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1 SGE0011 Mar. 20, 2018
ICs (For Power Supply, Motor Drive, Linear Solenoid Drive) Discrete Devices (Diodes, Power MOSFETs) High-side Switches
SANKEN ELECTRIC CO., LTD
Selection Guide for HEV/EV
All the contents in this document are as of date of publication. Make sure that this is the latest revision of the document before use. Please check the details of the product by data sheet. http://www.sanken-ele.co.jp/en
2 SGE0011 Mar. 20, 2018
HEV/EV System 3 • Battery Charger System 4 • Buck Converter Circuit 5 • High Voltage Auxiliary Motor 6 • Fuel Injection System 7 • Actuator Control Unit (ACU) 8
Motor Drivers (35 V to 650 V) 9
Power Management ICs 15
Diodes 20 • TVS Diodes 21 • Schottky Diodes 22
• Fast Recovery Diodes 23
Power MOSFETs 24
Linear Solenoid Driver 27
High-side Switches 29
Important Notes 31
Contents
3 SGE0011 Mar. 20, 2018
プラグ
Main Motor Inverter
Plug
High Voltage Battery
12 V Battery
Accessories
High Voltage Auxiliary Motor
Battery Charger
Buck Converter
Fuel Engine*
Fuel Injection System
Transmission
HEV/EV System
Schottky Diodes Fast Recovery Diodes
Power Management IC
Power MOSFETs
Sanken provides various devices for HEV and EV systems that have a high voltage battery.
Power Management IC
Power Management IC
3-phase Brushless Motor Driver
PFC IC
Power MOSFETs
Power MOSFETs High-side Switch
Actuator Control Unit
P-channel Power MOSFET with Protection for Reverse Connection
Linear Regulator
*For HEV only Linear Solenoid Driver
Schottky Diodes Fast Recovery Diodes
→p. 4
→p. 6
→p. 7
→p. 8
→p. 5
4 SGE0011 Mar. 20, 2018
PFC IC
DC/DCConverter
DC/DCConverter
VCC
VCC
HEV/EV System: Battery Charger System For the battery charging circuit from a power plug, Sanken provides devices such as the PFC IC including power devices, auxiliary power supply ICs, and rectification diodes.
PFC ICDC/DC
Converter
VCC
VCC
ControllerVCC
Power Management IC: SFA0002 →p. 17
Schottky Diodes Fast Recovery Diodes →pp. 22-23
Low Voltage Battery
High Voltage Battery
High Voltage Battery
AC Input
AC Input
Power Management IC: SPF8201
→p. 18
Auxiliary Power Supply Using AC Input
Auxiliary Power Supply Using Battery Schottky Diodes
Fast Recovery Diodes → pp. 22-23
PFC IC with Power Devices: SDE6530P12151
→p. 19
PFC IC with Power Devices: SDE6530P12151
→p. 19
5 SGE0011 Mar. 20, 2018
Controller
DC/DC Control
Isolated Gate Driver
Isolated Gate Driver
High Voltage Battery
HEV/EV System: Buck Converter Circuit
For the buck converter circuit from a high voltage battery, Sanken provides devices such as power management ICs and rectification diodes.
Power Management IC: SPF8201
Schottky Diodes Fast Recovery Diodes
High Voltage Side
Low Voltage Side
→pp. 22-23
→p. 18
6 SGE0011 Mar. 20, 2018
Motor Driver
Microcomputer
M
ControllerVCC
HEV/EV System: High Voltage Auxiliary Motor
For the high voltage auxiliary motor circuit, Sanken provides devices such as power management ICs, motor drive ICs, and discrete devices.
3-phase Brushless Motor Driver
N-channel Power MOSFET
High Voltage Battery
→p. 9
→p. 25
Power Management IC: SPF8201 →p. 18
7 SGE0011 Mar. 20, 2018
DC/DC Control
DC/DC Control
HEV System: Fuel Injection System
For the fuel injection system, Sanken provides various discrete devices. The power MOSFET modules achieve the downsizing of the drive circuit.
Power MOSFET Modules: SHD4102/SHD4115
N-channel Power MOSFET Power MOSFET Modules: SHD4101/SHD4111
Schottky Diodes Fast Recovery Diodes Power MOSFET Modules:
SHD4102/SHD4115
Piezo Injection
Solenoid Injection
Solenoid Injection System Piezo Injection System
→p. 26
→p. 26 →p. 26
→p. 25
→pp. 22-23
8 SGE0011 Mar. 20, 2018
Driver
Linear Regulator
Microcomputer
Driver
HEV/EV System: Actuator Control Unit (ACU)
For the Actuator Control Unit (ACU) of a linear solenoid valve in the transmission, Sanken provides various devices such as linear solenoid drivers.
Linear Regulator →p. 16
Linear Solenoid Driver
P-channel Power MOSFET
High-side Switch
Low Voltage Battery
Linear Solenoid
→p. 29
→p. 27
9 SGE0011 Mar. 20, 2018
SPF6102 Selectable External Power MOSFET (VCC = 35 V)
SAE6530P0DA01 Built-in Power MOSFET
650 V, 30 A 650 V, 50 A
DC Brush Motor: Smaller Circuit Size
SPF6001 Half-bridge Driver Selectable External Power MOSFET(VCC = 35 V)
SPF7302 Full-bridge Driver Built-in Power MOSFET(40 V, 3 A)
3-phase Brushless Motor: Low Noises, Long Life, Fast Rotation, High Efficiency
Motor Drivers (35 V to 650 V)
→p. 10
HSOP48
DIP25
For the DC brush motor drivers used in: • Radiator Pump • Fan for Air Conditioner • Electric Power Steering (EPS)
For the 3-phase brushless motor drivers used in: • Inverter • 24 V and 450 V Battery Management System (BMS) • Integrated Starter Generator (ISG) Hybrid System • High Voltage Auxiliary Circuit (Compressor, etc.)
For the stepper motor drivers used in: • Power Window • Windshield Wiper
HSOP16
HSOP24
HSOP16
→p. 11
→p. 12
→p. 13
→p. 14
Stepper Motor (Bipolar Drive): Easy Position Control, Long Life, Large Torque in Slow Rotation
SPF7211 Built-in Power MOSFET
40 V, 1 A
Sanken’s motor drivers for automotive applications are AEC-Q100 qualified high-quality ICs. Sanken provides the optimal ICs according to the application and system of the DC motors.
UD
: Under Development UD
10 SGE0011 Mar. 20, 2018
SPF6102 Typical Application
Specifications
• AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Built-in Bootstrap Diodes • Built-in Auxiliary Power Supply (VREGx) • Enable Function (All Phases Shutdown with EN = Logic Low) • Fault Signal Output at Protect Circuit Activated • Protections
Simultaneous On-state Prevention VBB Pin Overvoltage Protection (VBB_OVP) Overcurrent Protection (OCP) Under Voltage Protection - VBB Pin (VBB_UVLO) - VDD Pin (VDD_UVLO) - VREGx Pin (VREGx_UVLO) Thermal Shutdown (TSD)
HSOP48
Features
Package
Part Number VDC VBB On-resistance of Internal Driver
SPF6102 150 V 35 V Sink: 7 Ω (typ.) Source: 10 Ω (typ.)
VDD
SA
GHA
LGND
LOC
LOB
LOA
HIC
HIB
HIA
LSC
LSB
VDD
RFO
RS
Cont
rolle
r
M
CDCCS
VDC
20
13
4
19
12
5
3
HIN3
HIN2
HIN1
LIN3
LIN2
LIN1
Fault
GND
LSAVDD
VBB
45
35
43
38
1
42
44GLA
34CC
GHB
SB
32SC
GHC
36GLB
31GLC
39
41
CB
CA
CP1ACP2A
67
VREGC
VREGAVREGB
15
89
CP2BCP1B
1011
LGND14
CP2CCP1C
1617
EN
25LGND
28FLT
29PGND
30
37
LGND48
18VBB
21Enable
SPF6
102
33
3-phase Brushless Motor Driver
11 SGE0011 Mar. 20, 2018
SAE65x0P0DA01 Typical Application
Selection Guide
• AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • High Thermal Dissipation DIP Package
(Low Thermal Resistance, Rθ(J-C): 1.0 °C/W) • Built-in Bootstrap Diodes • Built-in 650 V IGBTs with Fast Recovery Diode • Fault Signal Output at Protect Circuit Activated • Protections
Overcurrent Protection (OCP) Under Voltage Protection (UVLO)
• Built-in NTC Thermistor • Isolation Voltage: 2500 V (for 1 min)
Features
Package
3-phase Brushless Motor Drivers (650 V, 30 A/50 A)
DIP29
Part Number VCES IC VCE(SAT) (typ.) TJ = 125 °C
SAE6530P0DA01 650 V
30 A 1.7 V
SAE6550P0DA01 50 A UD
: Under Development UD
12 SGE0011 Mar. 20, 2018
SPF6001
Typical Application
• AEC-Q100 Qualified
• Bare Lead Frame: Pb-free (RoHS Compliant)
• Built-in Bootstrap Diodes
• Built-in Auxiliary Power Supply
• Enable Function (All Phases Shutdown with EN = Logic Low) • Fault Signal Output at Protect Circuit Activated
• Protections VBB Pin Overvoltage Protection (VBB_OVP) Overcurrent Protection (OCP) Under Voltage Protection - VBB Pin (VBB_UVLO) - VDD Pin (VDD_UVLO) - VREGx Pin (VREGx_UVLO) Thermal Shutdown (TSD)
Features
Package
DC Brush Motor Driver
HSOP16
VDD
LOHI
LS
Cont
rolle
rM
VDC
HIN1
LIN1
GND
VDD
VBB
GH
SH
OL
O
VREGCP2CP1
EN
LGND
VBB
Enable
SPF6001
FLTFault
RFO
Block Diagram
13 SGE0011 Mar. 20, 2018
SPF7302
• AEC-Q100 Qualified
• Bare Lead Frame: Pb-free (RoHS Compliant)
• Enable Function (All Phases Shutdown with DI = Logic Low)
• Protections Overcurrent Protection (OCP) Overvoltage Protection (OVP) Under Voltage Protection (UVLO) Thermal Shutdown (TSD)
Features
Package
DC Brush Motor Driver (Built-in Power MOSFET of 40 V, 3 A)
LOHI
DLY
Cont
rolle
rM
HIN1
LIN1
GND
VCC
VB
OUT1
OUT2
DILGND
VB
Enable
SPF7302
DIAGFault
RDIAG
PGND
CP
HSOP16
Typical Application
Block Diagram
14 SGE0011 Mar. 20, 2018
SPF7211
• AEC-Q100 Qualified
• Bare Lead Frame: Pb-free (RoHS Compliant)
• Two Full-bridge Circuits
• Standby Circuit
• Fault Signal Output at Protect Circuit Activated
• Protections Overload and Open Detection Overcurrent Protection (OCP) Under Voltage Protection (UVLO) Thermal Shutdown (TSD)
Features
Package
Stepper Motor Diver (Bipolar Drive, 40 V, 1 A)
HSOP24
Typical Application
Block Diagram
15 SGE0011 Mar. 20, 2018
SDE6530P12151 Built-in Power MOSFETs and Boost Diodes 650 V, 30 A
SPF3000 Series • One Input, Two Outputs Linear Regulator • Built-in Power MOSFET
IO = 0.2 A to 0.4 A VIN = 35 V
Off-line PWM Controllers (Primary-side Regulation)
SFA0002 Selectable External Power MOSFET (VCC = 35 V)
SPF8201 Built-in Power MOSFET
600 V, 3 A
Two Outputs Linear Regulator
Power Management ICs Sanken’s power management ICs for automotive applications are AEC-Q100 qualified high-quality ICs. Sanken provides the optimal ICs according to the application and system of a power supply.
→p. 16
For the isolated auxiliary power supply circuits used in: • Inverter • On Board Charger (OBC) • Battery Management System (BMS)
For the buck converters used in: • Inverter • On Board Charger (OBC) • Battery Management System (BMS)
For the following power management circuits using a power factor correction circuits:
• Normal Charging On Board Charger (OBC) • AC/DC Converters for Automotive Applications
HSOP16
DIP32
HSOP16
→p. 17
→p. 18
→p. 19
Power Factor Correction IC (CCM, Interleaved Control)
SOP8
UD
: Under Development UD
16 SGE0011 Mar. 20, 2018
SPF3000 Series
SOP16
Features • One Input, Two Outputs Linear Regulator • AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • High Accuracy Output Voltage (Output 1: ±2%) • Power-on Reset Function • Built-in Watchdog Timer • Enable Function • Protections
Overcurrent Protection: Drooping Thermal Shutdown (Output 1)
Two Outputs Linear Regulators (IO = 0.2 A to 0.4 A, VIN = 35 V)
Package
Selection Guide
Part Number Output 1 Output 2
VIN (max.) PD IO VO IO VO
SPF3006 0.4 A 5.0 V 0.2 A 5.0 V 35 V 3 W
SPF3009 0.4 A 5.0 V 0.2 A 3.3 V
Battery
5 V, 0.4 A
GND
GND
ENHOLD
CK
VIN
MODE
Reset
VO2
TCWDC
Load1
Load2
5 V/3.3 V, 0.2 A
Typical Application
Applications For the buck converters used in: • Inverter • On Board Charger (OBC) • Battery Management System (BMS)
17 SGE0011 Mar. 20, 2018
SFA0002 Off-line PWM Controller (Primary-side Regulation)
SOP8
Features • AEC-Q100 Qualified • Pb-free • Current Mode Type PWM Control • Switching Frequency: 20 kHz to 200 kHz
(Adjusted by External Capacitor) • Reducing External Component Count by Primary-side
Regulation • Built-in High Accuracy Error Amplifier
(VFB = 2.5 V ± 2%, − 40 °C to 125 °C) • Operating Mode
Normal Operation: PWM Mode Light Load Operation: Burst Oscillation
• Soft Start Function (Startup time can be adjusted by external capacitor)
• Drive Output Stop Function • Protections
Overcurrent Protection (OCP): Pulse-by-Pulse Overload Protection (OLP): Auto-restart Thermal Shutdown (TSD): Auto-restart
Package
Typical Application
R2
D1
T1
C9
C2
D2
C1
R6
Q1
1
5
6
7
8
4
2
OCP
DRIVE
COMP
FREQ
SFA0002SS
FB
VCC
3GND
R1
R4
R5
C4
C3
R3
C8R10
R8
R9
C7
R7
C5
C6
IN
P S1
D
D52OUT2 (+)
C53
OUT2 (-)
C54R52
D51OUT1 (+)
C51
OUT1 (-)
C52R51
S2
Specifications
Part Number VCC Switching Frequency
Output Characteristics
SFA0002 36 V(max.) 20 kHz to 200 kHz Sink: 180 mA Source: −90 mA Gate Voltage: 4 V (min.)
Applications For the isolated auxiliary power supply circuits used in: • Inverter • On Board Charger (OBC) • Battery Management System (BMS)
18 SGE0011 Mar. 20, 2018
SPF8201 Off-line PWM Controllers (Primary-side Regulation, Built-in Power MOSFET of 600 V, 3 A)
HSOP40
Features • AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Current Mode Type PWM Control • Switching Frequency: 20 kHz to 200 kHz
(Adjusted by External Capacitor) • Reducing External Component Count by Primary-side
Regulation • Built-in High Accuracy Error Amplifier
(VFB = 2.5 V ± 2%, − 40 °C to 125 °C) • Operating Mode
Normal Operation: PWM Mode Light Load Operation: Burst Oscillation
• Soft Start Function (Startup time can be adjusted by external capacitor)
• Drive Output Stop Function • Protections
Overcurrent Protection (OCP): Pulse-by-Pulse Overload Protection (OLP): Auto-restart Thermal Shutdown (TSD) : Auto-restart
Package
Typical Application
Specifications Part
Number VCC Switching Frequency
Built-in Power MOSFET
SPF8201 36 V (max.) 20 kHz to 200 kHz
VDSS (DC): 600 V VDSS (Pulse): 800 V RDS(ON) (25 °C): 6.5 Ω (max.) ID (Pulse): 3 A (Peak)
Applications For the isolated auxiliary power supply circuits used in: • Inverter • On Board Charger (OBC) • Battery Management System (BMS)
R1
D1
T1
C2
D2
C1
R2
SPF8201
C3R5
R3
R4
C4
R6
IN
PS1
D
D52OUT2 (+)
C53
OUT2 (-)
C54R52
D51OUT1 (+)
C51
OUT1 (-)
C52R51
S2
C5
1
12
25
S/OCP
D/ST
SS/STP
GNDPGND
COMP 28
40D/ST
33D/ST
FREQ 271314
OPTION15
FB16
VCC17
21GNDGND20
26GND
11 S/OCP
10 S/OCP
9 S/OCP
8 S/OCP
7 S/OCP
6 S/OCP
1819 22
2324
393837363534
C6
19 SGE0011 Mar. 20, 2018
SDE6530P12151 Power Factor Correction IC (CCM, Interleaved Control)
Under Development
DIP32
Features • AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Average Current Mode Control • Interleaved • High Thermal Dissipation DIP Package
(Low Thermal Resistance, Rθ(J-C): 0.7 °C/W) • Built-in High Accuracy Error Amplifier
(Reference Voltage: 2.50 V ± 2%) • Brown-in and Brown-out Function • Soft Start Function • Protections
Overcurrent Protection 1 (OCP1): Pulse-by-Pulse Overcurrent Protection 2 (OCP2): Latched Shutdown Output Overvoltage Protection (OVP): Latched Shutdown VCC Pin Overvoltage Protection (VCC_OVP): Auto-restart FB Pin Overvoltage Protection (FB_OVP): Auto-restart FB Pin Undervoltage Protection (FB_UVP): Auto-restart Thermal Shutdown (TSD) : Auto-restart
Package
Typical Application
Specifications
Part Number VCC Switching Frequency
Built-in Power MOSFET
SDE6530P12151 36 V (max.)
20 kHz to 100 kHz
VDSS: 650 V RDS(ON) (25 °C): 58 mΩ (max.) ID : 30 A
Applications For the following power management circuits using a power factor
correction circuits: • Normal Charging On Board Charger (OBC) • AC/DC Converters for Automotive Applications
External power supply
OU
T1
BS1
NC
CS1
ICO
MP1
RT
SL SS NC
BR
VA
C
GN
D
DIA
G
FM CO
MP
FB OV
P
ICO
MP2
CS2
VC
C
NC
BS2
OU
T2
TH1
TH2 S1 D1
A1
CA A2
D2 S2
23222120191 2 3 4 5 6 7 8 9 10 11 14 15 16 17 18
242532 31 30 29 28 27 26
External power supply
C1
F1
C2
R1 R4
R2 R5
R3 R6
R9
D3
C3
R8
D2 R7
C4
C5
C6R12R13
C7 C8
R11R10
R14
R15
C9C10
R16
C11
C12
C14
C13
R17C15
R20R23 R26
R25R22
R24R21
C16 C17D6
R19D7
R18
L2
D8
L1
CT1 CT2
D1
D4
D5
1312
20 SGE0011 Mar. 20, 2018
Diodes Sanken provides the optimal diodes according to the automotive application. The TVS diodes have high surge capability, and protect automotive electronic units, especially from the surge generated during load dump conditions and voltage transients induced by inductive loads. These are provided in high thermal dissipation package. The various diodes for high speed switching such as switching power supply are provided.
Features • AEC-Q101 Qualified • TJ = 175 °C Capability Suitable for High Reliability and
Automotive Requirement • Flammability UL94V-0 (Equivalent) • Bare Lead Frame: Pb-free (RoHS Compliant)
Typical Application
BatteryLoad
Key
Surge Absorber
GND
OUT2 (+)
OUT2 (-)
OUT1 (+)
OUT1 (-)
Flyback PWM
Control IC
• PD = 1 W to 6 W • For Circuit using 12 V or 24 V Battery • Meets the Surge Protection Requirements in ISO7637-2
TVS Diodes
• VRM = 40 V to 90 V • IF(AVG) = 1 A to 3 A, and 45 A
Schottky Diodes
• VRM = 200 V to 600 V • 1 A to 3 A
Fast Recovery Diodes
→p. 22
→p. 23
→p. 21 Schottky Diodes Fast Recovery Diodes
TVS Diodes
21 SGE0011 Mar. 20, 2018
TVS Diodes
PD Part Number VZ (min.) VZ (max.) IRSM IR Package ISO7637-2
1 W SJPZ-K28 25.0 V 31.0 V 2 A 10 μA
SJP Pulse 1 to 3 2 W
SJPZ-N18 16.8 V 19.1 V 1 μA
SJPZ-N27 25.1 V 28.9 V 1 μA
SJPZ-N33 31.0 V 35.0 V 1 μA
SJPZ-N40 37.8 V 42.2 V 1 μA
5 W
PZ628 25.0 V 31.0 V 65 A 10 μA Axial (φ10.0/φ1.3)
SZ-10N27 24.0 V 30.0 V 70 A 10 μA
SZ-10 Pulse 5a SZ-10N40 36.0 V 44.0 V 45 A 10 μA
6 W SZ-10NN27 24.0 V 30.0 V 90 A 10 μA
SZ-10NN40 36.0 V 44.0 V 70 A 10 μA
SJP SZ-10
Axial (φ10.0/φ1.3)
Features • AEC-Q101 Qualified • Meets the Surge Protection Requirements in ISO7637-2 • TJ = 175 °C Capability Suitable for High Reliability and
Automotive Requirement • Flammability UL94V-0 (Equivalent) • Bare Lead Frame: Pb-free (RoHS Compliant)
AEC-Q101, ISO7637-2 Qualified
Packages
Selection Guide
22 SGE0011 Mar. 20, 2018
Schottky Diodes
SJP SZ-10 Features • AEC-Q101 Qualified • Guaranteed Avalanche Energy for SZ-10EF • Flammability UL94V-0 (Equivalent) • Bare Lead Frame: Pb-free (RoHS Compliant)
40 V to 90 V, 1 A to 3 A and 45 A
Packages
Selection Guide
Package VRM IF(AVG) Part Number IFSM (50 Hz Half-wave)
VF
VF (max.) IF Condition
SJP
40 V
2.0 A SJPE-H4 40 A 0.60 V 2.0 A
2.0 A SJPB-H4 50 A 0.55 V 2.0 A
3.0 A SJPB-L4 60 A 0.55 V 3.0 A
60 V
1.0 A SJPB-D6 20 A 0.68 V 1.0 A
2.0 A SJPB-H6 40 A 0.69 V 2.0 A
3.0 A SJPB-L6 50 A 0.70 V 3.0 A
1.5 A SJPW-F6 25 A 0.70 V 1.5 A
90 V 1.0 A SJPB-D9 20 A 0.85 V 1.0 A
2.0 A SJPB-H9 40 A 0.85 V 2.0 A
SZ-10 80 V 45 A SZ-10EF 300 A 0.82 V 45 A
Anode
23 SGE0011 Mar. 20, 2018
Fast Recovery Diodes 200 V to 600 V, 1 A to 3 A
Selection Guide
VRM IF(AVG) Part Number IFSM (50 Hz Half-wave)
VF trr
IF : IR = 1 : 1 VF (max.) IF Condition
200 V
1.0 A SJPL-D2 25 A 0.98 V 1.0 A 50 ns
1.5 A SJPX-F2 30 A 0.98 V 1.5 A 30 ns
2.0 A SJPL-H2 25 A 0.98 V 2.0 A 50 ns
3.0 A SJPL-L2 60 A 0.98 V 3.0 A 50 ns
300 V 2.0 A SJPX-H3 20 A 1.3 V 2.0 A 30 ns
400 V 1.5 A SJPL-F4 25 A 1.3 V 1.5 A 50 ns
3.0 A SJPL-L4 30 A 1.3 V 3.0 A 50 ns
500 V 1.0 A SJPD-D5 20 A 1.4 V 1.0 A 40 ns
3.0 A SJPD-L5 50 A 1.4 V 3.0 A 50 ns
600 V 2.0 A SJPL-H6 30 A 1.5 V 2.0 A 50 ns
2.0 A SJPX-H6 20 A 1.5 V 2.0 A 30 ns
SJP Features • AEC-Q101 Qualified • Flammability UL94V-0 (Equivalent) • Bare Lead Frame: Pb-free (RoHS Compliant)
Package
24 SGE0011 Mar. 20, 2018
Power MOSFETs
Applications • Motor Drive • Injection Switch • Power Management Circuit
Features • AEC-Q101 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Guaranteed Avalanche Energy
Sanken provides various power MOSFETs according to the automotive application. The high-quality power MOSFETs have low on-resistance, and are optimal for the automotive applications including inverters and switch.
• VDSS = 40 V to 300 V • ID = ±20 A
N-channel Power MOSFETs
• Power MOSFET × 2 + FRD × 3 • Power MOSFET × 4
Power MOSFET Modules
→p. 25
→p. 26
Motor Driver
LDO
Microcomputer
M
Low Voltage Battery
25 SGE0011 Mar. 20, 2018
N-channel Power MOSFETs
TO252
Features • VDSS = 40 V to 300 V • Low On-resistance • AEC-Q101 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Guaranteed Avalanche Energy
VDSS = 40 V to 300 V, ID = ±20 A
Packages
Selection Guide
VDSS ID Part Number Package PD VGSS VTH
(max.)
Ciss Crss RDS(ON) (max.) VDS = 10 V,
VGS = 0 V
40 V
±60 A FKV460S TO263 60 W +20, −10 2.5 V 2800 pF 600 pF 9 mΩ
±70 A
2SK3800 TO263 80 W ±20 4 V 5100 pF 860 pF 6 mΩ 2SK3801 TO3P-3L 100 W
FLD470 TO220F-3L 35 W
60 V
±60 A FKV660S TO263 60 W +20, −10 2.5 V 2500 pF 150 pF 14 mΩ
±70 A 2SK3710 TO263 90 W
±20 4 V 8000 pF 1000 pF 6 mΩ 2SK3711 TO3P-3L 130 W
100 V ±20 A DKG1020 TO252 40 W ±20 2.5 V 2200 pF 110 pF 52 mΩ
275 V ±6 A SPF0004* SOP20 2.5 W ±20 2.6 V 960 pF 36 pF 260 mΩ
300 V ±15 A SUK3015 TO263 89 W ±20 2.5 V 1800 pF 85 pF 150 mΩ
TO263 SOP20
*Built-in two elements
TO220-3L TO3P-3L
26 SGE0011 Mar. 20, 2018
SHD Series
Part Number Configuration Pin Configuration D1 D2, D3 Q1 Q2 Q3, Q4
SHD4101 MOSFET×2 +FRD×3
Type A VRM: 200 V IDC(AVG): 5 A
VF: 1 V
VRM: 200 V IDC(AVG): 6 A
VF: 1 V VDSS: 40 V ID: 10 A
RDS(ON): 21 mΩ
VDSS: 100 V ID: 10 A
RDS(ON): 50 mΩ
—
SHD4111 Type B VRM: 200 V IDC(AVG): 5 A
VF: 1 V —
SHD4102 MOSFET×4
Type A — —
VDSS: 100 V ID: 10 A
RDS(ON): 50 mΩ SHD4115 Type B
HSON20
Features • PCB Size Reduction • Built-in Power MOSFETs and Fast Recovery Diodes • AEC-Q101 Qualified • Guaranteed Avalanche Energy • Bare Lead Frame: Pb-free (RoHS Compliant)
Power MOSFET Modules
Package Pin Configuration
TypeA
Type B
8
10
11, 1213, 14
15
17
7
5
3, 41, 2
20
18
Q3
Q2
Q4
8
10
11, 1213, 14
15
17
7
5
3, 41, 2
20
Q1 Q2
D1 D2
D3
Internal Schematic Diagram Power MOSFET×2+FRD×3 Power MOSFET×4
Selection Guide
Applications • Injection Driver • Battery Line Switch • Motor Drive
UD
: Under Development UD
UD
27 SGE0011 Mar. 20, 2018
Linear Solenoid Driver
Application • Linear Solenoid
Features • AEC-Q101 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant)
Sanken’s linear solenoid driver can control according to a load by an internal 16-bit serial communication. It is optimal for system using multiple linear solenoids.
• Two Outputs, VDD = 32 V (max.), High-side Detection
• 16-bit Serial Communication
Linear Solenoid Driver
→p. 28
Battery
GND
LDO
Microcomputer Linear Solenoid Driver
Typical Application
HSOP48
28 SGE0011 Mar. 20, 2018
SPF5035 Typical Application
Specifications
HSOP48
Features
Package
Part Number VDC RDS(ON) Control Frequency
SPF5035 40 V (400 ms) 32 V (DC) 0.3 Ω 122 Hz to 1953 Hz
Linear Solenoid Driver
• AEC-Q100 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • 2 Outputs • High-side Detection • Built-in Power MOSFETs • High Accuracy Output Current: ±10 mA (ID = 0.1 A to 0.8 A) • 16-bit Serial Communication
Setting Value: Output Current, Frequency, Feedback Ratio, Dither, etc. Output Signal: Load Current Value in 9-bit, Diagnostic Signals
• Diagnostic Function Open Load Detection No Reference Clock
• Protections Overvoltage Protection (VBB_OVP) Overcurrent Protection (OCP) Thermal Shutdown (TSD)
29 SGE0011 Mar. 20, 2018
High-side Switches
Applications For switches used in: • Engine Control Unit (ECU) • Seat Heater
Features • AEC-Q100, AEC-Q101 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant)
Sanken’s high-side switches are two types: IC that is built-in N-channel power MOSFET and control chip; and P-channel power MOSFET. They achieve downsizing of PCB, because a main switch and protection for reverse connection circuit are in one product.
• VDSS = − 40 V, ID = −17 A • Built-in Protection for Reverse Connection
P-channel Power MOSFET
• 40 V, 10 A • Built-in Protection for Reverse Connection
High-side Switch IC
→p. 31
→p. 30
Battery
GND
LDO
Microcomputer
Typical Application
UD
: Under Development UD
30 SGE0011 Mar. 20, 2018
SPF5302A
Features
• AEC-Q100 Qualified
• Bare Lead Frame: Pb-free (RoHS Compliant)
• Undervoltage Protection
• Built-in Protection for Reverse Connection
• Breakdown Voltage at Reverse Connection: −15V
High-side Switch IC (VB = 40 V, IO = 10 A)
Package
Specifications
Part Number Package VB IOUT(DC) RDS(ON) (max.) TJ = 125 °C
SPF5302A HSOP24 6 V to 40 V 10 A 38 mΩ
HSOP24
Battery
VBB
Load
MIcro-computer
OUTGND
IN Control
SPF5302A
Typical Application
Under Development
31 SGE0011 Mar. 20, 2018
P-channel Power MOSFET
TO252
Features • VDSS = −40 V • Low On-resistance • AEC-Q101 Qualified • Bare Lead Frame: Pb-free (RoHS Compliant) • Guaranteed Avalanche Energy • Including Main Switch and Protection for Reverse Connection (RBP)
VDSS = −40 V, ID = −17 A
Package
Specifications
Part Number Package VDSS ID PD VGSS VTH (max.) RDS(ON) (max.)
DJR0417 TO252 −40 V −17 A 48 W −15 V to 0 V −2.5 V 75 mΩ
Battery
For main switch
GND
Load
Gate Driver
Microcomputer
For reverse battery protection Battery
DJR0417
GND
Load
Gate Driver
Microcomputer
S
D
G
Schottky Diode
Body Diode
32 SGE0011 Mar. 20, 2018
Important Notes
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(transportation equipment and its control systems, 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. If considering use of the Sanken Products for any applications that require higher reliability (traffic signal control systems or equipment, disaster/crime alarm systems, 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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original right holder(s). DSGN-AEZ-16003