infineon power management selection guide 2016
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Power ManagementSelection Guide 2016
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Dear Customer,
Mobile devices, cellular inrastructure, motor control, lighting, computers
or networking equipment – today’s advanced systems must be developedin ever-shorter times at ever-lower cost and with a strong ocus on power
density. In addition, imperatives to reduce energy consumption drive high-
efficiency power design up to the top o the development agenda.
At Inineon we address these challenges with our approach ‘From product
thinking to system understanding’. We increase value by taking innovative
ideas rom concept to inal production as quickly and as cost-effectively
as possible. For power management this is relected in our intelligent
combination o Power Discretes and Digital Control and Driver ICs – a
combination that is urther strengthened through the integration oInternational Rectiier’s broad portolio o devices, technologies, modules,
reerence designs and expertise.
As this year’s Power Management Selection Guide illustrates, choosing
Inineon opens a door to the broadest portolio o advanced, high-
perormance technologies or power management coming along with a
variety o tools, support and expertise unrivalled in the industry.
We look orward to supporting your success!
尊敬的用户,
移动设备、蜂窝通信基础设施、电机控制、照明、计算机或网络设备,
如今先进系统的开发时间必须比以往更短,成本更低,并密切关注功率密度。
此外,降低能源消耗的重要性使得高效率电源设计迫在眉睫。
英飞凌将以“从产品思维到系统理解”的战略迎接挑战。
我们快速且高性价比地将创意从概念转化为成品,从而提高价值。
拿电源管理来说,我们的智能组合将功率分立器件、数字控制和驱动IC相结合,
并进一步融合了国际整流器公司(IR)包含设备、技术、模组、
参考设计和专业知识的广泛组合。
如今年的《电源管理选型指南》所述,选择英飞凌将打开了一扇大门,
通往电源管理的先进、高性能科技和业内无与伦比的多样化工具、
支持和专业知识。
我们期待能助力您的成功!
Andreas Urschitz
Division President o
Power Management & Multimarket
电源管理及多元化市场总裁
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Power management applications
3D printer 8
Automatic opening systems 10
Battery powered applications 12
DC-DC computing 14
Point-o-load Converters 15
E-mobility 16
Class D audio ampliier 20
Industrial automation 21
Industrial welding 22
Lighting 24
Major home appliances 26
Induction cooking 26Inverterized drives 27
Microwave oven 28
Multicopter 30
SMPS 32
Adapter 34
Charger 36
PC power supply 37
TV power supply 38
Server power supply 40
Telecom power supply 42
Solar 44
Wireless power 48
Uninterruptible power supply 50
Segment V – V MOSFETs
Segment V – V MOSFETs
Segment V – V Diodes
Segment Discrete IGBTs & JFET
Segment Power ICs
Segment Microcontrollers
Segment Sensors
Packages
Content
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We make life easier, safer and greener – with technology that achieves more,
consumes less and is accessible to everyone.
From product thinking to system
understandingInfineon enables efficient generation, transmission and conversionof electrical energy
www.infineon.com/power
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Ictam quodita dolorep
6
Gallium NitrideHighest efficiency and power density
Bringing you the latest news o the emerging GaN market
Positive market trend is developing as CoolGaN™ system cost is expected to head lower
As stated, CoolGaN™ delivers dramatic electricity cost savings in datacenter applications. Electricity costs can be
reduced by $ 9 or each year o GaN powered 2 kW server system operation. In other applications GaN perormance
is expected to lower system cost components, or example higher requency operation allows use o smaller, less
expensive inductors as compared to those used or lower requency operation. Over time, system level costs or GaN
based power conversion systems are expected to reach parity with their silicon based counterparts.
Inineon leads industry setting GaN qualiication standards
GaN power devices have a different physical structure and utilize different materials compared to silicon power
devices. So the relevant ailure mechanisms also vary. Inineon is ollowing a ive old qualiication methodology where
in these differences are studied and modeled. Moreover, a qualiication plan is generated that assures operation o
GaN based power conversion systems operate reliably or their designed lietime.
CoolGaN™ efficiency reduces costs
CoolGaN™ based AC-DC power conversion systems deliver dramatic electricity cost savings in datacenter applications.
For example a GaN based 1.5 kW average AC-DC Converter (2.5-3 kW peak) will reduce electricity costs by $ 9 or each
year o operation by increasing efficiency by 1 percent versus comparable Silicon MOSFET solutions. This solution
eatures new topologies that eliminate rectiier voltage drops and also beneits rom inherently better ZVS switchingperormance that GaN offers. The modest BOM increase is more than justiied by the cost saved.
CoolGaN™ delivers highest density solutions
AC-DC power Converter density is a key design value or both consumer and server applications. Using GaN devices
at higher requencies and with resonant topologies the system power density can be increased up to 75 percent. One
example is a 750 W DC-DC stage at more than 170 W/in3. The result? Higher power rating without increasing the height
o a server rack, or a very thin power supply or sleek consumer electronics design.
Gallium Nitride
www.inineon.com/gan
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Today, consumers can create a growing list o objects with nothing more than a digital ile and a 3D printer. While
the excitement is understandably big, 3D printers continue to ace a number o limitations – most notably size and
speed – that currently prevent the technology rom ully replacing a number o assembly line manuacturing processes.
Moving beyond these limitations to create winning 3D printing designs requires a highly reliable motor control solu-
tion with excellent speed control and position detection capabilities. Furthermore, the compact power supply must
offer top energy efficiency and power density.
With Inineon’s complete portolio o semiconductor solutions, you will ind components or 3D printing designs
destined or high acclaim. We offer system solutions with every product you require – such as 40 V-800 V MOSFETs,CoolSET™ or Integrated point-o-load Converters (SupIRBuck™) or power management, our IPM™, NovalithIC™, Sen-
sor solutions and XMC4500 Microcontroller or motor control, our ORIGA™ or OPTIGA™ Trust E or authentication and
OPTIGA™ Trust TPM or security o data communication. As a leader in power management, Inineon offers benchmark
product solutions or your power supply designs, ensuring highest efficiency ratings and higher power density. Our
high level o integration o motor control solutions (up to 300 W), or example with IPM™ or NovalithIC™, allows you to
signiicantly reduce PCB space and to reduce system cost.
With our Sensor solutions we enable precise rotor position detection and more accurate switching points to ensure
higher torque in our motor solutions. As proven by Inineon’s exceptional track record, every component bearing the
Inineon name is as robust as it is reliable.
3D printerIndustry-leading ull system solution
Microcontroller
Motor Driver Motor DriverMotor Driver
M MM12 V 12 V 12 V
X-Axis Y-Axis Z-Axis
Temperature sensorfor PCB
Heatedprinter bed
SD cardSPI
Status LED
USB
Power supply unit
Security
MUX
Motor Driver
M12 V
Extruder
3D printer
Block diagram
www.inineon.com/3dprinter
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A p p l i c a t i o n s
9
Functional block Products Selection/benefit
Motor control IPM™ High integration
NovalithIC™ Integrated solution with ast signal processing, short delay timesAngle sensor Low power consumption and high accurate angular and linear
position detection
Hall switches Recommendation
Industrial Microcontroller XMC1100/ XMC 4500 Recommendation
Industrial Transceiver Recommendation
Power supply:
PFC stage
600 V CoolMOS™ P6/CE Ease-o-use and high efficiency
650 V PFC Control IC High efficiency
650 V CoolSET™ F3 High efficiency
650 V Rapid 1/ Rapid 2 Diodes Efficiency
650 V CoolSiC™ Diodes generation 5 Ease-o-use and cost-optimized solution
EiceDRIVER™ 2EDN Gate Driver Fast and robust Gate Driver
Power supply:
Main stage
650 V quasi-resonant Controller High efficiency
650 V LLC Controller High efficiency
800 V CoolMOS™ CE/ C3 High efficiency
EiceDriver™ 2EDN Gate Driver Fast and robust Gate Driver
Main stage:
Synchronous rectification
40 V– 60 V OptiMOS™ High efficiency
60 V synchronous rectiication MOSFET IRLR3636 High efficiency
EiceDRIVER™ 2EDN Gate Driver Fast and robust Gate Driver
Power supply:
DC-DC point-of-load
Integrated Power Stages DC-DC: PowIRstage™, DrMOS High perormance
Fully integrated point-o-load Converter SupIRBUCK™ High perormance DC-DC Point-o-Load solution
Recommended Microcontroller +DC-DC Converter
Industrial Microcontroller XMC1300, XMC4xxx-series Recommendation
DC-DC Voltage Regulator (IFX90121, IFX91041, IFX81481, IFX80471) High perormance
Security ORIGA™ Enhanced embedded security
OPTIGA™ Trust E/ OPTIGA™ TPM Enhanced embedded security
3D printer
Inineon’s product recommendation or 3D printer
www.inineon.com/3dprinter
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Every building and household utilizes openings at numerous positions in and around the building: sliding and swing
doors, garage doors, sun-blinds and automated gates. When automated, these doors are equipped with systems that
are able to manage the opening action, avoid unintentional opening, control the speed and torque, detect the presence
o objects along the path, and a number o other unctions. Automatic opening systems incorporate smart sensors,
motor controls, supplies and battery management, which help to reduce energy losses in all conditions. This is where
Inineon comes into place.
With Inineon’s complete portolio o semiconductor solutions, we offer system solutions or every product you
require, ranging rom power semiconductors, sensors to security products. Inineon products help to make your motordesigns more energy efficient, help to secure against unauthorized manipulation o irmware update and our radar
solutions cover a 16 times larger area than Inrared solutions.
Automaticopening system Automatic opening systems
Benchmark efficiency solutions or your motor controland power management
Automatic opening systems
Integrated or discrete motor Drivers
Current sensing
Current sensing
EiceDRIVER™
Gate Driver
3-Phase
Inverter
USB,serial COMethernet
XMC™Microcontroller
MStatusindication
User interface&
buildingautomation
network
Power management
AC-DC DC-DC
Legend
Power Sensor
Microcontroller Peripherals
Security Other products
(Isolated and non-isolated with ADC and DSD)
Hall &
GMR Sensors
Position sensing
(Isolated and non-isolated with ADC and DSD)
Security
Security
Block diagram
www.inineon.com/automaticopeningsystem
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A p p l i c a t i o n s
11
Functional block Products Selection/Benefit
Motor control 650 V TRENCHSTOP™ IGBT Recommendation
OptiMOS™/StrongIRFET™ Recommendation
Intelligent Power Modules/ CIPOS™ High integration
NovalithIC™ High integration
Angle sensors Integrated solution with ast signal processing, short delay timesHall switches Low power consumption and high accurate angular and linear position detection
Double hall switches (TLE4966) High integrated sensor solution or position detection including direction detection
Ei ceDRIVER™ 2EDL Compact/ Enhanced Recommendati on
Industrial Microcontroller XMC1000/ XMC4000 Recommendation
DC-DC Converter High perormance
Power management 650 V CoolSET™ F3 High efficiency
600 V CoolMOS™ P6 High efficiency
650 V TRENCHSTOP™ IGBT High efficiency
OptiMOS™ (20 V - 300 V) High efficiency
PWM ICs or PFC/ LLC/ Combi PFC+LLC High efficiency
Ei ceDRIVER™ 2EDL Compact/ Enhanced Recommendati on
Motion sensor BGT24MTR11/ BGT24LTR11 High perormanceBGT24MR2 High perormance
BGT24MTR12 High perormance
Security OPTIGA™ Trust E/OPTIGA™ TPM Enhanced embedded security
Automatic opening systems
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Battery powered applications
Based on industry leading technology, the highest quality and manuacturing expertise, Inineon provides a variety
o innovative power semiconductors which enable designers to develop highly reliable and efficient solutions or all
kinds o drive applications.
Key enabling products
› Low voltage Power MOSFETs – OptiMOS™and StrongIRFET™
› Small Signal products › High voltage Power MOSFETs – CoolMOS™
› Gate Drivers – EiceDRIVER™ Compact and100 V/200 V Gate Drivers
› Microcontrollers – XMC™ › Magnetic Sensors and Voltage Regulators
Inineon offers a comprehensive portolio to address a broad range o battery powered motor control applications such
as power tools, orklif, all kind o light electric vehicles e.g. e-skateboards, e-scooter, pedelecs, low speed cars and many
others. For urther inormation please explore our homepage: www.inineon.com/motorcontrol
Many end markets or the same circuit
Battery powered applicationsHighest perormance in your motor control
Typical battery powered three-phase system: a one-stop-shop or battery powered drives
www.inineon.com/motorcontrol
Position sensing
Current sensing
Current sensing
Gate DriverEiceDRIVER™
200 V Driver ICs 3-Phase
Inverter
OptiMOS™StrongIRFET™
HEXFET™
USB,
XMC™
Microcontroller&
Digital Controller
M
Status
indication
LED Drivers ≤ 60 V
User
interface
Power management
Battery management
CoolMOS™ORIGA™
OptiMOS™
StrongIRFET™
HEXFET™Linear voltage/DC-DC
switching regulators
Hall switch
Angle sensorsLinear hall sensors
Current sensors
serial COM
& ethernet C A N T
r a n s c e i v e r
Industrial drives Consumer drives Light electric vehicles Toys DC drives
Forklif trucks, industrialautomation
Power and gardening tools,vacuum cleaner
E-scooter, e-bike, e-skateboard,LSEV
RC toys and multicopters Pumps and ans
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A p p l i c a t i o n s
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Application requirements
› Efficiency: reduction o overall system energyconsumption, increasing battery operating and
lie time, optimized thermal management
› Reliability: reliable operating in harsh environmentsand avoiding system down time › Maintenance: low maintenance and high lietime
o components
› Size and cost: reduction o overall system size and cost › Time to market: reduction o development time and cost
Benefits of Infineon components
› Portolio: complete portolio out o one hand– enables scalability
› Reliability: increased lietime due to Inineon’s
reliability and quality› Size and cost: smallest area required or highest power
density and BOM cost reduction due to lowest RDS(on)
› Time to market: complete eco-system: simulations,documentation and demoboard solution or high-end
solutions available
20 V-200 V StrongIRFET™
EiceDRIVER™
XMC1000
Linear voltage and DC-DC switching Regulators
Hall sensors
20 V-300 V OptiMOS™
100 V/200 V Gate Drivers
XMC1000, XMC4000
CoolMOS™ CE CoolMOS™ P6
Consumerdrives
MOSFETs
Driver ICs
Microcontrollers
Microcontrollers
Magnetic sensors
DC drives Light electricvehicle
Industrialdrives
RC toys andmulticopters
To shorten customer development cycle time and cost we offer a complete portolio o low voltage motor control application kits:
Battery powered applications
XMC1000 Motor Control
Application kit
XMC4000 Motor Control
Application kit
300 W Motor Control
Application kit
Evaluation board
5 kW TO-Leadless
1 kW Motor Control
Application kit
A complete set o components that ensure system-cost competitiveness and high perormance solution
Infineon product offering Power tools Industrial drives Light electric vehicles RC toys, multicopters
Low voltage MOSFETsOptiMOS™
StrongIRFET™
Voltage 20 V-200 V 60 V-150 V 60 V-300 V 25 V-100 V
Package TO-220, DPAK, DPAK, SuperSO8,PQFN 3x3, DirectFET™
DPAK, DPAK, DPAK 7pin,TOLL
TO-220, DPAK, DPAK, DPAK7pin, TOLL
SuperSO8, PQFN 3x3 ,DirectFET™
High voltage MOSFETs
CoolMOS™ CE 1) Voltage 500 V, 600 V, 650 V - - 500 V, 600 V, 650 V
Package TO-220, TO-220 FullPAK - - TO-220, TO-220 FullPAK
High voltage MOSFETs
CoolMOS™ P6
Voltage - 600 V 600 V -
Package - TO-220, TO-220 FullPAK TO-220, TO-220 FullPAK -
Driver ICs
EiceDRIVER™ Compact
2EDL05N06* 2EDL23N06* 2EDL05N06*
2EDL23N06*
2EDL05N06*
100 V/200 V Gate Drivers IR210x/IR218x (Gen2)/IRS210x/IRS218x (Gen5)/IR233x (Gen2)/IRS233x (Gen5) IR2011 (Gen2) IRS2011 (Gen5)IRS200x (Gen5)
Authentication IC 2) ORIGA™ 1 - - ORIGA™ 1
Microcontrollers XMC1300 XMC4400/4500 XMC1300, XMC4400/4500 XMC1100
Microcontrollers and Driver supply IFX1763/ IFX54441/ IFX54211/ IFX21003/ IFX30081/ IFX90121/ IFX91041
Sensors Hall switches (TLE 496X)
1) Focus on power tool chargers2) Focus on authentication or power tool chargers
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Block diagram
DC-DC
DC-DC multiphase power deliveryPWM Controller and system solution portolio
An industry leader in digital power management, Inineon delivers solutions or the next generation server, commu-
nication, and computing applications. Inineon offers a complete portolio, including digital PWM Controllers, Power
Stages, MOSFET Drivers, Power Blocks, and Discrete MOSFETs. These proven technologies are optimized to maximize
efficiency, minimize solution size and deliver the value customers need in today’s competitive market.
In addition, our latest sofware tools help simpliy design, shorten design cycles and improve time to market.
Benefit Advantage
Best-in-class efficiency Digital Controller + PowIRstage® provide Industry‘s best efficiency o more than 95%
Support all major VID interace and control schemes Intel SVID, AMD SVI2, NVIDIA PWM VID, Parallel VID (up to 8-bit) , PMBus™ Rev1.3, AVS Bus (PMBus™ Rev1.3)
Complete system solution Controller and PowIRstage®, tuned and trimmed to achieve maxi mum perormance with the highest reliabil ity
Digi tal Control ler lexi bil ity The industry’s benchmark 8-phase, multiple output, lexi ble coni guration digital Controllers
Efficienc y shaping eatures Auto-phasing and variable gate drive optimize efficiency under all load condit ions.
Ease-o-design GUI based optimization and coniguration signiicantly reduces design cycle time
Smallest solution si ze Non-linear control and multiple di gital PID compensation achi eves ~40% reduction in passi ve components and solutionsize.
DC-DC
PWM
Controller
CPU, GPU
AC adapters
Battery
chargerChip set, DDR, I/O,
other peripheral loads
OptiMOS™
OptiMOS™
OptiMOS™
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A p p l i c a t i o n s
15
Low voltage DC-DCIntegrated point-o-load Converters
Inineon’s point-o-load Converters integrate a PWM Controller, Driver and MOSFETs into a small PQFN package or
ease-o-use. The patented PWM modulation scheme allows greater than 1 MHz switching requencies to deliver ultra
compact layouts and smallest bill o materials. A PMBus™ interace is available or monitoring and control in systems
that use advanced CPUs, ASICs and FPGAs.
Part number Family Iout[A]
V in max.
[V]
f sw
[MHz]
Package
[mm]
Key features
IR38064
Digital SupIRBuck™
35 21 0.2-1.5 5x7
PMBus™ interaceIR38063 25 21 0.2-1.5 5x7
IR38062 15 21 0.2-1.5 5x7
IR38060 6 21 0.2-1.5 5x6
IR3846
SupIRBuck™
35 21 0.2-1.5 5x7
Differential remote senseIR3847 25 21 0.2-1.5 5x6
IR3448 16 21 0.2-1.5 5x6
IR3895 16 21 0.2-1.5 5x6
Tracking, sequencing, margining
IR3894 12 21 0.2-1.5 5x6
IR3899 9 21 0.2-1.5 4x5
IR3898 6 21 0.2-1.5 4x5
IR3897 4 21 0.2-1.5 4x5
IR3892 6+6 21 0.2-1.5 5x6
Dual outputIR3891 4+4 21 0.2-1.5 5x6
IR3823 3 21 0.2-1.5 3.5x3.5 Programmable sof-start
IR3883 EaSy SupIRBuck™ 3 14 0.8 3x3 No compensation
Product overview
Block diagram
POL
IR38XXX
POL
IR38XXX
POL
IR38XXX
I/O I/O
Core
Memory
+
+
+
+
0.9 V
1.5 V
1.8 V
12 V
PMBus™
CPU/ASIC/FPGA/DSP
Point-o-load
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E-mobility
To recharge the battery o an electric or hybrid/electric car, a charger is needed. Chargers can be implemented on-
board or off-board the vehicle. Electric energy may be transerred to the vehicle by wire or by wireless methods like
resonant inductive power transer. Power units on-board the vehicle require automotive-grade components, while the
wider product selection o industrial-grade components can be used or off-board units.
On-board chargers
In cars with on-board chargers the batteries can be recharged rom any standard AC power outlet, which provides
maximum power o 3.6 kW best case (single-phase 230 V/16 A). This standard charging at low power takes severalhours (overnight). Battery charging via the power grid requires a lexible power Converter topology to handle different
voltage and power ratings wherever the car may go to, and on-board chargers need to be as efficient and small as pos-
sible to stay cool at lowest possible weight.
Off-board chargers
In off-board chargers, the power conversion rom AC grid voltage to DC battery voltage is done outside the car and
the resulting DC power is transmitted by wire to the EV’s DC-charging socket. Ultra-ast chargers with power ratings at
50 kW and more have been designed in this way. As the power Converter is off-board, automotive grade qualiication is
not required or the respective electronic components.
Apart rom ast and ultra-ast chargers, there may be a market or off-board chargers in the power range up to 10 kW,
or example to charge small and economic electric vehicles (LEVs). Also in case o the off-board chargers, selecting the
right topology to enable maximum conversion efficiency is an important design criterion.
Diagram o AC-DC battery chargers: unctional blocks
E-mobilityBest solutions or battery chargers, wireless charging and batterymanagement
*For off-board chargers only
RFIfilter
PFC DC-DC
Converter
RFIfilter
PFC DC-DC
Converter
RFIfilter
PFC DC-DC
Converter
Power(Grid)
Auxiliarypowersupply
Control + Display
Isolation
Batterymanagement
L1
L2
L3
N
L1L2L3
I / V M e a s u r e m e n t
Single-phase charger
Microcontroller
power supply
32-bitMicrocontroller
TC23xLTC26xD
XMC1000*XMC4000*
Isolated currentsensor
Transceiver
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A p p l i c a t i o n s
17
E-mobility
Product portolio or on-board and off-board charger applications
Inineon’s comprehensive portolio o semiconductors (Sensors, Microcontrollers, Power Semiconductors, etc.) lends
itsel perectly to designs o compact units or on-board, off-board and wireless charging. Our products in this sector
support high switching requencies at lowest possible RDS(on) to enable compact and efficient designs: MOSFETs such as
CoolMOS™, IGBTs TRENCHSTOP™ 5 and SiC Schottky Diodes, like 650 V CoolSiC™ Diode. In addition, integrated MOSFET
and IGBT Drivers, Controller ICs or active CCM PFC high-perormance Microcontroller solutions and highly accurate
current Sensors complete our product portolio.
Typical part number Product family Description
1ED020I12FA2 Automotive EiceDRIVER™ Single-channel isolated Driver or 650 V/1200 V IGBTs and MOSFETs
1ED020I12FTA Automotive EiceDRIVER™ Single -channel isolated Driver, two-le vel turn-off or 650 V/1200 V IGBTs
2ED020I12FA Automotive EiceDRIVER™ Dual-channel isolated Driver or 650 V/1200 V IGBTs and MOSFETsIPx65RxxxCFDA CoolMOS™ 650 V MOSFET with integrated ast body Diode
TC23xL, TC26xD AURIX™ 32-bit lockstep Microcontroller
TLF35584 1) System supply New ISO26262-system-supply optimized or AURIX™
TLE7250G Transceiver High-speed Automotive CAN Transceiver
TLE6251D Transceiver High-speed Automotive CAN Transceiver, with wake-up
Typical part number Product family Description
IKWxxN65F5 TRENCHSTOP™ 5 650 V ast IGBT with Rapid 1 Diode
IGWxxN65F5 TRENCHSTOP™ 5 650 V ast IGBT single
IDWxxG65C5 CoolSiC™ Diode 650 V/1200 V SiC Schottky Diode generation 5
IPW65RxxxC7 CoolMOS™ 650 V MOSFET, CoolMOS™ C7 series or hard switching topologies
HYBRIDPACK™ 1 Power module 1200 V/200 A or ast and ultra-ast charging (>10 kW/phase)
XMC1000 2), XMC4000 2) XMC™ Microcontroller 32-bit ARM® Cortex ® M0/M4F Microcontrollers, up to 125ºCambient temperature (XMC4000)
IFX1763, IFX54441, IFX54211 Linear voltage regulator Linear voltage regulator amily with output current capabilityo 500 mA/300 mA/150 mA respectively
IFX1050, IFX1021 Transceiver High-speed CAN Transceiver/LIN Transceiver
TLI4970 Current sensor 600 V unctional isolation, ± 50 A
1) in development2) or external chargers
Wireless charging
Wireless methods or power transer to charge the batteries o electric vehicles are gaining attention. Several concepts
or wireless power transer systems have been proposed, which in general seek to compensate the signiicant stray
inductances on primary and secondary sides o the magnetic couplers by adaptive resonant methods. By the end o
2013, SAE announced a uture standard or inductive charging which will deine three power levels at 85 kHz. Inineon’s
TRENCHSTOP™ 5 IGBT and CoolSiC™ Diodes are perectly suited or driving inductive power transer systems (on the
road side) which operate inside the 80 kHz to 90 kHz band.
Power
(Grid)
50/60 Hz
PFC
AC-DC
Inverter
Resonance
loops
Receiver
Resonance
loops
Rectifier
Battery
management
High voltage
battery~
+
-
+
-
+
-
85 kHz
Road side Car side
M
~ ~
www.inineon.com/emobility
Automotive products or on-board units
Industrial products or off-board units
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E-mobility
Charger concepts without galvanic isolation o the power stages
Transormerless design, without galvanic isolation inside the power stages, are economic and efficient. But enhanced
saety measures may be required to operate such designs rom standard AC-grid power outlets. There need to be
Type-B RCD (GFCI) saety switches on the grid side to immediately break the circuit in case an unintended eedback o
DC-voltage rom the HV-battery into the AC-grid occurs under worst case ailure conditions, but Type-B saety switches
on the grid side are not standard by today. This is a main reason why non-isolated designs are currently not accepted
or on-board chargers as the level o saety measures on the grid side o the charging spot is uncertain. However,
inside an off-board charger installation with an integrated Type-B saety switch, the use o non-isolated concepts may
be indicated. To highlight their opportunities, Inineon has investigated non-isolated concepts, built and evaluated
laboratory-demonstrators o single-phase 3 kW chargers without galvanic isolation inside the power stages.
Typical part number Product family Description
ICE3PCS01G Integrated Controller For active CCM PFC, PG-DSO-14
IPW65R019C7 CoolMOS™ 650 V MOSFET, 19 mΩ, TO-247IDW30G65C5 CoolSiC™ Diode 650 V SiC Schottky Diode generation 5, 30 A, TO-247
TLI4970 Current sensor 600 V unctional isolation, ± 50 A
Typical part number Product family Description
1ED020I12FA2 Automotive EiceDRIVER™ Single-channel isolated Driver or 650 V/1200 V IGBTs and MOSFETs
1ED020I12FTA Automotive EiceDRIVER™ Single-channel isolated Driver, 2-level turn-off or 650 V/1200 V IGBTs
2ED020I12FA Automotive EiceDRIVER™ Dual-channel isolated Driver or 650 V/1200 V IGBTs and MOSFETs
IPx65RxxxCFDA CoolMOS™ 650 V MOSFET with integrated ast body Diode
TC23xL, TC26xD AURIX™ 32-bit lockstep Microcontroller
TLF35584 1) System supply New ISO26262-system-supply optimized or AURIX™
RCD
(GFCI)
Type B
AC-DC
PFC w/o
galvanic
isolation
DC-DC
Buck
Power
(Grid)~
+
-N
+
-
L1
To EV‘s DC
Charging socket
1) in development2) Automotive version under consideration
Concept demonstrator o lean and efficient off-board DC-charger without galvanic isolation
Input 230 V/50 Hz single-phase AC
Output 220 V-390 VDC, max. power 3.3 kW at 350 V with 96.2 percent efficiency
More detailed inormation about this demonstrator is available upon request.
Typical part number Product family Description
IKW40N65F5 TRENCHSTOP™ 5 Fast IGBT with Rapid 1 Diode, 40 A, TO-247
IGW40N65F5 TRENCHSTOP™ 5 Fast IGBT, single, 40 A, TO-247
IDW40G65C5 CoolSiC™ Diode 650 V SiC Schottky Diode generation 5, 40 A, TO-247 2)
XMC4000 XMC™ Microcontroller 32-bit ARM® Cortex® -M4F Microcontrollers, up to 125 ºC ambient temperature
IFX1763, IFX54441 Linear voltage regulator Linear voltage regulator amily with output current capability o 500 mA or 300 mA respectively
TLI4970 Current sensor 600 V unctional isolation, +/- 50 A
*Available in different current ratings
www.inineon.com/emobility
Automotive products or the car side*
Industrial products or the road side*
Industrial products or the road side
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1) in development
E-mobility
Best solution or battery management
An intelligent Battery Management System (BMS) is necessary to sustain battery perormance throughout its entire lie-
time – the challenge there is to tune the utilization o each battery cell individually. Passive cell balancing is the deault
approach where the weakest one o the cells sets the limits or battery lietime and cruising range. Inineon’s Microcon-
trollers and Sensors, in combination with our power devices, enable active cell balancing while charging and discharging.An active cell balancing system helps to increase the effective cruising range and the battery’s lietime by 5 to 10 percent,
compared to passive balancing. In this context we want to highlight our 8-bit XC886CM Microcontroller amily or the slave
blocks and the new 32-bit AURIX™ Microcontroller amily or the master block, our OptiMOS™ low voltage MOSFETs, our
Automotive CAN Transceivers TLE7250G, TLE6251D, as well as step-down DC-DC Controllers TLE6389-2GV and brand-new
TLF35584.
Typical part number Description
TC23xL, TC26xD New 32-bit AURIX™ lockstep Microcontroller
TLF35584 1) New ISO26262-system-supply optimized or AURIX™
TLE7250G High-speed automotive CAN Transceiver
TLE6251D High-speed automotive CAN Transceiver, with wake-up
Typical part number Description
XC886CM 8051 compatible 8-bit Automotive Microcontroller
TLE6389-2GV Step-down DC-DC Controller
TLE7250G High-speed Automotive CAN Transceiver
IPG20N04S4L OptiMOS™ -T2 Power-Transistor, logic level, dual, 40 V/8.2 mW
IPD70N03S4L OptiMOS™ -T2 Power-Transistor, logic level, 30 V/4.3 mW
IPD70N10S3L OptiMOS™ -T2 Power-Transistor, logic level, 100 V/11.5 mW
Typical part number Product family Description
IPx65RxxxCFDA CoolMOS™ 650 V MOSFET with integrated ast body Diode
Main switch
CoolMOS™ 650 V
Battery master
32-bit Microcontroller
TC23xL/TC26xD
TLF35584
HS-CAN Transceiver
TLE7250G
Private CAN
Public CAN
150 V-400 V
+
-
Battery block slave
8-bit C XC 886CM6x IPG20N04S4L-08
IPD70N03S4LIPD70N10S3L
TLE7250G
TLE6389-2GV
Battery block slave
8-bit uC XC 886CM
6x IPG20N04S4L-08
IPD70N03S4LIPD70N10S3L
TLE7250G
TLE6389-2GV
Battery block slave
8-bit C XC 886CM6x IPG20N04S4L-08
IPD70N03S4L
IPD70N10S3LTLE7250G
TLE6389-2GV
www.inineon.com/emobility
Main switch
Battery master
Battery master
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Class D audio ampliierAttractive solutions or highest efficiency and power density
Inineon’s audio solutions enable designers to improve the perormance o their power ampliiers while increasing effi-
ciency and reducing system size. Advances in semiconductor processes are behind a portolio o Class D technologies
that allow proessional home audio and video systems to beneit rom the perormance, power density and reliability
that previously have been the domain o high-end systems.
PowIRaudio™ integrated audio modules
The PowIRaudio™ amily o devices integrates PWM Controller and digital audio power MOSFETs in a single package to
offer a highly efficient, compact solution that reduces component count, shrinks PCB size up to 70 percent and simpli-
ies Class D ampliier design.
Class D audio ICs
Inineon’s amily o ICs developed speciically or Class D audio applications enable audio system manuacturers to
saely and efficiently design audio ampliiers with superior sound quality.
Class D MOSFETs
Audio MOSFETs are speciically designed or Class D audio ampliier applications. Key parameters such as RDS(on), QG,
and Qrr are optimized or maximizing efficiency, THD and EMI ampliier perormance.
Series Output power class [W] Technology Benefits
PowIRaudio™ integrated modules 20-130 PowIRaudio™ › No heatsink required › Integrated MOSFET
Class D audio IC 100-2000 PWM input Controller
Analog input Controller
› Floating inputs
› Built-in protectionsClass D MOSFETs 100-2000 HEXFET™OptiMOS™
› High efficiency › 60 V-200 V
Class D audio ampliier
PWM
modulator
PWM input Class D Driver family
Analog input Class D Driver family
Integrated PowIRAudio Class D Driver family
Protection
Digitalaudio
MOSFET
Gate Driver
Block diagram
www.inineon.com/audioampliier
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Industrial automationThe smart choice or smart actories
The growing pace o industrial automation and networking across industrial control systems presents manuacturers
with evolving challenges. They need industrial-grade components that can withstand harsh manuacturing environ-
ments, meet the latest energy efficiency standards and offer robust levels o security. A Microcontroller, or example,
that does not support an extended temperature range is simply not it or purpose. Other success actors include the
right price/perormance ratio, long term availability, thanks to guaranteed roadmaps and design support.
At Inineon, we are committed to making your automation designs as simple, energy efficient, secure and reliable as
possible. Not only do we cover the ull automation design low rom power management through control to interacing
and security, we also support our high quality, industrial-grade semiconductor offering with proven reerence designsor easy design-in and rapid time-to-market. Backed by clear roadmaps, all o our products are engineered to give you a
high level o integration while saving valuable space in energy efficient packages. Our semiconductor solutions are also
speeding the transition towards the ourth “Industrial Revolution” by optimizing processes and sharing inormation
across the entire value chain. An increasingly automated, connected environment presents new security challenges.
Here, Inineon’s hardware-based authentication systems and encryption solutions provide robust protection or prod-
uct speciications, design blueprints, production schedules and industrial secrets as they ly through cyberspace.
Application diagram and product overview
DI AIDO AO
3.3 V C domainControl side
24 V Factory floor
Process side
C
Valve
Control
Sensor
Motor
Control
Sensor
Module
Load
Control
Sensor
Motor
Control
Sensor
Module
Motor
Control
PSU
MOSFETs: CoolMOS™, OptiMOS™, CoolSET™MCUs: XMC4800 (EtherCat), XMC4000 family
Authentication: OPTIGA™ Trust family
Voltage Regulators: IFX1763, IFX54441
USB ESD Protection: ESD3V3U4ULC
Non-Isolated Switches: PROFET™ ITS4xy0S/8, HITFET™ BTS3xxx families
MOSFETs: CoolMOS™, OptiMOS™
IGBTs: TRENCHSTOP™Half-/Full-Bridge
Motor Driver: NovalithIC™ BTN89xx family
MCUs: XMC4000, XMC1000 families
Voltage Regulators: IFX1763, IFX54441 , IFX54211
Magnetic Sensors: TLE5009, TLE4966V, TLI5012B
Motor
Control
MCUs: XMC1000 family
Industrial Radar: BGT24MTR
Robot
Control
ISOFACE™
Switches
ISOFACE™
Input ICs
Power-Bus
ISOFACE™
Input ICs
Voltage Regulators: IFX54211, IFX2931G
Industrial automation
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ndustrial welding
Industrial welding*High efficiency, easy design and cost competitive solutions
Discrete IGBTs are used in small inverterized single-phase hand-held welders with current output rom 120 A to 200 A
and three-phase industrial welding machines with current output up to 280 A. Inineon offers a wide product range to
address key industry trends.
Price competitive 650 V TRENCHSTOP™ 5 WR5 series has been speciically developed or the low power single-phase
welding machine market. The TRENCHSTOP™ 5 WR5 offers low switching losses coupled with low conduction losses to
provide efficiency to customers and outstanding thermal perormance.
For the best-in-class perormance, where customers strive or differentiation, the 650 V TRENCHSTOP™ 5 H5 seriesoffers outstanding efficiency or optimized, low inductance designs.
The new high speed, sof switching 650 V TRENCHSTOP™ 5 S5 series have sof and smooth switching behavior with
no tail current, while keeping very competitive switching perormance. The TRENCHSTOP™ 5 S5 series can be used as
plug and play replacement o previous generations o Inineon’s IGBTs. The low VCE(sat) 650 V TRENCHSTOP™ 5 L5 series
is an excellent solution or secondary Inverter AC output welding machines used or Aluminum (Al) or Magnesium (Mg)
welding. For three-phase welding Inverters the 1200 V HighSpeed 3 amily keeps leading market position or the best
efficiency and highest reliability.
Vin
Double switch forward topology
Single-phase Inverters
Gate Driver
Control Unit
Auxiliarypower supply
Secondary
side
rectification
PFC
(optional)
DC Outputfor welding
AC Input
Typical topologies or Inverter welding machine < 280 A
www.inineon.com/welding
*(MMA/TIG < 280 A)
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23
VIN
Primary Inverter
Full-bridge
Gate Driver
Control Unit
Auxiliary
power supply
Secondary
side
rectification
PFC
(optional)
DC Outputfor welding
AC Input
Industrial welding
Stage Topology Voltage class Technology/product family Selection
PFC AC-DC Boost Converter/switch 650 V TRENCHSTOP™ 5 WR5 Cost/perormace
Boost Converter/switch 650 V TRENCHSTOP™ 5 S5 Efficiency and ease-o-use
Boost Converter/switch 650 V TRENCHSTOP™ 5 H5 Best efficiency
Boost Converter/switch 1200 V HighSpeed3 Efficiency
Inverter DC-DC Two Transistor orward 650 V TRENCHSTOP™ 5 WR5 Cost/perormace
Two Transistor orward 650 V Rapid 1 Diode Efficiency
Full-bridge/hal-bridge 650 V TRENCHSTOP™ 5 WR5 Cost/perormace
Full-bridge/hal-bridge 650 V TRENCHSTOP™ 5 S5 Efficiency and ease-o-use
Full-bridge/hal-bridge 650 V TRENCHSTOP™ 5 H5 Best efficiency
DC-AC Al/Mg weldingsecondary Inverter
650 V TRENCHSTOP™ 5 L5Low VCE(sat)
Efficiency
Secondary side
rectification
DC-DC Output rectiier 650 V Rapid 1 Diode Efficiency
Output rectiier 650 V Rapid 1 Diode – Common Cathode Efficiency
IGBT Driver PFC/Inverter Hal-bridge single channel 650 V/1200 V EiceDRIVER™ (1ED-S compact) Efficiency
Controller Controller Boost Converter 650 V CoolSET™ F3 RecommendationBoost Converter - XMC1000 Flexibility
Microcontroller supply Linear voltage regulator up to 20 V IFX54211 Efficiency
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Lighting
LightingBest solutions for the transition to LED lighting
Application Products/solutions Value proposition
LED Drivers LED Driver ICs › High perormance, efficiency > 94%, THD < 10% › Reduction o R&D cost/product variety
CoolMOS™ › Extensive portolio o all voltage classes, RDS(on), packages, price/perormance classesOptiMOS™ › High granularity o products
› Excellent price/perormance › Adjustable current and low voltage overhead
LED strips and multi-channel applications Linear LED Driver ICs › High granularity o products › Excellent price/perormance › Adjustable current and low voltage overhead
DC-DC LED Driver ICs › Scalable output current › Advanced thermal protection, no NTC required › Adjustable thermal protection trigger point
OptiMOS™ › Extensive portolio o all voltage classes, RDS(on)Light management Microcontrollers › Dedicated peripherals or LED lighting (BCCU)
› BCCU enabling smooth color walk, lickerless dimming down to 0.1 percent
LED retrofit lamps LED Driver ICs › Low cost/low BOM solution› Cascode topology enables high efficiency combined with ast time to lightCoolMOS™ › Very good price/perormance high voltage MOSFET CoolMOS™ CE amily in DPAK and IPAK
The lighting industry is acing some opportunities as well as challenges during the transition phase rom traditional
light sources to LED lighting.
Opportunities o LED lighting:
› Reducing energy consumption › Offering a long lasting lighting system, reducing replacement cost and maintenance › Enabling human centric lighting including light color adjusting solutions
Challenges o LED lighting:
› Very ast innovation cycles resulting in: – Risk to catch time to market – High R&D and operational expenses
– Increasing risk o scrapping o outdated stock
› Diversiying market needs and increasing competitive landscape makes it difficult to coverthe entire range o LED lighting applications
Inineon offers ICs and MOSFETs or power conversion on the primary and secondary side, as well as, Microcontrollers
or light management.
› Analog LED Driver ICs optimized or price/perormance › Digital LED Driver ICs – .dp digital power 2.0 with
– A large variety o conigurable parameters (e.g. output current)
– Simpliied and reduced BOM
› Microcontrollers with dedicated peripherals or power conversion and color control
› High voltage MOSFETs more than 500 V or the primary side with the right price/perormance it › Low and medium voltage MOSFETs less than 250 V or the secondary side with the right price/perormance it
The right it products or lighting
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25
Products tailored or the building blocks o lighting architecture
Primary side control
Analog ICICL5101
ICL8201
IRS2505
Digital
Power IC (.dp)ICL8105
MCU
(XMC™)XMC1200
XMC1300
500 V CE
600 V CE
600 V P6
800 V CE
900 V C3
Secondary side control
CoolMOS™ OptiMOS™
Interface andcommunication
Wired: DALI, DMX
Wireless: Bluetooth,
ZigBee, NFC
Sensor Interface
Analog ICBCR Series
ILD4000
ILD6000
IRS25411
Digital
Power IC (.dp)ILD2111
MCU
(XMC™)XMC1100
XMC1200
MCU
(XMC™)XMC1200
XMC1300
XMC1400
100 V
150 V
200 V
250 V
Power conversion
Primary side – Control ICs and MOSFETs
Secondary side – Control ICs and MOSFETs
Functional block IC product family MOSFET technology Voltage class Application
PFC+LLC (constant current/constant voltage)
ICL5101 CoolMOS™ CECoolMOS™ P6
500 V/600 V600 V
LED Driver
XMC1200/1300 CoolMOS™ CE 500 V/600 V LED Driver
PFC + Flyback (single-dual-stage) XMC1200/1300 CoolMOS™ CE 500 V/600 V LED Driver
PFC/Flyback (single-stage) ICL8105 CoolMOS™ CECoolMOS™ C3
800 V900 V
LED Driver
ICL8002G CoolMOS™ CE 500 V/600 V Phase cut dimmable LED lamps
PFC IRS2505 CoolMOS™ CE 500 V/600 V LED Driver
TDA4863 CoolMOS™ CE 500 V/600 V LED Driver
Buck (single-stage) ICL8201 CoolMOS™ CE 500 V/600 V LED tube, LED downlight
Buck (dual-stage) IRS25411 CoolMOS™ CE 500 V/600 V LED Driver
ILD2111 OptiMOS™ 100 V/150 V/ 200 V/250 V LED Driver
Topology IC product family MOSFET technology Voltage class Application
Linear BCR series Integrated (extra transistor or BCR450) - LED strips, multi-channel LED applications
Buck ILD4000 series Integrated (OptiMOS™ or ILD4001) 30 V/60 V Driving high power channel LED applicationser LED‘s
ILD6000 series Integrated - Driving high power LED‘s
IRS25411 OptiMOS™ 100 V/150 V/200 V/250 V Driving high power LED‘ s
ILD2111 OptiMOS™ 100 V/150 V/200 V/250 V LED Driver
XMC1200/1300 OptiMOS™ 100 V/150 V/200 V/250 V Multi-channel LED applications
Buck/Boost ILD1151 OptiMOS™ 60 V/100 V High power LED DC-DC Controller
Lighting
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nduction cooking
Resonant-switching applications such as induction cooktops and inverterized microwave ovens have unique sys-
tem requirements. The consumer marketplace demands that they be cost effective, energy efficient and reliable. To
achieve these goals, designers need devices that are created speciically or these applications.
Inineon’s RC-H amily o Discrete IGBTs was developed or resonant switching with a monolithically integrated reverse
conducting Diode. With this technology leadership and a broad portolio o devices rom 650 V to 1600 V, it is the mar-
ket leader and provides the industry benchmark perormance in terms o switching and conduction losses.
The newest generation in the amily is the RC-H5, which extends the perormance leadership or both hal-bridge andsingle switch designs. New 650 V devices with higher blocking voltage offer higher reliability with improved peror-
mance even in designs which require higher requencies or hard switching conditions. The updated RC-H5 1350 V and
1200 V offer the lowest switching losses across a broad range o operating conditions, allowing customers to develop
the most efficient and reliable designs. Inineon also offers a range o complementary products which can be used with
the IGBT, as well as in the central control and power supply subsystems o induction cooking appliances.
Induction heating Topology Voltage class Technology/Product family Selection
DC-AC Series resonant hal-bridge 650 V RC-H5 Recommendation
Quasi resonant single switch 1100 V RC-H3 Recommendation
Quasi resonant single switch 1200 V and 1350 V RC-H3, RC-H5 Recommendation
Quasi resonant single switch 1600 V RC-H2 Recommendation
IGBT Driver Single channel and hal-bridge 600 V and 1200 V EiceDRIVER™ Recommendation
Microcontroller 32-bit ARM® Cortex®-M0 - XMC1000 Recommendation
Microcontroller supply Linear voltage regulator Up to 20 V IFX54211 Efficiency
AUX Flyback ixed-requency 800 V CoolSET™ F3 (VJZ-series) Recommendation
Induction heating Inverter (current resonance) Induction heating Inverter (voltage resonance)
Major home appliancesHighest performance and efficiency for induction cooking
Single switchHal-bridgeAUX
M C U
Lres
Lf
RC - IGBT
Cbus
CK2
CK1
VAC
Cres
2
Cres
2
Lf
Cbus
VAC
AUX
M C U
RC - IGBT
Lres
Cres
RC - IGBT
D r i v e r
D r i v e r
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A p p l i c a t i o n s
27
Aircon
Product designers are acing the daunting challenge o delivering smaller, smarter, more powerul and more energy-efficient
appliances. Based on industry-leading technology and manuacturing expertise, our line o innovative components or
household appliances meets and exceeds even the most rigorous requirements or reliability and quality. The ollowing
block diagram example o an air conditioning system, together with the product selection table, provides effective guidelines
or engineers in selecting the right component or each power management stage inside major home appliances.
Functional block Topology Voltage class Technology/Product family Selection
PFC AC-DC IGBT – PFC CCM (high requency – SC) 600 V HighSpeed 3 Recommendation
IGBT – PFC CCM (low requency – SC) 600 V Gen 6.2 Recommendation
IGBT – PFC CCM (cost competitive – No SC) 650 V TRENCHSTOP™ 5 – H5 Recommendation
MOSFET – PFC CCM 600 V CoolMOS™ P6 Reerence
Diode – PFC CCM 650 V Rapid 1 and Rapid 2 Diodes Recommendation
Controller – PFC CCM – ICE2PCS0xG, ICE3PCS0xG Recommendation
DC-AC IGBT – B6-VSI 600 V TRENCHSTOP™ Efficiency
IGBT – B6-VSI 600 V Gen 6.2 Recommendation
IGBT – B6-VSI 600 V RC-Drives Fast Recommendation
IGBT – B6-VSI 600 V Gen 5 Recommendation
IPM – B6-VSI 600 V CIPOS™ Recommendation
IPM – B6-VSI 600 V IRAM Recommendation
IGBT Driver Driver or B6 bridge 600 V EiceDRIVER™ (6ED) Recommendation
Driver or B6 bridge 600 V IR Driver ICs Recommendation
AUX Flyback ixed-requency 800 V CoolSET™ F3R (VJZ-series) Recommendation
Microcontroller 32-bit ARM® Cortex®-M0 - XMC1000 Reerence
32-bit ARM® Cortex®-M4 - XMC4000 Recommendation
iMOTION™ - - Recommendation
Microcontroller supply Linear Voltage Regulator Up to 20 V IFX1763, IFX54441, IFX54211 Efficiency
Communication CAN, LIN Transceiver - IFX1050, IFX1021 Robustness
Position sensing Angle sensor - TLE5009, TLI5012B Recommendation
Hall switch - TLI496x Recommendation
Current sensing Coreless magnetic current sensor 600 V TLI4970 Recommendation
Major home appliancesInnovative approach or air conditioning
R e c t i f i c a t i o n
Power management
DCSupply
User Interface
&
Communication
Central Control
Unit
MCU
AF Discretes Sense & Monitor Rotor position detection
Driver stage
M
IGBT
Plug
Air conditioning
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Solid state RF powered solutionsHighly efficient and cost-effective
In the 1970s, Radio Frequency (RF) heating brought a convenient cooking experience to every household by using elec-
tromagnetic radiation in the microwave spectrum. With this technology consumers can reheat lefover meals, derost
rozen oods, etc. However, the quality o the ood cooking does not ulill modern lie standards due to the micro-
wave’s current design, as they cook unevenly and tend to lose power over time. These aspects will destroy user experi-
ence. Furthermore, microwave ovens are traditionally considered to pose saety risks due to the high voltages during
operation or even while unplugged, as there is a high voltage magnetron and a high voltage capacitor inside that can
retain a dangerous charge or a long time afer being disconnected.
With the latest solid state RF powered oven solution rom Inineon, consumers will reach a higher level o cooking
experience. Families can enjoy more precise cooking, improved ood quality, greater consistency in quality o cooking,selective heating, and versatile and complex cooking combinations.
Using the latest LDMOS, manuacturers can use one or several o these 250 W units to build a microwave oven with the
desired power level. The RF power transistors and architectures will provide a ull range o power control, phase shifing, and
requency adjust, allowing microwaves to cook complex ood combinations. Also, saety is improved due to the 30 V opera-
tional voltage, which will replace the magnetron’s 4 kV power supply, and the product lietime is signiicantly greater.
Moving in alignment with the home appliance trend, the solution rom Inineon includes a reliable WIFI interace. Users
can enjoy and share the cooking experience with the Cloud community through the sensitivity, strong signal capability
and intererence immunity o this solution.
By enabling OEMs innovation o smart, intelligent and connected home appliances, it helps OEMs to go rom being an
‘appliance manuacturer’ to becoming a vital ‘technology provider.’
RF power control
Reflected power measurement
Temperature measurement
PLLRF VCO
I n f i n
e o n M i c r o c o n t r o l l e r m o d u l e
f o r s
o l i d s t a t e m i c r o w a v e o v e n d e m o n s t r a t o r
XMC™series
P
~ Chopper°C
SPI interface
SPI interface
Driver + PA submodule
PTFD242201NF
RF power module #1
PTFC270101M
2.4-2.5 GHzRF OUTPUT 1
2.4-2.5 GHzRF OUTPUT 2
RF power control
Reflected power measurement
Temperature measurement
PLLRF VCO
~ Chopper
°C
SPI interface
SPI interface
Driver + PA submodule
PTFD242201NFPTFC270101M
+28V
RF power module #2
AC input
BFQ790
BFQ790
SMPS
InfineonWiFi LNA & RF Schottky Diodes
LDO / voltage regulator+12V
Microwave oven
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A p p l i c a t i o n s
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Product table
Sub Application Recommendation Key benefits
Power supply CoolSET™: ICE2QR1765G, etc. High integrated AC-DC power Controller, low standby, balancing o cost and perormance
PFC Controller: ICE3PCS01G CCM, high power actor, low THD, multi-unctional protectionPFC MOS: IPW60R070P6 CoolMOS™ proven quality and perormance, balancing o cost and perormance
PFC Diode: IDH06G65C5 SiC generation 5, low FOM V * Qc
LLC Controller: ICE1HS01G-01 DSO-8, high perormce, low cost
LLC HB MOS Driver: IRS21834 Noise immunity, robust, ease-o-use
LLC HB MOS: IPW60R099P6 CoolMOS™ proven quality and perormance, balancing o hard and sof switching
SR MOS: IPP020N08N5 OptiMOS™ 5, best-in-class FOM
SR Driver Controller: IR11672 200 V proprietary IC technology, 7 A peak turn off drive current, Vcc range rom 11.3 V to 20 V
LDO: IFX1963TEV Low dropout, Low current consumption, wide temperature range, multi-protection
RF power Single stage Driver ampliier: BFQ790 Silicon Germanium (SiGe) technology, highly linear output stages,
LDMOS Driver: PTFC270101M Operating rom 900 MHz to 2700 MHz, excellent gain, efficiency and linearity perormance
LDMOS: PTFD242201NF Thermally-enhanced gigh power RF LDMOS FET, high reliability and consistency
WiFi 5 G Band LNA: BFP840ESD Best-in-class noise igure (0.95 dB), high transition, highest gain (18 dB)2.3 – 3.5 GHz LNA: BFP842ESD High linearity , high transition requency, high robustness
MCU XMC4500 ARM® Cortex®-M4 core, 32-bit, 120 MHz, 160 kB SRAM
+28 V
PFC DC-DC LLC
GND
Isolation
CoolSET™
PFC-Controller SR - Controller
AUX power supply
Gate Driver Gate DriverGate Driver
+5 V
+12 V
PWM-Controller
Bridge Diode
Microwave oven
Inineon’s high efficiency and cost
effective switching power solution
will enhance the microwave oven
perormance:
Inineon offers a comprehensive
portolio to address a broad range.
For urther inormation visit our
homepage.
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Inineon’s solutions or multicopterA new cost effective system solution
Multicopters are well on their way to become a huge hit in the consumer market. Currently seldom manuacturers offer
a system solution including everything rom power electronics to Controllers and Sensors. But that is precisely what you
need to design a highly efficient multicopter capable o what counts most among consumers: exceptionally long airtime.
With great development progress in the ield o data processing, navigation and control, the overall system perormance is
determined rom reliable and efficient power management. Flying is the most critical application in terms o perormance,
efficiency and control. The high quality standards and system knowledge in automotive and industrial power electronics
offer customers a wide spectra o system solutions, with the highest quality and perormance standards.
Multicopter solutions rom InineonWith Inineon’s comprehensive portolio o high quality products, you will ind the best-possible components or multicopter
designs. We offer a near system solution – everything rom XMC™ Microcontrollers, to iMOTION™ motor control, to magnetic
sensors, and more – with the exception o one commodity, an IMU (Inertial Measurement Units) or existing solutions. Inineon
is quickly becoming a one-stop-shop or existing multicopter applications. In the very ast growing multicopter market, energy
efficiency and reliability are becoming more important. Camera applications, autonomous lying and sophisticated on-board
equipment are pushing the limits o power management and reliability. Being a recognized leader in automotive and indus-
trial power electronic systems, Inineon offers high quality system solutions or the next generation o multicopters.
Multicopter
Current sensing
Current sensing
Position sensing
Gate Driver
3-PhaseInverter
XMC™Microcontroller
&
Digital Control ICs
M
Power management
Batterymanagement
DC/DC
Hall & angleSensor
Authentication LDO
Pressure Sensor
XMC™
Microcontroller
(Aux)
Security
3-Axis geomagnetic
3-Axis accelerometer3-Axis Gyro
Barometer
Video camera
CAN
ESD
2.4/5.0 GHzwireless
GPS
Status
indication
USB
LED
24G/60G
Radar Sensor
Benefits Offer
Development effort and costreduction
› With no or little experience in motor control, customers can implement the iMOTION™ motor Control IC and take light› Project development can be reduced up to 30% by using reerence designs and the DAVE™ platorm or Microcontroller programming
Authentication › Inineon’s solutions enable authentication o components connected to the system› Guaranteed saety and protection o the product, avoiding liability
Ease o precision control or lightand data
› Through the beneits o multiunction sensors, the user can experience an easy, stable, smooth and accurate control o the multicopter › Closed loop control o gimbal motor, sensors enhanced camera stability and data transmission when recording video
Lighter
› The highly efficient components and effective light control can make the multicopter lighter, which results in longer light time
Collision avoidance › 24/60 GHz radar sensors have the capability o detecting the proximity o objects such as trees, buildings, etc.Broader portolio › Inineon can provide all the necessary critical semiconductor components or multicopters
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A p p l i c a t i o n s
31
Multicopter
Flight control
Microcontroller CAN Transceiver DC-DC Module LDO GPS LNA Sensor
› XMC4000 amily › XMC1300 series › iMOTION™ IRMCK099
› HS CAN IFX1050G› IFX1050GVIO
› IFX90121ELV50› IFX91041EJV33› IFX91041EJV50
› IFX1117ME › IFX54441EJV › IFX1763XEJV33
› BGA524N6 › BGA824N6
WiFi LNA LED Driver Low voltage MOSFETsIPM™ / Integratedhal-bridge Driver
Interace protectionDiode
MOSFET Gate Driver
› BFP842ESD › BFR840L3RHESD › BFR843EL3
› BCR450 › BCR321U › BCR421U
› OptiMOS™ 5 25 V–30 V› StrongIRFET™ 20 V–30 V
› IRSM005-800MH › IRSM836-084MA › NovalithIC™
› ESD102 series
› Pressure sensor: DSP310 › Hall sensor: TLI4961 › Angular sensor: TLI5012B
› IRS2301S › 2EDL05N07PF › IRS2336S
Gimbal control
Microcontroller Sensor 3D Remove Sensor DC-DC module LDO CAN TransceiverLow voltage
MOSFETs › XMC1400 amily › iMOTION™ IRMCK099
› Angle Sensor: TLI5012B › 3D Sensor: TLV493D
› TLV493D › IFX90121ELV50› IFX91041EJV33› IFX91041EJV50
› IFX1117ME › IFX54441EJV › IFX1763XEJV33
› HS CAN IFX1050G› IFX1050GVIO
› OptiMOS™ 5 25 V–30 V› StrongIRFET™ 20 V–30 V
Charger Battery management
High voltageMOSFETs
Low voltageMOSFETs
Stand alonePWM Controller
Authentication IC Low voltageMOSFETs
Cell balancing Schottky Diode
› CoolMOS™ CE600 V–650 V inTO-220, DPAK, IPAK
› OptiMOS™ 540 V–80 V inTO-220, SuperSO8
› StrongIRFET™40 V–75 V
› ICE2QS03G › ORIGA™ › OptiMOS™ 5 inSuperSO8,S308/PQFN 3.3x3.3,DirectFET™
› StrongIRFET™40 V–80 V
› OptiMOS™ 30 Vin SuperSO8,S308/PQFN 3.3x3.3,DirectFET™
› StrongIRFET™ 30 V
› BAS4002 › 3005A › 3010S series
Inineon offers a comprehensive portolio to address a broad range o multicopters. For urther inormation please
explore our homepage.
Solution tree or multicopters
www.inineon.com/multicopter
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Ictam quodita dolorep
32
OPTIGA™ Trust product amilyEnabling secured sofware update onto digital power supplies
In an increasingly connected world the ability to update existing systems becomes more and more important. How-
ever, at the same time system reliability is incredibly important and can be at danger when unauthorized updates are
pushed into a system. The irmware o digitally controlled power supplies typically need to be updated, and given the
potential physical damage (e.g. over-voltage) caused by unauthorized updates, the implementation o a high security
standard when authenticating, decrypting and checking authenticity o a irmware update or a digital power supply is
undamental.
To prevent unauthorized irmware updates, updates can be sent with a cryptographic signature and as encrypted iles
allowing the receiving system to veriy and decrypt the update beore installing it. With Inineon’s OPTIGA™ Trust prod-
uct amily, the keys used or the signature and encryption are stored in the hardware-based OPTIGA™ security solution
and can thereore not be easily read out or altered.
Key beneits o OPTIGA™ security
Combining state-o-the-art hardware security controllers with sofware
› Reliable turnkey products with a proven track record › Strong security based on the latest cryptography › Offering a variety o interaces to match your system architecture › Easy to integrate based on evaluation kits, host code and reerence applets › Developed and manuactured in certiied environment
Application low
SMPS
Server sends update to device
Update is signed withprivate key (inserted indevelopment environment)
Update is encryptedwith secret key
Power supply uses OPTIGA™Trust product to verifysignature with the public key
Update is decrypted withsecret key stored inOPTIGA™ Trust product
Update file is transferredfrom the device to the digitalpower supply
File can be installed
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Embedded security with
OPTIGA™ Trust product amilyEnabling secured sofware update onto digital power supplies
Learn more about OPTIGA™:
www.infineon.com/optiga
Soloreiust cone pratendeSMPS
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Adapter
Manuacturing o slimmer and lighter adapters requires ICs enabling high efficiency with good EMI perormance andlow standby power. It also requires cost effective MOSFETs in small packages that eature good Electromagnetic Inter-
erence (EMI) and excellent thermal perormance. Inineon offers a wide range o products or adapters including high
voltage MOSFETs and Control ICs or PFC and PWM stages, as well as low voltage MOSFETs or synchronous rectiication.
With these products, Inineon supports the trend towards a signiicantly higher efficiency level, especially in partial load
conditions, as well as miniaturization o the adapter. Especially versatile are the CoolMOS™ P6 and CE amilies which
combine high efficiency with ease-o-use. For synchronous rectiication, Inineon’s OptiMOS™ series offers extremely low
on-state resistance and low capacitances.
New Control ICs support topologies such as quasi-resonant lyback and LLC, which have become increasingly signiicant
within the notebook adapter segment. In order to offer a complete power electronics solution perectly complementing
Inineon’s portolio, the new hyper ast Rapid Silicon Diode amily has been introduced or the PFC stage.
Regional regulations and a general increased sensitivity toward the containment o electronic waste are pointing
toward the adoption o universal adapters. The implementations, methodologies and protocols are not yet harmo-
nized, however Inineon is already closely monitoring and partnering with the decision makers to timely ensure the
offer o a competitive semiconductor solution. The capability to efficiently manage different power classes and proto-
cols will be key in this application, and Inineon is getting ready or supporting adapter makers in this challenge.
SMPSBroad portolio or highly efficient adapter
Functional block Product category Topology Product family Benefits
Flyback Converter High voltage MOSFETs Flyback 600 V CoolMOS™ P6 › Fast switching speed or improved efficiency and thermals › Reduced gate charge or enhanced light load efficiency › Optimized VGS threshold or lower turn-off losses
Flyback 500 V/600 V/650 V/800 VCoolMOS™ CE
› Easy control o switching behavior due to higher RG,int › Better transition losses versus standard MOSFET
Low voltage MOSFETs Flyback / Auxiliarysynchronous rectiication
80 V-120 V OptiMOS™ › Low conduction losses, reduced overshoot
Control ICs QR lyback IC ICE2QS03G › High efficiency, high standby powerPFC High voltage MOSFETs DCM PFC 600 V CoolMOS™ P6 › Fast switching speed or improved efficiency and thermals
› Reduced gate charge or enhanced light load efficiency › Optimized VGS threshold or lower turn-off losses
DCM/CCM PFC 600 V/650 V CoolMOS™ E6 › Easy control o switching behavior even in not optimizedlayout
› Better switching losses in comparison with its predecessor › Rugged body Diode which prevents device ailure during
hard commutation
DCM PFC 650 V Rapid 1 › Easy control o switching behavior due to higher RG,int › Better transition losses versus standard MOSFET
Boost Diode DCM/PFC 650 V Rapid 1 › Low conduction lossesControl ICs DCM PFC ICs TDA4863G,
IRS2505LTRPBF › Simple external circuitry › High PFC, low THD
Main stage High voltage MOSFETs HB LLC 600 V CoolMOS™ P6 › Fast switching speed or improved efficiency and thermals › Reduced gate charge or enhanced light load efficiency › Optimized VGS threshold or lower turn-off losses
600 V/650 V CoolMOS™ E6 › Easy control o switching behavior even in not optimizedlayout
› Better switching losses in comparison with its predecessor › Rugged body Diode which prevents device ailure during
hard commutation
500 V/600 V CoolMOS™ CE › Easy control o switching behavior due to higher RG,int › Better transition losses versus standard MOSFET
Synchronous rectiication Low voltage MOSFETs Synchronous rectiication 60 V-150 V OptiMOS™ 5 › Low conduction losses, reduced overshoot › Logic level switching › S308/PQFN 3.3x3.3 package available
Control ICs Synchronous rectiication IR1161LTRPBF › High efficiency › Simple external circuitry
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A p p l i c a t i o n s
35
Adapter
Block diagram
DCPFC Main StageAC
VIN Vbus Vout
PFC-PWM No-AUX
Rectification
DCFlybackAC
VIN Vout
Flyback No-AUX
Rectification
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Charger
Modern mobile devices require a charger that provides aster charging but yet comes in a small size. High power den-
sity and cost effective power supplies can be designed by operating the Converter at a higher switching requency to
avoid a considerable increase in transormer and output capacitor size. In realizing the required thermal perormance
and EMI behavior, power devices with lower losses and controlled switching behavior enable effective and ast product
development. Power devices in IPAK/SMD packages enable optimal PCB layout through minimal ootprint. SMD packages
offer additional beneits or automatized large volume production.
The CoolMOS™ high voltage MOSFETs, OptiMOS™ low voltage MOSFETs and synchronous rectiication IC portolios, enable
high power density designs whilst meeting the thermal requirements.
Functional block Product category Topology Product family Benefits
Flyback Converter High voltage MOSFETs Flyback 600 V/650 V/700 V/800 VCoolMOS™ CE
› Best price competitive CoolMOS™ amily › Lower switching losses versus standard MOSFET › Controlled dV/dt and di/dt or better EMI
Control ICs QR Flyback ICE2QS03G › High efficiency, low standby powerSynchronous rectification Low voltage MOSFETs Synchronous rectiication 60 V-150 V OptiMOS™ 5 › Low conduction losses, reduced overshoot
› Logic level switching › S308/PQFN 3.3x3.3 package available
Control ICs Synchronous rectiication IR1161LTRPBF › High efficiency › Simple external circuitry
SMPSBest solutions or charger
Block diagram
DCFlybackAC
VIN Vout
Flyback No-AUX
Rectification
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A p p l i c a t i o n s
37
PC power supply
Latest PC models dramatically cut active and standby energy consumption by implementing more efficient power
supply units (PSU) and low power processors and chipsets.
Today’s requirement or OEM PC power is a small orm actor with better perormance and embedded diagnostics, while
clone market PC power is requiring higher power and higher efficiency. An intelligent control scheme that enables the
adaption o load variation to minimize power consumption, together with optimized power semiconductors, are the key
actors in meeting market demands. Proven reerence designs are available to help designers develop the best-possible
PC power supply solutions – rom greater efficiency to lower overall system cost.
SMPSMore efficient PC power supply
Functional block Topology Voltage class Technology Benefit
PFC/Main stage High voltage MOSFETs DCM/CCM PFC, HB LLC 600 V CoolMOS™ P6 › Fast switching speed or improved efficiency and thermals › Low gate charge or enhanced light load efficiency and low
power consumption at no load condition › Optimized VGS threshold or lower turn-off losses › Rugged body Diode or HB LLC application
600 V CoolMOS™ P6/E6 › Easy control o switching behavior even in not optimizedlayout
› Better switching losses in comparison with its predecessor › Rugged body Diode which prevents device ailure during
hard commutation
500 V CoolMOS™ CE › Optimize cost/perormance › Better transition losses versus standard MOSFET
Boost Diodes DCM PFC 650 V Rapid 1 › Low conduction lossesCCM PFC 650 V Rapid 2
›Low reverse recovery losses and PFC switch turn-on losses
Control ICs CCM PFC IC 800 V – ICE3PCS0xG › High PFC, low THDMain stage Control ICs HB LLC IC 650 V – ICE1HS01G-1 /
ICE2HS01G › High efficiency, low EMI
Synchronous rectiication Mid. voltage Diodes HB LLC + center-tap 40 V OptiMOS™ › Optimized cost/perormance and low thermal60 V OptiMOS™ › Layout tolerance, low thermals
Auxiliary power supply Control ICs QR/FF Flyback CoolSET™ ICE2QRxx65/80(Z)(G)ICE3xRxx65/80J(Z)(G)
› Low standby power, high efficiency and robustness
Block diagram
DC
Auxiliary power
AC
VIN Vout
DC
Vaux
PFC-PWM with AUX and ICs
RectificationPFC Main stage
Vbus
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TV power supply
In addition to their outstanding image quality, new generation TVs gain attention or their user interace, low power
consumption and or the slim silhouette. This requires the power supply unit (PSU) to keep a low proile to maintain
the TV’s slim appearance and a low thermal dissipation image or an external adapter.
Next generation o PSU requires a high degree o embedded intelligence and Inineon’s power supplies eature power
metering and communication o diagnostics, characterized by high efficiency, good thermal and EMI perormance
while keeping short design cycles, avoiding R&D cost increase and still being highly cost effective.
SMPSTV power supply with lowest power consumption
Functional block Topology Voltage class Technology BenefitMain stage/PFC High voltage MOSFETs DCM PFC, HB LLC 600 V CoolMOS™ P6 › Fast switching speed or improved efficiency and thermals
› Low gate charge or enhanced light load efficiency and lowpower consumption at no load condition
› Optimized VGS threshold or lower turn-off losses › Rugged body Diode or HB LLC application
500 V/600 V/650 V/800 VCoolMOS™ CE
› Easy control o switching behavior even in not optimizedlayout
› Better switching losses in comparison with its predecessor › Rugged body Diode which prevents device ailure during
hard commutation
PFC Boost Diodes DCM PFC 650 V Rapid 1 › Low conduction lossesControl ICs CCM PFC IC 800 V – ICE3PCS0xG › High PFC, low THD
Main stage Control ICs HB LLC IC 650 V – ICE1HS01G-1 /ICE2HS01G
› High efficiency, low EMI
Auxiliary power supply Control ICs QR/FF Flyback CoolSET™ 600 V/800 V –ICE2QRxx65/80(Z)(G),ICE3xRxx65/80J(Z)(G)
› Low standby power, high efficiency
Synchronous rectiication Low voltage MOSFETs Flyback 60 V/80 V/100 VOptiMOS™ 5
› Low conduction losses, reduced overshoot
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A p p l i c a t i o n s
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www.inineon.com/smps
Block diagram
DCFlyback
Auxiliary power
AC
Vin Vout
DC
Vaux
Flyback with AUX
Rectification
DC
Auxiliary power
AC
Vin Vout
DC
Vaux
PFC-PWM with AUX
RectificationPFC Main stage
Vbus
TV power supply
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Server power supply
The trend o the enterprise server and datacenter server is to deliver more power per rack, meanwhile the higher rising
cost o energy and environmental concerns makes SMPS efficiency optimization a key requirement across the entire
load range or server and data center design. This challenging task is combined with the requirement or higher power
and higher power density with cost effective design. In the PFC stage and in general hard switching topologies used
in server applications, Inineon proposes 600 V CoolMOS™ C7 amily with the lowest FOM RDS(on) *QG and RDS(on) *Eoss.
This provides the lowest switching losses necessary in ast switching needed in high-end server SMPS, optimizing the
efficiency starting rom very light load operation. The very compact SMD packages such as ThinPAK, offer beneits in
space and power density, and are used with Inineon’s new industry standard non-isolated Driver amily 2EDN752x.
Complementary to 600 V CoolMOS™ C7 in high efficiency PFC is the CoolSiC™ Diodes generation 5 amily.
The 600 V CoolMOS™ P6 amily offers a good compromise between price and perormance. This is valuable in both PFC
and HV DC-DC stages where the low QG and turn-off losses are important beneits, especially in the case o high switch-
ing requency operation and high light load efficiency requirements. In applications with a low output voltage and high
output current, urther efficiency improvements have been made possible by the continuous reduction o on-resis-
tance by Inineon’s low voltage OptiMOS™ MOSFET series used in the synchronous rectiication stage. Inineon’s low
voltage amilies are complemented by StrongIRFET™ which is optimized or lower switching requencies and highest
system robustness.
SMPSHighly efficient server power supply
Block diagram
DC
Auxiliary power
Control and housekeeping
AC
Vin Vout
DC
Vaux
PFC-PWM with AUX and ICs
RectificationPFC Main stage
Vbus
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A p p l i c a t i o n s
41
Server power supply
Functional block Product category Topology Product family Benefit
PFC High voltage MOSFETs CCM/interleaved PFC;TTF 600 V/650 V CoolMOS™ C7 › Best FOM RDS(on)*QG and RDS(on)*Eoss › Lowest RDS(on) per package
› Low dependency o switching losses orm Rg,extSiC Diodes CCM/interleaved PFC 650 V Cool