10-0B066PA015SB-M994F09 datasheet flow PACK 0 B 600 V / 15 A Features ● ● ● ● flow 0 B 17mm housing IGBT3 (600 V) technology Open emitter topology New ultra-compact housing Single-screw heat sink mounting Schematic Target applications ● Dedicated design for motor drive Types ● 10-0B066PA015SB-M994F09 Maximum Ratings Tj = 25 °C, unless otherwise specified Parameter Symbol Condition Value Unit 600 V 18 A 45 A 40 W ±20 V µs Inverter Switch Collector-emitter voltage Collector current V CES IC T j = T jmax T s = 80 °C Repetitive peak collector current I CRM t p limited by T jmax Total power dissipation P tot T j = T jmax Gate-emitter voltage V GES Short circuit ratings Maximum Junction Temperature Copyright Vincotech T s = 80 °C t SC Tj ≤ 150°C 6 V CC VGE = 15V 360 V 175 °C T jmax 1 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Parameter Symbol Condition Value Unit 600 V 19 A 30 A 31 W Inverter Diode Peak Repetitive Reverse Voltage Continuous (direct) forward current V RRM IF T j = T jmax T s = 80 °C Repetitive peak forward current I FRM Total power dissipation P tot Maximum Junction Temperature T jmax 175 °C Storage temperature T stg -40…+125 °C Operation temperature under switching condition T jop -40…+(T jmax - 25) °C 4000 V Creepage distance min. 12,7 mm Clearance min. 12,7 mm T j = T jmax T s = 80 °C Module Properties Thermal Properties Isolation Properties Isolation voltage Comparative Tracking Index Copyright Vincotech V isol DC Voltage t p = 2s > 200 CTI 2 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Characteristic Values Parameter Conditions Symbol VCE [V] VGE [V] VGS [V] VGS [V] Vr [V] Value IC [A] ID [A] IF [A] Tj [°C] Unit Min Typ Max 5 5,8 6,5 1,59 1,9 Inverter Switch Static Gate-emitter threshold voltage V GE(th) Collec tor-emitter saturation voltage V CEsat V GE = V CE 0,00021 15 15 Collec tor-emitter cut-off c urrent I CES 0 600 Gate-emitter leakage current I GES 20 0 Internal gate resistance 25 125 25 150 1,1 1,85 25 0,85 125 25 300 125 rg none Input capacitance C ies 860 Output capacitance C oes Reverse transfer c apac itanc e C res Gate c harge Qg f = 1 MHz 0 25 25 55 V V µA nA Ω pF 24 15 480 15 25 87 nC 2,40 K/W Thermal Thermal resistanc e junction to sink R th(j-s) Thermal grease thickness ≤ 50 µm λ = 1 W /mK IGBT Switching Turn-on delay time Rise time Turn-off delay time t d(on) tr R goff = 32 Ω R gon = 32 Ω t d(off) ±15 Fall time tf Turn-on energy (per pulse) E on Turn-off energy (per pulse) E off Copyright Vincotech Q rFWD = 0,7 µC Q rFWD = 1,4 µC 3 300 15 25 150 25 150 25 150 25 150 25 150 25 150 106 105 15 18 134 155 92 109 0,276 0,380 0,345 0,459 ns mWs 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Parameter Conditions Symbol VCE [V] VGE [V] VGS [V] VGS [V] Vr [V] Value IC [A] ID [A] IF [A] Tj [°C] Min Unit Typ Max 25 1,60 1,95 150 1,51 Inverter Diode Static Forward voltage VF Reverse leakage current Ir 15 600 25 27 V µA Thermal Thermal resistance junction to sink R th(j-s) Thermal grease thickness ≤ 50 µm λ = 1 W/mK 3,10 K/W FWD Switching Peak recovery current I RRM Reverse recovery time t rr Recovered charge Reverse recovered energy Peak rate of fall of recovery current Qr di /dt = 1184 A/µs ±15 di /dt = 1026 A/µs E rec (di rf/dt )max 300 15 25 150 25 150 25 150 25 150 25 150 11 16 180 272 0,715 1,445 0,159 0,306 470 194 25 21,5 A ns µC mWs A/µs Thermistor Rated resistance R Deviation of R100 ΔR/R Power dissipation P R100=1486 Ω 100 Power dissipation constant -4,5 kΩ +4,5 % 25 210 mW 25 3,5 mW/K B-value B(25/50) 25 3884 K B-value B(25/100) 25 3964 K Vincotech NTC Reference Copyright Vincotech F 4 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switch Characteristics Typical output characteristics IGBT Typical output characteristics I C = f(V CE) IGBT I C = f(V CE) 50 I C (A) I C (A) 50 40 40 30 30 20 20 10 10 0 0 0 1 2 tp = 250 µs V GE = 15 V 3 T j: 4 V C E (V) 0 5 1 2 4 5 V C E (V) 25 °C tp = 250 150 °C Tj = 150 V GE from 7 V to 17 V in steps of 1 V Typical transfer characteristics 3 IGBT µs °C Transient Thermal Impedance as function of Pulse duration I C = f(V GE) IGBT Z th(j-s) = f(t p) 15 Z t h(j h(j--s)(K/W) I C (A) 101 12 100 9 10-1 6 0,5 0,2 0,1 10-2 0,05 3 0,02 0,01 0,005 0 10-3 0 0 2 4 6 8 10 10-5 12 10-4 10-3 10-2 V G E (V) tp = 100 µs V CE = 10 V T j: 25 °C D = 150 °C R th(j-s) = 10-1 10 101 t p (s) 102 tp / T 2,40 K/W IGBT thermal model values R (K/W) Copyright Vincotech 5 4,32E-02 τ (s) 7,18E+00 2,14E-01 7,90E-01 8,50E-01 1,13E-01 7,21E-01 1,91E-02 3,38E-01 3,73E-03 2,33E-01 3,73E-04 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switch Characteristics Gate voltage vs Gate charge IGBT V GE = f(Q G) V G E (V) 17,5 120V 15 480V 12,5 10 7,5 5 2,5 0 0 20 40 60 80 100 120 Q G (nC) At I C= 15 A Short circuit duration as a function of V GE IGBT Typical short circuit current as a function of V GE IGBT I SC = f(V GE) 14 300 I sc (A) t pS C (µS) t pSC = f(V GE) 12 250 10 200 8 150 6 100 4 50 2 0 0 10 11 12 13 14 12 15 13 14 15 V G E (V) 16 17 18 19 20 V G E (V) At At V CE = 600 V V CE ≤ 600 V Tj ≤ 175 ºC Tj ≤ 175 ºC Copyright Vincotech 6 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Diode Characteristics FWD Typical forward characteristics I F = f(V F) Z th(j-s) = f(t p) 50 101 Z t h( jj--s) (K/W) IF (A) FWD Transient thermal impedance as a function of pulse width 40 100 30 20 D = 0,5 0,2 0,1 0,05 0,02 0,01 0,005 0.000 10-1 10 10-2 0 0 1 2 3 4 10-4 5 10-3 10-2 VF (V) tp = 250 µs T j: 25 10-1 100 101 102 t p (s) °C 150 °C D= tp / T R th(j-s) = 3,10 K/W FWD thermal model values R (K/W) 4,74E-02 τ (s) 7,04E+00 2,14E-01 7,72E-01 9,95E-01 1,01E-01 8,61E-01 2,15E-02 5,97E-01 3,79E-03 3,86E-01 4,43E-04 Thermistor Typical Thermistor resistance values Thermistor typical temperature characteristic Typical NTC characteristic as a function of temperature R T = f(T ) NTC-typical temperature characteristic R (Ω) 25000 20000 15000 10000 5000 0 25 50 75 100 125 T (°C) Copyright Vincotech 7 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Characteristics figure 1. IGBT figure 2. IGBT E = f(I C) E = f(rg) 0,8 1,2 E (mWs) Typical switching energy losses as a f unct ion of gat e resist or E ( mWs) Typical swit ching energy losses as a f unct ion of collect or current Eoff Eon Eon 0,6 0,9 E o ff Eon Eo n 0,4 0,6 Eoff Eo ff 0,2 0,3 0 0 0 5 10 15 20 25 30 0 I C (A) 25 With an inductive load at 300 V V CE = V GE = ±15 T j: °C 32 150 °C V V GE = IC = R gon = 32 Ω R goff = 32 Ω 64 figure 3. FWD ±15 V 15 A 96 160 R g ( Ω) °C 150 °C T j: figure 4. FWD Typical reverse recovered energy loss as a f unct ion of collect or current Typical reverse recovered energy loss as a f unct ion of gat e resist or E rec = f(I c) E rec = f(r g ) 0,4 0,4 E (mWs) E ( mWs) 128 25 With an inductive load at 300 V V CE = Erec 0,3 0,3 Erec 0,2 0,2 Erec Erec 0,1 0,1 0 0 0 5 10 With an inductive load at 300 V V CE = 15 20 25 T j: 25 I C (A) 0 30 °C 32 With an inductive load at 300 V V CE = 150 °C V GE = ±15 V V GE = R gon = 32 Ω IC= Copyright Vincotech 64 8 ±15 V 15 A 96 128 25 T j: 160 r g (Ω) °C 150 °C 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Characteristics figure 5. IGBT figure 6. IGBT Typical swit ching t imes as a f unct ion of collect or current Typical switching t imes as a f unct ion of gat e resist or t = f(I C) t = f(r g) 1 t ( μs) t ( μ s) 1 td(off ) td(off ) tf tf 0,1 0,1 td(on) tr td(on) tr 0,01 0,01 0,001 0,001 0 5 10 15 20 25 30 0 I C (A) (A) With an inductive load at 150 °C Tj= 32 64 V CE = 300 V V CE = 300 V V GE = ±15 V V GE = ±15 V IC = 15 A R gon = 32 Ω R goff = 32 Ω 96 128 160 r g (Ω) With an inductive load at 150 °C Tj = figure 7. FWD figure 8. FWD Typical reverse recovery t ime as a f unct ion of collect or current Typical reverse recovery time as a f unct ion of IGBT t urn on gat e resist or t rr = f(I C) t rr = f(R gon) 0,4 t rr (μs) t rr (μs) 0,5 trr trr 0,4 0,3 trr 0,3 trr 0,2 0,2 0,1 0,1 0 0 0 5 10 15 20 25 30 0 I C (A) At 300 V V GE = ±15 V R gon = 32 Ω V CE= Copyright Vincotech 25 T j: 32 64 96 128 160 R g o n (Ω) °C At 150 °C V CE = V GE = IC= 9 300 V ±15 V 15 A 25 T j: °C 150 °C 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Characteristics figure 9. FWD figure 10. FWD Typical recovered charge as a f unct ion of collect or current Typical recoved charge as a f unction of IGBT turn on gat e resist or Q r = f(I C) Q r = f(R gon) 1,6 Q r (µC) Q r (μC) 2 Qr Qr 1,5 1,2 1 0,8 Qr Qr 0,5 0,4 0 At 0 0 5 10 15 20 25 30 0 32 64 96 128 I C (A) 300 V V GE = ±15 V R gon = 32 Ω V CE = At 25 T j: °C At VCE= 150 °C V GE = I C= figure 11. FWD 300 V ±15 V 15 A 25 T j: 150 °C figure 12. FWD Typical peak reverse recovery current current as a f unction of collector current Typical peak reverse recovery current as a f unct ion of IGBT t urn on gat e resistor I RM = f(I C) I RM = f(R gon) 20 160 R g on (Ω) °C I R M (A) I R M (A) 40 I RM 30 15 IRM 10 20 5 10 I RM IRM 0 0 0 At 5 10 300 V V GE = ±15 V R gon = 32 Ω V CE = Copyright Vincotech 15 20 25 T j: 25 I C (A) 0 30 32 64 96 128 160 R go n (Ω) °C At 150 °C V CE = V GE = IC= 10 300 V ±15 V 15 A 25 T j: °C 150 °C 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Characteristics figure 13. FWD figure 14. FWD Typical rat e of f all of f orward and reverse recovery current as a f unct ion of IGBT t urn on gate resist or di F/dt ,di rr/dt = f(I c) di F/dt ,di rr/dt = f(R g) 1600 d i /dt (A/ (A/µ µs) d i /dt (A/ (A/µs) s) Typical rat e of f all of f orward and reverse recovery current as a f unct ion of collect or current di F / dt dir r/dt 3000 di F / dt di r r/ dt 1200 2000 800 1000 400 0 0 0 5 10 15 20 25 0 30 32 64 96 128 I C (A) 300 V V GE = ±15 V R gon = 32 Ω At V CE = 25 T j: °C At 150 °C V CE = V GE = I C= figure 15. 300 V ±15 V 15 A 25 T j: 160 R g o n (Ω) °C 150 °C IGBT Reverse bias saf e operat ing area I C = f(V CE) I C (A) 35 I C MAX I c CHIP 30 25 MODULE 20 Ic 15 V CE MAX 10 5 0 0 100 200 300 400 500 600 700 V C E (V) At 175 °C R gon = 32 Ω R goff = 32 Ω Tj = Copyright Vincotech 11 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Definitions General conditions = 150 °C = 32 Ω Tj R gon = R goff figure 1. IGBT 32 Ω figure 2. Turn-of f Swit ching Wavef orms & def init ion of tdof f , tEof f (t Eof f = int egrating t ime f or Eof f ) IGBT Turn-on Swit ching Wavef orms & def init ion of t don, t Eon (tEon = int egrat ing t ime f or Eon) 250 125 tdoff % % 100 200 VGE 90% IC VCE 90% 75 150 VGE IC VCE 50 VGE 100 tEoff tdon 25 50 IC 1% VCE V GE 10% 0 VCE 3% IC 10% 0 tEon -25 0 0,1 0,2 0,3 0,4 0,5 -50 2,95 0,6 t (µs) 3,03 3,11 3,19 V GE (0%) = -15 V V GE (0%) = -15 V V GE (100%) = 15 V V GE (100%) = 15 V V C (100%) = 300 V V C (100%) = 300 V I C (100%) = 15 A I C (100%) = 15 A t doff = t Eoff = 0,155 0,447 µs µs t don = t Eon = 0,105 0,273 µs µs figure 3. IGBT 3,35 t (µs) figure 4. Turn-of f Swit ching Wavef orms & def init ion of tf IGBT Turn-on Swit ching Wavef orms & def init ion of t r 125 250 fitted % 3,27 % IC 100 200 IC 90% 75 150 IC 60% VCE 50 100 IC 40% tr 25 IC 90% 50 VCE IC10% 0 -25 0,12 IC tf 0,19 0,26 IC 10% 0 0,33 0,4 0,47 -50 3,09 0,54 t (µs) 3,102 3,114 3,126 3,138 3,162 3,174 t (µs) V C (100%) = 300 V V C (100%) = 300 V I C (100%) = 15 A I C (100%) = 15 A tf= 0,109 µs tr = 0,018 µs Copyright Vincotech 3,15 12 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Definitions figure 5. IGBT figure 6. Turn-of f Swit ching Wavef orms & def init ion of tEof f IGBT Turn-on Swit ching Wavef orms & def init ion of t Eon 125 200 % % IC 1% Pon 100 150 Poff 75 Eon 100 50 50 25 Eoff VCE 3% VGE 10% VGE 90% 0 0 tEoff tEon -50 2,96 -25 0 0,1 0,2 0,3 0,4 0,5 0,6 3,04 3,12 P off (100%) = 4,50 kW P on (100%) = 4,50 kW E off (100%) = 0,46 mJ E on (100%) = 0,38 mJ t Eoff = 0,45 µs t Eon = 0,27 µs figure 7. 3,2 3,28 t (µs) t (µs) FWD Turn-of f Swit ching Wavef orms & def inition of t rr 150 % Id 100 trr 50 fitted Vd 0 IRRM 10% -50 IRRM 90% IRRM 100% -100 -150 3,07 3,15 3,23 3,31 3,39 3,47 t (µs) V d (100%) = 300 V I d (100%) = 15 A I RRM (100%) = -16 A t rr = 0,272 µs Copyright Vincotech 13 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Inverter Switching Definitions figure 8. FWD figure 9. Turn-on Switching Waveforms & definition of tQrr (tQrr = integrating time for Qrr) FWD Turn-on Switching Waveforms & definition of tErec (tErec= integrating time for Erec) 125 150 % % Id Erec Qrr 100 100 tQrr 50 tErec 75 0 50 Prec -50 25 -100 0 -150 3 3,2 3,4 3,6 -25 3,8 3 t (µs) 3,2 3,4 3,8 t (µs) I d (100%) = 15 A P rec (100%) = 4,50 kW Q rr (100%) = 1,45 µC E rec (100%) = 0,31 mJ t Qrr = 0,55 µs t Erec = 0,55 µs Copyright Vincotech 3,6 14 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Ordering Code & Marking Version without thermal paste with Solder pins 17mm housing NN-NNNNNNNNNN NNNN-TTTTTTTVV Vinco LLLLL WWYY SSSS UL Ordering Code 10-0B066PA015SB-M994F09 Text Datamatrix Name Type&Ver Date code Vinco&Lot Serial&UL NN-NNNNNNNNNNNNNN TTTTTTTVV WWYY Vinco LLLLL SSSS UL Type&Ver Lot number Serial Date code TTTTTTTVV LLLLL SSSS WWYY Outline Pin table [mm] Pin X Y Function 1 27,8 0 G6 2 24,9 0 E6 3 19,1 0 G5 4 16,2 0 E5 5 11,6 0 NTC2 6 7,6 0 NTC1 7 2,9 0 E4 8 0 0 G4 9 0 13,7 U 10 2,9 13,7 G1 11 12 8,8 14,6 13,7 13,7 DC+ V 13 17,5 13,7 G2 14 15 24,9 27,8 13,7 13,7 G3 W Copyright Vincotech 15 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Pinout Identification ID Component Voltage Current Function T1-T6 IGBT 600 V 15 A Inverter Switch D1-D6 FWD 600 V 15 A Inverter Diode NTC NTC Copyright Vincotech Comment Thermistor 16 05 Feb. 2016 / Revision 2 10-0B066PA015SB-M994F09 datasheet Packaging instruction Standard packaging quantity (SPQ) 200 >SPQ Standard <SPQ Sample Handling instruction Handling instructions for flow 0 B packages see vincotech.com website. Package data Package data for flow 0 B packages see vincotech.com website. Document No.: Date: 10-0B066PA015SB-M994F09-D2-14 05 Feb. 2016 Modification: Pages DISCLAIMER The information, specifications, procedures, methods and recommendations herein (together “information”) are presented by Vincotech to reader in good faith, are believed to be accurate and reliable, but may well be incomplete and/or not applicable to all conditions or situations that may exist or occur. Vincotech reserves the right to make any changes without further notice to any products to improve reliability, function or design. No representation, guarantee or warranty is made to reader as to the accuracy, reliability or completeness of said information or that the application or use of any of the same will avoid hazards, accidents, losses, damages or injury of any kind to persons or property or that the same will not infringe third parties rights or give desired results. It is reader’s sole responsibility to test and determine the suitability of the information and the product for reader’s intended use. LIFE SUPPORT POLICY Vincotech products are not authorised for use as critical components in life support devices or systems without the express written approval of Vincotech. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in labelling can be reasonably expected to result in significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. Copyright Vincotech 17 05 Feb. 2016 / Revision 2