EVALSTDRIVE601

EVALSTDRIVE601 Data brief Demonstration board for STDRIVE601 triple gate driver Features • • • High voltage rail up to 600V Driver supply input voltage range 9V-20V STGD6M65DF2 IGBTs power stage featuring: – V(BR)CES = 650 V – • • • • • • • • Product status link EVALSTDRIVE601 VCE(sat) = 1.55 V @ IC = 6 A Dual footprint for IGBT/MOSFET package: – DPAK – PowerFlat 8x8 Selectable single or 3-shunt current sensing topology: – Sensored or sensorless BEMF detection – FOC or 6-Step algorithm SmartShutdown overcurrent protection Hall effect sensors connector Bus voltage sensing 450V bulk capacitor Connector for interfacing with MCU RoHS compliant Application • • • • • • Three-phase motor drives Fans Pumps Refrigerator compressors Industrial inverters Appliances Description The EVALSTDRIVE601 demonstration board is a complete 3-phase inverter which allows evaluating all of the STDRIVE601 features. The power stage features STGD6M65DF2 IGBTs, but can be populated with any IGBT or power MOSFET in DPAK or powerFLAT 8x8 HV package. The board is designed to support a three shunt or a single shunt current sensing topology. A strip connector allows an easy interfacing with MCU control. The STDRIVE601 is a 600V gate driver device manufactured with BCD6s offline technology. It is a single-chip with three half-bridge gate drivers for N-channel power MOSFETs or IGBTs suitable for 3-phase applications.The device integrates three bootstrap diodes and a smart shutdown feature able to detect very fast overcurrent condition, minimizing the propagation delay between the overcurrent event and the output switch-off. DB3896 - Rev 1 - May 2019 For further information contact your local STMicroelectronics sales office. www.st.com N.M. R63 R14 47k OD 7 R61 - + 6 5 10k 0R TS V912IQ2T U2B R62 LIN1 LIN2 LIN3 HIN1 HIN2 HIN3 VCC D4 D3 R60 4k7 8 9 10 11 12 13 5 6 7 2 3 4 1 TP 29 N.M. N.M. FAULT CIN EN OD S GND P GND LIN1 LIN2 LIN3 HIN1 HIN2 HIN3 VCC S ENS E1_REF S ENS E2_REF R24 R22 R20 1k 1k 1k LVG3 BOOT3 HVG3 OUT3 LVG2 BOOT2 HVG2 OUT2 LVG1 BOOT1 HVG1 OUT1 U1 S TDRIVE601D BOOT3 BOOT2 S ENS E3_REF C35 33pF/25V ENABLE FAULT 27R R8 27R R5 TP 13 CIN CIN C10 47nF/25V TP 14 VCC C3 220nF/25V TRIPLE SHUNT (default) Overcurrent 5.5A VDD=3V3 C11 1nF/25V CIN R18 10k VDD C2 220nF/25V BOOT1 S ENS E3 N.M. 14 20 19 18 15 24 23 22 16 28 27 26 TP 11 BOOT3 TP 16 BOOT2 OP EN JP2 TP 15 TP 10 0R R6 BOOT1 TP 7 TP 8 SGND TP 30 R58 220m/ 2W/ 1% D2 S ENS E2 27R 470nF/50V PGND OP EN JP3 C8 470nF/50V C6 470nF/50V C5 TP 3 R57 220m/ 2W/ 1% R2 S ENS E1 VCC R30 220m/ 2W/ 1% S ENS E3 R26 10R R25 R21 10R R19 S ENS E2 R16 10R R15 R12 10R R11 S ENS E1 R9 10R R7 R3 10R R1 D5 D6 D7 D8 D9 100R BAT54J 100R BAT54J 100R BAT54J 100R BAT54J 100R BAT54J 100R BAT54J D1 R27 100k GL3 R23 100k GH3 R17 100k GL2 R13 100k GH2 R10 100k GL1 R4 100k GH1 C13 N.M. C12 N.M. TP 21 TP 19 C9 N.M. TP 17 C7 N.M. TP 9 C4 N.M. TP 5 C1 N.M. TP 1 1 1 1 1 1 1 2 HV 3 2 3 2 2 TP 22 3 Q6 2 TP 20 3 Q5 3 2 HV TP 18 Q4 TP 12 3 Q3 TP 6 Q2 TP 4 Q1 HV S TGD6M65DF2 S TGD6M65DF2 S TGD6M65DF2 S TGD6M65DF2 DB3896 - Rev 1 S TGD6M65DF2 OUT3 OUT2 OUT1 1 S TGD6M65DF2 VCC EVALSTDRIVE601 Schematic diagram Schematic diagram Figure 1. EVALSTDRIVE601 schematic – Driver output stages page 2/10 J2 A+/H1 B+/H2 Z+/H3 Udd GND J6 VDD 1 2 3 4 5 S ENS E1_REF S ENS E1 S ENS E3_REF S ENS E3 2 1 1 2 3 OUT1 OUT2 OUT3 1k8 4 R85 R75 1k8 VCC 0R R76 C29 33pF/25V R54 VDD J P 21 CLOS ED 2-4 2 R77 1k8 R51 1k8 R70 20k 1k8 N.M. 33nF/630V C16 4 - C50 100nF/25V E5V 1 1 R78 10k 2.2pF/25V 10k 4 8 S ENS E2_REF HALL power C39 10pF/25V D23 BAT54J ENC_HALL_C TS V912IQ2T U2A VCC_E VDD_E SGND 1 2 3 J P 17 CLOS ED R84 N.M. R79 10k VDD OP EN JP4 TP 32 R69 20k VDD + R47 7 N.M. C51 D22 BAT54J JP1 CLOS ED J5 VDD 1 2 3 4 5 6 7 8 9 10 11 12 13 S ENS E_OUT1 S ENS E_OUT2 C40 10pF/25V ENC_HALL_A VDD FAULT P ha s e U_H P ha s e U_L P ha s e V_H P ha s e V_L P ha s e W _H P ha s e W _L S ENS E_1 S ENS E_2 S ENS E_3 J4 N.M. C23A 1K R72 1K R73 1K R74 DEFAULT D21 BAT54J S ENS E_3 1 FAULT 3 PWM_HIN1 5 PWM_LIN1 7 PWM_HIN2 9 PWM_LIN2 11 PWM_HIN3 13 PWM_LIN3 15 SENSE_1 17 SENSE_2 19 SENSE_3 21 GPIO_BEMF 23 ENABLE 25 E5V 27 CP OUT CURRENT_REF 29 31 HALL_BEMF_A 33 HALL_BEMF_B C36 N.M. S ENS E_1 C37 N.M. S ENS E_2 C38 N.M. 2 3 2 ENC_HALL_B 2 3 ENC_HALL_A HALL_BEMF_A 3 ENABLE FAULT C22 33pF/25V TP 28 C20 33pF/25V TP 27 C19 33pF/25V TP 26 C18 33pF/25V TP 25 C17 33pF/25V TP 24 C14 33pF/25V TP 23 ENC_HALL_C HALL_BEMF_B J P 18 CLOS ED 1-2 BEMF_A 1 1k HALL_BEMF_C 1k R40 R39 47k J P 19 CLOS ED 1-2 BEMF_B 1 1k P ha s e W _L R37 VDD J P 20 CLOS ED 1-2 BEMF_C 1 R38 47k 1k R34 1k R33 1k R32 1k R31 P ha s e W _H R35 P ha s e V_L P ha s e V_H P ha s e U_L P ha s e U_H C24 33pF/25V CONFIGURATION F.O.C. 3 shunt VCC=15 JP3 closed (VDD=3V3) 4u7F/25V + C23 VDD MOTOR CONN. 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 S ENS E_OUT3 HALL_BEMF_C VDD 47nF/25V C32 VBUS S ENS E_OUT2 R82 N.M. VBUS _fdbk D11 BAT54J R80 10k VDD C28 2.2pF/25V 10k 1K8 C21 D10 10uF/25V BZT52C3V3 R36 TS V912IQ2T - + U3B ENC_HALL_B HV C41 10pF/25V R67 1k R66 6.49k R65 470k TP 31 R64 470k 1k8 6 5 VCC 3R3 C21A N.M. R71 3R3 R46 R50 20k R59 VDD 33pF/25V C27 R49 1k8 J3 VCC_E min 9V max 20V VDD_E 3V3 S ENS E2 S ENS E_OUT1 C31 100nF/25V TS V912IQ2T U3A S ENS E_OUT3 C33 100nF/25V 2.2pF/25V 10k VDD + C30 R52 2 3 C26 R42 - + R83 N.M. C42 100nF/25V 1k8 2 3 8 VDD HIGH VOLTAGE SECTION C15 68uF/450V HV C34 R68 20k R55 20k R41 R45 20k 1k8 VDD D.N.M. C25 33pF/25V R44 6step R45,R50,R55 OUT1 OUT2 OUT3 PGND HV 1 DB3896 - Rev 1 3 J1 OUT1 OUT3 OUT2 LIN3 HIN3 LIN2 HIN2 LIN1 HIN1 CURRENT_REF R96 R92 R86 0R 33k 1k D19 180k BAT54J BAT54J D15 DA2J F8100L D26 R98 GP IO_BEMF R97 180k 180k BAT54J D20 DA2J F8100L D25 R94 GP IO_BEMF 1k 180k V- V+ R99 3.3k R95 3.3k R91 3.3k C49 100nF/25V - + TS 3021ILT U4 0R DA2J F8100L D24 R88 GP IO_BEMF 180k R93 R112 R115 10M 1k R114 180k R87 R117 S ENS E_OUT2 VDD R113 VDD D18 BAT54J C46 4.7pF/50V BEMF_C VDD C45 4.7pF/50V D17 BAT54J BEMF_B VDD BEMF_A D16 BAT54J CP OUT C48 4.7uF/10V C44 4.7pF/50V 0R C47 100nF/25V EVALSTDRIVE601 Schematic diagram Figure 2. EVALSTDRIVE601 schematic – feedback network page 3/10 EVALSTDRIVE601 Bill of material 2 Bill of material Table 1. Bill of material – components common to all device variants Reference DB3896 - Rev 1 Part Value Part Description Package C1,C4,C7,C9,C12,C13,C36,C37,C38,C51 N.M. SMT ceramic capacitor Size 0603 C2,C3 220nF/25V SMT ceramic capacitor Size 0603 C5,C6,C8 470nF/50V SMT ceramic capacitor Size 0805 C10,C32 47nF/25V SMT ceramic capacitor Size 0603 C11 1nF/25V SMT ceramic capacitor Size 0603 C14,C17,C18,C19,C20,C22,C24,C25,C27,C2 33pF/25V 9,C35 SMT ceramic capacitor Size 0603 C15 N.M. Film capacitor 4x13 mm, Pitch 10 mm C16 33nF/630V SMT multilayer capacitor Size 1210 C21A N.M. SMT ceramic capacitor Size 1206 C21 10uF/25V SMD aluminum elect. capacitor Size C C23A N.M. SMT ceramic capacitor Size 0805 C23 4u7F/25V SMD auminum elect. capacitor Dim. 3.3x3.3 mm C26,C28,C30 2.2pF/25V SMT ceramic capacitor Size 0603 C31,C33,C42,C47,C49,C50 100nF/25V SMT ceramic capacitor Size 0603 C34 68uF/450V THT electrolytic capacitor, radial p7.5 d18h25 Diam. 18 mm, pitch 7.5 mm C39,C40,C41 10pF/25V SMT ceramic capacitor Size 0603 C44,C45,C46 4.7pF/50V SMT ceramic capacitor Size 0603 C48 4.7uF/10V SMT ceramic capacitor Size 0805 D1,D5,D6,D7,D8,D9,D11,D15,D16,D17,D18, D19,D20,D21,D22,D23 BAT54J 40V, 300mA small signal Schottky SMT Diode SOD-323 D2,D3,D4 N.M. Turbo 2 ultrafast high-voltage rectifier SMA D10 BZT52C3V3 Zener diode 3.3 V SOD-123 D24,D25,D26 DA2JF8100L 800V fast recovery diode SC-90A (SMini2-F5B) JP1,JP17 CLOSED SMT jumper Soldering pad JP2,JP3 OPEN SMT jumper Size 0805 JP4 OPEN SMT jumper Soldering pad JP18,JP19,JP20 CLOSED 1-2 SMT jumper Soldering pad JP21 CLOSED 2-4 SMT jumper Soldering pads J1 MORSV-508-2P_scre w Connector terminal block T.H. 2 positions 5.08 mm Pitch 5.08 mm J2 MORSV-508-3P_scre w Terminal block T.H. 3 positions, 5.08 mm Pitch 5.08 mm J3 MORSV-350-3P_scre w Terminal block T.H. 3 positions, 3.5 mm Pitch 3.5 mm page 4/10 EVALSTDRIVE601 Bill of material Reference Part Value Package J4 MOTOR CONN. Header Vertical Connector 2x17 poles, pitch 2.54 mm 2x17 pins J5 STRIP 1x13 Strip connector 13 pos, 2.54 mm 1x13 pins J6 STRIP 1x5 Strip connector 5 pos, 2.54 mm 1x5 pins STGD6M65DF2 Trench gate field-stop IGBT, M series 650V, 6A low loss DPAK Alternative P.N D.N.M. equivalent PowerFLAT 8x8 R1,R7,R11,R15,R19,R25 10R SMT resistor Size 0805 R2,R5,R8 27R SMT resistor Size 0805 R3,R9,R12,R16,R21,R26 100R SMT resistor Size 0805 R4,R10,R13,R17,R23,R27 100k SMT resistor Size 0603 R6,R62,R85,R112,R113,R117 0R SMT resistor Size 0603 R14,R38,R39 47k SMT resistor Size 0603 R18,R42,R47,R52,R61,R78,R79,R80 10k SMT resistor Size 0603 R20,R22,R24,R31,R32,R33,R34,R35,R37,R4 1K 0,R72,R73,R74 SMT resistor Size 0603 R30,R57,R58 220m/ 2W/ 1% SMT resistor Size 1210/2512 R36 1K8 SMT resistor Size 1206 R41,R44,R46,R49,R51,R54,R75,R76,R77 1k8 SMT resistor Size 0603 R45,R50,R55,R68,R69,R70 20k SMT resistor Size 0603 R59,R71 3R3 SMT resistor Size 0603 R60 4k7 SMT resistor Size 0603 R63,R82,R83,R84 N.M. SMT resistor Size 0603 R64,R65 470k SMT resistor Size 1206 R66 6.49k SMT resistor Size 0805 R67,R87,R93,R97 1k SMT resistor Size 0805 R86,R88,R92,R94,R96,R98 180k SMT resistor Size 1206 R91,R95,R99 3.3k SMT resistor Size 0603 R114 33k SMT resistor Size 0603 R115 10M SMT resistor Size 0603 TP for probe Diam. 1.27, Hole 0.8mm Q1,Q2,Q3,Q4,Q5,Q6 TP1,TP3,TP4,TP5,TP6,TP7,TP8,TP9,TP10,T P11,TP12,TP13,TP14,TP15,TP16,TP17,TP18 ,TP19,TP20,TP21,TP22,TP23,TP24,TP25,TP 26,TP27,TP28,TP31,TP32 DB3896 - Rev 1 Part Description TP29 TP-ANELLO_1mmROSSO Red bead terminal, diam. 1.02mm Diam. 2,54 , Hole 1mm TP30 TP-ANELLO_1mmNERO Black bead terminal, diam. 1.02mm Diam. 2,54 , Hole 1mm U2,U3 TSV912IQ2T Dual rail-to rail input/output 8 MHz operational amplifiers DFN8 2x2 page 5/10 EVALSTDRIVE601 Layout and component placements 3 Layout and component placements Figure 3. EVALSTDRIVE601 – layout (component placement top view) DB3896 - Rev 1 page 6/10 EVALSTDRIVE601 Layout and component placements Figure 4. EVALSTDRIVE601 – layout (top layer) DB3896 - Rev 1 page 7/10 EVALSTDRIVE601 Layout and component placements Figure 5. EVALSTDRIVE601 – layout (bottom layer) DB3896 - Rev 1 page 8/10 EVALSTDRIVE601 Revision history Table 2. Document revision history DB3896 - Rev 1 Date Version 29-May-2019 1 Changes Initial release. page 9/10 EVALSTDRIVE601 IMPORTANT NOTICE – PLEASE READ CAREFULLY STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers’ products. No license, express or implied, to any intellectual property right is granted by ST herein. Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product. ST and the ST logo are trademarks of ST. For additional information about ST trademarks, please refer to www.st.com/trademarks. All other product or service names are the property of their respective owners. Information in this document supersedes and replaces information previously supplied in any prior versions of this document. © 2019 STMicroelectronics – All rights reserved DB3896 - Rev 1 page 10/10