R20UT2532EU0100 - Renesas Electronics
Contents
1. LENESAS 7 D me o lt RV 5 eo Renesas Demonstration Kit RDK for RX63N User s Manual Hardware v3 2 R20UT2532EU0100 RENESAS MCU RX Family RX600 Series RX63N Group All information contained in these materials including products and product specifications represents information on the product at the time of publication and is subject to change by Renesas Electronics Corp without notice Please review the latest information published by Renesas Electronics Corp through various means including the Renesas Electronics Corp website http www renesas com R20UT2532EU0100 Disclaimer By using this Renesas Demonstration Kit RDK the user accepts the following terms The RDK is not guaranteed to be error free and the User assumes the entire risk as to the results and performance of the RDK The RDK is provided by Renesas on an as is basis without warranty of any kind whether express or implied including but not limited to the implied warranties of satisfactory quality fitness for a particular purpose title and non infringement of intellectual property rights with regard to the RDK Renesas expressly disclaims all such warranties Renesas or its affiliates shall in no event be liable for any loss of profit loss of data loss of contract loss of business damage to reputation or goodwill any economic loss any reprogramming or recall costs whether the foregoing losses are direct or indirect n2. E 349mil 5100mil 640mil l 1830mil 3 250mil 575mil 850mil B Figure 4 2 Board Dimensions R20UT2532EU0100 Chapter 5 Block Diagram Figure 5 1 shows the CPU board components and their connectivity Headers O o Ethernet 1588 USB Host Dev OTG Digital Temp Sensor 3 D Accelerometer Serial Flash 128M Figure 5 1 Block Diagram R20UT2532EU0100 Figure 5 2 shows host PC connection to the RDK board and supporting partners USB RS 232 J Link Graphics Serial Port debugger LCD Figure 5 2 RDK Connections Ext Power 5VDC Expansion header Speaker Stereoheadphone jack 10 100 Ethernet Opt IEEE1588 RX63N 1MB QFP100 Host Function MIC and POT CAN LED Expansion amplifier VR1 transceiver Ring header ADI OKAYA SEGGER RS 232 LCD J Link ADI gt 3D acc sensor y ADI Temp sensor ADI Digilent ant PMOD ADI Audio Amp o w Lx STAR gt Speaker Total Phase is E Gainspan Redpine SEIKO Wifi cards SuperCap MICRON PCM Memory EXOSITE Cloud demo MICRIUM RTOS TCP IP ADIMIC amp REA FDI NDK amplifier CAN PCBASY Crystals R20UT2532EU0100 Chapter 6 User Circuitry 6 1 Pushbutton Switches There are five pushbutton switches located on the CPU board Table 6 1 shows the function ofeach pushbutton switch and its connection to the MCU Switch Function MCU SW1 Connects to an IRQ line fo
3. Pin 33 and SCL MCU Pin 34 12C Address 0x3A 0011101r where r R W 6 5 Digital Temp Sensor The RDK has component placement options for two Analog Devices digital temperature sensors ADT7410TRZ or ADT75ARZ Both are connected to the I2C SDA MCU Pin 33 and SCL pins MCU Pin 34 12C Address 0x90 ADT75 1001aaar where aaa A2 A1 A0 r R Wn ADT7410 10010aar where aa A1 A0 r R Wn 6 6 Micron Serial Flash A Micron Phase Change Memory PCM serial flash is provided for user non volatile storage PCM memory has greater write endurance than standard serial flash This part NP5Q128A13ESFCOE is 128 megabit and is accessed by the SPI Bus using SFL CS MCU Port PCO 6 7 MicroSD Memory Card Slot A MicroSD memory card slot is provided for file system data storage This is configured to use SPI mode rather than nibble mode and is accessed using SD CS MCU Port PC4 6 8 Potentiometer A single turn potentiometer is connected to the ADC channel ANOO2 of the microcontroller This may be used to vary the analog voltage input value to this pin between 3V3A and Ground The potentiometer can also be used as a volume control through software Note The potentiometer is fitted to offer an easy way of supplying a variable analog input to the controller It does not necessarily reflect the accuracy of the controllers ADC Please see the device manual for details 6 9 Serial port The Serial module allows the MCU to communi
4. Precision Time Protocol PTP is an important improvement to Ethernet systems that provides precise time synchronization for applications such as test and measurement factory automation and telecommunications National Semiconductor s DP83640 Precision PHYTER transceiver is the industry s first to add the IEEE 1588 PTP functionality to a fully featured 10 100 Mbps Ethernet PHY Antenna Primary Clock Source Gigabit Ethernet Gigabit Ethernet Over Fiber Wireless BTS Timing Sync Using IEEE 1588 High Speed Industrial Ethernet R20UT2532EU0100 National Semiconductor Corporation August 2010 National PHYTER and Ware registered trademarks of National Semiconductor All other product names are trademarks or registered trademarks of their respective holders All rights reserved Temp Range Typ Power Product ID C Number of Ports Interface mW Package DP83640 40 to 85 10 100 Single MII RMII DP83848l 40 to 85 10 100 Single MII RMII SNI 265 DP83848VYB 40to 105 10 100 Single MII RMII SNI 265 DP83848J 40 to 85 10 100 Single MII RMII 265 DP838491 40 to 85 10 100 Dual MII RMII 300 Port IEEE 1588 National national com ethernet MV Semiconductor 36 R20UT2532EU0100 Color TFT LCDs Chip On Glass COG gt Size Diagonal alan Li A Custom and Standard gt Resolution QVGA WVGA gt No PCB light weight low cost gt Backlight LED Interface 18 bit TTL RGB gt Touch Panel Resistiv
5. for J N2 and their corresponding microcontroller connections The header pins connect directly to the microcontroller pin J N2 Extension Header Pin Circuit Net Name MCU Pin Pin Circuit Net Name MCU Pin 1 RSTOUT 2 P53 BCLK 41 3 P35 NMI 15 4 Ground 5 PWMLP OUT Audio Generator 40 6 PA6 64 7 PAT 63 8 P21 BL_ENA 27 9 PCl 51 10 NC 11 NC 12 NC 13 LED1 PDO IRQO ANOO8 86 14 LED2 PDO IRQ0 ANOO8 85 15 LED3 PD2 IRQ2 AN010 84 16 LED4 PD3 IRQ3 AN011 83 17 LED5 PDA IRQ4 ANO12 82 18 LED6 PD5 IRQ5 ANO13 81 19 LED7 PD6 IRQ6 AN6 80 20 LED8 PD7 IRQ7 AN7 19 21 LED9 PEO ANEXO 78 22 LED10 PE1 ANEX1 7 23 LED11 PE2 ANO 76 24 LED12 PE3 AN1 75 25 P24 PMOD2 CS 24 26 NC Table 10 2 J N2 Extension Header 23 10 3 Application Header R20UT2532EU0100 Table 10 3 shows the controller pin headers for 8 and their corresponding microcontroller connections The header pins connect directly to the microcontroller pin J 8 Application Header Pin Circuit Net Name MCU Pin Pin Circuit Net Name MCU Pin 1 NC 2 GND 3 3V3 4 GND 5 NC 6 NC 7 NC 8 NC 9 NC 10 NC 11 NC 12 NC 13 NC 14 NC 15 SPI CS PJ 3 WIFI CS 4 16 RSTOUT 10 17 PWR OFF PE4 14 18 NC 19 SPI DIN MOSI 46 20 SPI CLK SCK 47 21 UART IN CTx0 TXD6 18 22 SPI D
6. production flash programming utility and other products We are here to assist from development to production SEGGER Flash Programmer for Renesas RX Our flash programming utility Flasher RX is a superset of our J Link described above It contains all of the debug probe features while being designed for use in a production environment The Flasher RX has onboard memory to store your binary image permitting simple standalone flash programming Email infoQsegger com U S 978 874 0299 International 49 2103 2878 0 38 R20UT2532EU0100 TOTALPHASE Total Phase is an industry leading provider of USB I2C and SPI embedded systems development tools for engineers all over the world Total Phase s mission is to create powerful high quality and affordable solutions for the embedded engineer Beagle 12C SPI Cheetah SPI Protocol Analyzer Host Adapter BEAGLE USB 5000 SUPERSPEED 39 For educators and students Teach with professional grade tools Learn MCUs with a modern architecture RenesasUniversity com RENESAS UNIVERSITY PROGRAM Learning The Alliance Partner Program allows you to connect instantly with hundreds of qualified design consulting and contracting professionals renesas com Alliance p TNER RENESAS Partners R20UT2532EU0100 Gain the technical knowledge you need Evaluate research and learn at your own pace where and when you want for free Renesaslnter
7. provided drivers J LINK Connect Ethernet cable to the RDK and your LAN connection Connect the mini USB cable to the J Link port this will provide the debug link but also power 5 volts Watch the board boot up sequence displaying the board MAC address IP address and cloud status The MAC address should match the address printed on the MAC Address sticker right of the LCD display Register your board and address thru the Exosite portal website See your cloud status being updated to connected You are now ready to control your board through the E xosite portal Chapter 4 Board Layout 4 1 Board Layout The following diagram shows the top layer component layout a qi NK COMM PORT ANALOG LS 1 un ag bu jus SWITCH 2 y PSA ATTENTION 9448 LE TEKTI DOE SCH SERIAL FLASH gAlcron m E189010 38 iT 1 09000000090900 po hal r d a 2 JN1 RENESAS PN YRDKRX63N T C 2012 Renesos Electronics RI51 94V 0 MEL ei ea 00 30 55 08 III ii ill q gt Lej CAN Ri National Semiconductor 38 1 L e o o o amp VREFHO 25 1 000000000o0o0o0O 0000000000000 26 2 R20UT2532EU0100 2FLAALR R20UT2532EU0100 Figure 4 1 Board Layout 4 2 Board Dimensions The following diagram gives the board dimensions and connector positions All through hole connectors are on a common 0 1 grid for easy interfacing 5100mil aren y A V N 150mil
8. resources FDI will work hand in hand with your existing team to design and produce a fully integrated custom solution that meets both your schedule and budget requirements FDI works closely with Renesas and we have provided the hardware customization schematic capture and PCB design and layout for several key Renesas projects In addition FDI provided full turn key manufacturing gt Our uEZ GUI Family provides integrated solutions for Touch Screen LCD Graphical User Interfaces automated functional test and packaging for the production kits These include the YRDKRx62N and YRDKRx63N kits in addition to the YRDKRL78G14 kit FDI has a proven 23 year history of successful product design and manufacturing Please give us a call to find out how we can help make your product a success ke RX RX600 Future Designs Inc is a full service design and production company with hardware software and system level expertise We offer one stop shopping for our customers and provide as much or as little help as needed to get your product to market FDI can take your concept all the way from the back of a napkin through design and prototypes to high volume production branded with your logo and shipped directly to your end customers www teamfdi com fL Future Designs Inc 34 R20UT2532EU0100 Omneo P5Q Phase Change Memory 128Mb 90nm Serial Interface Phase change memory PCM is today s technology brea
9. will re program the RX63N Flash memory 7 Ifyou are prompted to open the Debug perspective now click Yes This will open the main Debug window and report that no source is available for this project this is normal 8 Restart the board by going to Run Terminate the R DK factory demo will reboot itself You may close e2 studio now 21 Chapter 10 Headers 10 1 Extension Header 1 R20UT2532EU0100 Table 10 1 shows the controller pin headers for J N1 and their corresponding microcontroller connections The header pins connect directly to the microcontroller pin J N1 Extension Header Pin Circuit Net Name MCU Pin Pin Circuit Net Name MCU Pin 1 5V0 2 Ground 3 3V3 4 Ground 5 3V3A 97 6 AGND 3 94 99 1 AVREF3V3 96 8 RESET 10 9 SWITCH1 P40 IRQ8 DS ANO00 95 10 SWITCH2 P41 IRQ9 DS AN001 93 11 SWITCH3 P44 IRQ12 DS AN004 90 12 AN003 P43 IRQ11 DS AN003 91 13 AN006 P46 IRQ14 DS AN006 88 14 VREFHO 3V3 50 15 AGND 3 94 99 16 PMODI CS PE4 74 17 PMOD SCK PE5 RSPCKB 13 18 PMOD MOSI PE6 MOSIB 72 19 PMOD MISO PE7 MISOB 71 20 MOSI PC6 MOSI 46 21 MISO PC7 MISO 45 22 SCK PC5 SCK 4 23 SFL CS PCO SSLA1 52 24 SD CS PC4 SSLAO 48 25 SDA P13 5DA 33 26 SCL P12 SCL 34 Table 10 1 J N1 Extension Header 22 10 2 Extension Header 2 R20UT2532EU0100 Table 10 2 shows the controller pin headers
10. F On Chip RAM Reserved Area Peripheral I O Registers On chip ROM data flash Reserved Area FCU RAM Reserved Area Peripheral I O Registers Reserved Area Peripheral I O Registers Reserved Area OnChip ROM program ROM Write Only On Chip Flash OnChip ROM FCU firmware Read Only Reserved OnChip ROM program ROM Read Only Table 11 1 Memory Map 27 R20UT2532EU0100 Chapter 12 Component Placement PN YRDKRX63N 2012 Renesas Electronics Leg DOS pa La 1 ros vis SWITCH 2 1 GRAPHICAL p LCD MODULE CO mmm 9 Zeg R RESET dek Table 121 1 Component Placement 28 R20UT2532EU0100 R20UT2532EU0100 Chapter 13 Additional Information 13 1 Hardware Partner Information Hardware partners played an integral role in the definition development and deploymentof this RDK Without their numerous contributions this project would not have been possible Contributors include National Semiconductor for the DP 83620 Precision PHYTER IEEE1588 Precision Time Protocol Ethernet transceiver and LP 38500 3 3v regulator Analog Devices supplied the ADXL345 3 Axis Accelerometer SSM2167 microphone preamplifier and ADMP401 digital microphone ADT7410TRZ or ADT75ARZ temp sensor SSM2377 Audio Amplifier and ADM3101E RS 232 line driver receiver NDK contributed all 4 crystals for the board Micron contributed th
11. OUT MISO 45 23 SPI INTR WIFI IRQ 100 24 UART OUT CRx0 RXD6 17 25 GPIO PE5 EN 26 GPIO PE6 72 Table 10 3 J 8 Application Header 24 10 4 PMOD Interfaces Two Digilent P MO Dm Interface Type 2A expanded SP I connection headers are available on the RDK These interfaces can be accessed on the R20UT2532EU0100 SPI bus using MCU port PE4 and P24 as chip selects Table 10 4 shows the PMOD headers and their corresponding microcontroller connections PMOD1 J 15 PMOD2 J 16 Pin Signal Direction Circuit Name Function CircuitName Function 1 Select Out PE4 PMODI CS P24 PMOD2 CS 2 SDI Out PER PMOD MOSI MOSIB PE6 PMOD MOSI MOSIB 3 SDO In PE7 PMOD MISO MISOB PE7 PMOD MISO MISOB 4 SCK Out PE5 PMOD SCK RSPCKB PE5 PMOD SCK RSPCKB 5 GND GND GND 6 VCC 3V3 3V3 7 IRQ In P55 PMOD PIN7 IRQ10 P55 PMOD PIN7 IRQ10 8 RST IRQ Out PAL PMOD_PIN8 IRQ11 PAL PMOD PIN8 IRQ11 9 GPIO LEDO PMOD PIN9 PE2 LED11 PMOD_PIN9 PE2 10 GPIO LED10 PMOD PIN10 PE1 LED10 PMOD PIN10 PE1 11 GND GND GND 12 VCC 3V3 3V3 Table 10 4 PMOD Headers 25 R20UT2532EU0100 Chapter 11 Code Development 11 1 Overview Note For all code debugging using Renesas software tools the CPU board must be connected to a PC USB port via the on board Segger J Link OB debugger Due to the continuous process of improvements undertaken by Renesas the u
12. RDK board e The green POWER LED LED3 lights when the board is powered e The Segger Link OB Debugger Interface LED LED16 illuminates when the Debugger USB Interface is connected to a host PC e There are 12 user LEDs LED4 LED15 that are connected to IO ports Each LED will light when their corresponding port pin is set low The 12 user LEDs are arranged to show the winding phases of a motor control circuit e The remaining 2 LED s LED2 and LED1 are Ethernet specific and are not accessed directly from the MCU Table 6 3 shows the user LED pin references and their corresponding microcontroller port pin connections LED Reference As shown Color Circuit Net Name MCU on silkscreen LED1 Speed ENET Green On for 100BT N A LED2 1PPS ENET Red N A LED3 5V Power Green N A LED4 Green LED6 PD5 pin 81 LED5 Green LED12 PE3 pin 75 LED6 Red LED3 PD2 pin 84 LED7 Red LED9 PEO pin 78 LED8 Green LED5 PD4 pin 82 LED9 Green LED11 PE2 pin 76 LED10 Red LED2 PD1 pin 85 LED11 Red LED8 PD7 pin 79 LED12 Green LED4 PD3 pin 83 LED13 Green LED10 PE1 pin 77 LED14 Red LED1 PDO pin 86 LED15 Red LED7 PD6 pin 80 LED16 Segger J Link Green N A D5 USB Power Green N A Table 6 3 LED Port 10 R20UT2532EU0100 6 4 3 Axis Accelerometer The RDK includes an Analog Devices ADXL345 3 axis accelerometer The partis connected to DC SDA MCU
13. U Dulles EN 11 A A e per o eene ren rr re or rn mr man ommon mm mm o Mr 12 6 11 Audio Audio Out Mic Speaker oococccccccconociconoccconcccnoncnononnnnno cnn ncn nan nn ener nene nennt nns tres entente rss nns n nennen 12 emper 12 ee ee au a PE TO NPO ee E d EA 13 6 14 Etlietniet oi etri tt sabe ges mn En au cena pn mO PN OT POTO 14 6 15 Option Links and Jumper Settings eene nnne en nennt innert ener 15 GELEET te 18 iii R20UT2532EU0100 6 17 Total Phase Beagle Debug Header 18 Chapter 7 RX63N Operating Modes sse eene nennt nennen sets internen resin nr annann entente nnn 19 Chapter 8 Programming Methods cccccccceeceeceeeeeeeeeeaeeeeaee scence cage eene nennen nennen ESSE EASE Ennn inns nnn III nennen enne 20 Chapter 9 Restoring the Factory Demo 21 Ghapter 10 Headers rera deseen peii RR ed A SPI RR Cabe a ERN ne Rd RETINENS 22 10 1 Extension Header ii het iei Tenere ier ep Mt LULAS eee 22 10 2 Extensiom Header Bilal ladito 23 103 Application Header iiie ee ae a a MN Neo 24 eg Wee 25 Chapter 11 Code Development 26 E W e 26 11 2 Gompiler Restrictions iii eee eee Petre ee rei Jeet ede ete elo 26 CEET 26 cas Memory Map s iint to feet i 27 Chapter 12 Component Placement 28 Chapter 13 Additional Information esssssssssssssssesseeeee enne en nnne nnn nnna nnna rris i nnns entente nnn 29 13 1 Hardware Partner Information eene enne AN LAAPE ten rnnt F UARA R nnn enne 29 Renesas Cont
14. act Information ennemi nennen inttr intent enr IKI sint n sn nrnn nnns 42 iv R20UT2532EU0100 R20UT2532EU0100 Chapter 1 Preface Cautions This document may be wholly or partially subject to change without notice All rights reserved The RDK design documentation and demo software are intended to improve understanding and time to market for RX63N based designs Duplication of the design documentation and demonstration software is encouraged Trademarks All brand or product names used in this manual are trademarks or registered trademarks of their respective companies or organizations Copyright 62013 Renesas Electronics America Inc All rights reserved 62013 Renesas Electronics Corporation All rights reserved 2013 Renesas Solutions Corporation All rights reserved 62013 Renesas Electronics Europe All rights reserved Website http www renesas com Glossary ACCEL Accelerometer NC No Connection ADC Analog to Digital Converter PC Program Counter CAN Controller Area Network PCM Phase Change Memory CPU Central Processing Unit POT Potentiometer DAC Digital to Analog Converter PMOD Peripheral Module EMC Electromagnetic compatibility RAM Random Access Memory ESD Electrostatic Discharge RCAN Renesas Controller Area Network HEW High performance Embedded ROM Read Only Memory TORNO RDK Renesas Demonstration Kit NO DRESCH SDRAM Synchronous Dynamic Random Access LCD Liquid Crystal Display Memory LED Light Emitting Diode SD S
15. active com Renesas Research A wealth of support just a click away am renesas com Ecosystem My Renesas Customize your data retrieval needs on the Renesas web site You ll receive updates on the product that you re interested in renesas com MyRenesas Renesas Samples Geta first hand look at our products Let us know your needs and we ll get some samples out to you It s that simple RenesasSamples com Software Library Access a wealth of information to speed you along on your designs 40 Community RenesasKulZcom Think it Build it Post it A forum and community site to share technical information questions and opinions with others who use Renesas MCUs and MPUs RenesasRulz com R20UT2532EU0100 renesas com software 41 R20UT2532EU0100 Renesas Contact Information For details on how to use High performance Embedded Workshop HEW refer to tre HEW manual available on the web site For information about the RX63N series microcontrollers refer to the RX600 Group hardware manual For information about the RX63N assembly language refer to the RX Series Software Manual For more information about e2 Studio software please visit http www renesas com products tools ide ide_e2studio index isp Online technical support and information is available at htto www RenesasRulz com Technical Contact Details America techsupportrtaQ renesas com Europe tools support eu renesas
16. acy from 20 C to 105 C e C compatible interface e Supply voltages 2 7 V to 5 5 V e Operating temperature 40 C to 150 C e LFCSP package ADM3101 15 kV ESD Protected Single Channel RS 232 Line Driver Receiver e Conforms to EIA TIA 232E and CCITT V 28 Specifications e Data Rate 460 kbps e 0 1 uF charge pump capacitors e Contact discharge 8 KV ap discharge 15 kV ANALOG www analog com DEVICES 31 R20UT2532EU0100 EN Components for Super small y low current consumption Best suited for microprocessors GMOS IC Quartz Crystal ICs for various power supplies Memory ICs E PROMs Compact SMD tuning fork quartz Sensors temperature magnetism etc Quartz crystal unit for clocks Mini analog Quartz crystal un for radio co trolled clocks Real time clocks F Vivid and realistic Maximum power in a small body y sa um LCD Device NN olor TFT liquid crystal modules VC a Color monochrome STN liquid crystal modules Coin type lithium rechargeable batteries Lo volt age op eratio N liquid crystal panels Capacitors Coin type Chip type Backlight modules Mercury free silver oxide batteries Optical films for backlights Micro Battery Most advanced Small precision Made by SIl s unique mounting technology machini ng and precision machining technology reflowable DIANET Rare M Superior cm TA anaes c mi on to ucuon Earth Magnet Co Ni Alloy Product nkra Cleanroom based Class 10000 un
17. ard and is stored in data flash at memory address 0x107FF 0 If there is a problem with the pre programmed MAC address the demonstration code will default to a default MAC address Table 6 8 contains details of the signal descriptions and pin connections All connections to the MCU are direct Net Name Function MCU Pin Number ETH_CLK Transmit Receive Clock 58 TX_EN Transmit Enable 56 RMII TXDO Transmit Data Bit 1 55 RMII TXD1 Transmit Data Bit 2 54 RMII MAS Master Mode high NC RX ER Receive Error 5 RMII RXDO Receive Data Bit 1 59 RMII RXD1 Receive Data Bit 2 61 CRS Carrier Sense 53 MDC Management Data Clock 66 MDIO Management data 1 0 67 ETH IRQ Power Down Interrupt 98 Table 6 8 Ethernet Module Connections 14 R20UT2532EU0100 6 15 Option Links and Jumper Settings Table 6 9 and Table 6 10 detail the function of the various option links contained on the RX63N RDK There is also a 3 pin on board speaker function select jumper J P17 By default this jumper is set to play audio from the right audio channel MCU pin 29 out the on board speaker It can be cut and modified to use MCU pin 100 P05 DA1 instead Table 6 9 details the Ethernet LED Configuration Resistor Ethernet Configuration Options Reference Function Fitted Alternative Removed Related To R12 Ethernet LED Configuration Link Activity 1 L LED Configuration Link J LL Co
18. cate to a Host PC through the RS 232 connector J 5 using RS232Rx and RS232Tx The serial portis configured in DCE mode allowing direct connection to a PC withouta Null modem The serial module can also be used as a serial debug port Table 6 4 contains details of the specific pin functions and their locations Description Function MCU Pin Connector Pin TXD2 Serial Transmission Pin 44 35 2 RXD2 Serial Reception Pin 42 J 5 3 Table 6 4 Serial port pin details ti R20UT2532EU0100 6 10 Reset Circuit The RDK includes a user reset switch SW4 to reset both the RX63N MCU and Debugger MCU This is connected to the internal reset circuit on the RX63N RES and input on the J Link OB Segger Debugger There is a peripheral reset control line connected to PC2 pin 49 on the RX63N which can be used to reset major peripherals atonce This includes the Ethernet PHY Beagle Port Application Header and Debug LCD 6 11 Audio Audio Out Mic Speaker An amplified stereo audio output jack is provided and connected to the timer circuit Audio can be generated using a buffered output on TPUO for left TIOCAO and right TIOCBO channels The headphone stereo amp is powered by a National Semi LM4808M An on board Analog Devices Inc ADI Silicon microphone ADMP 401 is connected to the ADC channel ANOO5 using an ADI SSM2167 low voltage Microphone preamplifier Note thatthe defaultis to have P7 SPK EN fitted This enable
19. com Japan csc renesas com General information on Renesas Microcontrollers can be found on the Renesas website at htto www renesas com 42 Renesas Demonstration Kit RDK for RX63N User s Manual R20UT2532EU0100 Publication Date Rev 3 2 30 July 2013 Published by Renesas Electronics America Inc 2880 Scott Boulevard Santa Clara CA 95050 2554 U S A 02013 Renesas Electronics America All Rights Reserved RX63N Group 24 NE SAS Renesas Electronics Corporation Renesas Electronics America Inc 2880 Scott Boulevard Santa Clara CA 95050 2554 U S A
20. e capacitive gt Minimum external components gt Text graphic and segment type gt High resolution duty displays projected capacitive gt RGB or white LED backlight gt Daylight readable options COTTONS Custom LCDs START Full or semi custom E gt Color graphic COG panels Ruggedized displays System on display Tailor made form factor Okaya Jay Device Technology Graphic LCD Graphic LCDs Alpahnumeric Text LCDs gt Wide range of size amp resolutions gt 8 character x 1 line to 40 character x 4 lines B COG COB ICs gt COG COB ICs gt Yellow green blue white LED backlights gt Yellow green blue white LED backlights Extended and wide operating temp range gt TAB COG COB ICs gt Semi and full custom options gt Extended and wide operating temp range 7 Touch pan ailabl gt Semi and full custom options gt TN STN l ASTN technology TN STN ESTN ASTN technology 800 852 0122 www okaya com Icdsales okaya com 37 R20UT2532EU0100 Dese SEGGER Deeg Seni Segen Log Lar P E OU Recs Tort Po pe l pede Iren See meloj SEGGER J Link Debug Probe line now supports the Renesas RX EXTREMELY FAST 2 6 times faster than E1 FLASH BREAKPOINTS SDK AVAILABLE J FLASH AVAILABLE Flash programming utility Support for the Renesas RX does not stop at our extremely fast and sophisticated J Link debug probe line it carries through to our
21. e 2 pin header J P13 This is useful if the board needs to be put into either USB or SCI boot mode The RX621 based Segger J Link OB is located under the Okaya LCD The J link interface is pre programmed at the factory final test and can self update later on if new versions are available 20 R20UT2532EU0100 Chapter 9 Restoring the Factory Demo 1 To reload the Exosite Micrium Factory Demo into the board first set SW5 to Debug Mode OFF OFF OFF ON Plug the USB cable to the J link connector of the RDK the Link connector is above the display between the DB9 for the serial port and the power jack 2 Launch Renesas e2 studio Start gt All Programs Renesas Electronics e2studio gt Renesas e2studio 3 Unless you have installed the RDK s DVD v3 2 that pre loads the Factory Demo Reload project into the current workspace you ll need to import it using this archive file RDK_Demos zip present in the DVD s directory Factory_demo skip to Step 4 otherwise e Inthe Top Menu bar click File Import click General and Existing Projects in Workspace click Next e Select Archive File by clicking Browse to the DVD path locate and select RDK Demos zip click Open e Make sure to select the specific Project Factory Demo Reload and click Finish the import will complete within minutes 4 Inthe Top Menu bar click Run and select Debug Configurations 5 Click Debug only and click on Factory Demo Reload 6 Click Debug This step
22. e dealer or an experienced radio TV technician for help NOTE Itis recommended that wherever possible shielded interface cables should be used The productis potentially susceptible to certain EMC phenomena To mitigate against them itis recommended that the following measures be undertaken e The user is advised that mobile phones should not be used within 10m of the product when in use e The user is advised to take ESD precautions when handling the equipment The Renesas Demonstration Kit does not represent an ideal reference design for an end product and does not fulfill the regulatory standards for an end product ii R20UT2532EU0100 Table of Contents Ghapter li Pra a cias 1 ODhapter2 Puiposez e ot e tdem dut pb Db repeti iiis eege ee ani 2 Ghapter 3 Power Supply ni do Ue ep treten eme eese ates 4 GEN Bequireimiehts x ia tpa EE mim rr E 4 3 2 Power UpiBelaviOl ice teen ao aee tta ea ea ee a 4 Chapter4 Board Layolt 2 4 atrae epa iere pul ei alta aee tib p es rave ies 5 e te ME UE 5 Ne te MR LE DL EE 6 Ghapter 5 Block DIagrarm ot ette iet nit 7 Chapter 6 User Gircuitty otr tar dea e p deae tud E ER ER ORI a enm dea 9 6 1 Ee tel RENE 9 62 Debyg Re RE Oe E 9 E DR 10 6 4 3 Kee EE 11 NA WE EEN 11 6 6 Micron Se al EE ti 6 7 MicroSD Memory Card Slot sssssssssssssssssseseeee nennen nnne nennen intr nr inttr inre sed Ennn Ennn enter rennen 11 6 8 PotentlOmbelter ui tee tco deine raras 11 I
23. ecured Digital MCU Microcontroller Unit TEMP Temperature MIC Microphone VR Variable Resistor R20UT2532EU0100 Chapter 2 Purpose This RDK is an evaluation and demonstration tool for Renesas RX63N microcontrollers The goal is to provide the user with a powerful debug and demonstration platform targeted at common applications A setof human machine interfaces are tightly integrated with the features of the RX63N and the software demonstration programs providing the user with an accessible platform to rapidly evaluate and customize Target Applications and Features e Audio o Stereo audio driver connected to the PWM interface o On board microphone to demonstrate sampling FFT FPU capabilities o Volume Control Potentiometer o Micro SD card interface for audio and data files e Motor Control o 3 Phase motor control algorithm representation with LEDs o Motor control algorithm speed variation through volume control potentiometer e Gaming o 3 Axis Accelerometer Digital o User pushbutton switches e Communications o 10 100 Ethernet Interface connected to an internal Ethernet MAC 1588 compatible o USB Interface connected to an internal USB controller Host Device and OTG o RS 232 Interface o CAN Interface o 12C SPI with Debug through the Beagle connector from Total Phase o PMOD connections to support a variety of generic PMOD devices WiFi Bluetooth RF and much more e User Code and Application Debugging o On board J Link OB for high q
24. eir Phase Change Serial Flash Memory NP5Q128A13ESFCOE Okaya provided the 96 x 64 backlit graphics LCD Segger provided all the Debugger circuitry for their J Link OB Star Micronics provided their NDT 03C speaker TotalP hase provided the connectors to interface to their beagle serial channel debugger And finally Future Designs Inc provided the hardware customization schematic capture PCB design and layout manufacturing and Supply Chain Management services for this RDK For more information or to contact our partners please refer to their websites e Analog Devices http www analog com e Future Designs http www teamfdi com e Micron http www micron com e National Semiconductor http www national com e NDK http www ndk com e Okaya http www okaya com e Segger http www seqger com e Seiko Instruments http www seikoinstruments com e Totalphase http www totalphase com 29 R20UT2532EU0100 Analog Devices The Leader in High Performance Signal Processing Solutions Analog Devices sets the standard for innovation and excellence in signal processing Our compre hensive portfolio of linear mixed signal MEMS and digital processing technologies are backed by leading design tools applications support and systems level expertise These solutions play a fun damental role in converting conditioning and processing real world inputs such as light sound temperature motion and pressure into elec
25. g Resin sealing Glass sealing Ceramics Resistance weld sealing Seam weld sealing Au Sn sealing Ceramics Board Non hermetic sealing Non metal Others A printed board on which multiple crystal elements were mounted with a nameplate attached to its top surface amp Detailed symbols for the order of model name registration A to Z When products designed as lead mount ones have been converted during secondary processing into surface mount ones the product model names given before secondary processing are conventionally used to describe them Example AT 41CD2 AT 41 with a pedestal NIHON DEMPA KOGYO CO LTD 413 090920 mocieiname e 33 R20UT2532EU0100 Embedded Design and GUI HMI Touch Screen LCD Solutions Design Production Partner FDI is truly partnered with semiconductor suppliers like Renesas Electronics America and with distribution channel partners like Avnet and Digi Key We offer hardware software and system level solutions based on the total line card One example of this is our uEZ GUI Family of integrated solutions for Touch Screen LCD Graphical User Interfaces uEZ GUI provides an Off The Shelf solution that allows customers to quickly and cost effec tively upgrade their User Interfaces to meet today s market requirements We also offer Embedded Hardware and Software Design and Production for a wide variety of customer needs For customers with their own internal design or production
26. ified production Samarium cobalt SmCo magnets Mine recon oo etc ik dj Module completed product assemblies S Ideal for various applications Y gt eli M S Cellular phone c Car electronics NL j Notebook PC 32 R20UT2532EU0100 Quartz Crystal Units N NDE m Model Names of Surface mount SMD Products Our system for surface mount SMD product model names is as follows Configuration of model names of surface mount products 02090000 D Symbol for NDK N Symbols for products See Table 1 X Crystal oscillator peu mem Temperature compensated crystal oscillator TCXO T H Oven controlled crystal oscillator OCXO Vv Voltage controlled crys i P _ Simple packaged crystal oscillator SPXO Z Crystalclockosdillator M Monolithic filter S SAWdevice The nominal length mm of a product main body in the longitudinal direction is expressed in two digits The third digit is rounded off GO The nominal length mm of a product main body in the lateral direction is expressed in two digits The third digit is rounded off Examples 6 0 mm x 3 5 mm is expressed as 6035 11 8 mm x 5 5 mm is expressed as 1255 Symbols for constituent materials and sealing methods See Table 2 Table 2 Symbols for sealing methods Product sealing category Resin molding Resin Adhesive sealin
27. kthrough Like Flash memory PCM is a nonvolatile memory that can store bits even without a power supply But unlike Flash data can be read at rates comparable to DRAM and SRAM PCM blends together the best attributes of NOR Flash NAND Flash EEPROM and RAM The Omneo P5Q product family is serial PCM with multiple I O capability and compatibility with familiar SPI NOR interfaces Omneo PCM products are built to meet the memory requirements of embedded systems Omneo P5Q improves overall system performance and enables software simplification using byte alterability or over write capability because no erase is required It also increases system level reliability by delivering 1 million WRITE cycle endurance compared to 100 000 for NOR Flash Omneo P5Q Features Applications e Byte alterability over write capability EEPROM and SPI NOR consolidation e 1 million WRITE cycle endurance Battery backed SRAM replacement e I O bus width Software simplification Quad 50 MHz MAX High endurance Single Dual 66 MHz MAX Single supply voltage 2 7 3 6V Programming time 0 7 MB s EEPROM SPINOR gt Temperature range 0 C to 70 C Omneo P5Q Learn how this new technology can improve the system performance of your next design Order design samples today or visit the online toolkit at micron com pcm Macron 35 National Semiconductor 10 100 PHYTER DP83640 The IEEE 1588
28. n 25 USB ID OTG USB ID 28 USB OVRCURA Host OTG Over current detect Function P ull up control pin B 32 USB DRPD D Pull Down 26 USB DPRPD Di Pull Down 23 USBO EXICEN Expansion 2 Table 6 6 USB Pin Definitions Table 6 7 details how to setthe SW6 DKP switches for each USB mode 13 R20UT2532EU0100 USB DIP Switch Settings SW6 Mode No SW6 1 SW6 2 SW6 3 SW6 4 USB Host OFF OFF ON OFF USB Function device slave ON OFF OFF ON USB On the Go 0TG OFF ON OFF ON Table 6 7 USB DIP Switch SW6 settings 6 14 Ethernet The Ethernet module conforms to the Ethernet or IEEE802 3 media access control MAC standard The Ethernet controller is connected to the direct memory access controller for Ethernet controller E DMAC and carries out high speed data transfer to and from the memory In addition the Ethernet controller is connected to the National Semiconductor 10 100 Mbps DP 83620SQE physical transceiver chip enabling it to perform transmission and reception of Ethernet frames Note that the chip is configured in Reduced Pin count mode RMII The Ethernet PHY is configured at power on reset for Auto Negotiation advertising 10Base T and 100Base TX in both full and half duplex modes Each RDK is pre programmed in factory with a unique IEEE assigned MAC address ranging from 00 30 55 08 00 01 to 00 30 55 08 FF FF The MAC address programmed into the part at the factory is shown on the front of the bo
29. nfiguration Speed LED14 Collision J 1 R Speed LED14 Activity J 1 R Table 6 9 Ethernet Configuration Options 15 R20UT2532EU0100 Jumper Settings Reference Function Open Short Notes JP7 Speaker On Board Speaker Disabled On Board Speaker Enabled Enable JP9 CAN terminator Removes the CAN termination CAN terminator active Cut the trace between the pads disable resistor useful in some to open the circuit debugging situations JP10 S witch 3 Removes Switch 3 from Switch 3 acts on P42 AN2 Cutthe trace between the pads Isolation P 42 AN2 Circuit to open the circuit JP11 S witch 3 Removes Switch 2 from Switch 2 acts on P41 AN1 Cutthe trace between the pads Isolation P41 AN1 Circuit to open the circuit JP12 Switch 3 Removes Switch 1 from Switch 1 acts on P40 ANO Cut the trace between the pads Isolation P40 ANO Circuit to open the circuit J P13 J Link Disable J Link OB debugger is active J Link OB is disabled with all and works normally output high impedance This is useful for running a program without the debugger or using the boot mode of the RX63N J P16 CAN Level Disconnects CAN level shifter CAN Level Shifter active Cut the trace between the pads Shifter Enable from P33 CRx0 RXD6 to open the circuit ble 6 10 below describes the function of the jumper headers The default configuration is indicated by BOLD text J um
30. or shall Renesas orits affiliates be liable for any other direct or indirect special incidental or consequential damages arising out of or in relation to the use of this RDK even if Renesas or its affiliates have been advised of the possibility of such damages Precautions This Renesas Demonstration Kitis only intended for use in a laboratory environment under ambient temperature and humidity conditions A safe separation distance should be used between this and any sensitive equipment Its use outside the laboratory classroom study area or similar such area invalidates conformity with the protection requirements of the Electromagnetic Compatibility Directive and could lead to prosecution The product generates uses and can radiate radio frequency energy and may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment causes harmful interference to radio or television reception which can be determined by turning the equipment off or on you are encouraged to try to correct the interference by one or more of the following measures e Ensure attached cables do not lie across the equipment e Reorientthe receiving antenna e Increase the distance between the equipment and the receiver e Connect the equipment into an outlet on a circuit different from that which the receiver is connected e Power down the equipment when not in use e Consultth
31. ormation online demos and ordering information visit www totalphase com 18 R20UT2532EU0100 Chapter 7 RX63N Operating Modes This RDK supports the 4 CPU modes Debug Mode Run Mode USB Boot Mode and SCI Boot Mode These modes are selected by SW5 and alter the state of MCU ports MD PC7 and EMLE The operating mode should only be set when the RDK is powered OFF Debugging mode is required for all debugging purposes When the RDK is placed in Debug mode a program will run unless a debugging connection is made e Run mode will disable MCU on chip emulator communication and disable debugging e USB and SCI boot modes allow debugging of the MCU through the user USB port J 9 and serial port 5 Table 7 1 details how to configure SW5 for each of these modes SW5 1 SW5 2 SW5 4 Debug Mode OFF OFF ON Run Mode OFF OFF OFF USB Boot Mode ON OFF OFF SCI Boot Mode ON ON OFF Table 7 1 MCU Operating Modes Table 19 R20UT2532EU0100 Chapter 8 Programming Methods The RDK is intended for use with HEW IAR and KPIT Eclipse IDE software development tools The board includes an on board RX621 based Segger J Link OB debugger Refer to RX63N Group Hardware Manual for details of programming the microcontroller without using these tools The on board J Link OB is pre programmed at the factory and configured for normal operation The on board debugger can be disabled by fitting a jumper to the J Link disabl
32. per Settings Reference Function Open Short Notes JP7 Speaker On Board Speaker Disabled On Board Speaker Enabled Enable JP9 CAN terminator Removes the CAN termination CAN terminator active Cutthe trace between the pads disable resistor useful in some to open the circuit debugging situations JP10 S witch 3 Removes Switch 3 from Switch 3 acts on P42 AN2 Cutthe trace between the pads Isolation P42 AN2 Circuit to open the circuit JP11 S witch 3 Removes Switch 2 from Switch 2 acts on P41 AN1 Cutthe trace between the pads Isolation P41 AN1 Circuit to open the circuit JP12 Switch 3 Removes Switch 1 from Switch 1 acts on P40 ANO Cut the trace between the pads Isolation P40 ANO Circuit to open the circuit 16 R20UT2532EU0100 J umper Settings Reference Function Open Short Notes J P13 J Link Disable J Link OB debugger is active J Link OB is disabled with all and works normally output high impedance This is useful for running a program without the debugger or using the boot mode of the RX63N J P16 CAN Level Disconnects CAN level shifter CAN Level Shifter active Cut the trace between the pads Shifter Enable from P33 CRx0_RXD6 to open the circuit Table 6 10 J umper header settings 17 R20UT2532EU0100 6 16 Oscillator Sources All crystals are provided by NDK Nihon Dempa Kogyo Co LTD A crystal is fitted on the RDK and used to supply the main clock
33. r user controls P40 IRQ8 DS Pin 95 SW2 Connects to an IRQ line for user controls P41 IRQ9 DS Pin 93 SW3 Connects to an IRQ line for user controls P44 IRQ12 DS Pin 90 SW4 RESET When pressed the RDK microcontroller and J Link circuit are reset RES Pin 10 Table 6 1 Switch Functions 6 2 Debug LCD Module A debug LCD module is supplied on the RDK The debug LCD module uses an SPI interface to reduce the pin allocation Software contrast control is also provided The module supplied with the RDK uses 3 3v The display is a 96 x 64 graphics display and uses a white LED backlight The backlight is on by default and can be toggled OFF by setting MCU portP21 low The backlight brightness can be also controlled on a duty cycle using MTU pin MTIOC1B or TPU pin TIOCA3 Table 6 2 shows the pin allocation and signal names used for the graphics LCD connector J11 Pin Circuit Net Name MCU Pin Circuit Net Name MCU 1 5V Backlight Positive Anode 2 BL_ENA P21 pin 27 3 GND 4 GND 5 GND 6 LCD CS PC2 pin 50 7 RSTOUT Inverted RESET IO PC3 pin 49 inv 8 LCD RS P51 pin 43 9 43 3V 10 3 3V 11 SCK RSPCKA pin47 12 MOSI MOSIA pin 46 13 MOSI MOSIA pin 46 14 MOSI MOSIA pin 46 15 43 3V 16 33V 17 33V 18 3 19 GND 20 43V Table 6 2 Debug LCD Module Connections R20UT2532EU0100 6 3 LEDs There are 17 LEDs on the
34. s the on board Star Micronics speaker Removing this jumper disables the on board speaker Remove the jumper to use the headphone audio jack The on board speaker is powered by a SSM2377 audio power amplifier to increase volume Both the microphone and on board speaker amplifiers can be turned OFF by setting AMP_SHDN PA2 low DAC audio on the right channel is also supported using SPL SEL J P17 Circuit Net Name Function MCU Pin MCU Function AUD L Audio Left 70 TIOCAO AUD R Audio Right 29 TIOCBO ANO05 Microphone Analog In 89 ANO05 AN002 Volume Control Analog In 92 AN002 AMP SHDN Mic amp On board Speaker 68 PA2 Amp Shutdown AN006 Right Audio Analog Feedback 88 AN006 P05 DA1 IRQ13 A DAC RightAudio Option Can 100 DA1 select this option using J P17 6 12 RCAN The RCAN module can be controlled by the MCU through the CTx0 Port pin P32 and CRxO Port pin P 33 lines or controlled externally through the header connections CTx0 and CRx0 The Table 6 5 contains details of the specific pin functions and their locations Note that an 8 pin Renesas R2A25416SP CAN transceiver is fitted to the board Description Function MCU Pin Header Pin CTx0 RCAN Transmission Pin 18 CAN High J 6 1 CRx0 RCAN Reception Pin 17 CAN Low 6 3 Table 6 5 RCAN port pin details 12 R20UT2532EU0100 6 13 USB The USB module can be configured as Host Function or OTG with the correct switch set
35. ser is recommended to review the information provided on the Renesas website at www renesas com rdkR X63N to check for the latest updates to the Compiler and Debugger manuals 11 2 Compiler Restrictions We provided both the GNU the IAR and Renesas Toolchains with this kit The GNU RX Toolchain has NO restrictions The RX compiler along with HEW was used with ALL the Micrium uC OS IIl and Exosite example projects The IAR size limitation for the kickstart version was increased from 32KB to 64KB The Renesas Toolchain is fully functional for a period of 60 days from first use After the first 60 days of use have expired the compiler will defaultto a maximum of 128k code and data To use the Renesas Toolchain with programs greater than this size you will need to purchase the full version tools from your Renesas distributor Renesas Tools Marketing team advises to start any new project with the e2 studio IDE Warning The protection software for the compiler will detect changes to the system clock Changing the system clock back in time may cause the trial period to expire prematurely 11 3 Breakpoint Support Breakpoint support is directly supported by Segger J Link OB emulator 26 11 4 Memory Map H 0000 0000 H 0001 8000 H 0008 0000 H 0010 0000 H 0010 8000 H 007F 8000 H 007F A000 H 007F C000 H 007F C500 H 007F FCOO H 0080 0000 H 00F8 0000 H 0100 0000 H FEFF E000 H FF00 0000 H FFF8 0000 H FFFF FFF
36. tings on SW6 e Function Device Slave mode This mode does not take any external power circuitry to implement Simply put the SW6 DIP switches to the proper setting as in table 6 7 and configure the software appropriately e Hostmode Connect the included MiniAB to Host adapter Cable to have the proper cable connection for USB Host This mode uses U12 and associated passive circuitry to create USB Power SetSW6 DIP switches to the settings shown in table 6 7 Note that you will have to add an external 5V regulated supply that sources 1 Amp or greater to J 4 in order to meet the USB Specification for power delivery 500ma e OTG SetSW6 DIP switches to the settings shown in Table 6 7 Note that the Maxim MAX3353EEUE and associated circuitry will create the proper USB OTG voltages Note the Maxim IC must be configured in software using the 12C bus Address 0x58 for proper operation Note that you will have to add an external 5V regulated supply that sources more than 1 Amp to J 4 in order to meet the USB Specification for power delivery 500ma Table 6 6 contains details of the USB signal descriptions and pin connections Description Function Microcontroller Pin Number USB VBUS USB cable connection monitor pin 30 USD USB data 1 0 pin 37 USD USB data 1 0 pin 36 VCC USB Power supply pin for USB built in transceiver 35 VSS USB Ground pin for USB built in transceiver 38 USB DPUPE Pull up control pi
37. to the Renesas microcontroller Table 6 11 details the crystals that are fitted on the RX63N RDK Component Part Number Function Frequency Crystal X1 NX3225GA 12M CPU USB Clock 12 MHz Crystal X2 NX3215SA 32K CPU RTC Clock 32 768 KHz Crystal X3 NX3225GA 25M Ethernet Clock 25 MHz Crystal X4 NX3225GA 12M J Link OB System 12 MHz Table 6 11 Oscillators Resonators 6 17 Total Phase Beagle Debug Header The Beagle I2C SPI Protocol Analyzer is a non intrusive USB based bus monitor that can capture display and filter 12C and SPI data as it appears on the bus Using both the Data Center Software and Beagle analyzer users can easily view I2C bus traffic up to 4 MHz and SPI bus traffic up to 24 MHz in real time Additional functionality allows engineers to filter data against a wide variety of parameters or instantly search for specific hexadecimal or ASCII data patterns during a live capture The Beagle analyzer is fully supported on Windows Linux and Mac OS X and comes with free software free APIs free technical support and free software firmware upgrades Total Phase manufactures powerful and affordable USB I2C SPI and CAN tools for embedded systems engineers The complete line of Total Phase host adapters and protocol analyzers are the development and debugging tools of choice for Fortune 500 companies small businesses and research institutions all over the world For more technical inf
38. trical signals to be used in a wide array of electronic equipment ADI is synonymous with high performance among electronics manufacturers ADI collaborates with each of our customers to define the very best in the quality of the user experience That means the clearest image crispest sound and optimum interface size and performance in thousands of consumer medical communications industrial and other applications ANALOG MAKEADIFFERENCE www analog com DEVICES 30 R20UT2532EU0100 Analog Devices Products Featured in the Renesas Demonstration Kit ADXL345 Low Power 3 Axis Digital MEMS Accelerometer e x2 g 4 g 8 g and 16 g ranges e Ultralow power From 30 pA to 140 pA in full measurement mode 0 1 pA in standby mode at VS 2 5 V typ e Supply Voltage 2 0 V to 3 6 V e 10 bit to 13 bit 4mg resolution e SPI and 1 C digital interfaces e Temp range 40 C to 85 C e3mmx5mmx 1 mm LGA package ADMP401 Analog Output Omni Directional MEMS Microphone e SNR 62 dBA e Flat Frequency Response 100 Hz to 15 kHz e PSRR 70 dBV e Sensitivity 42 dBV e Current Consumption lt 250 pA e 4 72 mm x 3 76 mm x 1 00 mm SMT package SSM2167 Low Power Microphone Preamp e Low shutdown current lt 2 pA e Adjustable compression ratio and noise gate threshold e Low noise and distortion 0 2 THD N e 20 kHz bandwidth e Single 3 V operation ADT7420 High Accuracy 16 Bit Digital Temp Sensor e 0 25 C temp accur
39. uality source code debugging Develop and submit your sample programs to demonstrate these features to the online community www RenesasRulz com R20UT2532EU0100 The Renesas RDK user experience is complemented by the online Renesas ecosystem e Renesas Interactive www Renesaslnteractive com o Free Online Learning e Renesas Rulz www RenesasRulz com o Online community o Online user forums o Www RenesasRules com RX63N Online support site for this RDK e University Program www RenesasUniversity com o Supportfor Professors and Students o Supportfor University Kits QSKs e Renesas Microcontroller Samples America Customers o Free of charge o Request directly from www America R enesas com samples R20UT2532EU0100 Chapter 3 Power Supply 3 1 Requirements This RDK gets its power from the Segger J Link OB USB connection or optionally from a regulated 5V power supply The optional power jack is a center positive connector using a 2 1 mm barrel Warning The RDK is neither under nor over voltage protected Use a 5v REGULATED center positive supply which can source at least1 Amp 3 2 Power Up Behavior The factory demo is based on two partner technologies Micrium s RTOS kernel uCOS III TCP IP and HDCP networking stacks Exosite s networked embedded systems and portal technology providing the cloud connectivity To boot up the factory demo Read the enclosed Exosite QSG Install the factory DVD version 1 0 included all
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