SKiiP 23ACC12T4V10 Absolute Maximum Ratings Symbol Conditions Values Unit IGBT 1 - 6 MiniSKiiP® 2 Twin 6-pack VCES Tj = 25 °C 1200 V IC λpaste=0.8 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 28 A 23 A IC λpaste=2.5 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 31 A ICnom ICRM ICRM = 3 x ICnom VGES VCC = 800 V VGE ≤ 15 V VCES ≤ 1200 V tpsc SKiiP 23ACC12T4V10 Features • Trench 4 IGBTs • Robust and soft freewheeling diodes in CAL technology • Highly reliable spring contacts for electrical connections • UL recognised: File no. E63532 Typical Applications* Tj A A 45 A -20 ... 20 V 10 µs -40 ... 175 °C 1200 V IGBT 7 - 12 VCES Tj = 25 °C IC λpaste=0.8 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 41 A 34 A λpaste=2.5 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 45 A 37 A 25 A 75 A -20 ... 20 V 10 µs -40 ... 175 °C IC ICnom ICRM ICRM = 3 x ICnom VGES • 4Q inverters tpsc Remarks Tj • Max. case temperature limited to TC=125°C • Product reliability results valid for Tj≤150°C (recommended Tj,op=-40...+150°C) • Terminal distances sufficient for basic insulation in 3-phase 480VAC TN systems • DC-link voltage VDC≤800V • Temperature sensor: no basic insulation to main circuit, signal processing with reference to –DC potential • Please refer to MiniSKiiP “Technical Explanations” and “Mounting Instructions” for further information Tj = 150 °C 26 15 VCC = 800 V VGE ≤ 15 V VCES ≤ 1200 V Tj = 150 °C Diode 1 - 6 VRRM Tj = 25 °C 1200 V IF λpaste=0.8 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 23 A 19 A IF λpaste=2.5 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 25 A IFnom 20 A 15 A IFRM IFRM = 3xIFnom 45 A IFSM 10 ms, sin 180°, Tj = 150 °C 65 A -40 ... 175 °C Tj Diode 7 - 12 VRRM Tj = 25 °C 1200 V IF λpaste=0.8 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 32 A 26 A λpaste=2.5 W/(mK) Ts = 25 °C Tj = 175 °C Ts = 70 °C 35 A IF IFnom IFRM IFRM = 3 x IFnom IFSM 10 ms, sin 180°, Tj = 150 °C Tj 28 A 25 A 75 A 100 A -40 ... 175 °C Module It(RMS) 20 A per spring Tstg Visol AC sinus 50 Hz, 1 min 40 A -40 ... 125 °C 2500 V ACC © by SEMIKRON Rev. 4.0 – 20.11.2015 1 SKiiP 23ACC12T4V10 Characteristics Symbol Conditions IGBT 1 - 6 VCE(sat) VCE0 MiniSKiiP® 2 Twin 6-pack chiplevel typ. max. Unit Tj = 25 °C 1.85 2.10 V Tj = 150 °C 2.25 2.45 V Tj = 25 °C 0.80 0.90 V Tj = 150 °C 0.70 0.80 V Tj = 25 °C 70 80 mΩ 103 110 mΩ 5.8 6.5 V Tj = 25 °C 0.1 0.3 mA f = 1 MHz 0.90 nF f = 1 MHz 0.08 nF f = 1 MHz rCE VGE = 15 V chiplevel VGE(th) VGE = VCE V, IC = 1 mA ICES VGE = 0 V VCE = 1200 V Cies SKiiP 23ACC12T4V10 IC = 15 A VGE = 15 V chiplevel min. Coes Cres VCE = 25 V VGE = 0 V Tj = 150 °C mA 0.06 nF QG VGE = - 8 V...+ 15 V 85 nC RGint 0.0 Ω 78 ns • 4Q inverters Rth(j-s) Tj = 25 °C VCC = 600 V Tj = 150 °C IC = 15 A Tj = 150 °C RG on = 39 Ω Tj = 150 °C RG off = 39 Ω di/dton = 200 A/µs Tj = 150 °C di/dtoff = 189 A/µs Tj = 150 °C du/dt = 3600 V/µs VGE = +15/-15 V Tj = 150 °C Ls = 22 nH per IGBT, λpaste=0.8 W/(mK) Remarks Rth(j-s) per IGBT, λpaste=2.5 W/(mK) Features • Trench 4 IGBTs • Robust and soft freewheeling diodes in CAL technology • Highly reliable spring contacts for electrical connections • UL recognised: File no. E63532 Typical Applications* • Max. case temperature limited to TC=125°C • Product reliability results valid for Tj≤150°C (recommended Tj,op=-40...+150°C) • Terminal distances sufficient for basic insulation in 3-phase 480VAC TN systems • DC-link voltage VDC≤800V • Temperature sensor: no basic insulation to main circuit, signal processing with reference to –DC potential • Please refer to MiniSKiiP “Technical Explanations” and “Mounting Instructions” for further information 5 td(on) tr Eon td(off) tf Eoff IGBT 7 - 12 IC = 25 A VCE(sat) VGE = 15 V chiplevel VCE0 chiplevel rCE VGE(th) ICES Cies Coes Cres VGE = 15 V chiplevel VCE = 25 V VGE = 0 V ns mJ 340 ns 67 ns 1.64 mJ 1.3 K/W 1.1 K/W Tj = 25 °C 1.85 2.10 V Tj = 150 °C 2.25 2.45 V Tj = 25 °C 0.80 0.90 V Tj = 150 °C 0.70 0.80 V Tj = 25 °C 42 48 mΩ Tj = 150 °C 62 66 mΩ 5.8 6.5 V Tj = 25 °C 0.1 0.3 mA - mA f = 1 MHz 1.43 nF f = 1 MHz 0.12 nF f = 1 MHz 0.09 nF 142 nC VGE = VCE V, IC = 1 mA VGE = 0 V VCE = 1200 V 64 1.89 5 QG VGE = - 8 V...+ 15 V RGint 400 ns 61 ns 2.7 mJ Rth(j-s) Tj = 25 °C VCC = 600 V Tj = 150 °C IC = 25 A Tj = 150 °C RG on = 39 Ω Tj = 150 °C RG off = 39 Ω di/dton = 325 A/µs Tj = 150 °C di/dtoff = 330 A/µs Tj = 150 °C du/dt = 3500 V/µs VGE = +15/-15 V Tj = 150 °C Ls = 22 nH per IGBT, λpaste=0.8 W/(mK) 1 K/W Rth(j-s) per IGBT, λpaste=2.5 W/(mK) 0.84 K/W td(on) tr Eon td(off) tf Eoff 0 Ω 87 ns 61 ns 3.5 mJ ACC 2 Rev. 4.0 – 20.11.2015 © by SEMIKRON SKiiP 23ACC12T4V10 Characteristics Symbol Conditions Diode 1 - 6 VF = VEC VF0 rF MiniSKiiP® 2 Features 2.38 2.71 V Tj = 150 °C 2.44 2.77 V Tj = 25 °C 1.30 1.50 V Tj = 150 °C 0.90 1.10 V Tj = 25 °C 72 81 mΩ 103 111 mΩ µC Rth(j-s) 1.92 K/W Rth(j-s) per Diode, λpaste=2.5 W/(mK) 1.7 K/W Diode 7 - 12 VF = VEC IF = 25 A VGE = 0 V chiplevel VF0 chiplevel Typical Applications* Qrr • Max. case temperature limited to TC=125°C • Product reliability results valid for Tj≤150°C (recommended Tj,op=-40...+150°C) • Terminal distances sufficient for basic insulation in 3-phase 480VAC TN systems • DC-link voltage VDC≤800V • Temperature sensor: no basic insulation to main circuit, signal processing with reference to –DC potential • Please refer to MiniSKiiP “Technical Explanations” and “Mounting Instructions” for further information Tj = 25 °C mJ IRRM Remarks Unit 2.2 • Trench 4 IGBTs • Robust and soft freewheeling diodes in CAL technology • Highly reliable spring contacts for electrical connections • UL recognised: File no. E63532 • 4Q inverters chiplevel max. 0.72 Err SKiiP 23ACC12T4V10 chiplevel typ. Tj = 150 °C IF = 15 A Tj = 150 °C di/dtoff = 260 A/µs T = 150 °C j VGE = -15 V T j = 150 °C VCC = 600 V per Diode, λpaste=0.8 W/(mK) IRRM Qrr Twin 6-pack IF = 15 A VGE = 0 V chiplevel min. rF chiplevel 10.7 A Tj = 25 °C 2.41 2.74 V Tj = 150 °C 2.45 2.79 V Tj = 25 °C 1.30 1.50 V Tj = 150 °C 0.90 1.10 V Tj = 25 °C 44 50 mΩ 62 68 mΩ 1.15 mJ Rth(j-s) Tj = 150 °C IF = 25 A Tj = 150 °C di/dtoff = 320 A/µs T = 150 °C j VGE = -15 V Tj = 150 °C VCC = 600 V per Diode, λpaste=0.8 W/(mK) 1.52 K/W Rth(j-s) per Diode, λpaste=2.5 W/(mK) 1.3 K/W Err 13.8 A 3.3 µC Module 30 LCE Ms to heat sink w 2 nH 2.5 Nm 55 g 1670 ± 3% Ω Temperature Sensor R100 Tr=100°C (R25=1000Ω) R(T) R(T)=1000Ω[1+A(T-25°C)+B(T-25°C)2 ], A = 7.635*10-3 °C-1, B = 1.731*10-5 °C-2 ACC © by SEMIKRON Rev. 4.0 – 20.11.2015 3 SKiiP 23ACC12T4V10 IGBT 1-6 - Fig. 1: Typ. output characteristic IGBT 1-6 - Fig. 2: Typ. rated current vs. temperature IC = f(TS) IGBT 1-6 - Fig. 3: Typ. turn-on /-off energy = f(IC) IGBT 1-6 - Fig. 4: Typ. turn-on /-off energy = f(RG) IGBT 1-6 - Fig. 5: Typ. transfer characteristic IGBT 1-6 - Fig. 6: Typ. gate charge characteristic 4 Rev. 4.0 – 20.11.2015 © by SEMIKRON SKiiP 23ACC12T4V10 IGBT 1-6 - Fig. 7: Typ. switching times vs. IC IGBT 1-6 - Fig. 8: Typ. switching times vs. gate resistor RG IGBT 1-6 - Fig. 9: Transient thermal impedance of IGBT and Diode IGBT 1-6 - Fig. 10: CAL diode forward characteristic IGBT 1-6 - Fig. 11: Typ. CAL diode peak reverse recovery current IGBT 1-6 - Fig. 12: Typ. CAL diode recovery charge © by SEMIKRON Rev. 4.0 – 20.11.2015 5 SKiiP 23ACC12T4V10 IGBT 7-12 - Fig. 1: Typ. output characteristic IGBT 7-12 - Fig. 2: Typ. rated current vs. temperature IC = f(TS) IGBT 7-12 - Fig. 3: Typ. turn-on /-off energy = f(IC) IGBT 7-12 - Fig. 4: Typ. turn-on / -off energy = f(RG) IGBT 7-12 - Fig. 5: Typ. transfer characteristic IGBT 7-12 - Fig. 6: Typ. gate charge characteristic 6 Rev. 4.0 – 20.11.2015 © by SEMIKRON SKiiP 23ACC12T4V10 IGBT 7-12 - Fig. 7: Typ. switching times vs. IC IGBT 7-12 - Fig. 8: Typ. switching times vs. gate resistor RG IGBT 7-12 - Fig. 9: Transient thermal impedance of IGBT and Diode IGBT 7-12 - Fig. 10: CAL diode forward characteristic IGBT 7-12 - Fig. 11: Typ. CAL diode peak reverse recovery current IGBT 7-12 - Fig. 12: Typ. CAL diode recovery charge © by SEMIKRON Rev. 4.0 – 20.11.2015 7 SKiiP 23ACC12T4V10 pinout, dimensions pinout 8 Rev. 4.0 – 20.11.2015 © by SEMIKRON SKiiP 23ACC12T4V10 This is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, chapter IX. *IMPORTANT INFORMATION AND WARNINGS The specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes. © by SEMIKRON Rev. 4.0 – 20.11.2015 9