1. Renesas Electronics America Inc. © 2010 Renesas Electronics America Inc. All rights reserved. R8C MCU Solutions - FAE Training (10Kami) - Consumer and Industrial BU Nelson Quintana, Product Marketing Rev. 1.0 Jun 14, 2010

2. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 2 Contents R8C Introduction and Positioning R8C Key Features and Benefits Renesas Capacitive Touch Solution

3. © 2010 Renesas Electronics America Inc. All rights reserved. 3 R8C MCU Family: Introduction and Positioning

4. Confidential © 2010 Renesas Electronics America Inc. All rights reserved. 4 Renesas MCU/MPU Portfolio Focused Solutions for 10Kami: This presentation material focuses on these areas

5. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 5 R8C/2x Full R8C Family Line-up R8C/3xC R8C/3xD R8C/Mx R8C/LAx R8C/L3xC General Purpose (GP) Pins: 20-80 Flash: 4-128 KB RAM: 0.5-10 KB Pins: 20-52 Flash: 4-32 KB RAM: 1 KB Pins: 20-80 Flash: 2-128 KB RAM: KB Pins: 14, 20 Flash: 2-8KB RAM: KB Segment LCD Pins: 52-100 Flash: 48-128 KB RAM: KB Pins: 32-80 Flash: 16-64 KB RAM: KB Connectivity R8C/2x R8C/3xW-Z Automotive CAN Pins: 48-80 Flash: 32-128 KB RAM: KB Pins: 20-48 Flash: 16-128 KB RAM: 1 KB R8C/3xE-H CAN Pins: 48-80 Flash: 32-128 KB RAM: KB Not recommended for new designs R8C/1x Pins: 20, 32 Flash: 4-32 KB RAM: KB 10Kami Alternative R8C/3xT Capacitive Touch Pins: 32 Flash: 16-32 KB RAM: KB R8C/2x Industrial CAN Pins: 48 Flash: 32-128 KB RAM: KB Contact Marketing

6. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 6 No Fit: 12-bit ADC Less than 14-pins R8C/3xT: LCD Touch Screen No Fit: 12-bit ADC Less than 14-pins R8C/3xT: LCD Touch Screen R8C: Reference Sheet R8C Series Key Selling PointsTarget ApplicationsCompetitors R8C/3xC Extensive scalability (4KB to 128KB) Up to 10KB SRAM Data Transfer Controller Data Flash with BGO White Goods, Low-end Motor Control, Security Systems, Audio accessories STM8S, S08, ATtiny, ATMega, PIC16/18 R8C/3xD 100% compatible to selected R8C/3xC at lower cost Office Equipment, Audio accessories, Security Systems STM8S, S08, ATtiny, PIC16/18 R8C/Mx Lowest cost R8C (14 and 20 pins) 1.8V Data Flash reprogramming 150uA/MHz operating current Smoke detectors, Sensors, Medical devices Low pin count devices: PIC16, MSP430G2 R8C/3xT Capacitive touch and system control in a single chip Sensor Control Unit (SCU) offloads CPU by over 85% bandwidth Full debugging capabilities Alarm keypads, digital thermostats, Medical devices, consumer products, home appliances Atmel (Qtouch, QMatrix), Cypress (CapSense), STM8S/L, PIC16/18, S08 Alternative Products: R8C/2x is alternative to R8C/3xC, /3xD K0/Kx2-A is alternative to R8C/3xC if 12- bit ADC is needed K0S/Kx1+ (10-pin) and R8C/1A-1B are alternatives to R8C/Mx Alternative Products: R8C/2x is alternative to R8C/3xC, /3xD K0/Kx2-A is alternative to R8C/3xC if 12- bit ADC is needed K0S/Kx1+ (10-pin) and R8C/1A-1B are alternatives to R8C/Mx Main Points: Extensive scalability and compatibility Hardware- assisted Capacitive Touch MCU Main Points: Extensive scalability and compatibility Hardware- assisted Capacitive Touch MCU

7. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 7 R5F21321D R5F21332D R5F21321C R5F213G2D 8 KB 4 KB 16 KB 24 KB 32 KB 48 KB 64 KB 96 KB 128 KB 20LSSOP24LSSOP/ 24QFN** R5F213G2C R5F21322D R5F21322C R5F21324D R5F21324C 32LQFP R5F21331D R5F213G4D R5F213G4C R5F213G5D R5F213G5C R5F213G6D R5F213G6C R5F21336D R5F21332C R5F21334C R5F21335C R5F21336C 36QFN R5F213J2C R5F213J4C R5F213J5C R5F213J6C 48LQFP R5F21344C R5F21345C R5F21346C R5F21354D R5F21355D R5F21356D R5F21354C R5F21355C R5F21356C R5F21357C R5F21358C R5F2135AC 52LQFP R5F2135CC R5F21364C R5F21365C R5F21366C R5F21367C R5F21368C R5F2136AC R5F2136CC 64LQFP R5F21386C R5F21387C R5F21388C R5F2138AC R5F2138CC 80LQFP R8C/M121A R8C/M122A R8C/M120A 2 KB 14TSSOP R8C/M110A R8C: Line-up (/3x, /Mx Series) ** : 24QFN available on R8C/3GxC only R5F21334D R5F21335D R8C/M112A R8C/M111A R8C/3GxR8C/33xR8C/3Jx R8C/35xR8C/36xR8C/38x R8C/34x R8C/M11xA R8C/32x R8C/3xC : High Performance Line (non-Automotive) R8C/3xD : Standard Line (no Data Flash) R8C/Mx : Entry Line R8C/M12xA R5F213G1D R5F21334T R5F21335T R5F21336T R8C/3xT : High Performance + Capacitive Touch Automotive versions not shown Main Points: Wide coverage from 2KB to 128KB Flash Main Points: Wide coverage from 2KB to 128KB Flash

8. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 8 Summary: Push R8C’s extensive scalability and core compatibility with M16C and R32C Only R8C and TI have 16-bit core TI’s new MSP430G2 series will compete against R8C/Mx STM8S series is closest match to R8C line-up Use K0, K0R Ultra low power devices to address the low power space Top Strengths Extensive Scalability, Efficient real- time control Broad offering, Low power Strong in Automotive, Advanced OCD Rich Ecosystem, low power line-up Super low power, advanced analog, high performance Scalable, low power line-up R (R8C)A (AVR)F (S08)M (PIC16)M (PIC18)T (MSP430)S (STM8) Top Weaknesses No USB Small RAM, limited OCD Low performance Low performance, limited OCD Limited line-up Only 3 rd - party C compiler Unique Offering DTC, BGO, up to 10KB RAM Various ASSPs, USB OTG, 256KB 1.8V Flash re-programming KeeLoqEthernet Advanced Analog, 256KB Flash, RF option Read while Write, 24MHz operation Market Perception Unknown, Expensive High performance (RISC) Robust, Compatible with 32-bit (Flexis) Easy to use Lowest power, Expensive STM32 compatible R8C vs. Main Competitors OCD: On-chip Debug Main Points: Push R8C’s scalability STM8S is aggressive, but R8C performance is better Promote K0, K0R for low power Main Points: Push R8C’s scalability STM8S is aggressive, but R8C performance is better Promote K0, K0R for low power

9. © 2010 Renesas Electronics America Inc. All rights reserved. 9 R8C MCU Family: Key Features and Benefits

10. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 10 Top Reasons To Use R8C MCUs 8 Scalable Low System Cost Powerful Green Versatile Immune Compliant IEC/UL compliant hardware for safety standards Accurate 40MHz internal oscillator POR, data flash Serial, parallel, self- programming options Advanced timers and debug unit 16-bit CPU + MUL Advanced interrupt controller Data Transfer Controller Sub 1uA standby even at 5V operation Lead-free Excellent noise performance Over 300V level fast transients at IC 1-Stop Shop Free 64KB compiler Free application builder Free Factory Programming Services 1 8 7 6 4 3 2 5 Over 1000 compatible devices

11. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 11 R8C Series Flash Size (KB) GP & ASSP Microcontrollers GP & ASSP Microcontrollers R8C Series Pin Count (1.8 to 5.5V) 3x 1x2x (2.2 to 5.5V) LCD Microcontrollers LCD Microcontrollers (1.8 to 5.5V) L3x (2.7 to 5.5V) Extensive Scalability 1.Broad compatible Line-up:2KB to 128KB Flash; 20 to 100-pin packages 2.Comprehensive Solutions: General Purpose, Application Specific and LCD Controllers Main Points: True scalability: CPU, peripherals Main Points: True scalability: CPU, peripherals Over 1000 Full Compatible P/N’s (CPU + Peripherals) 1

12. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 12 Extensive Scalability (2) 1.Full Pin Compatibility:UNMATCHED!!!  R8C/3x pin layout provides no crossing 2.Package Scalability: Careful selection of packages for multiple footprints Optimized Pin Layout Diverse Package Types and sizes (from 4mmx4mm to 16mmx16mm) Main Points: True scalability: Pin-out, packages Main Points: True scalability: Pin-out, packages 1

13. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 13 R8C/33T (Touch, 32-pin) Compatibility: R8C/33C vs. R8C/33T R8C/33C (GP, 32-pin) 1

14. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 14 Pop Quiz-1: Select Correct Answer 1)What MCU Families does Microchip use to cover 8-bit space which compete against R8C? a)PIC10 and PIC 12 b)PIC16 and PIC 18 c)PIC24 and PIC32 d)A and B e)All of the above

15. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 15 Scalability/Compatibility from Others… Microchip 8-bit Line-up Different Instruction Sets Are these Compatible ??? Main Points: Microchip’s limited scalability due to narrow coverage Main Points: Microchip’s limited scalability due to narrow coverage

16. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 16 R8C’s Performance 1.Performance Core:-16-bit CISC CPU supporting 8-, 16-, or 32-bit operations -16x16 bit multiplication in 5 cycles 2.Advanced Interrupt Processing: -Dedicated Interrupt Vectors + 7 Priority Levels -Context Switching R8C CPU Core INTBL PC 0 20 ISP FLG SB USP 0 15 Hardware Multiplier R0HR0L R1HR1L R2 R0HR0L R1HR1L R2 R3 FB A0 A1 FB 0 15 Up to 1MB addressable Memory Space Fast 16-bit Multiplication Two Stack Pointer Registers Static Base Configure/Status Context Switching 16-bit CPU + HW MUL PIC16 Stack 32-bit Configuration R0HR0L R1HR1L R2 R3 FB A0 A1 15 R0HR0L R1HR1L R2 R3 A0 A1 FB 0 15 SWITCH Dual Register Banks Relocatable Interrupt Vector Table R2 R3 B0 B1 Address Data Frame Base Limited architecture PIC16 8-bit CPU 8 Main Points: 16-bit CPU with MUL Dual register banks for context switching Main Points: 16-bit CPU with MUL Dual register banks for context switching 2

17. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 17 STM8: CPU Architecture -Limited CPU registers -8-bit Accumulator register -CPU intensive interrupt processing

18. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 18 Low System Cost % Accuracy 2.73.54.55.5 Vcc (V) 5 - 5 Typical MCU R8C/2A-2D -20-100+25+40+85 Temp (C) 40MHz +/- 2 % - 1 1 VCC [V] Vdet0 0 In reset Internal status Vdet1 Vdet2 Interrupt or Reset Interrupt or Reset Program execution Voltage Monitor Interrupt / Reset In reset Power-On Reset Data Flash Program Flash SRAM Wear-leveling Example No need for trimming! Over 1Million cycles of 20-byte Data Guaranteed Reliable Start up! 1.Resonator:-40MHz internal oscillator (R8C/Mx: 20MHz) 2.EEPROM: -Up to 4KB of Data Flash (R8C/3xC) 3.Reset IC: -POR and LVD Main Points: R8C’s +/-2% over temperature is still best in industry Wear-leveling software can extend the use of Data Flash Main Points: R8C’s +/-2% over temperature is still best in industry Wear-leveling software can extend the use of Data Flash 4

19. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 19 Internal Oscillators from Others… Not below 0C 16MHz max. and Room Temp. only Need user Trimming Do these need external resonator ??? PIC16F688 STM8S207 S08KA2 Main Points: Competitors advertise +/-1% accuracy, but specifications say otherwise Main Points: Competitors advertise +/-1% accuracy, but specifications say otherwise

20. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 20 R8C’s Support and Extensive Infrastructure 1.Free Development Tools:– C Compiler (64KB max) – Application Builder (IOWizard) 2.Easy Debugging:– Full Kits – Single wire debug with tracing 3.Lots of Support Infrastructure: – Hundreds of App Notes and Sample Code – Partners – On-line Community (Renesas Rulz) 4.Hassle-free Eval. & Production:– Free samples – On-line Order for Devices + Tools – Free Factory Programming IOWizardUnified IDE (HEW) + C CompilerTarget + Emulator + Code1-wire Debug with Trace Free SampleOn-line OrderFree Programming *100+ Application Notes + Sample CodeAlliance Partners + Community * up to 32KB; only set up fee required ONE STOP SHOP!!! Main Points: Free C Compiler for >80% of the R8C line-up Complete infrastructure Main Points: Free C Compiler for >80% of the R8C line-up Complete infrastructure 8

21. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 21 Need different tool versions Need to purchase 3 rd party Support from Others… Are these Easier ??? Microchip Compiler ST Compiler Main Points: Tools are important – R8C has clear advantage Main Points: Tools are important – R8C has clear advantage

22. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 22 Pop Quiz-2: Provide Answer 1)Top Selling Points for R8C GP devices? Extensive Scalability: 14 to 80 pins, 2KB to 128KB Flash High performance: 16-bit CPU Largest RAM size in its class: 10KB Reduced system cost: High-speed internal oscillator, Data Flash and POR circuits Free C Compiler for over 80% of devices: up to 64KB code space

23. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 23 1.Against Microchip (still holds largest 8-bit market share) a)Chase all PIC16 and PIC18 sockets that fit R8C!!! b)Highlight R8C’s CPU advantages against PIC’s limitations (ex: stack) c)Up to 20MHz CPU operation vs. PIC’s divided by 4 clock source 2.Against STM8S a)Highlight R8C’s CPU advantages (ex: dual register banks) against STM8’s single 8-bit Accumulator-based architecture b)R8C’s excellent EMS and EMI performance c)R8C’s 40MHz OCO vs. 16MHz OCO d)Limited tool offering from ST e)R8C/3xC’s 10KB RAM vs. STM8S 6KB RAM max. 3.Against TI MSP430G2x (low pin count) a)Position R8C/Mx and emphasize R8C’s extensive scalability b)R8C’s excellent EMS and EMI performance How to Win Cheat Sheet for R8C Highlight R8C’s free tools: C Compiler for up to 64KB and IOWizard Main Points: Focus on PIC16, PIC18 sockets Use R8C’s key advantages (e.g. performance) to compete against STM8S Always emphasize the R8C’s software tools Main Points: Focus on PIC16, PIC18 sockets Use R8C’s key advantages (e.g. performance) to compete against STM8S Always emphasize the R8C’s software tools

24. © 2010 Renesas Electronics America Inc. All rights reserved. 24 Renesas Capacitive Touch Solution

25. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 25 Requires specific PCB layout guidelines Calibration & tuning procedure needed before production Drift compensation due temperature, humidity and contaminants variations is required Advanced filtering techniques may be required to reduce noise influences depending on system Many patents on software techniques General Challenges with Capacitive Touch Pad Patterns Layout Guidelines

26. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 26 Capacitive Touch Detection Methods Self-Capacitance * EMS:Medium EMI:Low Power Consumption: Low Mutual-Capacitance * EMS:Medium/High EMI:Medium/High Power Consumption: Medium/High * Characteristics may vary depending on implementation

27. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 27 MCU Suppliers Technology “Names” Detection Method Hardware- Assisted Detection Types of Solutions Available Atmel Charge Transfer Technology (QTouch and QMatrix) Self- and Mutual- capacitance Yes (MaxTouch) Touch MCU; Sw Library Cypress 1)CapSense Successive Approximation (CSA) 2)CapSense Sigma-Delta (CSD) Mutual- capacitance NoTouch MCU Freescale 1)Advanced Touch Logic (ATL) 2)Capacitive Turbo Sensing (CTS) Self-capacitanceNoSw Library MicrochipRelaxation OscillatorSelf-capacitanceNo Touch MCU; Sw Library Renesas Series Capacitance Voltage Division Self-capacitanceYesTouch MCU STRC AcquisitionSelf-capacitanceNoSw Library Capacitive Touch Solutions Landscape Most suppliers offer only a software-based solution impacting overall performance and power consumption Atmel and Cypress have advanced solutions for touch screens

28. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 28 Keys Wheels Sliders R8C/3xT Capacitive Touch Solution Touch Screens

29. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 29 Benefits of Renesas R8C/3xT Capacitive Touch Solution Flexible and Easy Optimized API, Advanced Debug And Full Support Low System Cost Low Power Consumption Specialized Touch Hardware Single-chip MCU Solution 1 2 3 4 5 Minimum External Components Standby Modes and Full Operation Sensor Control Unit (SCU) Off-Loads CPU Capacitive Touch and System Control

30. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 30 R8C CPU 2.5K RAM Timers Serial A/D conv. RBuzzer 32K Flash 4K data flash R NTC DTC POR/LVD/WDT R R R R R LIN/I²C/SSU LEDs R8C/3xT Single-chip Solution SCU PORTS R 22 keys......... Example control of cooking appliance R8C/3xT: 22 touch keys, LED’s, Buzzer, Serial Communication, etc.

31. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 31 R8C/3xT Touch Detection Method Detection method is based on self-capacitance Changes in capacitance at electrode/sensor are detected by measuring Vx (voltage across parasitic capacitance Cx) Touch increases the capacitance value of Cx, decreasing Vx Voltage Division by Series Capacitance Earth GND Simplified MCU Connection

32. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 32 Touch Determination Charging and discharging process is performed multiple times for each channel Vx follows Vc (charge voltage across Cc) Time is measured until Vx reaches a given voltage threshold (Vth) A valid touch reduces Vx in a shorter amount of time SCU handles these processing intensive charge/discharge cycles

33. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 33 Software-based Solution In a software solution the MCU must control the ports to charge, discharge and test the circuit. During this control sequence the MCU is not available to do other tasks To ensure the touch detection and processing is properly performed, processing of other interrupts is limited Hardware-based Solution (R8C/3xT) Hardware frees up the CPU to perform other tasks during the scan of the touch pads, allowing more CPU Bandwidth and/or lower power consumption Renesas Sensor Control Unit (SCU) performs: – Sequencing and timing of the charge/discharge phase – Key scanning – High-frequency filtering – Interrupt Generation – Transfer of raw data Software Based vs. Hardware Based Capacitive Touch

34. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 34 SCU Sensor Control Unit Sequencing / Scanning performed in hardware without CPU High-frequency filtering in hardware Sensed data transferred to RAM by built-in DMA 1 2 1 1 3 1 2 3

35. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 35 Software- based solution R8C/3xT Option A Touch Scanning (SCU Operating) CPU Not Operating R8C/3xT Low CPU Bandwidth Touch Scanning (SCU Operating) CPU Performing other Functions R8C/3xT Option B CPU Active (Touch Data Processing) CPU Active (Touch Scanning) CPU Active (Other Functions) Software-based solution requires CPU to operate constantly during scanning and processing R8C/3xT CPU can be stopped completely during scanning, or can perform other operations Touch processing requires less than 15% CPU bandwidth Less than 15% CPU bandwidth

36. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 36 - Channels not processed start SCU Interrupt* Measure Ch 4 Measure Ch 2 Measure Ch 1 Measure Ch 0 Measure Ch 3 Start of scanning can be triggered by software or hardware (Timer, or External signal) Scanning of single channel or multiple channels Scanning can be done in ascending or descending order Trigger interrupt on scan completion Automated Scanning

37. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 37 Note: Time diagram for operations not to scale SCSTRT (Start bit) User Code running Ch 0 Measure SCU Operating SCU DTC Ch 0 Ch 1 Measure User Code running SCU DTC Ch 1 Ch 2 Measure User Code running SCU DTC Ch 2 SCU Interrupt Touch SW Processing Scan is started by program SCU Operating DTC Transfers SCU data Efficient Processing Measurement performed by SCU is transferred to RAM without CPU intervention Options to transfer data include DTC (shown below) and DMA built-into SCU

38. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 38 Example using scanning time cycle of 100ms triggered by timer Sub 10uA in while no touch detection 20uA during touch detection (single channel) 1.3mA in active mode at 5MHz R8C/3xT Low Power Consumption Clock SourceLow-speed OCOHigh-speed OCO Peripheral Clock125kHz5MHz CPU StateStop Active Code ExecutionN/AFlash Memory Icc (average) *Sub 10uA20uA1.3mA * Icc values are for reference only Wait Mode

39. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 39 Touch Detection Circuit R8C CPU FLASH Data Flash Serial A/D RAM DTC Debug POR/LVD Oscillator [R8C/3xT] I/O Timers Low System Cost Only two capacitors and 1 resistor used for charge/discharge and reference Only one resistor per each channel (current protection) Only one pin per sensing channel to maximize number of electrode /sensors Support for multiple electrode/sensors per channel (Matrix configuration) 27 output pins capable to drive 20mA LED’s directly 1 AB C Cc RcCr CHxBCHxA CH0 CH1 CH2 CH3 CHxC 1 2 CH4 CH5 4 3 2 3 4 5 5

40. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 40 Optimized Software Architecture Distinct software layers for easy management Firmware available in source format Optimized driver tightly coupled to SCU Complete Sensor API to enable customization Support for Wheel, Slider, Switch Function and Matrix configurations

41. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 41 Advanced Tuning Tools Workbench tool: PC GUI designed for capacitive touch debugging Each channel can be monitored and tuned independently Setting of external component values, layout and touch surface parameters

42. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 42 True 1-Wire Communication I/F Real-time memory access via Debug DMA Dedicated Clock for Debug Engine On-chip Trace 8 Instructions and 1 Data Breakpoint Up to 255 SW Breakpoints when using HEW Interface supports Workbench Break Before execution Data break Break Trace mode Trace info Trace condition RAM memory reference/change Address match: 8 1 On-chip trace Branch destination/data access: 8 Combination of 2 points Refer during user program execution (run) (RAM trace) R8C/3xT Advanced Debugging

43. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 43 Key Features Matrix (3x4), Wheel, Slider, keys LED control Serial I/F (display MCU) Analog I/F (light sensor) PWM (Buzzer) RTC (Time-of-Day) Current consumption measurement USB I/F to host PC E8a connection (optional) Low cost (only USB cable required) Touch firmware, sample application code, workbench, FDT Quick Start Guide, Manuals, Application Notes documentation Self-contained Touch Evaluation System Available in July

44. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 44 Pop Quiz-3: Provide Answer 1)Top Selling Points for R8C/3xT Capacitive Touch Solution? Highly Integrated: Single-chip solution for touch and system control Hardware assisted detection for low CPU bandwidth: Sensor Control Unit Low cost features: Minimum external components + optimized used of pins, Data Flash, POR, internal oscillator Complete Support: Full API (source code), Self-contained evaluation system, application notes

45. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 45 R8C/3xT ‘Touches Your Life’ Exercise Equipment Portable Devices Medical Equipment Audio Equipment Security Keypads Office Equipment Kitchen Appliances

46. CONFIDENTIAL © 2010 Renesas Electronics America Inc. All rights reserved. 46 R8C/3xT Series (Capacitive Touch MCU) Roadmap Line-up Function / Performance R8C/38TR8C/38T R8C/36TR8C/36T Under DevelopmentUnder Planning 18ch Touch 32 LQFP 16-32 KB Flash 1.5-2.5 KB RAM 22ch Touch 40 pins QFN 16-32 KB Flash 1.5-2.5 KB RAM 30ch Touch 64 LQFP 16-128 KB Flash 1.5-10 KB RAM R8C/3JTR8C/3JT 36ch Touch 80 LQFP 32-128 KB Flash 1.5-10 KB RAM R8C/32TR8C/32T R8C/33TR8C/33T 6ch Touch 20 LSSOP 8-32 KB Flash 1.5-2.5 KB RAM Mass Production

47. Renesas Electronics America Inc. © 2010 Renesas Electronics America Inc. All rights reserved. Thank You