XC800 Family Highly-Integrated and Cost-Effective 8-bit Flash Microcontrollers www.infineon.com/XC800 2 Contents XC800 Family Overview 04 Peripheral Highlights 06 XC800 Safety Solutions 10 XC800 A-Family 12 Body & Convenience 14 Safety 20 Powertrain 23 XC800 150°C-Series 25 XC800 I-Family 26 Motor Control and Automation Solutions 33 Solutions for Advanced Touch Control 40 Solutions for Intelligent Industrial Lighting 44 Tools 46 3 XC800 Family Overview Infineon’s high-performance XC800 family of 8-bit MCUs combines a dual-cycle 8051 core with embedded Flash memory and powerful on-chip peripherals. XC800 features innovative enhancements like extended temperature ranges up to 150°C, capacitive touch control and a 16-bit performance with the embedded vector computer. Flash sizes from 2kB to 64kB with up to 3kB RAM and pin counts from 16-pin to 64-pin will make it easy to select the right product and optimized fit for your purpose. The high-quality MCUs are well-suited for a wide range of 5V as well as 3V applications. Energy efficiency in many applications is a matter of intelligent control. With Infineon’s 8-bit MCUs, designers can optimize energy efficiency in their systems by using advanced control algorithms for electric drives or power converters, and communication interfaces for automation or lighting network applications. Nowadays, time-to-market is crucial to economic success. Infineon‘s free tools, simple evaluation boards and comprehensive range of application kits enable easy and fast design in all 8-bit MCUs from Infineon. Cost is still one of the most important factors when choosing an 8-bit MCU. We have reduced system level costs by integrating features such as oscillator, voltage regulator, EEPROM and supervisory circuitry. XC800 Benefits High Level of Integration Peripheral Highlights System Cost Savings CapCom6 Unit Flexible Serial Interfaces Embedded voltage regulator High-speed PWM Full duplex UART EEPROM support Direct HW link with ADC High-speed SSC Enhanced ADC I2C On-chip oscillator Safety Features (SPI compatible) 5V and 3.3V supply capability Brownout detection 10-bit resolution Power-on reset Up to 8 channels Application-Specific Protocol Stacks Clock recovery system Conversion time <1µs LIN master and slave support DALI slave support for lighting Window watchdog timer I/O protection circuitry Capacitive Touch Control ROM library On-Chip Debug Support (OCDS) Integrated LED-display control JTAG-based non-intrusive 16-bit Vector Computer debugging Nested execution of CORDIC and MDU Vector rotation and transfor- mations 4 Enhanced Communication IO-Link slave for sensor/ actuator networks Automotive Industrial & Multi-Market XC800 A-Family XC800 I-Family Body Applications BCM Low-end BCM/HVAC Lighting Window lift Switch sensors Power operating systems Touch control Motorcycle Safety Applications Low-end airbag EHPS Steering angle sensor Failsafe controller Low-Cost Motor Control and Automation control Power supply control Network connectivity Motor Advanced Touch Control Capacitive touch control Display control Intelligent Lighting LED light control Power supply control Network connectivity Powertrain Applications Pumps Valve/throttle control Motorcycle engine management Shift-by-wire Cooling fan 5 Peripheral Highlights Direct hardware link between Analog-Digital Converter (ADC) and Capture/Compare Unit (CCU6) The Infineon CCU6 units consist of a T12 timer block with three capture/compare channels and a T13 timer block with one compare channel. The T12 channels can generate up to six PWM signals or accept up to six capture triggers. The T12 channels can be used to control up to three half-bridges with automatic dead-time generation. They can jointly generate control signal patterns to drive AC motors or inverters. Sinusoidal or space vector modulation can be easily implemented. Special operating modes support the control of brushless DC motors using hall sensors or back-EMF detection. Furthermore, block commutation and control mechanisms for multiphase machines are also supported. A direct hardware link between ADC and CapCom6 provides powerful PWM control. ADC CapCom6 T12HR Start Limit Check Control T12 DeadTime Control CC61 CC62 Start Limit Event Boundary 1 Compare CC60 T13HR Start Compare T13 PS PSL Output State Selection Output Level Selection Capture Out-of-Range Comparator Output Modulation CC63 PSL63 Boundary 0 CTRAP Boundary Flag Control BF0 BF1 BF2 Trap Handling CC60 CC61 CC62 CCPOS0 CCPOS1 CCPOS2 Multi-channel Mode Hall Pattern Evaluation CCU6 Features Capture for time measurement Compare for PWM generation Burst for additional modulation Single-shot for flexible signal generation Multi-channel for unipolar machines Block commutation for brushless DC drives Programmable dead-time control 6 CC60 COUT60 CC61 COUT61 CC62 COUT62 Output Level Selection COUT63 Hall Compare Logic ADC Features 10-bit resolution, ±2 LSB Conversion time of <1.5µs Hardware synchronization with PWM enables noise-free sampling Auto scan, injection and comparator modes to reduce CPU load T2CCU Capture/Compare Unit The T2CCU (Timer 2 Capture/Compare Unit) is an add-on block to the standard timer two unit. Control is available in the T2CCU to individually select either the timer 2 or its own Capture/Compare Timer (CCT) as the time base for each of its 16-bit capture/compare channels. The T2CCU can be used for various digital signal generation and event capturing operations such as pulse generation, pulse width modulation, pulse width measurement etc. Target applications include various automotive control as well as industrial applications like frequency generation, digital-to-analog conversion and process control. T2CCU Compare Timer 2 1 Channel 2 1 Channel 3 1 Channel 4 1 Channel 5 1 Capture EXF2 T2EX Interrupt Control Channel 1 DeadTime Control 4 Compare Clock Control 1 Compare TimeBase Selection for each Channel Channel 0 Compare Capture/ Compare Timer 2 2 2 T2CC5 T2CC4 T2CC3 T2CC2 T2CC0 EXF2 T2EX T2 Input/Output Control T2CC1 Address Decoder T2 T2CCU Features Four capture channels and six compare channels Flexible time-base option 16-bit resolution able to work at twice the peripheral clock frequency Can be used for digital signal generation and event capturing like pulse generation, pulse width modulation MultiCAN Complex applications increasingly require intelligent communication over the CAN network. A CAN gateway and a FIFO are only two examples of what can easily be implemented with an enhanced MultiCAN module. MultiCAN Features Full-CAN with CAN 2.0B active Up to two independent CAN nodes Up to 32 message objects Programmable acceptance filtering Powerful analysis capability FIFO data handling support Automatic gateway support Flexible interrupt handling MultiCAN Module Kemel Message Object Buﬀer 32 Objects Linked List Control CAN Node 1 TxDC1 RxDC1 CAN Node 0 TxDC0 RxDC0 CAN Control Timing Control and Synchronization Scheduler Schedule Timing Data Memory Time-Triggered Extension 7 Peripheral Highlights LED Touch Sense Unit The LED Touch Sense Unit is featured with the Xc82x and XC83x series. This unit integrates capacitive touch control and the operation of an LED matrix used for displays in low pin-count devices via time-multiplexed operation. It encompasses a combination of features often demanded – e.g. by home appliance, automotive or consumer HMI designs. Touch Control Unit External or internal pull-up resistor Automatic pad selection logic for auto-scan function Adjustable discharge time Adjustable saturation/overflow behavior of oscillation pulse counter Counter value evaluation in interrupt service routine ROM library for Adjustable Accumulation, Glitch Filter, Adaptive Average Control, Pad-Down and Pad-Up Handling, Result and Error Handling LED Matrix Unit Supports up to 8x8 LEDs arranged in lines and columns A resistor in the line path limits the current The columns are activated one after the other (multiplexing) The line signals must be synchronized to the column activation The LEDs can be arranged in various COLA Pad OSC Enable EPULL OD PADTSW TSCTROVF External Pull-up (optional) TSCTRR Pad Select ITF_EN Oscillator Loop TSINx Sensor Pad 8-bit Counter IO Pad TSOEXT Pad Control Interrupt Control Column Control COL6 COL5 COL4 COL3 COL2 COL1 COL0 COLA LINE7 LINE6 LINE5 Software Line Control LINE4 LINE3 LINE2 LINE1 LINE0 Time Frame TFF TSCTRVAL Active-Extend layouts 8 Auto Scan PADT TSCTRSAT Oscillation Pulse Counter Interrupt Control Math and Control ROM-Library The math and control code ROM library featured with the XC82x and XC83x series offers various DSP functionalities, such as the PI-controller, SIN and COS or Cartesian-to-polar transformation. It contains all algorithms required to perform one of the most ambitious control schemes – field-oriented motor control – with an 8-bit microcontroller. PT1_24 x PT1_32 y 1 TS + – x + – 1 T Park Transform y K TS 1 T x yamax. yamin. 256 1 0 KP + ymax. y ymin. 16 F0 K [I cos(ϕ) + Iβ sin(ϕ)] 2 α Iq = K [-I sin(ϕ) + Iβ cos(ϕ)] 2 α Vα = K [V cos(ϕ) - Vq sin(ϕ)] 4 d Vβ = K [V sin(ϕ) + Vq cos(ϕ)] 4 d P x 256 F0 Cartesian-to-Polar Transform y arctan x SIN and COS 1 0 KP 1 I 2 phaseA 1 (2IphaseB + IphaseA) Iβ = 2 3 Iα = Inverse Park Transform PI 1 s2T1 Id = Clarke Transform 16 ymax. ymin. y K 2 [Y cos(Z) + X sin(Z)] K 4 x2 + y2 CCU6 MOV Accelerator mov mov mov CCU6_CC60SRL, r3 CCU6_CC61SRL, a CCU6_CC62SRL, r1 mov mov mov CCU6_CC60SRH, r2 CCU6_CC61SRH, r4 CCU6_CC62SRH, r0 9 XC800 Safety Solutions IEC 60730/Class B Certification Infineon offers SafeDrive, a flexible and cost-sensitive approach to class B compliance using single-channel architecture with a periodic self-test. SafeDrive consists of a VDE-certified free software library containing self-test routines that covers six of the ten components required by class B. The remaining four are application-specific and have to be implemented in the application code. Thanks to the safety features of XC800, compliance is possible with minimal CPU/ memory overhead. Class B compliance is mandatory in Europe. Voltage Supervision Clock Supervision Flash Error Correction - ECC Power on reset (1) Run detection (1) Single-bit error correction Early warning (2) Lock detection (2) Double-bit error detection Brownout reset (3) Automated clock selection (3) Protect against invalid Automated bypass (4) code execution Flash Memory Crystal Microcontroller PLL 1 fsys 3 Supply Voltage 3 2 Data + ECC 4 Clock Supervision Ensures a Safe State www.infineon.com/classb Data + ECC bits ADDR 1 10 16 RC OSC 2 Data + ECC bits CPU 8 ECC - Logic Code & Decode Safety Watchdog CIC61508 Safety Systems require an independent watchdog which implements a robust monitoring channel for main MCU supervision in ISO26262 and IEC61508 compliant safety applications. With its small footprint the CIC61508 is a space/cost effective choice to support applications like airbag, steering, braking, etc. SIL Supporting Key Features Internal Test Scheduler / Sequencer ––Generates a sequence of test requests with specific data and checks the response against a static table Supply Voltage Monitor ––Capable of detecting under- and overvoltage of the supply to the monitored microcontroller and trigger RESET if required Data Verification Unit ––Compares two data variables delivered within a determined time period to check for equality Task Monitor ––Monitor system using a defined schedule table to check the dispatch of critical tasks with predefined execution budgets System Shutdown ––Three level of temporal system shutdown, providing flexible sequences Vbat OptiMOS™-T2 40V IPB 180N04S4-01 Safety Watchdog CIC61508 Vdd1 e.g. 5V Vdd2 e.g. 3.3V Watchdog Reset Power Supply TLE 7368 Voltage Monitors Safety Path Control Opcode Test Sequencer Error State Monitor Task Monitor Control Logic Data Comparator BIST SSC Reset Path Control Appl. Main Switch NVM Opcode Test Sequence 32-bit MCU e.g. TriCore™ SPI www.infineon.com/CIC61508 Schedule Table Time Budget Table Config ChkSum 11 XC800 A-Family for Automotive XC800 A-Family – Dedicated to Automotive Applications The XC800 A-Family is Infineon’s automotive 8-bit family that addresses low-end body, safety and powertrain applications for 2-/3-/4-wheelers. A set of strong peripheral features along with high quality standards has already positioned the 8-bit microcontroller ahead of the competition in demanding applications such as automotive motor control. This high standard of performance and quality is now further enhanced with the introduction of the 150°C Series; the same high-performance 8051 microcontroller, now “Grade 0” qualified at 150°C ambient temperature. Additionally, the XC800 A-Family is further enhanced with a dedicated new low-cost family with an optimized feature set for lowest-end applications. This provides full scalability and flexibility, therefore satisfying major market requirements. 12 XC800 A-Family for Automotive XC800 A-Family for 2-/3-/4-Wheelers TSSOP-16 TSSOP-28 TSSOP-38 VQFP-48 QFP-48 QFP-64 64kB XC874 26.7MHz XC878 26.7MHz 52kB XC874 26.7MHz XC878 26.7MHz 32kB XC886 24MHz XC888 24MHz 24kB XC886 24MHz XC888 24MHz XC866 26.7MHz 16kB 8kB 4kB XC822 24MHz 2kB XC822 24MHz XC836 24MHz XC866 26.7MHz XC836 24MHz XC866 26.7MHz ROM version available XC800 A-Family Block Diagram Peripheral Bus XC800 Core Dual Cycle 4–64kB Flash Interrupt Controller UART 256Byte RAM + 64Byte Monitor RAM T0/T1 Vector Computer CORDIC 0.5–3kB XRAM MDU Boot ROM SSC MultiCAN UART1 Serial Interfaces Program and Data Memory Bus Timer 2 Timer 21 CCU6 T2CCU Ports System Control Unit ADC Watchdog Timer EVR, POR, Brownout www.infineon.com/XC800 OSC & PLL Debug & JTAG 13 XC800 A-Family for Body & Convenience Application Example Highbeam 65W Lowbeam 55W Tail 39W HiC PROFET TM BTS 5012 BTS 6133/43 BTS 50080-1 HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 Fog 2x 27W HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 Tail 39W Lowbeam 55W Highbeam 65W HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 HiC PROFET TM BTS 5012 BTS 6133/43 BTS 50080-1 CAN Bus CAN TRX TLE 6250 TLE 6251-2G Lowside Driver 8-bit Microcontroller XC800 A-Family I/O Digital Switch Monitoring LIN TRX TLE 7259-2GE/U 8ch Relay Driver TLE 7240 SL HITFET TM BTS 3110/18 BTS 3134 BTS 3160 HS Driver LIN Bus Voltage Regulator TLE 46xx TLE 42xx4 Communication +12V from Battery Supply Highside Driver HiC PROFET TM BTS 5012 BTS 5014/16 BTS 6133/43 Relays Room Light Foot Light Key Solenoid Switched Power (Navigation System, A/C, Glovebox, Cameras) Analog Inputs Highside Driver Light Control Module PROFET TM+1) BTS 5020-2 BTS 5030-2 BTS 5045-2 BTS 5090-2 Indicator 2x 27W + 5W PROFET TM+1) BTS 5020-2 BTS 5030-2 BTS 5045-2 BTS 5090-2 Indicator 2x 27W + 5W PROFET TM BTS 4175 BTS 4300 Rear Power Window Lock Light Control Module + Smart Junction Box The light control module is mainly used in the low-cost car market supporting all kinds of lighting systems, incl. smart junction box. The XC800 A-Family is the microcontroller of choice for such applications. Benefits Supports all kinds of lighting systems: HID, LED etc. power consumption Low quiescent current Excellent price-performance ratio High scalability supports low-end to high-end solutions Low 14 Key Features CAN/LIN option Up to 10 PWM channels Direct trigger from ADC to CCU6 via PWM timer Up to 8-channel 10-bit ADC (light bulb diagnosis) Fully scalable over package and memory Flexible power concept XC800 A-Family for Body & Convenience Application Example Ambient Light Interior Light 5W, 10W Interior Light Module Sensor Pad Selection Wheel Supply Touchpad & LED Control 8-bit Microcontroller XC82x/83x A-Family LIN LDO TLE 8458G +12V from Battery I/O Comm. LIN Bus LED Matrix Controller and Touch Sense Controller can share the same pins. SPIDER HITFET TM BTS 3405G BTS 3110/18 Columns m Background Illumination Lines n Slider Interior Light Control with Capacitive Touch Sensor The light control module is mainly used in the low-cost car market supporting all kinds of lighting systems. The XC800 A-Family is the microcontroller of choice for such applications. Benefits Supports all kinds of lighting systems: HID, LED etc. Low power consumption Low quiescent current Excellent price-performance ratio High scalability supports low-end to high-end solutions Key Features option Up to 10 PWM channels Direct trigger from ADC to CCU6 via PWM timer Up to 8-channel 10-bit ADC (light bulb diagnosis) Fully scalable over package and memory Flexible power concept CAN/LIN 15 XC800 A-Family for Body & Convenience Application Example Voltage Regulator TLE 46xx TLE 42xx4 TLE 727x-2 Supply CAN Bus CAN Transceiver TLE 7250G1) TLE 6251-3G 8-bit Microcontroller XC800 A-Family Room Light Foot Light Key Solenoid HITFET ™ BTS 3110/18 BTS 3134/60 BTS 3800 BTS 3405G 315/434/868/915MHz RKE I/O Digital Switch Monitoring Door Locks Lighting Window Lifts Wiper Relay Driver TLE 7240SL Low-Side Driver +12V from Battery Communication Body Control Module Analog Inputs RKE Receiver TDA 52xx TDK 51xx High-Side Driver PROFET ™ BTS 5020-2 BTS 5030-2 Indicator 2x 21W + 5W Indicator 2x 21W + 5W LED Driver Linear LED Driver BCR 40x Interior Light Low-Cost Body Control Module The low-cost body control module solution is perfectly suited to the ultra low-cost car market as well as the 2-/3-wheeler motorcycle market, supporting basic light functionality, car access and door modules with lighting, window lift, mirror positioning, refueling indicator for windscreen wipers and clock. High scalability of the XC800 A-Family supports low-end to high-end solutions. Benefits power consumption Low Low quiescent current Excellent price-performance ratio High scalability supports low-end to high-end solutions 1) In development 16 Key Features to 64kB Flash with emulated EEPROM CAN/LIN option Up to 8 ADC channels Up to 10 PWM channels 4kB XC800 A-Family for Body & Convenience Application Example 0 2 3 4 Optional: VREG TLE 42xx/46xx Supply Hall Switch TLE 4966 8-bit Microcontroller XC800 A-Family +12V from Battery Optional: CAN Bus LIN LDO TLE 8458G CAN Transceiver TLE 6254-3G TLE 7250G1) TLE 6251-3G TLE 6251DS Communication LIN Bus Multi Half-Bridges TLE 84106EL (3 Flaps)1) Flap #3 Flap #2 Flap #1 M Hall Switch TLE 4946 SPI Multi Half-Bridges TLE 84110EL (5 Flaps)1) Flap #5 Flap #4 M Hall Switch TLE 4946 NovalithIC ™ BTN 79x3B Motor Driver 1 I/O Hall Switch TLE 4966 SPI / Flap Control HVAC Control Module PROFET ™ BTF 50060-1TEA LS Driver Control Panel HITFET ™ BTS 3405G BTS 3800 M Blower Motor Further High-Current Loads: Heater, A/C on, Defrost etc. HVAC Control Module Balancing comfort and fuel efficiency is very important in automotive air conditioning. Reduced fuel consumption can be achieved via demand-oriented air-conditioning regulation. This could be covered by fresh air regulation (recirculating air operation) or the use of brushless DC motors in fans, for example. Benefits CCU6/MDU/CORDIC supports sinus-based system solution motor drive Fully scalable over package and memory High-speed ADC: 1.5ms conversion cycle Stepper Key Features Up to 64kB Flash with emulated EEPROM CAN/LIN option Up to 8 ADC channels Up to 10 PWM channels 1) In development 17 XC800 A-Family for Body & Convenience Application Example Window Lift Module with Anti-Pinch Function Digital Switch Monitoring 8-bit Microcontroller XC800 A-Family Low-Side Driver LIN Bus +12V from Battery Power Window HITFET ™ BTS 3405G M Position Sensor TLE 4966 TLE 4946 I/O LIN LDO TLE 8458G Communication Supply +12V from Battery Similar Module Approach for: Sunroof Module Tailgate Module Window Lift Module with Anti-Pinch The XC800 A-Family offers an excellent price-performance ratio for cost-sensitive solutions as window lift modules with anti-pinch functionality. High scalability of the XC800 A-Family supports low-end to high-end solutions. Benefits Low power consumption Low quiescent current price-performance ratio High scalability supports low-end to high-end solutions Excellent 18 Key Features LIN option Up to 8-channel 10-bit ADC Up to 10 PWM channels Small footprint packages XC800 A-Family for Body & Convenience Application Example Supply Communication LIN LDO TLE 8458G Multi Half-Bridges TLE 6208-3 M Mirror Position Up & Down Optional TLE 84106EL1) 8-bit Microcontroller XC800 A-Family HS Driver +12V from Battery LIN Bus Half-Bridge Driver LIN Mirror Module PROFET ™ BTS 5120-2EKA M Left & Right M Optional: Fold Mirror Heating Illumination Discrete Driver Optional: Electro-Chromatic Mirror Decentralized Mirror Module The XC800 A-Family offers an excellent price-performance ratio for cost-sensitive solutions as decentralized mirror modules. Furthermore, the availability of small footprint packages allows cost-optimized PCB layouts. Benefits Low power consumption Low quiescent current price-performance ratio High scalability supports low-end to high-end solutions Excellent Key Features LIN option Up to 8-channel 10-bit ADC Up to 10 PWM channels Small footprint packages 1) In development, samples available 19 XC800 A-Family for Safety Application Example 12V Voltage Regulator TLE 4278 5V VDD SSC 1kΩ CLK CAN Rx CAN Tx CAN Transceiver TLE 6250 CAN VDD 100Ω Data 100Ω 8-bit Microcontroller SCK 100Ω XC800 A-Family SCQ1 100Ω 100Ω GMR Sensor TLE 5011 100nF GND Steering Wheel Sensor The feature set of the XC800 A-Family enables easy interfacing with sensors such as the GMR sensor for angle measurement and control. The system solution can also be used in applications such as gearboxes, actuator controls etc. Benefits Excellent price-performance ratio High scalability supports low-end to high-end solutions Free tool chain DAVETM autocode generator 20 Key Features High-performance 8-bit MCU from 4kB to 64kB Flash CORDIC (Coordinate Rotation Digital Computer) coprocessor – Performs 16-bit trigonometric, hyperbolic and linear functions CAN connectivity XC800 A-Family for Safety Application Example +12V from Battery Electro Hydraulic Power Steering ECU Pressure Sensor Supply ICs TLE 42xx Pressure K-Line OptiMOS TM-T2 IPD 50P04P4L-11 8-bit MCU XC800 A-Family OptiMOS TM-T2 IPD 50P04P4L-11 M CAN/LIN Transceiver TLE 6251DS/G TLE 6258 TLE 6285G HS-CAN Electro Hydraulic Power Steering System for Low-Cost Cars The rich portfolio of the XC800 A-Family offers a cost-optimized fit for all requirements of an Electro Hydraulic Power Steering system. With this basic system approach, even low-cost cars can reap the benefits of EHPS in reducing CO2 emissions by 3%. Benefits Excellent price-performance ratio High scalability supports low-end to high-end solutions Free tool chain DAVETM autocode generator Key Features 4 to 64kB Flash EEPROM emulation for diagnostics CAN/LIN option Up to 8-channel 10-bit ADC Up to 10 PWM channels 21 XC800 A-Family for Safety Application Example +12V from Battery Supply ICs TLE 42364 TLE 42994 Wake-up P OptiMOS TM-T 30V IPD 90P03P4L-04 Current Sense/ Error Flag P 8-bit MCU XC878/88 M High-Current PN Half-Bridge IC BTN 7970/71 N Hall Sensor 2x TLE 4946-2 or TLE 4966 Safety CAN N P Vehicle Stability Control ECU CAN/LIN Transceiver TLE 6250/51 TLE 7250 TLE 7259 LIN LDO Option TLE 8458 (TLE 4266-2 + TLE 7259) Airbag ECU Seatbelt Pretensioner ECU CAN-Bus or LIN-Bus Reversible Seatbelt Pretensioner The XC800 A-Family offers a perfect product fit for all kinds of belt-pretensioner applications. Its wide scalability of low-end products and their cost-optimized feature sets give system suppliers the opportunity to choose the best-fit product in this low-end safety application. Benefits power consumption Low quiescent current Excellent price-performance ratio High scalability supports low-end to high-end solutions Low 22 Key Features option Up to 8-channel 10-bit ADC Up to 10 PWM channels Small footprint packages CAN/LIN XC800 A-Family for Powertrain Application Example Low-Cost e.g. IPD 90N04S4 TLE 7184 PWM PWM Interface CCU6 8-bit MCU XC800 A-Family VBAT Power Supply Bridge Driver 6 MOSFETs Pump 3 BLDC OP-Amp ADC 16/32-bit MCU XC2000 Family Electric Fan/Pump Application “Power on demand” is the trend for state-of-the-art powertrain peripheral aggregates across all automotive segments. Fuel pumps, water pumps, ventilation and air management all consume energy. Optimizing the efficiency of these aggregates significantly reduces emissions and improves performance. The XC800 A-Family offers a perfect product fit for electric fan/pump applications. Benefits Key Features Improved High-performance engine thermal control Better pump efficiency Reduced power consumption Speed can be adjusted to actual needs Completely switched off when engine starts for a faster warm-up 8-bit MCU with up to 64kB Flash Flexible PWM unit Fast 10-bit ADC LIN/CAN connectivity CCU6/MDU/CORDIC support sinus-based system solution/block commutation 23 XC800 A-Family for Powertrain Application Example Supply Power Microcontroller LS Switches XC800 A-Family Signal Conditioning K-LIN/Transceiver TLE 80801) Motorcycle Engine Management The next generation of small combustion engines requires more functions to comply with emission regulations, performance requirements and comfort expectations. Especially in the low-cost market for two wheelers, the XC800 A-Family is a perfect fit for the requirements and provides a cost-sensitive solution. Benefits Low-cost 2-chip system solution for motorcycle EMS Supports EFI, including EU3 emission standards 1) In development, samples available 24 Key Features 5V supply and K-Line Supports injector, multi-indication lamp XC800 150°C -Series Grade 0 Environment XC800 150°C-Series Overview TSSOP-38 QFP-48 32kB XC886 24kB XC886 16kB XC866 8kB XC866 4kB XC866 XC800 150°C-Series − Grade 0 environment Applications Automotive Turbocharger Engine cooling fan Throttle control Valve control Failsafe EPS Fuel/Oil Sensor Water/Oil/Fuel pump Key Features Ta = -40°C − 150°C1) AECQ-100 Grade O 16-bit Vector Computer for Field-Oriented Control Nested execution of CORDIC and MDU Vector rotation and transformations Industrial Controls for heating and furnace systems Electronic controls embedded inside the engine 1) For details please check data sheet on www.infineon.com/XC800 25 XC800 I-Family for Industrial & Multi-Market XC800 I-Family – Dedicated to Industrial Applications The XC800 I-Family consists of six series of 8-bit microcontrollers based on the 8051 core architechture. It features a set of peripherals which enables use in real-time control environments such as motor control, as well as for communication purposes, capacitive touch and display control or LED lighting. All devices are developed to meet high quality and reliability requirements and a comprehensive portfolio of application-oriented tools and kits provides short time-to-market solutions for developers. Real-Time Control @ Low Cost High-performance 48MHz Capture/ Compare Unit with ADC trigger and < 1µs A/D conversion time for precise and fast control loops Math & control code ROM libraries – optimized & automated code execution saves CPU and Flash resources 16-bit coprocessor for executing the MDU or CORDIC algorithm High Reliability @ Low Cost to 130 thousand hours of operation and 20-year data retention Up 26 Flash error correction & protection, brownout detection, automated dead-time control For use in IEC 60730/Class B-certified applications Short Time-to-Market Solutions Automated device configuration and code generation, complete Infineon application solution kits Free Infineon development tool chain; support from leading tool chain suppliers Scalable product family with “pin-to-pin” compatible devices XC800 I-Family for Industrial & Multi-Market XC800 I-Family Portfolio TSSOP-16 0.65mm pitch TSSOP-20 DSO-20 0.65mm 1.27mm DSO-24 1.27mm TSSOP-28 0.65mm TSSOP-38 LQFP-48 0.50mm 0.50mm LQFP-64 0.50mm XC878 64kB XC858 XC878 52kB XC858 36kB XC858 32kB XC886 XC888 24kB XC886 XC888 16kB XC866 8kB XC835 4kB XC822 2kB XC822 XC864 XC824 XC836 XC866 XC836 XC866 XC800 I-Family Block Diagram Peripheral Bus XC800 Core Dual Cycle 2–64kB Flash Interrupt Controller UART 256Byte RAM + 64Byte Monitor RAM T0/T1 Vector Computer CORDIC 0.5–3kB XRAM MDU Boot ROM SSC I2C MultiCAN Serial Interfaces Program and Data Memory Bus UART1 Timer 2 Timer 21 CCU6 Ports System Control Unit LED Touch Sense Unit T2CCU EVR, POR, Brownout OSC & PLL ADC Watchdog Timer Debug & JTAG www.infineon.com/XC800 27 XC800 I-Family for Industrial & Multi-Market Application Example XC836 Display Panel, Direction Signals etc. I/O CTRAP Emergency Stop (1)1) COUT63 PWM (1)1) Motor Drive Signals (6)1) CCU Hall I/P (3)1) Sensor Battery Recharger Phase Voltage Sensing (3)1) Battery Voltage Sensing (1)1) Battery Current Sensing (1)1) Driver M Current Sensing (1)1) ADC DC Link Voltage Sensing (1)1) Accelerator Brake E-Bike In the growing market for electronic vehicles like the E-Bike, low-cost and highly-efficient control solutions are required. In this example, the XC836 microcontroller handles the motor control, battery charging and other functions of the ECU. Key features of the controller include symmetric PWM with automatic dead-time for up to three phases, a fast AD converter that can be triggered synchronously with PWM, hardware-implemented fault handling and automatic Hall-effect sensor decoding and a HW noise filter. Key Features High-performance motor control @ 48MHz Symmetric PWM with automatic dead-time for up to three phases Fast AD converter that can be triggered synchronously to PWM Hardware-implemented fault handling Automatic Hall-effect sensor decoding and HW noise filter 1) Number of signals 28 XC800 I-Family for Industrial & Multi-Market Application Example SMPS CoolSET TM F3R PMA 7105 LED Indicator SMPS CoolSET TM F3R CoolMOS TM Temperature Sensor TDA 5230 Driver EiceDRIVER TM 8-bit MCU XC836 XC800 I-Family 8-bit MCU XC878 XC800 I-Family IGBT TRENCHSTOP TM RC IGBT Driver HVMOS M BLDC Motor Sensor/ Sensorless M Fan Sensor/Sensorless Valves Indoor Unit Outdoor Unit Driver HVMOS Driver HVMOS M M Indoor Fan Sensor/Sensorless Louver Motor Sensor/Sensorless Air Conditioner Due to the scarcity of fossil fuels and the negative environmental impact of CO2 emissions, energy-efficient designs − especially in the case of mass applications − are crucial. Such mass applications include air conditioners – nowadays predominantly with low-efficiency motor drive and power conversion solutions. This example shows an improved solution with the use of only two 8-bit microcontrollers. Key Features Inverter control Compressor restart delay Outdoor fan speed control Overcurrent protection Temperature control Power Factor Correction (PFC) Safety Temperature arithmetic processing Indoor fan control 29 XC800 I-Family for Industrial & Multi-Market Application Example SMPS CoolSET TM F3R CoolMOS TM Main Motor BLDC Sensor/ Sensorless Control Panel Driver EiceDRIVER TM LED Display HVMOS CoolMOS TM M 8-bit MCU XC878 XC800 I-Family Temperature Sensors High-Efficiency Pumps/Fans High-efficiency pumps/fans are another mass application and another good example of the high feature integration in our 8-bit microcontrollers. The XC878 handles the operation of high-efficiency pumps and fans, providing advanced motor control functionality such as field-oriented control for higher operation efficiency. Furthermore, the same microcontroller also performs power factor correction to increase the efficiency of power conversion. IEC 60730/Class B certification guarantees a proven secure solution for home appliance devices. Key Features Temperature control LED display Inverter control Power Factor Correction (PFC) Safety 30 XC800 I-Family for Industrial & Multi-Market Application Example SMPS CoolSET TM F3R CoolMOS TM Induction Cooker Control Panel LED Indicators Roster Heater Driver Radiant Heater Driver IGBT RC IGBT 8-bit MCU XC824 XC800 I-Family Temperature Sensors Driver M Cooling Fan Sensor/Sensorless Induction Cooker The electronic design of an induction cooker offers an excellent example of the high feature integration in our 8-bit microcontrollers. The XC824T microcontroller with only 4kB of Flash in a mere 20-pin package manages the cooking temperature control and provides advanced power switch control for increased efficiency and device durability. Furthermore, it enables a human-machine interface based on capacitive touch sense control and direct drive of the corresponding LED display. Key Features Control panel capacitive touch sense control Direct drive of LED display Temperature control Timer control Power control Safety 31 XC800 I-Family for Industrial & Multi-Market Application Example LED Board Isolation Buck Converter for LED Current Control LEDs XC824 Buck Converter for LED Current Control LEDs Vreg IFX 20001 Buck Converter for LED Current Control LEDs MOSFETs IPD 78CN10N Buck Converter for LED Current Control LEDs Buck Converter for LED Current Control LEDs XC824 Buck Converter for LED Current Control LEDs Vreg IFX 20001 Buck Converter for LED Current Control LEDs MOSFETs IPD 78CN10N Buck Converter for LED Current Control LEDs 50V 12V Power Board AC IN Power Factor Correction (Critical Conduction Mode) MOSFET SPP 08N50C3 400V Half-Bridge LLC Resonant Converter Gate Driver 2ED005I12 LED Board MOSFETs IPA 50R299CP XC824 Control Panel XC824 Touchwheel High-Brightness LED Lamp System The No. 1 trend in contemporary lighting design is probably the advance made by highbrightness LEDs, driven by the high energy-efficiency and durability of LED. In addition to this, connectivity with lighting networks offers yet another incentive to increase the efficiency of solutions. The XC824 in this example enables a street lighting system design with a flexible and efficient power supply and network communication for remote light control. A major benefit to customers is the fact that this allows them to protect their solution and maintain flexibility using a SW solution stored in the MCU Flash memory. Key Features Primary side AC/DC PFC and DC/DC control supporting a flexible output from 12V to 50V for various luminairs Secondary side LED current control Remote light control communication network Flexible and protectable SW solution stored in the MCU Flash 32 Motor Control and Automation Solutions Low-Cost Solutions for Motor Control and Automation In fast-growing mass markets in particular, low-cost and fast time-to-market solutions are crucial. Nevertheless, customers will accept no compromises in their quest for smart and energy-efficient designs. The mass markets for electric drives are increasingly adopting more efficient brushless motors or even sensorless motors, thereby reducing the bill of material (BOM) and making magnetic field sensors obsolete. Infineon’s XC800 microcontrollers and solutions are an excellent fit for these emerging requirements. For many years now, Infineon has been a leading supplier of motor control in eBikes. Product Benefits The XC800 product family of 8-bit microcontrollers provides a scalable portfolio of low-cost devices for various types of motor control and industrial automation: Portfolio from 2kB to 64kB Flash and from 16-pin to 64-pin package options, qualified up to an operating temperature of 150°C peripherals and ROM code for field-oriented 3-phase motor control (FOC) solutions for AC/DC Optimized Power Factor Correction MultiCAN technology supporting 2 CAN nodes with 32 message objects Direct drive of stepper gauges 25mA with a sink current up to 50mA and overcurrent detection Protocol For stack for implementation into IO-Link sensor/actuator networks use in IEC 60730/Class B-certified applications www.infineon.com/indrive 33 Motor Control and Automation Solutions Scalable Motor Control Solutions The XC800 microcontroller portfolio features scalability for various motor contol schemes. XE166 XC2000 XC874 XC878 XC886 XC888 XC835 XC836 XC822 XC824 XC866 Vector Computer MAC Unit Enhanced Vector Computer Vector Computer MDU PWM Unit with Hall Sensor Mode Fast PWM Unit with Hall Sensor Mode Block Commutation with Hall Sensors Sinusoidal Commutation with Hall Sensors PWM Unit Triggers ADC Unit PWM Unit Triggers ADC Unit Two PWM Units Trigger ADC Unit Three PWM Units Trigger two ADC Units Field-oriented Control Sensorless Field-oriented Control Sensorless Field-oriented Control Sensorless Dual Motor Field-oriented Control Sensorless Infineon provides a wide range of BLDC bridge drivers, microcontroller-optimized for complete motor control solutions. 34 TLE 7183F 5.5 ... 28V 0 ... 100% Duty Cycle 1 OPAmp No VReg 2-bit Diagnosis TLE 7184F 7.0 ... 40V 0 ... 95% Duty Cycle 1 OPAmp 5V LDO Integrated 1-bit Diagnosis TLE 7185E 5.5 ... 40V 0 ... 95% Duty Cycle 0 OPAmp No VReg 1-bit Diagnosis TLE 7188F 5.5 ... 28V 0 ... 100% Duty Cycle 2 OPAmps No VReg 2-bit Diagnosis TLE 7189F 5.5 ... 28V 0 ... 100% Duty Cycle 2 OPAmps No VReg 2-bit Diagnosis Motor Control and Automation Solutions DAVE™ Drive − Application Code Generator for Motor Control The DAVE™ Drive auto-code generator provides application code for a complete motor control system Significantly shortens the evaluation time for motor control developers as the motor control code can be generated via a GUI instead of writing several thousand lines of code by hand Gives hardware engineers easy access to electronic systems Uses the full power of Infineon’s microcontroller – it generates, for example, optimized algorithm code for devices, a task which usually requires expert knowledge in both motor control and assembler programming Free download at www.infineon.com/davedrive IO-Link Slave Solution for XC800 What is IO-Link? Standardized sensor/actuator interconnection Simple 3-wire point-to-point connection Sensor/actuator Find fully visible from the lowest to the highest communication layer out more at www.infineon.com/io-link IO-Link Partners for IO-Link SW Stack Technologie Management Gruppe Karlsruhe www.tmg-karlsruhe.de Benefits during installation, operation and maintenance communication with built-in error detection Robust Easy (re-)calibration and parameterization without engagement on sensor/actuator level, but from the top-level communication layer Easy integration into well-established fieldbus systems based on reduced and unshielded cabling www.infineon.com/DAVEDrive Engineering www.mesco.de 35 Motor Control and Automation Solutions Motor Control Application Kits Infineon’s application kits for low-cost motor control and automation offer full hardware (HW) and software (SW) solutions for different power classes and topologies. LIN Stepper Application Kit www.infineon.com/LinStepper Key Features XC866 ––PWM unit ––Fast ADC with <200ns sample time Supports 50 to 200mA stepper motor On-board stepper gauge Software package included to control the stepper motor and deploy your own design Applications Instrumentation/gauges Multi-axis positioning Surveillance equipment Free toolchain including compiler and debugger MiniWiggler for JTAG debug via USB interface Ready for LIN prototyping DAVETM-compatible software packages Suitable for Windows 98/2000/XP/7 CNC machining Printers Business Automotive BLDC Motor Drive Kit Key Features Scalable 3-phase inverter Sample code: FOC & V/f for XC886 and XC2238N Integrated protection features for high system reliability Applications Pumps Fans 36 machines www.infineon.com/bldc Complete IDE software packages included Easy installation, plug & play Motor Control and Automation Solutions BLDC (Brushless DC) Application Kit Key Features XC866 ––PWM unit ––Fast ADC with <200ns sample time Power board 9V − 18V, 20A 50W PMSM motor and plug-in 12V power supply Uses Infineon NovalithICTM BTN 7960B and TLE 4264 LDO www.infineon.com/BLDC DAVETM Drive auto-code generator (fully-functional application code) for ––Block switching with Hall sensors and sensorless ––Free toolchain including compiler and debugger Digital isolated real-time monitoring tool (USB to JTAG and CAN bridge) Tutorial videos demonstrating how to use the kit Suitable for Windows 98/2000/XP/7 Applications Water pumps Fuel pumps Fans Valves Power DAVETM Drive Application Kit Key Features XC886 with vector computer tools www.infineon.com/davedrive toolchain integrated in DAVETM Drive ––PWM unit ––Flexibly generates optimized code ––Fast ADC with <200ns sample time and is not based on static libraries Power Board 23V – 56V, 7.5A ––Configures Infineon’s powerful and 15W PMSM motor and plug-in flexible motor control peripherals 24V power supply ––Compresses a detailed user manual Uses Infineon 6ED003L06 gate driver, into a few mouse clicks TM BSC196N10, MOSFETs, CoolSET ––Helps designers to quickly and easily ICE3B0565 power supply and TLE 4264 LDO implement advanced motor control TM DAVE Drive auto-code generator techniques on low-cost components (fully-functional application code) for Digital isolated real-time monitoring ––Block switching with Hall sensors tool (USB to JTAG and CAN bridge) and sensorless Suitable for Windows 98/2000/XP/7 ––Sensorless FOC of PMSM Applications motor controls Transportation systems Industrial Free Consumer motor controls Appliance motor controls 37 Motor Control and Automation Solutions FOC Drive Application Kit Key Features XC878 with vector computer ––Two independent PWM units ––Fast ADC with <200ns sample time XE164 real-time signal controller with MAC unit ––Three independent PWM units ––Two independent fast ADCs with <200ns sample time Power board 23V − 56V, 7.5A 15W PMSM motor and plug-in 24V power supply www.infineon.com/FOCdrive Uses Infineon 6ED003L06 gate driver, BSC196N10, MOSFETs, CoolSETTM ICE3B0565 power supply and TLE 4264 LDO Software package including source code ––Sensorless FOC of PMSM with XE164 ––Sensorless FOC of PMSM with XC878 Free toolchain for XC878 and XE164 including compiler and debugger Digital isolated real-time monitoring tool (USB to JTAG and CAN bridge) DAVETM-compatible software packages Suitable for Windows 98/2000/XP/7 Applications Industrial drives Fans, blowers Pumps 3-Phase Drive Application Kit Key Features with vector computer XC886 ––PWM unit ––Fast ADC with <200ns sample time Power board 110V – 230V AC, 3A ––Inverter with 375W – 750W Uses Infineon IKCS12F60 CIPoSTM 12A, CoolSETTM ICE 3B0565 power supply and TLE 4264 LDO Applications Home appliances ––Washing machines ––Dishwashers 38 www.infineon.com/3phasedrive Software package including source code ––Sensorless FOC of PMSM ––V/f control of ACIM for quick evaluation ––Free toolchain including compiler and debugger Digital isolated real-time monitoring tool (USB to JTAG and CAN bridge) DAVETM-compatible software packages DAVETM Drive-ready Suitable for Windows 98/2000/XP/7 Industrial ––Pumps ––Fans motor controls Motor Control and Automation Solutions Dual Motor Drive Application Kit Key Features XC878 with vector computer www.infineon.com/2motordrive ––Two independent PWM units ––Fast ADC with <200ns sample time XE164 real-time signal controller with MAC unit ––Three independent PWM units ––Two independent fast ADCs with <200ns sample time Power Board 110V – 230V AC, 8A ––Inverter A with 900W – 1800W ––Inverter B with 100 – 200W ––Boost converter for Power Factor Correction (PFC) package including source code ––Simultaneous control of two PMSMs with sensorless FOC & digital PFC with XE164 ––Sensorless FOC & digital PFC with XC878 ––V/f control of ACIM for quick evaluation Free toolchain for XC878 and XE164 including compiler and debugger Digital isolated real-time monitoring tool (USB to JTAG and CAN bridge) DAVE™-compatible software packages Uses Suitable Infineon IKCS17F60 CIPoS™ 17A, 6ED003L06 gate driver, SPD04N50C3 MOSFETs, IDT08S60 SiC diode, SPA15N60C3 MOSFETs, CoolSET™ ICE3B0565 power supply and TLE 4264 LDO Applications Air conditioning Industrial drives Fans, blowers Software Pumps White goods IO-Link Kit Key Features XC800 8-bit microncontroller ––High-performance 8051 ––Device IO-Link for intelligent control nodes ––SPI interface ––CAN, ADC, PWM, Timers for Windows 98/2000/XP/7 www.infineon.com/io-link XE166 16-bit real-time signal controller ––Real-time performance ––DSC ––SPI interface ––Hardware support for up to 10 IO-Link channels with FIFO buffer for each channel ––Parallel Interface, CAN, ADC, PWM, Timers 39 Advanced Touch Control Solutions Solutions for Advanced Touch Control Infineon’s technology is based on the capacitive touch sense principle and was optimized for easy use in highly-integrated industrial and automotive applications. The actual sensing is controlled via a dedicated functional unit on the microcontroller. The high operation frequency allows time-multiplexed operations through the same pins. This way, for example, touch sensing can be combined with the control of an LED matrix used in displays. Our dedicated microcontrollers from the XC82x and XC83x series feature a library for this solution as part of the ROM code. Product Benefits Reliable touch control technology based on oscillator relaxation topology Adjustable to suit various cover materials Dedicated peripheral unit with 7 I/Os featuring combined touch and display control Low pin-count and cheap single-layer PCB designs Direct drive of stepper motors or displays with up to 50mA ROM library saves development time, Flash memory and CPU resources 40 www.infineon.com/intouch Advanced Touch Control Solutions Thanks to Infineon’s touch control technology, customers can enjoy the benefits of a highly-customized touch interface layout – meaning that their human-machine interfaces will have a unique look and feel. Button The capacitance of the button electrode is gauged by the controller IC. The button’s primary function involves detecting the presence of the user’s finger. All types of button designs can be realized. Slider Finger movement along a one-dimensional path is detected by the slider function. Volume control is just one of the many areas to benefit from slider technology. Wheel A small amount of electrodes experience an increase in capacitance whenever a user scrolls the wheel with his/her finger. The precise position of the finger is then determined based on the calculated rise in capacitance. Matrix Numbers and letters are identified via matrix functionality. Finger movement is decoded to determine the precise function that the user wishes to access. 41 Advanced Touch Control Solutions Application Kits for Advanced Touch Control Color Wheel Application Kit www.infineon.com This kit is built around Infineon’s new XC822 8-bit microcontroller and is a ready-to-use solution for adjusting the color, saturation or brightness of light using a capacitive touch wheel and button as its HMI. The application example code is loaded to the microcontroller’s Flash memory and can be accessed and modified with DAVE™ Bench – Infineon’s free development tool chain. Customers can easily build up on this code and develop their own solution with a fast time-to-market. Key Features Flexible and ready-to-use control solution for adjusting LED colors with a touch wheel XC822 microcontroller featuring capacitive touch and LED supply control Application example code for touch wheel/button and LED color control 42 Documentation and tools on CD-ROM ––DAVE™ Bench free development tool chain ––Product and application documentation USB I/F for power supply and programming access Advanced Touch Control Solutions 7-Button Application Kit www.infineon.com This kit is built around Infineon’s new XC822 8-bit microcontroller and is a combined control solution for capacitive touch buttons and LED-display functionality. The sensing sensitivity is adjusted to work with a 2mm acrylic glass cover mounted on the substrate. A dedicated functional unit on the XC822 microcontroller manages both the control of the capactitive touch sensing and the driving of an LED matrix for use in displays. A specific ROM code is part of the device – this reduces the workload involved in configurating and calibrating the design. The application example code is loaded to the microcontroller’s Flash memory and can be accessed and modified with DAVE™ Bench – Infineon’s free development tool chain. Customers can easily build up on this code and develop their own solution with a fast time-to-market. Key Features Flexible and ready-to-use solution for combined capacitive touch and LED-display control XC822 microcontroller featuring a dedicated functional unit for touch and display control and a ROM library for supporting configuration and calibration Application example code for controlling 7 touch buttons and 7 touch indicator LEDs Documentation and tools on CD-ROM ––DAVE™ Bench free development tool chain ––Product and application documentation USB I/F for power supply and programming access 43 Industrial Lighting Solutions Solutions for Intelligent Industrial Lighting Due to escalating energy costs and a heightened awareness of energy consumption, lighting systems are more often viewed from a total cost of ownership (TCO) perspective. Particularly in the field of industrial lighting systems such as office, building or street lighting, investments in advanced lighting and lighting control technologies pay off quickly. Effective measures aimed at increasing energy efficiency include the use of high-brightness LEDs, integration into lighting networks and the improvement of power stage efficiency. Especially when designing LED systems, consideration has to be given to the fact that LED light efficacy (lumen per Watt) will continue to increase due to ongoing progress in LED technology development. All this drives the need for intelligent digital control and flexible system solutions. Product Benefits A Capture/Compare Unit with direct ADC hardware link and flexible duty-cycle PWM with two 16-bit 48MHz timers e.g. for real-time control of power stages Multiple communication interfaces (UART, SPI, I2C) and DALI protocol stacks for network integration Excellent device robustness for a long application lifetime (20-year data retention and over 130 thousand hours of operation) 44 www.infineon.com/inlight Industrial Lighting Solutions DALI Solutions The Digital Addressable Lighting Interface (DALI) is a protocol that enables the design of lighting communication networks. For detailed information on DALI, please refer to www.dali-ag.org. With its XC82x- and XC83x-Series, Infineon provides low pin-count microcontrollers for designing DALI-conforming control gears. The DALI control gear software stack was tailored to suit these product series and is available as a free download (go to www.infineon.com/inlight and select the “DALI solutions” subcategory). A dedicated evaluation kit will soon be available. DALI Evaluation Kit and Tools from Infineon LightNET DALI configuration SW for groups and scenes Easy Kit as DALI Master Board USB/UART PC Connector XC82x/XC83x SW Stack DALI PHY Easy Kit as DALI Slave Board Easy Kit as DALI Slave Board XC82x/XC83x SW Stack XC82x/XC83x SW Stack DALI PHY DALI PHY DALI Bus 45 Tools Starter Kits Board Product Names Description Order No. XC822 For evaluating XC822 microcontrollers; including USB cable, KIT_XC822_EK_V1 high-power LED module, boost converter, capacitive touch pads and CD-ROM with technical documentation (user manual, data sheets, board documentation, Errata sheets), DAVE™ Bench free development tool chain (compiler, 8-bit debugger, Flash loader) and application code examples with Microcontroller hands-on training. XC835 XC836 For evaluating XC835 and XC836 microcontrollers; including KIT_XC836_EK_V1 USB cable, capacitive touch pads, LED display and CD-ROM with technical documentation (user manual, data sheets, board documentation, Errata sheets), DAVE™ Bench free 8-bit development tool chain (compiler, debugger, Flash loader) Microcontroller and application code examples with hands-on training. XC864 XC866 XC878 XC886 XC888 8-bit Microcontroller 46 For evaluating XC864/ XC866/XC878/XC886/XC888 microcontrollers; including documentation, compiler, debugger, operating system, parallel cable and one extension board. KIT_XC864_EK_V1 KIT_XC878_EK_V1 Tools USB Development Tools XC800 USCALE – Starter Kit The XC800 USCALE kit is a low-cost USB stick providing full evaluation capability for the XC866, XC886 and XC888 8-bit family of microcontrollers, all on a single platform. The kit includes a development tool chain, demos and tutorials for quick installation and ease-of-use, as well as access to the key features and hardware signals of each of the three microcontrollers for more extensive benchmarking and evaluation. Key Features Low-cost USB stick format provides a single evaluation platform for the XC866, XC886 and XC888 8-bit microcontrollers Complete tool chain support for the XC800, high-performance 8051 family of products Access to hardware signals through a 16-pin connector for evaluating the key features of each 8-bit XC800 8051 microcontroller: CAN, ADC, CapCom6E and the 16-bit vector computer Easy installation with demos and tutorials for ease-of-use and quick evaluation of key features DAP miniWiggler − High-Performance and Cost-Efficient Debugging Tool The miniWiggler is Infineon‘s high-performance and cost-efficient debugging tool for the future. On the host side, it has an USB interface, which is available on every computer. On the device side, the communication is via Infineon 10-pin DAP or 16-pin OCDSL1 interfaces. The miniWiggler was designed especially to work in combination with Infineon’s Debug Access Software (DAS). Key Features Compatible with Infineon DAP and SPD Compatible with JTAG/IEEE 1149.1 Clock rate up to 30MHz (programmable) All signals are 5.5V, scaling down to 1.65V USB 2.0 (high-speed) Certified drivers for Microsoft Windows 2000/XP/VISTA/7 USB, JTAG and DAP/SPD hotplug and unplug Three on-board status LEDs Support for OCDS1 16-pin and DAP 10-pin connectors 47 Tools DAVETM − Digital Application Virtual Engineer DAVETM helps you to program the Infineon microcontroller of your choice, by offering intelligent wizards that configure the chip to work the way you need it and automatically generate C-code with appropriate driver functions for all of the on-chip peripherals and interrupt controls. DAVETM interacts directly with the IDEs from leading tool suppliers and with Infineon’s free toolchain DAVETM Bench. To use DAVETM, you need the DAVETM mother system and the DIP file for your specific microcontroller. Key Features DAVE™ generates initialization code for Infineon microcontrollers DAVE™ displays all available peripherals in a block diagram at the start Click on a peripheral to define its functionality 48 www.infineon.com/DAVE Tools DAVETM Bench – The New Platform for Free Tools and Software DAVETM Bench is an eclipse-based platform for providing a complete set of development tools and support SW in a unified integrated development environment for Infineon microcontrollers. The first implementation supports the Infineon XC800 family. Key Features to use –– The eclipse platform has been tailored for quick success and ease-of-use. Active project –– By defining an active project, errors when building or debugging projects are avoided. Interface to DAVETM –– The Infineon solution for generating configuration code: Easy import and switch between DAVETM Bench and DAVETM. SDCC Compiler –– Optimized for the XC800 family with an easy-to-use build management. FLOAD –– Flash loader for downloading the hex code to the target via JTAG or UART/LIN BSL. Hitop Eclipse Debugger –– Level one debugger that supports the Infineon miniWiggler and Easy Kit UAB adapter. It also includes an instruction set simulator. U-SPY –– UART terminal including support to filter and sending predefined messages and visualizing received data. Easy www.infineon.com/DAVEBench 49 Tools Development Support/Tool Partners Integrated Compiler Development Environment DAVE Bench TM Emulator & Debugger Development Systems Programmer/Programming Software Operating System & Software Simulation, Modelling & Rapid Prototyping Auto-Code Generation Tools DAVE TM DAVE Drive TM Software Partners Technologie Management Gruppe Karlsruhe 50 Engineering 51 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 © 2011 Infineon Technologies AG. All Rights Reserved. Visit us: www.infineon.com Order Number: B158-H9216-G2-X-7600 Date: 02 / 2011 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. Feature Overview XC800 A-Family High current pads PWM channels 1 1 – – 10 LQFP-64 8 – 1 – – 4 – Temperature (Tambient) Touch sense control 8 Package CCU6 Up to 1 T2CCU 3 Channels Channels yes SSC LIN XRAM RAM MDU Capture/ I2C FOC UART CAN SPI ADC Compare Units SRAM ∑ SRAM ROM Program Program Flash Frequency (MHz) Core Data Flash Flash with ECC Core Feature Overview XC800 A-Family for Automotive 7-Series 8051 27 24-64 Up to 3328 256+ 3008 – 4 8-Series 8051 24 24-32 Up to 64 2 Up to +125°C 24-32 1792 256 1536 – yes 2 4-16 – 1 – 1 8 – 1 – 4 TSSOP-38 -40°C to 1 – 1 4/8 – 1 yes yes 4 TSSOP-28 -40°C to 8 6-Series 8051 27 4-16 Up to 1 2 768 256 512 – 0.128 512 256 256 yes yes TQFP-48/ -40°C to LQFP-64 4 3-Series 8051 24 4-8 -40°C to +150°C +150°C +125°C 2-Series 8051 24 4 0.128 512 256 256 yes yes 1 – 1 4 – 1 – – 4 TSSOP-16 -40°C to +125°C www.infineon.com/XC800 Feature Overview XC800 I-Family High current pads PWM channels 1 1 no no 10 TQFP-64 Temperature (Tambient) Touch sense control 8 Package CCU6 Capture/ Compare Units T2CCU ADC Channels CORDIC/MDU SPI SSC CAN Channels (messege objects) SRAM I2C FOC UART ∑ SRAM Data Flash (KB) Flash Program Flash (KB) Frequency (MHz) Core Core Feature Overview XC800 I-Family for Industrial & Multi-Market 7-Series 8051 27.67 52/64 Up to 4 3320 no yes yes 2 (32) yes -40°C to +125°C 5-Series 8051 27.67 24/52/64 Up to 4 3320 no no yes 2 (32) yes 8 1 1 no no 10 TQFP-64 -40°C to +125°C 8-Series 8051 24 24/32 Up to 8 1792 no 6-Series 8051 27.67 4/8/16 Up to 8 768 no 3-Series 8051 24 4/8 0.128 512 2-Series 8051 24 4 0.128 512 yes no yes 2 yes 8 0 1 no no no 4 4 TQFP-48/ -40°C to TQFP-64 +125°C yes 0 yes 8 0 1 no TSSOP-38 +125°C yes yes yes 0 yes 8 0 1 yes yes 4 DSO-24/ -40°C to TSSOP-28 +125°C yes no yes 0 yes 4 0 1 yes no TSSOP-16/ -40°C to 4 TSSOP-20/ -40°C to DSO-20 Published by Infineon Technologies AG 85579 Neubiberg, Germany © 2011 Infineon Technologies AG. All Rights Reserved. Visit us: www.infineon.com Date: 02 / 2011 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). +125°C 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.