SOMDIMM-RX63N Users Manual
Contents
1. GPO ComnectedtoPort6pin0 126 P73 CS3B GPO ComnectedtoPort7pin3 127 GPIO127_LCDVD2 2 10 j ConnectedtoPortEpin7 128 GPIO128 LCDVD3 LCD Data Bit3 7710 Connected to PortEpin3 S 129 0 Ground 130 GND Ground 131 PCZ ET COL MTICHU A GPO 18 ConnectedtoPortCpin7 SS 132 PC6 22 ET ETXD3 _ GPIO ComnectedtoPortCpin6 133 PCS AZLA ET ETXD2 MTICITW A GPIO ConmectedtoPortCpins 134 A2CA 60 j ComecedtoPotCpn4 S 1 135 19 ET TC ER GPIO j ComecedtoPotCpin3 136 PC2 18 ET RX DV MICIK A GPIO 18 jConnetedtoPotCpin2 SSS 137 PCL 2 GPIO 7 j ComecedtoPotCpini S 138 PCO A16 A 60 7 B ComnectedtoPortCpin0 1399 NC Notconnected Ne Notconnected U 141 GPO ComnectedtoPort4pin3 142 PA2 AN2 7 60 7 j ComecedtoPot4pn2 S 13 GPO B ConmectedtoPort4pint 144 PA ANNO GPO 7 j ComecedtoPot4pnO 15 U 146 P25 USBO DPRPD MICIKEA GPIO 18 jConnetedtoPot2pin5 147 P23 US2. nennen nnne nnne 20 27
3. 18 15 SOMDIMM Installation The SOMDIMM RX63N should be inserted into the DIMM Socket as shown below and then locked into place by pushing down to the Carrier Board Ensure the SOMDIMM is inserted completely into the socket prior to locking The socket utilized on the CARRIER Board is rated for a minimum of 25 insertions Figure 6 SOMDIMM Insertion 16 SOMDIMM Socket Details The SOMDIMM RX63N is designed to be used with a standard 200 pin DDR2 SO DIMM Socket connector An example connector part is as follows Mfg Tyco AMP Part Number 1473005 4 19 17 Mechanical Details EE DETAIL E ET i MIN ARE IDE 2 E F T FRONT d x n 7 EE 59 gt b I0 18 010 C B A EE Figure 7 SOMDIMM RX63N Mechanical Details 20 18 Software wWEZ takes its name from the Muses of Greek mythology A Muse was a goddess who inspired the creation process for the arts and sciences Like its ancient Greek namesake the WEZ platform inspires rapid development by supplying customers with an extensive library of open source software drivers and processor support all under a common framework 2 development works on the premise of design once reuse many times This provides an open source standard for embedded developers to build upon and support WEZ allows companies to focus
4. 186 j Netometd Netometd U 2 217 dd Analog 11 ADCPowrSupy 0 22 VRE Reference Voltage 1 ADC Reference Voltage o 23 VSSA n ss Analog ADCGruwd 2 24 Ground P 25 GPIO25 ICDPWR LCD Power Enable 710 Connected to Port9pin2 26 GPlO26 ICDIE Netcmeted 27 GPIO27 ICDCIK CC Clock 10 ConnectedtoPort5pin6 28 GPl8 ICDFP 110 ComectedtoPort2pin4 29 GPIOZI_LCDENABLE LCD Enable 10 ConnectedtoPort3pin4 SS 30 cPos0 ICDIP ConnectedtoPort2pin2 31 GPIO31_LCDVD4 LCD DataBit4 10 ConnectedtoPortEpin4 S 32 GPI032_LCDVD5 LCD DataBit5 O Connected to PortEpin5 33 GPIO33 ICDVD6 LCD DataBit6 710 ConnectedtoPortEpin6 34 GPIO34_LCDVD7 LCD DataBit7 710 Connected to Port Epin 37 33V 38 60 Ground 2 39 1 BBV Power P 40 GND Ground 41 USBHDP USB Host Data Positive ConnecedtoUSBI DP 42 USBD DP 58 Device Data Positive 8 ConnectedtoUSBO DP 43 USBHDM USB Host Data Negative _ ConnectedtoUSB1 DM gt 44 USBDDM CSB Device Data Negative ConnectedtoUSBO DP 45 GPIO45_LCDVD18 LCD DataBit18 10 ConnectedtoPortDpin4 46 GPIO46_LCDVD19 LCD DataBit19 O ConnectedtoPortDp
5. Clock that is set to 1 1 2009 8 00 00 and then sampled for 3 seconds to verify that it is operational e Temperature Sensor The CARRIER board has an external LM75A that is tested to be in a range of 20 30 C e Serial Port serial command is sent to the loopback unit and a response detected e Micro SDCard A FAT formatted Micro SDCard that is inserted into the SOMDIMM J1 slot is read to verify that the file TESTSDC TXT is correct e LEDs and Buttons All four LEDs LED1 to LED4 on the CARRIER board are lit by pressing the push button switches SW1 to SWA e Speaker Tunes are played and the User is asked to verify that they are heard e Ethernet Waits for a web page hit at http 192 168 10 20 A final report of PASS or FAIL is displayed along with a list of any Skipped and Failed items 26 21 Schematics Please see the website at http www teamfdi com SOMDIMM RX63N 22 Table of Figures Figure 1 RX63N SOMDIMM Block 4 Figure 2 5 11 Figure SOMDIMM RXO3N Bottom 11 Figure 4 DK TS KIT System Block ME Sev ae Tis Perrin 12 Figure 5 Mini JTAG Adapter Wiring Diagram 13 PICU GS SOI DUI SC quie T E mee 19 Figure 7 SOMDIMM RX63N Mechanical
6. DIMM EDGE FINGER PIN DIMM SOCK 125 EXPANSION TEMP SENSOR EXPANSION SIGNALS USB DEVICE ETHERNET LCD SIGNALS EXPANSION CONNECTORS 50 PIN LCD INTERFACE CONNECTOR 4 3 480x272 LCD TOUCHSCREEN Figure 4 DK TS KIT System Block Diagram 12 12 Connector Descriptions JTAG Connector CN1 The SOMDIMM RX63N uses a new reduced size JTAG connector based on a 2mm Header This smaller connector provides 10096 of the functionality of the standard 20 pin JTAG connector but utilizes 7096 less board space The connector is a standard part available from most major vendors LM 20 0 For users that may have existing JTAG debuggers an adapter may be fabricated using the following wiring diagram part numbers for the connectors are included from both the manufacturer and Digi key J2 TCK 7 EMLE RS EMLE T50 5 RESET DO NC TCK EE E MD1 MD1 Te _ 79 4 MS MS 9 n MDO am Uum 2 M TD 32 4 SKT2X5 2MM RA HEADERTX2 RA SHR TO FDI MINI JTAG CONNECTOR TO RENESAS STANDARD 16PIN JTAG DEBUGGER ON SOMMDIMM RX62N Figure 5 Mini JTAG Adapter Wiring Diagram 13 MicroSD Connector J1 The SOMDIMM RX63N utilizes a MicroSD Socket for flexible mass storage capability MicroSD Flash Cards are utilized by almost every cell phone on the market and are
7. on innovation and on their own value added applications while minimizing development time and maximizing software reuse The diagram below shows a typical embedded application stack wEZ has three primary categories of components that help simplify embedded application development 1 Operating System Abstraction Layer AEZ OSAL 2 Sub system drivers uEZ TCP IP uEZ USB uEZ Driver 3 Hardware Abstraction Layer 7 HAL Applications uEZ TCP IP uEZ DRIVER Host pus Device oucnscreen File System OTG I2C SPI Etc FreeRTOS uEZ HAL The selection of an RTOS can be one of the most daunting aspects of an embedded system development With the primary features of common multi tasking operating systems are abstracted thus easing the transition to an open source or low cost RTOS The OSAL provides applications access to the following features an OS independent fashion e Pre emptive multitasking e Queues e Stack overflow detection e Semaphores binary counting mutex e Unlimited number of tasks The pEZ sub system drivers utilize the OSAL functions to provide protected access to the processor peripherals The sub system driver API functions are typically protocol layer interfaces TCP IP USB etc designed as high level access routines such as open close read write etc where possible 21 The HAL functions provide single threaded unprotected acces
8. very cost effective providing as much as 2GB of user changeable memory storage Adapter cards are available and are usually included with the MicroSD to facilitate installation of the MicroSD card into a standard SD reader The SOMDIMM RX63N uEZ software also supports higher capacity SDHC MicroSD Cards PinNumbr Description Micro SD Chip Select o4 Micro SD SCLK 14 13 On Board Functions Ethernet PHY U4 The SOMDIMM RX63N provides an Ethernet PHY from SMSC LAN8720 The LAN8720 is a single chip solution for a 1OOBASE TX 10BASE T physical layer transceiver It has support for reduced MII RMII and HP MDI X auto crossover This allows for any standard Ethernet cable to be used even a crossover cable The LAN8720 is fully compliant to IEEE 802 3u with support for auto negotiation and manual selection of 10 100Mbps speed as well as full and half duplex modes For detailed information please refer to the specific data sheet for this device available from the manufacturer MicroSD J1 The SOMDIMM RX63N provides a MicroSD interface for access to a removable Flash memory Micro Secure Digital cards are one of the lowest prices per capacity memory cards available They allow the RX63N to have access to a much larger amount of Flash memory in a very small form factor When using a MicroSD card it can be accessed via the SPI B bus of the RX63N Reset Generator U7 The SOMDIMM RX63N utiliz
9. 1 ConnectedtoPort4pin6 71 GPIO7L 01 7 GPIO ADOBit1 Connected to Port4pin5 S 72 GPIO72 ADO2 GPIO ADOBI2 11 ConnectedtoPort4pin4 73 GPIO73_ADO3 7 GPIO ADOBt3 11 Connected to Port4pin7 S 74 GPIO74_SDA 7 GPIO UserlOI2CBusSDA j ConnectedtoPortipin3 7 7 75 GPIO75 sch GPIO UseriOI2CBusSCL 0 ConnectedtoPort1pn2 SS 76 GND Ground Po 2 7 GcND Ground 7 78 GPIO78_ACCIRQ GPIO Accelerometer IRA 1 j ConnectedtoPortOpin2 79 Notconnected 80 GPIOB0 RTC IRO GPIO RTCIROQInpt 11 jConnectedtoPortipinO gt Z 8 ne jNetometd U 8 NC U Notconnected 85 U 86 GPIOB6 LED BR GPIO LED Backlight Bright Connectedto Port9pin3 87 GPIO8B7 USBH PPWR 7 GPIO USBHostPowerCt 0 ConnectedtoPortipin7 SS 88 GPIO88_LCDVD10 7 lCDDataBitO 710 Connected to PortDpin5 89 GPIO89_LCDVD11 LCD DataBit11 10 j ConnectedtoPotDpin SSS 90 GPIO90 10 12 LCD DataBit12 O ConnectedtoPortDpin7 91 GPIO91_LCDVD13 LCD Data Bit13 10 ConnectedtoPortEpin0 o 92 GPIO92_LCDVD14 LCD DataBit14 10 Connected to PortEpint 93 GPIO93_LCDVD15 7 iCDDaetaBiti5 O j C
10. 8 168 260 with 32 bytes of data Reply from 192 168 180 260 bytes 32 time ims TTL 255 Reply from 192 168 106 268 bytes 32 time 3ms TIL 255 Reply from 192 168 108 286 bytes 32 time 3ms TTL 255 Reply From 192 168 168 286 bytes 32 time lms TTL 255 Ping statistics for 172 168 18 2H Packets Sent 4 Received 4 Lost 05 loss gt Approximate round trip times in milli seconds Hinimum ims Maximum 3ms Average 2ms Page Hits 9 Task State Priority Stack t eee ee ee ee ee Se ee WebSvr R 3 150 TS_Mon R 154 6 IDLE R 0 89 2 Audio B 3 150 8 lwIP B 3 413 0 Heart B 3 100 ETH INT B B 279 3 824 T GenHID S 3 210 4 Internet 100 7 States are R Running B Blocked S Suspended D Deleted NOTE Blocked means the task is waiting for an event and has a timeout specified Suspended means it also waiting but has no timeout The Stack value is the stack watermark representing the lowest amount of stack left in 32 bit words For example in your screenshot the WebSvr task has always had 150 4 600 bytes or more available in its stack is the task control block number in FreeRTOS In short it is the unique number for an active task 10 Setting up a Slideshow The Slideshow demonstration loads and scrolls between images provided on a microSD Card Images must b
11. BO_DPUPE A GPO jConnetedtoPot2pin3 148 P22 USBO DPRD TMOO 7 60 7 8 ConmectedtoPort2pin2 149 GPlOJ49 RX eo ComnectedtoPortOpint 150 GPIOISO TX 60 7 j ComecedtoPotOpnO 151 NC Notconnected U 1522 NC Notconmnected U 153 NC Notconnected U 154 NC Notconmected Notconnected O Notconnected O Notconmnected Notconnected O GND CIC C G NC Ot Notcomected O Notcometed O O Notcomected S Notcomected O Notcomnected Notconnected O S Notcometedd O NC Notconnected O NC Notconnected O Notconeted NC Ut Notconnected O Notcometed U S Notcomected U Notconnected U Notcometedd O c ci icic Notconnected Notconnected N N Clic Notconnected J U Notconnected U Notconnected UP 198 NC Notconmected U 199 33V 8B Power 200 Ground Ji 0 J 96 c ci icic NC NC NC NC NC NC NC NC NC ND ND ND NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC
12. Control Normal 00 00 00 00C Download the selected module s 24 10 The following window should appear Select Debug Run F5 to start execution un 73 75 76 TF 78 uo 80 81 82 83 84 85 86 87 88 89 90 91 92 93 g4 95 96 FFF80400 FFF8040E FFF80417 FFF8041E FFF80422 tifdef cplusplus Remove the comment when you use global class 3 excern C Sections CSINIT and CSEND will be generated endif extern void CALL INIT void extern void CALL END void ifdef cplusplus endif pragma section ResetPRG pragma entry PowerON Reset PC set intb unsigned long sectop CSVECT set fpsw FPSW init _INITSCT _INIT_IOLIB Use SIM errno 0 Remove the comment when you use errno srand _UINT 1 Remove the comment when you use rand _siptr NULL Remove the comment when you use strtok Crewe fie 25 20 Functional Test Software The functional test software tests all the features of the DK TS KIT Additional hardware is required to test all the features but these additional tests can be bypassed if the necessary hardware is not available Configuring the Functional Test setup Another DK TS KIT is required for complete functional testing By connecting to another kit s serial and CAN port the functional test can receive automatic responses for specific queries The DK TS KIT only needs a version of fi
13. DIMM RX63N Block Diagram 3 Functional Description SOMDIMM RX63N e Renesas RX63N based Microprocessor e 2Mx16x4 SDRAM 16 Mega bytes e 10 100 Ethernet PHY e Micro SD Card Socket for up to 32Giga bytes storage SDHC is also supported e Mini JTAG e Power on Reset Generator 4 ESD Warning The DK TS KIT shipped in a protective anti static package The kit must not be subjected to high electrostatic potentials Damage may occur to the boards that will not be covered under warranty General practice for working with static sensitive devices should be followed when working with the DK TS KIT 5 Requirements The SOMDIMM RX63N requires a carrier board with a 200 pin SO DIMM socket The socket should have the key at the 1 8V location the SOMDIMM RX63N doesn t require 1 8V The CARRIER Board from Future Designs provides this socket and should be utilized to develop your application for initial verification Example SO DIMM Socket Manufacturer and Part Number TYCO 1473005 4 Please refer to section 14 for the pin out details of the SOMDIMM Edge Finger 6 SOMDIMM RX63N Power Requirements The following power requirements were measured at room temperature at 100MHz operating clock rate Voltage Booted at the uEZ Demo Screen Observed Max 7 Setting up the Hardware The following are step by step instructions for setting up the hardware 1 Make sure you have a SOMDIMM RX63N board plugged into the CARRIER board at J1 2 Verify the LCD
14. Interface ribbon cable connects the LCD CARRIER board to the CARRIER J7 board 3 With the power off plug the 5V center positive Power Supply into 5V P5 of the CARRIER board 4 Connect an RJ 45 Ethernet cable to the ETHERNET J5 interface of the CARRIER board 5 Plug in a female to female DB9 serial cable not included in the DK TS KIT between and RS232 P4 on the CARRIER board 6 Insert the microSD card with the demonstration files included into microSD connector on the SOMDIMM 7 Turn on the power The title screen should appear and a short tune is played The main menu will appear 8 After connecting all of the above your configuration should look similar to the following Ve MAU wl n POINTS Woo nbzen MMM WOOP JUDE Y M MM SESS BITES DUE DTE 931839097 4 2 WOVGA FUTURE DESIGNS INC LCDCARRIER 4WQ 8 Demonstration Software Main Menu The Demonstration Software has the following options Slideshow Loads up to nine slides from the flash drive and allows the user to scroll up and down through the material Slide back to the load screen to return to the main menu See Setting up a Slideshow for details on how to customize Draw A very simple art program is provided Use the touch screen to draw lines in the box to the right Click on Color to rotate through a list of color choices Save stores the graphic image as the file IMAGE RAW on the microSD card Load recalls the s
15. SOMDIMM RX63N Users Manual For use with Touch Screen LCD Kit Copyright 2012 Future Designs Inc All Rights Reserved Future Designs Inc Your Development Partner 996 A Cleaner Way Huntsville AL 35805 FDI Table of Contents Introduction RX63N SOMDIMM Block Diagram Functional Description ESD Warning Requirements SOMDIMM RX63N Power Requirements Setting up the Hardware Demonstration Software Main Menu e ee on SES PC to Demonstration Network Configuration 10 Setting up a Slideshow 11 Board Layout DK TS KIT System Functional Block Diagram 12 1 0 Connector Descriptions JTAG Connector CN1 MicroSD Connector J1 13 On Board Functions Ethernet PHY U4 MicroSD J1 Reset Generator U7 14 200 pin SOMDIMM Connector Details 4 15 SOMDIMM Installation 16 SOMDIMM Socket Details 17 Mechanical Details 18 Software 19 Configuring Renesas HEW for J Link Flashing 20 Functional Test Software Configuring the Functional Test setup Running Functional Test 21 Schematics 22 Table of Figures CON OU Ui Ho 4 N N N NY NY NY N RP RP RP LH PRP PRP LR RP NY Oo U rn HO HO Q Ui Ui A Wo WwW NY FP Information in this document is provided solely to enable the use of Future Designs products FDI assumes no liability whatsoever including infringement of any patent or copyright FDI reserves the right to make changes to th
16. ash memory and System use the default values Then press OK to connect to the unit Configuration Properties Intemal flash memory overwrite Extemal flash memory MCU B System Single chip mode M Endian Little endian Input clock EXTAL 12 0000 MHz Work RAM start address 0 400 po bytes used OK Cancel Do not show this dialog box again 9 Noerrors should appear The unit is now connected The next step is to download the code If the code has been compiled scroll down in the project explorer and find the image file under Download modules For the DKTSKitDemo code the file DK TS RX63N abs should be listed Right click on this file and select Download CAHHIEH HX63N DirectDrive c l CARRIER_RX63N_DirectDrive h L RX63N_DirectDrive_LCDController c RX63N DirectDrive LCDController h 2 3 Download modules 1 0 5 mmm Dependencies 5 3D h Download Debug Data Only Accelerometer h E Accelerometer h Unload Accelerometer B Accellcon h Download A New Module E Accellcon h Remove Accellcon128 h Z ADC h Debug Settings E ADCBankh L 5 ADCBankh Configure View Projects 8 Templates lt Nan operas el v Allow Docking OF OT al Ar 21 2 vee Connected Reset CPU Reset CPU Properties Build Debug Find in Files 1 Find in Files 2 Macro Test Version
17. aved graphic image from the microSD card Console Presents an output screen showing what a remote user sees when Telnetting into the console On a Windows PC configure the PC as explained in PC to Demonstration Network Configuration then open a CMD window and type telnet 192 168 10 20 to connect to the DK TS KIT Type quit to disconnect Time amp Temperature Displays the current time and date from the external Real Time Clock RTC and the temperature from the LM75 temperature sensor on the CARRIER board Accelerometer Demonstrates the accelerometer by moving a simulated ball across the screen as the CARRIER board is tilted along the X and Y axis Settings Displays the submenu screen Calibrate Calibrates the Touch Screen and stores the new calibration information in the NV Storage on the SOMDIMM Functional Test Provides a step by step test of all basic features of the DK TS KIT Requires additional hardware to test all features See Functional Test Software section for more details FCT Loopback Puts the unit into a mode that will communicate with another DK TS KIT running the Functional Test See Functional Test Software section for more details 9 PC to Demonstration Network Configuration In order to communicate via Ethernet to the DK TS KIT the PC s network configuration will need to be changed The simplest method is to give the PC another IP number and add the PC to another subnet If using Windows XP follow these in
18. e in 24 bit uncompressed Targa TGA format Adobe Photoshop and many other graphics programs can save images in this format When using DK TS KIT s with a WQVGA LCD e g DK 43WQT RX63N the images must be 480x272 in size and use the file names WOSLIDO1 TGA WOSLIDO2 TGA WOSLIDO3 TGA etc 10 11 Board Layout The following figures illustrate the layout of the various components of the DK TS KIT They are for reference only and are subject to change wsRB7 R33 Eric RS MICROSD dob ooo OR PPP PCR EE IIIPIITITI obo deo oo Ea gc ps 5 2 1 5 Ri 70 ta k72 RET aw 9 2 LEZEREEZLILILIILII o BIS SONDINN RX63N www teamfdi com e c CB2 C32 ole c e PPP s 44 zs he DOE 1 FUTURE DESIGNS INC C3 I M teamfdi com m TIT 1 22509 cce 1111142 TELI i Figure 3 SOMDIMM RX63N Bottom Side 11 DK TS KIT System Functional Block Diagram The DK TS KIT Block Diagram is illustrated below 4 3 WQVGA shown Mini uSD JTAG Slot Renesas SDRAM lt RX x32 0 10 Based Processor 100 a O x 200 PIN
19. es a TPS3808 power on reset supervisor and voltage monitor The TPS3808 includes an external reset input that is connected to the reset button on the CARRIER Board For detailed information please refer to the specific data sheet for this device available from the manufacturer 15 14 200 pin SOMDIMM Connector Details J2 Pin SOMDIMMSignalName_ ApplicationDetails 0 SOMDIMMConnectionDetails 1 JETHTXP Ethernet Transmit Positive 0 Output from LAN8720 Ethernet PHY 2 ETHRXP Ethernet Receive Positive 1 Output from LAN8720 Ethernet PHY 3 Ethernet Transmit Negative 0 Input to LAN8720 Ethernet PHY o 4 ETHRXN Ethernet Receive Negative 1 Input to LAN8720 Ethernet PHY 5 3 P Anelog3 3VOutputfromPHYCiruit 6 GND Ground 45422 7 ETH_LEDO Ethernet LEDO 70 Ethernet LEDO output from LANB720 8 ETH_LEDI O Ethernet LED1 output from LAN8720 7 9 6 Notconmnected SU 10 NC Netometd Ul 11 RESETIN Restinpt I j ResetinputtoPORICTPS3808 12 RESELOUT 10 Reset output from POR circuit Netometd U y 14 NC Netometd U 2 16 NC U Netometed Ul y
20. ese specifications at any time without notice No part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical for any purpose without the express written permission of Future Designs Inc 996 A Cleaner Way Huntsville AL 35805 For more information on FDI or our products please visit www teamfdi com NOTE The inclusion of vendor software products in this kit does not imply an endorsement of the product by Future Designs Inc O 2012 Future Designs Inc All rights reserved uEZ is a registered trademark of Future Designs Inc Microsoft MS DOS Windows Windows XP Microsoft Word are registered trademarks of Microsoft Corporation Other brand names are trademarks or registered trademarks of their respective owners FDI PN MA00027 Revision 1 0 11 29 2012 1 14 00 PM Printed in the United States of America 1 Introduction The SOMDIMM RX63N provides a quick and easy solution for implementing Renesas RX63N based design by providing the basic functions necessary for a product on an easy to use SOMDIMM The SOMDIMM uses an industry standard 200 pin SO DIMM interface These sockets are utilized by virtually every laptop on the market This SOMDIMM is compatible with FDI s Family of Touch Screen LCD Kits but can also be used for custom platform development or customer applications 2 SOMDIMM RX63N Block Diagram DIMM MODULE BORDER 3 3V DIMM MODULE BORDER Figure 1 SOM
21. ino 76 Netometd 48 4 Notconnected U a9 Ne Netometd 50 U 91 enD Ground 52 enD Ground 7 P 3 4 Ground 5352 54 enbo Ground J 55 Ground 9 56 0 Ground 9 3 57 621057 GPIO Serial Transmit Data ConnecedtoPot2pinO S 58 GPIO58 RD GPIO Serial Receive Data Connected to Port2 pint 59 GPIO59 USBH PWRD GPIO USB Host Power Detect 1 Connected to PortOpin5 SSS 60 GPIO60_USBD_UPLED GPIO USB Device Up LED 0 ConnectedtoPortOpin0 61 GPIOGI USBD GPIO USB Device Connect ConnectedtoPort1pin4 62 GPIOG2 SK GPIO SPiClck O ConnectedtoPort2pin7 gt 63 NC Notconnected U 64 64 MSO GPIO SPIMISO 11 ConnectedtoPort3pin3 65 60065 MO GPIO SPIMOS 0 ConnectedtoPort2pin6 o 16 66 _ 6 NC 68 GPIO68_USBH_OVC GPIO USBHostOverCurent 1 ConnectedtoPortipins SSS 69 69 TPIRO GPIO TouhiCiRQInput 1 j ConnectedtoPortOpin3 O o 70 GPlO70 ADOO _ GPIO ADOBItO
22. onnectedtoPortEpin2 94 GPIO94_LCDVD20 LCD Data Bit 16 10 ConnectedtoPortEpin3 95 GPIO95_LCDVD21 710 Connected to PortEpin4 SS 96 GPIO96_LCDVD22 LCD Data Bit 22 710 Connected to PortEpin5 97 GPIO97_LCDVD23 iCDDataBit23 0 ConnectedtoPortEpin6 98 GPIO98 USBD VBUS USB Device VBus Sense Input Connected to Port1pin6 SSS 99 Ne j Netometd 10 NC Notconnected Ground 2 29 2 GND Ground 10 NC Notconnected U 104 NC jNetometd 105 NC jNetcmetd U 100 6 jNetcmetd 107 NC 108 NC j Netometed U 109 NC Netometd 33 NC Netmetd U M4 NC Netometd pais NC M6 piots GPO jConmetedtoPort9pin7 17 6 0 7 Comnected to Port9pin6 S M8 8 7 60 7 ConmectedtoPortGpintd 39 7 6 0 7 j ComecedtoPotGpinO SS 120 PS7_WAITHA GPO ComnectedtoPort5pin7 121 P3 BeK 7 60 f B Comnected to Port5pin3 S 23 GPlOD3 SER deo A 124 PILSCC A GP 7 ConnectedtoPorttpind S 125 0
23. rmware that has the FCT Loopback program This document will refer to this second unit as the loopback unit Start with a CARRIER board that is already connected as described above but disconnect the PC to serial connection Connect a null modem cable between the CARRIER RS232 port P4 and the loopback unit s RS232 port also P4 NOTE A gender change may be required Then connect a DB9 cable between the CARRIER CAN port P3 and loopback unit s CAN port also P3 Power will be provided to the loopback unit from the CARRIER CAN port When the unit boots up select Settings and then FCT Loopback You are now ready to do the functional test Running Functional Test From the Main Menu select Settings and then Functional Test to start the test To abort the functional test PRESS and HOLD the Cancel button If the current test cannot be performed press Skip to go to the next test Most tests will run automatically and will report a green Pass or red Fail output Some tests will require user input in the form of a question and a Yes or No response If a test fails the functional test will pause to show the error press OK to continue The following tests are performed e SDRAM Memory is sized and a basic test is performed to confirm read write access e LCD Colors Red Green and Blue are displayed in smooth bands to ensure the LCD lines are correct e External RTC The CARRIER board has an external NXP 2 PCF8563 Real Time
24. s jlink software html step 1 amp file JLink 426a Plug in the J Link s JTAG 10 pin connector J2 to the SOMDIMM board connector CN1 with the JTAG adapter If a workspace has not been opened go to uEZ SRC Build DK TS KIT DK 57TS RX63N RenesasRX and open file DKTSKITDemo RX63N hws or any other existing workspace Build the code if not already using Build gt Build or by pressing F7 Open Debug Debug Sessions Under Current Session select DefaultSession and click OK Debug Sessions Debug sessions DefaultSession Add Remove Save as Properties Current session DefaultSession 7 The following dialog will appear Make sure the MCU group is RX63N Group and Device is R5F563NE On the Communication tab the JTAG Clock is 16 5 MHz Press OK Initial Settings xm Device Startup and Communication MCU group jig Device R5F563NE Mode e Debugging mode Hotplug in Checkthe following and press OK button the emulator is not connected with the user system the emulator serial No is displayed C Writing the on chip flash memory mode E Power supply 9 o Communication Emulator Serial No Refresh notshowthis dialog box again 23 8 The Configuration Properties will appear Confirm the Operating Mode has a Mode of Single chip mode and Input clock EXTAL is 12 0000 MHz The other tabs Internal flash memory External Fl
25. s to the processor peripherals Customers can use the WEZ HAL routines provided by FDI or they can write their own The HAL routines provide for RTOS WEZ independence and allow portability within a family of processors is ideally suited for Embedded Systems with standard features such as e Processor and Platform BSPs Board Support Packages e Real Time Operating System RTOS e Memory Management e NAND NOR Flash e SDRAM and DDR Memory e TCP IP stack e Mass Storage Devices e LCD Displays with Touch Screen e Input Output Devices Download pEZ at http sourceforge net projects uez USB Device is also referred to as USB Function by Renesas and some users For the purposes of this document any time we say USB Device we also mean USB Function since we consider the terms to be interchangeable USB Host and USB Device drivers for the RX Family under FreeRTOS uEZ are currently under development by FDI and Renesas but are not yet available Please consult our website at www teamfdi com for updates on availability of these RX drivers or email us at support teamfdi com for more information 22 19 1 2 3 4 5 6 Configuring Renesas HEW for J Link Flashing See the document uEZ Software Quick start Guide for details on how to download the uEZ source code Plug in the J Link device into the PC and install any drivers as directed If necessary download the drivers from http www segger com cm
26. structions Other operating systems should have similar operations Start by going to the Control Panel and select Network Connections Then double click the Local Area Connection or similarly named and click Properties The following dialog should appear Scroll down to Internet Protocol TCP IP select and then click Properties A21 xl Connect using E Broadcom NetXtreme 57xx Gigabit C This connection uses the following items J File and Printer Sharing for Microsoft Networks v 18 05 Packet Scheduler Intemet Protocol TCP IP Transmission Control Protocol Intemet Protocol The default wide area network protocol that provides icati Descripti across diverse interconnected networks Show icon in notification area when connected Notify me when this connection has limited or no connectivity On the next screen the computer needs to be set to a static IP number Enter the current IP address subnet mask default gateway and DNS servers enter the command ipconfig all at a CMD window to get this information Then click Advanced and then click Add and enter the following information and then click Add Click OK Click OK IP address 192 168 10 1 Subnet mask 255 255 255 0 49 NC Open another CMD window and type the command ping 192 168 10 20 and should output the following WINDOWS system32 cmd exe exe 192 168 16 26 Pinging 192 16
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