MCU Datasheet Inverter for motor control 600V IGBT Intelligent Power Module (IPM) for low speed switching drive BM63364S-VA BM63364S-VC General Description Key Specifications BM63364S-VA/-VC is an Intelligent Power Module IGBT Collector-Emitter Voltage V : 1.5V(Typ) CESAT composed of gate drivers, bootstrap diodes, IGBTs, fly FWD Forward Voltage VF: 1.5V(Typ) wheel diodes. Low saturation voltage IGBTs optimized FWD Reverse Recovery Time trr: 100ns(Typ) for low speed switching drive (to 6kHz) such as a Module Case Temperature T : -25 to +100C C compressor is adopted. Please examine high speed Junction Temperature Tjmax: 150C switching series for high speed switching drive. Features Package W(Typ) x D(Typ) x H(Typ) 3phase DC/AC Inverter HSDIP25 38.0mm x 24.0mm x 3.5mm 600V/15A HSDIP25VC 38.0mm x 24.0mm x 3.5mm Low Side IGBT Open Emitter Built -in Bootstrap Diode High Side IGBT Gate Driver(HVIC): SOI (Silicon On Insulator) Process, Drive Circuit, High Voltage Level Shifting, Current Limit for Bootstrap Diode, Control Supply Under-Voltage Locked Out (UVLO) Low Side IGBT Gate Driver(LVIC): Drive Circuit, Short Circuit Current Protection (SCP), Control Supply Under Voltage Locked Out (UVLO), Thermal Shutdown (TSD) Fault Signal(LVIC) Corresponding to SCP (Low Side IGBT), TSD, UVLO Fault Input Interface 3.3V, 5V Line HSDIP25 UL Recognized: File E468261 Application Low Speed Switching Drive of AC100 to 240Vrms(DC Voltage: Less Than 400V) Class Motor Low Speed Switching Drive of Compressor Motor for Air Conditioner, Washing Machine, Refrigerator Typical Application Circuit 2 VBU + 3 VBV + 24 P 4 VBW + 23 U 5 HINU HINV 22 6 V M HINW 7 + 21 W 8 HVCC 9 GND 20 NU 10 LINU 11 LINV 12 LINW 5V 13 LVCC NV 19 14 FO + 15V 15 CIN 18 NW 16 GND Figure 1. Example of Application Circuit Product structure: Semiconductor IC This product is not designed for protection against radioactive rays . www.rohm.com TSZ02201-0747AB500060-1-2 2014 ROHM Co., Ltd. All rights reserved. 1/20 TSZ2211114001 30.Oct.2017 Rev.007 BM63364S-VA BM63364S-VC Pin Configuration TOP VIEW 17 18 NC 18 NW GND 19 NV CIN 20 NU FO 12.6mm LVCC LINW 21 W 9.2mm LINV LINU GND 22 V HVCC Tc detecting point HINW HINV 23 U HINU VBW 24 P VBV VBU 25 NC NC 1 25 Figure 2. Pin Configuration and Tc Detecting Point Pin Description Pin No. Pin Name Function Pin No. Pin Name Function 1 NC No connection(GND potential) 14 FO Alarm output Detecting of short circuit current 2 VBU U phase floating control supply 15 CIN trip voltage (Note 1) 3 16 VBV V phase floating control supply GND Ground (Note 2) 4 VBW W phase floating control supply 17 NC No connection 5 HINU U phase high side IGBT control 18 NW W phase low side IGBT emitter 6 HINV V phase high side IGBT control 19 NV V phase low side IGBT emitter 7 HINW W phase high side IGBT control 20 NU U phase low side IGBT emitter 8 21 HVCC Control supply for HVIC W W phase output (Note 1) 9 GND Ground 22 V V phase output 10 LINU U phase low side IGBT control 23 U U phase output 11 LINV V phase low side IGBT control 24 P Inverter supply (Note 2) 12 LINW W phase low side IGBT control 25 NC No connection 13 LVCC Control supply for LVIC (Note 1) Two GND pins (9 & 16pin) are connected inside IPM, please connect one pin (16pin is recommended) to the 15V power supply GND outside and leave the other open. (Note 2) NC pins (17 & 25pin) are not electrically connected to any other potential inside. www.rohm.com TSZ02201-0747AB500060-1-2 2014 ROHM Co., Ltd. All rights reserved. 2/20 TSZ2211115001 30.Oct.2017 Rev.007