Vincotech ISE User Manual
Contents
1. Result graphs Input and rectifier Figure 21 The flowSIM tool s detailed input and output waveforms Rev 01 23 EMPOWERING YOUR IDEAS hi component W Rectifier V T Output graphs Current voltage Pswitch 40 Pstatic 1424W 00094 ETCIM Ptotal k Ptotal 137 92 W ETIN 137 92 W T junction max 118 95 C T junction min 105 49 C T junction swing T junction avg 13 46 C 110 19 C Heat sink temp dT avg 80 0 C 30 19 C R 0 07927 0 1236 0 5434 1046 0 2612 o 05944 K W 0 00094 0 006 1310 0393 1 0 9339 11 45 N modified values with slider on main panel N 1 Duty cycle temperature rise Power losses junction temperature thermal resistance V Vincotech Detailed static and dynamic losses and temperature graphs of the selected 4 Power losses junction temperature Figure 22 Detailed static and dynamic losses and temperature graphs in the flowSIM tool The Detailed parts diagrams window serves to analyze static and dynamic swit2. 80 0 Input Voltage V and Current H Bridge Current Device Voltage a and Current A P total 0 0W DC link voltage V and avg Current A Inverter Switched Currents A Device duty cycle Junction temperature oC Figure 18 The flowSIM tool The module selector lists all power modules designed for industrial drives If you preselected modules earlier on the start screen only those modules will be listed The flowSIM tool provides six function boxes labeled Rectifier PFC Shunt PFC Brake Inverter Shunt and Inverter If the module is configured to perform one of these functions the corresponding box will present the applicable circuit diagram framed in polar blue If not the box will be empty and framed in dark blue The selected power module s full name is indicated below the enabled boxes Rev 01 19 YOUR IDEAS v j Vincotech A right click on an enabled box opens the module selector It lists all power modules that you can substitute to perform this function In this case all parameter changes are retained as described for the flowSOL tool Right clicking a disabled function box also opens the module selector In this case a combination of different power modules say a rectifier and an inverter can be simulated Left clicking any function box enabled or disabled changes the configuration of that part of the circuit Here s an example of what you can do with a disabled block Say you
3. The flowSOL tool s function boxes and entry mask Now you can fine tune input output voltage output current switching frequency and all other parameters for the selected topology Depending on the enabled function box and power module you can adjust Rev 01 12 YOUR IDEAS Vincotech e Vin input voltage V Vdcl1 booster output voltage in V e fb booster switching frequency in Hz Vout phase voltage in V Line to ground RMS value e out RMS output current A A green light indicates that negative currents may also be simulated e link capacitance in uF e cos phi efficiency factor cos range 0 to 1 fsw switching frequency in Hz Configuration dependent H bridge or inverter e fout output grid frequency in Hz Available presets 50 Hz and 60 Hz e Rgon switch on gate resistor in Q e Rgoff switch off gate resistor in Q Value must be equal to or lower than switch on gate resistor Rgon e Tsink heat sink temperature in C e Inverter modulation Configuration dependent presets normal unipolar bipolar 3rd harmonic Rth mod This slider allows to adjust the preset Rth if in the application a better or worse thermal resistance than in the datasheet stated is expected Vgon positive gate driver voltage in V This preset is nonadjustable e Vgoff negative gate driver voltage in V This preset is nonadjustable The graphs in the flowSOL screen s
4. module by typing the product name in the search engine Just click on the button module search to open the search function V search module MEM Search module product family part number nom nom current simulation tac 3xflowMNPC 4w 70 W612M3A300SC M208E 1200 3xflowMNPC 4w 70 W612M3A400SC M209E 1200 3xflowMNPC 4w 70 W612M3A600SC M200E 120 3xflowNPC 4w 70 W624N3A320SH M400F flowSOL MiniSKiiP PACK 1 23990 218 1200 MiniSKiiP PACK 1 V23990 K219 F PM 1200 MiniSKiiP PACK 1 V23880 K210 F PM 1200 MiniSKiiP PACK 1 23990 218 40 1200 MiniSKiiP PACK 1 V23990 K219 F40 PM 1200 MiniSKiiP PACK 1 V23990 K210 F40 PM 1200 25 MiniSKiiP PACK 2 V23880 K232 F PM MiniSKiiP PACK 2 V23880 K233 F PM 600 MiniSKiiP PACK 2 V23980 K238 F PM 1200 PACK 2 v2399n k239 F PM 1200 SO flowSTM 4 Figure 7 The ISE module search Type the name or only a part of it of the selected power module in the search bar and click on the magnifier button Afterwards all suitable power modules will be listed here Just double click on the preferred one and the simulation starts at once In some cases topologies respectively power modules can be simulated in flowSOL and flowSIM then please check in column simulation tool which tool fits best to your application and select the module accordingly If you wish to open and continue a stored simulation the custom simulations windo
5. set of integrated simulation tools designed to help you select power modules for various applications All power loss and temperature calculations are based on actual measurements taken of each module 2 Introduction Vincotech ISE features the tools for flowSOL flowSIM and flowSEL Besides two other tools flowMIS and the new thermal simulator flowTHERM are available calculations can be provided on special request These software components are here to support your efforts to develop electronic applications and find the power module best suited for the task at hand 3 Installing Vincotech ISE2 Vincotech ISE is based on the labVIEW runtime engine so you ll need it to launch our simulation tool Go to www vincotech com to get the right version Once it is installed download Vincotech ISE2 from our website at http www vincotech com en support simulation software html Save it to the simulation directory of your choice 4 Launching Vincotech 15 2 Only the executable file is downloaded so when you first launch the tool a Download Update window appears showing the latest data files They contain the modules parametrical data and other information needed to run the software Click the download button to retrieve these data Rev 01 4 YOUR IDEAS Vincotech Yy Download Update fies 100000 en Download Update local version server version Vincotech ISE3 exe build nr 5 11 15 1 build nr 5 11 15 1 pr
6. AS Rev 01 21 IR IDEAS Vincotech fout first harmonic output voltage frequency in Hz only preset values can be selected Rgon switch on gate resistor in Q Rgoff switch off gate resistor in Q The value must be equal to or lower than switch on gate resistor Rgon Vgon positive gate driver voltage in V This preset is nonadjustable VMgoff negative gate driver voltage V This preset is nonadjustable Tnk heat sink temperature in C DC power is indicated below the simulation section and calculated as follows V3 Vine lout cosy Three phase applications Ppc Viine COSE One phase applications The graphs in the lower flowSIM panel are updated after every parameter change These graphs are windows into the simulation affording you views of input voltage curves input current DC link values and the like to show how individual components respond to the given parameters Select the component you wish to analyze in the component selector box at the right of the top panel component selector Rectifier Figure 20 flowSIM component selector and simulation section Click these three buttons to get full views of the selected component s input and output waveforms losses and switching characteristics respectively Rev 01 22 YOUR IDEAS V Vincotech Detailed input and output voltage and current waveforms independent of the selected component
7. Central E Mail Mirko Haardt vincotech com Jerry Moudilos Regional Field Application Engineer North America E Mail Jerry Moudilos vincotech com Roger Chen Regional Field Application Manager Asia Pacific E Mail Chen Roger amp vincotech com Jacky Wu Regional Field Application Engineer China E Mail Ding Wu vincotech com Nosung Park Regional Field Application Engineer South Korea E Mail Nosung Park vincotech com Contact Us Headquarters Erno Temesi Sr Development Engineer Application amp Test Vincotech GmbH il Sup h Biberger Strasse 93 E Mail Erno Temesi vincotech com 82008 Unterhaching Germany Tel 49 0 89 8780 67 0 Zsolt P va dps ad 0 89 8780 67 300 Manager Application amp Test info vincotech com E Mail Zsolt Pava vincotech com Regional Contacts Zoltan Ureczki Development Engineer Application amp Test Asia Pacific E Mail Zoltan Ureczki vincotech com Mr Alan Zhao Europe Middle East Africa Vince Zsolt Szab Mr Eckart Seitter Sr Development Engineer Application amp Test Americas E Mail Zsolt Szabo vincotech com Mr Mike Thompson Technical documentation Vincotech Application Notes Vincotech Reference Design Vincotech Technical Papers Figure 5 Contact support window YOUR IDEAS Rev 01 7 Vincotech 5 Working with Vincotech ISE Once all files are up to date Vincotech ISE is ready to simulate modules There are two ways to get the si
8. ST 0 sym flowBOOST 1 sym flowBOOST 2 sym flowMNPC 0 flowMNPC 0 SiC flowMNPC 1 flowMNPC 2 350 Iout fsw 20 0 kHz Rogoff flowMNPC 4w 50 0 kHz fout 50 Hz Vgon flowNPC 0 mod normal Vgoff H Bridge Current A Device Voltage V and Current A 4 4 EH ED EH EH 805 0 yin rms d Iin rms f s 4 6 rms T Id rms lt 0 0A 131 1 120 0 790 0 4 0 780 0 3 5 100 0 770 0 3 0 760 0 2 5 750 0 60 0 740 0 730 0 720 0 1 0 710 0 0 5 700 0 0 0 0 0 0 80 0 1 5 40 0 20 0 DC link voltage V and avg Current A Inverter Switched Currents A Device duty cycle Junction temperature oC avg T Idc rms lt Figure 8 A look at the flowSOL tool You must choose a specific module in the module selector window It shows all available modules for the topologies selected on the Vincotech ISE2 start screen module selector flowBOOST 0 sb flowBOOST 0 sym flowBOOST 1 sym flowBOOST 2 sym flowMNPC 0 flowMMPC 0 Sic flowMNPC 1 flowMNPC 2 4w 0 MEE EH flowNPC 1 600W 100A M135 F 600 150 M136 F flowNPC 1 MOS flowNPC 2 flowPACK 1 H flowSOL 0 BI TL Figure 9 The Module selector Ed Ed 1H Rev O1 11 NERING YOUR IDEAS id V Vincotech The simulation starts as soon as you choose a module using the preset parameters as the basis The t
9. V23990 P364 F 120 6 98 57 600 V 20A flowPIM 1 V23990 P584 A 120 3 98 49 600 V 20A MiniSKiiP PIM 1 V23990 K204 A 120 3 98 67 600 V 20A flowPIM 0 V23990 P545 A20 119 2 98 87 600 V 20A 38 44 600 V 20A 38 81 600 V 20A 38 87 600 V 20 A 58 60 Please use flowSIM for detailed verification flowPIM 0 V23990 P545 A21 119 2 98 87 Figure 27 The flowSEL tool s screen First open the drop down menu under Group modules by customer name to select a module group and narrow down the list of available power modules You can reduce this list further by choosing among the available housings and topologies Then adjust the set of parameters to suit the application you have in mind The list of suitable modules is refreshed automatically with every parameter change m 01 27 YOUR IDEAS j Vincotech The adjustable parameters are e DC voltage in V e Switching frequency in Hz Heat sink temperature in C e Output grid frequency Hz e Efficiency factor cos RMS output current in A RMS output voltage in V he switch on the right of the application diagram toggles between motor and generator operating modes The program calculates the average junction temperature of the switching element the freewheeling diodes and the coefficient of efficiency These values are displayed in the module table s right columns The lower limit for the average junction temperature may al
10. Vincotech Table of Contents VincotechISE User Manual Integrated Simulation Environment for Vincotech Power Modules I d gt P ry T ud W VILHILULOCL BE Pe Iu E gil v d EE un E i r i Vincotech Rev 01 1 Vincotech Table of Contents 1 hie cag e cE mm 4 2 4 3 MStaling VIRNIC ORCC ISE tc UH RR m 4 4 Launching Vincotech 5 2 4 4 1 Mieres dig sU UU 6 4 2 Veron TOTMAGAN Tm TT TUM 6 4 3 SUD DOF M T T T PO 7 5 Working with Vincotech 5 dt Xon acad e RA soins snot eu ru apa a a da 8 6 Similac Ol Kore PES 10 6 1 67 88 10 6 2 S 19 6 3 disi Aci 27 Rev O1 2 YOUR IDEAS Vincotech Revision m Page Description Level Number s Aug 2008 VincotechISE first release VicotechISE adjusted for ISE versions beginning with 3 xx Apr 2014 VincotechISE2 second release May 2015 Rev O1 3 YOUR IDEAS Vincotech 1 Abstract Vincotech ISE is a
11. ata on current power and temperature conditions that will help you identify the best solution The flowSEL screen is divided into three sections the entry mask on the top left the module repertory below it and the graphs on the right flowSEL drive application selector software version 3 00 Selection criterias drive application conditions Output Currents A 34 Switch Iavg 9 0 Switch Ipeak 28 3A 30 Diode Iavg 9 0A Diode Ipeak 28 3 DC voltage switching frequency 1 10 20 Power losses W Switch Ptot 24 2W Switch Ptotpeak 99 7W bold gt Ptotal 22 3 Diode Ptot 730 6mW Diode Ptotpeak 15 3W dashed gt Pstatic Iout 20 0 A dotted Pswitch Vout 380 V jam Pout 10530 9 W group modules by family name suit pcs pcs in group 26 190 all suitable modules selected item V23990 P862 F48 49 Tjavg lt Tjmax Switch Tjmax Diode Product Tjavg Tjavg h name number IGBT oC FRED oC flow90PIM 1 V23990 P633 A 132 7 98 74 600 V 15A flowPIM 0 E V23990 P444 C20 130 2 98 70 Junction temperature oC 600 V 15A MiniSKiiP PIM 1 V23990 K203 A 128 5 98 57 172 Switch Tjavg 130 2 oC Switch Tjpeak 155 8 oC 600 V 15A flowPIM 0 V23990 P544 A20 128 0 98 69 169 Piode Tjavg 81 8 Diode Tjpeak 88 1 oC 600 V 15A flowPIM 0 V23990 P544 A21 128 0 98 69 600 V 20A flowPIM 1 P V23990 P305 B02 121 9 96 68 600 V 20A flowPACK 0
12. ching characteristics and thermal impedance Informative graphs will be shown on various pages depending on the selected module s configuration as a rectifier PFC or inverter You can also select a second power module to compare two options directly To do this open the module selector by clicking the select module to compare button on the left A second module is then simulated using the same set of parameters as for the first YOUR IDEAS Rev 01 24 V Vincotech DA Static and dynamic switching characteristics independent of the selected 4 component dynamic characteristic thermal characteristic flowPIM 0 V23990 P546 A20 PM 600V 30A 546 20 PFC from Simulated i Not included 80 5 70 Brake from 5 60 50 V23990 P546 A20 PM 600V 30A P546 A20 Inverter from 40 30 20 V23990 P546 A20 PM 600V 30A 546 20 0 1 1 1 d 1 1 5 6 7 8 0 1 2 4 voltage V high temp 125 low temp voltage V high temp 125 oC select module to compare selected modul parameters Customer identification Co m a red Company identification p The modul doesn t contain The modul doesn t contai Lo this block this block Nominal current A Nominal voltage V Figure 23 Detailed parts diagrams in the flowSIM tool Each de
13. in Q fin frequency of the input voltage in Hz Vac Output voltage of the PFC stage in V For a PFC simulation Vdc must be higher than Vin peak Viper 2 C DC link capacitance in pF AC ripple on the DC link voltage is determined by DC link capacitance fpfc switching frequency of the PFC stage in Hz A virtual six pack is added to the configuration if only a PFC stage is to be simulated It serves as a load for the PFC even if the selected module does not include a six pack The output parameters field is enabled even for a virtual six pack Vy brake voltage in V Brake voltage must be equal to or higher than the rectified input voltage Vin e Inverter Y Vout Output voltage in V first harmonic of the output voltage under nominal operating conditions Output voltage is specified as a line to line RMS value for three phase devices and as a line to ground RMS value for single phase or DC applications Iout RMS output current in A The output current can be specified in positive values for motor applications and negative values for generator mode In generator mode calculations are made on the basis of a DC link voltage Vdc equal to the brake voltage Vbr must be equal to or higher than the rectified input voltage Vin cos phi efficiency factor cos range 0 to 1 fsw switching frequency in Hz mod modulation index the 3rd harmonic can be added to the modulator signal IR IDE
14. independent of the selected component Result graphs Input and H bridge DC link and rectifier Figure 12 Detailed input and output waveforms in the flowSOL tool Rev O1 15 EMPOWERING YOUR IDEAS V Vincotech Detailed static and dynamic losses and temperature graphs for the selected component W Out Buck Switch V T Mi Output graphs Current voltage N Pstatic avg Pswitch avg Ptotal avg 40 73 W 2 11W 42 84 W Pswitch peak Ptotal peak Pstatic peak 197 63 W T junction max T junction swing T junction avg 125 07 C 20 80 C 110 59 C T junction min Heat sink temp dT ava 104 27 C 80 0 C 30 59 C Duty cycle Power losses Power losses temperature rise junction temperature junction temperature thermal resistance Figure 13 Detailed static and dynamic losses and temperature graphs in the flowSOL tool The Detailed parts diagrams window serves to analyze static and dynamic switching characteristics and thermal impedance Informative graphs are shown on various pages depending on the selected module s configuration as an input booster H bridge HF rec
15. ion history of files on the server at every start of VincotechISE If more recent versions of files are found they appear in the Download Update window If so click the download button to load all files to the data folder There is no need to delete old files manually as the program uses only the latest versions of data files If an updated version of Vincotech ISE2 is available you will have to restart the program after downloading the new files 4 2 Version Information Click Version information in the help menu to learn more about every software component and data file 01 6 YOUR IDEAS Version information program versions Vincotech data file versions Vincotech ISE build nr 5 11 15 1 ISE main frame Cross table flowSOL flowSIM flowSEL flowMIS Cross table data Mar 26 2015 flowSOL data Mar 18 2015 flowSIM data Mar 25 2015 flowSEL data 14 2015 Figure 4 Version information window 4 3 Support If you need any help go to the contact menu and click the support button to see a list of Vincotech s regional field application engineers and developers Links to Vincotech s latest application notes reference designs and technical papers are also posted here Vwescers NN UU l Technical Support Patrick Baginski EMEA Regional Field Application Engineer E Mail Patrick Baginski vincotech com Mirko Haardt Field Application Engineer Europe
16. lowSIM tool calculates Vincotech s power modules for industrial drive applications Its user interface looks much like that of the flowSOL tool The top panel consists of the module selector function boxes entry mask and simulation section the bottom panel presents the output graphs component selector flowSIM Rectifier software version 6 00 data file version Mar 25 2015 module selector MiniSKiiP PACK 1 4 MiniSKiiP PACK 2 t MiniSKiiP PACK 3 ii um m i i MiniSKiiP 2 SR feci bna inel Inna EIE module power fastPACK 0 H fastPHASE 0 Sum DC Power oes id a an SS be DH PESE EET ECT el flow3xPHASE 0 SIC 1 LL L Ss Sum efficiency 0 000 Stagelosses 0 00 Stage E s lesses 0 00 w Stagelosses 0 00 w stage JETER losses flow90PACK 0 tage losses tage losses age losses ge losses age losses ge losses Efficiency Efficiency Efficiency Efficiency 000 9 iency Efficiency flow90PACK 1 Vin ov Vdc Ov it Rth modifier flowS0PIM 1 p MIT flowBOOST 4w sym Rline 0 01 Ohm 1500 u Iout fsw 4 0 kHz NEEEEXE li 0 flowCIP 0B fin 50 Hz 100 0 kHz mod fout 50 000 voon a flowCON 0 exciting Vbr 19 Tsink
17. lower panel are updated after every parameter change These graphs are windows into the simulation affording you views of input voltage curves input current DC link values and the like to show how individual components respond to the given parameters Select the component you wish to analyze in the component selector box at the right of the top panel Rev 01 13 YOUR IDEAS V Vincotech Input Voltage V and Current A H Bridge Current A Device Voltage V and Current A Total Power dissipation W 805 0 Vinrms 700 0 Iinrms 210A 0 2 rms 3 4 Vd rms 790 0 780 0 770 0 760 0 750 0 740 0 730 0 720 0 A 710 0 4 300 0 0 3 0 2 5 2 0 1 5 1 0 1 4V Id rms lt 354A 81 6 Ptotal 42 8W 70 0 60 0 DC link voltage V and avg Current A Inverter Switched Currents A Vdc avg 700 0V Figure 11 The flowSOL tool s graph section Device duty cycle Junction temperature Tj avg 110 6 9c To gain deeper insight into the chosen component s input and output waveforms left click the three buttons in the simulation section to see detailed graphs indicating Pm m mm Input and output waveforms Static and dynamic losses and temperature graphs Static and switching characteristics Generates an Excel report file YOUR IDEAS Rev 01 14 v Vincotech Detailed input and output voltage and current waveforms
18. mulation of the power module of choice started choose the preferred product family via a cross reference table or select a concrete power module by typing the name in the module search If only a preferred topology is specified at the start of the simulation tool the table cross referencing flow and MiniSKiiP power module housings with topologies helps you to find the right product family This table appears directly after launching Vincotech ISE Select either solar inverter or industrial drive at the top of the table to change the application field The selection of topologies will change accordingly Application field selection Vincotech ISE Integra Ln m3 File Tools View Help VincotechiSE Integrated Simulation Er iroment SS ee eee eee m Vincotech MODULE SEARCH I RI flow THERM ster Figure 6 The ISE2 start screen Now select your preferred topology by clicking it in the column of your chosen housing Then click the flowSOL button for solar inverters or the flowSIM button for industrial drives to start the simulation Use the control key if you wish to select multiple modules with the same nans Rev 01 8 YOUR IDEAS Vincotech topology If you don t select a topology now you will be asked to do so when the selected simulation tool launches In case of an already preselected Vincotech power module you can easily find this
19. ogram status up to date download recommended files files downloading file local wersion server version status size Topology Housing cross table CrossTables dat Mar262015 183010 fowsIMdafle fowsiMdat Mat25205 missing 1527376 fowsOLdafle fowSOLda Mari amp 20iS missing 4323664 data fle missing 97687 mein 288 o gm 07 g ar O exemple mpr easyto starsmpr m 33 DOWNLOAD Figure 1 Download Update window Once all files are up to date click the finish button to close the window All data files are stored in a folder named data generated in the chosen simulation directory The program stops if the download fails in which case you ll have to restart it and try again m ty Search Organize Include in library Share with Burn m e data Vincotech cotech ISE3 exe ISE3 ini Figure 2 Root folder content n 01 5 YOUR IDEAS V Vincotech fe jc Jw ISE data Search data Organize Include in library Share with Burn Mew falder GM Li e di custom simulations M documents di module_data di stored_profiles Figure 3 Data folder content 4 1 Updating The program starts checking the revis
20. op row of the upper panel is divided by function into four boxes called Input Booster H Bridge HF Rectifier and Inverter These boxes are disabled empty and framed in dark blue or enabled filled with a circuit diagram and framed in polar blue in accordance with your chosen topology The selected power module s full name is also indicated Below these boxes you ll see listed the circuit s components and information about their losses and average temperature A right click on an enabled box opens the module selector It lists all power modules that you can substitute to perform this function This way of choosing a replacement has the benefit that your parameters are retained If instead you select a new module in the module selector on the left all parameters are reset to their defaults Right clicking a disabled function box also opens the module selector In this case a combination of different power modules say a booster and an inverter can be simulated The far right column indicates DC power overall losses and the module s efficiency The stated values always refer to both power modules when simulating a combination of modules HF Rectifier component selector Out Buck Switch Tjavg module power oC Sum DC Power Sum losses Sum efficiency Vin 240 V cosphii 1 00 50 0 fsw 20 0 kHz C 1500vF fou 50 Hz Vgon 16 0 v mod normal 50004 Figure 10
21. so be adjusted Modules with less than T avg min are not displayed in the table The default value is 110 The simulation starts automatically once a power module is selected 01 28 YOUR IDEAS
22. tifier or inverter You can also select a second power module to compare two options directly To do this open the module selector by clicking the select module to compare button on the right A second module is then simulated using the same set of parameters as for the first 01 16 YOUR IDEAS V Vincotech yw Static and dynamic switching characteristics independent of the selected component I Detailed parts diagrams Component characteristics 3t dynamic characteristic thermal characteristic nent s simulated modul Switch static curves diode static curves 140 110 130 120 Not included simulated modul parameters Input Boost from H Bridge from Si mu lated l i Not included HF rectifier from Not included Inverter from flowMNPC 0 SiC 10 PZ12NMA027ME M340F63Y 1200V 100A M340 F63Y 4 5 0 2 3 4 voltage V low temp voltage V high temp select module to compare selected modul parameters Customer identification m d Company identification O p The modul doesn t contain The modul doesn t contain this block this block Nominal current A Nominal voltage V Figure 14 Detailed parts diagrams in the flowSOL tool Each device s static loss is calculated on the basis of o
23. utput characteristics V fI measured at 25 C and 125 C The device s voltage drop at any other temperature is calculated using the linear interpolation method current A i Ju JA hot curve 4 cold curve Pa l 7 8 low temp voltage V high temp 125 oC TRAN Figure 15 Static curves 01 17 YOUR IDEAS V V Vincotech Switching losses are calculated by measuring E Measurements were taken at 25 C and 125 C with discrete values of J and R Left click and hold the 3D graph to turn the model in any direction Zoom in and out using the mouse wheel 0 57 T TL Ipod _ o lrole ual e E 1 l l l l l l l l l l l l l l 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 86 measured i50 vds yoe current A Figure 16 Switching losses The heat sink temperature has to be fixed first for thermal modeling The default value is T44 90 C The calculated total power loss is applied to a serial thermal model to determine chip temperature The graph represents Tau over Ra OR K W 1 6274 KW Figure 17 Thermal impedance 01 18 EMPOWERING YOUR IDEAS V Vincotech All axes can be adjusted by double clicking on a value and retyping it A change of the highest axis value performs a zoom in or out a change of another values changes the step range 6 2 flowSIM The f
24. vice s static loss is calculated on the basis of output characteristics U f I measured at 25 C and 125 C The device s voltage drop at any other temperature is calculated using the linear interpolation method current A 1 1 low temp voltage V high temp Figure 24 Static curves 01 25 YOUR IDEAS di V V Vincotech Switching losses are calculated by measuring E Measurements were taken at 25 C and 125 C with discrete values of and R Left click and hold the 3D graph to turn the model in any direction Zoom in and out using the mouse wheel pS NM energy m3 Figure 25 Switching losses The heat sink temperature has to be fixed first for thermal modeling The default value is T44 90 C The calculated total power loss is applied to a serial thermal model to determine chip temperature 0 0001 0 0 05 0 15 0 25 0 35 0 45 0 55 0 65 0 75 0 85 0 981 Rth K W Rth Figure 26 Thermal impedance Tau over Rp All axes can be adjusted by double clicking on a value and retyping it A change of the highest axis value performs a zoom in or out a change of another values changes the step range Rev 01 26 MPOWERING YOUR IDEAS V Vincotech 6 3 flowSEL If you need to find the right power module for an industrial drive application flowSEL is the tool to use All graphs are based on actual measurements which is why flowSEL provides accurate d
25. w can be opened by clicking on sim set at the lower left corner of the screen It serves to open former simulations and to save the currently configured simulation Click the plus button and name the current simulation It is stored automatically in the given simulation tool folder pe um 01 9 YOUR IDEAS Vincotech 6 Simulation Tools All other Vincotech ISE2 components are launched by clicking the appropriate buttons in the top row of the start screen flow SOL Simulation program for solar inverter modules flow SIM Simulation program for industrial drive modules flow SEL Selector tool for drive modules MODULE SEARCH Opens the search function Takes you back to the start screen 6 1 flowSOL This tool simulates Vincotech power modules designed for solar applications The user interface provides several windows and entry masks where you can adjust all the key parameters The window consists of two panels The top panel contains all modules parameters and the simulation section the bottom panel shows graphs with information on voltage current temperature and losses 01 10 YOUR IDEAS V Vincotech flo wSO L Switch software version 4 00 data file version 18 2015 module selector 3xflowMNPC 4w 3xflowNPC 4w flow3xBOOST 0 SIC flow3xMNPC 1 flow3xPHASE 0 SIC flowBOOST 0 SIC flowBOOST 0 dual flowBOOST 0 s b flowBOO
26. want to simulate a six pack inverter and need to define the type of input voltage to this end You can choose DC voltage one phase rectified or three phases rectified and then adjust the voltage value line resistance and depending on your selection the frequency Here s an example for an enabled block If you re simulating a six pack you could change the type of application from three phase to one phase Adjust the parameters after you have configured the module Several are available depending on the enabled function box and selected power module Inverter component selector Rectifier N EET AMO Not inc EET NM Not inc EET M li X 08 AF Component le Component Iw Tjavg nM Hem Lm Sum DC Power Sum loses Sum efficiency 0 000 in i Vout cos phi Rgon Rth modifier Rline 0 01 Ohm n fsw 40 kHz Pr a fin 50 Hz fpfc normal fout 50 000 exciting Vgoff Auto scale Tsink Figure 19 The flowSIM tool s function boxes and parameter entry mask 2 Rev O1 20 YOUR IDEAS Vincotech e Rectifier e e Brake Vin input voltage in V Input voltage is specified as a line to line RMS value for three phase devices and as a line to ground RMS value for single phase or DC applications The default is DC if the module lacks a rectifier but this can be changed to single phase or three phase Rline line resistance
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