Motor Control and Drives 2012

Efficient Semiconductor Solutions for
Motor Control and Drives
[ www.infineon.com/motorcontrol ]
IFX_11752_MotorControlBroschüre_rz.indd 43
16.02.12 13:50
Contents
Solutions for Motor Control and Drives 04
Low-Voltage Applications
06
High-Voltage Applications
08
Product Families 10
Microcontrollers 10
Low-Voltage Products
19
High-Voltage Products
30
Sensors
37
Support Tools
39
Efficient Semiconductor Solutions for
Motor Control and Drives
Energy efficiency, mobility and security are the main challenges facing modern society. Our
motor control solutions address all of these needs, providing outstanding reliability, excellent
quality and leading-edge innovations. Rich functionality and extensive integration capabilities
ensure easy design-in and fast time-to-market. Our broad portfolio maximizes flexibility across
a wide range of voltage and power classes in industrial, consumer and automotive markets.
This guide showcases the full range of products, from microcontrollers and gate drivers
through MOSFETs, IGBTs, voltage regulators and sensors to integrated bridge driver ICs,
integrated power modules and high-power modules.
Our power products and microcontrollers enable efficient, robust and cost-effective designs
for virtually all types of motors, including brushless DC and permanent magnet synchronous motors as well as induction and stepper motors and switched reluctance motors.
We complement this vast product offering with excellent customer support from our application experts, technical documentation and online training opportunities. We also deliver
a variety of evaluation and application kits to support all motor designs. Each application
kit comes with a reference code and instructions, along with all the software you need to
start and successfully complete your design as quickly as possible.
We hope you enjoy exploring the benefits of our efficient semiconductor solutions for
motor control and drive applications.
4
Typical Motor Control Block Diagram
Power Management
AC/DC
DC
Supply
Power Stage
Driver Stage
User Interface
&
Communication
Central Control
Unit
AF Discretes
Sense &
Monitor
M
5
Solutions for
Low-Voltage Applications
Application Solutions for Motor Controls
and Drives
Low-Voltage Applications
We are the partner of choice for low-voltage motor drive solutions, providing the perfect fit
across the full current range from 0.1 to 100A. You can also rely on us to support the entire
application spectrum from steppers to 3-phase drivers.
Monolithic Driver ICs,
Half Bridges, Full Bridges,
Multi Half Bridges
>100A
Integrated Motor
Driver ICs
H-Bridge Driver +
MOSFETs
+
Driver ICs OptiMOS™
(30V – 250V)
20A
3-Phase Bridge
Driver + MOSFETs
+
Driver ICs
EiceDRIVER™ 200V,
OptiMOS™ (25V – 300V)
Trilith IC Full Bridge
NovalithICTM Half Bridges
5A
Full Bridges
1A
Stepper Driver
Servo Driver
Multi Half Bridges
M
0,1A
M
M
3~
M
5V – 48V DC Supply Voltage
3~
Type of Motor
Infineon’s solutions cover a broad range of target low-voltage applications including
Pumps (fuel, heating, water)
Industrial drives
Fans / blowers
Robotics
Automotive applications
Door openers
E-bikes
Power tools, cordless power tools
E-scooters
Gardening tools
Wheelchairs
Small robots (cleaning robots)
Trucks/transport
Electric toys
Forklifts
Kitchen machines / food processors / Scooters
Wheelchairs
6
coffee machines
Solutions for
Low-Voltage Applications
Our products and solutions cover all of the main motor control design blocks. The block diagram
shows an example of a 3-phase BLDC motor drive.
MOSFETs >500V
CoolMOS™
Linear Voltage Regulator
DC/DC Converter
Controller ICs
Gate Drivers
3-Phase Bridge Drivers
EiceDRIVER™ 200V
Integrated Power ICs
CoolSET™
MOSFETs
OptiMOS™ 25V-300V
(Industrial)
OptiMOS™ 30V-100V
(Automotive)
Power Management
AC/DC
DC
Supply
Power Stage
Driver Stage
User Interface
&
Communication
Central Control
Unit
AF Discretes
Sense &
Monitor
Transceivers
CAN Transceiver
LIN Transceiver
Sensors
Hall Switches
iGMR Sensors
M
Microcontrollers
8-bit
16-bit
32-bit
Integrated Driver ICs
Servo and Stepper Driver
Multi Half Bridges
Motor Bridges
Trilith IC (Full Bridges)
NovalithIC™ (Half Bridges)
7
Solutions for
High-Voltage Applications
Application Solutions for Motor Control
and Drives
High-Voltage Applications
Infineon offers gate driver ICs, discrete IGBTs, integrated modules and high-power modules
across the entire power class range for high-voltage drives. Whatever power needs your
application has we provide the optimized, cost-effective solution.
EiceDRIVER™ (1ED, 2ED)
Power Modules 1200V
6ED
6
ED
Power Modules (EasyPack 1B)
1200V
600V
Voltage Rating
Discrete IGBTs, EiceDRIVER™ and Modules
6x RC Drives Fast
50W 150W 500W
1kW
2kW
5kW
xxMW
Power
Infineon solutions cover a broad range of target high-voltage applications including
8
Pumps
Washing machines
Fans / blowers
Dish washers
Compressors
Refrigerators
Industrial drives
Kitchen hoods
Robotics
Vacuum cleaners
Air conditioning systems
Door openers
Solutions for
High-Voltage Applications
Infineon products cover all of main high-voltage motor drive design blocks. The block diagram provides an overview
of the product portfolio for high-voltage products.
MOSFETs >500V
CoolMOS™
Diodes
thinQ!™
Controller ICs
HV MOSFETs
CoolMOS™
Integrated Power ICs
CoolSET™
Diodes
Gate Drivers
EiceDRIVER™
600V & 1200V
IGBTs
TrenchStop™
Linear Voltage Regulator
DC/DC Converter
Rectification
Power Management
MOSFETs (500V – 900V)
CoolMOS™
IGBTs (600V – 1200V)
TRENCHSTOP™
RC-Drive IGBTs
DC
Supply
Power Modules (600V – 6.5kV)
PFC
Break
Power Stage
Driver Stage
User Interface
&
Communication
Central Control
Unit
AF Discretes
Sense &
Monitor
Transceivers
CAN Transceiver
LIN Transceiver
Sensors
Hall Switches
iGMR
M
Microcontrollers
8-bit
16-bit
32-bit
Integrated Driver IC /
Modules
MIPAQ™serve
9
Microcontroller
XC800 Family – 8-bit Microcontrollers
The feature-rich XC800 microcontroller with its optimized peripheral set supports costoptimized solutions in the industrial and automotive segments.
Application Segments
Home appliance
Fans
E-bikes
Pumps
Stepper gauges
Valve control
Product Benefits
Up to 50% system cost savings –
Two PWM units with separate time bases to
Field-Oriented Control (FOC) at lowest cost
combine motor control and power factor
Portfolio from 2kB to 64kB Flash and from
correction algorithms on one chip
16-pin to 64-pin package options, qualified
For use in IEC 60730/Class B-certified
applications
AEC-Q100 and up to an ambient tempera-
Low cost stepper motor drive
ture of 150°C
Optimized peripherals and code library in
Free tool chain: www.infineon.com/davebench
ROM for Field-Oriented Control
Sensorless Field-Oriented Control for 3-Phase Motor e.g. PMSM Motor
8-bit Microcontroller
3-Phase
Sensorless Motor
16-bit
Vcc for Computer
CORDIC/MDU
8051
Core
CapCom6
PWM Unit
ω/Integrated
Dead-Time
Control
Math and Control
Code Library in ROM
- PI Controller
- SIN/COS
- Park/Clarke Transformation
Voltage
Source
Inverter
Trigger
ADC
Measurement
ADC
Shunt
Stepper Motor Drive e.g. Stepper Gauge
8-bit Microcontroller
sin PWM
PWM
Generation Unit
θref
Motor
Control
Algorithm
cos PWM
CapCom6
θcmd
CORDIC
sin (θcmd)
cos (θcmd)
[ wwww.infineon.com/xc800 ]
10
SIN
COS
SQRT
HighCurrent
I/O
Slope
Control
Overcurrent
Protection
Stepper
Motor
Microcontroller
ADC and CapCom6 – High-Performance PWM
ADC
CapCom6
Compare
Out-of-Range
Comparator
CC60
Start
T12
Limit Check
Control
DeadTime
Control
CC61
Start
Limit Event
Compare
Start
Boundary 1
T13
PSL
Output
Level
Selection
Capture
CC62
PS
Output
State
Selection
PSL63
Boundary 0
Trap Handling
Boundary Flag
Control
Output
Level
Selection
Multi-Channel Mode
Hall Pattern
Evaluation
BF2
Conversion time of <1.5μs
enables noise-free sampling
CapCom6 Features
BF0
BF1
10-bit resolution, ± 2LSB
Hardware synchronization with PWM
Output
Modulation
CC63
ADC Features
Capture for time measurement
Hall Compare Logic
Compare for PWM generation
Block communication for brushless
DC drives
Programmable dead-time control
High-Current I/O
High-Current Pad Features
IO Pad
High-current pads
Pxy
Direct drive of stepper gauges 25mA
DATA_IN
DATA_OUT
Sink current up to 50mA
ALTDATA1
Over current detection
ALTDATA2
ALTDATA3
ALTSEL
Pull Device
Control
Slew Rate
Control
Overcurrent
Protection
Overcurrent
Detector
PUDSEL
SLEW
SCPEN
SCD
PUDEN
Special Functions of High-Current Pad
OD
CORDIC and Vector Computer MDU
Control
Unsigned
Input SFRs
MD0
Signed
MD5
MDUSTAT
16-bit/16-bit Divide
32-bit Arithmetic Shift
16-bit/32-bit Divide
32-bit Normalize
Signed
Q15
Input SFRs
CORDX
CORDY
CORDZ
MD1
16-bit/16-bit Divide
MD2
MD3
16-bit Multiply
MD4
16-bit/32-bit Divide
MD5
Control
CON
Outputs SFRs
MD0
16-bit/32-bit Divide
MD3
MD4
Status
32-bit Logical Shift
16-bit Multiply
MD1
MD2
Shift and Normalize
16-bit Multiply
Multiply and Divide
MDUCON
CORDIC
Vector Rotation
Status
Carthesian to Polar
Transform
Y = Y + X*Z
Z = Z + Y/X
y = ez
Z = Z + In(Y/X)
STAT
Vector Computer Features
The vector computer is a powerful
16-bit coprocessor
- Multiply and divide (MDU) unit
- CORDIC
Parallel processing of CPU, MDU and
CORDIC is supported
Outputs SFRs
CORDX
CORDY
CORDZ
11
Microcontroller
XC2000/XE166 Family – 16-bit Microcontrollers
The highly scalable XC2000/XE166 family is ideal for a wide range of motor control
designs, including applications based on DC brushed control, DC servo control, AC induction scalar-slip control, BLDC commutated control, permanent magnet AC field-oriented
control and AC induction field-oriented control.
Application Segments
Automotive
Industrial
Inverters
Steering (e.g. EPS)
Elevators
Heating, ventilation, air condition
Spindle drives
(e.g. HVAC) control systems
PLC, Servo, CNC
Pumps
Product Benefits
Reduced BOM cost – XE166/XC2000 family
offers up to 4 PWM units with separate time
Two independent ADC units are triggered by
the PWM timers
The MAC unit provides DSP functionality by a
bases for combined control of two motors
seamless integration into the CPU instruction set
and the PFC algorithm on one chip
High performance speeds up your motor
Supports safety critical systems to achieve
control algorithm
IEC61508/ISO26262 compliance
Free tool chain: www.infineon.com/davebench
16/32-bit Microcontroller
C166SV2 Core
CPU
3-Phase
Sensorless Motor
CapCom6
PWM Unit
ω/Integrated
Dead-Time
Control
Voltage
Source
Inverter
Trigger
ADC
Measurement
MAC Unit
2 x ADC
Timer
[ www.infineon.com/XC2000 ] [ www.infineon.com/XE166 ]
12
Shunt
Signal
Conditioning
Microcontroller
MAC Unit – Multiply-Accumulate Operation Unit
CPU Unit
Fetch Unit
(IFU)
MAC Unit Provides
Instruction
Pipeline (IPIP)
Arithmetic and
Logic Unit (ALU)
Single instruction cycle
75% of all MAC instructions executed
Address and
Data Unit (ADU)
Multiplication with cumulative
MAC Unit
16x16 Multiplier
in one CPU clock cycle
subtractions/additions (32-bit)
Repeat Unit
40-bit ALU
Control Unit
Shifter
40-bit Accumulator
40-bit accumulator to handle overflow
CapCom6 – High-Performance PWM
3
1
2
2
2
3
Capture for time measurement
Compare for PWM generation
Block commutation for brushless
Trap Input
Compare
CapCom6 Features
Trap
Control
Output Select
Compare
Capture
Channel 3
Hall Input
Channel 0
MultiChannel
Control
Output Select
1
Start
T13
DeadTime
Control
1
Channel 0
Compare
T12
1
Compare
Compare
Channel 0
DC drives
1
Programmable dead-time control
CTRAP
CCPOS2
CCPOS1
CCPOS0
CC62
COUT62
CC61
CC60
COUT61
COUT60
COUT63
T13HR
T12HR
Input/Output Control
ADC – Enhancend Analog-Digital Converter
Analog Input
P5.15
Analog Input
P15.0
Analog Input
P15.7
Analog Part 0
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
Analog Part 1
ADC Features
Digital Part 0
Digital Part 1
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
Two synchronizable A/D converters with
up to 12-bit resolution, ± 2LSB
Bus Interface
Analog Input
P5.0
Conversion time down to 1.2μs
External or internal trigger events automatic
conversion sequencing
13
Microcontroller
TriCore™ Family – 32-bit Microcontrollers
The Infineon TriCore™ family is optimized for 3-phase motor control applications in the
industrial and automotive segments, including Permanent Magnet Synchronous Motors
(PMSM) and AC Induction Motors (ACIM).
Application Segments
Automotive
Industrial
AC Servo drives
Steering (e.g. EPS)
PLC
Electric propulsion for hybrid
Mobile controllers
and electric vehicles
Process control
Product Benefits
High performance speeds up your motor control algorithm
TriCoreTM DSP instruction set for multiple motor control algorithms
(e.g. park, clarke, space vector modulation)
Software library for Field-Oriented Control (“e-motor module”) facilitates fast
implementation
Supports safety critical systems to achieve IEC61508/ISO26262 compliance
Free tool chain: www.infineon.com/davebench
VDC
AUDO MAX 32-bit Microcontroller
SV PWM 1
SV PWM 2
SV PWM 3
GPTA
PWM
Generation
Unit
3-Phase
Inverter
Generator / Break Operation
ωref
Trigger
Event
TriCore™
CPU
Motor Control
Algorithm
PCP
ic -
ω
θ
ia
ib
Speed
&
Position
[ wwww.infineon.com/tricore ]
14
ADC0
ADC1
Encoder/
Resolver
Interface
Encoder/
Resolver
Circuit
A
N
B
S
PMSM
C
Microcontroller
TriCore™ comes with advanced peripherals for sophisticated algorithms such as FOC, sensorless FOC and state observers.
Enhanced Analog-Digital Converter (ADC)
ADC Kernel 0
Analog Part 0
Analog Input
P0
Analog Input
P31
Features and Benefits
Digital Part 0
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
1-4 synchronizable A/D converters with up
to 64 channels
8/10/12-bit resolution, +/- 2LSB @ 10-bit
Conversion time down to 1.0µs
ADC Kernel 1
Analog Input
P31
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
ADC Kernel 2
Analog Part 2
Analog Input
P0
Analog Input
P31
Data reduction pre-processing
Digital Part 1
Digital Part 2
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
Results accumulation and limit check
Bus Interface
Analog Part 1
Analog Input
P0
ADC Kernel 3
Analog Part 3
Analog Input
P0
Analog Input
P31
Digital Part 3
A/D Converter
Data (Result)
Handling
Conversion Control
Request Control
General Purpose Timer Array (GPTA)
GT1RUN
2
Clock Bus
CLK (7:0)
Filter
&
Prescaler Cells
Phase
Discriminator
Logic
Digital Phase
Locked Loop
Duty Cycle
Measurement
Cells
Clock Distribution Cells
External PLL
Clock Inputs
Address
Decoder
Global Timers
Local Timer
Cells
SR (37:00)
IN (55:00)
Independent access to time
and angle domain
All types of PWM generation supported
OUT (111:00)
Signal Generation Cells
Global Timer
Cells
Scalable high resolution
thanks to Local Timer Cell (LTC) array
2
INT (3:0)
Interrupt
Control
Tracking of all kinds of rotating shafts
I/O Line Sharing Block
GT0RUN
Internal PLL
Clock Outputs
Very flexible digital input filtering
Clock Generation Cells
fCLC
Digital PLL for fine grain angle resolution
PCP2 is the ideal coprocessor to
On-Chip Trigger Block
Clock
Control
Features and Benefits
GPTA Module Kernel
fGPTA
handle critical real time GPTA interrupt
TRIG (15:00)
tasks from the GPTA
Ideal for field test and repair work
Interrupt Sharing Block
15
Microcontroller
XMC4000 – 32-bit Microcontrollers with ARM® Cortex™-M4
Infineon XMC4000 family of microcontrollers is tailored to power industrial applications with
a need for advanced motor controls. Its unique combination of Infineon’s leading-edge
timers, PWM and analog front-end peripherals with the real-time and signal processing
capabilities of the ARM® Cortex™-M4 make XMC4000 the ideal solution for industrial drive
applications.
ARM® Cortex™-M4 & Floating Point Unit
DEBUG
Real Time Clock
System Timer
DMA
Proven Quality
Communication
Timer &
Actuator Control
Analog & Mixed
Signal
Ethernet
CCU4
ADC
USB
CCU8
DAC
External Memory I/F
High Resolution PWM
HMI
SD/MMC Card I/F
Position Interface
Capacitive Touch
CAN
∆∑ Demodulator
LED Matrix
Data Protection
Through ECC/Parity
CRC & Random
Pattern Generation
Infineon
Innovation
Infineon
State-of-the-Art
Ports
Standard
UART/SPI/I2C/I2S
Overview of XMC4000 Family
low-end
Communication
SignalProcessing
Timers
System
Performance
XMC4100
Core
CPU frequency (at 125˚C)
Co-proc
Flash size
RAM size
Cache
POSIF
CCU4 (4ch)
CCU8 (4ch)
High-resolution PWM (150ps) channels
ADC 12-bit
Delta-sigma demodulator
DAC
IEEE 1588 Ethernet MAC
USB
SD/MMC
Serial channels (URAT, SPI, I2C, I2S)
Ext. memory I/F
CAN
Touch button
[ www.infineon.com/xmc ]
16
high-end
XMC4200
XMC4400
FS DEV
FS DEV
AMR Cortex™-M4
120MHz
Floating Point Unit
512kB
80kB
4kB
2x
4x
2x
4x
4x
4x
2x
1x
FS OTG
4x
4x
4x
2x
ü
2x
ü
2x
ü
XMC4500
XMC4700*
®
80MHz
80MHz
128kB
20kB
4kB
1x
2x
1x
4x
2x
256kB
40kB
4kB
1x
2x
1x
4x
2x
2x
2x
120MHz
180MHz
1MB
160kB
4kB
2x
4x
2x
2.5MB
512kB
6kB
2x
4x
2x
4x
4x
2x
1x
FS OTG
ü
6x
ü
3x
ü
4x
4x
2x
2x
HS OTG
ü
6x
ü
3x
ü
* under definition
Microcontroller
In advanced motor control, microcontrollers must offer high real-time performance to handle fast digital control loops. XMC4000 peripherals are autonomous and therefore free up
the CPU kernel to a large degree, enabling it to service other requests. They are specifically
designed to implement ­efficient motor control algorithms:
4 ADC kernels for simultaneous 3-phase
4 high-resolution PWM channels for
current measurement + Power Factor
­advanced power conversion methods
­Correction (PFC)
(e.g. peak current control)
2 POSIF modules provide a programmable
4 delta-sigma demodulators for ­direct
interface to process inputs from rotary
interface to external delta-sigma
encoders or Hall sensors; the position
modulators supporting galvanic isolated
and velocity of the motor can be easily
in-phase current measurement, power
determined when used in series with CCU4
measurement or resolver feedback
24 independent PWM timers for generating
Pattern generator for resolver primary
complex pulses and sequential patterns
coil excitation
2 DAC channels for analog wave generation
for any kind of power inverter topology
for sensor stimulation or calibration
for motor control and power supplies
Example of Motor Control Application
XMC4500
ETH
Encoder
Gear
POSIF
Resolver
Motor
SDMOD
PWMP
PWMN
Carrier Pattern
Generator
CLK0
IN0
DSD
Channel 0
SDMOD IN1
CLK2
SDMOD ISO
SDMOD ISO
Inverter
USB
ADC0
ADC1
SDRAM
Process
Data Image
Service Access
Sensor
Calibration
DSD
Channel 1
IN2
DSD
Channel 2
IN3
DSD
Channel 3
PVYM
THAP
EBU
Fieldbus
ADC0
ADC2
ADC2
CCUB
Sensors
ADC3
17
Microcontroller
Infineon Safety Computing Platform –
Safe Computing for 3-Phase Motor Control
ISO26262 and IEC61508-compliant safety applications require an independent watchdog
with a robust monitoring channel for the main microcontroller. With its small footprint,
CIC61508 is the ideal watchdog solution for safety applications where space and cost are
the main drivers. It monitors the main microcontroller through a range of features that
detect common clock and power supply failure modes as well as temperature-related
computational errors on the microcontroller. It therefore acts as an independent diagnostic monitoring device supporting approval up to ASIL-D for 3-phase motor control
applications.
Reliability is key
Proven management of power-off sequence even when MCU is in fail safe; CIC61508 offers
a power off sequence with up to 3 steps
Key Benefits
Allows energy circulation before final power down
Reduced voltage / current spike on power stage due to abrupt power-off when
MCU enters fail safe
Increased component life time
Availability has to be ensured
Single transient error should not stop the application
3-phase motor applications must keep running in case of a single
transient error, e.g. xEV, steering
Key Benefits
Safe support for error recovery and limp mode
Reduced error recovery time (no steering assistance provided)
Reduced false alarm
3 Independent
Safety Paths
Power Supply
TLE7368
or
TLE42xxx
Safety Watchdog CIC61508
Reset
Vdd1 e.g. 5V
Vdd2 e.g. 3.3V
Opcode Test
Sequencer
16-/32-bit MCU
TriCore™
or XC2000
SPI
[ www.infineon.com/SIL ]
18
Voltage
Monitors
SSC
Task
Monitor
Safety Path Control
Error State
Monitor
Control
Logic
Reset Path
Control
NVM
Opcode Test Sequence
Config Checksum
Low-Voltage Products
Industry MOSFETs –
Power Density for the Next Level of Energy Efficiency
Our OptiMOS™ family sets new standards for power MOSFETs, offering the industry’s
lowest RDS(on) and Figure of Merit (FOM) in all voltage classes from 30V to 250V. Available in
high-performance packages featuring state-of-the-art process technologies, the OptiMOS™
portfolio is the right fit for all motor control applications.
Key Benefits
Highest power density thanks to minimum conduction losses and reduced need for
device paralleling
Cost savings due to smaller heat sinks
Board space savings of up to 50 %
DC currents of up to 180A per device in CanPAK™, 100A in SuperSO8 and 40A in S3O8 package
High-current capability for motor control applications
Extremely low on-state resistance and high-current capability up to 180A
in D2PAK-7Pin version
RDS(on) in SuperS08 [mΩ]
120
80
40
0
25
30
40
60
75
80
100
120
150
200
250
Voltage [V]
Voltage Class [V]
300V
40
250V
130
20
10.7
200V
150V
420
220
6.5
120V
50
3.6
100V
24
2.5
80V
1.9
75V
2.0
1.6
60V
40V
80
34
6.2
80
1.1
30V
17
1.1
25V
15
0.8
0
6
1
RDS(on) [mΩ]
10
100
1000
Voltage [V]
Available Packages
TO220
TO220-FP
D2PAK
I2PAK
D2PAK 7PIN
DPAK
SuperSO8
S308
CanPAK M
CanPAK S
[ www.infineon.com/optimos ]
19
Low-Voltage Products
Automotive MOSFETs –
Benchmark for Motor Control Applications
Best-in-Class OptiMOS™ Products
Infineon OptiMOS™ range combines leading MOSFET technology with a robust package to­
deliver best-in-class performance and outstanding current capacity. Automotive-qualified
­MOSFET packages now have even higher current capacity thanks to our PowerBond technology.
Best-in-class RDS(on) performance for increased system efficiency
Highest current DPAK + D2PAK on the market for reduced ECU module size
Lowest switching and conduction power losses for increased thermal system reliability
Robust green package for easy process handling
Evolution of Package Current Capability
Power Bond I
OptiMOS™
100A
80A
D PAK
2
Power Bond II
160A
D2PAK-7pin
Power Bond III
180A
D2PAK-7pin
D2PAK
120A
TO220/
TO262
100A
80A
TO220/
TO262
TO220/
TO262
50A
30A
DPAK
DPAK
90A
DPAK
100A
DPAK
Today
OptiMOS™ for Motor Control Solutions
OptiMOS™ T2 30V, 40V, 60V products are the future building blocks for all half-bridge,
H-bridge and 3-phase motor control solutions. They can be paired with driver IC products
to create all-inclusive motor drive solutions.
Product Overview
Voltage Class
[V]
Single MOSFET
N-Channel
N-Channel
N-Channel
N-Channel
N-Channel
N-Channel
N-Channel
P-Channel
OptiMOSTM-T2
(Trench)
30
40
55
60
75
100
250
30
40
P-Channel
Dual MOSFET
Dual N-Channel
Dual N-Channel
2 x 40
2 x 55
Dual N-Channel
2 x 60
[ www.infineon.com/automotivemosfet ]
20
OptiMOSTM-T
(Trench)
OptiMOSTM
(Planar)
Low-Voltage Products
Bridge Drivers – H-Bridge and 3-Phase Gate Driver ICs
The trend toward greater efficiency in automotive applications extends to electric motors
as well. In the future, applications such as power steering, HVAC compressors and engine
cooling fans will all be controlled by electronic motors. Our family of configurable, H-bridge
and 3-phase gate driver ICs can be combined with MOSFETs to provide the required power
and efficiency these systems need.
Diagnostic Features
Basic Features
Strong output stage up to 1.5A
Undervoltage
Precise OpAmp for current shut
Short circuit
Overtemperature
monitoring
Operation down to 5.5V
Overvoltage
Duty cycle adjustable up to 100%
Application Example for BLDC Motors
C
3µF
RVS
10Ω
CVS
4.7µF
To sub µC
or ASIC
VBAT = 12V
P-GND
RVdh
INH ENA1 ENA2 VS
CH1
CCP1
4.7µF
VDH
GH1
CL1
CB1
CCB1
4.7µF
SH1
GH2
SH2
CH2
CCP2
4.7µF
GH3
CL2
CB2
CCB2
4.7µF
U_fb
V_fb
W_fb
ERR1
ERR2
IL1
IH1
IL2
IH2
IL3
IH3
DT
µC
Digital
ASIC
e.g. XC866
5V
5V
SH3
GL1
SL1
TLE7183F
GL2
SL2
GL3
SL3
VRI
VRO
Rfb
ISP
VTHOC
RDT
ADC
GND
VO
RS
ISN
AGND GND
TP
RS
Rfb
P-GND
H-Bridge/ Dual Half-Bridge Driver Family
Product Type
Type
Product
TLE6281G
TLE6281G
Operating Range
Range [V]
[V]
Operating
7.5 …
… 60.0
60.0
7.5
OpAmp
OpAmp
0
0
TLE6282G
TLE6282G
TLE6284G
TLE6284G
7.5 …
… 60.0
60.0
7.5
7.5 …
… 60.0
60.0
7.5
0
0
0
0
TLE7181EM
TLE7181EM
TLE7182EM
TLE7182EM
7.0 …
… 34.0
34.0
7.0
7.0 …
… 34.0
34.0
7.0
1
1
1
1
H-Bridge/
H-Bridge/ Dual
Dual Half-Bridge
Half-Bridge Drivers
Drivers Family
Family
PWM/DIR Input
Input
PWM/DIR
V
V
Reverse Polarity
Polarity Protection
Protection
Reverse
V
V
V
V
V
V
V
V
Diagnosis
Diagnosis
UV, OT,
OT, SCD
SCD
UV,
Package
Package
PG-DSO-20
PG-DSO-20
UV, SCD
SCD
UV,
UV, OT,
OT, SCD
SCD
UV,
UV, OV,
OV, OC,
OC, SCD,
SCD, OT
OT
UV,
PG-DSO-20
PG-DSO-20
PG-DSO-20
PG-DSO-20
PG-SSOP-24
PG-SSOP-24
UV, OV,
OV, OC,
OC, SCD,
SCD, OT
OT
UV,
PG-SSOP-24
PG-SSOP-24
3-Phase Bridge Driver IC
3-Phase
3-Phase Bridge
Bridge Driver
Driver IC
IC
Product Type
Type
Product
Operating
Operating
Range
Range
[V]
[V]
Drives Stage
Stage
Drives
D.C. Range
Range
D.C.
@ 20kHz
20kHz
@
[%]
[%]
TLE6280GP
TLE6280GP
8.0 ...
... 36.0
36.0
8.0
0.9/0.85A
0.9/0.85A
0 ...
... 95
95
0
TLE7183F
TLE7183F
TLE7184F
TLE7184F
1)
TLE7184F-3V 1)
TLE7184F-3V
5.5 ...
... 28.0
28.0
5.5
1.5/1.5A
1.5/1.5A
7.0
7.0 ...
... 32.0
32.0
13.5/9.0Ω
13.5/9.0Ω
13.5Ω
13.5Ω
0 ...
... 100
100
0
0
0 ...
... 95
95
Numbers of
of integrated
integrated
Numbers
OpAmps for
for load
load
OpAmps
Current Measurement
Measurement
Current
Adjustable
Adjustable
Dead Time
Time
Dead
SIL3
SIL3
Features
Features
V
V
UV, SCD,
SCD, OT
OT
UV,
PG-DSO-36
PG-DSO-36
(Power-SO)
(Power-SO)
1
1
V
V
OT, UV,
UV, OV,
OV, OC,
OC, OCD
OCD
OT,
PG-VQN-48
PG-VQN-48
1
1
V
V
UV,
UV, OV,
OV, OC,
OC,
SCD, OT,
SCD,
OT, VDD
VDD
supervision
supervision
PG-VQN-48
PG-VQN-48
V
V
TLE7185E
TLE7185E
5.5
5.5 ...
... 32.0
32.0
13.5/9.0Ω
13.5/9.0Ω
0
0 ...
... 95
95
0
0
5.5
5.5 ...
... 28.0
28.0
1.5/1.5A
1.5/1.5A
0
0 ...
... 100
100
3
3
TLE7189F
TLE7189F
5.5 ...
... 28.0
28.0
5.5
1.5/1.5A
1.5/1.5A
0 ...
... 100
100
0
3
3
V
V
TLE7189QK
TLE7189QK
5.5 ...
... 28.0
28.0
5.5
1.5/1.5A
1.5/1.5A
0 ...
... 100
100
0
3
3
V
V
TLE7183QU
TLE7183QU
5.5 ...
... 28.0
28.0
5.5
1.5/1.5A
1.5/1.5A
0 ...
... 100
100
0
LO
LO =
= Lockout
Lockout
OL =
OL
= Open
Open Load
Load
OV =
= Overvoltage
Overvoltage
OV
OC =
= Overcurrent
Overcurrent
OC
Package
Package
0
0
TLE7188F
TLE7188F
1)
1) System
System IC
IC for
for fans
fans and
and pumps
pumps with
with
integrated
integrated LDO
LDO and
and PWM
PWM interface
interface
Diagnosis
Diagnosis
1
1
V
V
UV,
UV, OV,
OV, SCD,
SCD, OT
OT
PG-DSO-36
PG-DSO-36
UV, OV,
OV, OC,
OC, SCD,
SCD, OT
OT
UV,
UV, OV,
OV, SCD,
SCD, OT,
OT,
UV,
VDD supervision
supervision
VDD
PG-VQN-48
PG-VQN-48
UV, OV,
OV, SCD,
SCD, OT,
OT,
UV,
VDD supervision
supervision
VDD
PG-VQN-64
PG-VQN-64
OT, UV,
UV, OV,
OV, OC,
OC, SCD
SCD
OT,
PG-VQN-48
PG-VQN-48
PG-VQN-48
PG-VQN-48
UV
UV =
= Undervoltage
Undervoltage
OT =
OT
= Overtemperature
Overtemperature
SCD =
= Short
Short Circuit
Circuit Detection
Detection
SCD
[ www.infineon.com/driver-ic ]
21
Low-Voltage Products
Speed PROFET™ –
Protected High-Side Switch for PWM-Driven Applications
The Speed PROFET™ BTF50060-1TEA is a high-side switch for high PWM frequencies
such as 25 kHz. It can be used for controlling, driving and protecting a 12V DC motor (e.g.
100W) or valve. In combination with a freewheeling diode or a low-side switch, the Speed
PROFET™ can be set up in a half-bridge or boost converter topology. It can also be driven
with a 25kHz PWM signal directly from a microcontroller. This device is capable of a 100%
duty cycle. Its feature set simplifies hardware and software design and includes protection
functions such as short-circuit and overtemperature shutdown. It also offers an accurate
load current measurement and open load or short-to-battery detection.
Key Benefits
Key Features
PWM capability of more than 25kHz
Reduced power dissipation
6mΩ R (ON) (max. 12mΩ @ 150°C) with
Small package for high-current motor drive,
high inrush current
less PCB space
No external bootstrap capacitor
Reduced component count and easier
necessary
PCB layout
3.3V and 5V compatible logic inputs
Direct connection to the MCU
Advanced analog load current sense
Easy current sense calibration
signal
Overload and overtemperature protection, with defined diagnostic signal
Application Example for Fuel Pump
VBAT
+5V
CVS
470µF
VS
RInput
µC e.g.
XC866
IN
10kΩ
RSense
IS
10kΩ
BTF50060-1
OUT
TEA
RIS
1kΩ
D1
GND
Load
GND
Load e.g.:
Fuel Pump
Product Overview
Product Type
BTF50060-1 TEA
Number of
Channels
1
RDS(on)
@ Tj = 25°C
[mΩ]
6
Typical Load
Current
[A]
16.5
Load Current
Overvoltage
Shutdown
Sense Enable
Limit
Trip
V
[ www.infineon.com/profet ]
22
IL(SC)(typ)
[mJ]
Recommended Operating
Voltage Range
[V]
280 @ 20A
4.7 ... 28.0
75
EAS
Latch
V
Reversave
[A]
Package
DPAK-5pin
Low-Voltage Products
NovalithIC™ – Integrated Half-Bridge Driver
NovalithIC™ provides a complete, low-ohmic protected half bridge in a single package
(typ. path resistance @ 25°C: 16mΩ down from 28mΩ ). It can also be combined with an
additional NovalithIC™ to create an H-bridge or 3-phase bridge. The NovalithIC™ family has
the capability to switch to up to 25kHz while providing overcurrent, overvoltage and overtemperature protection. The NovalithIC™ family offers cost-optimized, scalable solutions for protected high-current PWM motor drives with very restrictive board space. NovalithIC™ includes
a P-N MOSFET enabling a significant reduction of EME (Electro Magnetic Emissions) and power
dissipation thanks to an optimized switching shape and the absence of a charge pump.
Basic Features
Low quiescent current
Adjustable slew rate
Capable for high PWM frequency (e.g. 25kHz)
Cross current protection
Logic level input
Protection Features
Diagnostic Features
Overtemperature
Overtemperature shutdown
Overvoltage
Overvoltage (lockout or smart clamp)
Overcurrent
Undervoltage
Current sense and status
Overcurrent
Application Example for High-Current PWM Motor Drives
Microcontroller
i.e. XC866
Voltage Regulator
I/O
WO
Reset
RO
VDD
Q
VSS
D
Reverse Polarity
Protection
VS
I
TLE4278G
IPDx0P03PxL
GND
I/O I/O I/O I/O I/O
BTN 7960B
INH
IN
BTN 7960B
VS
OUT
IS
SR
VS
M
INH
OUT
IN
GND
SR
IS
GND
NovalithIC™ Product Overview
Product Type
Operating Range
[V]
R DS(on) Path (Type)
[mΩ]
Switch Time
(typ) [ µs]
Diagnosis
Protect
Package
BTN 7930B
5.5 ... 28.0
28.0
32
BTN 7930P
5.5 ... 28.0
29.6
32
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-263-7
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
BTN 7930S
5.5 ... 28.0
28.2
PG-TO-220-7
32
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
BTN 7960B
5.5 ... 28.0
PG-TO-220-7
16.0
47
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
BTN 7960P
PG-TO-263-7
5.5 ... 28.0
17.6
47
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-220-7
BTN 7960S
5.5 ... 28.0
16.2
47
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-220-7
BTN 7970B
5.5 ... 28.0
16.0
70
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-263-7
BTN 7970P
5.5 ... 28.0
17.6
70
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-220-7
BTN 7970S
5.5 ... 28.0
16.2
70
7
1.0
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-220-7
BTN 7971B
4.5 ... 28.0
16.0
70
7
0.5
OV, OT, OC, CS
OV, UV, OT, OC
PG-TO-263-7
BTN 7933B
4.5 ... 28.0
28.0
32
7
0.5
OV, OT, OC, CS
OV(SCL), UV, OT, OC
PG-TO-263-7
BTN 7963B
4.5 ... 28.0
16.0
47
7
0.5
OV, OT, OC, CS
OV(SCL), UV, OT, OC
PG-TO-263-7
BTN 7973B
4.5 ... 28.0
16.0
70
7
0.5
OV, OT, OC, CS
OV(SCL), UV, OT, OC
PG-TO-263-7
BTN 8946TA 1)
4.5 ... 40.0
5.33)
42
7
0.52)
OT, OC, CS
UV, OT, OC
PG-TO-263-7
BTN 8960TA 1)
4.5 ... 40.0
13.5
42
7
0.52)
OT, OC, CS
UV, OT, OC
PG-TO-263-7
BTN 8980TA 1)
4.5 ... 40.0
9.0
70
7
0.52)
OT, OC, CS
UV, OT, OC
PG-TO-263-7
1) Product in development, electrical
values specified must be
considered as target values
I D(lim) (Type) Iq (Type)
[A]
[µA]
2) Target values calculated
3) Target value for the HS switch only
OV = Overvoltage
OC = Overcurrent
CS = Current Sense
UV = Undervoltage
OT = Overtemperature
SCL= Short Clamping
[ www.infineon.com/novalithic ]
23
Low-Voltage Products
Trilith IC – Integrated Full-Bridge Driver
Trilith IC family members combine two high-side and two low-side switches in a single package.
They are designed to drive high-current DC motors in an H-bridge configuration (peak currents of
up to 42A), but can also be used as single independent switches. All Trilith ICs include overcurrent and overtemperature protection for high-side switches. For low-side switches, designers
can choose between fast unprotected switches and protected switches for lower frequencies
(typ. path resistance @ 25°C from 210mΩ down to 40mΩ). The third generation of Trilith IC
(BTM7742G/BTM7745G/BTM7752G/BTM7755G) is based on the NovalithICTM concept and includes P-N MOSFET. This enables a significant reduction of EME (Electro Magnetic Emissions) and
power dissipation thanks to an optimized switching shape and the absence of a charge pump.
Basic Features
Diagnostic Features
Low quiescent current
Overvoltage
Capable for high PWM frequency
Overtemperature
Short-circuit / overcurrent detection
Protection Features
Current sense / status
Overvoltage
Open Load
Undervoltage
Overtemperature
Short-circuit / overcurrent detection
Application Example for DC Brush Motors
Microcontroller
i.e. XC866
Voltage Regulator
I/O
WO
Reset
RO
VDD
Q
VSS
D
VS
I
TLE4278G
GND
I/O I/O I/O I/O I/O
BTM 77xxG
DHVS
ST
SH2
IH1
DL2
IH2
DL1
IL2
GND
M
SH1
IL1
SL1
SL2
Trilith IC Product Overview
Product Type
Operating
Range [V]
BTM 7740G
4.8 ... 42.0
210
8.0
5
1
BTM 7741G
4.8 ... 42.0
210
8.0
5
1
BTM 7700G
4.8 ... 42.0
190
9.5
5
1
BTM 7750G
R DS(on) Path (Type) I D(lim) (Type) I q (Type) Switch Freq.
@25°C [mΩ]
[A]
[µA]
(Type) [kHz]
Protect
Package
OT
OT, SC
PG-DSO-28
OT, OL
OT, SC
PG-DSO-28
OT
OT, SC
PG-DSO-28
4.8 ... 42.0
115
12.0
5
1
OT
OT, SC
PG-DSO-28
1)
4.8 ... 42.0
115
12.0
5
1
OT
OT, SC
PG-TO-263-15
BTM 7751G
4.8 ... 42.0
115
14.0
5
1
OT, OL
OT, SC
PG-DSO-28
BTM 7710GP 1)
4.8 ... 42.0
110
15.0
5
1
OT
OT, SC
PG-TO-263-15
BTM 7710G
4.8 ... 42.0
110
15.0
5
1
OT
OT, SC
PG-DSO-28
BTM 7810K 1)
5.0 ... 42.0
40
42.0
4
1
OT, OL
OT, SC
PG-TO-263-15
BTM 7811K 1)
5.0 ... 42.0
40
42.0
4
20
OT, OL
OT, SC
PG-TO-263-15
BTM 7752G
5.5 ... 28.0
150
12.0
5
25
OV, OT,
SC/OC, CS
OV, UV,
OT, SC/OC
PG-DSO- 36
1
OV, OT,
SC/OC
OV, UV,
OT, SC/OC
PG-DSO- 36
25
OV, OT,
OC, CS
OV, UV,
PG-DSO- 36
OV, OC, OT,
OV, UV,
OT, SC/OC
PG-DSO- 36
BTM 7750GP
BTM 7755G
BTM 7742G
BTM 7745G
5.5 ... 28.0
5.5 ... 28.0
5.5 ... 28.0
1) AEC std. grade 3, Tj(max) = 110°C
150
250
250
CS = Current Sense
OL = Open Load
12.0
12.0
12.0
5
5
5
OV = Overvoltage
UV = Undervoltage
[ www.infineon.com/trilithic ]
24
Diagnosis
25
OT = Overtemperature
SC = Short Circuit
OC = Overcurrent
Low-Voltage Products
Multi Half Bridges –
Single-Chip Solutions for Low-Current Applications
Cost-effective, space-saving IC solutions are ideal for implementing DC brush motor controls
that drive low load currents (<1A). We offer a broad range of half-bridge drivers – from 2-fold
half-bridge drivers with parallel interface in a DSO-14 pin package to a 10-fold, half-bridge
driver with SPI interfaces in a SSOP-24 pin package. All products are equipped with protection features and support diagnostics via a status flag or SPI. Typical applications include
flap motors for climate control and motors for mirror adjustment or idle speed control.
Basic Features
Overvoltage
Undervoltage
Overtemperature
Short circuit
Application Example for HVAC Control Module
HVAC Control
Module
Flap #3
Flap #2
I/O
Hall Switch
TLE4966
SPI / Flap Control
Control Panel
16/32-bit
Microcontroller
XC22xx
Hall Switch
TLE4966
Multi
Half-Bridges
TLE84106EL
(3 Flaps)1)
Flap #1
M
Hall Switch
TLE4946
SPI
Multi
Half-Bridges
TLE84110EL
(5 Flaps)1)
Flap #5
Flap #4
M
Hall Switch
TLE4946
8-bit
Microcontroller
XC800
A-Family
CAN Transceiver
TLE6254-3G
TLE7250G1)
TLE6251-3G
TLE6251DS
Optional:
CAN Bus
Communication
LIN LDO
TLE8458G
LIN Bus
NovalithIC ™
BTN 79x3B
Motor Driver
+12V from Battery
PROFET ™
BTF 50060-1TEA
LS Driver
Supply
Optional:
VREG
TLE42xx/46xx
HITFET ™
BTS 3405G
BTS 3800
M
Blower Motor
Further
High-Current Loads:
Heater, A/C on,
Defrost etc.
1) In development, samples available
Product Overview
Product Type
Config.
I L(NOM)
I L(LIM)
Lq
VS(op)
Protection
Diagnostic
Interface
Highlights
VCE(sat)/RDS(on)
Package
Path
TLE4207G
2x Half bridge
2 x 0.8
2 x 1.5
20
8 ... 18
LO
Status flag
Error detection
1.2V
PG-DSO-14
TLE4208G
4x Half bridge
4 x 0.8
4 x 1.5
20
8 ... 18
LO
Status flag
Error detection
1.2V
PG-DSO-28
TLE8444SL
4x Half bridge
4 x 0.5
4 x 0.9
1
8 ... 18
OL
Status flag
Open-load detection
in ON state
600mΩ/
switch
PG-SSOP-24
800mΩ/
switch
PG-DSO-14
TLE6208-3G
3x Half bridge
3 x 0.8
3 x 1.0
10
8 ... 40
LO
16-bit SPI
Detailed diagnosis
via SPI
TLE6208-6G
6x Half bridge
6 x 0.8
6 x 1.0
12
8 ... 40
LO
16-bit SPI
Single switch
usage possible
800mΩ/
switch
PG-DSO-28
800mΩ/
switch
PG-SSOP-24
800mΩ/
switch
PG-SSOP-24
TLE84106EL
6x Half bridge
6 x 0.3
6 x 0.5
2
7 ... 18
OL
16-bit SPI
Pin compatible with
TLE 84110EL
TLE84110EL
10x Half bridge
10 x 0.3
10 x 0.5
2
7 ... 18
OL
16-bit SPI
Pin compatible
with TLE 84106EL
[ www.infineon.com/bridges ]
25
Low-Voltage Products
Door Power IC –
Single-Chip Devices for Door Zone Modules
Single-chip solutions for door zone modules help maximize PCB space by integrating common door loads into a single package. TLE8201R and TLE8203E drive loads such as
DC motors for door locks (TLE8201R only) and x-y mirror adjustment as well as resistive
loads such as mirror heaters and lamps/LEDs. TLE8201R is available in a DSO-48 pin
package, while TLE8203E comes in the smaller SSOP-36 package. Both devices feature
integrated protection against short circuits and overtemperature as well as an SPI interface
for programming and diagnosis.
Key Features
SPI interface
IQ = 3µA
Operating range: 8–20VS
Block Diagram of TLE8201
TLE8201
OUT1
M
Door
Lock
M
Safe
Lock
M
Mirror Fold
3A
M
Mirror x
1.25A
M
Mirror y
1.25A
OUT2
OUT3
Power Logic
Current
Sense
Inhibit
RevPol
MOS
Driver
OUT4
Fault
Detect
OUT5
PWM
OUT6
Logic
and
Latch
SPI
Mirror Mirror Heat
Heat 6.25A
OUT7
OUT8
Lamp
5/10W or LED
OUT9
Lamp
5/10W or LED
OUT10
Lamp
5/10W or LED
OUT11
Lamp
5/10W or LED
Product Overview
Product Type
Outputs
I L(lim)
R DS(on)
Driver
Stage
1, 2
8.0
130
Half bridge
CS
Central lock
3, 4
3.0
350
Half bridge
CS
Mirror folding
5, 6
1.25
650
Half bridge
OC, OT
Mirror X-Y
CS
Mirror defrost
TLE8201R
TLE8203R
LO = Lockout
OL = Open Load
8–20
Protect
OC, OT,
OV, UV
Diagnosis
Target Load
6.25
85
8–11
1.8
400
Lamp driver
OC, OT
Repeater
4
3.0
350
Half bridge
CS
Mirror folding
5, 6
1.25
650
Half bridge
OC, OT
Mirror X-Y
CS
Mirror defrost
OC, OT
Repeater
7
6.25
85
High-side
switch
(mirror defrost)
8, 10
1.8
400
Lamp driver
OV = Overvoltage
OC = Overcurrent
UV = Undervoltage
OT = Overtemperature
8–20
OC, OT,
OV, UV
SC = Short Circuit
Package
PG-DSO-36
7
High-side
switch
(mirror defrost)
[ www.infineon.com/door-module-ic ]
26
Operating
Range
[VS]
PG-DSO-36
Low-Voltage Products
Servo Driver – Robust and Reliable
The servo driver family comprises three devices: TLE4206G, TLE4206-2G and TLE4209.
Each one features a fully integrated, full bridge with freewheeling diodes and smart power
protection features for automotive headlight beam leveling control applications. The standard, thermally enhanced power PG-DSO-14 package leverages low RTH for environments with
high ambient temperatures of 150°C. Additional features such as over- and undervoltage
lockout, short-circuit protection and overtemperature protection open the way for a wide
range of additional automotive and industrial applications.
Key Features
Protected bipolar power stages
Low saturation voltage
Internal freewheeling diodes
Optimized for Headlight Beam Control (HBC) applications
Block Diagram of TLE4209G
+VB
+VB
Dr
1N4001
CS
22µF
Dz
RHYH
100kΩ
VS
8
TLE4209G
RR
RANGE 13
Range
AMP
50kΩ
RREF
1kΩ
VREFIN
RREF
36V
Half
Bridge
6 OUT1
REF 14
50kΩ
RFB
PFB
Servo
AMP
FB 1
Protection
and Logic
M
Half
Bridge
HYST 2
Hyst
AMP
RHYL
100kΩ
GND
1kΩ
9 OUT2
50kΩ
3, 4, 5,
10, 11, 12
7
NC
GND
Product Overview
I L(NOM)
I L(lim)
Iq
[µA]
V S(op)
Protection
TLE4205G
0.6
1.0
0.01
6 ... 32
SC
TLE4206G
0.8
1.5
12
8 ... 18
TLE4206-2G
0.8
1.5
12
8 ... 18
TLE4206-4G
0.9
1.6
13
TLE4209A
0.8
1.5
12
TLE4209G
0.8
1.5
12
Product Type
1) Total drop saturation voltage
typ. value @ 25°C
Highlights
Vsat Path
Package
Dual power
comparator for
higher voltage
2.1V at 0.6A 1)
supply voltage
PG-DSO-20/
PG-DIP-18
Servo driver with
current peak
blanking
1.2V at 0.4A 1)
PG-DSO-14
Switching hysteresis
on range input
1.2V at 0.4A 1)
PG-DSO-14
8 ... 19
Adapted range input
1.2V at 0.4A
PG-DSO-16
8 ... 18
Servo driver
1.2V at 0.4A 1)
PG-DIP-8
8 ... 18
Servo driver
1.2V at 0.3A 1)
PG-DSO-14
LO = Lockout
OL = Open Load
OV = Overvoltage
OT, OV,
UV, LO, SC
Inhibit
V
1)
UV = Undervoltage
OT = Overtemperature
SC = Short Circuit
[ www.infineon.com/bridges ]
27
Low-Voltage Products
Monolithic H-Bridges
Infineon offers a broad range of automotive-qualified H-bridges for industrial applications,
from gardening equipment through printers and scanners to coffee machines. Originally
designed for the extreme environments of powertrain engine applications, the H-bridges
can be used for all types of DC motor applications and feature state-of-the-art SmartPower™
technology.
Product Features
Supply range 1): 5V – 40V
Output current 1): 1A – 8,6A
RDS(on) 1): 120mΩ – 230mΩ
HS1
HS2
(typ.25°C per transistor)
M
Protection Features
Diagnosis capability 1)
LS1
Broad green package portfolio
1)
LS2
depending on selected H-Bridge
Product Overview
Feature
Ron Max. @ Current
150°C
Limit Type
Current
Limit Min.
Short
Output
Circuit Det. Control
Min.
TLE5205
TLE5206
500mW
-
-
6A
IN1/IN2
-
not
specified
√
-
-
While OFF
(TLE5205)
PG-TO-220-7
TLE6209
280mW
4.0/5.0
6.0/7.0A
3.4/4.25/
5.1/5.95A
8A
PWM/DIR
-
not
specified
-
√
-
While ON
PG-DSO-20
Max.
Switching
Freq.
Status
Flag
SPI
All I/O 18V Open Load Package
Tolerance Detection
TLE7209-2 300mW
6.6A
5.5A
8A
IN1/IN2
-
30kHz
√
√
√
While OFF
PG-DSO-20
TLE8209-2 250mW
1.5/4.0/
6.6/86A
1.0/3.5/
5.5/7.8A
2.5/5.0/
7.5/9.5A
IN1/IN2
or SPI
√
11kHz
√
√
√
While OFF
PG-DSO-20
[ www.infineon.com/powertrain-ic ]
28
Vdd
Monitoring
Low-Voltage Products
Stepper Drivers – Cost-Efficient, Durable and Reliable
In body electronics, stepper motors are used in headlight beam leveling and HVAC flap
systems. They are also widely used in engine management systems, for example, in rpm
management, where a motor-driven valve in the bypass air inlet controls idling speed.
Key Features
Full- to half-step operation
Protected bipolar power stages
Implemented current control
Error flag for diagnosis
Application Example for Stepper Motor Drive
Watchdog
Reset
Q
Rpullup2
10kΩ
WD
R
CQ
22µF
Rpullup1
10kΩ
VCC
1
2
3
21
MCU
XC866
14
24
23
22
I
TLE4268G
D
+12V
GND
CD
100nF
100nF
100µF
11
VS
I10
I11
Phase 1
Error 1
Error 2
Q11
Q12
TLE4729G
Q21
Q22
I20
9
12
16
M
13
Stepper
Motor
I21
Phase 2
OSC
4
22nF
15
GND
5, 6, 7, 8
17, 18, 19, 20
R1
1Ω
10
R2
1Ω
Product Overview
I L(NOM)
I L(lim)
Iq
[µA]
V S(op)
TCA 3727G
2 x 0.75
2 x 1.5
200
5–50
TLE4726G
2 x 0.75
2 x 1.5
200
TLE4729G
2 x 0.7
2 x 1.5
Product Type
Step
Operations
Protection
Diagnostic
Interface
Highlights
Package
Full to mini
step
OT
–
5–50
Full to mini
step
OT
–
50
6–16
Full to mini
step
OL, OT, SC
Status flag
Very low quiescent
current with inhibit
PG-DSO-24
Current controlled
High operating voltage,
low quiescent current
with inhibit
PG-DSO-24/
PG-DIP-20
PG-DSO-24
Voltage controlled
TLE4208G
4 x 0.8
4 x 1.5
20
8–18
Full to half
step
SC, OT, OV, UV
Status flag
Dual full bridge
PG-DSO-28
TLE8444SL
4 x 0.5
4 x 0.9
1
8–18
Full to half
step
SC, OT, OV, UV, OL
Status flag
Open-load detection in
ON state
PG-SSOP-24
LO = Lockout
OL = Open Load
OV = Overvoltage
UV = Undervoltage
OT = Overtemperature
SC = Short Circuit
[ www.infineon.com/bridges ]
29
High-Voltage Products
IGBTs – For All Your Hard-Switching Requirements
Infineon 600V and 1200V TRENCHSTOP™ IGBTs are the most efficient devices available on
the market today. This makes them ideal for applications where efficiency is a key priority.
The 600V and 1200V TRENCHSTOP™ IGBTs are typically used in UPS and solar inverters as
well as in welding and industrial drives up to 10kW. The new 600V RC-D (Reverse Conducting for Drives) family is a cost-optimized, space-saving solution in DPAK or IPAK up to 15A.
These devices are the perfect fit for the white goods segment up to 2kW, where cost and
performance are key issues.
RC Drives for 600V Hard-Switching Applications
Key Features
Optimized for consumer markets
Best in class Vce(sat) and Vf for outstanding efficiency at frequencies up to 20kHz
Soft current turn-off waveforms
Key Benefits
Outstanding space saving capabilities
Cost optimized
Lowest power dissipation
Low cooling and reduced EMI filtering requirements
RC Drives Fast IGBTs for Comfort and Quietness
We have developed new versions of our RC drives IGBT devices to meet rising demand
for IGBTs in the low-power motor drive consumer market.
Key Features
Optimized Eon, Eoff and Qrr for up to 20 % lower switching losses
Smooth switching performance leading to low EMI levels
Very tight parameter distribution
Operating range of 4kHz to 30kHz
Key Benefits
Best cost/performance for hard switching applications
Up to 60% space saving on the PCB
Excellent EMI behavior
30
High-Voltage Products
At switching frequencies greater than 40kHz, the new 600V and 1200V third-generation, highspeed family (HS3) offers low switching losses and excellent EMI performance.
Key Features and Benefits
High efficiency thanks to lowest switching losses for switching frequencies up to 60kHz
Soft switching waveforms for excellent EMI behavior
Low conduction losses thanks to low Vce(sat)
Optimized diode for target applications with low diode losses and fast recovery times
RoHS compliance
Positive Vce(sat) temperature coefficient for easy paralleling and no thermal runaway
10μs short-circuit rating
Product Overview
TO-247
TO-220 FullPAK
TO-220
D²PAK
I²PAK
DPAK
IPAK
[A]
3
600V TRENCHSTOPTM
600V RC Drives
600V HS3 Family
4
6
8
10
15
20
25
30
40
50
60
75
1200V TRENCHSTOPTM
1200V HS3 Family
600V RC Drives Fast
[ www.infineon.com/igbt ]
31
High-Voltage Products
EiceDRIVER™ – Gate Driver IC for MOSFETs & IGBTs
Infineon has launched a new family of EiceDRIVER™ IGBT / MOSFET gate driver ICs for
applications with blocking voltages from 600V up to 1200V. The new 6ED series is also
available in a 200V version. Based on innovations such as thin-film, silicon-on-insulator
technology (600V) and coreless transformer technology (1200V), these products increase
reliability levels, reduce losses and improve performance.
Family member 1ED020I12-F2 (1200V) is a single-channel, isolated IGBT / MOSFET driver IC
that provides bidirectional galvanic isolation as well as feedback and integrated protection
features. 1ED020I12-B2 (1200V) also offers basic isolation at a maximum working voltage of
1420V. A special two-level turn-off feature is integrated in the 1ED020I12-FT and 1ED020I12-BT
models.
2ED020I12-F2 (1200V) is a dual-channel, isolated IGBT / MOSFET driver IC. It bundles the
same functionality as two 1ED020I12-F2 ICs in a single, compact package. The 2ED020I06-FI
(600V) and 2ED020I12-FI (1200V) half-bridge driver ICs include galvanic isolation on the
high-side channel as well as customizable overcurrent protection.
The new 200V and 600V 6ED series comprises 3-phase gate driver ICs, which offer excellent robustness against negative transients down to -50V. Variants are available with or
without fully integrated bootstrap functionality, positive or negative logic, different undervoltage lockouts and overcurrent protection.
Application Example 1200V 3-Phase Drives
1ED020112-F2
HV Isolation
EiceDRIVERTM
1ED020112-F2
HV Isolation
EiceDRIVERTM
1ED020112-F2
EiceDRIVERTM
HV Isolation
M1
M
3~∆
XE23x, TriCore™
(RES, RDY, IN+, IN-, FLT)
[ www.infineon.com/gatedriver ]
32
1ED020112-F2
HV Isolation
EiceDRIVERTM
1ED020112-F2
HV Isolation
EiceDRIVERTM
1ED020112-F2
EiceDRIVERTM
HV Isolation
High-Voltage Products
High-Power Modules
Variable-speed drive systems play a key role to enhance energy efficiency. We can help to boost
energy performance with our latest chip technologies and innovative module designs covering
the power range from 0.5kW up to more than 1MW. We recently introduced three new module platforms in the low and medium power range: MIPAQ™, SmartPIM & SmartPACK and
the EconoPACK™4. PrimePACK™ and IHM-B are new packages in the high-power segment.
SmartPIM and SmartPACK – Flexible Assembly Through
Self-Acting PressFIT Technology
Infineon has expanded our PressFIT technology range to include the new SmartPIM and
Smart-PACK housing concepts.
The new housing enables the module to be connected with the heat sink and the PCB in
a single mounting process. The PressFIT pin is pressed into the PCB, the PCB is stabilized
and the module is mounted on the surface of the heat sink in a single step. The whole
mounting concept can be performed using an adapted screwdriver. No additional tools are
required. This new technology is suited to all conventional electrical circuits. The housing
accommodates current up to 75A.
This module family combines all the reliability of established PressFIT technology with
a range of advanced features:
Press-in process by simply tightening a single screw
Flexible mounting
The new module and mounting concept reduces process time
Robust housing concept with decoupled DCB force
Gas-tight contact so immune to ambient atmosphere
Decreased FIT rates for interconnections
Reliable, cold-welded connection of module pins and PCB
Can be mounted on both sides of standard PCBs
IC [A]
1200V
PIM
600V
PIM
1200V
SixPACK
600V
SixPACK
75
50
35
25
15
10
[ www.infineon.com/SMART ]
33
High-Voltage Products
MIPAQ™ – New Level of Extended Functionality
and Integration
MIPAQ™ is the latest addition to our IGBT module portfolio, enabling electronics to be
integrated into power modules.
MIPAQ™ combines an IGBT module with sensing and drive electronics, making it the ideal
solution for designing powerful and compact inverters for cost-effective, low and mediumpower applications. The resulting energy savings benefit profitability and the environment.
The MIPAQ™ family is based on IGBT modules and offers advanced functions for power
ranges between 22kW and 75kW:
MIPAQ™ base module offers integrated shunts
MIPAQ™ sense module offers additional current measurement feature and is fully digital with galvanically isolated output signals
MIPAQ™ serve module includes driver electronics
MIPAQ™ Serve Functional Diagram
X2: 2-Row Pin Header to Provide
High-Side Supply Voltages
CLT: Coreless Transformer Isolating
Barrier Replacing Optoelectronic Parts
Input
Logic
CLT
Input
Logic
CLT
Input
Logic
High
Side
Driver
CLT
Input
Logic
High
Side
Driver
CLT
X1: 2-Row Pin Header for 5V Supply,
Gate, Temperature and Error Signals
Input
Logic
3x Low
Side
Driver
CLT
DC Busbar (+)
High
Side
Driver
NTC
Temp.
Sensing
+
U
V
W
DC Busbar (-)
-
The MIPAQ™ serve module is a 3-phase, full-bridge IGBT module with integrated drivers
and digital temperature measurement.
These features make it a full plug-and-play solution for high-current drive applications.
The module contains galvanically isolated drivers based on our coreless transformer technology. Eliminating optical couplers further enhances the module’s long-term stability.
MIPAQ™ serve modules are based on the new EconoPACK™4 and utilize IGBT4 technology.
They cover the 1200V range and manage currents of 100A, 150A and 200A. Screws are used
for high-current connections. The modules feature standardized connectors for supply
voltage and logic signals for plug-and-play functionality.
[ www.infineon.com/MIPAQ ]
34
High-Voltage Products
EconoPACK™4 –
The New Standard for Compact Inverter Designs
EconoPACK™4 is a new member in our highly-rated Econo product family.
The new EconoPACK™4 IGBT modules feature screw power terminals with excellent electric
connections, separate DC and AC links and PressFIT control pins for solder-less inverter
assembly. All of which makes them the ideal choice for industrial applications.
Superb reliability, conductivity and efficiency
Low stray inductance design
IGBT4 650V and IGBT4 1200V and 1700V chip technologies
Screw power terminals and PressFIT control pins
Robust design
3-Phase, Full-Bridge (SixPACK)
3-Level, 1-Phase Configuration:
Configuration:
650V: 200A, 300A
650V/1200V: 100A, 150A, 200A
1700V: 100A, 150A
Q1
D1
D5
Q2
D2
D6
Q3
D3
Q4
D4
Q1
D1
D5
Q2
D2
D6
Q3
D3
Q4
D4
3*Chopper Configurations:
3-Level, 1-Phase NPC2 Configuration:
650V: 300A
1200V/650V: 300A, 400A
1700V/1200V: 300A
[ www.infineon.com/EconoPACK4 ]
35
High-Voltage Products
PrimePACK™ and IHM-B –
Revolutionizing Current and Future Designs
Infineon PrimePACK™ standardizes a novel approach to high-power inverter designs.
The innovative housing utilizes a special heat sink that is more efficient than ever before.
It is the first high-power module in the market to feature an embedded NTC sensor. The
module’s new layout enables very compact and high-power three-level inverter topology
configurations.
The new IHM-B family meets the reliability requirements of today’s widespread IHM
high-power modules. The module family also features several new technologies tailored to
applications subject to harsh environments. To meet designers’ needs, the IHM-B housing
has the same outline as the IHM-A.
Key Technologies Implemented in Both Housings
Ultrasonically welded power and auxiliary terminals
IGBT4 for 1200V and 1700V
IGBT3 for 3300V
Green products able to operate up to Tj=150°C
External Connection
(to be done)
External Connection
(to be done)
Both PrimePACK™ and IHM-B products provide optimum design flexibility and are available in half-bridge or chopper configurations (IHM-B as single switch). These two families
feature the very latest silicon technology and are available in the following voltage and
current ranges:
PrimePACK™:
1200A - 3600A for 1200V and 1700V
450A - 1400A for 1700V
1000A - 1500A for 3300V
[ www.infineon.com/PrimePACK ]
36
IHM-B:
450A - 1400A for 1200V
Sensors
Hall IC Switches
Infineon TLE4968-1K and TLE4961-1K bipolar Hall-effect switches enable exact rotor position
detection in BLDC motor commutation. These automotive-qualified sensors feature precise
magnetic switching thresholds of +/- 1mT (TLE4968-1K) and +/- 2mT (TLE4961-1K) which
enables motors with smooth torque. With an operating voltage of 3V to 32V and a typ. current­­
consumption of just 1.6mA, the sensors are ideally suited for energy efficient system
­requirements. Offered in a small package, very compact BLDC systems can be realized.
Common Sensor Features
Operation from unregulated power supply
Superior temperature stability
3.0V to 32V extended high operating supply
Extended ESD performance (± 7kV HBM)
Low jitter (typ. 0,3 μs for a square input
voltage
Overvoltage capability up to 42V (no addi-
signal)
Automotive qualified
tional, external resistor necessary)
Reverse battery protection (– 18V)
Output overcurrent & overtemperature
High sensitivity and high stability of the
protection
Available in SMD packages SC59 and SOT23
magnetic switching points
High resistance to mechanical stress due to
and leaded package PG-SSO-3
active error compensation
Appplication Example TLE496x
VDD
To All Subcircuits
Voltage Regulator
Bias and
Compensation
Circuits
Oscillator and
Sequencer
Reference
Amplifier
Spinning Hall
Probe
Demodulator
Chopper
Multiplexer
Q
Control
Low Pass
Filter
Comparator
with
Hysteresis
Overtemperature
and Short Circuit
Protection
GND
Product Overview
Product Type
Package
Type
B OP
B RP
TLE4961-1K
PG-SC59
Latch
2mT
-2mT
TLE4961-1L
PG-SSO-3
Latch
2mT
-2mT
TLE4961-1M
PG-SOT23
Latch
2mT
-2mT
TLE4968-1K
PG-SC59
Bipolar Switch
1mT
-1mT
TLE4968-1L
PG-SSO-3
Bipolar Switch
1mT
-1mT
[ www.infineon/hall-switches ]
37
Sensors
GMR-Based Magnetic Angle Sensor
Infineon magnetic angle sensing principle is based on tried-and-tested, automotive-qualified
integrated Giant Magneto Resistive (iGMR) technology. iGMR technology combines magneto
resistive sensing elements and integrated circuits into one chip. The iGMR technology can
determine the absolute orientation of a magnetic field between 0° and 360°. The product
portfolio covers a wide range of integrated signal processing and interfaces. Infineon
iGMR sensors combine high angular accuracy and resolution with fast signal processing
and short delay times, making them ideal for rotor position sensing in electrical drives.
Key Features
Integrated GMR (iGMR) technology
On-chip signal processing
0 - 360° angle measurement with
with angle calculation
Digital and analog interfaces
sine and cosine bridge
Supply voltage 3.3 or 5.0V
Automotive qualified
-40°C to +150°C
Application Example
EC Motor
Magnet
Motor
Control Unit
Sensor
Product Overview
Product Type
Packages
Halogen-Free
Package
Interface
Application
TLE5009 E1000
PG-DSO-8
Available
SMD
Analog
Angle iGMR
TLE5009 E1010
PG-DSO-8
Available
SMD
Analog
Angle iGMR
TLE5009 E2000
PG-DSO-8
Available
SMD
Analog
Angle iGMR
TLE5009 E2010
PG-DSO-8
Available
SMD
Analog
Angle iGMR
TLE5011
PG-DSO-8
Available
SMD
SPI
Angle iGMR
TLE5012B E1000
PG-DSO-8
Available
SMD
SPI, IIF
Angle iGMR
TLE5012B E3005
PG-DSO-8
Available
SMD
SPI, HSM
Angle iGMR
TLE5012B E5000
PG-DSO-8
Available
SMD
SPI, PWM
Angle iGMR
TLE5012B E9000
PG-DSO-8
Available
SMD
SPI, SPC
Angle iGMR
[ www.infineon.com/sensors ]
38
Support Tools
[ www.infineon.com/xmc ]
XMC4500 Low Voltage Motor Drive Kit
Key Features
XMC4500
ARM Cortex™-M4 with 120MHz,
®
1MB Flash, 160kB RAM
PWM with emergency shutdown and
ADC trigger
Quad-ADC with 4x12-bit and 70ns
­sample time
Delta Sigma Demodulator for resolver
feedback
Multi-phase current measurement
Quadrature Encoder Interface
(Maxon Motor compatible)
Resolver Interface
Communication: Ethernet, USB, CAN
and RS485
HMI: OLED Display and touch buttons
Mobile mass storage: SDMMC Card slot
IDE: Free Tool Chain DAVE™ 3 including
compiler and debugger
Pattern Generator for resolver excitation
Software: DAVE™ 3 Motor Control App
3-phase halfbridge inverter for Motors
Code Instrumentation with DAVE™ 3
with 24V/7.5A
XSPY-Plugin
Applications
General purpose industrial motor applications:
Linear Drives
Conveyor Belts
Positioning and Synchronized Drives
Transportation and Lifting Systems
HVAC
[ www.infineon.com/bldc ]
Automotive BLDC Motor Drive Kit
Key Features
Scalable, 3-phase inverter
Sample code:
FOC & V/f for XC886 and XC2238N
Complete IDE software packages
included
Easy installation, plug & play
Integrated protection features for
high system reliability
Applications
Pumps
Fans
New
Support Tools
[ www.infineon.com/BLDC ]
BLDC (Brushless DC) Application KIT
Key Features
DAVE™ Drive auto-code generator
XC866
PWM unit
Fast ADC with <200ns sample time
Power board 9V - 18V, 20A
(fully functional application code) for
Block switching with Hall sensors
and sensorless
50W PMSM motor and plug-in power
Free tool chain including compiler
and debugger
Digital isolated, real-time monitoring
supply 12V
Uses Infineon NovalithIC™ BTN 7960B
tool (USB to JTAG and CAN bridge)
Tutorial videos demonstrating how to
and TLE4264 LDO
use the kit
Suitable for Windows 98/2000/XP
Applications
Water pumps
Valves
Fuel pumps
Power tools
Fans
[ www.infineon.com/davedrive ]
DAvE™ Drive Application Kit
Key Features
XC886 with vector computer
PWM unit
Fast ADC with <200ns sample time
Free tool chain integrated in
DAVE™ Drive
Flexibly generates optimized code
Configures Infineon’s powerful and
Compresses a detailed user manual
Helps designers to quickly and easily
Power board 23V - 56V, 7.5A
15W PMSM motor and plug-in power
and is not based on static libraries
supply 24V
Uses Infineon 6ED003L06 gate driver,
flexible motor control peripherals
BSC196N10, MOSFETs, CoolSET™
ICE3B0565 power supply and
TLE4264 LDO
DAvE™ Drive auto-code generator (fully
functional application code) for
Block switching with Hall sensors
Sensorless FOC of PMSM
and sensorless
into a few mouse clicks
implement advanced motor control
techniques on low-cost components
Digital isolated real-time monitoring tool
(USB to JTAG and CAN bridge)
Suitable for Windows 98/2000/XP
Applications
Industrial motor controls
Consumer motor controls
Transportation systems
Appliance motor controls
Support Tools
[ www.infineon.com/FOCdrive ]
FOC Drive Application Kit
Key Features
XC878 with vector computer
Uses Infineon 6ED003L06 gate driver,
Two independent PWM units
BSC196N10, MOSFETs, CoolSET™
Fast ADC with <200ns sample time
ICE3B0565 power supply and
XE164 real-time signal controller with
TLE4264 LDO
Software package including source code
MAC unit
Three independent PWM units
Sensorless FOC of PMSM with XE164
Two independent fast ADCs with
Sensorless FOC of PMSM with XC878
Free tool chain for XC878 and XE164
<200ns sample time
Power board 23V - 56V, 7.5A
including compiler and debugger
15W PMSM motor and plug-in power
Digital isolated, real-time monitoring
supply 24V
tool (USB to JTAG and CAN bridge)
DAvE™-compatible software packages
Suitable for Windows 98/2000/XP
Applications
Industrial drives
Pumps
Fans, blowers
[ www.infineon.com/aircon ]
Air-Conditioning Reference Board
Key Features
XC878 with vector computer
XE164 real-time signal controller with
Software package including source code
MAC unit
with sensorless FOC & digital PFC
Power board
1kW compressor inverter stage using
with XE164
Sensorless FOC & digital PFC with
V/f control of ACIM for quick
15A RC drives IGBT in DPAK (TO-252)
200W outdoor fan inverter stage using
4A RC drives IGBT in DPAK (TO-252)
1.5kW CCM-PFC using 20A high-speed 3
IGBT and 10A SIC diode
Simultaneous control of two PMSMs
XC878
evaluation
Free tool chain for XC878 and XE164
including compiler and debugger
Digital isolated, real-time monitoring
tool (USB to JTAG and CAN bridge)
DAvE™-compatible software packages
Suitable for Windows 98/2000/XP/7
Applications
Air conditioning
Pumps
Industrial drives
White goods
Fans, blowers
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by offering qualified support on the phone. Call us!
nGermany ......................
0800 951 951 951 (German/English)
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4001 200 951 (Mandarin/English)
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000 800 4402 951 (English)
nUSA .............................
1- 866 951 9519 (English/German)
n Other countries ............
00* 800 951 951 951 (English/German)
n Direct access ...............
+49 89 234-0 (interconnection fee, German/English)
* Please note: Some countries may require you to dial a code other than “00” to access this international number,
please visit www.infineon.com/service for your country!
Where to Buy
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Infineon Technologies – innovative semiconductor solutions for energy efficiency, mobility and security.
Published by
Infineon Technologies AG
85579 Neubiberg, Germany
© 2012 Infineon Technologies AG.
All Rights Reserved.
Visit us:
www.infineon.com
Order Number: B158-H9357-G2-X-7600
Date: 02/2012
Attention please!
The information given in this document shall in no event
be regarded as a guarantee of conditions or characteristics
(“Beschaffenheitsgarantie”). With respect to any examples
or hints given herein, any typical values stated herein and/
or any information regarding the application of the device,
Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property
rights of any third party.
Information
For further information on technology, delivery terms and
conditions and prices please contact your nearest Infineon
Technologies Office (www.infineon.com).
Warnings
Due to technical requirements components may contain
dangerous substances. For information on the types in
question please contact your nearest Infineon Technologies
Office. Infineon Technologies Components may only be
used in life-support devices or systems with the express
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the failure of that life-support device or system, or to affect
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sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons
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