High Voltage Motor Driver ICs Slection Guide - SGE0004€¦ · Built-in NTC thermistor; p.18 1.5 to...

P.1SGE0004 Mar. 18, 2021

Motor Driver IC for 3-phase Brushless（250–600 V power transistor built-in）

All the contents in this document are as of date of publication. Make surethat this is the latest revision of the document before use. Please checkthe details of the product by data sheet.https://www.sanken-ele.co.jp/en

SANKEN ELECTRIC CO., LTD

Selection Guide

https://www.sanken-ele.co.jp/en

P.2SGE0004 Mar. 18, 2021

Motor Driver IC for 3-phase Brushless (250–600 V Transistor)Sanken’s motor driver ICs in this document are included all following chip to one package; 3-phase inverter

bridge using power transistors, gate driver circuit and bootstrap diodes. Sanken’s motor driver ICs achieve the down sizing of your motor circuit. You can choice from variety ICs according to your applications.

3 Shunt

ZIP (Fully Molded)

1 Shunt

SX6800xMH 250 V, 2.0 A500 V, 2.5 A

SMA682xMH 250 V, 2.0A500 V, 1.5 to 2.5 A600 V, 1.5 A

SIM68xxM/MV 500 V, 2 to 2.5 A600 V, 2 to 5 A

SCM126xMFSCM127xMF(2)

600 V, 10 to 20 A

SLA682xMH 250 V, 2.0 A500 V, 2.5 A

(1) External bootstrap diode should be added(2) Built-in junction temperature monitor

600 V, 15 to 30 A

SMA6853MX 500 V, 2.5 A

SMA686xMH 500 V, 1.0 to 2.5 A600 V, 3 A

SLA686x/7xMH 500 V, 2.5 to 3.0 A

SLA6846MH (1) 600 V, 5.0 A

SLA6805MH(1) 600V, 3.0 A

SCM200xMKF 600 V, 15 to 30 A

ZIP (With Heatsink)

ZIP (Fully Molded)

SMD

SX6820xMSensorless vector control

SMD SX6812xMSupports Hall element input

600 V, 1.5 to 2.0 A

250 V, 2.0 A600 V, 1.5 to 2.0 A

SIM260xM/MASupports Hall element input

600 V, 2.5 to 5.0 A

DIP

ZIP (With Heatsink)

DIP

SIM689xM (2) 600 V, 2.5 to 10 A

SCM1242MA 600 V, 15 A

SCM1272MA (2) 600 V, 15 A

P.3SGE0004 Mar. 18, 2021

Application of Motor Driver IC (250–600 V) for 3-phase Brushless

0 1 2 3 5 10 15 20 25 30Motor Current (A)

Outdoor Air-conditioning Fan

Refrigerator Compressor Washer Drum

Air-conditioning Compressor

Packaged Air ConditionerFan

Packaged Air ConditionerCompressor

Indoor Air-conditioning Fan

Washer Compressor

Drum

Compressor

Fan

Washer Fan

Washer Pump

Fan

Fan

Compressor CompressorPump

Fan

Fan

Compressor

SCM126xMF

SCM127xMF

SCM200xMKF

SLA6805MH

SX6820xM*

SX6800xMH

SMA682xMHSMA686xMH

SLA686x/7xMH

SIM68xxM/MV

SLA6846MHSLA682xMH

SX6812xM

SIM260xM/MASMA6853MX

*Sensorless vector control built-in

SIM689xM

SCM1242MA

SCM1272MA

One shunt detection type

3-shunt detection type

P.4SGE0004 Mar. 18, 2021

IO Series Breakdown voltage Package

Input voltage

levelDBOOT* OCP TD TSD Features Page

1 to 2.5 A SMA686xMH 500 V600 V

ZIP24 3.3 V/5.0 V Built-in Built-in — 135 °C Overcurrent limiting p.6

2.0 to 2.5 A SX6800xMH 250 V500 V

SOP36 3.3 V/5.0 V Built-in Built-in — 150 °C Regulator output

Overcurrent limiting p.8

1.5 to 2.5 A SMA682xMH 250 V500 V600 V

ZIP24 3.3 V/5.0 V Built-in — 150 °C — Regulator output p.9

2 to 2.5 A SLA682xMH 250 V500 V

ZIP24(Heatsink)

3.3 V/5.0 V Built-in — 150 °C — Regulator output p.9

2.5 to 3 A SLA686x/7xMH 500 V 3.3 V/5.0 V Built-in Built-in — 135 °C Overcurrent limiting p.6

3 A SLA6805MH 600 V

ZIP23(Heatsink) 3.3V

/5.0V — Built-in — — p.10

2.5 to 5 A SIM260xM/MA 600 V

DIP40

— Built-in Built-in — 130 °C

Supports Hall element input

Regulator output Overcurrent limiting

p.11

Motor Driver IC (250–600V) for 3-phase Brushless Over View (1/2)

The following table shows the 3-phase brushless motor driver ICs that has 250–600 V power transistor.You can choice from variety ICs according to your applications.

＊Bootstrap diodes and current limiting resistors

One-shunt Detection Type

P.5SGE0004 Mar. 18, 2021

Motor Driver IC (250–600V) for 3-phase Brushless Over View (2/2)

IO Series Breakdown voltage Package

Input voltage

levelDBOOT* OCP TD TSD Features Page

2.5 A SMA6853MX 500 V ZIP24 3.3 V/5.0 V Built-in — 150 °C — Regulator output p.12

2 to 5 A SIM68xxM/MV 500 V600 V

DIP40 3.3 V/5.0 V Built-in Built-in — 150 °C Overcurrent limiting p.13

2.5 to 10 A SIM689xM 600 V 3.3 V/5.0 V Built-in ○ — 150 °C Built-in temperature monitor p.15

5 A SLA6846MH 600 V ZIP24(Heatsink)

3.3V/5.0V — — 150°C — Regulator output p.16

15 A SCM1242MA 600 V DIP33 3.3 V/5.0 V Built-in ○ — 150 °C p.17

15 A SCM1272MA 600 V 3.3 V/5.0 V Built-in ○ — 150 °C Built-in temperature monitor p.18

10 to 20 A SCM126xMF 600 V DIP33(Heatsink)

3.3 V/5.0 V Built-in Built-in — 150 °C Simultaneous

on-state prevention p.19

15 to 30 A SCM127xMF 600 V 3.3 V/5.0 V Built-in Built-in — —

Built in temperature monitor Simultaneous

on-state preventionp.20

20 to 30A SCM200xMKF 600 V 3.3V/5.0V Built-in Built-in — — Built-in NTC thermistor p.21

1.5 to 2 A SX6812xM 600 V SOP36 — Built-in Built-in — 130 °C Supports Hall element input Regulator output p.22

1.5 to 2 A SX6820xM 250 V600 V — Built-in Built-in — 135 °C

Sensorless vector control built-in

Simultaneous On-state prevention

p.23

＊Bootstrap diodes and current limiting resistors 3-Shunt Detection Type

P.6SGE0004 Mar. 18, 2021

SMA686xMH, SLA686x/7xMH Series

Built-in Bootstrap Diodes and Current Limiting Resistors

CMOS-compatible Input (3.3 V or 5 V)

Protections: Overcurrent Protection (OCP)Overcurrent Limiting Function (OCL) Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD) : 135 °C (typ.)

ZIP24with aluminum heatsink

ZIP24Fully molded

500/600 V, 1.0–3.0 A, 3-phase Brushless Motor Driver IC

LF No. 2451

LF No. 2452 LF No. 2171

LF No. 2175

Block Diagram (Power MOSFET Type)

Features

Package

One-shunt Design

Low-sideDriver

UVLOUVLOUVLOUVLO

InputLogic

Input Logic(OCP reset)

UVLO

1 2 3

10

16

181920

23

4

5

22

21

SD1

VCC1

VB1 VB2 VB3

VBB

W2V

U

LS1SD2

COM2

LIN3LIN2LIN1

VCC2

COM1

HIN3HIN2HIN1

High-sideLevel Shift Driver

17OCL

OCP, OCL

RC 15

ThermalShutdown OCP

14 LS2

W1

Bootstrap Diode RB

789

6

12

24

1113

P.7SGE0004 Mar. 18, 2021

SMA686xMH, SLA686x/7xMH Series

Series Selection Guide

Part Number Package Output Transistors VDSS/VCES ID/ICRDS(ON)max./VCE(SAT) typ.

SMA6860MH

Fully molded Power MOSFETs 500 V

1.0 A 6.0 Ω

SMA6862MH 1.5 A 4.0 Ω

SMA6863MH2.5 A

2.4 Ω

SMA6865MH 1.7 Ω

SLA6868MHWith heatsink Power MOSFETs 500 V

2.5 A 2.4 Ω

SLA6870MH 3.0 A 1.7 Ω


One-shunt Design

P.8SGE0004 Mar. 18, 2021

Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic


UVLO

SD

VCC1

VB1 VB2 VB31

VBB2

W2

U

LSFO

COM2

LIN3

LIN2

LIN1

VCC2

COM1

HIN3

HIN2

HIN1High Side

Level Shift Driver

OCL

OCP＆OCL

ThermalShutdown

OCP

W1

V1

V

VBB1

V2

REGREG

VB32

SX6800xMH SeriesBlock Diagram



CMOS-compatible Input (3.3 V or 5 V) Regulator Output

Overcurrent Limiting Function (OCL)

Protections: Overcurrent Protection (OCP) Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD) : 150 °C (typ.)

Shutdown Signal Input

SOP36

Features

Package


One-shunt Design

• Size:21.9 mm × 14.1 mm• LF No. 1890

Part Number VDSS ID RDS(ON) max.

SX68001MH 250 V 2.0 A 1.5 Ω

SX68003MH 500 V 2.5 A 2.4 Ω

P.9SGE0004 Mar. 18, 2021


Built in Low Dissipation Power MOSFETs

Regulator Output CMOS-compatible Input (3.3 V or 5 V)

Protections: Thermal Detection (TD): 150 °C (typ.) Undervoltage Lockout for Power Supply (UVLO)

High SideLevel Shift Driver

Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic

InputLogic

UVLOThermalDetect

7.5VReg.

VD

VCC1

VB1 VB2 VB3

VBB1

VBB2

UVW1W2

LS1LS2

FO

COM2

LIN3LIN2LIN1

VREG

VCC2

COM1

HIN3HIN2HIN1

BootDi RBD

SMA/SLA682xMH Series250/500/600 V, 1.5–2.5 A, 3-phase Brushless Motor Driver IC

Block Diagram

Series Selection GuideFeatures

Package

One-shunt Design

Package Part Number VDSS IDRDS(ON) max.

With heatsinkSLA6826MH 250 V 2.0 A 1.5 ΩSLA6828MH 500 V 2.5 A 2.4 Ω

Fully molded

SMA6821MH 250 V 2.0 A 1.5 ΩSMA6822MH

500 V1.5 A 4.0 Ω

SMA6823MH 2.5 A 2.4 ΩSMA6824MH 600 V 1.5 A 3.5 Ω

ZIP24Fully molded

LF No. 2451

LF No. 2452 LF No. 2171

LF No. 2175

UD

UD : Under Development

P.10SGE0004 Mar. 18, 2021

Part Number VCES IC VCE(SAT) typ.

SLA6805MH 600 V 3.0 A 1.75 V

Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic


UVLO

VCC1(5)

VB1(2) VB2(3) VB3(4)

VBB2(11)

U(1)

V(13)

W1(12)

W2(14)

LS1(17)

LS2(15)

FO(22)

COM2(21)

LIN3(18)

LIN2(19)

LIN1(20)

VCC2(23)

COM1(6)

HIN3(7)

HIN2(8)

HIN1(9)High Side

Level Shift Driver

OCP

RCIN(16)

OCP

VBB1(10)

SLA6805MH


Protections: Overcurrent Protection (OCP) with Adjustable OCP Hold TimeUndervoltage Lockout for Power Supply (UVLO)

600 V, 3.0 A, 3-phase Brushless Motor Driver IC

One-shunt Design

LF No. 2151 LF No. 2153

Block Diagram


Features

PackageZIP23 with aluminum heatsink

P.11SGE0004 Mar. 18, 2021

UVLO(VB)

UVLO(VCC / 5 V)

VREG

Thermal shutdown

Control circuit

VREG(5 V / 30 mA) UVLO VREG

OSC

Reset

OCL/OCP

Control circuit

HIN1

Error

VB1VB2VB3

VBB1

VBB2

UV1W1V2W2

LS2

COM2

FG

LAVSP

HUPHUNHVPHVNHWPHWN

VREG

VCC

LS1

Sine wave matrix

Square wave matrix

Triangle wave

Controller Gate Driver

CW/CCWMLP

FO

UVLO VCC

Rotation freq. and direction

detection

HIN2HIN3

LIN1LIN2LIN3

19

1514

109

17

163

7

11

18

1312

6

4

31

38

4036

33

2327

21

29

342624

High-side driverDrive system

control circuit

Inpu

t log

ic

Position estimation

HO1HO2HO3

Low-side driverLO1

LO2

LO3

HU

HV

HW

COM1 2

COM3 20

FGSEL 8

(NC) 1

Analog digital

converter

OCP 5

SIM260xM/MA SeriesBlock Diagram (IGBT Type)



Supports Hall Element Input

5 V Reference Voltage Output for Power Supply such as Hall Sensor

Regulator Output


Protections: Overcurrent Protection (OCP) Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD) : 130 °C (typ.)Locked Motor Protection

DIP40

Features

Package

Supports Hall Element Input, 600 V, 2.5–5.0 A, 3-phase Brushless Motor Driver IC

One-shunt Design

Part Number Output Transistors VDSS/VCES ID/IC

RDS(ON) max./VCE(SAT) typ.

SIM2601MA

Power MOSFETs600 V

2.5 A 2.5 Ω

SIM2604M 3.0 A 1.5 Ω

SIM2603M 5.0 A 0.6 Ω

SIM2602M IGBTs with FRD 5.0 A 1.75 Ω


UD

Size: 36.0×14.8×4.0 mmLF No. 2972

UD

UD

P.12SGE0004 Mar. 18, 2021


Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic

InputLogic

UVLO

ThermalDetect

7.5VReg.

VCC1(4)

VB1(1) VB2(2) VB3(3)

VBB1(9)

VBB2(10)

U(24)V(12)W1(11)W2(14)

LS2(13)LS3(15)

FO(22)

COM2(21)

LIN3(18)LIN2(19)LIN1(20)

VREG(16)

VCC2(23)

COM1(5)

HIN3(6)HIN2(7)HIN1(8)

LS1(17) Built-in Bootstrap Diodes and Current Limiting Resistors

3-shunt Resistor Based Current Sensing Circuit Built in Low Dissipation Power MOSFETs

Regulator Output CMOS-compatible Input (3.3 V or 5 V)

Protections: Thermal Detection (TD): 150 °C (typ.) Undervoltage Lockout for Power Supply (UVLO)

ZIP24

500 V, 2.5 A, for 3-shunt Design, 3-phase Brushless Motor Driver IC


SMA6853MX 500 V 2.5 A 2.4 Ω

LF No. 2451 LF No. 2452

Block Diagram


Features

Package

3-shunt DesignSMA6853MX

P.13SGE0004 Mar. 18, 2021

SD

VCC1

VB1B VB2 VB3

W2

U

LS1

FO

COM2

LIN3

LIN2

LIN1

VCC2

COM1

HIN3

HIN2

HIN1

OCL

W1

V1

V

VBB

V2

OCP

LS2

LS3A

Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic


UVLO


OCP & OCL

ThermalShutdown

OCP

VB1A

LS3B

SIM68xxM/MV Series

DIP40


3-shunt Resistor Based Current Sensing Circuit



Protections: Overcurrent Protection (OCP)Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD): 150 °C (typ.)

Shutdown Signal Input

Isolation Voltage: 1500 V for 1 min,UL Recognized Component

500/600 V, 2.0–5.0 A, for 3-shunt Design, 3-phase Brushless Motor Driver IC


Features

Package

3-shunt Design

Size: 36.0×14.8×4.0 mmLF No. 2971

P.14SGE0004 Mar. 18, 2021

SIM68xxM/MV Series



RDS(ON)max./VCE(SAT) typ. Remarks

SIM6811M Power MOSFETs 500 V

2.0 A 4.0 Ω

SIM6812M 2.5 A 2.4 Ω

SIM6880MIGBTs with

FRD 600 V

3.0 A 1.85 V - Low switching dissipation

SIM6822MV5.0 A 1.75 V

- Low switching dissipation

SIM6827MV - Noise reduction

500/600 V, 2.0–5.0 A, for 3-shunt Design, 3-phase Brushless Motor Driver IC

3-shunt Design


UD

P.15SGE0004 Mar. 18, 2021

SIM689xM Series

DIP40





Built-in temperature monitor



600 V, 2.5–10 A, 3-phase Brushless Motor Driver IC

Features

Package

3-shunt Design




RDS(ON) max./VCE(SAT) typ.

SIM6891MPower

MOSFETs

600 V

2.5 A 2.5 Ω

SIM6894M 3.0 A 1.5 Ω

SIM6893M 5.0 A 0.6 Ω

SIM6896M

IGBTs with FRD

3.0 A 1.85 V

SIM6892M 5.0 A 1.75 V

SIM6897M 10 A 1.7 V

Size: 36.0×14.8×4.0 mmLF No. 2971


UD

UD

UD

P.16SGE0004 Mar. 18, 2021


Low SideDriver

UVLOUVLOUVLOUVLO

InputLogic

InputLogic

UVLOThermal

Detection7.5VReg.

VCC1

VB1 VB2 VB3

VBB1

VBB2

UV

W1W2

LS2LS3

FO

COM2

LIN3LIN2LIN1

VREG

VCC2

COM1

HIN3HIN2HIN1

LS1

SLA6846MH


Regulator Output


Protections: Undervoltage Lockout for Power Supply (UVLO) Thermal Detection (TD): 150 °C (typ.)


SLA6846MH 600 V 5.0 A 1.75 V

ZIP24 with aluminum heatsink

600 V, 5.0 A, for 3-shunt design, 3-phase Brushless Motor Driver IC

LF No. 2175

Block Diagram


Features

Package

3-shunt Design

LF No. 2171

P.17SGE0004 Mar. 18, 2021

SCM1242MA

DIP33






600 V, 15 A, 3-phase Brushless Motor Driver IC

Features

Package

3-shunt Design

Block Diagram

Part Number Output Transistors VCES IC VCE(SAT) typ.

SCM1242MA IGBT + FRD 600 15 A 1.7 V

Size: 47×19×4.4 mmLF No. 2551


VB1

FO1

OCP1LIN1COM1HIN1VCC1

HS1

VBB

W

LS3

V

LS2

U

LS1

VB2

FO2OCP2LIN2COM2HIN2VCC2

HS2

VB3

FO3


HS3

1

345

8

25

26

28

29

31

32

33

27

2Input logic

Simultaneous on-state

prevention

UVLO_VCC

Drive circuit

Drive circuit

Level shift

6

7

Input logic


prevention

Drive circuit

Drive circuitOCP

Level shift17

19202122

18

2324

9

1112

1413

10

1516

MIC1

MIC2

MIC3

UVLO_VB

UVLO_VCC UVLO_VB

HO1

LO1

HO2

LO2

HO3

LO3

30

Filter3 µs

Filter3 µs

Filter370 ns

OCP Filter370 ns

TSD

TSD

Input logic


prevention

UVLO_VCC

Drive circuit

Drive circuit

Level shift

UVLO_VBFilter3 µs

OCP Filter370 ns

TSD

P.18SGE0004 Mar. 18, 2021

SCM1272MA

DIP33




Built-in temperature monitor (V-phase)

Protections: Overcurrent Protection (OCP) (U- and W-phases)Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD): 150 °C (typ.) (U- and W-phases)


600 V, 15 A, 3-phase Brushless Motor Driver IC

Features

Package

3-shunt Design

Block Diagram

Part Number Output Transistors VCES IC VCE(SAT) typ.

SCM1272MA IGBT + FRD 600 15 A 1.7 V

VB1

FO1


HS1

VBB

W

LS3

V

LS2

U

LS1

VB2

FO2VT

LIN2COM2HIN2VCC2

HS2

VB3

FO3


HS3

1

345

8

25

26

28

29

31

32

33

27

2Input logic


prevention

UVLO_VCC

Drive circuit

Drive circuit

Level shift

6

7

Input logic


prevention

Drive circuit

Drive circuitTemperature

sensing

Level shift

Input logic


prevention

Drive circuit

Drive circuitOCP

Level shift17

19202122

18

2324

9

1112

1413

10

1516

MIC1

MIC2

MIC3

UVLO_VB

UVLO_VB

UVLO_VCC UVLO_VB

HO1

LO1

HO2

LO2

HO3

LO3

30Filter300 ns

Filter3 µs

Filter3 µs

Filter370 ns

OCP Filter370 ns

TSD

TSD

SCPFilter810 ns

Size: 47×19×4.4 mmLF No. 2551


P.19SGE0004 Mar. 18, 2021


SCM1261MF

600 V

10 A

1.7 VSCM1263MF 15 A

SCM1265MF 20 A

FOx

OCPx

LINx

COMx

HINx

VCCx

HSx

Input logic

Simultaneous on state

prevention

UVLO_VCC

Drive circuit

Drive circuit

TSD

OCP

Level shift

MICx

UVLO_VBHO1

LO1

VBx

VB1

FO1

OCP1LIN1COM1HIN1

VCC1

HS1

VBB

W

LS3

V

LS2

U

LS1

VB2

FO2OCP2LIN2COM2HIN2

VCC2

HS2

VB3

FO3

OCP3LIN3COM3HIN3

VCC3

HS3

1

345

8

25

26

28

29

31

32

33

27

2

6

7

17

192021

22

18

23

24

9

1112

14

13

10

15

16

HO1

LO1

HO2

LO2

HO3

LO3

30

MIC1

MIC2

MIC3


CMOS-compatible Input (3.3 V or 5 V) 3-shunt Resistor Based Current Sensing Circuit

Protections: Overcurrent Protection (OCP)Simultaneous On-state PreventionUndervoltage Lockout for Power Supply (UVLO)Thermal Shutdown (TSD) : 150 °C (typ.)


DIP33

SCM126xMF Series600 V, 10–20 A, for 3-shunt Design, 3-phase Brushless Motor Driver IC

LF No. 2552Size: 47 mm × 19 mm

Block Diagram


Features

Package

3-shunt Design

P.20SGE0004 Mar. 18, 2021


SCM1272MF

600 V

15 A

1.7 VSCM1274MF 20 A

SCM1276MF 30 A

Temperature Monitor Output of Analog Voltage


CMOS-compatible Input (3.3 V or 5 V) 3-shunt Resistor Based Current Sensing Circuit

Protections: Overcurrent Protection (OCP)Simultaneous On-state PreventionUndervoltage Lockout for Power Supply (UVLO)


DIP33

SCM127xMF Series600 V, 15–30 A, for 3-shunt Design, 3-phase Brushless Motor Driver IC

Block Diagram


Features

Package

3-shunt Design

FOx

OCPx

LINx

COMx

HINx

VCCx

HSx

Input logic


prevention

UVLO_VCC

Drive circuit

Drive circuitOCP

Level shift

MIC1, MIC3

UVLO_VBHOx

LOx

VBx

VCCx

VB1

FO1

OCP1LIN1COM1HIN1

VCC1

HS1

VBB

W

LS3

V

LS2

U

LS1

VB2

SDVTLIN2COM2HIN2

VCC2

HS2

VB3

FO3

OCP3LIN3COM3HIN3

VCC3

HS3

1

345

8

25

26

28

29

31

32

33

27

2

6

7

17

192021

22

18

23

24

9

1112

14

13

10

15

16

HO1

LO1

HO2

LO2

HO3

LO3

30

MIC1

MIC2

MIC3

SD

VT

LIN2

COM2

HIN2

VCC2

HS2

Input logic


prevention

Drive circuit

Drive circuitTemperature

monitor

Level shift

MIC2

UVLO_VBHO2

LO2

VB2

*21 pin and 28 pin are cut


P.21SGE0004 Mar. 18, 2021

SCM200xMKF Series


SCM2007MKF600 V

20 A1.7 V

SCM2008MKF 30 A


CMOS-compatible Input (3.3 V or 5 V) 3-shunt Resistor Based Current Sensing Circuit Protections:

Overcurrent Protection (OCP): Selectable OCP Hold Time (4 µs or 8 ms) Undervoltage Lockout for Power Supply (UVLO)Thermal Shutdown (TSD)

NTC thermistor Built-in

DIP33

600 V, 120–30 A, 3-phase Brushless Motor Driver IC

Block Diagram


Features

Package

3-shunt Design

UVLOUVLOUVLOUVLO

Low-sideInput Logic

UVLO

VCC1

VB1 VB2 VB3

VBB

V

U

LS1FO

COM2

LIN3LIN2LIN1

VCC2

COM1

HIN3HIN2HIN1

High-sideLevel Shift Driver

OCP OCP

LS2

W

ShutdownLS3

SELECT

SDSD

Thermistor

THM1 THM2

Low-sideDriver

HS1 HS2 HS3

High-side MIC

Low-side MIC

23 21 17

27

29

32

678

10

131415

12

11

2

5

1

33

28

30

31

3

9

24 22 18 25 26

High-sideInputLogic

HO3

HO2

HO1

LO3

LO2

LO1


P.22SGE0004 Mar. 18, 2021

SX6812xM Series

SOP36

Quiet Motor can be Achieved by Sine-wave Current.

PCB Downsizing and Component Count Reducing.・Supports Hall element input ・Built-in Bootstrap Diodes and Current

Limiting Resistors

Advance Angle Controlled by External Signal Fault Signal Output Changing Direction of Rotation Adjustable Switching Frequency 5 V Reference Voltage Output for Power Supply such as Hall Sensor


Protections: Locked Motor ProtectionOvercurrent Protection (OCP)Overcurrent Limiting Function (OCL) Undervoltage Lockout for Power Supply (UVLO) Thermal Shutdown (TSD): 130 °C(typ.)


SX68128M600 V

1.5 A 3.6 Ω

SX68127M 2.0 A 2.5 Ω

Size: 22.0×14.1×2.1mm


Features

Package Block Diagram

3-shunt Design

Supports Hall element input, 600 V, 1.5–2.0 A, 3-phase Brushless Motor Driver IC

UVLO(VB)

UVLO(VCC / 5 V)

VREG

Thermal shutdown

Control circuit

VREG(5 V / 30 mA) UVLO VREG

OSC

Reset

OCL/OCP

Control circuit

HIN1

Error

VB1VB2VB3

VBB

VBB

UV1W1V2W2

LS2

COM

FG

LA

VSP

HUPHUNHVPHVNHWPHWN

VREG

VCC1

OCP

LS1

LS3

Sine wave matrix

Square wave matrix

Triangle wave

Controller Gate Driver

CW/CCW

MLP

FO

UVLO VCC

VCC2

OSCR

Rotation freq. and direction

detection

HIN2HIN3

LIN1LIN2LIN3

18

1

34

78

15

16

14

13

9

12

56

10

2

11

26

21

20

1923

27

3431

36

29

253233

High-side driverDrive system

control circuit

Inpu

t log

ic

Position estimation

17

I/OLogic

HO1HO2HO3

Low-side driver

LO1

LO2

LO3

HU

HV

HW

Analog digital

converter

P.23SGE0004 Mar. 18, 2021

SX6820xM Series

SOP36

High Efficiency is Kept at the Rapid Variations of Load. Quiet Motor can be Achieved by Sine-wave Current. PCB Downsizing and Component Count Reducing.

・Built-in Sensorless Vector Control ・Built-in Bootstrap Diodes and Current

Limiting Resistors Simple Setting

・EEPROM for Parameter Save・PI Control with Two Speed Control Mode

- Analog Voltage Control by VSP- Serial Communication (Same as I2C)

3-shunt Resistor Based Current Sensing Circuit DIAG Pin Fault Signal Output Protections:

V3, VCCx, and VBx Pins Undervoltage LockoutWatchdog Time Out DetectionMemory Fault Detection Motor Power Supply Undervoltage Detection by VM PinSoft/Hard Overcurrent DetectionOver-Temperature Warning 135 °C(typ.)

Thermal Shutdown 150 °C(typ.) Loss of Sensorless Synchronization


SX68201M 250 V 2.0 A 1.5 Ω

SX68203M600 V

1.5 A 5.5 Ω

SX68205M 2.0 A 2.5 Ω

Size: 22.0×14.1×2.1mm

Sensorless Vector Control, 250/600 V, 1.5–2.0 A, 3-phase Brushless Motor Driver IC


Features

Package

3-shunt Design

Block Diagram

UVLO(VB)

UVLO(VCC, 5 V)

VREG

TD

181

VB1VB2VB3

VBB

UV1W1V2W2

LS1

COM

DIR

FG

TEST

VSP

DIAG

VCC2VCC1

LS2LS3

SDA

SCL

RESETn

3-phase Sine Generator

PWM

ADC

ConfigurationRegisters

NVM ProgramSupply

LogicSupply

Data Bufferand

Command Decode

VSP

CSCOMVM

11V3

VPP

6

13

12

3

2

4

CSWCSVCSU

V3

V3

VBB

27High-side

Driver

Low-sideDriver

36

19233431

262120

14

151617

Motion Control

and

Start Sequence

Watch-dog

Diagnosticsand

Protection

VectorMotor

Controller

10

9

5

Inpu

t Log

ic

ControlLogic

29

253233

MUX

7

8

RPD

Gate Driver

RPU_S

RPU

ROH

V3

HIN1HIN2HIN3

LIN1LIN2LIN3

Controller

P.24SGE0004 Mar. 18, 2021

SX6820xM Series

The SX68200M series is connected directly to a personal computer using communication cable, be written each parameters via the GUI (Graphic User Interface). The parameters can be set optimally with rotating motor.

◆System Image


◆ GUI for SX68200M Series

Startup

Current control

Rotation control Protection

Motor

SX6820xMPC

Communication cable

3-shunt Design

P.25SGE0004 Mar. 18, 2021

55%PCB Downsizing 45%

Reducing

SX6820xM Series 3-shunt Design

High Efficiency and Quiet Motor Realizing.

Motor operates in nearly sine wave.

■ Existing Product ■ SX6820xM Series

PCB Downsizing and Component Count Reducing.・Small and Thin Package ・Built-in Sensorless Vector Control ・Built-in Bootstrap Diodes and Current

Limiting Resistors

Diameter :75 mmBore diameter :20 mm(Area: 4102 mm2)Component count: 72

Area: 46 mm × 40 mm =1840 mm2

Component count: 39

■ SX6820xM Series Using■ Existing Product


P.26SGE0004 Mar. 18, 2021

Important Notes

All data, illustrations, graphs, tables and any other information included in this document (the “Information”) as to Sanken’s products listed herein (the “Sanken Products”) are current as of the date this document is issued. The Information is subject to any change without notice due to improvement of the Sanken Products, etc. Please make sure to confirm with a Sanken sales representative that the contents set forth in this document reflect the latest revisions before use.The Sanken Products are intended for use as components of general purpose electronic

equipment or apparatus (such as home appliances, office equipment, telecommunication equipment, measuring equipment, etc.). Prior to use of the Sanken Products, please put your signature, or affix your name and seal, on the specification documents of the Sanken Products and return them to Sanken. When considering use of the Sanken Products for any applications that require higher reliability (such as transportation equipment and its control systems, traffic signal control systems or equipment, disaster/crime alarm systems, various safety devices, etc.), you must contact a Sanken sales representative to discuss the suitability of such use and put your signature, or affix your name and seal, on the specification documents of the Sanken Products and return them to Sanken, prior to the use of the Sanken Products. The Sanken Products are not intended for use in any applications that require extremely high reliability such as: aerospace equipment; nuclear power control systems; and medical equipment or systems, whose failure or malfunction may result in death or serious injury to people, i.e., medical devices in Class III or a higher class as defined by relevant laws of Japan (collectively, the “Specific Applications”). Sanken assumes no liability or responsibility whatsoever for any and all damages and losses that may be suffered by you, users or any third party, resulting from the use of the Sanken Products in the Specific Applications or in manner not in compliance with the instructions set forth herein.In the event of using the Sanken Products by either (i) combining other products or materials or

both therewith or (ii) physically, chemically or otherwise processing or treating or both the same, you must duly consider all possible risks that may result from all such uses in advance and proceed therewith at your own responsibility.Although Sanken is making efforts to enhance the quality and reliability of its products, it is

impossible to completely avoid the occurrence of any failure or defect or both in semiconductor products at a certain rate. You must take, at your own responsibility, preventative measures including using a sufficient safety design and confirming safety of any equipment or systems in/for which the Sanken Products are used, upon due consideration of a failure occurrence rate and derating, etc., in order not to cause any human injury or death, fire accident or social harm which may result from any failure or malfunction of the Sanken Products. Please refer to the relevant specification documents and Sanken’s official website in relation to derating.No anti-radioactive ray design has been adopted for the Sanken Products.The circuit constant, operation examples, circuit examples, pattern layout examples, design

examples, recommended examples, all information and evaluation results based thereon, etc., described in this document are presented for the sole purpose of reference of use of the Sanken Products.

Sanken assumes no responsibility whatsoever for any and all damages and losses that may be suffered by you, users or any third party, or any possible infringement of any and all property rights including intellectual property rights and any other rights of you, users or any third party, resulting from the Information.No information in this document can be transcribed or copied or both without Sanken’s prior

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kind, whether express or implied, including, without limitation, any warranty (i) as to the quality or performance of the Sanken Products (such as implied warranty of merchantability, and implied warranty of fitness for a particular purpose or special environment), (ii) that any Sanken Product is delivered free of claims of third parties by way of infringement or the like, (iii) that may arise from course of performance, course of dealing or usage of trade, and (iv) as to the Information (including its accuracy, usefulness, and reliability).In the event of using the Sanken Products, you must use the same after carefully examining all

applicable environmental laws and regulations that regulate the inclusion or use or both of any particular controlled substances, including, but not limited to, the EU RoHS Directive, so as to be in strict compliance with such applicable laws and regulations.You must not use the Sanken Products or the Information for the purpose of any military

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High Voltage Motor Driver ICs Slection Guide - SGE0004€¦ · Built-in NTC thermistor; p.18 1.5 to...

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