current 5 ma analogue OUT Max. voltage range 15 VDC Ttp Over temperature protection 95 1 15 C REMARKS Tth Threshold level for reset after failure event 7 C This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee, expressed or implied is made regarding delivery, performance or suitability. B6CI 2
Electrical connection Terminal fan power supply connection Driver connector type Suitable female connector Manufacturer: HARTING Part number: 9 18 534 7 813 3
Driver X1 connector assignment PIN Signal Specification 1,3,5 VS IN Supply voltage 2,4,6 GND 7 [Reserved] [dominant/recessive] 8 GND (Signal Status) 9 Signal Status BIDIRECTIONAL 1 [Reserved] [dominant/recessive] 11 Temperature Analogue OUT Nominal voltage range: 1V 12 GND (Temperature Analogue) Ground for Temperature Analogue OUT 13 UDC Analogue OUT Nominal voltage range: 1V 14 GND (UDC Analogue) Ground for UDC Analogue OUT 15 TOP phase U Switching Signal IN 16 BOT Phase U Switching Signal IN 21 TOP phase V Switching Signal IN 17 [Reserved] [dominant/recessive] 18 GND (TOP phase U, BOT phase U) Ground for TOP & BOT phase U IN 22 BOT Phase V Switching Signal IN Ground for Signal Status OUT LOW [dominant] = "Not ready to operate" HIGH [recessive] = "Ready to operate" 19 I phase U Analogue OUT Nominal voltage range: 1V 2 GND (I Analogue phase U) Ground for I phase U Analogue OUT 23 [Reserved] [dominant/recessive] 24 GND (TOP phase V, BOT phase V) Ground for TOP & BOT phase V IN 25 I phase V Analogue OUT Nominal voltage range: 1V 26 GND (I Analogue phase V) 27 TOP phase W Switching Signal IN 28 BOT phase W Switching Signal IN 29 [Reserved] Ground for I phase V Analogue OUT [dominant/recessive] 3 31 32 33,34 GND (TOP phase W, BOT phase W) I phase W Analogue OUT GND (I Analogue phase W) [Reserved] Ground for TOP & BOT phase W IN Nominal voltage range: 1V Ground for I phase W Analogue OUT 4
Dimensions This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee expressed or implied is made regarding delivery, performance or suitability. 5
[ARMS] 25 [ARMS] 25 2 2 IOUT IOUT 15 15 1 1 Cooling air temperature 5 3 C 4 C 5 C 5 SOA 5 1 15 2 25 f sw [khz] 2 4 6 8 1 VBUS [VDC] (*) Transient current Max. Output current vs. Switching frequency Safe Operating Area [ARMS] IOUT 2 15 IOUT [ARMS] 25 2 15 1 Switching frequency Fsw = 3kHz 5 Fsw = 5kHz Fsw = 7kHz Fsw = 9kHz Fsw = 12kHz 25 3 35 4 45 5 55 6 65 Tair cooling [ C] This curve does not consider the SEMIKUBE ambient temperature Max. Output current vs. Ambient temperature 1 Cooling air temperature 5 4 C 5 C 55 C 3 4 5 6 7 8 9 VBUS [VDC] Switching frequency at 7 khz Max. Output current vs. DC bus voltage Zth heatsink to ambient [ KW -1 ],25,2,15,1,5 1 1 1 1 [s] Time heatsink Poly. (heatsink) Thermal characteristics 6