Data brief - EVSPIN32F0601S3 - 3-phase inverter based on ...Data brief DB3935 - Rev 1 - October 2019...

Features• Input voltage from 50 V to 280 V DC/AC• STGD6M65DF2 IGBTs power stage featuring:

– V(BR)CES = 650 V– VCE(sat) = 1.55 V @ IC = 6 A

• Overcurrent threshold set to 4.5 Apeak

• Dual footprint for IGBT/MOSFET package:– DPAK– PowerFlat 8x8 HV

• 3-shunt current sensing, suitable for: sensored or sensorless vector control -FOC algorithm with 3-shunt sensing

• Smart shutdown overcurrent protection• Digital Hall sensors and encoder input• Bus voltage sensing• 15 V VCC and 3.3 V VDD supplies• Embedded ST-LINK/V2-1• Easy user interface with buttons and trimmer• RoHS compliant

Applications• Home and Industrial refrigerators compressors• Industrial drives, pumps, fans• Air conditioning compressors & fans• Corded power tools, garden tools• Home appliances• Industrial automation

DescriptionThe EVSPIN32F0601S3 board is a 3-phase complete inverter based on theSTSPIN32F0601 controller, which embeds a 3‑phase 600 V gate driver and aCortex®‑M0 STM32 MCU. The power stage features STGD6M65DF2 IGBTs, but canbe populated with any IGBT or Power MOSFET in DPAK or powerFLAT 8x8 HVpackage.

The board has a three-shunt sensing topology, and the field-oriented control (FOC),either sensored or sensorless, can be implemented. This makes it especially suitedto drive permanent magnet synchronous motors (PMSMs).

The evaluation board is compatible with a wide range input voltage from 50 V to 280V DC/AC, and includes a power supply stage with the VIPER06XS in flybackconfiguration to generate +15 V and +3.3 V supply voltage required by theapplication.

Product status link

EVSPIN32F0601S3

3-phase inverter based on STSPIN32F0601 with 3-shunt topology

EVSPIN32F0601S3

Data brief

DB3935 - Rev 1 - October 2019For further information contact your local STMicroelectronics sales office.

www.st.com

https://www.st.com/en/product/EVSPIN32F0601S3?ecmp=tt9470_gl_link_feb2019&rt=db&id=DB3935

https://www.st.com/en/product/EVSPIN32F0601S3?ecmp=tt9470_gl_link_feb2019&rt=db&id=DB3935

Debug and configuration of FW can be performed with standard STM32 tools throughthe detachable STLINK‑debugger. SWD and UART TX‑RX connectors are alsoavailable.

EVSPIN32F0601S3

DB3935 - Rev 1 page 2/22

1 Safety and operating instructions

1.1 General terms

Warning:During assembly, testing, and operation, the evaluation board poses several inherent hazards, includingbare wires, moving or rotating parts and hot surfaces.

Danger:There is danger of serious personal injury, property damage or death due to electricalshock and burn hazards if the kit or components are improperly used or installedincorrectly.

The kit is not electrically isolated from the high-voltage supply AC/DC input. The evaluation board isdirectly linked to the mains voltage. No insulation is ensured between the accessible parts and the highvoltage. All measuring equipment must be isolated from the mains before powering the board. Whenusing an oscilloscope with the demo, it must be isolated from the AC line. This prevents shock fromoccurring as a result of touching any single point in the circuit, but does NOT prevent shock whentouching two or more points in the circuit.All operations involving transportation, installation and use, and maintenance must be performed by skilledtechnical personnel able to understand and implement national accident prevention regulations. For the purposesof these basic safety instructions, “skilled technical personnel” are suitably qualified people who are familiar withthe installation, use and maintenance of power electronic systems.

1.2 Intended use of evaluation board

The evaluation board is designed for demonstration purposes only, and must not be used for electricalinstallations or machinery. Technical data and information concerning the power supply conditions are detailed inthe documentation and should be strictly observed.

1.3 Installing the evaluation board

• The installation and cooling of the evaluation board must be in accordance with the specifications and targetapplication.

• The motor drive converters must be protected against excessive strain. In particular, components should notbe bent or isolating distances altered during transportation or handling.

• No contact must be made with other electronic components and contacts.• The board contains electrostatically-sensitive components that are prone to damage if used incorrectly. Do

not mechanically damage or destroy the electrical components (potential health risks).

1.4 Operating the evaluation board

To operate properly the board, follow these safety rules.1. Work Area Safety:

EVSPIN32F0601S3 Safety and operating instructions

DB3935 - Rev 1 page 3/22

• The work area must be clean and tidy.• Do not work alone when boards are energized.• Protect against inadvertent access to the area where the board is energized using suitable barriers and

signs.• A system architecture that supplies power to the evaluation board must be equipped with additional control

and protective devices in accordance with the applicable safety requirements (i.e., compliance with technicalequipment and accident prevention rules).

• Use non-conductive and stable work surface.• Use adequately insulated clamps and wires to attach measurement probes and instruments.

2. Electrical Safety:• Remove power supply from the board and electrical loads before performing any electrical measurement.• Proceed with the arrangement of measurement setup, wiring or configuration paying attention to high

voltage sections.• Once the setup is complete, energize the board.

Danger:Do not touch the evaluation board when it is energized or immediately after it has beendisconnected from the voltage supply as several parts and power terminals containing potentiallyenergized capacitors need time to discharge.Do not touch the boards after disconnection from the voltage supply as several parts like heatsinks and transformers may still be very hot.The kit is not electrically isolated from the AC/DC input. The USB interface of the board does notinsulate host computer from high voltage. When the board is supplied at a voltage outside the ELVrange, a proper insulation method such as a USB isolator must be used to operate the board.

3. Personal Safety• Always wear suitable personal protective equipment such as, for example, insulating gloves and safety

glasses.• Take adequate precautions and install the board in such a way to prevent accidental touch. Use protective

shields such as, for example, insulating box with interlocks if necessary.

EVSPIN32F0601S3 Operating the evaluation board

DB3935 - Rev 1 page 4/22

2 Schematic diagram

Figure 1. EVSPIN32F0601S3 schematic – Driver output stagesBOURNS

3386H-

1-104LF SPEED

OD

SPI1_NSS/PROCSPI1_MOSI/GPIOSPI1_MISO/GPIOSPI1_CLK/COMM

Boot from:CLOSED 2-3 Flash CLOSED 1-2 System/SRAM OUT3

OUT2

OUT1

GND PGND

July 24, 2019

Ioc_typ= 5 A

ADC_IN4ADC_IN3VDD

VCC

VCC

VDD

VDD

VDD

VDD

VCC

VCC

VCC

HV

HV

HV

HV

VDD VDD VDD

VCCVCC

VDD

HV

HV

HV

VDD

UART1_TXUART1_RX

SWD_CLK

SWD_IO

PC13

PA0PA1PA2

Temp_fdbk

VBUS_fdbk

PC14PC15

NRST

OUT1

OUT2

OUT3

PA5

PA7

PA6

SENSE2_N

SENSE3_N

SENSE1_N

SENSE3_P

SENSE2_PSENSE1_P

Q9AN.M.

2

1

5

3 4

C751nF/25V

1 2

TP8

TP4

TP22Q6AN.M.

2

1

5

3 4

C8N.M.

R45

100R

TP14

R44

10R

C13N.M.

C261uF/50V

U1

STSPIN32F0601

PB81

VSS2

VDD3

PC134

PC145

PC156

PF07

PF18

NRST9

VDDA11

PA012

PA113

PA214

PA315

PA416

PA5

17

PA6

18

PA7

19

PB1

21

OD

24

CIN

25

LVG

128

LVG

229

LVG

330

HVG134

OUT133

BOOT135

OUT240

BOOT242

HVG241

OUT346

BOOT348

HVG347

RES

152

RES

253

RES

354

PA12

55PA

1356

PA14

57PA

1558

PB3

59PB

460

PB5

61PB

662

VDD

22

EPAD

65

VSSA10

PB0

20

VSS

23

GN

D26

PGN

D27

VCC

51

PB7

63BO

OT0

64

RES

431

RES

550TP5

1 2

TP21

TP20

Q1 STG

D6M

65D

F2

1

2

3

C77

100nF/25V

TP18

Q3 STG

D6M

65D

F2

1

2

3

R1527R

D4

BAT54J

TP27

D7

BAT54J

R13

100R

D2

BAT54J

R12933k

J1

1234

R16

10R

R10

10R

C33N.M.

C19100nF/25V

R33

220m

/ 1W

/ 1%

TP19

R42

100R

R46100K

C7347nF/25V

D13

BAT54J

D11N.M.

R2

10R

R14100K

C164.7nF/25V

R260R

R27

10R

R127R

C1010pF/50V

R18

100R

D6N.M.

Q9 STG

D6M

65D

F2

1

2

3

R50 1K

J9

1 2 3 4

Q4AN.M.

2

1

5

3 4

R3527R

C1110pF/50V

R43100K

C1847nF/25V

Q1AN.M.

2

1

5

3 4

TP6

1 2

C933nF/630V

R57 1K

C4N.M.

1 2

R29

0R

TP25

TP28

R4910K

X1

8MHz

D9

BAT54J

R3247K

C121uF/50V

R3

100R

C7N.M.

R5100KC3

1uF/50V

C1100nF/25V

TP7

JP1CLOSED 2-3

1

3

2

R23100K

C17N.M.

1 2

R47 0R

1 2

R12833k

Q3AN.M.

2

1

5

3 4

R30

100R

D12

BAT54J Q7AN.M.

2

1

5

3 4

TP24

C2220nF/25V

C21100nF/25V

TP23R

5322

0m/ 1

W/ 1

%

TP26R31100K

TP1

D1N.M.

C20100nF/25V

R19100K

C78

100nF/25V

R51 1K

TP2

Q4 STG

D6M

65D

F2

1

2

3

TP12

1 2

TP29

Q7 STG

D6M

65D

F2

1

2

3C25N.M.

TP3

R56

220m

/ 1W

/ 1%

R40

10R

Q6 STG

D6M

65D

F2

1

2

3

LVG3

GH3

GL3

GH2

GL2

GL1

LVG1

GH1

LVG2

LVG3LVG2LVG1

GH1

GL1

GH2

GL2

GH3

GL3

SENSE3

SENSE2

SENSE3

SENSE1

SENSE2

SENSE1

EVSPIN32F0601S3 Schematic diagram

DB3935 - Rev 1 page 5/22

Figure 2. EVSPIN32F0601S3 schematic – Feedback network

RESET

USER1

USER210k

HALL PWR

VDDZ+/H3

GND

A+/H1B+/H2

VDD VCC

5V

VDD

VDD

VDD

VDD

VCC

VDD

VDD

VDDVDD VDD VDD

VDDVDD

HV

VDD

VDD

V5_hallVCC

V5_hall

NRST

Temp_fdbk

PC14

PC15

SENSE3_P

SENSE3_N

SENSE2_P

SENSE2_N

PA7PA6

SENSE1_P

SENSE1_N

PA5

VBUS_fdbk

PA0

PA1

PA2

J3 12345

C361nF/25V

R11120K

JP6CLOSED

R74N.M.

R66

100R

C72 4.7pF/25V

C24100nF/25V

Q123STF1640 3

1

2

C70N.M.

C67100nF/25V

SW3

430483025816

134 2

R72N.M.

12

C43100nF/25V

C32 4.7pF/25V

R12420K

C74N.M.

JP4 CLOSED

SW1

430483025816

134 2

+-

U10B

TSV912IQ2T5

76

C41100nF/25V

C27

33pF/25V

JP11

OPEN

R11420K

C3910pF/10VR77 120R

R814.7K R68

1.8K

R54

100R

SW2

430483025816

134 2

R1278K2

R70

1.8K

R122 10K

R69470K

R1136K8

R76N.M.C38

10pF/10V

JP5 CLOSED

D21DDZ9690T

R121

6K8

R67470K

R52 10K

C7133pF/25V

+-

U11B

TSV912IQ2T

57

6

R119 0R

C76

4.7uF/50V

+-

U11A

TSV912IQ2T

31

4

8

2

R11520K

R112

6K8

R1236K8

R75N.M.

DL2YELLOW

R125 0RR118 0R

R12610K

JP2CLOSED

C69N.M.

R62 120R

C68 4.7pF/25V

R6410K

JP3 CLOSED

C30

33pF/25V

R4120K

R786.49K

R12020K

R801K

JP7

1 3

24

R1176K8

R6310K

C421nF/25V

+- U10A

TSV912IQ2T

31

4

8

2

R79

100R

R48 39K

R73 0R

D19BAT54J

R116 10K

R71

1.8K

R55

6K8

C3710pF/10V

C343.3nF/25V

DL1YELLOW

C40N.M.

Z+/H3_C

B+/H2_C

A+/H1_C


DB3935 - Rev 1 page 6/22

Figure 3. EVSPIN32F0601S3 schematic – Power SupplyAC

MAI

NS ~

Vcc_FVCC

VDDE3V3

3V3_STLINK

GND

OUT3

OUT2

OUT1

E3V3HV

Vcc_F

HV

Vcc_F VCC

VDDE3V3 3V3_STLINK VDD

OUT1

OUT2

OUT3

R881.5K1/4W

D223V3 N.M.

R83 0R

R110220K 1/3W

R82330R

C52680nF/10V

D27

BAT54J

R85

10R

F1

10A/277V s low

R8722K

C51820pF/25V

D28STTH1L06A

J2

1

2

3

R8910K

RV1N.M.

R8622K

J41

2

U4LD1117S33CTR

Vout2

GND

1

Vin3

+ C4947uF/25V

+ C46470uF/10V

C44150uF/420V

D26

STPS1150A

U5VIPER06XS

FB4

LIM3

DR

AIN

8

GN

D1

VDD2

CO

MP

5

DR

AIN

7

DR

AIN

6

DR

AIN

10

DR

AIN

9

C47100nF/25V

JP8CLOSED 1-2

123

DL3RED

-+ D20

GBU805

23

41

C4810uF/10V

NTC1

2R2

1 2 C44AN.M.

LD2GREEN

+C5010uF/35V

T1

3

4

2

1

5

8

F1A N.M.

R8436K

C66220pF/ 630V

JP9

CLOSED 1-2

123

D25

STPS0560Z

+C4522uF/25V


DB3935 - Rev 1 page 7/22

Figure 4. EVSPIN32F0601S3 schematic – STLINK debugger

TXRX

D-D+

STLINK FW LOAD

3V3_STLINK

3V3_STLINK

VDD

3V3_STLINK

3V3_STLINK

VUSB

3V3_STLINK

VUSB

VUSB

3V3_STLINK

VDD

UART1_TXUART1_RX

SWD_IO

SWD_CLK

NRST

R944.7K

R107 100R

R102 100R

R101

0R

C5910pF/50V

J5 65100516121

USB_VCC1

USBDM2

USBDP3

USB_GND5

SHELL6

SHELL7

SHELL8

ID4

SHELL9

R108 100R

R97

0R

C61100nF/50V

R99 0R

C5710nF/25V

R984.7K

C53100nF/25V

R104 N.M.

C62100nF/25V

U7LD3985M33R

GND2

OUT5

VIN1

BYPASS4

INHIBIT3

J6

1 2

U6 USBLC6-2SC6

I/O1#11

GND2

VBUS5

I/O2#44

I/O1#66

I/O2#33

R1004.7K

Q10BC847

1

23

J8

1 2

TP15

C55100nF/25V

R962.7K

C63100nF/25V

JP10OPEN

12

R92

1.5K

X2

8MHz

C56100nF/25V

R106100K

C65100nF/25V

R91

100R

C541uF/10V

R105100K

C581uF/10V

U8 STM32F103CBT6

PB743PB642PB541PB4/JNTRST40PB3/JTDO39

PA0-WKUP10

PA111

PA212

PA313

PA414

PA515

PA616

PA717

PA829

PA930

PA1031

PA1132

PA1233

PA1334

PB018

PB119

PB2/BOOT120

PB845

PB946

PB1021

PB1122

PB1225

PB1326

PB1427

PB1528

PC13-TAMPER-RTC2

PC14-OSC32_IN3

PC15-OSC32_OUT4

VSS_123

OSCIN/PD05

NRST7

OSCOUT/PD16

VSSA8

VSS_235

VSS_347

VBAT1

PA1437

PA1538

VDD_124

BOOT044

VDD_348 VDD_236

VDDA9

J71234

C6010pF/50V

RED-GREEN

LD1

K1A1

K2 A2

R9336K

C64100nF/25V

R95 0R

R9010K

R103 10K

USB_DPUSB_DM

USB_RENUMSWDIO

STLINK_TXSTLINK_RX

T_NRST

LED_STLINK

LED_STLINK

USB_DM USB_RENUM

USB_DP

FM_SWCLK

FM_SWDIO

T_JTCK

T_JTCK

T_JTCK

T_JTMS

T_JTMS

T_NRST


DB3935 - Rev 1 page 8/22

3 Bill of Material

Table 1. Bill of Materials – Components common to all device variants

Reference Part Value Description Package Manufacturer Part Number

C1 ,C19, C20,C21, C24,C41,C43,C47,C53,C55, C56, C62,C63, C64, C65,C67, C77, C78

100nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206071

C2 220nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012106019

C3, C12, C26 1uF/50V SMT ceramic capacitor Size 0805 Wurth Elektronik 885012207103

C4, C7, C13, C17,C25, C33, C40,C69, C70, C74

N.M. SMT ceramic capacitor Size 0603

C8 N.M. Film, metallized polypropylene 5x13mm, Pitch10mm Wurth Elektronik 890283423001

or C9 33nF/630V SMT ceramic capacitor Size 1210 Wurth Elektronik 885342209004

C10, C11, C59,C60 10pF/50V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012006051

C16 4.7nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206063

C18,C73 47nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206069

C27, C30, C71 33pF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012006035

C32, C68, C72 4.7pF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012006030

C34 3.3nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206062

C36, C42, C75 1nF/25V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206059

C37, C38, C39 10pF/10V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012006002

C44 150uF/420V THT electrolytic capacitor, radialp10 d22h27 105C

Radial p10d22h27.5mm United Chemi-Con EKMZ421VSN151MP25S

C44A N.M. THT electrolytic capacitor, radialp7.5 d18h25

Radial p7.5d18h25mm Rubycon 450BXW68MEFC18X25

C45 22uF/25V SMT aluminum elect. capacitor 5x5.4mm Wurth Elektronik 865090442004

C46 470uF/10V SMT aluminum elect. capacitor 6.3x7.7mm Panasonic EEEFTA471XAP

C48 10uF/10V SMT ceramic capacitor Size 1206 Wurth Elektronik 885012208018

C49 47uF/25V SMT aluminum elect. capacitor 6.3x5.8mm Wurth Elektronik 865060443004

C50 10uF/35V SMT aluminum elect. capacitor 5x5.4mm Wurth Elektronik 865230542002

C51 820pF/25V SMT ceramic capacitor Size 0603


C54,C58 1uF/10V SMT ceramic capacitor Size 0603 Wurth Elektronik 885012206026



C66 220pF/ 630V SMT ceramic capacitor Size 1206 Multicomp MC1206N221J631CT

C76 4.7uF/50V SMT ceramic capacitor Size 1206 Wurth Elektronik 885012208094

DL1,DL2 Yellow Yellow LED Size 0603 Wurth Elektronik 150060YS75000

DL3 Red Red LED Size 0603 Wurth Elektronik 150060RS75000

EVSPIN32F0601S3 Bill of Material

DB3935 - Rev 1 page 9/22


D1,D6,D11 N.M. Turbo 2 ultrafast high-voltagerectifier SMA STMicroelectronics STTH1L06A

D2, D4, D7, D9,D12, D13, D19,D27

BAT54J 40 V, 300 mA small signalSchottky SMT Diode SOD-323 STMicroelectronics BAT54JFILM

D20 GBU805 8A glass passivated single-phasebridge rectifier GBU

TaiwanSemiconductor or

Diodes IncorporatedGBU805 or GBU806

D21 DDZ9690T Surface mount Zener diode SOD523 Diodes Incorporated DDZ9690T-7

D22 3V3 N.M. Zener SOD-123

D25 STPS0560Z 60V, 0.5A Schottky rectifier SOD-123 STMicroelectronics STPS0560Z

D26 STPS1150A 150V, 1A Power Schottky rectifier SMA STMicroelectronics STPS1150A

D28 STTH1L06A Turbo 2 ultrafast high-voltageRectifier SMA STMicroelectronics STTH1L06A

F1A N.M. Time-lag radial lead micro fuse,250Vac RST-Bel Fuse Bel Fuse 0697-xx

F1 10A/277V slow Suface mount fuse, time-lag T,250Vac125Vdc

UMT250-Shurter Schurter 3403.0176.24

JP1 Closed 2-3 SMT jumper Soldering pad

JP2, JP3, JP4,JP5, JP6 Closed SMT jumper Soldering pad

JP7 Closed 2-4 Jumper to solder Soldering pads

JP8,JP9 Closed 1-2 Strip connector 3 pos, 2.54mm 1x3 pins Wurth Elektronik 61300311121

JP10 Open SMT jumper Size 0805

JP11 Open SMT jumper

JP13,JP14,JP15 N.M.

J1,J7,J9 STRIP 1x4 Strip connector 4 pos, 2.54mm 1x4 pins Wurth Elektronik 61300411121

J2 MORSV-508-3P_screw

Connector terminal block T.H. 3positions 5.08mm

3 poles, pitch5.08 Wurth Elektronik 691213510003

J3 STRIP 1x5 Strip connector 5 pos, 2.54mm 1x5 pins Wurth Elektronik 61300511121

J4 MORSV-508-2P_screw

Connector terminal block T.H. 2positions 5.08mm

2 poles, pitch5.08 Wurth Elektronik 691213510002

J5 65100516121 Mini USB 2.0 Type B SMD USB mini B Wurth Elektronik 65100516121

TP6, J6, J8 STRIP 1x2 Strip connector 2 pos, 2.54mm 1x2 pins Wurth Elektronik 61300211121

LD1 Red-green LED indicators, PLCC-4 red /yellow green PLCC 4 Avago HSMF-A201-A00J1

LD2 Green Green LED Size 0805 Wurth Elektronik 150080GS75000

NTC1 2R2 NTC thermistor for inrush currentlimiting TDK B57236S0229M000

Q1A, Q3A, Q4A,Q6A, Q7A, Q9A N.M.

N-channel 600V, 0.195 Ohm typ.,15A MDmesh DM2 Power

MOSFET

PowerFLAT8x8 STMicroelectronics STL24N60DM2

Q1, Q3, Q4, Q6,Q7, Q9

STGD6M65DF2

Trench gate field-stop IGBT, Mseries 650V, 6A low loss DPAK STMicroelectronics STGD6M65DF2

Q10 BC847 GeneralPurpose_45V_100mA_225mW SOT23 ON Semiconductor BC847BL


DB3935 - Rev 1 page 10/22


Q12 3STF1640 Low voltage high performanceNPN power transistor SOT-89 STMicroelectronics 3STF1640

RV1 N.M. Varistor Pitch2.3x7.5mm

R1, R15, R35 27R SMT resistor Size 0805

R2, R10, R16,R27, R40, R44 10R SMT resistor Size 0805

R3, R13, R18,R30, R42, R45 100R SMT resistor Size 0805

R5, R14, R19,R31, R43, R46,R105, R106

100K SMT resistor Size 0603

R23 100K Square trimpot trimmingpotentiometer 3386H Bourns 3386H-1-104-LF

R26, R29, R73,R95, R97, R99,R101, R118,R119, R125

0R SMT resistor Size 0603

R32 47K SMT resistor Size 0603

R33, R53, R56 220m/1W/1% SMT resistor Size 2512 /1210

R41, R111, R114,R115, R120, R124 20K SMT resistor Size 0603

R47 0R SMT resistor Size 0603


R49, R52, R63,R64, R89, R90,R103 ,R116,R122 ,R126

10K SMT resistor Size 0603

R50, R51, R57 1K SMT resistor Size 0603

R54, R66, R79,R91, R102, R107,R108

100R SMT resistor Size 0603

R55, R112, R113,R117, R121, R123 6K8 SMT resistor Size 0603

R62,R77 120R SMT resistor Size 0603

R67,R69 470K SMT resistor Size 1206

R68,R70, R71 1.8K SMT resistor Size 0603

R72 N.M. NTC resistor Hole 0.8mm

R74,R75, R76,R104 N.M. SMT resistor Size 0603

R78 6.49K SMT resistor Size 0805


R81, R94, R98,R100 4.7K SMT resistor Size 0603





DB3935 - Rev 1 page 11/22







R110 220K 1/3W SMT resistor Size 0805 TE Connectivity CRGH0805J220K

R127 8K2 SMT resistor Size 0603


SW1,SW2, SW3 430483025816 CMS tactile switches - 6x6 J-bend Wurth Elektronik 430483025816

TP1 TPHIN1 Test point, PCB 1mm diameter Copper pad



TP4, TP7, TP14,TP19, TP20,TP21, TP22,TP23, TP24,TP25, TP26,TP27, TP29

N.M. TP for probe Diam. 1.27,hole 0.8mm

TP5 PB8 Test point, PCB 1mm diameter Copper pad

TP8,TP12 TPTH-ANELLO-1mm THT ring test point Keystone 5003

TP15 NEEDLE-PAD-1.7mm Test point - PCB 1.7mm diameter Copper pad

TP18 PGND Test point, PCB 1mm diameter Copper pad

TP28 PA12 Test point, PCB 1mm diameter Copper pad

T1 750318434 Switch mode transformer 2.3W60kHz 3.15mH 7-15V Wurth Elektronik 750318434

U1 STSPIN32F0601

600V 3-phase controller withARM Cortex MCU

TQFP64-10x10x1.0 STMicroelectronics STSPIN32F0601/TR

U4 LD1117S33CTR

800mA, 3.3V adjustable and fixedlow drop positive Voltage

RegulatorSOT-223 STMicroelectronics LD1117S33CTR

U5 VIPER06XS Fixed-frequency VIPer plus family SSO10 STMicroelectronics VIPER06XS

U6 USBLC6-2SC6 Very low capacitance ESDprotection SOT23-6L STMicroelectronics USBLC6-2SC6 / Y

U7 LD3985M33R 3.3V_150mA_ultra low dropVoltage Regulator SOT23-5L STMicroelectronics LD3985M33R

U8 STM32F103CBT6

64/182 KBFlash_USB_72MHz_3.6V

LQFP48 -7x7mm STMicroelectronics STM32F103CBT6

U10,U11 TSV912IQ2T Dual rail-to rail input/output 8MHzoperational amplifiers DFN8 2x2 STMicroelectronics TSV912IQ2T

X1,X2 8MHz Crystal 8.0000MHz 8PF SMD 2.5x3.2mm NDK NX3225GD-8MHZ-STD-CRA-3

Rubber feet Hammond 1421T6CL

J8,JP8,JP9 Female jumper isolated, pitch2.54mm Assman WSW AKSCT/Z Black


DB3935 - Rev 1 page 12/22


P.C.B. EVSPIN32F0601S3rev.2.0 STMicroelectronics


DB3935 - Rev 1 page 13/22

4 Layout and component placements

Figure 5. EVSPIN32F0601S3 – Board functions description

STlink debuggerdetachable

STSPIN32F0601

Power STAGE

Power Supply

Warning:The kit is not electrically isolated from the AC/DC input. The USB interface of the board does not insulatehost computer from high voltage. When the board is supplied at a voltage outside the ELV range, a properinsulation method such as a USB isolator must be used to operate the board.

EVSPIN32F0601S3 Layout and component placements

DB3935 - Rev 1 page 14/22

Figure 6. EVSPIN32F0601S3 – Layout (component placement top view)


DB3935 - Rev 1 page 15/22

Figure 7. EVSPIN32F0601S3 – Layout (top layer)


DB3935 - Rev 1 page 16/22

Figure 8. EVSPIN32F0601S3 – Layout (bottom layer)


DB3935 - Rev 1 page 17/22

Revision history

Table 2. Document revision history

Date Version Changes

28-Oct-2019 1 Initial release.

EVSPIN32F0601S3

DB3935 - Rev 1 page 18/22

Contents

1 Safety and operating instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3

1.1 General terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

1.2 Intended use of evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

1.3 Installing the evaluation board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

1.4 Operating the evaluation board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

2 Schematic diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5

3 Bill of Material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9

4 Layout and component placements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14

Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19

List of tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

List of figures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21

EVSPIN32F0601S3 Contents

DB3935 - Rev 1 page 19/22

List of tablesTable 1. Bill of Materials – Components common to all device variants . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Table 2. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

EVSPIN32F0601S3 List of tables

DB3935 - Rev 1 page 20/22

List of figuresFigure 1. EVSPIN32F0601S3 schematic – Driver output stages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 2. EVSPIN32F0601S3 schematic – Feedback network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Figure 3. EVSPIN32F0601S3 schematic – Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Figure 4. EVSPIN32F0601S3 schematic – STLINK debugger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Figure 5. EVSPIN32F0601S3 – Board functions description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Figure 6. EVSPIN32F0601S3 – Layout (component placement top view). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Figure 7. EVSPIN32F0601S3 – Layout (top layer) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Figure 8. EVSPIN32F0601S3 – Layout (bottom layer) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

EVSPIN32F0601S3 List of figures

DB3935 - Rev 1 page 21/22

IMPORTANT NOTICE – PLEASE READ CAREFULLY

STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to STproducts and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. STproducts 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 ofPurchasers’ 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 servicenames 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

EVSPIN32F0601S3

DB3935 - Rev 1 page 22/22

http://www.st.com/trademarks

Data brief - EVSPIN32F0601S3 - 3-phase inverter based on ...Data brief DB3935 - Rev 1 - October 2019...

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