Industrial Automation Products for Energy-Efficient Applications [ www.infineon.com ] Industrial Automation These days, it’s hard to imagine the production landscape without industrial automation systems. Growing requirements of high product quality, paired with expectations of equally high reliability in high-volume production, mean that the scale of industrial automation will continue to grow. Much of what was previously produced by human hand can no longer be achieved in terms of cost and quality. Computer-controlled robots, which complete the same process in continuously high quality and controllable speeds, are used in many points of industrial production as the basis for successful sales of high-quality products on world markets. The growing demand for automated systems has increasingly shifted focus to optimization in the areas of security features, efficiency and low power consumption. To meet these demands, Infineon Technologies offers a diverse range of products and solutions. We would like to present an overview of these in this brochure. The industrial automation application as we see it is presented in the following diagram: The automation pyramid illustrates the three main levels as well as the intercommunication between them. Oﬃce Network (mainly Ethernet based) Supervisor Level (e.g. IPC) Control Level (e.g., PLC) Factory Network (Field Bus based) Field Level (e.g., Peripheral Module) Sensor, Actuator Interface (mainly Point-to-Point) 2 Industrial Automation Overview Supervisor Level Industrial Power Supply Industrial PC/Panel PC Security and Protection HMI WLAN Industrial Ethernet AC/DC Trusted Computing Control Level PLC HMI Field Bus (CAN) Product Authentication DC/DC Safety (SIL) Field Bus UPS Access Control Field Level Micro PLC Motor Control Sensors Actuator Drivers IO-Link Wireless Control 3 4 Contents Automation Hierarchy and Applications 6 Supervisor Level 6 Control Level 10 Field Level 14 Industrial Power Supply 20 Security and Protection 21 Products and Solutions 22 Power Supply 22 Control 28 Interface 32 5 Automation Hierarchy and Applications Automation Hierarchy and Applications Supervisor Level Within this level there are mainly PC-based systems used (so-called industrial PC, available as desktop, rack-mounted and panel PCs), equipped with standard OS (e.g., Windows-embedded) and supplier-specific industrial process-control software for process parameterization and visualization. These systems in general intercommunicate within an office network based on a Gbit LAN or higher bandwidth backbone. Also wireless topologies (WLAN) are implemented with industrial enhancement (e.g. protection class of IP65 and higher). There are less real-time requirements on communication since time-critical control processes are usually running on a PLC architecture (see control level). The supervisory level usually doesn’t contain any control architecture such as PLCs as well as field bus communication devices (e.g. Interbus, Profibus). For data-safety reasons (avoiding data loss) there are usually redundant uninterruptable power supplies (UPS) installed, which communicate with the main system (e.g. Ethernet-based) and take over the emergency power supply to avoid data corruption and loss. Core Applications for Supervisor Level Industrial PC 6 HMI WLAN Supervisor Level Industrial PC Industrial PCs (IPC) are mainly used for process control (software-based applications) and meshed via standard Ethernet using industrial Ethernet switches. Mobile PC applications in industrial environments are used as programming units or for diagnostic purposes. The main criteria for IPCs are: Meet industrial requirements (e.g. protection class, ambient temperature) Customized enclosure (e.g. 19” rack-mountable, boxed PC, panel PC, mobile) Compatibility to standard PC architecture (e.g. OS, applications) Continuous operation (24 h) Low power dissipation by CPU and power supply (operation without fan mandatory) Hardware access protection (e.g. ID card) Industrial field bus interfaces (e.g. RS-485-based, Ethernet-based) Infineon offers a wide portfolio of energy-efficient power semiconductors (CoolMOS™, OptiMOS™), which meet enhanced low-power design requirements. Also dedicated CPU and memory power supply devices are available (compliant to Intel DrMOS specification). Due to its market-leading position in the security and identification areas, Infineon also provides tailored solutions for trusted computing (TPM) as well as identification systems (contact-based and contactless chip card ICs). For interface protection there is a wide range of RF and protection devices as well as components for wireless applications available (LNA, RF transistors). Power Supply UPS – IGBT – High-Voltage MOSFET – Low-Voltage MOSFET – Gate Driver – SiC – Power Control ICs – Microcontroller AC/DC – IGBT – High-Voltage MOSFET – Low-Voltage MOSFET – Gate Driver – SiC – Power Control ICs Control Interface Memory ESD/EMI Protection CPU Subsystem Identification Trusted Computing WLAN – TVS Diodes – EMI Filtering – Chip Card & Security ICs CPU Power Supply – DrMOS – DC/DC Converter – Linear Voltage Regulators DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET LED Backlight Control – 8-bit Microcontrollers – LED Drivers – Trusted Platform Module – RF Transistors – Low-Noise Amplifier ISOFACE™ – Isolated Switch for Automation – Digital Input Interface for Automation For detailed product information please see the chapter Products and Solutions. 7 Human Machine Interface (HMI) HMI products and systems like Text Displays, Graphic Panels, and Panel PCs are demanding various requirements to core semiconductor products such as, for example, Microcontrollers, Sensors, and power and protection devices. The goal of Human-Machine-Interaction engineering is to generate a user interface that makes it easy, efficient, and enjoyable to operate equipment in order to produce optimum results. The following block diagram shows our best-in-class solutions for HMI applications. Power Supply Control ESD/EMI Protection LED Backlight Control – 8-bit Microcontrollers – LED Drivers Interface – TVS Diodes – EMI Filtering Microcontroller (Connectivity) – 8-bit – 16-bit DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Identification – Chip Card & Security ICs WLAN – RF Transistors – Low-Noise Amplifier Wireless Control – Wireless Control ICs For detailed product information please see the chapter Products and Solutions. 8 Supervisor Level WLAN Application Infineon offers a broad portfolio of RF discrete components like transistors, diodes, MMICs, and switches, as well as ESD protection devices for RF and digital interfaces. With our strong RF product portfolio we address many wireless, consumer, and ISM applications requiring best performance. Our low-noise amplifiers for WLAN applications are the best choice for improving your system sensitivity and extend the range of coverage of your system. In addition to our LNAs, our high-speed ESD low-capacitance protection devices offer the best protection of your RF front-end systems against ESD hazards with no degradation of system performance. Interface Control RF Module 2.4GHz Antenna Diversity 5GHz DPDT PA 2.4GHz Transceiver & Baseband Chip set 5GHz LNA 2.4GHz: MMIC: BGA 622L7, RF Transistor: BFP 640/640F/620/620F, BFP 700 series 5GHZ: RF Transistor: BFP 640/640F/620/620F, BFP 700 series 2.4 & 5GHz: MMIC: T1515 & BGA 700L16 For detailed product information please see the chapter Products and Solutions. 9 Control Level This level describes the automation systems (programmable logic controller – PLC) where automation programs are executed. Systems related to this level require high real-time capability (isochronous real-time Ethernet) and are based on a special controller architecture with its own proprietary OS running on it. Since there are high real-time requirements on intercommunication, there are real-time compliant field bus protocols implemented. PLC systems are mainly modular populated to allow customized and automation process-optimized configurations (modular I/O-interface boxes, communication interfaces, function modules, etc. ). For enlargement of the operation range there are so-called peripheral controllers installed, which communicate to the (main) PLC via field bus ; these systems also take over some pre-processing of I/O data to reduce the working load of the main PLC. PLC systems are mainly supplied by a 24V DC industrial power-supply network or directly from a mains power line using an industrial power supply (modular or integrated). Core Applications of Control Level PLC 10 HMI Field Bus (CAN) Control Level Programmable Logic Controller (PLC) Industrial programmable logic controllers (PLC) describe the computing unit of any industrial automation system and therefore need to meet several challenging requirements such as high reliability, environmental noise and influence immunity, and also enhanced protection classes (e.g. water-resistant and dust-sealed). Further needs are continuous operation and availability over a wide environmental temperature range as well as real-time operation capability, and security and safety enhancements. Due to lengthy experience in several application fields, Infineon products are predestinated to meet several of these challenging requirements. Your PLC application will benefit from these outstanding product features: 8/16/32-bit microcontroller portfolio offering enhanced real-time and safety features protected high- and low-side switches with optional isolation and enhanced diagnostics Leading experience in security products and brand protection Power-supply solutions meeting even automotive requirements Comprehensive protection solutions for interfacing units in harsh industrial environments Best-in-class Power Supply Control Interface Digital I/O – Low-Side Switches – High-SideSwitches – Isolated High-Side Switches – Isolated Digital Interface – ESD/EMI Protection IO-Link – 16-bit Microcontroller – IO-Link Master SW-Stack DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Microcontroller – 8-bit – 16-bit – 32-bit MC Companion IC – AD Converter – ESD/EMI Protection Transceiver Authentication – Industrial CAN – ESD/EMI Protection – Authentication IC (ORIGA) Function Module – RFID For detailed product information please see the chapter Products and Solutions. 11 Human Machine Interface (HMI) HMI products and systems like Text Displays, Graphic Panels, and Panel PCs are demanding various requirements to core semiconductor products such as, for example, Microcontrollers, Sensors, and power and protection devices. The goal of Human-Machine-Interaction engineering is to generate a user interface that makes it easy, efficient, and enjoyable to operate equipment in order to produce optimum results. The following block diagram shows our best-in-class solutions for HMI applications. Power Supply Control ESD/EMI Protection LED Backlight Control – 8-bit Microcontrollers – LED Drivers Interface – TVS Diodes – EMI Filtering Microcontroller (Connectivity) – 8-bit – 16-bit DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Identification – Chip Card & Security ICs WLAN – RF Transistors – Low-Noise Amplifier Wireless Control – Wireless Control ICs For detailed product information please see the chapter Products and Solutions. 12 Control Level Field Bus (CAN) Infineon offers a variety of microcontrollers from low-cost to high-end and transceiver devices featuring CAN as field bus. Their portfolio covers a wide range of microcontroller solutions for several automation applications. Our highly energy-efficient transceivers are preparing for the future and are the right fit to our microcontrollers. In addition, we offer a CANopen implementation from one of our partners, which will ease your start to implement CANopen-based applications. Control Microcontroller – 8-bit – 16-bit Interface Transceiver – Industrial CAN ESD/EMI Protection – TVS Diodes – EMI Filtering For detailed product information please see the chapter Products and Solutions. 13 Field Level The field level describes all terminal equipment such as sensors (optical, magnetic, thermal, etc.) and actuators (magnetic valves, power switches, motor starts, etc.) collaborating with a peripheral PLC or remote I/O system, which offers a kind of preprocessing of collected data, connected to the main PLC via field bus . Communication between a peripheral PLC and the end device is usually a point-to-point connection. There are also “intelligent” communication standards (e.g. IO-Link) established, which provide, in addition, remote parameterization and diagnostics of the end device. Also wireless solutions (RFID, wireless sensor networks using IEEE 802.15.4 topology) are used for special cases. Some field-level devices (e.g. vision sensors) still require interfacing with higher bandwidth; for this purpose also fieldbus-based sensors are used. All items within this level are usually fed by a 24V DC industrial power supply or battery-powered (wireless sensors). So-called Micro PLCs complete this level mainly used for isolated applications without networked communication channels (e.g. house installation, vendor machine). Core Applications of Field Level Micro PLC 14 Motor Control Sensors Actuator Drivers IO-Link Field Level Micro PLC There are several aspects to deviate from the standard PLC concept for low-end applications, such as simple house-automation control units or electronic points of sale (ePOS). In this area, the main requirements are reductions in size, low-cost, ease of use, compactness and even more power efficiency. High availability, networking, integrated isolation, and safety aspects are less required. Usually these systems are less modular but power dissipation and power loss will become more of an issue. Due to Infineon’s long experience in the OptiMOS™ product family, there are MOSFET solutions with lowest RDS(on) and best-in-class FOM values available. The Infineon 8-bit FLASH-microcontroller portfolio is designed to meet additional requirements, such as interfacing to a touchscreen or driving LEDs by integrated high-current ports. For standard output interfaces, Infineon offers a wide portfolio of low- and high-side switches covering several output-current requirements. Power Supply Control Interface Digital I/O – Low-Side Switches – High-SideSwitches – Isolated High-Side Switches – Isolated Digital Interface – ESD/EMI Protection AC/DC – High-Voltage MOSFET – Low-Voltage MOSFET – Gate Driver – Power Control ICs Microcontroller (incl. Display Interface, Touch) – 8-bit – 16-bit – 32-bit DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET IO-Link – 16-bit Microcontroller – IO-Link Master SW-Stack MC Companion IC – AD Converter – ESD/EMI Protection Transceiver – Industrial CAN – ESD/EMI Protection Function Module – RFID For detailed product information please see the chapter Products and Solutions. 15 Motor Control and Drives Infineon offers the industry’s most cost-competitive semiconductor system solutions and the highest-quality semiconductor components for motor control and drive applications. Our portfolio 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 synchronous motors, through induction and stepper motors, to switched reluctance motors. Power Supply AC/DC – IGBT – High-Voltage MOSFET – Low-Voltage MOSFET – Gate Driver – SiC – Power Control ICs Control Microcontroller – 8-bit – 16-bit – 32-bit Gate Driver – Low-Voltage Gate Driver – High-Voltage Gate Driver Power Stage – High-Voltage MOSFET – Low-Voltage MOSFET – IGBT – Power Modules Integrated Motor Drivers DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Sensors – Hall Switches – Linear Hall Sensors User Interface – 8-bit Microcontroller – Industrial CAN – LED Drivers For detailed product information please see the chapter Products and Solutions. 16 Interface Field Level Sensors Automation equipment is becoming increasingly powerful and specifications are getting even more complex for industrial and consumer applications. This calls for more intelligent sensors with high accuracy and fast data transfer, e.g. for contactless control systems. Typical application fields for semiconductor sensors are contactless switching, index counting, position detection, current measurement, or pressure detection. Thanks to Infineon´s more than 30 years of worldwide electronic experience, we have a rich portfolio of smart sensors. Today, we supply pressure and magnetic sensors for many automation systems. With our innovative solutions we support the realization of the energy-efficient solutions of our customers. Power Supply DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Control Microcontroller – 8-bit – 16-bit Interface Sensor IC – Hall Switches – Linear Hall Sensors – GMR-based Angle Sensors – Pressure Sensors Inductive Proximity Digital Input Interface For detailed product information please see the chapter Products and Solutions. 17 Actuator Drivers Industrial PLCs systems finally drive several kind of (inductive) loads, such as relays, magnetic valves, lamp, and resistive loads, but also more complex devices like motors or loads, which require limitation of on-state current (e.g. contactors). For this purpose an extensive portfolio of power semiconductors is required to meet all these requirements. Infineon is well fitted to meet all these requirements. For PWM generation Infineon offers an extensive product portfolio of microcontrollers with enhanced PWM functionality (Capture Compare Unit) but also the driver output stage (half-bridge, bridge motor drivers, discrete MOSFET, IGBTs, and IGBT modules). Control Interface Smart Power Switches – Isolated High-Side Switches – High-Side Switches – Low-Side Switches – Multi-Channel Switches Microcontroller – 8-bit – 16-bit Switches – High-Voltage MOSFET – Low-Voltage MOSFET – IGBT Embedded Power – Relais Driver with Embedded MCU For detailed product information please see the chapter Products and Solutions. 18 Field Level IO-Link IO-Link is a simple 3-wire point-to-point interconnect standard for sensors and actuators in Industrial Automation applications. The benefits of the standard are increased productivity through ease of use and installation, and higher quality with error detection and easy parameterization and calibration. Working with our partners, MESCO Engineering and Technologie Managment Gruppe, Infineon supports solutions for the IO-Link standard with the XE166 Real-Time Signal Controller as the Master node and the 8-bit XC800 for the Device. Power Supply DC/DC – DC/DC Converter – Linear Voltage Regulators – Low-Voltage MOSFET Control Microcontroller – 8-bit (Device) – 16-bit (Master) – IO-Link – SW-Stack Interface Digital I/O – MOSFET (OptiMOS™) – ESD/EMI Protection For detailed product information please see the chapter Products and Solutions. 19 Industrial Power Supply Industrial Power Supply Industrial power supply networks provide a highly available fixed 24V DC supply voltage within specified limits. The output voltage is generated from different supply sources (AC and DC networks, 1-phase and 3-phase supply up to 500V AC); so a wide input voltage range is mandatory to meet these requirements. On the other hand, besides outstanding reliability, high efficiency and marginal power-losses are required as well. Further environmental aspects to be taken into consideration are: a wide operating temperature range, low output voltage noise, and suppression of system perturbation of the supplying superior power grid. Infineon’s lengthy experience in power-supply solutions offers you a more than adequate product portfolio for your design requirements. There are several power semiconductor products available, ranging from low-voltage MOSFETs (OptiMOS™), with best-in-class RDS(on) and FOM values, to a wide high-voltage MOSFET portfolio (CoolMOS™) as well as discrete and integrated IGBT solutions. For compact power supplies, also highly integrated solutions (CoolSET™) are available, which meet especially low power SMPS requirements. Besides dedicated power control ICs (PCF/PWM controllers) Infineon also offers a wide portfolio of 8-bit microcontrollers (XC800 family), which contains products well-suited to being used as a supervisorial controller for any system-related functionality (e.g. voltage, temperature monitor, watchdog). These controllers also provide high-current ports, e.g., for direct LED drives. Additional low-voltage DC/DC Converter-ICs as well as linear voltage regulators complete the power supply portfolio downwards to point-of-load power supply applications. 20 Security and Protection Security and Protection As the leader for hardware-based security with a deep insight into embedded control requirements, Infineon enables customers to build security models based on best-in-class hardware in customized solutions. Software can be easily analyzed, modified, and copied. As a result, software alone can not protect an entire platform in the same way as an embedded security concept. It does not constitute a Root-of-Trust. Embedded concepts, in contrast, balance security across software and hardware layers. The embedded approach to security builds a comprehensive Root-of-Trust in a system. This Root-of-Trust can protect an entire platform, including software, system services, functionality, and devices. Hardware-based security at platform level allows simple and cost-effective integration of security-sensitive software code and significantly increases flexibility in development and design. It also allows you to tailor the security ratings of the product or solution to your needs. 21 Products and Solution Products and Solutions Power Supply High-Voltage MOSFETs CoolMOS™ The revolutionary CoolMOS™ power family sets new standards in the field of energy efficiency. As technology leader in high-voltage MOSFETs, CoolMOS™ offers a significant reduction of conduction and switching losses and enables high power density and efficiency for superior power-conversion systems. Especially the latest, state-of-the-art generation of high-voltage power MOSFETs have resulted in the fact that AC/DC power supplies are more efficient, more compact, lighter, and cooler than ever before. This success was achieved by offering the lowest on-state resistance per package outline, the fastest switching speed, and the lowest gate driver requirements of high-voltage MOSFETs commercially available. [ www.infineon.com/coolmos ] Key Features a significant reduction of conduction and switching losses Enables high power density and efficiency for superior power-conversion systems Best-in-class price/performance ratio Offers 22 Key Benefits control of switching behavior Outstanding reliability with proven CoolMOS™ quality combined with high body diode ruggedness More efficient, more compact, lighter, and cooler Easy Power Supply Low-Voltage MOSFETs OptiMOS™ Power management for telecom and information processing systems faces the challenge of growing power demands, higher efficiency, and lower SMPS cost. At the same time, the available space is constantly shrinking, leading to higher power density requirements. The solution can be found in the OptiMOS™ low-voltage MOSFET family, demonstrating a combination of industry’s lowest on-state resistance RDS(on) and the best switching performance in the voltage range from 25V up to 250V. Available in leadless SMD packages like CanPAK™ 1), SuperSO8, or S3O8, OptiMOS™ products reduce switching noise, improve EMI for SMPS as well as other industrial applications, and lower the volume consumption up to more than 90%. [ www.infineon.com/optimos ] Key Features Industry’s lowest on-state resistance and figure of merit in all voltage classes (RDS(on) x Qg) Available in innovative space-saving packages like CanPAK™ 1), S3O8, and SuperSO8, and also in standard packages Highest immunity to dynamic turn-on RoHS compliant – halogen-free Key Benefits Highest efficiency and highest power density System cost improvement by reducing need of device paralleling and allowing smaller heatsink Environmentally friendly Performance of OptiMOS™ Technology 160 RDS(on) in SuperSO8 Infineon Next-best Competitor 120 80 40 0 25 30 40 60 75 80 100 120 150 200 250 Voltage 1) CanPAKTM uses DirectFET® technology licensed from International Rectifier Corporation. DirectFET® is a registered trademark of International Rectifier Corporation. 23 AC/DC Integrated Power ICs CoolSET™ Infineon’s latest 800V CoolSET™ series of products support a power range up to 50W and are offered in both through-holes (DIP type) and surface-mount (DSO type). It is suitable for main-block power supply (Chargers, Adaptors, Blu-ray, DVD players) or standby-block power supply (LED/LCD TV, Home Theatre, Mini-Audio). It’s the ideal solution for low-power design! [ www.infineon.com/coolset ] Key Features Quasi-resonant and fixed-frequency operation Active burst mode < 50mW @ no-load condition Digital frequency reduction Integrated start-up cell 800V avalanche rugged CoolMOS™ Selectable entry and exit burst-mode level Adjustable blanking window Frequency jitter mode Adjustable brownout feature Protections features Pb-free lead plating; RoHS compliant 24 Key Benefits 800V CoolSET™ in fixed-frequency and quasi-resonant switching for fly-back topology. Both series-integrate 800V CoolMOS™, which comes with start-up cell and avalanche capability for enhanced ruggedness. The series adopts active burst mode for power saving, capable of < 50mW consumption @ no-load. 800V CoolSET™ fixed-frequency series introduces selectable active burst-mode levels, integrating brownout protection and internal gate resistor to improve power efficiency during standby, enhance reliability, and ease EMI performance. The Infineon 800V quasi-resonant series uses digital technology implementation. The digital frequency reduction allows the quasiresonant to operate in a stable zero-crossing mode. Thus, the high-efficiency performance is maintained across the entire load range. Power Supply DC/DC DC/DC Converters Our high-efficiency switching converters help to reduce energy consumption, extending operating time of battery powered systems and by this minimize costs of all kind of systems in operation. [ www.infineon.com/industrial-standard ] Key Features voltage up to 60V Output currents up to 2300mA Output voltage adjustable resp. fixed to dedicated values Shutdown quiescent current down to below 2µA Current limitation and overtemperature protection Enable feature Input Key Benefits efficiency regulation Only few external components needed for stable regulation Perfectly suited for regulation in pre-/post-regulation power-supply architectures High Block Diagram IFX91401 VS EN 7 8 Enable Charge Pump Overtemperature Shutdown 5 BDS Feed Forward COMP SYNC Buck Converter 3 1 6 Oscillator 4 Band-gap Reference IFX91041 BUO FB Soft-start Ramp Generator 2 GND 25 Voltage Regulator Voltage Regulator and Trackers Our linear voltage regulators and trackers help to reduce energy consumption, extending operating time and minimizing operating costs of all kinds of systems. The wide supply-voltage range, low quiescent current, comprehensive protection features, and various packages make our devices to a best fit even in beyond classical automation industries. Our trackers are best suited as additional supplies for off-board loads for minimizing system costs. [ www.infineon.com/industrial-standard ] Key Features Input voltage up to 45V Output current up to 1000mA Output voltage adjustable resp. fixed to dedicated values Quiescent current down to 20µA. Overload, overtemperature, short-circuit and reverse-polarity protection Low current consumption Key Benefits Pin-to-pin compatibility with industry standard parts Very low dropout voltage Trackers for optimized heat distribution and external protection Trackers for a maximum of system cost reduction Block Diagram IFX 2931 Saturation Control and Protection Circuit Temperature Sensor Input 8 1 Adjustment Band-gap Reference Control Ampliﬁer Buﬀer 2, 3, 6, 7 GND 26 Output Power Supply For further products please see the following information: IGBTs [ www.infineon.com/igbt ] Diodes [ www.infineon.com/discretes ] LED Backlight Control [ www.infineon.com/leddriver ] 27 Control Microcontroller 8-bit – XC800 Family Reliable low-cost microcontrollers with real-time control capabilities. [ www.infineon.com/microcontroller ] Key Features co-processor for CORDIC and multiply/divide operations Flash sizes from 2KB to 64KB and packages from 16-pin to 64-pin Up to 2 independent Capture/ Compare Units with ADC trigger for reliable control-loop calculation 16-bit timers running at up to 48MHz 10-bit ADC with conversion time below 1µs and ± 2LSB Memory protection, ECC, brown-out detection Real-time clock and multiple low-power modes MultiCAN (2 nodes and 32 message objects) Key Benefits real-time performance Easy connection to the automation world with IO-link evaluation kits DAVE™ Bench and DAVE™ Drive: Free tools for programming, loading, and debugging, as well as motor-control code generation Reduced CPU load and flash size with enhanced autonomous peripherals and control libraries in ROM Designed for harsh industrial requirements – up to 150°C or 130k hours of operation 16-bit Low-cost Block Diagram XC800 2–64KB Flash Peripheral Bus XC800 Core Dual Cycle Interrupt Controller 256Byte RAM + 64Byte Monitor RAM UART T0/T1 Vector Computer 0.5–3KB XRAM CORDIC MDU Boot ROM SSC I2C MultiCAN UART1 Timer 2 Timer 21 CCU6 Ports System Control Unit Touch Sense Control T2CCU EVR, POR, Brownout OSC & PLL ADC Watchdog Timer Debug & JTAG 28 Serial Interfaces Program and Data Memory Bus Control 16-bit – XE166 Family With more than 500 million pieces sold C166 has set the standard for 16-bit architectures. [ www.infineon.com/microcontroller ] Key Features to 100 MIPS and integrated MAC unit with complete DSP library Flash sizes from 32KB to 1600KB and packages from 38-pin to 176-pin Up to 4 independent Capture/Compare Units (CCU6) and ADC with 600ns conversion time Memory protection unit, ECC for SRAM and flash and memory checker Key Benefits performance to support automation requirements Fast accessible embedded RAM and flash Easy connection to the Automation world with IO-link and CANopen evaluation kits Enhanced peripherals supporting SIL Designed for harsh industrial requirements Up Real-time Block Diagram XE166 DPRAM 2KB PSRAM 32KB Flash 64KB SCU Voltage Reset Osc/PLL Clock Generation CPU Flash 256KB RTC EBC LXBus Control External Bus Control MPU PMU MAC Unit DMU C166SV2-Core Flash 256KB XTAL OCDS Debug Support DSRAM 16KB Peripheral Data Bus WDT Interrupt & PEC MCHK Interrupt Bus ADC0 ADC1 8/10-bit 8/10-bit 16 8 Channels Channels CC2 T7 T8 GPT CC60 CC61 CC62 CC63 T2 T12 T12 T12 T12 T3 T13 T13 T13 T13 T4 T5 T6 USIC3 USIC2 64 Entry Buﬀer RS232, SPI, LIN, I2C Ch. Ch. 0 1 64 Entry Buﬀer RS232, SPI, LIN, I2C Ch. Ch. 0 1 USIC1 USIC0 MultiCAN 64 Entry 64 Entry Buﬀer Buﬀer RS232, RS232, 6 Channels SPI, LIN, SPI, LIN, 128 MOs (message I2C I2C objects) Ch. Ch. Ch. Ch. 0 1 0 1 GPIO Ports 29 32-bit – TriCore™ Family Leading-edge performance for real-time control. [ www.infineon.com/microcontroller ] Key Features Superscalar core with integrated MCU-DSP instructions plus FPU Clock rate up to 300MHz Peripheral Control Processor (PCP) for offloading the main core Flash sizes from 1MB to 4MB Multiple timers and Capture/Compare Units with ADC trigger for complex control loops DMA, memory protection, ECC for SRAM and flash and memory checker Multiple communication interfaces including Multi-CAN Key Benefits real-time performance Multi-axis control with multiple modulation strategies Fast and efficient processing of multiple tasks or control loops Designed for harsh industrial requirements PRO-SIL™ tests to support SIL Highest For further products please see the following information: Microcontroller Security Controller Microcontroller Companion IC’s CIC-Family [ www.infineon.com/microcontroller ] [ www.infineon.com/microcontroller ] Safety Industrial SIL [ www.infineon.com/microcontroller ] Trusted Platform Module [ www.infineon.com/tpm ] IO-Link [ www.infineon.com/io-link ] Trusted Computing Management Server [ www.infineon.com/tpm ] IO-Link 30 Trusted Platform Module Control Authentication – Chip Card SLB 78x Based Contact Based Security Controller The SLB 78CIFX1600P is optimized for embedded security applications offering the I²C interface. It allows very fast design-in and flexible integration. The SLB 78CIFX1600P can therefore be easily integrated as root-of-trust and security server in embedded components. The functionality of the SLB 78CIFX1600P allows secure storing of information, authentication based on strong cryptography, and supports high-end public key systems like RSA and Elliptic Curve DSA. [ www.infineon.com/security ] Key Security Features Key Benefits Guard Security Concept concentrates on digi- R&D efficiency for application development tal, mathematically modeled security mechanisms Low effort on SW for security measures Dual CPU implementation for fault detection Short time to market for end-customer products Encryption, masking, and randomization Robustness, quality, and long product life spans Comprehensive error detection over the complete Package to match the application data path Active I²-Shield Integrity Block Diagram SLB 78CIFX1600P Peripherals 16-bit CPU 1 16-bit CPU 2 TRNG PRNG 2 Timers Watchdog CRC I/O Port I2C Clock & Dynamic Power Management RSA ECC 3DES AES Cache/Buﬀer Encrypted Peripheral Bus (16-bit) PFD MED EDU Memory Bus (32-bit) MMU Core System ICU PEC Sleep Mode Logic, Sensors, Filters, VCO, Voltage Regulator ROM RAM EEPROM FLASH EDC EDC EDC Memories Co-Processors 31 Interface Non-Isolated High-Side/Low-Side Driver HITFET™ Our well-know and robust HITFET™ portfolio is now extending with new 24V devices and low-ohmic Power HITFET™ devices. We introduced them recently in our Design Link Magazine: 24V HITFET™ and BTS3256D. Our family approach offers high scalability for single- and dual-channel solutions. [ www.infineon.com/hitfet ] Key Features Wide range of RDS(on) values Logic level input Thermal shutdown with auto restart or latch behavior Logic level input Feedback via increased current at IN pin, for Power HITFET’s also pure digital readout possible Current limitation (except BTS3160D) 32 Key Benefits Overload and overvoltage protection Protection integrated in MOSFET like package Easy design-in Perfect fit in RDS(on) Package to match the application Interface Protected High-Side Switches – PROFET™ Our PROFET family offers protection against overload, overvoltages, short-circuits, excess temperature, and ground resp power-supply loss. For any loads, including resistive, capacitive, and inductive, our PROFETs are best suited in automation applications for replacing electromechanical relays, fuses, and discrete circuits. [ www.infineon.com/industrial-standard ] [ www.infineon.com/profet ] Key Features voltage range 4.5 ... 60V Typical Load current 0.9 ... 45A ILsc 0.9 ... 200A RDS(on) from 1000mΩ down to 2.5mΩ at room temperature Diagnostic feedback As single channel or multichannel switches Key Benefits and overvoltage protection Current limitation Short-circuit protection Thermal shutdown Loss of ground protection Loss of ground/Vbb protection ESD protection Operating Overload Block Diagram PROFET™ +Vbb Voltage Source Overvoltage Protection Current Limit Gate Protection VLogic IN ST ESD Logic OUT Charge Pump Level Shifter Rectifier Limit for Unclamped Ind. Loads Temperature Sensor Load GND Signal GND miniPROFET™ Load GND 33 ISOFACE™ ISO1H8xxG is an isolated 8-channel high-side driver family intended for driving any kind of resistive, inductive, or capacitive load – addressing the exact requirements in industrial automation systems, such as Programmable Logic Controllers (PLC), Distributed Control Systems, and Industrial PCs. With complete system integration of the digital interface, galvanically isolated interface, and power stage, the IC can be directly connected between the microcontroller and independent power loads. [ www.infineon.com/isoface ] Isolated Switch for Automation 8-Channel Isolated High-Side Switch for Industrial Applications Key Features to 1.2 A output current per channel 500V isolation (UL508, EN 60664-1) Short-circuit protection Overload protection Key Benefits integrated system solution for –– Galvanic isolation between microcontroller and harsh industrial environments –– Fail Safe –– No need for opto-coupler –– No need for external clamping circuitry Up Fully Block Diagram ISOFACE™ Vbb VCC VCC VCC P1.x AD0 WR MCU (i.e C166) P0.0 P0.1 P0.2 P0.3 P0.4 P0.5 P0.6 P0.7 DIS CS WR D0 D1 D2 D3 D4 D5 D6 D7 Control Unit CT DIAG OUT0 Control & Protection Unit Parallel Interface OUT7 DIAG GND 34 OUT1 GNDCC GNDbb ISO1H801G Vbb Interface Digital Input Interface for Automation 8-Channel Isolated and Fully Integrated Digital Input Key Features input characteristic IEC61131-2 (Type 1/2/3) Deglitching filters software-programmable Up to 500kHz sampling frequency Comprehensive diagnostics Sensor Key Benefits 4x higher Integration densities Improved EMI robustness through application- and site-specific settings High-precision/high-speed applications Strong maintenance support helps reducing costly factory-floor down-times Enabling Block Diagram ISO1I813T SW1 SW2 VBB 12kΩ I0H I0L 12kΩ 2kΩ I7H I7L GNDBB ISO1I813T ERR Digital Filter Sync CS Logic 2kΩ DC ENA Deserialize IN0 IN7 GNDFI VCC TS WB Serialize 8 Sensors VFI 330nF Parallel or Serial Interface Digital Filter µC e.g. C166 GND 35 Wireless Control Standard Products The standard products comprise the TDA 71xx transmitter and TDA 72xx receiver and transceiver product variants for ASK and FSK modulation, with a different feature set and frequencies (315, 434, 868, and 915MHz). [ www.infineon.com/transmitter ] [ www.infineon.com/receiver ] [ www.infineon.com/transceiver ] Key Features Transmitter: ASK/FSK Transmitter family for low/ high power, temperature range -40 ... +85° Standard Receiver: ASK/FSK Receiver family, temperature range -40 ... +105°C, TSSOP and VQFN package Standard Transceiver: ASK/FSK Transceiver family, singlechannel, temperature range -40 ... +85°C, VQFN package Standard 36 Key Benefits low current consumption Low system costs: only 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 and harsh environments such as temperature ranges up to 125°C Very Interface SmartLEWIS™ Family Infineon offers a comprehensive and complementary product portfolio of transmitter, receiver, and transceiver products for the sub 1GHz frequency bands. Make your application wireless by using our standard products for relatively simple application requirements or the SmartLEWIS™ product family members for more complex system or performance requirements. SmartLEWIS™ stands for Smart Low Energy Wireless Systems and its family members for the next-generation wireless control products, having the highest level of integration and functionality to reduce system complexity and current consumption in an intelligent way. [ www.infineon.com/wirelesscontrol ] Key Features SmartLEWIS™ TX: ASK/FSK Transmitter, multi-channel, multi-band, multi-power [ www.infineon.com/tda5150 ] SmartLEWIS™ MCU: ASK/FSK Transmitter with embedded 8051 microcontroller, temperature range -40 ... +125°C [ www.infineon.com/pma ] SmartLEWIS™ RX: Receiver family with digital baseband processing, multi-channel, temperature range -40 ... +105°C [ www.infineon.com/tda5230 ] SmartLEWIS™ RX+: High-Sensitivity Receiver, single-/multi-channel, temperature range -40 ... +105°C [ www.infineon.com/receiver ] SmartLEWIS™ TRX: High-Sensitivity Transceiver with digital baseband processing, multi-channel Key Benefits integration and functionality Very low current consumption Low system costs: only few external components required Dedicated product variants for industrial and consumer applications (PMA-7 series) to meet an optimal feature-cost ratio Highest Block Diagram PMA 7110 PMA 7110 125kHz LF Input Digital IO Flash 6KB LF RX 125kHz 1 10 GPIO I2C SPI + Ch2 – ADC 10-bit + Ch3 – 1.9–3.6V Temperature & Battery Voltage Sensor RAM 256B RF TX ASK/FSK PLL µC 8051 + Ch1 – Analog Inputs ROM 12KB 315/434/ 868/915MHz 5/8/10dBm Brownout Detector Interrupt Controller RF XTAL 12MHz RC Oscillator System Controller Wake-up Logic Power Management Manchester Bi-phase Encoder/Decoder Watchdog 2kHz RC Oscillator Timers 16-bit CRC Pseudorandom Number Generator 37 CAN Transceiver Our CAN transceivers provide proven quality, reliable track records, and high robustness regarding electromechanical noise to the communication systems within automation industries. ISO compliance is guaranteed. Our IFX1050G has been optimized for high-speed communication and the highest reliability, whereas the IFX1054G type is suited for fault tolerance at lower data rates. A separate flag supports diagnostics. [ www.infineon.com/can ] Key Features Key Benefits current consumption Thermal protection Receive-only mode Excellent EMC performance Standby/sleep mode Transmission rates up to 1 Mbit/s ISO 11898 compliant Low power modes Support of failure conditions Bus wake-up feature Low Block Diagram IFX 1050G 3 CANH CANL 7 6 Output Stage Driver 1 Temperature Protection = Mode Control 5 Receiver GND 38 2 8 4 VCC TxD INH RM RxD Interface Hall-Effect Switches The Hall Switches portfolio of Infineon comprises unipolar and omnipolar switches and bipolar latches covering a wide range of applications such as position sensing, index counting, BLDC motor control, etc. Those devices show excellent accuracy and robustness against electrical disturbances. [ www.infineon.com/magnetics ] Key Features Supply voltage 2.7 … 18V (24V limited time) Reverse battery protection (-18V) Operating temperature range -40 … +150°C High ESD performance 4kV Chopped principle (active error compensation) – high stability, narrow thresholds Key Benefits Low jitter (typ. 1µs) High sensitivity and high stability of magnetic switching points Available in both leaded and SMD package High resistance to mechanical stress by active error compensation Sensor module can deliver same outputs regardless of temperature Temperature-compensated thresholds Block Diagram TLE 4946-2L/2K VS Voltage Regulator Reverse Polarity Protected Bias and Compensation Circuits Oscillator and Sequencer Q Ref Chopped Hall Probe Amplifier Low Pass Filter Comparator with Hysteresis GND 39 Linear Hall Sensors 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. Based on these principles, our TLE 499x family of linear Hall ICs has been designed specifically to meet the requirements of highly accurate angular and linear position measurement, as well as current-measurement applications. [ www.infineon.com/position¤t_sensing ] Key Features Single supply voltage 4.5 ... 5.5V Temperature range -40 ... +150°C Linear ratiometric output between -200mT and +200mT within three ranges Programmable in sensitivity offset and clamping 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 Key Benefits Wear-free operation Highly accurate contactless position sensing In-system calibration Flexible system implementation Block Diagram TLE 4998 VDD Bias Interface Supply Spinning Hall A EEPROM OUT D Digital Signal Processing Temperature Sense A D ROM 40 OUT Generation GND Interface iGMR Angle Sensors Infineon offers a family of angle sensors based on integrated Giant Magneto Resistance (iGMR) technology. The sensors detect the orientation of an applied magnetic field by measuring sine and cosine angle components with monolithically integrated magneto-resistive elements. Data processing and communication interfaces are integrated on the same silicon chip as the sensing elements, allowing a compact design using small outline packages. The angle sensor family offers a broad variety of communication interfaces, as well as different levels of data processing and self-test capabilities. [ www.infineon.com/igmr ] Key Features Integrated magnetic field direction sensing for angle measurement Full calibrated 0 ... 360° angle measurement with revolution counter and angle speed measurement 15-bit representation of absolute angle value on the output (resolution of 0.01°) Temperature range: -40 ... +150°C High accuracy and short delay times Green package with lead-free (Pb-free) plating Multiple interface (SPI, PWM, HSM, IIF) Key Benefits angular position sensing Highly efficient motor control Wear-free operation Easy and variable system implementation Accurate Block Diagram TLE 5012 VDD VRG X GMR Y GMR VRA SDADC SDADC VRD OSC TLE 5012 PLL CSQ Digital Signal Processing SDADC SSC Interface SCK DATA CCU CORDIC Temp. CLK FUSES Incremental IF PWM HSM IFA IFB GND 41 Interface For further products please see the following information: ESD Protection [ www.infineon.com/esdprotection ] RF Discretes [ www.infineon.com/rf ] Identification – Chip Card [ www.infineon.com/security ] RFID [ www.infineon.com/security ] IO-Link [ www.infineon.com/io-link ] IO-Link Sensors Manifold Pressure Sensors (MAP/Turbo MAP) [ www.infineon.com/pressure ] Barometric Air Pressure Sensor (BAP) [ www.infineon.com/pressure ] 42 Motor Drive Gate and Bridge Driver ICs [ www.infineon.com/powermanagementics ] MOSFETs [ www.infineon.com/mosfets ] IGBTs [ www.infineon.com/igbt ] Integrated Motor Drivers [ www.infineon.com/motorcontrol ] Power Modules [ www.infineon.com/powermodules ] Linear Current Source [ www.infineon.com/leddriver ] 43 Ask Infineon – Infineon Hotline-Service at your fingertips. Where you need it. When you need it. Infineon offers its toll-free 0800 service hotline as one central number, available 24 / 7 in English and German. Our global connection service goes way beyond standard operating and switchboard services by offering qualified support on the phone. Call us! Germany .......................... 0800 951 951 951 USA ................................. 1866 951 9519 International . .................. 00 800 951 951 951 Direct access ................... +49 89 234 - 0 (interconnection fee) Where to Buy Infineon Distribution Partners and Sales Offices Please use our location finder to get in contact with your nearest Infineon distributor or sales office. www.infineon.com/WhereToBuy Infineon Technologies – innovative semiconductor solutions for energy efficiency, mobility and security. Published by Infineon Technologies AG 85579 Neubiberg, Germany © 2010 Infineon Technologies AG. All Rights Reserved. Visit us: www.infineon.com Order Number: B192-H9540-X-X-7600 Date: 11 / 2010 Attention please! The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics (“Beschaffenheitsgarantie”). With respect to any examples or hints given herein, any typical values stated herein and/ or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office (www.infineon.com). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.
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