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| IKA10N60T TrenchStop Series Low Loss DuoPack : IGBT in Trench and Fieldstop technology with soft, fast recovery anti-parallel EmCon HE diode C * * * * * * * * * * Very low VCE(sat) 1.5 V (typ.) Maximum Junction Temperature 175C Short circuit withstand time - 5s G Designed for : - Variable Speed Drive for washing machines, air conditioners and induction cooking - Uninterrupted Power Supply Trench and Fieldstop technology for 600 V applications offers : - very tight parameter distribution - high ruggedness, temperature stable behavior - very high switching speed - low VCE(sat) NPT technology offers easy parallel switching capability due to positive temperature coefficient in VCE(sat) Low EMI Low Gate Charge Very soft, fast recovery anti-parallel EmCon HE diode Complete product spectrum and PSpice Models : http://www.infineon.com/igbt VCE 600V IC 10A VCE(sat),Tj=25C 1.5V Tj,max 175C Marking Code K10T60 E P-TO-220-3-31 (TO-220 FullPak) Type IKA10N60T Package TO-220-FP Ordering Code Q67040S4683 Maximum Ratings Parameter Collector-emitter voltage DC collector current, limited by Tjmax TC = 25C TC = 100C Pulsed collector current, tp limited by Tjmax Turn off safe operating area VCE 400V, Tj 150C Diode forward current, limited by Tjmax TC = 25C TC = 100C Diode pulsed current, tp limited by Tjmax Gate-emitter voltage Short circuit withstand time 1) Symbol VCE IC Value 600 20 10 Unit V A ICpuls IF 30 30 20 10 IFpuls VGE tSC Ptot Tj Tstg 30 20 5 30 -40...+175 -55...+175 V s W C VGE = 15V, VCC 400V, Tj 150C Power dissipation, TC = 25C Operating junction temperature Storage temperature 1) Allowed number of short circuits: <1000; time between short circuits: >1s. 1 Rev. 2 Oct-04 Power Semiconductors IKA10N60T TrenchStop Series Thermal Resistance Parameter Characteristic IGBT thermal resistance, junction - case Diode thermal resistance, junction - case Thermal resistance, junction - ambient Electrical Characteristic, at Tj = 25 C, unless otherwise specified Parameter Static Characteristic Collector-emitter breakdown voltage Collector-emitter saturation voltage V ( B R ) C E S V G E = 0V, I C = 0. 2mA VCE(sat) V G E = 15V, I C = 10A T j = 25 C T j = 17 5 C Diode forward voltage VF V G E = 0V, I F = 1 0 A T j = 25 C T j = 17 5 C Gate-emitter threshold voltage Zero gate voltage collector current VGE(th) ICES I C = 0. 3mA, V C E = V G E V C E = 600V , V G E = 0V T j = 25 C T j = 17 5 C Gate-emitter leakage current Transconductance Integrated gate resistor Dynamic Characteristic Input capacitance Output capacitance Reverse transfer capacitance Gate charge Internal emitter inductance measured 5mm (0.197 in.) from case Short circuit collector current1) IC(SC) V G E = 1 5V,t S C 5s V C C = 400V, T j = 25 C 100 A Ciss Coss Crss QGate LE V C E = 25V, V G E = 0V, f= 1 M Hz V C C = 4 80V, I C = 10A V G E = 1 5V T O -220-3- 31 7 nH 551 40 17 62 nC pF IGES gfs RGint V C E = 0V ,V G E = 2 0V V C E = 20V, I C = 15A 6 none 40 1000 100 nA S 4.1 1.6 1.6 4.6 2.05 5.7 A 1.5 1.8 2.05 600 V Symbol Conditions Value min. typ. max. Unit RthJA TO-220 FullPak 80 RthJCD TO-220 FullPak 5.8 RthJC TO-220 FullPak 5 K/W Symbol Conditions Max. Value Unit 1) Allowed number of short circuits: <1000; time between short circuits: >1s. 2 Rev. 2 Oct-04 Power Semiconductors IKA10N60T TrenchStop Series Switching Characteristic, Inductive Load, at Tj=25 C Parameter IGBT Characteristic Turn-on delay time Rise time Turn-off delay time Fall time Turn-on energy Turn-off energy Total switching energy Anti-Parallel Diode Characteristic Diode reverse recovery time Diode reverse recovery charge Diode peak reverse recovery current Diode peak rate of fall of reverse recovery current during t b trr Qrr Irrm di r r / d t T j = 25 C, V R = 4 00V, I F = 1 0A , di F / dt = 88 0A / s 115 0.38 10 680 ns C A A/s td(on) tr td(off) tf Eon Eoff Ets T j = 25 C, V C C = 4 00V, I C = 10A, V G E = 0/ 1 5V , R G = 2 3 , L 2 ) = 6 0nH , C 2 ) =40pF Energy losses include "tail" and diode reverse recovery. 12 8 215 38 0.16 0.27 0.43 mJ ns Symbol Conditions Value min. typ. max. Unit Switching Characteristic, Inductive Load, at Tj=175 C Parameter IGBT Characteristic Turn-on delay time Rise time Turn-off delay time Fall time Turn-on energy Turn-off energy Total switching energy Anti-Parallel Diode Characteristic Diode reverse recovery time Diode reverse recovery charge Diode peak reverse recovery current Diode peak rate of fall of reverse recovery current during t b trr Qrr Irrm di r r / d t T j = 17 5 C V R = 4 00V, I F = 1 0A , di F / dt = 88 0A / s 200 0.92 13 390 ns C A A/s td(on) tr td(off) tf Eon Eoff Ets T j = 17 5 C, V C C = 4 00V, I C = 10A, V G E = 0/ 1 5V , R G = 23 L 1 ) = 6 0nH , C 1 ) =40pF Energy losses include "tail" and diode reverse recovery. 10 11 233 63 0.26 0.35 0.61 mJ ns Symbol Conditions Value min. typ. max. Unit 2) 1) Leakage inductance L and Stray capacity C due to dynamic test circuit in Figure E. Leakage inductance L and Stray capacity C due to dynamic test circuit in Figure E. 3 Rev. 2 Oct-04 Power Semiconductors IKA10N60T TrenchStop Series tp =1s 30A 25A 20A 15A 10A 5A 0A 10H z T C =80C T C =110C 10A IC, COLLECTOR CURRENT IC, COLLECTOR CURRENT 20s 50s 1A 500s 5ms 0,1A 100ms DC Ic Ic 100H z 1kH z 10kH z 100kH z 1V 10V 100V 1000V f, SWITCHING FREQUENCY Figure 1. Collector current as a function of switching frequency (Tj 175C, D = 0.5, VCE = 400V, VGE = 0/+15V, RG = 23) VCE, COLLECTOR-EMITTER VOLTAGE Figure 2. Safe operating area (D = 0, TC = 25C, Tj 175C; VGE=15V) 30W 25W 20W 15W 10W 5W 0W 25C 10A IC, COLLECTOR CURRENT POWER DISSIPATION 8A 6A 4A Ptot, 2A 50C 75C 100C 125C 150C 0A 25C 75C 125C TC, CASE TEMPERATURE Figure 3. Power dissipation as a function of case temperature (Tj 175C) TC, CASE TEMPERATURE Figure 4. Collector current as a function of case temperature (VGE 15V, Tj 175C) Power Semiconductors 4 Rev. 2 Oct-04 IKA10N60T TrenchStop Series 30A 25A 30A 25A V GE =20V 15V V GE =20V 15V IC, COLLECTOR CURRENT 20A 15A 10A IC, COLLECTOR CURRENT 12V 10V 8V 6V 20A 15A 10A 12V 10V 8V 6V 5A 0A 0V 1V 2V 3V 4V 5A 0A 0V 1V 2V 3V 4V 5V VCE, COLLECTOR-EMITTER VOLTAGE Figure 5. Typical output characteristic (Tj = 25C) VCE, COLLECTOR-EMITTER VOLTAGE Figure 6. Typical output characteristic (Tj = 175C) VCE(sat), COLLECTOR-EMITT SATURATION VOLTAGE 25A 3,0V 2,5V 2,0V 1,5V 1,0V 0,5V 0,0V -50C IC =20A IC, COLLECTOR CURRENT 20A IC =10A 15A 10A T J = 1 7 5 C 2 5 C 0A IC =5A 5A 0V 2V 4V 6V 8V 10V 0C 50C 100C 150C VGE, GATE-EMITTER VOLTAGE Figure 7. Typical transfer characteristic (VCE=20V) TJ, JUNCTION TEMPERATURE Figure 8. Typical collector-emitter saturation voltage as a function of junction temperature (VGE = 15V) Power Semiconductors 5 Rev. 2 Oct-04 IKA10N60T TrenchStop Series t d(off) t d(off) 100ns 100ns t, SWITCHING TIMES tf t, SWITCHING TIMES tf t d(on) 10ns t d(on) 10ns tr tr 1ns 0A 5A 10A 15A 20A 1ns 10 20 30 40 50 IC, COLLECTOR CURRENT Figure 9. Typical switching times as a function of collector current (inductive load, TJ=175C, VCE = 400V, VGE = 0/15V, RG = 23, Dynamic test circuit in Figure E) RG, GATE RESISTOR Figure 10. Typical switching times as a function of gate resistor (inductive load, TJ = 175C, VCE= 400V, VGE = 0/15V, IC = 10A, Dynamic test circuit in Figure E) 7V t d(off) VGE(th), GATE-EMITT TRSHOLD VOLTAGE 6V 5V 4V 3V 2V 1V 0V -50C typ. m ax. 100ns t, SWITCHING TIMES tf t d(on) 10ns tr m in. 1ns 25C 50C 75C 100C 125C 150C 0C 50C 100C 150C TJ, JUNCTION TEMPERATURE Figure 11. Typical switching times as a function of junction temperature (inductive load, VCE = 400V, VGE = 0/15V, IC = 10A, RG=23, Dynamic test circuit in Figure E) TJ, JUNCTION TEMPERATURE Figure 12. Gate-emitter threshold voltage as a function of junction temperature (IC = 0.3mA) Power Semiconductors 6 Rev. 2 Oct-04 IKA10N60T TrenchStop Series *) E on and E ts include losses E ts * *) E on a nd E ts in clu d e los s e s E, SWITCHING ENERGY LOSSES 0,8m J E off E, SWITCHING ENERGY LOSSES 1,0m J d ue to diode re co ve ry due to diode recovery 0,8 mJ E ts* 0,6 mJ E off 0,6m J 0,4 mJ E on* 0,4m J E on * 0,2m J 0,2 mJ 0,0m J 0A 5A 10 A 1 5A 0,0 mJ 10 20 30 40 50 IC, COLLECTOR CURRENT Figure 13. Typical switching energy losses as a function of collector current (inductive load, TJ = 175C, VCE = 400V, VGE = 0/15V, RG = 23, Dynamic test circuit in Figure E) RG, GATE RESISTOR Figure 14. Typical switching energy losses as a function of gate resistor (inductive load, TJ = 175C, VCE = 400V, VGE = 0/15V, IC = 10A, Dynamic test circuit in Figure E) *) E on and E ts include losses 0,6mJ due to diode recovery *) E on and E ts include losses due to diode recovery E, SWITCHING ENERGY LOSSES E, SWITCHING ENERGY LOSSES 0,5mJ 0,4mJ 0,8m J E ts * 0,6m J E ts * 0,4m J E off 0,2m J E on * 0,3mJ E off 0,2mJ 0,1mJ 0,0mJ E on* 50C 100C 150C 0,0m J 300V 350V 400V 450V 500V 550V TJ, JUNCTION TEMPERATURE Figure 15. Typical switching energy losses as a function of junction temperature (inductive load, VCE = 400V, VGE = 0/15V, IC = 10A, RG = 23, Dynamic test circuit in Figure E) VCE, COLLECTOR-EMITTER VOLTAGE Figure 16. Typical switching energy losses as a function of collector emitter voltage (inductive load, TJ = 175C, VGE = 0/15V, IC = 10A, RG = 23, Dynamic test circuit in Figure E) Power Semiconductors 7 Rev. 2 Oct-04 IKA10N60T TrenchStop Series 1nF C iss VGE, GATE-EMITTER VOLTAGE 1 5V 120 V 1 0V 480 V c, CAPACITANCE 100pF C oss 5V C rss 0V 0nC 20n C 40n C 60 nC 10pF 0V 10V 20V QGE, GATE CHARGE Figure 17. Typical gate charge (IC=10 A) VCE, COLLECTOR-EMITTER VOLTAGE Figure 18. Typical capacitance as a function of collector-emitter voltage (VGE=0V, f = 1 MHz) 12s IC(sc), short circuit COLLECTOR CURRENT SHORT CIRCUIT WITHSTAND TIME 150A 125A 100A 75A 50A 25A 0A 12V 10s 8s 6s 4s 2s 0s 10V tSC, 14V 16V 18V 11V 12V 13V 14V VGE, GATE-EMITTETR VOLTAGE Figure 19. Typical short circuit collector current as a function of gateemitter voltage (VCE 400V, Tj 150C) VGE, GATE-EMITETR VOLTAGE Figure 20. Short circuit withstand time as a function of gate-emitter voltage (VCE=600V, start at TJ=25C, TJmax<150C) Power Semiconductors 8 Rev. 2 Oct-04 IKA10N60T TrenchStop Series D=0.5 D=0.5 ZthJC, TRANSIENT THERMAL RESISTANCE 0.2 0 K/W 0.1 R,(K/W) 1.596 1.985 0.5623 0.3324 0.3531 0.1730 R1 0 ZthJC, TRANSIENT THERMAL RESISTANCE 0.2 10 K/W 0 0.1 0.05 0 K/W -1 0.02 0.01 single pulse , (s) 4.622 1.288 -2 5.066*10 -3 4.152*10 -4 6.059*10 -5 7.863*10 R2 6 0.05 10 K/W -1 R,(K/W) 1.418 2.125 0.5890 0.5424 0.6311 0.5061 R1 , (s) 5.068 1.416 -2 6.455*10 -3 5.732*10 -3 1.019*10 -4 1.499*10 R2 6 0.02 0.01 single pulse C1= 1/R1 C2= 2/R2 C1= 1/R1 C2=2/R2 0 K/W -2 10s 100s 1m s 10ms100ms 1s 10s 10 K/W -2 10s 100s 1m s 10ms100ms 1s 10s tP, PULSE WIDTH Figure 21. IGBT transient thermal resistance (D = tp / T) tP, PULSE WIDTH Figure 22. Diode transient thermal impedance as a function of pulse width (D=tP/T) 300ns 250ns 200ns 150ns 100ns 0,8C T J =175C Qrr, REVERSE RECOVERY CHARGE 0,7C 0,6C 0,5C 0,4C 0,3C 0,2C 0,1C 0,0C 200A/s trr, REVERSE RECOVERY TIME TJ=175C T J =25C TJ=25C 50ns 0ns 200A/s 400A/s 600A/s 800A/s 400A/s 600A/s 800A/s diF/dt, DIODE CURRENT SLOPE Figure 23. Typical reverse recovery time as a function of diode current slope (VR=400V, IF=10A, Dynamic test circuit in Figure E) diF/dt, DIODE CURRENT SLOPE Figure 24. Typical reverse recovery charge as a function of diode current slope (VR = 400V, IF = 10A, Dynamic test circuit in Figure E) Power Semiconductors 9 Rev. 2 Oct-04 IKA10N60T TrenchStop Series 14A REVERSE RECOVERY CURRENT T J =175C dirr/dt, DIODE PEAK RATE OF FALL OF REVERSE RECOVERY CURRENT -700A/s -600A/s -500A/s -400A/s T J=25C 12A 10A 8A 6A 4A 2A 0A T J =25C T J=175C -300A/s -200A/s -100A/s 0A/s 400A/s Irr, 200A/s 400A/s 600A/s 800A/s 600A/s 800A/s diF/dt, DIODE CURRENT SLOPE Figure 25. Typical reverse recovery current as a function of diode current slope (VR = 400V, IF = 10A, Dynamic test circuit in Figure E) diF/dt, DIODE CURRENT SLOPE Figure 26. Typical diode peak rate of fall of reverse recovery current as a function of diode current slope (VR=400V, IF=10A, Dynamic test circuit in Figure E) 30A T J =25C 175C 2,0V I F =20A VF, FORWARD VOLTAGE IF, FORWARD CURRENT 20A 1,5V 10A 5A 1,0V 10A 0,5V 0A 0V 1V 2V 0,0V -50C 0C 50C 100C 150C VF, FORWARD VOLTAGE Figure 27. Typical diode forward current as a function of forward voltage TJ, JUNCTION TEMPERATURE Figure 28. Typical diode forward voltage as a function of junction temperature Power Semiconductors 10 Rev. 2 Oct-04 IKA10N60T TrenchStop Series P-TO220-3-31 dimensions symbol [mm] min max 10.63 16.12 0.78 min 0.4084 0.6245 0.0256 [inch] max 0.4184 0.6345 0.0306 A B C D E F G H K L M N P T 10.37 15.86 0.65 2.95 typ. 3.15 6.05 13.47 3.18 0.45 1.23 3.25 6.56 13.73 3.43 0.63 1.36 0.1160 typ. 0.124 0.2384 0.5304 0.125 0.0177 0.0484 0.128 0.2584 0.5404 0.135 0.0247 0.0534 2.54 typ. 4.57 2.57 2.51 4.83 2.83 2.62 0.100 typ. 0.1800 0.1013 0.0990 0.1900 0.1113 0.1030 Please refer to mounting instructions (application note AN-TO220-3-31-01) Power Semiconductors 11 Rev. 2 Oct-04 IKA10N60T TrenchStop Series i,v diF /dt tr r =tS +tF Qr r =QS +QF tr r IF tS QS tF 10% Ir r m t VR Ir r m QF dir r /dt 90% Ir r m Figure C. Definition of diodes switching characteristics 1 Tj (t) p(t) r1 r2 2 n rn r1 r2 rn Figure A. Definition of switching times TC Figure D. Thermal equivalent circuit Figure B. Definition of switching losses Figure E. Dynamic test circuit Leakage inductance L =60nH and Stray capacity C =40pF. Power Semiconductors 12 Rev. 2 Oct-04 IKA10N60T TrenchStop Series Published by Infineon Technologies AG, Bereich Kommunikation St.-Martin-Strasse 53, D-81541 Munchen (c) Infineon Technologies AG 2004 All Rights Reserved. Attention please! The information herein is given to describe certain components and shall not be considered as warranted characteristics. Terms of delivery and rights to technical change reserved. We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. Infineon Technologies is an approved CECC manufacturer. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office in Germany or our Infineon Technologies Representatives worldwide (see address list). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. Power Semiconductors 13 Rev. 2 Oct-04 |
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