Industrial Automation Brochure
Industrial Automation www.infineon.com/automation Content Introduction 4 Product Solutions – Control 36 XMC – 32-bit Industrial Microcontrollers 36 Automation Applications 6 AURIX™ – 32-bit Microcontrollers 38 Industrial PCs 6 CAN Transceivers 40 Human Machine Interface (HMI) 7 Programmable Logic Controller (PLC) 8 Product Solutions – Interface 42 Micro PLC 9 HITFET™ Low-Side Drivers 42 Industrial Power Supply 10 PROFET™ High-Side Drivers 44 Industrial Sensors 11 SPIDER – Universal SPI Driver for Low-Current 46 Motor Control and Drives 12 Loads Industrial Communication 13 ISOFACE™ – Galvanic Isolated High-Side Linear Actuator 14 Switches and Input ICs 48 Wireless Control 49 50 Product Solutions – Power Supply 15 SmartLEWIS™ Family – Smart Low Energy CoolMOS™ – High Voltage Power MOSFETs 15 Wireless System 600V CoolMOS™ P6 15 Current Sensors 51 600V and 650V CoolMOS™ C6/E6 17 Hall-Effect Switches 52 650V CoolMOS™ CFDA 18 Linear Hall Sensors 53 19 Speed Sensors 54 Integrated Pressure Sensors ICs 55 OptiMOS™ – Low and Medium Voltage Power MOSFETs Small Signal Power MOSFETs 20 iGMR Angle Sensors 56 SiC Schottky Diodes 21 Constant Current Relay Drivers (CCRD) 58 Product Solutions – Security and Protection 59 OPTIGA™ TPM (Trusted Platform Module) 59 OPTIGA™ Trust – Authentication Solution for 60 650V thinQ!™ SiC Schottky Diodes 21 Generation 5 1200V thinQ!™ SiC Schottky Diodes 22 Generation 5 Silicon Power Diodes 24 Increased Security at Lower System Costs Discrete IGBT 27 OPTIGA™ Trust P – Programmable Device 650V TRENCHSTOP™ 5 Discrete IGBT 27 Authentication Solution 600V and 1200V HighSpeed 3 Discrete IGBT 29 SLM 97 – Machine-to-Machine (M2M) Portfolio DC/DC Converters 31 DC/DC Voltage Regulator – DrBlade™ 2 32 RC-Drives and RC-Drives Fast 34 Voltage Regulators 35 61 62 3 Introduction The Automation Advantage The growing pace of industrial automation and networking across industrial control systems presents manufacturers with evolving challenges. They need industrial-grade components that can withstand harsh manufacturing environments, meet the latest energy efficiency standards and offer robust levels of security. A microcontroller, for example, that doesn’t support an extended temperature range is simply not fit for purpose. Other success factors include the right price/performance ratio, long-term availability thanks to guaranteed roadmaps and design support. Here at Infineon, we are committed to making your automation designs as simple, energy-efficient, secure and reliable as possible. Not only do we cover the full automation design flow from power management through control to interfacing and security, we also support our high-quality, industrial-grade semiconductor offering with proven reference designs for easy design-in and rapid timeto-market. Backed by clear roadmaps, all of our products are engineered to give you a high level of integration while saving valuable space in energy-efficient packages. 4 Smart semiconductor solutions for smart factories Our semiconductor solutions are also speeding the transition towards the fourth “Industrial Revolution” by optimizing processes and sharing information across the entire value chain. Accelerated by initiatives such as the German Government’s Industrie 4.0 (industrial internet) project, this stage of industrial development will see the growing emergence of smart factories powered by smart semiconductor solutions such as our microcontrollers, power devices and sensors. Driven by the internet and various information and communication technologies, Industrie 4.0 promises huge resource efficiency gains, individualized products and greater adaptability through the intelligent sharing and networking of information across the extended value chain. Industrie 4.0 also enables strong integration of customers and business partners. However, an increasingly automated, connected environment presents new security challenges. Here, too, you can rely on our market-leading expertise in embedded security to meet growing demands for protection against attacks, counterfeits, manipulation and sabotage in the Industrie 4.0 manufacturing environment. Our hardware-based authentication systems and encryption solutions provide robust protection for product specifications, design blueprints, production schedules and industrial secrets as they fly through cyberspace. Introduction Industrial Automation Overview Security and Protection Supervisor Level Industrial PC / Panel PC HMI Control Level PLC HMI Field Bus Field Level Micro PLC Motor Control Industrial Sensors Linear Actuator Industrial Power Supply Industrial Communication Industrial Ethernet Industrial Automation Solution Layers Single-source Answer to all your Design Needs Most industrial automation networks are divided into three solution layers – the supervisor level, the control level and the field level. The first focuses mainly on PC-based systems (desktop, rack-mounted and panel PCs), equipped with standard operating systems (such as Microsoft Windows) and supplier-specific industrial process control software for process parameterization and visualization. Our portfolio gives manufacturers one-stop access to all the devices and solutions they need across all three solu tion layers. At the supervisor level, our semiconductor devices are designed to provide the necessary levels of robustness and security. For control applications, you will find our products in PLCs, human machine interfaces and field bus devices. And at the field level, customers can rely on our rich portfolio for micro PLCs, motor control devices, sensors and actuator drives. The control level refers to the automation systems (programmable logic controllers or PLCs) where automation programs are executed. Control systems require robust real-time capability and usually have their own controller architecture and proprietary operating system. Last but not least, the field level encompasses all terminal equipment such as sensors (optical, magnetic, thermal, etc.) and actuators (magnetic valves, power switches, motor starters, etc.) which work with a peripheral PLC or remote I/O system, collecting data and communicating it to the main PLC via a field bus. As the leader in hardware-based embedded security, we also provide robust protection across software and hardware layers at all three levels. Complementing our OPTIGA™ TPM (Trusted Platform Module) security controllers to protect the integrity and authenticity of automation devices and systems in automation networks, our OPTIGA™ authentication solutions help you protect IP and avoid counterfeits. 5 Automation Applications Industrial PCs Positioned at the heart of today’s complex, increasingly automated manufacturing environments, industrial PCs face a number of challenges. Generally responsible for process control and diagnostics (of software-based applications) and networked via standard Ethernet switches, industrial PCs have a direct impact on factory uptime. They must be designed for continuous operation in rugged manufacturing environments, featuring robust hardware and software security functionality in customizable housings scaling from mobile devices to 19ˈˈ rack-mounted systems. Compatibility with industry-standard PC architectures and bus interfaces is also an important success factor, as industrial PCs are expected to outlive the short innovation cycles associated with consumer PCs and keep pace with the latest operating system or application updates. Last but not least, power efficiency is key as many industrial PCs need to operate without a fan. Power Supply IGBT High-Voltage MOSFET Low-Voltage MOSFET Gate Driver SiC Power Control ICs 32-bit Microcontroller XMC1000 XMC4000 AURIX™ AC/DC – – – – – – – – IGBT High-Voltage MOSFET Low-Voltage MOSFET Gate Driver SiC Power Control ICs Current Sensor 32-bit Microcontroller XMC1000 XMC4000 PC security, we also deliver tailored solutions for trusted computing (TPM) and identification devices, contact-based and contactless chip card ICs, and ICs for USB security dongles. You can rely on our wide range of RF and protection devices and our wireless components (LNA, RF transistors) to protect sensitive interfaces. To ensure future compatibility, our dedicated CPU and memory power supply devices comply with Intel DrMOS specifications. Rounding off our impressive lineup, we offer dedicated application knowhow and software support when you need it. Your can even test your application on our special demonstrator platform to see how it performs for yourself. Control Memory UPS – – – – – – – We offer a wide portfolio of energy-efficient power semiconductors to meet all of your concrete industrial computing requirements. Highlights include our CoolMOS™ and OptiMOS™ solutions. As market leader in TPM-based ESD/EMI Protection – TVS Diodes – EMI Filtering Security CPU Subsystem – Authentication – Secured Communication – Integrity CPU Power Supply – DrMOS – DC/DC Converter – Linear Voltage Regulators WLAN Trusted Computing – Trusted Platform Module DC/DC – – – – Interface DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor LED Backlight Control – 32-bit Microcontroller XMC1000 – LED Drivers – RF-Switches – RF ESD Protection – Low-Noise Amplifier Digital I/O – – – – – – Isolated High-Side Switches Isolated Digital Input IC High-Side Switches Low-Side Switches Constant Current Relay Driver 32-bit Microcontroller XMC1000 XMC4000 Interface & Sensor Hub – 32-bit Microcontroller XMC1000 XMC4000 For detailed product information please see the chapter Product Solutions from page 15 onwards. DrMOS = Driver and MOSFET Integraged Module www.infineon.com/industrial-pc 6 Automation Applications Human Machine Interfaces (HMI) Human machine interfaces (HMI) such as text displays, graphic panels and panel PCs must be particularly robust in harsh industrial settings. Looking beyond a rugged and secure design, they must also be easy to use and support granular access. Given the importance of interoperability across microcontrollers, power supplies and peripherals in complex manufacturing environments, a single-source offering – at the right price point – is often a must-have. We offer a full lineup of high-quality solutions to meet all of your human machine interface needs. Our one-stop offering gives you the peace of mind you need that micro- Power Supply controllers, power devices and interfaces will be seamlessly compatible. As a pioneer in embedded security, we can deliver the rich security functionality you need. You can build on our dedicated application know-how and proven track record in HMI innovations to design an HMI that is easy to use, efficient and secure. You can even test your HMI prototype on our demo platform based on the XMC4000 Application Kit – so you can experience the functionality and performance of our HMI semiconductor offering before you decide to invest. Control Wireline Communication LED Backlight Control – 32-bit Microcontroller XMC1000 – LED Drivers Interface 32-bit Microcontroller (Connectivity) – XMC4000 – – – – Transceiver Digital I/O ICs ESD/Surge Protection 32-bit Microcontroller XMC1000 XMC4000 Security DC/DC – – – – DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor – Authentication – Secured Communication – Integrity WLAN – RF Transistors – Low-Noise Amplifier Wireless Control – Wireless Control ICs for sub 1GHz Sensors – Contactless Control Elements For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/human-machine-interface 7 Automation Applications Programmable Logic Controllers (PLC) Programmable logic controllers (PLC) provide the computing power at the heart of nearly all industrial control and factory automation systems. As such, reliability is paramount. PLCs must be robust, resistant to environmental stresses and protected against water and dust to ensure 24x7 operation over a wide temperature range. Other key success factors include real-time capabilities, robust security functionality and seamless interoperability with connected automation systems. We have a wide portfolio of dedicated semiconductors for PLC applications to answer all of these operational challenges. Our 8-, 16- and 32-bit microcontroller portfolio Power Supply delivers enhanced real-time communication and comprehensive safety features for interfacing units in harsh industrial environments, also supporting various communication interfaces. Our unique ISOFACE™ family was designed specifically for industry automation systems, offering optional isolation and enhanced diagnostics. You can rely on our leading experience in security products and brand protection with solutions such as OPTIGA™ Trust, one of the best embedded security products on the market. Our power supply solutions are designed to meet even harsh automotive requirements. To experience the Infineon advantage for yourself, test your programmable logic controller prototype on our demo platform. Interface Control Digital I/O DC/DC – – – – DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor 32-bit Microcontroller – XMC1000 – XMC4000 – AURIX™ – – – – – Isolated High-Side Switches Isolated Digital Input IC High-Side Switches Low-Side Switches Constant Current Relay Driver MC Companion IC – AD Converter – ESD/EMI Protection – Safety Watchdog Transceiver Chipcard & Security ICs – Industrial CAN – ESD/EMI Protection – IP & Software Protection – Authentication Function Module – RFID Interface & Sensor Hub – 32-bit Microcontroller XMC1000 XMC4000 For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/programmable-logic-controller 8 Automation Applications Micro PLCs These programmable logic controllers (PLCs) manage lowend applications such as simple house-automation control systems or electronic points of sale (ePOS). Increasingly, manufacturers expect user-friendly, cost-sensitive devices that are both compact and power-efficient. Networking capabilities, an integrated design, high availability and robust security are also key priorities. ARM® Cortex™-M4 32-bit microcontroller family is designed for the most robust performance requirements, with enhanced communication channels (Ethernet, USB, UART), interfacing to touch buttons and integrated high-current ports to drive LEDs. Drawing on our long-standing experience bundled in our OptiMOS™ product family, our MOSFET solutions offer lowest RDS(on) and best-in-class FOM for the Our high-quality XMC1000 microcontroller family was designed to meet these challenges – at an attractive price point. Some members of the XMC1000 family are even equipped with optional software IP protection for particularly secured micro PLC applications. And our latest highest power efficiency and performance. For standard output interfaces, we offer a wide selection of low- and high-side switches covering several output current requirements. These are complemented by constant current relay drivers (CCRD) for energy-efficient operation of electromechanical relays. Power Supply AC/DC – – – – – High-Voltage MOSFET Low-Voltage MOSFET Gate Driver Power Control ICs Current Sensor Control 32-bit Microcontroller (incl. Display Interface, Touch) – XMC1000 – XMC4000 Digital I/O – – – – – – Isolated High-Side Switches Isolated Digital Input IC High-Side Switches Low-Side Switches Constant Current Relay Driver ESD/EMI Protection MC Companion IC DC/DC – – – – Interface – AD Converter – ESD/EMI Protection DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor Chipcard & Security ICs – IP & Software Protection – Authentication Transceiver – Industrial CAN – ESD/EMI Protection Function Module – RFID For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/micro-plc 9 Automation Applications Industrial Power Supply The benchmark is high for power supplies in industrial settings. They must be reliable and efficient, resistant to load dumps and capable of delivering a stable output voltage over a wide input voltage range. In addition, they must ensure minimal power losses and remain stable over a wide temperature range. Supporting all industrial power supply applications, we have a broad portfolio of high-quality industrial-grade products that reflect our lengthy experience in power supply technology. Our lineup extends from low-voltage MOSFETs (OptiMOS™), with best-in-class RDS(on) and FOM values, through high-voltage MOSFETs (CoolMOS™) to discrete and integrated IGBT solutions. Power Supply AC/DC – – – – Inverter Gate Driver + Isolation Rectifier Current Sensor Our integrated solutions (CoolSET™) are ideal for compact designs requiring especially low-power SMPS. Complementing dedicated power control ICs (PFC/PWM controllers), we offer a wide range of 8-bit microcontrollers (XC800 family), which are ideal for monitoring voltage, temperature or malfunctions. Our current sensors round off our power supply offering for point-of-load power supply applications. Highlights of our power supply lineup include our unique thermal interface material (TIM) for lower thermal resistance and our leading packaging technologies for thermal optimization. You can also save time and effort with our power supply application boards and reference designs. Control 32-bit Microcontroller – XMC1000 – XMC4000 DC/DC – Linear Voltage Regulators – Switched Mode Voltage Regulators Interface Current Monitoring – Digital Magnetic Current Sensor External Interface – Transceivers – ESD/Surge Protection For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/industrial-power-supply 10 Automation Applications Industrial Sensors In today’s high-tech factories, industrial sensors play a defining role in the precision and reliability of manufacturing systems. Typical applications include contactless switching, index counting, current measurement, level metering, and position, pressure or (large-area) motion detection. As automation equipment becomes increasingly powerful, specifications for industrial applications are growing in complexity. This calls for more intelligent sensors designed for higher accuracy and faster data transfer speeds, especially for contactless control systems, for instance. Power Supply DC/DC – – – – DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor In addition, sensors must be durable enough to perform reliably in an industrial environment – and small enough for the very limited space on an integrated printed circuit board (PCB). In addition, they must be designed to master degradation effects, in light barriers for instance. Our high-quality industrial sensor semiconductors rise to these challenges with the added bonus of an optimum price/performance ratio. Our broad one-stop spectrum of solutions includes a rich portfolio of smart sensors to measure everything from angle and current to speed and pressure. Control 32-bit Microcontroller – XMC1000 – XMC4000 – AURIX™ Interface Sensor IC – – – – – – – – – Hall Switches Linear Hall Sensors Angle Sensors Current Sensor Speed Sensor Pressure Sensors Radar Solution Inductive Proximity Switches Isolated Digital Input IC For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/industrial-sensors 11 Automation Applications Motor Control and Drives Modern motor control applications call for energy efficiency, stability and security. In addition, demands for power density are rising. The key to meeting these needs lies in the right semiconductor solutions. chronous motors, through induction and stepper motors, to switched reluctance motors. This is complemented by various sensor products for reliable and efficient motor operation. With years of experience in motor control, we offer the industry’s most cost-competitive portfolio and the highestquality semiconductor components for motor control and drive applications. Our offering covers a wide range of voltage and power classes, supporting a broad application spectrum across the industrial market. With our power products and microcontrollers, you can design efficient, robust and cost-effective control units for virtually all types of motors, from brushless DC and permanent magnet syn- Highlights of our motor control portfolio include our SiC (silicon carbide diode) technology line and our proprietary TIM (thermal interface material) for the market’s lowest thermal resistance, especially for Power IGBT Modules in the range from Easy Modules to PrimePACK™ Modules. Our experts can help you develop tailor-made microcontrollers for your individual design challenges. For common applications, we offer motor control evaluation boards and demo kits. Power Supply AC/DC – – – – – – – IGBT High-Voltage MOSFET Low-Voltage MOSFET Gate Driver SiC Power Control ICs Current Sensor Control 32-bit Microcontroller – XMC1000 – XMC4000 – AURIX™ Gate Driver Power Stage – Low-Voltage Gate Driver – High-Voltage Gate Driver – – – – High-Voltage MOSFET Low-Voltage MOSFET IGBT Power Modules Integrated Motor Driver ICs DC/DC – – – – Interface – Half Bridges – H-Bridges DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor Sensors – Hall Switches – Angle Sensors – Current Sensor User Interface – 32-bit Microcontroller XMC1000 XMC4000 – Industrial CAN – LED Drivers For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/motor-control 12 Automation Applications Industrial Communication Networking and communication demands are growing in industrial settings as automation and complexity continue to rise. Today’s devices needs to support real-time communication protocols, ensure robust, fail-safe and – above all – secure wireless communication and work with the growing diversity of machine interfaces that are appearing on the market. Our dedicated semiconductor solutions are specifically engineered to support industrial communication applications. They are designed to enable fast time-to-market at a price point that fits your budget. Even more importantly, our OPTIGA™ made-to-measure embedded security solu- Power Supply DC/DC AC/DC PFC tions enable secured communication across networked IT infrastructures and production systems. Our LNAs for WLAN applications, for example, are the best way to improve system sensitivity and extend your system range. And our transceiver devices come with built-in CAN support. For your flexibility, our portfolio of transmitter, receiver and transceiver products for the sub 1GHz frequency bands extends from entry-level standard devices up to SmartLEWIS™ solutions for complex system and performance requirements. Supporting the full range of industrial communication standards and protocols, we back up our offering with demo platforms and comprehensive software and driver support. Control 32-bit Microcontroller – XMC1000 – XMC4000 – AURIX™ Interface Communication Interfaces – – – – – – – – – Ethernet External-BUS USB CAN SPI/DSPI/QSPI SCI/RS232/RS485 IIC IIS FlexRay … CAN-PHY LIN-PHY … For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/industrial-communication 13 Automation Applications Linear Actuators For top performance in industrial settings, a linear actuator must be robust and resistant to environmental stress. You will find the perfect fit for your actuator needs from our wide range of high-quality products. All our actuators are designed to get your product to market on time, in budget and with the right feature set. Our offering extends from robust protected switches – such as the PROFET™ and Power Supply DC/DC – – – – DC/DC Converter Linear Voltage Regulators Low-Voltage MOSFET Current Sensor HITFET™ families – to proven reference designs specifically for industrial linear actuators, like our relay unit for PLCs. We also offer several integrated solutions to drive actuators in industrial environments, including PWM-enabled drivers or constant current relay drivers (CCRD), both of which reduce local power losses and increase the energy efficiency of your overall system. Control 32-bit Microcontroller – XMC1000 – XMC4000 – AURIX™ Interface Smart Power Switches – – – – – Isolated High-Side Switches Isolated Digital Input IC High-Side Switches Low-Side Switches Constant Current Relay Driver Switches – High-Voltage MOSFET – Low-Voltage MOSFET – IGBT Embedded Power – Relay Driver with Embedded MCU For detailed product information please see the chapter Product Solutions from page 15 onwards. www.infineon.com/linear-actuator 14 Product Solutions Power Supply Product Solutions Power Supply CoolMOS™ – High Voltage Power MOSFETs 600V CoolMOS™ P6 Optimized High Voltage Power MOSFETs Merging High Energy Efficiency with Ease of Use CoolMOS™ P6 is our seventh generation of high voltage power MOSFETs designed according to the revolutionary superjunction (SJ) principle. The new CoolMOS™ P6 series combines our experience as the leading SJ MOSFET supplier with our innovative strengths in designing high-efficiency solutions. The resulting P6 technology is engineered to provide high performance in hard- and soft-switching topologies (e.g. PFC, LLC) without compromising ease of use. P6 achieves extremely low conduction and switching losses, especially in light load conditions. This enables switching applications that are more efficient and compact, with the added bonus of being lighter and cooler. In addition, with its granular portfolio, P6 addresses the specific needs of applications such as server and PC power supplies , telecom rectifiers, consumer devices as well as industrial automation systems. For all these and other applications, it offers the best price/performance ratio on the market today. Key Features Key Benefits Reduced gate charge (Qg) Improved efficiency, especially in light load conditions Optimized Vth for soft switching Better efficiency in soft-switching applications due to Good body diode ruggedness earlier turn-off Suitable for hard- and soft-switching topologies Optimized balance between efficiency and ease of use; good control over switching behavior Highly robust and better efficiency Outstanding quality and reliability CoolMOS™ quality with over 12 years manufacturing experience in superjunction technology Optimized integrated Rg Improved dv/dt www.infineon.com/p6 15 Product Solutions Power Supply CoolMOS™ – High Voltage Power MOSFETs 600V CoolMOS™ P6 Optimized High Voltage Power MOSFETs Merging High Energy Efficiency with Ease of Use Product Portfolio RDS(on) @ VGS = 10V [mΩ] DPAK ThinPAK 8x8 TO-220 TO-220 FullPAK TO-247 600 IPD60R600P6 IPP60R600P6 IPA60R600P6 380 IPD60R380P6 IPP60R380P6 IPA60R380P6 IPP60R330P6 IPA60R330P6 IPW60R330P6 330 280 IPP60R280P6 IPA60R280P6 IPW60R280P6 230/255 IPL60R255P6 IPP60R230P6 IPA60R230P6 IPW60R230P6 190/210 IPL60R210P6 IPP60R190P6 IPA60R190P6 IPW60R190P6 160/180 IPL60R180P6 IPP60R160P6 IPA60R160P6 IPW60R160P6 125 IPP60R125P6 IPA60R125P6 IPW60R125P6 99 IPP60R099P6 IPA60R099P6 IPW60R099P6 70 IPW60R070P6 41 IPW60R041P6 Efficiency 300W CCM PC Silverbox Efficiency Difference 90V Low Line Rg,ext = 10R 94 0.3 93 0.2 92 0.1 Difference [%] Efficiency [%] 300W CCM PC Silverbox Efficiency 90V Low Line Rg,ext = 10R 91 90 IPP60R199CP IPP60R190P6 IPP60R190E6 89 88 87 0 50 100 150 200 POUT [W] 250 300 0 IPP60R199CP IPP60R190P6 IPP60R190E6 - 0.1 - 0.2 -0.3 350 This plug and play measurement shows the benefit of CoolMOS™ P6 in comparison to CoolMOS™ E6 and CoolMOS™ CP. In this 300W continuous conduction mode (CCM) PC Silverbox, CCM operates after output power until 70W or higher, otherwise it works in DCM. Even in this light -0.4 0 50 100 150 200 POUT [W] 250 300 350 load condition, which is not a one to one comparison, P6 has a slight efficiency improvement. When the output power goes over 70W in CCM, P6 shows an efficiency gain relative to E6 of 0.2% to 0.3% in full load. This efficiency benefit is due to Qg reduction and relatively high Vth values. www.infineon.com/p6 16 Product Solutions Power Supply 600V and 650V CoolMOS™ C6/E6 High Voltage Power MOSFETs with Best-in-Class On-Resistance CoolMOS™ C6/E6 is our sixth generation of high voltage power MOSFETs designed according to the revolutionary superjunction (SJ) principle. The new CoolMOS™ C6/E6 series combines our experience as the leading SJ MOSFET supplier with best-in-class innovation. The resulting C6/E6 devices provide all the benefits of a fast-switching SJ MOSFET without sacrificing ease of use. C6/E6 achieves extremely low conduction and switching losses, enabling more efficient, more compact, lighter and cooler switching applications. In addition, it offers the best cost/performance ratio on the market today. C6 devices have been optimized for ease of use, while E6 devices have been optimized for the highest efficiency in DCM applications. Key Features Lowest RDS(on) in DPAK, TO-220, TO-247 Improved body diode ruggedness (Qrr and di/dt) Significant Qg reduction Reduced energy stored in output capacitance (Eoss) @ 400V Integrated gate resistor Outstanding CoolMOS™ quality Key Benefits Higher power density Improved reliability Ideal for both soft- and hard-switching topologies Improved efficiency in hard switching applications Better light load efficiency Greater ease of use Reduced ringing due to PCB layout and package parasitic effects Product Portfolio Product Type Product Family RDS(on) [mΩ] Voltage [V] Package IPP60R074C6 CoolMOS™ C6 600V 74 600 TO-220 IPP65R074C6 CoolMOS™ C6 650V 74 650 TO-220 IPD65R250C6 CoolMOS™ C6 650V 250 650 DPAK IPD65R250E6 CoolMOS™ E6 650V 250 650 DPAK IPW65R037C6 CoolMOS™ C6 650V 37 650 TO-247 For full portfolio visit the dedicated family page. C3 vs. E6 efficiency comparison in a CCM-PFC stage 190mΩ @ 130kHz 190mΩ Efficiency @ 115VAC and 7.5Ω Gate Resistor @ 130kHz 190mΩ Efficiency @ 230VAC and 7.5Ω Gate Resistor @ 130kHz 97 98 96 Efficiency [%] Efficiency [%] 97 96 95 IPP60R190E6 7.5R SPP20N60C3 7.5R 94 1) 93 0 50 100 150 200 250 POUT [W] 300 350 95 94 93 92 1) 91 400 90 0 50 IPP60R190E6 7.5R SPP20N60C3 7.5R 100 150 200 250 POUT [W] 300 350 400 1) Significant light load efficiency improvement with E6 can then also be achieved compared to C3 due to the improved Qg and EOSS values. www.infineon.com/c6e6 17 Product Solutions Power Supply CoolMOS™ – High Voltage Power MOSFETs 650V CoolMOS™ CFDA Market-Leading 650V CoolMOS™ Power MOSFETs with Integrated Fast Body Diode With the new 650V CoolMOS™ CFDA, we have launched our second generation of market-leading automotive-qualified high voltage CoolMOS™ MOSFETs, which are also suitable for industrial sensors in industrial automation applications. The new CoolMOS™ CFDA series provides an integrated fast body diode, making it ideal for resonant switching topologies requiring lower switching losses due to a low gate charge. The softer commutation behavior and clearly enhanced EMI performance give the CoolMOS™ CFDA series a clear advantage over competitor parts. In addition, limited voltage overshoot during hard commutation of the body diode facilitates both layout and design-in. Key Features Key Benefits First 650V automotive-qualified technology with Increased safety margin due to higher breakdown voltage integrated fast body diode on the market Limited voltage overshoot during hard commutation – self-limiting di/dt and dv/dt Low gate charge (Qg) Low Qrr at repetitive commutation on body diode and low Qoss Reduced turn-on and turn-off delay times Compliant with AEC-Q101 standard Reduced EMI performance and easy design-in Better light load efficiency Lower switching losses Higher switching frequency and/or duty cycle possible Outstanding quality and reliability Product Portfolio RDS(on) [mΩ] DPAK D2PAK TO-220 660 IPD65R660CFDA IPB65R660CFDA IPP65R660CFDA 420 IPD65R420CFDA TO-247 310 IPB65R310CFDA IPP65R310CFDA 190 IPB65R190CFDA IPP65R190CFDA IPW65R190CFDA 150 IPB65R150CFDA IPP65R150CFDA IPW65R150CFDA 110 IPB65R110CFDA IPP65R110CFDA IPW65R110CFDA 80 IPW65R080CFDA 48 IPW65R048CFDA Limited Voltage Overshoot by CoolMOS™ CFDA During Hard Commutation of Conducted Body Diode 800 U [V] 600 400 T = 25°C; If = 20A; Rg,d = 5.6Ω; Ugs = 13V Limited voltage overshoot due to soft commutation 676V IPW65R080CFDA Comp2 600V 452V compared to competition enables easier design-in 200 0 0 behavior of CFDA contributes to higher reliability Significantly less voltage overshoot of CFDA Less Voltage Overshoot 100 200 t [µs] 300 400 500 www.infineon.com/cfda 18 Product Solutions Power Supply OptiMOS™ – Low and Medium Voltage Power MOSFETs Leading-Edge Solutions for a Better Future OptiMOS™ 40V–250V products set a new industry benchmark for efficiency. With leading on-state resistance (RDS(on)) and switching behavior, they reduce power losses for overall energy efficiency levels of 96%. This series is ideal for designers looking to raise energy efficiency performance and meet targets such as Energy Star Titanium Level. Very low RDS(on) values enable high-current applications in spacesaving packages (such as SuperSO8, S3O8, CanPAK™ and TO-Leadless). Previously, these designs were only possible in larger packages. The new OptiMOS™ 25V–30V product family sets new standards in power density and energy efficiency for discrete power MOSFETs and packaged designs. Offering an ultra-low gate and output charge, coupled with lowest RDS(on) in small footprint packages, OptiMOS™ 25V is the best choice for demanding voltage regulator requirements in server, datacom and telecom applications. OptiMOS™ 30V products are tailored to the needs of power management in notebooks, delivering improved EMI behavior and longer battery life. Key Features Key Benefits Reduced number of phases in multiphase converters Lower overall system costs Minimized system EMI, eliminating the need for external Reduced power losses and increased efficiency snubber networks Designed for highest efficiency with the world’s lowest RDS(on) Highest power density Lowest board space consumption for all load conditions Space-saving packages (CanPAK™, S3O8) or system-in-package solution Easy design-in Efficiency 96 Using Infineon products in synchronous rectification of 600W server power supply with 12V output raises your peak efficiency by 0.3%. 95 Efficiency [%] 94 93 92 91 90 Competitor BSC016N06NS 89 88 150 200 250 300 350 400 POUT [W] 450 500 550 600 For full portfolio please visit the family pages. www.infineon.com/optimos-lowvoltage www.infineon.com/optimos-mediumvoltage 19 Product Solutions Power Supply Small Signal Power MOSFETs Small Signal N-Channel, P-Channel and Complementary MOSFETs Our Small Signal portfolio offers N-Channel and P-Channel enhancement products as well as depletion MOSFETs. The voltage ranges from -250 up to 800V in single, dual and complementary configurations. Four gate drive voltages are available in seven industry-standard packages (SOT223, SOT89, TSOP6, SC59, SOT23, SOT323, SOT363). Small Signal MOSFETs are ideal for many applications such as battery protection and management, DC/DC converters, LED drivers and industrial automation applications. They are also commonly used as load switches and level shifters. NEW Small Signal OptiMOS™ 100V MOSFET in TSOP6 Space-Saving Packages for Fast-Switching Applications Key Features Voltage from -250V up to 800V Single, dual and complementary configurations Seven industry-standard packages Four gate drive voltages (1.8 – 10V) 100V and 75V Small Signal MOSFETs in TSOP6 packages Low Qg and low thermal resistance Key Benefits We have launched three new 100V and one new 75V Small Signal MOSFETs in TSOP6 packages. These are new spacesaving versions of industry-standard devices in the respective RDS(on) class. The low Qg and low thermal resistance makes them the perfect fit for a number of applications including industrial automation, motor control, LED lighting and SMPS systems. All products are qualified to AEC-Q101, making them suitable for automotive applications and all applications demanding the highest levels of quality. Highest levels of quality Automotive certified to AEC-Q101 Low power dissipation Fast switching –– Easy to design-in –– Space-saving packages Product Portfolio Small Signal SFET 2 100V TSOP6 Product Type VDS RDS(on) @ VGS = 10V [mΩ] ID(max) [A] VGS(th) [V] QG(th) [nC] RthJA1) [K/W] BSL716SN 75 150 2.5 0.8 … 1.8 13.1 62.5 BSL296SN 100 460 1.4 0.8 … 1.9 13.1 62.5 BSL372SN 100 220 2.0 0.8 … 1.8 14.3 62.5 BSL373SN 100 230 2.0 2.1 … 4.0 9.3 62.5 1) Device on 40mm x 40mm x 1.5mm epoxy PCB FR4 with 6cm (one layer 70µm thick) copper area for drain connection. PCB is vertical in still air (t < 5s). 2 Block Diagrams Step-Up (Boost) Step-Down (Buck) Synchronous Step-Up Synchronous Step-Down Vin Vin Vin Vin Vout Control IC N-Ch Iout Control IC P-Ch L P-Ch Vout Iout Control IC N-Ch P-Ch Vout Iout Vout Control IC N-Ch Iout www.infineon.com/smallsignal www.infineon.com/depletion 20 Product Solutions Power Supply SiC Schottky Diodes 650V thinQ!™ SiC Schottky Diodes Generation 5 Improved Efficiency and Price/Performance thinQ!™ Generation 5 is our leading-edge technology for SiC Schottky barrier diodes. Our proprietary diffusion soldering process, established since G3, is now combined with a new, more compact design and thin wafer technology. The result is a new family of products offering improved efficiency over all load conditions. This performance enhancement is enabled by both the improved thermal characteristics and a lower Figure of Merit (Qc x VF). The new thinQ!™ Generation 5 has been designed to complement our 650V CoolMOS™ families, meeting the most stringent application requirements in this voltage range. Key Features Key Benefits VBR at 650V Higher safety margin against overvoltage; best match Improved Figure of Merit (Qc x VF) with CoolMOS™ products Improved efficiency over all load conditions Reduced EMI Highly stable switching performance Reduced cooling requirements and increased system reliability No reverse recovery charge Soft switching reverse recovery waveform Temperature-independent switching behavior High operating temperature (Tj max = 175°C) Improved surge current capability Efficiency 0.15 a) Efficiency Difference [%] Efficiency [%] 98.5 98.0 97.5 97.0 10 Generation 5 Generation 3 Generation 2 20 30 40 50 60 POUT [% nominal] 70 80 90 100 b) Generation 5 Generation 3 Generation 2 0.10 0.05 0 - 0.05 - 0.10 - 0.15 10 20 30 40 50 60 70 POUT [% nominal] 80 90 100 Experimental results Efficiency comparison among the three IFX generations of 8A SiC diodes Experimental a) Absolute valuesresults b) Referred to thinQ!™ Gen 5among the three IFX generations of 8A SiC diodes Efficiency comparison (CCM PFC, High line, Pout max = 1800W, fSW = 65kHz, THS = 60°C, MOSFET: IPW60R075CP) a) Absolute values b) Referred to thinQ!™ Gen 5 (CCM PFC, High line, Pout max = 1800W, fSW = 65kHz, THS = 60°C, MOSFET: IPW60R075CP) www.infineon.com/sic-gen5 21 Product Solutions Power Supply SiC Schottky Diodes 650V thinQ!™ SiC Schottky Diodes Generation 5 Improved Efficiency and Price/Performance Product Portfolio IF [A] TO-220 real2pin 2 IDH02G65C5 TO-247 D2PAK real2pin ThinPAK 8x8 IDK02G65C5 IDL02G65C5 3 IDH03G65C5 IDK03G65C5 4 IDH04G65C5 IDK04G65C5 IDL04G65C5 5 IDH05G65C5 IDK05G65C5 6 IDH06G65C5 IDK06G65C5 IDL06G65C5 8 IDH08G65C5 IDK08G65C5 IDL08G65C5 9 IDH09G65C5 10 IDH10G65C5 IDW10G65C5 IDK10G65C5 IDL10G65C5 12 IDH12G65C5 IDW12G65C5 IDK12G65C5 IDL12G65C5 16 IDH16G65C5 IDW16G65C5 20 IDH20G65C5 IDW20G65C5 IDK09G65C5 30 IDW30G65C5 40 IDW40G65C5 1200V thinQ!™ SiC Schottky Diodes Generation 5 New Level of Efficiency and Reliability in Single-Phase and 3-Phase Applications Our new 1200V thinQ!™ SiC Schottky Diodes Generation 5 diode portfolio offers designers of high-power single-phase and 3-phase applications new levels of efficiency and reliability. Generation 5 diodes come with a best-in-class forward voltage level (VF), which is 30% lower than the previous generation. The lower VF provides significant system efficiency gains from 50% loads upwards, also providing Key Features Best-in-class forward voltage (VF) Mild positive temperature dependency of VF Best-in-class surge current capability, up to 14 times nominal current depending on amp rating Excellent thermal performance New 40A rated diode outstanding efficiency during lower switching frequency operations. A second highlight is the extended surge current capability. The new Generation 5 offers up to 14 times nominal current (depending on the diode amp rating), ensuring robust diode operation during surge current events. Key Benefits Highest efficiency gain during high load operation due to 30% drop in static loss compared with previous generation Improved system efficiency even at low switching frequencies Higher reliability during surge current events www.infineon.com/sic-gen5 www.infineon.com/sicdiodes1200v 22 Product Solutions Power Supply 1200V thinQ!™ SiC Schottky Diodes Generation 5 New Level of Efficiency and Reliability in Single-Phase and 3-Phase Applications Efficiency 30% reduced diode losses Diode Losses 50 Losses [W] PV String Nominal power → 10kW Input voltage → 500V Output voltage → 800V Switching frequency → 20kHz Junction temperature → 125°C 40 30 1200V SiC thinQ!™ Generation 5 20 0 1200V HighSpeed 3 IGBT IFX Gen2 IFX Gen5 10 0 20 40 60 Nominal Current [%] 80 Front-end Boost in 3-phase PV inverter 100 Product Portfolio Continuous Forward Current IF [A] TO-247 TO-220 real2pin DPAK real2pin 2 IDH02G120C52) IDM02G120C52) 5 2) IDH05G120C5 IDM05G120C52) IDH08G120C52) IDM08G120C52) 8 10 IDW10G120C5B IDH10G120C5 15 IDW15G120C5B IDH15G120C52) 20 IDW20G120C5B1) 30 IDW30G120C5B1) 40 IDW40G120C5B1) 1) 1) 2) 1) B = dual-configuration with common cathode 2) Release 2015 www.infineon.com/sicdiodes1200v 23 Product Solutions Power Supply Silicon Power Diodes New Rapid Diode Families The Rapid Diode families complement Infineon’s existing high power 600V/650V diodes by filling the gap between SiC diodes and previously released emitter-controlled diodes. They represent a perfect cost/performance balance and target high efficiency applications switching between 18kHz and 100kHz. Rapid 1 and Rapid 2 are optimized to have excellent compatibility with CoolMOS™ and high speed IGBT (Insulated Gate Bipolar Transistor) such as the TRENCHSTOP™ 5 and HighSpeed 3. 24 Rapid 1 is forward voltage drop (VF) optimized to address low switching frequency applications. Optimized for applications switching up to 40kHz. Rapid 2 is a Qrr/trr optimized hyperfast diode to address high speed switching applications. Optimized for applications switching between 40kHz and 100kHz. Key Features Temperature stable forward voltage (VF) of 1.35V 650V breakthrough voltage Low reverse recovery current (Irrm) Soft reverse recovery for outstanding EMI behavior trr < 50ns Key Features Temperature stable forward voltage (VF) of 1.6V trr < 20ns Soft reverse recovery for outstanding EMI behavior Excellent cost optimized alternative to silicon carbide (SiC) diodes Product Solutions Power Supply Block Diagrams Boost PFC Interleaved PFC Common Cathode Rapid Diode 85–285 V AC 400V IGBT/CoolMOS™ Full Bridge IGBT/CoolMOS™ Rapid Diode Rapid Diode IGBT/CoolMOS™ 85–285 V AC IGBT/CoolMOS™ Rapid Diode 400V IGBT/ CoolMOS™ 3 Level Inverter Rapid Diode Common Cathode Rapid Diode Rapid Diode Rapid Diode Rapid Diode IGBT/ CoolMOS™ VIN IGBT/CoolMOS™ IGBT/CoolMOS™ VIN IGBT/ CoolMOS™ IGBT VDC VAC Rapid Diode IGBT IGBT/ CoolMOS™ www.infineon.com/rapiddiodes 25 Product Solutions Power Supply Silicon Power Diodes New Rapid Diode Families Rapid Diode Portfolio Continous Current Ic Tc = 100°C [A] 8 TO-220 real2pin TO-220 FullPAK TO-220 TO-247 TO-247 IDW30E65D1 IDW30C65D1 IDP08E65D1 9 Rapid 2 650V Rapid 1 650V 15 IDP15E65D1 20 30 IDV20E65D1 IDP30E65D1 40 IDW40E65D1 60 IDW60C65D1 75 IDW75D65D1 80 IDW80C65D1 8 IDP08E65D2 IDV08E65D2 15 IDP15E65D2 IDV15E65D2 20 IDP20E65D2 30 IDP30E65D2 40 IDP40E65D2 IDW15E65D2 IDP20C65D2 IDV30E65D2 IDW20C65D2 IDP30C65D2 IDW30C65D2 IDW40E65D2 Emitter Control Diode Portfolio Continous Current Ic Tc = 100°C [A] 600V DPAK 6 IDD06E60 9 IDD09E60 15 1200V TO-220 real2pin IDP15E60 30 IDP30E60 45 IDP45E60 IDD15E60 D2PAK TO-247 IDB15E60 IDB30E60 IDW30E60 50 IDW50E60 75 IDW75E60 100 IDW100E60 4 IDP04E120 9 IDP09E120 12 IDP12E120 18 IDP18E120 20 30 IDP30E120 IDB30E120 www.infineon.com/rapiddiodes 26 Product Solutions Power Supply Discrete IGBT 650V TRENCHSTOP™ 5 Discrete IGBT A Technology to Match Tomorrow’s High Efficiency Demands Our TRENCHSTOP™ 5 IGBT offers market-leading switching and conduction loss performance. TRENCHSTOP™ 5 is the next generation of thin wafer technology for applications switching at frequencies above 10kHz. We have reduced wafer thickness by more than 25%, enabling a dramatic improvement in both switching and conduction losses, whilst providing a breakthrough voltage of 650V. Plug and play application tests show a reduction in package temperature of more than 25% relative to our previous best-in-class IGBT, the HighSpeed 3. Even more revolutionary, when a TO-247 HighSpeed 3 IGBT is replaced with a TRENCHSTOP™ 5 in a TO-220, case temperatures drop more than 10% for the TRENCHSTOP™ 5. This quantum leap in efficiency opens up new opportunities for designers to explore. Key Features 650V breakthrough voltage Performance improvements on HighSpeed 3: –– Qg down by a factor of 2.5 –– Switching losses reduced by a factor of 2 –– VCE(sat) reduced by 200mV Co-packed with Infineon’s new “Rapid” Si diode technology Low Coss/Eoss Mild positive temperature coefficient (VCE(sat)) Temperature stability of VF Key Benefits Best-in-class efficiency, resulting in lower junction and case temperature Higher device reliability 50V increase in the bus voltage without compromising reliability Higher power density designs Efficiency Efficiency [%] PFC Efficiency - Low Line Vin = 115V Boost Diode = Ultrafast Si 15A unless Specified 96.0 95.5 95.0 94.5 94.0 93.5 93.0 92.5 92.0 91.5 91.0 F5 + SiC, Rgoff = 20Ω 1.7% 0.7% H5 RG,off = 5Ω H3 RG,off = 5Ω IGP40N65F5, RG,off = 20Ω, SiC Boost Diode IGP40N65H5, RG,off = 5Ω IKW40N60H3, RG,off = 5Ω 0 100 200 300 400 500 POUT [W] 600 700 800 Variant 1: HighSpeed 5 – H5/High speed variant Plug & play/ease of use Designed for ease of use implementation to easily replace existing IGBTs in designs or where redesign resources are limited Optimized for gate resistor values down to 5Ω Variant 2: HighSpeed 5 Fast – F5/Highest efficiency Performance optimized for low inductance designs in combination with SiC diodes to offer 1% higher efficiency compared to the H5 Requires higher design-in effort, but rewards are higher www.infineon.com/trenchstop5 27 Product Solutions Power Supply Discrete IGBT 650V TRENCHSTOP™ 5 Discrete IGBT A Technology to Match Tomorrow’s High Efficiency Demands TRENCHSTOP™ 5 Selection Tree 600V/650V No Free Wheeling Diode (FWD) Yes 10–150kHz < 18kHz > 18kHz 10–150kHz < 18kHz > 18kHz TRENCHSTOP™ 5 H5/F5 TRENCHSTOP™ 60T HighSpeed 3 H3 TRENCHSTOP™ 5 H5/F5 TRENCHSTOP™ 60T HighSpeed 3 H3 Corresponding Best Fit IGBTs IGP20N65H5/F5 IGP30N65H5/F5 IGP40N65H5/F5 IGW40N65H5/F5 IGW50N65H5/F5 PFC & PWM IGP30N60T IGW30N60T IGW50N60T Corresponding Best Fit IGBTs IGP30N60H3 IGW40N60H3 IGW50N60H3 IKP08N65H5/F5 IKP15N65H5/F5 IKA15N65H5/F5 IKP20N65F5/H5 IKP30N65F5/H5 IKP40N65H5/F5 IKW40N65H5/F5 IKW50N65H5/F5 – IKP15N60T IKA15N60T – IKW30N60T IKW50N60T – IKP20N60H3 – IKP20N60H3 IKW40N60H3 IKW50N60H3 PFC & PWM www.infineon.com/trenchstop5 28 Product Solutions Power Supply 600V and 1200V HighSpeed 3 Discrete IGBT Optimized in Every Respect Our 1200V and 600V 3rd generation HighSpeed IGBT family is optimized for hard- and soft-switching topologies. The family sets a new benchmark for switching losses and is recommended for topologies switching at frequencies above 20kHz. Very short tail current and low turn-off losses (25% less than the closest competitor) are key features of this new family. It has the ability to increase the efficiency of your design by up to 15%. And thanks to our world-renowned TRENCHSTOP™ technology with its intrinsically very low Vce(sat) behavior, HighSpeed 3 keeps both switching and conduction losses extremely low. The free-wheeling diode in the duo packs is a 4th generation emitter-controlled diode, optimized for fast recovery while maintaining a high level of softness. This provides excellent complementary high-speed switching performance, ruggedness and EMI behavior. Key Features Key Benefits Lowest switching losses for switching frequencies High efficiency above 20kHz Soft switching waveforms Low Vce(sat) Low diode losses and fast recovery time Positive Vce(sat) temperature coefficient 10µs short circuit rating Excellent EMI behavior Power Dissipation Load Current vs Frequency Low conduction losses RoHS compliance Low risk of thermal runaway and easy paralleling Power Dissipation Vds = 800V, D = 0.5, Ic = 40A, Tj = 150°C 45 Best Competitor / TO-264 IKW40N120H3 / TO-247 705 605 505 405 305 205 105 5 Best Competitor IKW40N120H3 40 Load Current [A] Power Dissipation @ 150°C [W] 805 Load Current vs Frequency Vds = 800V, D = 0.5, Tc = 100°C 35 Tj = 175°C Power Dissipation = 242W 30 25 20 Tj = 150°C Power Dissipation = 200W 15 10 0 10 20 30 40 50 60 70 80 Switching Frequency [kHz] P = Vce x Ic x D + fsw x Esw,tot At 40A, Tj = 150°C, the IFX device provides 15% lower losses 5 0 10 20 30 40 50 60 70 80 90 100 Switching Frequency [kHz] Thanks to the higher Tjmax and lower losses, for a fixed Tc = 100°C the KW device can run up to 50% higher load current than best competitor’s device. www.infineon.com/highspeed3 29 Product Solutions Power Supply Discrete IGBT 600V and 1200V HighSpeed 3 Discrete IGBT Optimized in Every Respect HighSpeed 3 IGBT and Duo Pack 600V Product Family IGBT Continuous Collector Current Ic @ Tc = 100°C [A] IPAK DPAK D2PAK TO-220 20 IGB20N60H3 IGP20N60H3 30 IGB30N60H3 IGP30N60H3 TO-220 FullPAK TO-247 IGW20N60H3 IGA30N60H3 IGW30N60H3 40 IGW40N60H3 50 IGW50N60H3 60 IGW60N60H3 75 IGW75N60H3 100 IGW100N60H3 20 Duo Pack TO-262 IKB20N60H3 IKP20N60H3 IKW20N60H3 30 IKW30N60H3 40 IKW40N60H3 50 IKW50N60H3 60 IKW60N60H3 75 IKW75N60H3 HighSpeed 3 IGBT and Duo Pack 1200V Product Family Duo Pack IGBT Continuous Collector Current Ic @ Tc = 100°C [A] IPAK DPAK D2PAK TO-220 TO-262 TO-220 FullPAK TO-247 20 IGW15N120H3 30 IGW25N120H3 40 IGW40N120H3 20 IKW15N120H3 30 IKW25N120H3 40 IKW40N120H3 www.infineon.com/highspeed3 30 Product Solutions Power Supply DC/DC Converters Robust Range of Converters for the Widest Application Spectrum Our high-efficiency switching regulators and controllers help to reduce energy consumption. In addition to extending the operating time of battery-powered systems, they also significantly improve the thermal budget of the appli- cation. Overall, this translates into minimal operating costs. For your design flexibility, they are available as adjustable voltage variants as well as with dedicated fixed output voltage values. Key Features Key Benefits Input voltage up to 60V High-efficiency regulation Output currents going from 500mA up to 10A Only a few external components needed for stable Switching frequencies ranging from 100kHz to 2.2MHz regulation Perfectly suited for regulation in pre-/post-regulation power supply architectures Shutdown quiescent current down to below 2µA Current limitation and overtemperature protection Enable feature DC/DC Converters Product Type VQ (multiple) IFX81481ELV Adjustable Buck Controller 10.0 IFX90121EL V50 5.0V IFX80471SK V Package 10A synchronous DC/DC adjustable Step Down Controller; f = 100 – 700kHz, N PG-SSOP-14 Buck Converter 0.5 Vin up to 45V, 2.2MHz Step-Down Regulator with Low Quiescent Current PG-SSOP-14 Adjustable Buck Converter 2.3 Vin up to 60V; VQ adjustable from 1.25V up to 15V; external MOS PG-DSO-14 Buck Converter 2.3 Vin up to 60V; external MOS PG-DSO-14 Adjustable Buck Converter 1.8 VQ adjustable from 0.6V up to 16V; Tolerance 2% up to 1000mA PG-DSO-8 IFX80471SK V50 5.0V IFX91041EJV Output Current Output Current Product Features Type [A] IFX91041EJ V33 3.3V Buck Converter 1.8 VQ fixed to 3.3V; Tolerance 2% up to 1000mA PG-DSO-8 IFX91041EJ V50 5.0V Buck Converter 1.8 VQ fixed to 5.0V; Tolerance 2% up to 1000mA PG-DSO-8 Block Diagram IFX91041 Industrial DC/DC Buck Regulators (Selection Tree) VS EN 7 45V Output Current Enable 5 BDS Feed Forward Buck Converter 3 6 IFX90121 5V >45 … 60V Output Current ≤1A Charge Pump Overtemperature Shutdown COMP Maximum Input Voltage 8 >1A IF91401 Adj, 5V, 3.3V ≥2A IFX81401 Adj IFX80471 Adj, 5V 500mA 1.8A 10A 2.3A 2.2MHz 370kHz Synchronous controller 60V, 360kHz BUO Output Current SYNC 1 Oscillator 4 Band-gap Reference IFX91041 FB Soft-start Ramp Generator 2 GND www.infineon.com/industrial-dcdc-converters 31 Product Solutions Power Supply DC/DC Voltage Regulator – DrBlade™ 2 DC/DC Voltage Regulation System Solution DrBlade™ 2 Power Stage and Digital VR Controller Our digital voltage regulation system solution combines a DrBlade™ 2 power stage and a 4th generation VR controller. It is designed to provide the highest configurability with a minimal external component count to meet the increasingly stringent voltage regulation requirements of new microprocessor generations. Small, highly efficient and thermally enhanced power stages in the novel RoHS 2016-compliant blade packaging technology maximize power density and save PCB real estate. Continuous inno- vation in FET, driver and controller technologies enable peak efficiencies above 95% for maximum system performance. The extensively validated system approach offers sense and protection features for superior system robustness as well as higher reliability. This device comes with a Graphic User Interface (GUI) to program controller parameters and tune the VR while in operation. Furthermore, our highly trained global engineering network provides highquality support from design to manufacturing. Key Features Key Benefits 60A max. average load current High system stability and robustness 4.5V to 16V input voltage Fast and easy system optimization Temperature sensing and thermal warning Minimum solution footprint Load current sensing Peak efficiency in excess of 95% Digital configuration RoHS-compliant and lead-free Efficiency Efficiency [%] System Efficiency 97 96 95 94 93 92 91 90 89 88 87 86 DrBlade™ 2 provides > 95% peak efficiency: Vin = 12V, Vout = 1.82V DrBlade™ 2 TDA21320 LL = 0mΩ, Lout = 150nH (Vitec) fswitch = 429kHz Tamb = 25°C 0 25 50 75 100 125 150 Output Load Current [A] 175 200 225 No Air Flow Included losses: Controller, power stage, inductor Infineon’s system solution with 4th Generation VR digital controller and DrBlade™ 2 power stage in next generation package with integrated current sense achieves greater than 95% peak efficiency. 32 Product Solutions Power Supply Product Portfolio Product Type Product Family Max. Phases/Rail Package TDA21320 DrBlade™ 2.0 Power Stage (driver + MOSFETs) – LG-WIQFN-38-1 (6.6 x 4.5 x 0.6mm3) TDA21321 DrBlade™ 2.1 Power Stage (driver + MOSFETs) – LG-WIQFN-38-1 (6.6 x 4.5 x 0.6mm3) PX7247HDN Digital VR Controller 6+1 PG-VQFN-48 (6 x 6 x 0.9mm3) PX7241HDN Digital VR Controller 3+3 PG-VQFN-48 (6 x 6 x 0.9mm3) PX7143HDN Digital VR Controller 3+0 PG-VQFN-40 (5 x 5 x 0.9mm3) PX7242HDM Digital VR Controller 1+1 PG-VQFN-40 (5 x 5 x 0.9mm3) PX7141HDM Digital VR Controller 1+0 PG-VQFN-40 (5 x 5 x 0.9mm3) PX8746HDN1) Digital VR12.5 VCore Controller 6+0 PG-VQFN-48 (6 x 6 x 0.9mm3) PX8143HDM Digital VR12.5 DDR Controller 3+0 PG-VQFN-40 (5 x 5 x 0.9mm3) 1) 1) Example from a broad range of VR12.5 controllers Application Diagram Our power architectures address the need for more accurate and efficient power delivery to support the increasingly challenging requirements of today’s DC/DC computing applications. Power Supply VCOM DrBlade™ 2 MultiPhase PWM Controller Driver www.infineon.com/systemsolution-dcdc 33 Product Solutions Power Supply RC-Drives and RC-Drives Fast Cost-Optimized IGBTs Our RC-Drives IGBT technology provides cost-optimized solutions for the price-sensitive consumer drives market, which demands outstanding performance for permanent magnet synchronous and brushless DC motor drives. Our reverse-conducting RC-Drives Fast family was developed to meet rising demand for low-power motor drives in consumer applications. IGBT and diode losses were reoptimized to reduce losses at frequencies of 4 ~ 30kHz. RC-Drives Fast enables high-efficiency designs for inverters above 16kHz, reducing audible noise to absolutely silent. Furthermore, ultra-precise vector control techniques can be used to provide more torque at low speed and high performance control dynamics at high speed. The small size of the components allows high power density designs at lower system cost. Key Features Optimized Eon, Eoff and Qrr for up to 20% lower switching losses Operating range of DC to 30kHz Max. junction temperature 175°C Short circuit capability of 5µs Very tight parameter distribution Best-in-class current performance for package size Smooth switching performance for low EMI levels Complete product portfolio and PSpice models on the internet Key Benefits Excellent cost/performance for hard-switching applications Outstanding temperature stability Very good EMI behavior Up to 60% space saving on the PCB Higher reliability due to monolithically integrated IGBT & diode (less thermal cycling during switching) Product Specifications for RC-Drives and RC-Drives Fast Product Type Power [W] Recomm. VCE Switching Freq. [kHz] [V] 25°C 100°C 25°C 175°C 25°C 175°C [µs] 25°C 175°C 25°C 175°C IKD03N60RF 40 … 80 4 … 30 600 5 2.5 2.2 2.3 0.09 1) 0.141) 5 2.1 2 0.061) 0.191) DPAK IKD04N60RF 80 … 150 4 … 30 600 8 4 2.2 2.3 0.11 1) 1) 0.19 5 2.1 2 0.09 1) 0.261) DPAK IKD06N60RF 150 … 250 4 … 30 600 12 6 2.2 2.3 0.181) 0.281) 5 2.1 2 0.161) 0.341) DPAK IKD10N60RF 250 … 600 4 … 30 600 20 10 2.2 2.3 0.351) 0.521) 5 2.1 2 0.271) 0.621) DPAK IKD15N60RF 600 … 1kW 4 … 30 600 30 15 2.2 2.3 0.521) 0.781) 5 2.1 2 0.421) 11) DPAK IKD04N60R 80 … 150 DC … 5 600 8 4 1.652) 1.852) 0.24 0.4 5 1.72) 1.72) 0.22 0.52 DPAK IKD06N60R 150 … 250 DC … 5 600 12 6 1.652) 1.852) 0.33 0.56 5 1.72) 1.72) 0.37 0.8 DPAK IKD10N60R 250 … 600 DC … 8 600 20 10 1.65 1.85 0.59 0.93 5 2) 1.7 1.72) 0.56 1.22 DPAK IKD15N60R 600 … 1kW DC … 8 600 30 15 1.652) 1.852) 0.9 1.25 5 1.72) 1.72) 0.76 1.7 DPAK 1) Speed optimization IC [A] VCESAT [V] 2) Ets [mJ] 2) tSC VF [V] Qrr [µC] Package 2) Conduction optimization Efficiency Eoff vs. Vcesat Rs = 40Ω, Ic = 4A, Tj = 25°C and 175°C 0.30 Eoff [mJ] 0.20 0.15 0.10 -61% reduction in Eoff at 175°C 0.05 0 1.5 1.6 1.7 1.8 1.9 2.0 Vcesat [V] 34 Due to diﬀerent trade-oﬀ between conduction and switching losses, either RC-Drives or RC-Drives Fast can be oﬀered depending on switching frequency. RC-Drives (25°C) RC-Drives (175°C) RC-Drives Fast (25°C) RC-Drives Fast (175°C) 0.25 2.1 2.2 2.3 2.4 www.infineon.com/rcdf Product Solutions Power Supply Voltage Regulators Energy-Efficient Voltage Regulators and Trackers Our linear voltage regulators and trackers help to reduce energy consumption, extending operating time and minimizing operating costs across all kinds of systems. The wide supply voltage range, low quiescent current, rich protective fea- ture set and choice of packages make our devices the perfect fit across a broad application spectrum, even beyond typical automation designs. Our trackers are ideal as additional supplies for off-board loads to increase system reliability. Key Features Key Benefits Input voltage up to 60V Pin-to-pin compatibility with Output current up to 1.5A industry-standard parts Very low dropout voltage Trackers for optimized heat distribution and external protection Trackers for maximum system cost reduction Small robust packages Output voltage adjustable or fixed to specific values Quiescent current down to 20µA Overload, overtemperature, short-circuit and reverse-polarity protection Low current consumption Extended temperature range -40°C ... +125°C Infineon Microcontroller Families and Industrial Voltage Regulators Microcontroller Family Input Voltage [V] Input Current (max.) [mA] Voltage Regulator XMC1000 Family 1.8 … 5.5 <100 IFX54211/IFX2931/IFX4949/IFX25001/IFX544xx XMC4000 Family 3.3 <500/300 IFX1763/IFX544xx/IFX1117 XC8xx 3.3 … 5.0 200 IFX20001/IFX24401/IFX2931/IFX21401/IFX4949/IFX544xx XE166/XC2000 1.5 and 3.3 or 5.0 100 IFX25401/IFX24401/IFX2931/IFX4949 TriCore™ 1.5 … 3.3 >400 IFX27001/IFX8117/IFX91041/IFX80471/IFX25001/IFX1117 Industrial Linear Voltage Regulator (Selection Tree) 20V >20 … 60V Maximum Input Voltage Output Current Output Current ≤500mA IFX54441EJV Adj, 3.3V, 5V >500mA 1 <500mA ≥500mA 3 IFX1117 Adj, 3.3V IFX20001 3.3V, 5V 300mA 800mA 30mA 150mA EN, Rev. Pol, 2% 2% Accuracy EN, Rev. Pol, 4% EN IFX1963 Adj IFX20002 3.3V, 5V IFX24401 5V IFX1763 Adj, 3.3V, 5V 2 IFX54211 3.3V 500mA 1500mA 30mA 300mA EN, Rev. Pol, 2.5% EN, Rev. Pol, 1.5% EN, Rev. Pol, 4% EN, 2% IFX21401 Low Quiescent Current 2 Low Noise Behavior 3 Small Package 4 Tracker! High Accuracy 5 Ultra Low Quiescent Current 6 Dual Output 7 Very Low Dropout IFX21004 50mA 30/150mA 0.5% 60V IFX4949 IFX25001 2.5V, 3.3V, 5V Output Current 1 4 100mA RST, 1% IFX2931 3.3V, 5V 100mA 3 IFX78M05 500mA 35V, 4% 5 IFX7805 5V 1000mA 35V, 4% 6 IFX27001 Adj, 1.5V, 1.8V, 2.6V, 3.3V, 5V 1000mA 6 40V, 3% 400mA 45V, Rev. Pol, 4% IFX25401 Adj, 5V 7 400mA EN, Rev. Pol, 2% www.infineon.com/powersupply 35 Product Solutions Control Product Solutions Control XMC – 32-bit Industrial Microcontrollers One Microcontroller Platform. Countless Solutions. 36 Our XMC 32-bit microcontroller family gives you a real competitive advantage. This wide and scalable portfolio offers excellent real-time performance. Designed for quality and robustness, it offers configurable and fast peripherals which operate largely autonomously. This means the XMC can be adapted to the specific needs of different target markets such as building and factory automation, power and energy, home and professional computing and transportation. Customers benefit from a wide portfolio and ecosystem powered by an ARM® Cortex™-M0 (XMC1000 family) and Cortex™-M4 (XMC4000 family). DAVE™ - Digital Application Virtual Engineer A complete set of development tools, ready-to-use software solutions and supporting services are available for XMC microcontrollers from Infineon and various third-party tool and software vendors. These tools and software products support the entire development cycle to ensure a highly efficient development process. Key Features Integration of powerful peripherals Real-time and deterministic behavior Operation at up to 125°C ambient temperature Key Benefits Industrial, cross-market microcontroller suited to widest application spectrum Excellent real-time performance Long-term product availability until 2027 Easy design-in with DAVE™ IDE and DAVE™ Apps – advanced high-level GUI-based application-orientated programming using predefined, configurable and tested software components Infineon’s free and revolutionary Eclipse-based IDE (Integrated Development Environment) enables a simple and straightforward development flow for less risk and effort. This is achieved thanks to an intuitive graphical interface and more than 350 application-optimized, configurable, tested and well documented Apps and Examples. Use of DAVE™ generated source code with other tools from the wide ARM Ecosystem is supported. Product Solutions Control Infineon XMC 32-bit Microcontrollers based on ARM® Cortex™-M XMC1000 Infineon XMC MCUs Parameter XMC1100 XMC1200 Core DSP Instruction Set – – System Memory Timer 120MHz ✓ ✓ up to 80MHz up to 120MHz 1x 2x DMA – MPU Primitive Memory Protection (PAU) Memory Protection Unit (8 Regions) 8 ch 12 ch Watchdog ✓ ✓ Real-Time Clock ✓ ✓ Hibernate Domain – ✓ Number of I/Os 14 / 22 / 26 / 34 / 35 Supply Voltage 1.8 to 5.5V Operating Temperature Analog XMC4500 – up to 64MHz Programmable Hardware Interconnect Matrix XMC4400 80MHz 64MHz Floating Point Unit (FPU) Flash Communication XMC4200 ARM® Cortex™-M4 – Peripherals Speed Application XMC4100 32MHz Math Coprocessor RAM 45 / 79 / 123 3.13 to 3.63V -40 ... 85°C / 105°C / 125°C 16 – 200KB 8 – 200KB 64KB 256KB ✓ 16KB Cache 16KB 20KB 40KB – Ext Memory Interface – ✓ CCU4 (4 ch) – 12-bit ADC up to 12ch, 1xADC (1 MSPS) 12-bit DAC 1MB 80KB 1KB 160KB 4KB ✓ – ✓ 1x CCU8 (4 ch) 512KB ✓ 16KB SysTick Comparator 34 / 49 -40 ... 85°C / 105°C 8 – 64KB Error Correction Code (ECC) – 2x 4x 1x 2x up to 9 ch, 2x ADC (2 MSPS) up to 26 ch, 4x ADC (2 MSPS) 1x up to 12 ch, 2x ADC (1 MSPS) – 2x – Up to 3x Programmable comparators built into Hi-Res PWM IEEE 1588 Ethernet MAC – – USB – FS DEV SDIO/SD/MMC – 1x RMII & MII FS OTG – ✓ 2 ch, 1x FIFO (64 word) 4 ch, 2x FIFO (64 word) 6 ch, 2x FIFO (64 word) CAN 2.0 B – 2 Nodes, 64 Message Objects 3 Nodes, 64 Message Objects Hi-Res PWM (150ps) – ∆∑ Demodulator – USIC (UART, SPI, QSPI, I2C, I2S) 4 ch – – 4 ch POSIF – – 1x Capacitive Touch Control – Up to 16 ch – Up to 7 ch Up to 8 ch LED Matrix Control – Up to 128 LEDs – Up to 28 LEDs Up to 40 LEDs Brightness Control Unit DAVE™ Apps IDEs XMC1300 ARM® Cortex™-M0 Frequency Other XMC4000 – Packages 2x Up to 9 ch – Code library with basic system, peripheral, and advanced application-oriented components for Motor Control, Power Conversion, Lighting, Communication, and many more applications. Debug and Trace Ecosystem (IDEs, Compiler, Debugger) 1x SWD, SPD SWD, JTAG, Trace Infineon DAVE™ (free) and Partner ARM®/KEIL™ (free up to 128KB, XMC1000), Atollic, IAR Systems, Rowley Associates, TASKING PG-VQFN-24/40 PG-TSSOP-16/38 PG-VQFN-24/40 PG-TSSOP-16/28/38 PG-VQFN-24/40 PG-TSSOP-16/38 PG-VQFN-48 PG-LQFP-64 PG-VQFN-48 PG-LQFP-64 PG-LQFP-64/100 PG-LQFP-100/144 PG-LFBGA-144 www.infineon.com/xmc www.infineon.com/dave 37 Product Solutions Control AURIX™ – 32-bit Microcontrollers 32-bit multi-core TriCore™ – Safety joins Performance AURIX™ is Infineon’s family of microcontrollers serving exactly the needs of industrial applications in terms of performance and safety. Its innovative multicore architecture, based on up to three independent 32-bit TriCore™ CPUs @300MHz, has been designed to meet the highest safety standards while increasing the performance at the same time. The key strengths of the scalable AURIX™ family is to combine multiple worlds in one family, supporting safety and security as well as high-performance computing and the latest connectivity as well as innovative power supply concepts. Key Features Key Benefits TriCore™ with DSP functionality High scalability gives the best cost-performance fit Best-in-class real-time performance: triple TriCore™ with High integration leads to signiﬁcant cost savings up to 300MHz per core Supporting floating point and ﬁx point with all cores From single core to multicore Encapsulation feature allows software development without interference for multiple applications HW accelerators Up to 2.7MB of internal RAM, up to 8MB of Flash Innovative single supply 5V or 3.3V External memory interface IEC61508 conformance to support safety requirements up to SIL3 Embedded EEPROM Advanced communication peripherals: CAN, LIN, SPI, FlexRay, Ethernet 38 Using the AURIX™ platform, developers will be able to implement applications like motor control and drives, PLC, or any other automation application with the scalable MCU platform. Developments using AURIX™ will require less effort to achieve the SIL/IEC61508 standard based on its innovative safety concept and multiple HW safety features. The integrated hardware security module provides safety and also helps to prevent external interrupts. Furthermore, AURIX™ has enhanced communication capabilities to support communication between CAN, LIN, FlexRay™ and Ethernet buses. High integration leads to reduced complexity Innovative supply concept leads to best-in-class power consumption Product Solutions Control AURIX™ Family Package Scalability TQFP-80 TQFP-100 LQFP-144 TQFP-144 LQFP-176 9x Series up to 8MB Triple-Core 7x Series up to 4MB Triple-Core 6x Series TC264 up to 2.5MB Dual-Core 4x Series 3x Series TC233 TC234 TC222 TC223 TC224 TC212 TC213 TC214 up to 2MB Lockstep-Core up to 1MB Lockstep-Core 1x Series up to 512KB Lockstep-Core LBGA-416 LFBGA-516 TC297 TC298 TC299 TC275 TC277 TC265 TC267 TC244 up to 2MB Single-Core 2x Series LFBGA-292 TC237 Upgrade/downgrade with pin-compatible packages www.infineon.com/aurix 39 Product Solutions Control CAN Transceivers Proven Quality for Automation Applications Our CAN transceivers provide proven quality, reliable track records and high robustness in automation applications. Features include excellent electromagnetic performance and low levels of electromagnetic interference (EMI). They are also designed for ISO compliance. While our IFX1050G, IFX1050 GVIO and IFX1040SJ devices are optimized for high-speed communication, the IFX1054G variant is suited for fault tolerance at lower data rates, where a separate flag supports diagnostics. Key Features Transmission rates up to 1Mbit/s ISO 11898 compliance Low-power modes Support of failure conditions Bus wake-up feature Receive-only mode Standby/sleep mode Thermal protection Key Benefits Low current consumption Excellent EMC performance and EMI robustness Pin-to-pin replacements for industry-standard parts Block Diagram IFX1050 GVIO IFX1050 GVIO 3 5 CANH CANL 7 6 Output Stage Driver 1 Temperature Protection = Mode Control Receiver GND 40 2 8 4 VCC V33 TxD INH RxD Product Solutions Control Product Portfolio Product Type Transceiver Type Transm. Rate (Max) Quiescent Current Bus Wake-up Capability Wake-up Inputs Package IFX1050G High Speed CAN, ISO11898-2 1Mbps <10µA @ 5V standby No No PG-DSO-8 IFX1050GVIO High Speed CAN, ISO11898-2 1Mbps <10µA @ 5V standby No No PG-DSO-8 IFX1040SJ High Speed CAN, ISO11898-2, ISO11898-5 1Mbps <10µA @ 5V standby Yes Yes, STB PG-DSO-8 IFX1054G Fault Tolerant CAN, 125kbps ISO11898-3 <65µA Sleep Mode Yes Bus wake-up and wake-up pin PG-DSO-14 IFX1021 LIN 1.3, 2.0,2.1 <10µA Sleep Mode Yes Bus wake-up and wake-up pin PG-DSO-8 20kbps www.infineon.com/industrialtransceivers 41 Product Solutions Interface Product Solutions Interface HITFET™ Low-Side Drivers Bringing More Protection to Low-Side Applications Our well-known and robust HITFET™ portfolio of protected low-side switches now includes innovations such as BTF3050TE. This is the first member of the HITFET™+ family, enabling higher switching speeds, handshake diagnosis and improved short-circuit robustness. In addition, BTS3018TC is an ideal replacement for the non-green device BTS149. Key Features Key Benefits Wide range of RDS(on) values (18 – 550mΩ) MOSFET-like package with integrated protective Logic level input functionality Easy design-in Perfect fit for individual design challenge with scalable RDS(on) Choice of packages to match individual application needs Thermal shutdown with auto restart or latch behavior Status feedback via –– increased input current (2nd Gen) –– digital readout without ADC (for BTF3050TE) Current limitation (except BTS3160D) Overload and overvoltage protection Block Diagram BTF3050TE VDD OUT Overvoltage Protection Supply Unit IN Status Feedback ESD Protection 42 Gate Driving Unit Slew Rate Adjustment Unit SRP Overtemperature Protection Short Circuit Detection/ Current Limitation Product Solutions Interface Product Portfolio Product Type Product Family Channels 1) BTS3018TC HITFET™ BTS3028SDL RDS(on) (typ) EAS [mΩ] Nominal Load Current [A] IL(lim) (typ) [A] Package [mJ] Operating Voltage Range [V] 1 18 6.0 1900 8 – 36 45 PG-TO263-3 (D2PAK) HITFET™ 1 30 5.0 350 8 – 36 45 PG-TO252-3 (DPAK) BTS3028SDR HITFET™ BTF3050TE (New) HITFET™+ 1 30 5.0 350 8 – 36 45 PG-TO252-3 (DPAK) 1 50 3.0 120 8 – 28 45 PG-TO252-5 (DPAK 5-leg) BTS3046SDL HITFET™ 1 50 3.6 140 8 – 36 21 PG-TO252-3 (DPAK) BTS3046SDR HITFET™ 1 50 3.6 140 8 – 36 21 PG-TO252-3 (DPAK) BTS3104SDL HITFET™ 1 104 2.0 50 8 – 36 13 PG-TO252-3 (DPAK) BTS3104SDR HITFET™ 1 104 2.0 50 8 – 36 13 PG-TO252-3 (DPAK) BSP75N HITFET™ 1 550 0.7 550 8 – 36 1.5 SOT223 BTS3408G HITFET™ 2 550 0.55 800 8 – 36 1.5 PG-DSO-8 BTS3800SL HITFET™ 1 800 0.35 65 8 – 28 1.5 SCT595 1) Production release in 2015 www.infineon.com/hitfet 43 Product Solutions Interface PROFET™ High-Side Drivers Protected High-Side Switches Our PROFET™ high-side switches sit between the supply and load in order to control the application. These high-side switches deliver a broad range of smart features, including various protective and diagnostic functions. Since PROFET™ devices can manage all kinds of resistive, capacitive and inductive loads, they can be used across a huge variety of industrial applications. Key Features RoHS compliance Very low stand-by current ESD protection, optimized EMC PWM capability Very low power DMOS leakage current in OFF 3.3V and 5V compatible logic inputs Protection features: load dump, current limitation, thermal shutdown, loss of ground/battery protection, stable behavior at undervoltage, overvoltage, reverse polarity Key Benefits Diagnostic features: open-load in ON- and OFF state, short- Complete, built-in protection circuit to battery and ground, overtemperature sense Flexible design for all kinds of resistive, capacitive and Diagnosis: digital or as proportional load current sense inductive loads Block Diagram Load Current Sense Internal Power Supply IN SP SEN or CLA GND 44 RGND Vbb Gate Control & Charge Pump Logic Open Load Detection ESD Protection Clamp for Inductive Load Temperature Sensor Multi Step Load Current Limitation OUT Product Solutions Interface Product Portfolio Product Type Product Family Number of RDS(on) Channels (typ) [mΩ] Nominal EAS Load Current [A] [mJ] Recommended IL(SC) Operating (typ) Voltage Range [V] [A] Diagnosis Package N/A, Digital, Current Sense ITS4060S-SJ-N Industrial PROFET™ 1 50 3.1 900 @1.5A 5.0 … 34.0 17.0 N/A PG-DSO-8 ITS4100S-SJ-N Industrial PROFET™ 1 70 2.4 870 @ 1.0A 5.0 … 34.0 10.0 N/A PG-DSO-8 ITS4200S-ME-O Industrial PROFET™ 1 150 1.1 700 @ 0.5A 11.0 … 45.0 3.0 N/A PG-SOT223-4 ITS4141D Industrial PROFET™ 1 150 1.1 12,000 @ 0.5A 11.0 … 45.0 3.0 N/A PG-TO252-5 ITS4200S-SJ-D Industrial PROFET™ 1 150 1.7 125 @ 1.0A 6.0 … 52.0 6.5 Digital PG-DSO-8 ITS4200S-ME-P Industrial PROFET™ 1 150 2.2 160 @ 1.0A 11.0 … 45.0 3.0 N/A PG-SOT223-4 ITS4200S-ME-N Industrial PROFET™ 1 160 1.2 500 @ 0.5A 5.0 … 35.0 1.5 N/A PG-DSO-8 ISP752T Industrial PROFET™ 1 200 1.7 125 @ 1.0A 6.0 … 52.0 6.5 N/A PG-DSO-8 BTT6200-1EJA PROFET™+ 24V 1 200 1.5 20 @ 1.0A 5.0 … 36.0 9 Current Sense PG-DSO-8 EP ITS4300S-SJ-D Industrial PROFET™ 1 250 0.8 800 @ 0.3A 5.0 … 34.0 1.2 Digital PG-DSO-8 ITS41K0S-ME-N Industrial PROFET™ 1 1000 0.55 1,000 @ 0.15A 5.0 … 34.0 0.9 N/A PG-SOT223-4 ITS5215L Industrial PROFET™ 2 90 2 x 2.0 178 @ 3.5A 5.5 … 40.0 15.0 Digital PG-DSO-12 BTT6100-2EKA PROFET™+ 24V 2 100 2 x 2.2 36 @ 1.5A 5.0 … 36.0 20 Current Sense PG-DSO-14 EP BTS723GW Classic PROFET™ 2 105 2 x 2.0 [email protected] 2.5A 7.0…58 9.0 Digital PG-DSO-14 ITS42K5D-LD-F Micro PROFET™ 2 2500 2 x 0.25 Freewheeling 4.5 …45V 600mA Digital PG-TSON-10 ITS724G Industrial PROFET™ 4 90 4 x 2.0 120 @ 3.3A 5.5 … 40.0 15.0 Digital PG-DSO-20 ITS716G Industrial PROFET™ 4 140 4 x 1.0 76 @ 2.3A 5.5 … 40.0 9.0 Digital PG-DSO-20 ITS711L1 Industrial PROFET™ 4 200 4 x 1.0A 150 @ 1.9A 5.0 … 35.0 7.5 Digital PG-DSO-20 BTT6200-4EMA PROFET™+ 24V 4 200 4 x 1.0A 20 @ 1.0A 5.0 … 36.0 9 Current Sense PG-SSOP-24 EP ITS42008-SB-D Industrial PROFET™ 8 200 8 x 0.6 10,000 @ 625mA 11.0 … 45.0 3.0 Digital PG-DSO-36 www.infineon.com/profet 45 Product Solutions Interface SPIDER Universal SPI Driver for Low-Current Loads Our SPIDER family offers a wide range of integrated smart multi-channel high- and low-side switches. The devices are designed to drive all kinds of low-current loads, such as relays, solenoids, unipolar stepper motors, valves and LEDs. Scalability across current capabilities and feature sets allows designers to create cost-optimized solutions for their individual designs. Comprehensive protection and safety features enable the devices to cope with harsh industrial conditions. This universal driver family is thus the perfect fit for a wide range of industrial applications, particularly in machine and process control. Key Features Key Benefits Complete, built-in protection and diagnostic functionality Cost-optimized, compact designs Flexible design for all kinds of low-current loads PWM capability via direct inputs 16-bit SPI for diagnostics and output control 4- and 8-channel devices available Fail safe mode, limp home (partly) Digital supply voltage compatible with 3.3V and 5V microcontrollers Small packages and footprint Protection features: short circuit, overload, overtemperature, reverse polarity, ESD Diagnostic features: latched diagnostic information via SPI register, overtemperature monitoring, overload detection in ON state, open load detection in OFF state Block Diagram (Example 8 Channel Low-Side) VDD RST Stand-by Control IN1 IN2 IN3 IN4 LHI Input Mux and Control CS SCLK SI SO SPI Diagnosis Register VDDA Control, Diagnostic and Protective Functions OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 Temperature Sensor Short Circuit Detection Gate Control Open Load Detection GND 46 Product Solutions Interface Product Portfolio Product Type HighSide Small LowHigh-Side Side Configurable RDS(0n) (typ) [Ω] IL (nom) [mA] Operating Range Limp (SC prot.) [V] Home Direct Inputs Package 4 PG-DSO-36 SPIDER LS TLE7230R 8 0.8 500 5.5 … 28 TLE7240SL 8 1.5 210 5.5 … 36 yes 4 PG-SSOP-24 TLE7243SL 8 1.2 260 5.5 … 36 yes 4 PG-SSOP-24 TLE7244SL 8 0.8 290 5.5 … 36 yes 4 PG-SSOP-24 TLE7231G 4 1.0 320 5.5 … 36 1 PG-DSO-14 TLE7233G 4 1.1 390 5.5 … 36 4 PG-SSOP-24 3 PG-SSOP-24 yes SPIDER HS/LS TLE7237SL 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 260 / 2 x 130 5.5 … 28 TLE7238SL 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 260 / 2 x 130 5.5 … 28 yes 2 PG-SSOP-24 TLE7239SL 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 260 / 2 x 130 4.0 … 28 yes 2 PG-SSOP-24 TLE7234SE 2 2 2 2 6 x 0.85 / 2 x 1.6 6 x 280 / 2 x 140 5.5 … 28 3 PG-DSO-20 TLE7235SE 2 2 2 2 6 x 0.85 / 2 x 1.6 6 x 280 / 2 x 140 5.5 … 28 yes 2 PG-DSO-20 TLE7236SE 2 2 2 2 6 x 0.85 / 2 x 1.6 6 x 280 / 2 x 140 4.0 … 28 yes 2 PG-DSO-20 TLE7234EM 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 350 / 2 x 175 5.5 … 28 3 PG-SSOP-24 EP TLE7235EM 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 350 / 2 x 175 5.5 … 28 yes 2 PG-SSOP-24 EP TLE7236EM 2 2 2 2 6 x 0.9 / 2 x 1.6 6 x 350 / 2 x 175 4.0 … 28 yes 2 PG-SSOP-24 EP Application Diagram +5V (e.g. fail safe supply) 100nF VBat +3.3V or +5V µC supply 100nF VDD Limp Home signal (e.g. WD out of SBC) LHI Limp Home circuit possibility to control OUT1-4 via inputs IN1-4 during malfunction of µC IN1 IN2 IN3 IN4 1kΩ VDDA VDDA OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 RST 10nF VCC Low-Side Gate Control µC XC2000 SPI GND VDD CS SCLK SO SI GND SPI I/O Register GND www.infineon.com/spider 47 Product Solutions Interface ISOFACE™ Galvanic Isolated High-Side Switches and Input ICs Our ISOFACE™ product family provides robust and intelligent galvanic isolation for industrial control applications such as programmable logic controllers, sensor input modules, control panels and general control equipment. The output switches are compact in design, enabling robust and reliable operation at low system cost. Ideal for high-speed applications, input ICs are equally robust, reliable and compact – also offering superior EMI robustness and diagnostics. ISOFACE ™ Reference Design with Microcontroller XMC Key Features Isolated Output Switches Key Benefits Isolated Output Switches Integrated galvanic isolation (500V) Robust and reliable design 8 channels (0.6 or 1.2A, each) Compact system solution Inductive load switching Lower system cost Diagnostic feedback (overtemperature, overload) Directly interfacing with all Serial and parallel MCU interface MPUs and MCUs Isolated Digital Input ICs Isolated Digital Input ICs Integrated galvanic isolation (500V) Robust and reliable design 8 channels (IEC Type 1/2/3) Compact system solution Up to 500kHz sampling speed High-speed applications Programmable input filters Superior EMI robustness Channel-specific diagnostics (wire-break, undervoltage) System status feedback Valuable maintenance support Block Diagram Isolated Output Switch VCC ISO1H81xG VCC VBB Vbb VCC Control Unit WR Parallel or D0 Serial Interface Transmission CS µC (i.e. XC166) OUT0 Transmission DIS Control & Protection Unit OUT1 Logic DIAG D7 DIAG OUT7 GND GNDCC GNDbb www.infineon.com/isoface 48 Product Solutions Interface Wireless Control Sub 1GHz RF Solutions We offer a comprehensive and complementary product portfolio of transmitter, receiver and transceiver products for the sub 1GHz frequency bands. Our offering extends from standard products for relatively simple application requirements to SmartLEWIS™ solutions for more complex system or performance demands. Our standard portfolio comprises the TDA71xx transmitter and the TDA72xx receiver and transceiver variants for ASK and FSK modulation, all offering different feature sets and frequencies (315, 434, 868 and 915MHz). Key Features Key Benefits Standard transmitter: Very low current consumption ASK/FSK transmitter family for low/high power, temperature range -40 ... +85°C Standard receiver: ASK/FSK receiver family, temperature range -40 ... +105°C, PG-TSSOP package Standard transceiver: ASK/FSK transceiver family, single-channel, temperature range -40 ... +85°C, PG-TSSOP package Low system costs: only a few external components required Dedicated product variants for industrial and consumer applications (TDA-7 series) to meet an optimal feature/cost ratio Complementary product portfolio (TDA/TDK-5 series) for the highest quality standards Suited to harsh environments with temperatures up to 125°C www.infineon.com/wirelesscontrol 49 Product Solutions Interface SmartLEWIS™ Family Smart Low Energy Wireless Systems SmartLEWIS™ stands for Smart Low Energy Wireless Systems. This family of next-generation wireless control products offers the highest level of integration and functionality to reduce system complexity and current consumption – the intelligent way. Key Features Key Benefits SmartLEWIS™ Tx: ASK/FSK transmitter, multi-channel, Highest integration and functionality multi-band, multi-power SmartLEWIS™ MCU: ASK/FSK transmitter family with embedded 8051 microcontroller, 125kHz LF receiver and 3-channel ADC, temperature range -40 ... + 125°C SmartLEWIS™ Rx+: High-sensitivity receiver family, single-/multi-channel, digital baseband with autonomous receive functionality and RF channel scanning, temperature range -40 ... +105°C SmartLEWIS™ TRx: High-sensitivity, multi-channel transceiver with digital baseband processing, up to +14dBm output power, wireless M bus support, temperature range -40 ... +110°C Very low current consumption Multi-protocol handling Low system costs – only a few external components required Only one device for all major frequency bands (315, 434, 868, 915MHz) Dedicated product variants for industrial and consumer applications (PMA-7 series) to meet an optimal feature/cost ratio Highest, automotive-proven, quality levels Block Diagram TDA5340 Opt. IF Filter Recovered Data & Clock Output RSSI TDA5340 RF In Ant. Switch LNA Digital Baseband - Data and clock recovery - Frame synchronization - Format decoding - Message ID screening - Polling timer unit Receiver - Internal or external IF filter - Single or double down conversion Rx Fractional-n Sigma-Delta PLL RF Out Tx Rx FIFO Tx Data Framing/Shaping PA Tx FIFO Oscillator XTal Voltage Supply 3V or 5V Tx Control I/F Rx Control I/F Peripheral Bus System Controller SPI Interface 4-wire SPI www.infineon.com/wirelesscontrol 50 Product Solutions Interface Current Sensors The Miniaturization Advantage TLI4970 is a high-precision current sensor based on our proven Hall technology. Its coreless concept supports the miniaturization trend defining today’s sensor designs. It is a fully digital solution with the added bonus of ease of use. There is no need for any external calibration or other parts (such as A/D converters, OP amps, reference voltage sources), reducing the overall implementation effort, PCB space and cost significantly. TLI4970 provides superior accuracy compared with existing open- or closed-loop systems with magnetic cores. It has additional functionality such as overcurrent detection and programmable filters, while offering a significantly smaller footprint and lower power consumption. Key applications include AC/DC inverters, DC/DC converters and PFC power supplies and drives. Key Features Key Benefits AC & DC measurement range up to ±50A Ideal for automation applications Highly accurate over temperature range and lifetime Plug and play solution – no external calibration needed (max. 1.0% (0 h), 1.6% (over lifetime) of indicated value) Much smaller footprint than existing solutions Low offset error Reduced implementation effort, PCB space and cost (max. 75mA over temperature and lifetime) High magnetic stray field suppression Fast overcurrent detection with configurable threshold Galvanic isolation up to 2.5kV max. rated isolation voltage (UL1577) 16 bit digital SPI output (13 bit current value) Small 7.0 x 7.0 mm SMD package Small package size and weight for SMD mounting Block Diagram TLI4970 IP+ Supply, Biasing, Reset, Oscillator, Bandgap VDD GND EEPROM Diff. Hall Galvanic Separation ADC CS T S MUX ADC DSP Digital IF SCLK DOUT DAC IP- FOC Fast Overcurrent Detection (open-drain) www.infineon.com/tli4970 51 Product Solutions Interface Hall-Effect Switches The Energy-Saving Option with Excellent Accuracy and Robustness Our portfolio of Hall switches comprises unipolar and omnipolar switches, bipolar latches and double Hall switches. They are suited to a wide range of applications such as position sensing, index counting, BLDC motor control, etc. These devices show excellent accuracy and robustness against electrical disturbances and are available in a variety of packages. Key Features Key Benefits Operating supply voltage 3 – 32V Reduction of system power consumption Reverse polarity protection (-18V) Reduced system size Overvoltage capability up to 42V without external resistor Removal of protection devices Low current consumption (1.6mA) Reliable system operation Active error compensation Increased motor efficiency High ESD performance, up to 7kV HBM Broad range of switching thresholds available Small SMD package SOT23 for all applications Special industrial versions available Leaded package Hall Switch Types Latch (Bipolar) Uni-/Omnipolar Switches Double Hall Speed/Direction Switches N S N S N Rotation Direction S S N B Main application: BLDC Motor Commutation B Proximity Detection S Speed N Direction t Branded Side of IC Absolute position sensing in power operated systems www.infineon.com/hall-switches 52 Product Solutions Interface Linear Hall Sensors Highly Accurate Angular and Linear Position Measurement All products of our linear Hall family measure the vertical component of a magnetic field. The output signal is directly proportional to the sensed magnetic field. Building on these principles, our TLE499x family of linear Hall ICs has been designed specifically to meet the requirements of highly accurate angular and linear position measurement. They are also suited to current measurement applications. Key Features Key Benefits Single supply voltage 4.5 – 5.5V Wear-free operation Temperature range -40 ... +150°C Highly accurate contactless position sensing Linear ratiometric output between -200mT and +200mT In-system calibration within three ranges Sensitivity offset and clamping programmable Digital temperature and stress compensation High-voltage capability and reverse polarity protection Low drift of output signal over temperature and lifetime 20-bit digital signal processing Analog and digital interfaces Flexible system implementation Block Diagram TLE4998 VDD Bias Interface Supply Spinning Hall EEPROM OUT A D Digital Signal Processing Temperature Sense A OUT Generation D ROM GND www.infineon.com/magnetic-sensors 53 Product Solutions Interface Speed Sensors Excellent Price/Performance in Automation Sensing Our high-quality differential Hall-based magnetic sensor portfolio is extremely broad to ensure the perfect fit for all automation applications. These Hall sensors use a ferromagnetic gear tooth or encoder structure to measure linear or rotational speed and position. The ferromagnetic structure allows our contactless sensors to measure the vertical magnetic field that a component generates with high accuracy. Different switching algorithms ensure the optimal performance for individual automation applications. Highlights of our Hall offering include integrated capacitors (C types) for high EMC, ESD and temperature robustness. TLE4941plusC is the sensor of choice for many standard automation applications. Special versions with additional vibration suppression features are available to enable precise measurements even in the harshest industrial environments (e.g. TLE4957, TLE4951/54). We also offer an integrated Back Bias (iBB) magnet package option (e.g. TLE4941plusCB) for magnetic sensor designs where a back bias magnet is required for the magnetic field (e.g. in gear wheel applications or applications using similar ferromagnetic gear tooth structures). Key Features Key Benefits Highly accurate speed measurements over large Highly robust operating air gaps and broad frequency ranges Use of the common 2-wire current interface Broad operating temperature range (TA = -40°C ... +150°C) Options with high protection against reverse voltage, short circuit and overtemperature Option to use the innovative iBB package solution AEC-Q100-qualified Excellent price/performance Strong EMC robustness Good sensing performance High sensitivity Typical Application of a Magnetic Differential Sensor (e.g. TLE4941plusC/B) Magnet Wheel Gear Wheel Hall Sensor 1 Signal Processing Circuitry S (N) Hall Sensor 2 Hall Sensor 1 Permanent Magnet Signal Processing Circuitry Hall Sensor 2 N (S) Back Bias Magnet Encoder Wheels www.infineon.com/magnetic-sensors 54 Product Solutions Interface Integrated Pressure Sensor ICs Design Flexibility to Meet Evolving Market Demands Our integrated pressure sensor family uses unique multiple surface micromachined capacitive sensor cell arrays. These support powerful self-diagnosis features such as mechanical and electrical verification of sensor functionality. Monolithic integration onto a single chip enables state-of-the-art production using a standard automotive-qualified BiCMOS process. Sophisticated sensor cell design combined with fully digital signal conditioning and processing based on high-volume production flows ensures superior quality over the entire lifecycle. These pressure sensors are ideal for a wide range of applications across industry, including industrial and process controls, gas flow meters, level meters, barometric pressure meters, altitude compensation systems, weather stations, engine management systems and medical equipment. The analog and digital interfaces, SPI (Serial Peripheral Interface) included, provide customers with a high degree of design flexibility to meet evolving market demands. Key Features Key Benefits Wide pressure range up to 400kPa High measurement accuracy Wide temperature range from -40°C ... +150°C Low lifetime drift over a wide Outstanding accuracy of up to ±0.3kPa temperature range Support for state-of-the-art production Support for different protocols Options for customized transfer functions for certain sensors Patented built-in diagnosis for pressure cells and circuitry SMD package (DSOF, 8 pin) Product Portfolio Product Type1) Pressure Range Max. Accuracy [kPa] [kPa] Max. Operating Temperature [°C] Interface KP21x 10 … 115 1.0 140 Analog KP22x 10 … 400 1.8 140 Analog KP23x 40 … 165 1.0 125 Analog KP25x2) 40 … 165 1.0 125 SPI KP253HP 40 … 165 0.3 125 SPI 1) x in product: indicates product family with multiple transfer functions available within the family 2) Except KP253HP www.infineon.com/pressure 55 Product Solutions Interface iGMR Angle Sensors Compact Designs in Small Outline Packages Our angle sensor family is based on integrated Giant Magneto Resistance (iGMR) technology. These sensors detect the orientation of an applied magnetic field by measuring sine and cosine angle components with monolithically integrated magneto-resistive elements. This allows them to easily determine the absolute orientation of the magnetic field between 0° and 360°. Data processing and communication interfaces are integrated on the same silicon chip as the sensing elements, allowing a compact design using small outline packages. Our angle sensor family offers a broad variety of communication interfaces, as well as different levels of data processing and self-test capabilities. Ideal for functional safety-critical applications, our TLE5309D combines a TLE5009 iGMR with a TLE5109 iAMR chip, whereas the TLE5012BD combines two TLE5012B iGMR in one fully integrated dual-sensor package. Target applications of our iGMR sensors include contactless angle measurement, rotational position measurement, steering angle measurement and BLDC motor commutation. Features Integrated GMR (iGMR) technology On-chip temperature compensation of amplitude and offset 0 – 360° angle measurement with sine and cosine bridge Temperature range -40°C ... +150°C Supply voltage 3.3 or 5.0V PG-DSO-8 package Product Portfolio Sales Name Description Interface Order Code TLE5009 E1000 VDD: 3.3V; static offset compensation Analog SP000912764 TLE5009 E1010 VDD: 3.3V; TCO1) Analog SP000912774 TLE5009 E2000 VDD: 5.0V; static offset compensation Analog SP000912760 TLE5009 E2010 VDD: 5.0V; TCO1) Analog SP000912770 TLE5012B E1000 VDD: 3.3V & 5.0V SPI2), IIF3) SP001166960 TLE5012B E3005 VDD: 3.3V & 5.0V SPI2), HSM4) SP001166964 TLE5012B E5000 VDD: 3.3V & 5.0V SPI2), PWM5) SP001166968 TLE5012B E9000 VDD: 3.3V & 5.0V SPI2), SPC6) SP001166998 TLE5012BD E1200 VDD: 3.3V & 5.0V DualDie SPI2), IIF3) SP001205296 TLE5012BD E9200 VDD: 3.3V & 5.0V DualDie SPI , SPC SP001205300 TLE5309D E1211 VDD: 3.3V (AMR & GMR), TCO1), DualDie Analog SP001191262 TLE5309D E2211 VDD: 5.0V (AMR & GMR), TCO1), DualDie Analog SP001191266 TLE5309D E5201 VDD: 5.0V (AMR) & 3.3V (GMR), DualDie Analog SP001145340 TLE5009 EVALKIT Evaluation Kit containing interface box (PGSISI-2) and Evaluation Board incl. magnet and software SP000871462 TLE5009 EVALBOARD Evaluation Board incl. magnet and software (interface box is not included, but is required for operation) SP000871466 TLE5012B EVALKIT Evaluation Kit containing interface box (PGSISI-2) and Evaluation Board incl. magnet and software SP000912902 TLE5012B EVALBOARD Evaluation Board incl. magnet and software (interface box is not included, but is required for operation) SP000912898 1) TCO = Temperature Compensation 2) SPI = Serial Peripheral Interface 3) IIF = Incremental Interface 56 4) HSM = Hall Switch Mode 5) PWM = Pulse Width Modulation 6) SPC = Short PWM Code 2) 6) Product Solutions Interface Benefits TLE5009 The analog sensor output signals can be directly connected to the analog inputs of a microcontroller The output signals are offset- and temperaturecompensated Output signals can be read as single-ended or differential voltage Signal amplitudes are independent from supply voltage variations Block Diagram TLE5009 VDD COS_P DC-Offset & Fuses Amplifier X-GMR COS_N PMU & Temperature Compensation VGMR SIN_P Amplifier Y-GMR SIN_N GND1 GND2 Benefits TLE5012B Block Diagram TLE5012B Different digital interfaces available (SPI, PWM, HSM, IIF, SPC) Integrated angle calculation based on sine and cosine values Increased accuracy with auto-calibration functionality Prediction of output signal to compensate latency High-speed angle update rate up to 23.4kHz VDD VRG X GMR Y GMR VRA SD-ADC SD-ADC VRD OSC TLE5012B PLL CSQ Digital Signal Processing CCU CORDIC Temp. SD-ADC CLK FUSES SSC Interface SCK DATA Incremental IF PWM HSM SPC IFA IFB GND www.infineon.com/angle-sensors 57 Product Solutions Interface Constant Current Relay Drivers (CCRD) Smooth Migration Path to All-Electronic Switch Designs Once mechanical relay switches and electromagnetic actuators (also known as solenoids) are turned on, current must continuously flow through their coils (hold current) to keep them closed. Our CCRD devices can reduce the hold current down to the necessary minimum to keep the coil closed. They thus help to cut overall current consumption. The coil current remains stable regardless of changes to the input voltage. With input voltages up to 30V, our CCRD devices are ideally suited to harsh industrial environments. Available in a PG-DSO-8 exposed pad package, they can be mounted on a PCB inside a relay or on an existing system PCB with either a high- or low-side switch, reducing designin time and providing a migration path to an all-electronic switch design. They can drive relays with typical system voltages of 12V with a coil resistance of up to 180Ω. Typical applications include electromagnetic actuators in electric door locks, appliances, hydraulic valves, speaker coils, power relays, pinball/pachinko machines and manufacturing/automation systems. Key Features High coil activation current Low hold current Suited to both low- and high-side switches Coil current not affected by input voltage variations Thermally enhanced PG-DSO-8 exposed pad package No EMI, unlike PWM relay drivers Support for freewheeling diode signal path for energy absorption when switching off Key Benefits CCRD Supplied by External Source costs of system Significant reduction of power/heat dissipation Increased packing density in relay packs CCRD Supplied by Freewheeling Resistor High-Side Switch High-Side Switch Input Voltage Relay Freewheeling Resistor RS S Fwd Ctrl Biasing Bandgap RF D Delay Input Voltage Relay Freewheeling Resistor LR IN Driver CD Reduced energy consumption and operational IFX52001EJ Constant Current Relay Driver CGND Biasing Bandgap CS S Fwd Ctrl IN Driver D CD LR RF Delay IFX52001EJ Constant Current Relay Driver CGND www.infineon.com/ccrd 58 Product Solutions Security and Protection Product Solutions Security and Protection OPTIGA™ TPM (Trusted Platform Module) Standardized Security Solution with Broad Variety of Security Functions Our OPTIGA™ TPM security controllers protect the integrity and authenticity of communication devices and systems in automation networks. With a secured key store and support for a variety of encryption algorithms, OPTIGA™ TPM provides robust protection for critical data. TPM can be used to provide machine components and devices with a unique and secured identifier. Certified to Common Criteria standards, TPM is a hardware-based solution supporting the highest security demands with the added bonus of flexible integration. A standardized, turnkey design enables existing concepts to be reused while minimizing security risks. A turnkey solution for embedded security applications, TPM can be easily integrated using the SPI, I²C or LPC interface. Key Features Extended temperature range (-40 ... +85°C) for a variety of applications Secured key storage Support for latest symmetric & asymmetric crypto algorithms (e.g. RSA & ECC, SHA-2) Built-in True Random Number Generator (TRNG) Common Criteria security certification Flexible integration with SPI, I2C or LPC interface Key Benefits TPM 2.0 supports crypto agility for extended security lifetime Easy integration into all platform architectures based on standards Standardized, turnkey, high-security product Strong protection of machine & device identities Block Diagram Basic Owner/User Password Password Protection Endorsement Certificate SRK Storage Root Key RSA 2048bit Platform Configuration Registers (160bit #) PCR 0 PCR 1 Attestation Identity Keys (AIK) NV Space PCR 2 … PCR 23 TickCounter True Random Number Generator Sensors Memory Encryption > 50 Security Features Trusted Platform Module (TPM) www.infineon.com/tpm 59 Product Solutions Security and Protection OPTIGA™ Trust Authentication Solution for Increased Security at Lower System Costs OPTIGA™ Trust SLS 10ERE is our robust cryptographic solution, designed to assist system manufacturers in proving the authenticity, integrity and safety of their original products. As a turnkey solution, it provides enhanced protection against aftermarket counterfeit replacements and helps to maintain OEM authenticity. With its innovative asymmetric cryptography approach, it significantly reduces system costs while increasing the overall security of your solution. OPTIGA™ SLS 10ERE is designed for embedded systems requiring strong authentication features. It protects the systems against unauthorized accessories, replacement parts or disposables. Its data authentication feature offers protection against unauthorized re-use or re-provisioning of original parts. Key Features Key Benefits Strong asymmetric cryptography with ECC 163 bit key length Increased security with asymmetric Turnkey solution including host-side software for easy integration cryptography and chip-individual keys Easy integration based on full turnkey design Lower system costs due to single chip solution 3.5kbit user NVM Easy to implement single-wire host interface Unique asymmetric key pair per chip Size-optimized PG-USON-3 package (2 x 3mm) Infineon OPTIGA™ Trust Typical SWI Application Host System Accessory OPTIGA™ Trust Library Accessory Host Controller Host Controller SWI Library Host System Single-Wire Interface Host/Accessory Interface SLS 10ERE SLS 10ERE Accessory Controller Single-Wire Interface OPTIGA™ Trust Library Accessory Controller Host/Accessory Interface SWI Library www.infineon.com/optiga-trust 60 Product Solutions Security and Protection OPTIGA™ Trust P Programmable Device Authentication Solution OPTIGA™ Trust P SLJ 52ACA is a high-security, feature-rich member of the OPTIGA™ Trust Authentication product family. As a fully programmable chip, it provides a highly flexible and secure solution for a full range of key functions such as authentication, secured updates, key generation and storage, protected storage, memory integrity, secured boot, and access control management. The OPTIGA™ Trust P is a trust anchor for embedded systems. As a hardware security microcontroller, it provides advanced and efficient protection against sidechannel, fault-induction and physical attacks. It also provides physical separation and the option of access controls and memory integrity checks to protect against software attacks. Key Features Key Benefits Common Criteria EAL 5+ (high) certification Secured and certified solution Programmable JavaCard operating system Programmable solution with 150KB of user memory reference applets to simplify customizations and integration Protection of system integrity, communication and data Reference applets for a wide variety of use cases Host-side support Block Diagram OPTIGA™ Trust P Application Host Program Application OPTIGA™ Trust P Application Host Controller JavaCard Operating System APDU API APDU Protocol LIB UART Input Protocol LIB UART Output RSA LIB SHA LIB Other LIB ISO 7816 ISO 7816 www.infineon.com/optiga-trust 61 Product Solutions Security and Protection SLM 97 Machine-to-Machine (M2M) Portfolio Enabling Cellular Connectivity for the Next Industrial Revolution Secure connectivity across cellular networks is a key success factor and enabler of the next industrial revolution, where intelligent machines, systems and networks are capable of exchanging information to manage complete industrial processes (referred to as Industry 4.0 in Germany). In order to enable secure and reliable cellular connectivity in industrial environments, we have developed the SLM 97 family of industrial-grade security controllers, optimized for operation under difficult environmental and usage conditions. The SLM 97 product family fully complies with the Embedded SIM specifications according to ETSI and GSMA, increasing flexibility and simplifying the deployment of new M2M solutions. Key Features Key Benefits Industrial-grade qualification (JEDEC) High quality and strong security to Extended temperature range: -40 ... 105°C Wide range of interfaces: ISO 7816, SWP, USB, I C, SPI 2 Standard embedded M2M delivery form: MFF2 Symmetric and asymmetric crypto processors Common Criteria EAL 5+ (high) enable reliable cellular connectivity for mission critical applications Implementation flexibility across all M2M vertical applications thanks to large size and wide range of interfaces www.infineon.com/ccs 62 Ask Infineon. Get connected with the answers. Infineon offers its toll-free 0800/4001 service hotline as one central number, available 24/7 in English, Mandarin and German. Our global connection service goes way beyond standard switchboard services by offering qualified support on the phone. Call us! Germany ................... 0800 951 951 951 (German/English) China, mainland ....... 4001 200 951 (Mandarin/English) India .......................... 000 800 4402 951 (English) USA ............................ 1-866 951 9519 (English/German) Other countries ......... 00* 800 951 951 951 (English/German) 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 Infineon Distribution Partners and Sales Offices: www.infineon.com/WhereToBuy Stay connected www.facebook.com/infineon Mobile Product Catalog Mobile app for iOS and Android. www.google.com/+infineon www.twitter.com/infineon www.infineon.com/linkedin www.infineon.com/xing www.youtube.com/infineon Published by Infineon Technologies AG 85579 Neubiberg, Germany © 2014 Infineon Technologies AG. All Rights Reserved. Visit us: www.infineon.com Order Number: B179-I0061-V1-7600-EU-EC-P Date: 11 / 2014 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. 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