Renesas Starter Kit for R8C/L3AC User`s Manual
Contents
1. Table 9 2 J2 microcontroller header 24 Header Circuit Net Name Device pin Header Circuit Net Name Device pin Pin Pin 1 SEG39 51 2 SEG38 52 3 SEG37_TRCIOB 53 4 SEG36 54 5 SEG35 55 6 SEG34_CLK1 56 7 SEG33 RXDI 57 8 SEG32 TXD1 58 9 SEG31 ADTRGn SW3 59 10 SEG30 60 ti SEG29 DLCDRS 61 12 SEG28 DLCDE 62 13 SEG27 DLCDD7 63 14 SEG26 DLCDD6 64 15 SEG25 DLCDD5 65 16 SEG24 DLCDD4 66 17 SEG23_LED3 67 18 SEG22_LED2 68 19 SEG21_LED1 69 20 SEG20_LEDO 70 21 103 71 22 102 72 23 101 73 24 100 74 25 107 75 26 Table 9 3 J3 microcontroller header Header Circuit Net Name Device pin Header Circuit Net Name Device pin Pin Pin 1 106 76 2 105 77 3 104 78 4 AN15 79 5 AN14 80 6 AN13 81 7 AN12 82 8 SEG7_AN11 83 9 SEG6_AN10 84 10 SEG5_AN9 85 11 SEG4_AN8 86 12 SEG3_AN7 87 13 SEG2_AN6 88 14 SEG1_AN5 89 15 SEGO AN4 90 16 VL1 91 17 VL2 92 18 VL3 93 19 RING P12 3 94 20 RING P12 2 95 21 VL4 96 22 TRGCLKB 97 23 TRGIOB 98 24 TRGCLKA 99 25 TRGIOA 100 26 Table 9 4 J4 microcontroller header 25 9 2 Application Headers Standard application header connections are detailed in Table 9 5 to Table 9 9 Header Generic RSK board Signal Device Pin Header Generic RSK board Signal Device pin Pin Header Name N2. Disconnects MCU port pin P4 1 pin R101 Interface SEG33 at JA4 32 57 from SEG33 R101 Application Board Connects MCU port pin P4 1 pin 57 to Disconnects MCU port pin P4 1 pin R100 R148 Interface RXDI at JA6 12 57 from RXD1 R102 Application Board Connects MCU port pin P4 2 pin 56 to Disconnects MCU port pin P4 2 pin R103 Interface SEG34 at JA4 33 56 from SEG34 R103 Application Board Connects MCU port pin P4 2 pin 56 to Disconnects MCU port pin P4 2 pin R102 Interface CLK1 JA6 11 56 from CLK1 R104 Application Board Connects MCU port pin P4_5 pin 53 to Disconnects MCU port pin P4_5 pin R105 Interface SEG37 at JA4 36 53 from SEG37 R105 Application Board Connects MCU port pin P4 5 pin 53 to Disconnects MCU port pin P4 2 pin R104 Interface TRCIOB at JA5 15 53 from TRCIOB R106 Application Board Connects MCU port pin P11_0 pin 22 Disconnects MCU port pin P11 0 pin R107 R108 Interface to CLK2 at JA2 10 22 from CLK2 R107 Application Board Connects MCU port pin P11_0 pin 22 to Disconnects MCU port pin P11 0 R106 R108 Interface SCL at JA1 26 pin 22 from SCL R108 Application Board Connects MCU port pin P11_0 pin 22 to Disconnects MCU port pin P11 0 R106 R107 Interface IVREF1 at JA2 25 pin 22 from IVREF1 R109 Application Board Connects MCU port pin P11 1 pin 21 Disconnects MCU port pin P11 1 pin R110 Interface to RXD2 at JA2 8 21 from RXD2 R110 Application Board Connec
3. AN A NE EE RE EE Ld 1 2 Single ChIP mode ER fete RR EE A NELO Chapter 8 Programming Methods eise ese ee se se ee esenee Ge AA Ge AA ee ee AA ee AA ee ee Re ee Ghapter9 Headers ss EE BY loteo 9 1 Microcontroller Ring Headers ees se ee se ee ee de ee ee de ee ee de ee ee ee ee ee ee ee ee ee 9 2 Application Headers sate tire tir Chapter 10 Code Development ee se de ee GR AA Ge AA ee AR Re ee AA ee ee ee TOA OVERVIE os A ee a 10 2 Compiler Restrictions eie se ee RA AA AA AR Re Ge AA Ge AA ee GR RA ee ee Re ee 10 3 Breakpoint SUpport spi aa tee EN Le dike Rd ge gegee Ed aae se EN eene eed 10 4 MemMoly lo EE N EE ANS Chapter 11 Component Placemen ee se RA Ge AR RA AA ee ee ee Re ee Chapter 12 Additional InformatiON ese se se GR AA Ge AA RA AA ee ee Re ee Chapter 1 Preface Cautions This document may be wholly or partially subject to change without notice All rights reserved Duplication of this document either in whole or part is prohibited without the written permission of Renesas Technology Europe Limited Trademarks All brand or product names used in this manual are trademarks or registered trademarks of their respective companies or organisations Copyright 2010 Renesas Technology Europe Ltd All rights reserved 2010 Renesas Technology Corporation All rights reserved O 2010 Renesas Solutions Corporation All rights reserved Website www renesas com Glossary ADC An
4. pin 68 to Disconnects MCU port pin P2 6 pin R79 Interface LED2 68 from LED2 R81 Application Board Connects MCU port pin P2 7 pin 67 to Disconnects MCU port pin P2_7 pin R82 Interface SEG23 at JA4 22 67 from SEG23 R82 Application Board Connects MCU port pin P2_7 pin 67 to Disconnects MCU port pin P2 7 pin R81 Interface LED3 67 from LED3 R83 Application Board Connects MCU port pin P3 0 pin 66 to Disconnects MCU port pin P3 0 pin R84 Interface SEG24 at JA4 23 66 from SEG24 R84 Application Board Connects MCU port pin P3 0 pin 66 to Disconnects MCU port pin P3 0 pin R83 Interface DLCD4 66 from DLCD4 R85 Application Board Connects MCU port pin P3 1 pin 65 to Disconnects MCU port pin P3 1 pin R86 Interface SEG25 at JA4 24 65 from SEG25 R86 Application Board Connects MCU port pin P3 1 pin 65 to Disconnects MCU port pin P3 1 pin R85 Interface DLCD5 65 from DLCD5 R87 Application Board Connects MCU port pin P3 2 pin 64 to Disconnects MCU port pin P3 2 pin 88 Interface SEG26 at JA4 25 64 from SEG26 R88 Application Board Connects MCU port pin P3_2 pin 64 to Disconnects MCU port pin P3_2 pin 87 Interface DLCD6 64 from DLCD6 R89 Application Board Connects MCU port pin P3_3 pin 63 to Disconnects MCU port pin P3_3 pin 90 Interface SEG27 at JA4 26 63 from SEG27 R90 Application Board Connects MCU port pin P3_3 pin 63 to Disconnects MCU port pin P3 3 pin 89 Interface DLCD7
5. 6 3 Serial port settings The serial channel UARTO can also be accessed at U1 and JA6 UART1 can be accessed at U3 and JA6 UART2 can be accessed at JY and JAZ The board is designed to accept a straight through RS 232 male to female cable The UARTO port is shared with the LIN module For more details please refer to the section 6 6 6 5 Debug LCD Module A debug LCD module is supplied to be connected to the connector LCD This should be fitted so that the debug LCD module lies over J3 Care should be taken to ensure the pins are inserted correctly into LCD The debug LCD module uses a 4 bit interface to reduce the pin allocation No contrast control is provided this is set by a resistor on the supplied display module Table 6 4 shows the pin allocation and signal names used on this connector The module supplied with the RSK board only supports 5V operation LCD Pin Circuit Net Name Device Pin Pin Circuit Net Name Device Pin 1 Ground 2 5V 3 No Connection 4 DLCDRS 61 Port 3 bit 5 5 R W Wired to write only 6 DLCDE 100k pull 62 Port 3 bit 4 using 10K pull down down to ground 7 No Connection 8 No Connection 9 No Connection 10 No Connection 11 DLCDD4 66 Port 3 bit0 12 DLCDD5 65 Port 3 bit 1 13 DLCDD6 64 Port 3 bit2 14 DLCDD7 63 Port 3 bit 3 Table 6 4 Debug LCD Module Connections Note The option lin
6. LED will be illuminated to indicate that the microcontroller is in boot mode e Boot mode activated RESETn Vcc Time msec Time msec Bootn Vcc Time msec Boot Procedure tm Time in msec during the Reset switch is pressed 1 Press and Hold SW1 Boot switch td Reset time in msec for RC circuit after Reset 2 Press and Hold Reset switch switch released 3 Release Reset switch Note 4 Release SW1 Boot switch Please see page 3 of the schematics D008702 04 for boot and reset circuit Boot mode activates after releasing reset switch in step 3 Figure 7 1 RSKR8CL3AC Boot Sequence When neither the E8a is connected nor the board is placed in Boot mode the MODE pin is pulled high by a 4 7k resistor When an E8a is used the MODE pin is controlled by the E8a More information on the operating modes and programming the flash memory can be found in the R8C L3AC Group hardware manual 7 1 Boot modes The Boot mode settings for this Renesas Starter Kit are shown in Table 7 1 below Mode LSI State after Reset End Low Boot Mode Table 7 1 Boot Mode pin settings 21 7 2 Single chip mode Because the MODE pin is pulled high this Renesas Starter Kit will always boot in Single chip mode when the E8a is not connected and the boot switch is not depressed Refer to R8C L3AC Group Hardware Manual for details of Single chip mode Mode LSI State after Res
7. LED2 Red Port 2 bit 6 68 LED3 Red Port 2 bit 7 67 Table 6 2 LED Port Note The option links for the user LEDs are not fitted by default To use LEDs fit R76 R78 R80 R82 and disconnect Renesas LCD Panel from JA4 6 3 Potentiometer A single turn potentiometer is connected to pin ANO Port 13 bit 0 pin 4 of the microcontroller This may be used to vary the input analog voltage value to this pin between AVCC and Ground 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 controller s ADC Please see the device manual for details 7 6 4 Serial port Serial port UART2 is connected to the standard RS232 header Serial port UARTO can optionally be connected to the RS232 transceiver by moving option resistors The connections to be moved are listed in the Table 6 3 Description Function Microcontroller Fit for RS232 Remove for RS232 Port Pin UART2 Default serial port TX 20 Port 11 bit2 R53 R49 R51 UART2 Default serial port RX 21 Port 11 bit1 R54 R50 R52 UARTO Spare Serial Port TX 3 Port 13 bit 1 R51 R123 R49 R53 R122 R124 UARTO Spare Serial Port RX 2 Port 13 bit 2 R52 R125 R50 R54 R126 UART1 UART1 Serial Port TX 58 Port 4 bit 0 R47 R99 R98 UART1 UART1 Serial Port RX 57 Port 4 bit 1 R48 R101 R100 Table
8. shielded interface cables are used The product is potentially susceptible to certain EMC phenomena To mitigate against them it is 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 Starter Kit does not represent an ideal reference design for an end product and does not fulfil the regulatory standards for an end product Table of Contents oar Te Prefacio EA ER e dd EN Ghapter 2 PUrDOSe ide tad ban Chapter 3 Power Supply cooococcocccococcnonocanonccononcnonnanann corno n ron rca nn nana cnn rca ek Re AA ee ee Re ee ep REQUIEM il iaa 3 2 Power up Behaviour c ocoooconoccconcccnoncccnoncnnnoncnnnn nn conc cnn cnn Ge AA Ge cnn rca ee de ee Re ee Ghapter 4 Board Layout da a e abad 41 Component Lati ici dida 4 2 Board Bi Ee RE EE EE RE EE te Chapter 5 Block Diagram esse ee RA Ge AA Ge AR ee GR AA Ge AA ee AR Re ee AA ee ee ee Re ee Ghapter 6 User GirGuItrY s sees EE EER leni AR air RS ESE RE RA EE DEER EE EE LE N 6 2 EDS rk sarna A EE EE em Ge ro 6 3 Potentiometer is ss Ee Se eg AO DA EO LA NA AA Ke de sel MR OE EE IE EES 6 5 Debug LCD Mod le nrp se ee AA Ge conan RR cnn AA Ge AA ee RA AA ee ee 6 65 Na ds 67 Option LINKS iu AN OE OE RE ER IE aa 6 8 Oscillator SQUICES sit ld lila 6 9 RESEUGIFGUIL na EE e A OL ML Chapter Modest
9. supply A diode provides reverse polarity protection only if a current limiting power supply is used This RSK board is supplied with an E8a debugger This product is able to power the RSK board with up to 300mA When the RSK is connected to another system then that system should supply power to the RSK All RSK boards have an optional centre positive supply connector using a 2 0mm barrel power jack Warning The RSK board is neither under nor over voltage protected Use a centre positive supply for this board 3 2 Power up Behaviour When the RSK is purchased the RSK board has the Release or stand alone code from the example tutorial code pre programmed into the Renesas microcontroller On powering up the board all the segments of Renesas LCD panel connected to JA4 will start to flash After 200 flashes or after pressing any switch the LCD panel will show ADC value controlled by the potentiometer Chapter 4 Board Layout 4 1 Component Layout The following diagram shows the top layer component layout of the board Application Board Interface Reset Switch RS232 Serial Debug LCD Header Power Power LED Microcontroller Pin Headers User LEDs LIN E8A Header Boot LED Application Board Interface Analog POT User Switches 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 fo
10. use conditions Further Renesas Electronics products are not subject to radiation resistance design Please be sure to implement safety measures to guard them against the possibility of physical injury and injury or damage caused by fire in the event of the failure of a Renesas Electronics product such as safety design for hardware and software including but not limited to redundancy fire control and malfunction prevention appropriate treatment for aging degradation or any other appropriate measures Because the evaluation of microcomputer software alone is very difficult please evaluate the safety of the final products or system manufactured by you Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances including without limitation the EU RoHS Directive Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations This document may not be reproduced or duplicated in any form in whole or in part without prior written consent of Renesas Electronics Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics p
11. 0 pin90 to Disconnects MCU port pin PO 0 pin R59 Interface AN4 at JA1 9 90 from AN4 R61 Application Board Connects MCU port pin PO 1 pin 89 to Disconnects MCU port pin PO 1 pin R62 Interface SEGI at JA4 12 89 from SEG1 R62 Application Board Connects MCU port pin PO 1 pin 89 to Disconnects MCU port pin PO 1 pin R61 Interface ANS at JA1 10 89 from ANS R63 Application Board Connects MCU port pin PO 2 pin 88 to Disconnects MCU port pin PO 2 pin R64 Interface SEG2 at JA4 13 88 from SEG2 R64 Application Board Connects MCU port pin PO 2 pin 88 to Disconnects MCU port pin P0_2 pin R63 Interface AN6 at JA1 11 88 from AN6 R65 Application Board Connects MCU port pin PO 3 pin 87 to Disconnects MCU port pin PO 3 pin R66 Interface SEG3 at JA4 14 87 from SEG3 R66 Application Board Connects MCU port pin PO 3 pin87 to Disconnects MCU port pin PO 3 pin R65 Interface AN7 at JA1 12 87 from AN7 R67 Application Board Connects MCU port pin PO 4 pin 86 to Disconnects MCU port pin PO 4 pin R68 Interface SEG4 at JA4 15 86 from SEG4 R68 Application Board Connects MCU port pin PO 4 pin 86 to Disconnects MCU port pin PO 4 pin R67 Interface AN8 at JA5 1 86 from AN8 R69 Application Board Connects MCU port pin PO 5 pin 85 to Disconnects MCU port pin PO 5 pin R70 Interface SEG5 at JA4 16 85 from SEG5 R70 Application Board Connects MCU port pin PO 5 pin 85 to Disconnects MCU port pin PO 5 p
12. 0 COM4 COM3 34 ti SEGI SEGO 90 12 SEG2 SEGI 89 13 SEG3 SEG2 88 14 SEG4 SEG3 87 15 SEG5 SEG4 86 16 SEG6 SEG5 85 17 SEG7 SEG6 84 18 SEG8 SEG7 837 19 SEG9 SEG20 70 20 SEG10 SEG21 69 21 SEG11 SEG22 68 22 SEG12 SEG23 67 23 SEG13 SEG24 66 24 SEG14 SEG25 65 25 SEG15 SEG26 64 26 SEG16 SEG27 63 27 SEG17 SEG28 62 28 SEG18 SEG29 61 29 SEG19 SEG30 60 30 SEG20 SEG31 59 31 SEG21 SEG32 58 32 SEG22 SEG33 57 33 SEG23 SEG34 56 34 SEG24 SEG35 55 35 SEG25 SEG36 54 36 SEG26 SEG37 537 37 SEG27 SEG38 52 38 SEG28 SEG39 51 39 SEG29 SEG52 38 40 SEG30 SEG53 37 41 SEG31 SEG54 36 42 SEG32 SEG55 35 43 SEG33 SEG44 46 44 SEG34 SEG45 45 45 SEG35 SEG46 44 46 SEG36 SEG47 43 47 SEG37 SEG48 42 48 SEG38 SEG49 41 49 SEG39 SEG50 40 50 SEG40 SEG51 39 Table 9 7 JA4 Standard Generic Header 27 Header Generic Header RSK board Signal Device Pin Header Generic RSK board Signal Device Pin Pin Name Name Pin Header Name Name 1 AD4 AN8 86 2 AD5 AN9 85 3 AD6 AN10 84 4 AD7 AN11 83 5 CAN1TX 6 CAN1RX 7 CAN2TX 8 CAN2RX 9 AD8 AN12 82 10 AD9 AN13 81 ti AD10 AN14 80 12 AD11 AN15 79 13 TIOCOA TRGIOA 100 14 TIOCOB TRGIOB 98 15 TIOCOC TRCIOB 53 16 M2 TRISTn 17 TCLKC TRGCLKA 99 18 TCLKD TRGCLKB 97 19 M2 Up 20 M2 Un 21 M2 Vp 22 M2 Vn 23 M2 Wp 24 M2 Wn Table 9 8 JA5 Standard Generic Header Header Ge
13. 63 from DLCD7 R91 Application Board Connects MCU port pin P3 4 pin 62 to Disconnects MCU port pin P3 4 pin R92 Interface SEG28 at JA4 27 62 from SEG28 R92 Application Board Connects MCU port pin P3 4 pin 62 to Disconnects MCU port pin P3 4 pin R91 Interface DLCDE 62 from DLCDE R93 Application Board Connects MCU port pin P3 5 pin 61 to Disconnects MCU port pin P3_5 pin R94 Interface SEG29 at JA4 28 61 from SEG29 R94 Application Board Connects MCU port pin P3_5 pin61 to Disconnects MCU port pin P3 5 pin R93 Interface DLCDRS 61 from DLCDRS R95 Application Board Connects MCU port pin P3 7 pin 59 to Disconnects MCU port pin P3 7 pin R96 R97 Interface SEG31 at JA4 30 59 from SEG31 15 R96 Application Board Connects MCU port pin P3 7 pin 59 to Disconnects MCU port pin P3 7 pin R95 R97 Interface ADTRGn at JA1 8 59 from ADTRGn R97 Application Board Connects MCU port pin P3_7 pin 59 to Disconnects MCU port pin P3_7 pin R95 R96 Interface SW3 59 from SW3 R119 R98 Application Board Connects MCU port pin P4 0 pin 58 to Disconnects MCU port pin P4 0 pin R99 Interface SEG32 at JA4 31 58 from SEG32 R99 Application Board Connects MCU port pin P4 0 pin 58 to Disconnects MCU port pin P4 0 pin R98 Interface TXDI at JA6 9 58 from TXD1 R100 Application Board Connects MCU port pin P4 1 pin 57 to
14. D type connector R123 R124 ti R52 Serial Port Configuration Connects the RxD pin of serial port UARTO Disconnects the RxD pin R50 R54 to the D type connector via the RS232 of serial port UARTO from R125 R126 transceiver the D type connector R47 Serial Port Configuration Connecis the TxD pin of serial port Disconnects the TxD pin of R98 UART1 to the D type connector viathe serial port UART1 from the RS232 transceiver D type connector R48 Serial Port Configuration Connects the RxD pin of serial port Disconnects the RxD pin of R100 UART1 to the D type connector via the RS232 transceiver serial port UART1 from the D type connector Table 6 6 Serial port configuration links 12 Table 6 7 below describes the function of the option links associated with Power Source configuration Option Link Settings Reference Function Fitted Alternative Removed Related To R22 Power Source Connects the voltage source from Disconnects the Board VCC from PWR1 PWR1 to Board VCC connector R23 Power Source Connects the net CON 5V JA1 1 to Disconnects CON 5V from Board VCC R24 Board VCC External 5V supply can be connected at CON 5V R22 and R24 Must be removed if supplying 5V from CON 5V R24 Power Source Connects the net CON 3V3 JA1 3 to Disconnects CON 3V3 from Board VCC R23 Board VCC External 3 3V supply can be connected at C
15. ON 3V3 R22 and R23 Must be removed if supplying 3 3V from CON 3V3 R25 Microcontroller Supply power to the Microcontroller Disables 5V power supply to the Power Supply VCC pin microcontroller VCC pins Supply current to the MCU can be measured across J6 Table 6 7 Power configuration links Table 6 8 below describes the function of the option links associated with Analog Voltage Source configuration Option Link Settings Reference Function Fitted Alternative Removed Related To R121 Analog Input Connects on board potentiometer Disconnects the ADPOT from analog R120 ADPOT to the analog input pin ANO of input ANO the MCU Port pin P13_0 R16 Analog Voltage Connects UC_VCC to the Disconnects UC_VCC from potentiometer R17 Source potentiometer RV1 and MCU pin VREF RV1 and MCU pin VREF R17 Analog Reference Connects MCU pin VREF to CON VREF Disconnects MCU pin VREF from R16 Voltage JA1 7 UC_VCC and CON_VREF Table 6 8 Analog Configuration Links Table 6 9 below describes the function of the option links associated with application board interface 13 Option Link Settings Referen Function Fitted Alternative Removed Related To ce R59 Application Board Connects MCU port pin PO 0 pin 90 to Disconnects MCU port pin PO 0 pin R60 Interface SEGO at JA4 11 90 from SEGO R60 Application Board Connects MCU port pin PO
16. To our customers Old Company Name in Catalogs and Other Documents On April 1 2010 NEC Electronics Corporation merged with Renesas Technology Corporation and Renesas Electronics Corporation took over all the business of both companies Therefore although the old company name remains in this document itis a valid Renesas Electronics document We appreciate your understanding Renesas Electronics website http www renesas com April 1 2010 Renesas Electronics Corporation Issued by Renesas Electronics Corporation http www renesas com Send any inquiries to http www renesas com inquiry ENESAS 8 10 11 12 Notice All information included in this document is current as of the date this document is issued Such information however is subject to change without any prior notice Before purchasing or using any Renesas Electronics products listed herein please confirm the latest product information with a Renesas Electronics sales office Also please pay regular and careful attention to additional and different information to be disclosed by Renesas Electronics such as that disclosed through our website Renesas Electronics does not assume any liability for infringement of patents copyrights or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document No license express implied or otherwise is granted
17. ables the RS 232 Transceiver R99 Serial Port Configuration Connects the TxD pin of serial port UART1 Disconnects the TxD pin R98 to pin 9 of the application header JA6 of serial port UART1 from the application header JAG R101 Serial Port Configuration Connects the RxD pin of serial port UART1 Disconnects the RxD pin R100 to pin 12 of the application header JAG of serial port UART1 from the application header JAG Serial Port Configuration Connects the RS232 serial port Tx to the Disconnects the RS232 R51 R53 R49 application board interface JA6 5 serial port Tx from application board interface JA6 5 R50 Serial Port Configuration Connects the RS 232 serial port Rx to Disconnects the RS 232 R52 R54 application board interface JA6 6 serial port Rx from application board interface JA6 6 R53 Serial Port Configuration Connects the TxD pin of serial port Disconnects the TxD pin of R49 R51 UART2 to the D type connector viathe serial port UART2 fromthe R111 R112 RS232 transceiver D type connector R54 Serial Port Configuration Connects the RxD pin of serial port Disconnects the RxD pin of R50 R52 UART2 to the D type connector viathe serial port UART2 from the R109 R110 RS232 transceiver D type connector R51 Serial Port Configuration Connects the TxD pin of serial port UARTO Disconnects the TxD pin R49 R53 to the D type connector via the RS232 of serial port UARTO from R122 transceiver the
18. alog to Digital Converter CD CPU Central Processing Unit DAC E8a E8a on chip debugger module EMC ESD Electrostatic Discharge HEW VO Input Output LCD LED Light Emitting Diode LIN MCU Microcontroller Unit PC RAM Random Access Memory ROM RSK Renesas Starter Kit UART USB Universal Serial Bus Compact Disc Digital to Analog Converter Electromagnetic compatibility High Performance Embedded Workshop Liquid Crystal Display Local Interconnect Network Personal Computer Read Only Memory Universal Asynchronous Receiver Transmitter Chapter 2 Purpose This RSK is an evaluation tool for Renesas microcontrollers This manual describes the technical details of the RSK hardware The Quick Start Guide and Tutorial Manual provide details of the software installation and debugging environment Features include e Renesas Microcontroller Programming e User Code Debugging e User Circuitry such as switches LEDs and potentiometer e Sample Application e Sample peripheral device initialisation code The RSK board contains all the circuitry required for microcontroller operation Note The option links for the user LEDs are not fitted by default To use LEDs fit R76 R78 R80 R82 and disconnect Renesas LCD Panel from JA4 The option link for DLCDE pin is not fitted by default To use Debug LCD fit R92 and disconnect Renesas LCD Panel from JA4 Chapter 3 Power Supply 3 1 Requirements This RSK board operates from a 5V DC power
19. ame Pin Header Name Name 1 5V CON 5V 2 OV 5V GROUND 3 3V3 CON 3V3 4 0V 3V3 GROUND 5 AVcc 6 AVss 7 AVref CON VREF 8 ADTRG ADTRGn 59 9 ADO AN4 90 10 AD1 AN5 89 ti AD2 AN6 88 12 AD3 AN7 87 13 DACO DAO 4 14 DAC1 DA1 3 15 IO 0 IO0 74 16 IO 1 101 73 17 10_2 102 72 18 IO 3 103 71 19 10_4 104 78 20 IO 5 105 77 21 IO 6 IO6 76 22 IO 7 107 75 23 IRQ3 INT6n 16 24 IIC EX 25 IIC SDA SDA 20 26 IIC SCL SCL 22 Table 9 5 JA1 Standard Generic Header Header Generic Header RSK board Signal Device Pin Header Generic Header RSK board Device Pin Pin Name Name Pin Name Signal Name 1 RES RESETn 10 2 EXTAL CON_XIN 3 NMI 4 Vss1 GROUND 5 WDT_OVF 6 SClaTX TXD2 20 7 IRQO WKUP WKUPOn 5 8 SClaRX RXD2 21 9 IRQ1 INT4n 18 10 SClaCK CLK2 22 ti MO up down UD 50 12 CTSRTS CTS2RTS2 19 13 MO Up Up 29 14 MO Un Un 27 15 MO Vp Vp 26 16 MO Vn Vn 24 17 MO Wp Wp 25 18 MO Wn Wn 23 19 TMRO TRDIOCO 28 20 TMR1 TREO 15 21 TRIGa TRDIOAO 30 22 TRIGb TRAIO 187 23 IRQ2 INT5n 17 24 TRISTn TRISTn 49 25 Spare IVREF1 22 26 Spare IVCMP1 21 Table 9 6 JA2 Standard Generic Header 26 Header Generic Header RSK board Signal Device Pin Header Generic RSK board Signal Device Pin Pin Name Name Pin Header Name Name 1 Vi VL4 96 2 V2 VL3 93 3 V3 VL2 92 4 V4 VL1 91 5 GROUND VSS 6 GROUND VSS 7 COM1 COMO 31 8 COM2 COM1 32 9 COM3 COM2 33 1
20. d to the MCU as X3 is disconnected for XCOUT R9 R10 sub clock R13 R12 Sub clock Routes MCU clock input pin XCIN to J1 header MCU pin XCIN is disconnected from Ji R10 R13 at J1 8 header R13 Sub clock Routes MCU clock input pin XCOUT to J1 MCU pin XCOUT is disconnected from R11 R12 Table 6 10 Clock configuration links 18 Table 6 11 below describes miscellaneous options links Option Link Settings Reference Function Fitted Alternative Removed Related To R14 LCD Disconnect signal VL3 to capacitor C9 Connect signal VL3 from capacitor C9 R15 R15 LCD Connect signal VL3 to signal VL2 and C10 Disconnect signal VL3 from signal VL2 and R14 C10 R40 HW Reset Connects the reset signal generated from Disconnects the reset signal generated from Circuit on board reset circuit to the MCU at reset on board reset circuit from the MCU reset pin pin pin 10 pin 10 R55 HW Reset Connects the pin 14 of E8a to GROUND Disconnect pin 14 of E8A connector from Circuit ground R135 Connect signal CL2 to RING_P12_3 Disconnect signal CL2 from RING_P12_3 R136 44 19 R136 Connect signal CL1 to RING_P12_2 Disconnect signal CL1 from RING_P12_2 R135 J4 20 R140 LIN Set LIN Master mode with R142 Set LIN Slave mode with R142 R142 R142 LIN Set LIN Master mode with R140 Set LIN Slave mode with R140 R140 R143 LIN Connects the Board VCC to VBAT Disconnects the Board VCC from VBAT Tabl
21. e 6 11 Miscellaneous Option Links 19 6 8 Oscillator Sources Crystal oscillators are fitted on the board and used to supply the main sub clock input to the Renesas microcontroller Table 6 12 details the oscillators that are fitted on this RSK Component Crystal X1 Fitted 20 MHz HC49 4U package Crystal X2 Not Fitted For test purpose only Crystal X3 Fitted 32 768 KHz SSP T7 FL package Table 6 12 Oscillators Resonators 6 9 Reset Circuit A dual D flip flop IC i e MC74HC74ADR2G has been used to generate the reset signal required for the R8C L3AC CPU Please check the hardware manual for the detailed reset requirements to ensure the reset circuit on the user s board meets all the reset timing requirements 6 10 LCD Application Board LCD application board can be attached to connector JA4 LCD application header Please refer to the LCD Application Board User s Manual 20 Chapter 7 Modes The Renesas Starter Kit supports Boot mode and Single chip mode Details of programming the FLASH memory is described in the R8C L3AC Group Hardware Manual This circuit is not required on customer s boards as it is intended for providing easy evaluation of the operating modes of the device on the RSK To manually enter the Boot mode press and hold the SW1 BOOT The mode pins are held in their boot states while reset is pressed and released Release the boot button The BOOT
22. esas Electronics does not warrant that such information is error free Renesas Electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein Renesas Electronics products are classified according to the following three quality grades Standard High Quality and Specific The recommended applications for each Renesas Electronics product depends on the product s quality grade as indicated below You must check the quality grade of each Renesas Electronics product before using it in a particular application You may not use any Renesas Electronics product for any application categorized as Specific without the prior written consent of Renesas Electronics Further you may not use any Renesas Electronics product for any application for which it is not intended without the prior written consent of Renesas Electronics Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for an application categorized as Specific or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics The quality grade of each Renesas Electronics product is Standard unless otherwise expressly specified in a Renesas Electronics data sheets or data books etc Standard Computers office equip
23. et End High Single chip Mode Table 7 2 Single chip mode settings 22 Chapter 8 Programming Methods The board is intended for use with HEW and the supplied E8a debugger Refer to R8C L3AC Group Hardware Manual for details of programming the microcontroller without using these tools 23 9 1 Microcontroller Ring Headers Chapter 9 Headers The microcontroller pin headers and their corresponding microcontroller connections are detailed in Table 9 1 to Table 9 4 Header Circuit Net Name Device pin Header Circuit Net Name Device pin Pin Pin 1 CLKO_ LINNSLP 1 2 RXDO_LINRXD 2 3 DA1_TXDO_LINTXD 3 4 DAO ADPOT 4 5 WKUPOn 5 6 VREF 6 7 MODE 7 8 CON_XCIN 8 9 CON_XCOUT 9 10 RESETn 10 11 CON_XOUT 11 12 GROUND 12 13 CON_XIN 13 14 UC VCC 14 15 TREO 15 16 INT6n SW3 16 17 INT5n SW2 17 18 INT4n_TRAIO_SW1 18 19 CTS2RTS2 19 20 TXD2_SDA 20 21 RXD2_IVCMP1 21 22 CLK2 SCL IVREF1 22 23 Wn 23 24 Vn 24 25 Wp 25 26 Table 9 1 J1 microcontroller header Header Circuit Net Name Device pin Header Circuit Net Name Device pin Pin Pin 1 Vp 26 2 Un 2 3 TRDIOCO 28 4 Up 29 5 TRDIOAO 30 6 COMO 31 7 COM1 32 8 COM2 33 9 COM3 34 10 SEG55 35 11 SEG54 36 12 SEG53 37 13 SEG52 38 14 SEG51 39 15 SEG50 40 16 SEG49 41 17 SEG48 42 18 SEG47 43 19 SEG46 44 20 SEG45 45 21 SEG44 46 22 P5_3 47 23 P5 2 48 24 TRISTn 49 25 UD 50 26
24. hereby under any patents copyrights or other intellectual property rights of Renesas Electronics or others You should not alter modify copy or otherwise misappropriate any Renesas Electronics product whether in whole or in part Descriptions of circuits software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples You are fully responsible for the incorporation of these circuits software and information in the design of your equipment Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits software or information When exporting the products or technology described in this document you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations You should not use Renesas Electronics products or the technology described in this document for any purpose relating to military applications or use by the military including but not limited to the development of weapons of mass destruction Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture use or sale is prohibited under any applicable domestic or foreign laws or regulations Renesas Electronics has used reasonable care in preparing the information included in this document but Ren
25. i shi Kanagawa 211 8668 Japan REJ10J2131 0100
26. igure 5 2 E8a RSK Connections Chapter 6 User Circuitry 6 1 Switches There are four switches located on the RSK board The function of each switch and its connection are shown in Table 6 1 Switch Function Microcontroller RES When pressed the microcontroller is reset RESETn Pin 10 SW1 BOOT Connects to an INT input for user controls INT4n Pin 18 Port 11 bit 4 The switch is also used in conjunction with the RES switch to place the device in BOOT mode when not using the E8a debugger The same MCU pin also function as Timer RA I O SW2 Connects to an INT line for user controls INT5n Pin 17 Port 11 bit 5 SW3 Connects to an INT line for user controls INT6n Pin 16 Port 11 bit 6 Connects to an ADTRG input for AD trigger controls Table 6 1 Switch Functions Refer to the schematic for detailed connectivity information 6 2 LEDS There are six LEDs on the RSK board The green POWER LED lights when the board is powered The orange BOOT LED indicates the device is in BOOT mode when lit The four user LEDs are connected to an VO port and will light when their corresponding port pin is set low Table 6 2 below shows the LED pin references and their corresponding microcontroller port pin connections LED Reference As Colour Microcontroller Port Microcontroller shown on silkscreen Pin function Pin Number LEDO Green Port 2 bit 4 70 LED1 Orange Port 2 bit 5 69
27. iler supplied with this RSK is fully functional for a period of 60 days from first use After the first 60 days of use have expired the linker will limit the object size to a maximum of 64k code and data To use the compiler with programs greater than this size you will need to purchase the full tools from your distributor Warning The protection software for the compiler will detect changes to the system clock Changes to the system clock back in time may cause the trial period to expire prematurely 10 3 Mode Support High performance Embedded Workspace connects to the Microcontroller and programs it via the E8a Mode support is handled transparently to the user 10 4 Breakpoint Support This RSK is supplied with an E8a emulator which supports breakpoints in ROM and RAM Double clicking in the breakpoint column in the code sets the breakpoint Breakpoints will be retained unless they are double clicked to remove them For more details on breakpoints i E8a functions please refer to the E8A USB Emulator User s Manual 30 10 5 Memory Map The memory map shown below gives the locations of each memory area 0x00000 SFR Ox002FF Reserved Area 0x00400 Internal RAM 0x02C00 SFR 0x03000 Internal ROM Data Flash 0x04000 Internal ROM program ROM 0x10000 Internal ROM program ROM 0x24000 Reserved Area i i l OXFFFFF Figure 10 1 CPU
28. in R69 Interface AN9 at JA5 2 85 from AN9 R71 Application Board Connects MCU port pin PO 6 pin 84 to Disconnects MCU port pin PO 6 pin R72 Interface SEG6 at JA4 17 84 from SEG6 R72 Application Board Connects MCU port pin PO 6 pin 84 to Disconnects MCU port pin PO 6 pin R71 Interface AN10 at JA5 3 84 from AN10 R73 Application Board Connects MCU port pin PO 7 pin 83 to Disconnects MCU port pin PO 7 pin R74 Interface SEG7at JA4 18 83 from SEG7 R74 Application Board Connects MCU port pin PO 7 pin 83 to Disconnects MCU port pin PO 7 pin R73 Interface AN11 at JA5 4 83 from AN11 R75 Application Board Connects MCU port pin P2_4 pin 70 to Disconnects MCU port pin P2_4 pin R76 Interface SEG20 at JA4 19 70 from SEG20 R76 Application Board Connects MCU port pin P2 4 pin 70 to Disconnects MCU port pin P2 4 pin R75 Interface LEDO 70 from LEDO 14 R77 Application Board Connects MCU port pin P2_5 pin 69 to Disconnects MCU port pin P2 5 pin R78 Interface SEG21 at JA4 20 69 from SEG21 R78 Application Board Connects MCU port pin P2 5 pin 69 to Disconnects MCU port pin P2 5 pin R77 Interface LED 69 from LED1 R79 Application Board Connects MCU port pin P2 6 pin 68 to Disconnects MCU port pin P2 6 pin R80 Interface SEG22 at JA4 21 68 from SEG22 R80 Application Board Connects MCU port pin P2_6
29. k for DLCDE is not fitted by default To use Debug LCD fit R92 and disconnect Renesas LCD Panel from JA4 8 6 6 LIN The serial port UARTO also functions as LIN port pins The options links to be configured are listed in the Table 6 5 Description Function Circuit Net Name Device Pin Fit for Hardware Remove for LIN Hardware LIN LIN TXD LINTXD 3 R124 R122 R123 LIN RXD LINRXD 2 R126 R125 LIN NSLP LINNSLP 1 R128 R127 Table 6 5 Hardware LIN Settings When resistors R140 and R142 are fitted LIN device will be in master mode when they are removed it will be Slave 6 7 Option Links In this section the default configuration is indicated by BOLD text Table 6 6 below describes the function of the option links associated with serial port configuration 10 Option Link Settings Reference Function Fitted Alternative Removed Related To R41 Serial Port Configuration Connects channel 2 Tx pin of the RS232 Disconnects Channel 2 R47 transceiver to pin 8 of the D type serial port TX pin of the RS232 connector transceiver from the D type serial port connector R42 Serial Port Configuration Connects channel 2 Rx pin of the RS232 Disconnects Channel 2 R48 transceiver to pin 7 of the D type serial RX pin of the RS232 port connector transceiver from the D type serial port connector R43 Serial Port Configuration Disables the RS 232 Transceiver En
30. memory map Part Number R5F2L3ACCNFP 31 Chapter 11 Component Placement kr Q O 2 7 N 7 m 7 Product Label sl Figure 11 1 Component Placement Top Layer 32 Chapter 12 Additional Information For details on how to use High performance Embedded Workshop HEW refer to the HEW manual available on the CD or installed in the Manual Navigator For information about the R8C L3AC microcontrollers refer to the R8C L3AC Group Hardware Manual For information about the R8C L3AC assembly language refer to the R8C Family Software Programming Manual For information about the E8a Emulator please refer to the EBA USB Emulator User s Manual Online technical support and information is available at www renesas com renesas_starter_kits Technical Contact Details America techsupport rta Qrenesas com Europe tools support euQ renesas com Japan csc Qrenesas com General information on Renesas Microcontrollers can be found on the Renesas website at www renesas com 33 Renesas Starter Kit for R8C L3AC User s Manual Publication Date Rev 1 00 09 FEB 2010 Published by Renesas Technology Europe Ltd Duke s Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH United Kingdom 2010 Renesas Technology Europe and Renesas Solutions Corp All Rights Reserved Renesas Starter Kit for R8C L3AC User s Manual LENESAS Renesas Electronics Corporation 1753 Shimonumabe Nakahara ku Kawasak
31. ment communications equipment test and measurement equipment audio and visual equipment home electronic appliances machine tools personal electronic equipment and industrial robots High Quality Transportation equipment automobiles trains ships etc traffic control systems anti disaster systems anti crime systems safety equipment and medical equipment not specifically designed for life support Specific Aircraft aerospace equipment submersible repeaters nuclear reactor control systems medical equipment or systems for life support e g artificial life support devices or systems surgical implantations or healthcare intervention e g excision etc and any other applications or purposes that pose a direct threat to human life You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics especially with respect to the maximum rating operating supply voltage range movement power voltage range heat radiation characteristics installation and other product characteristics Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges Although Renesas Electronics endeavors to improve the quality and reliability of its products semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions under certain
32. neric Header RSK board Device Pin Header Generic RSK board Signal Device Pin Pin Name Signal Name Pin Header Name Name 1 DREQ 2 DACK NC 3 TEND 4 STBYn NC 5 RS232TX RS232TX 6 RS232RX RS232RX 7 SCIbRX RXDO 2 8 SCIbTX TXDO 3 9 SCICTX TXD1 58 10 SCIDCK CLKO 1 11 SClcCK CLK1 56 12 SCIcRX RXD1 57 13 Reserved 14 Reserved 15 Reserved 16 Reserved 17 Reserved 18 Reserved 19 Reserved 20 Reserved 21 Reserved 22 Reserved 23 Unregulated Vcc 24 Vss Table 9 9 JA6 Standard Generic Header Note Pins marked with are connected via option links Header Generic Header RSK board Device Pin Header Generic RSK board Signal Device Pin Pin Name Signal Name Pin Header Name Name 1 VBAT VBAT 2 GROUND GROUND Table 9 10 J10 BATTERY Header 28 Header Generic Header RSK board Device Pin Header Generic RSK board Signal Device Pin Pin Name Signal Name Pin Header Name Name 1 VBAT VBAT 2 LIN LIN 3 GROUND GROUND Table 9 11 LIN Header 29 Chapter 10 Code Development 10 1 Overview Note For all code debugging using Renesas software tools the RSK board must be connected to a PC USB port via an E8a Due to the continuous process of improvements undertaken by Renesas the user is recommended to review the information provided on the Renesas website at www renesas com to check for the latest updates to the Compiler and Debugger manuals 10 2 Compiler Restrictions The comp
33. ow describes the function of the option links associated with Clock configuration header at J1 9 J1 header Option Link Settings Reference Function Fitted Alternative Removed Related To R1 Main clock Parallel resistor for oscillator X1 Not fitted R2 Main clock On board clock Xi connected to the MCU as External clock source can be connected to R3 R4 main clock the MCU R7 R1 R3 Main clock On board clock Xi connected to the MCU as External clock source can be connected to R2 R5 main clock the MCU R1 R8 R4 Main clock Routes MCU clock input pin XIN to J1 header at MCU pin XIN is disconnected from J1 R2 R5 J1 13 header R7 R5 Main clock Routes MCU clock output pin XOUT to J1 at MCU pin XOUT is disconnected from R4 R3 J1 11 External clock source is used for XOUT J1 header R8 R6 Main clock Parallel resistor for oscillator X2 Not fitted R7 Main clock On board clock X2 can be connected to the X2 is disconnected from MCU main R2 R4 MCU as main clock clock input pins R6 R8 R8 Main clock On board clock X2 can be connected to the X2 is disconnected from MCU main R3 R5 MCU as main clock clock input pins R6 R7 R9 Sub clock Parallel resistor for on board sub clock X3 Not fitted R10 Sub clock On board clock X3 connected to the MCU as X3 is disconnected for XCIN R9 R11 sub clock R12 R11 Sub clock On board clock X3 connecte
34. quential damages arising out of or in relation to the use of this RSK even if Renesas or its affiliates have been advised of the possibility of such damages Precautions This Renesas Starter Kit is 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 reorient the 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 is use e consult the dealer or an experienced radio TV technician for help NOTE It is recommended that wherever possible
35. r easy interfacing 120 I 115 00 m i a Fr El SODA Poo oon Ni OOOOOO SOOOGOJ D 2 D008701 RSKRECL3At To 1 RSKR8CL 6 AD CO10BR CO1OBR N 17 F z Si 2 s N 5 10 2 pal PERU E 1 2 S gt e 2 j o oa N o SER D O pal e LO 2 3 LO m OIE BE Si LS LO E SOTO L DOOOOOOGOO a JAZ Boor KU SWI B00 4 2q f Bl 43 18 40 64 55 88 l 55 88 J Figure 4 2 Board Dimensions Chapter 5 Block Diagram Figure 5 1 shows the RSK board components and their connectivity Power Jack Option Application Board Headers Boot mode pins Pos Microcontroller Pin Headers Circuitry Microcontroller Debug Header Option RESET pin BES D Type latch IRQ pi Serial Connector Option e i IRQ pin LIN ADC Input SVB swe SW1 BOO RES EF Va fs foo a qi 0 VN I a Potentiometer SWITCHES LEDs User 4 LEDS Power Green 1 Green 1 Orange 2Red Boot Orange Figure 5 1 Block Diagram Figure 5 2 shows E8a connections to the RSK E8a Module OE sea F
36. roducts or if you have any other inquiries Note 1 Renesas Electronics as used in this document means Renesas Electronics Corporation and also includes its majority owned subsidiaries Note 2 Renesas Electronics product s means any product developed or manufactured by or for Renesas Electronics LENESAS V D n lt Q gt C Q Renesas Starter Kit for R8C L3AC User s Manual Renesas Single Chip Microcomputer R8C Family Renesas ONES Rev 1 00 2010 02 www renesas co Disclaimer By using this Renesas Starter Kit RSK the user accepts the following terms The RSK is not guaranteed to be error free and the entire risk as to the results and performance of the RSK is assumed by the User The RSK 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 RSK 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 nor shall Renesas or its affiliates be liable for any other direct or indirect special incidental or conse
37. rt pin P11 6 pin R118 Interface to SW3 16 from SW3 R120 Application Board Connects MCU port pin P13 0 pin 4 to Disconnects MCU port pin P13 0 R121 Interface DAO at JA1 13 pin 4 from DAO R121 Application Board Connects MCU port pin P13_0 pin 4 to Disconnects MCU port pin P13 0 pin R120 Interface ADPOT 4 from ADPOT R122 Application Board Connects MCU port pin P13 1 pin 3 to Disconnects MCU port pin P13_1 R123 R124 Interface DA1 at JA1 14 pin 3 from DA1 R123 Application Board Connects MCU port pin P13 1 pin 3 to Disconnects MCU port pin P13_1 R51 R122 Interface TXDO at JA6 8 pin 3 from TXDO R124 R124 Application Board Connects MCU port pin P13 1 pin 3 to Disconnects MCU port pin P13 1 pin R122 R123 Interface LINTXD 3 from LINTXD R125 Application Board Connects MCU port pin P13 2 pin2 to Disconnects MCU port pin P13 2 R52 R126 Interface RXDO at JA6 7 pin 2 from RXDO R126 Application Board Connects MCU port pin P13 2 pin 2 to Disconnects MCU port pin P13 2 pin R125 Interface LINRXD 2 from LINRXD R127 Application Board Connects MCU port pin P13 3 pin 1 to Disconnects MCU port pin P13 3 R128 Interface CLKO at JA6 10 pin 2 from CLKO R128 Application Board Connects MCU port pin P13 3 pin 1 to Disconnects MCU port pin P13 3 pin R127 Interface LINNSLP 2 from LINNSLP Table 6 9 Application Board Interface configuration links 17 Table 6 10 bel
38. ts MCU port pin P11_1 pin 21 to Disconnects MCU port pin P11 1 R109 Interface IVCMP1 at JA2 26 pin 21 from IVCMP1 R111 Application Board Connects MCU port pin P11 2 pin 20 Disconnects MCU port pin P11 2 pin R53 R112 Interface to TXD2 at JA2 6 20 from TXD2 R112 Application Board Connects MCU port pin P11 2 pin 20 to Disconnects MCU port pin P11_2 R111 Interface SDA at JA1 25 pin 20 from SDA R113 Application Board Connects MCU port pin P11 4 pin 18 Disconnects MCU port pin P11_4 pin R114 R115 Interface to INT4n at JA2 9 18 from INT4n R114 Application Board Connects MCU port pin P11 4 pin 18 to Disconnects MCU port pin P11 4 R113 R115 Interface TRAIO at JA2 22 pin 18 from TRAIO 16 R115 Application Board Connects MCU port pin P11 4 pin 18 Disconnects MCU port pin P11 4 pin R113 R114 Interface to SW1 18 from SW1 R116 Application Board Connects MCU port pin P11 5 pin 17 Disconnects MCU port pin P11 5 pin R117 Interface to INT5n at JA2 23 17 from INT5n R117 Application Board Connects MCU port pin P11 5 pin 17 Disconnects MCU port pin P11_5 pin R116 Interface to SW2 17 from SW2 R118 Application Board Connects MCU port pin P11_6 pin 16 Disconnects MCU port pin P11 6 pin R119 Interface to INT6n at JA2 23 16 from INT6n R119 Application Board Connects MCU port pin P11_6 pin 16 Disconnects MCU po
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