Renesas RSKM16C6NK User's Manual
Contents
1. Table 6 9 Analog Configuration Links Table 6 10 below describes the function of the option links associated with microcontroller pin function select configuration The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R82 Microcontroller Connects microcontroller pin MUST be removed if R80 fitted R80 function select 28 to IICSDA R80 Microcontroller Connects microcontroller 28 Should be removed if R82 R82 function select to TXD2 pin fitted R78 Microcontroller Connects microcontroller pin MUST be removed if R80 fitted R76 function select 27 to IICSCL R76 Microcontroller pin Connects microcontroller pin 27 Should be removed if R78 R78 function select to RXD2 fitted R114 Microcontroller pin Connects microcontroller pin MUST be removed ifR115 R115 function select 95 to ADPOT fitted R115 Microcontroller Connects microcontroller pin 95 Should be removed if R114 R114 function select to ANO fitted R60 Microcontroller Connects microcontroller pin 44 MUST be removed if R61 R61 function select to Wrn pin fitted R61 Microcontroller Connects microcontroller pin Should be removed if R60 fitted R60 function select 44to WRLn pin R94 Microcontroller Connects microc2. Table 9 7 J A3 Optional Generic Header 21 5 Header Name RSK Signal Device Pin Header Name RSK Signal Device Name Pin Name Pin 1 ADC4 H ANA 90 2 ADC5 5 AN5 89 3 ADC6 16 AN6 88 4 ADC7 7 AN7 97 5 CAN CANOOUT 22 6 CAN CANOIN 21 7 CAN CAN10UT 99 8 CAN CANIIN 100 9 Reserved 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Reserved 16 Reserved 17 Reserved 18 Reserved 19 Reserved 20 Reserved 21 Reserved 22 Reserved 23 Reserved 24 Reserved Table 9 8 J A5 Optional Generic Header JA6 Pin Header Name RSK Signal Device Pin Header Name RSK Signal Device Name Pin Name Pin 1 DMA 2 DMA DACK 3 DMA 4 Standby Open drain STBYn 5 HostSerial SCIdTX RS232TX 6 Host Serial SCIdRX RS232RX 7 Serial Port RXD2 2 8 Serial Port TxD2 28 9 Serial Port Synchronous TXD3 3 10 Serial Port CLK2 26 11 SerialPort Synchronous CLK3 5 12 SerialPort Synchronous RxD3 4 13 Reserved 14 Reserved 15 Reserved 16 Reserved 17 Reserved 18 Reserved 19 Reserved 20 Reserved 21 Reserved 22 Reserved 23 Reserved 24 Reserved 25 Reserved 26 Reserved Table 9 9 J A6 Optional Generic Header 22 Table 9 10 below shows the CAN connections 14 Function
3. 5 ired to the RSK Figure 5 2 RSK Connections Chapter 6 User Circuitry 6 1 Switches There are four switches located on the RSK The function of each switch and its connection are shown in Table 6 1 Switch Function Microcontroller RES When pressed the RSK microcontroller is reset RESn SW1 BOOT Connects to an IRQ inputfor user controls INTO P in18 The switch is also used in conjunction with the RES switch to place Port8 pin 2 the device in BOOT mode when not using the E8a module SW2 Connects to an IRQ line for user controls INT1 17 Port 8 3 SW3 Connects to the ADC trigger input Option link allows connectionto ADTRG Pin 98 IRQ line The option is a pair of OR links Port 9 pin 7 OR INT2 Pin16 Port 8 pin 4 Table 6 1 Switch Functions R efer to 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 fouruser LEDs are connected to an IO portand will light when their corresponding port pin is setlow Table 6 2 below shows the LED pin references and their corresponding microcontroller port pin connections on silkscreen LED Reference As shown Microcontroller Port Pin function Microcontroller Pin Number
4. 47 MUST be removed if R130 R130 function select to A21 pin fitted R130 Microcontroller pin Connects microcontroller Should be removed if R128 R128 function select 47 to CS2N pin fitted R118 Microcontroller pin Connects microcontroller pin 46 MUST be removed if R116 R116 function select to A22 pin fitted R116 Microcontroller Connects microcontroller pin Should be removed if R118 R118 function select 46 to CSIN pin fitted R131 Microcontroller pin Connects microcontroller pin 90 MUST be removed if R129 R129 function select to AN4 pin fitted R129 Microcontroller Connects microcontroller pin Should be removed if R131 R131 function select 90 to CANO EN pin fitted R117 Microcontroller pin Connects microcontroller pin 89 MUST be removed if R117 R119 function select to AN5 pin fitted R119 Microcontroller pin Connects microcontroller Should be removed if R119 R117 function select 89 to CANO STBn pin fitted R67 Microcontroller pin Connects microcontroller pin 88 MUST be removed if R66 R66 function select to AN6 pin fitted R66 Microcontroller Connects microcontroller pin Should be removed if R67 R67 function select 88 to CANT EN pin fitted R45 Microcontroller Connects microcontroller pin 87 MUST be removed if R46 R46 function select to AN7 pin fitted R46 Microcontroller Connects microcontroller pin Should be removed if R45 fitted R45 function sel
5. CON AVREF 96 19 CON AVCC 97 20 ADTRG 99 Table 9 4 4 9 2 Application Headers Table 9 5 and Table 9 6 below show the standard application connections Marked pins are subject to option links 1 Pin Generic Header Name RSK Signal Device Pin Header Name RSK Signal Device Name Pin Name Pin 1 Regulated Supply 1 5V 2 Regulated Supply 1 GROUND 3 Regulated Supply 2 3V3 4 Regulated Supply 2 GROUND 5 Analogue Supply AVcc 97 6 Analogue Supply AVss 94 7 Analogue Reference AVref 96 8 ADTRG ADTRG 98 9 ADCO 10 ADPot ANO 95 10 ADC1 IL AN1 93 11 ADC2 2 AN2 92 12 ADC3 AN3 91 13 DACO DAO 2 14 DACI DA 1 15 10 A8 IO 0 61 16 lOPort A9 10_1 59 17 lOPort A10 10 2 58 18 lOPort 11103 57 19 10 A12 10 4 56 20 lOPort 1 _10_5 55 21 lOPort A14 IO 6 54 22 lOPort A15 IO 7 53 23 Interrupt IRQAEC D13 INT3 13 24 PC Bus 3rd pin NC 25 PC Bus SDA 28 26 PC Bus SCL 2 Table 9 5 J A1 Standard Generic Header JA2 Pin Header Name RSK Signal Device Pin Header Name RSK Signal Device Name Pin Name Pin 1 Reset RESn 10 2 External Clock Input EXTAL 3 Interrupt NMIn 15 4 Regulated Supply 1 Vssl 5 SPARE 6 Serial Port TxD0 33 7 Interrupt INTO 18 8 Serial Port RxD0 34 9 Interrupt 17 10 Serial Port CLKO 35 11 Motor control UD 40 12 Serial Port Handshake CTSR
6. LEDO Port 4 0 52 LED1 Port 4 1 51 LED2 Port 4 2 50 LED3 Port 4 3 49 Table 6 2 LED Port 6 3 Potentiometer A single turn potentiometer is connected to AN0 0 P 10 0 of the microcontroller This may be used to vary the input analogue voltage value to this pin between AVCC and Ground 6 4 Serial port The microcontroller programming serial port 1 is connected to the RS232 connector A serial port can be used by moving option resistors and fitting the D connector This can be connected to serial channel 1 if the E8a is disabled from using channel 1 or serial channel 0 while the E8a is enabled Description Function FitForE8a Removefor Fitfor Remove for Fitfor Remove for E8a RS232 RS232 RS232 RS232 Channel 0 Channel 0 Channel 1 Channel 1 TxD1 Programming R13 R68 R69 R68 R68 R69 R13 Serial Port RxD1 Programming R12 R44 R47 R44 R44 R47 R12 Serial Port CLK1 Programming R14 NA NA NA NA R14 Serial Port Table 6 3 Serial port connections If a serial portis used the D connector U3 must be fitted and the RS232 transceiver enabled Description Function Fit For RS233 Remove for Fit For RS233 Remove for RS233 Disable Enable RS233 Enable Disable RS232 Disables E nables R42 R39 R39 R42 Transceiver 03 5232 Enable Transceiver Table 6 4 RS232 enable An additional serial port is connected to the application headers 6 5
7. Should be removed if SCIb R50 SCIb to RS232 Transceiver notused for RS232 R50 Alternate S erial Connects Alternate Serial CH2 Should be removed if SCIb R55 SCIb to RS232 Transceiver notused for RS232 R72 RS232 Serial on Connects Application Header to MUST be removed if R68or R68 R69 Application Header RS232 Transceiver R69 fitted R49 RS232 Serial on Connects Application Header to MUST be removed if R44 or R44 R47 Application Header RS232 Transceiver R47 fitted R69 RS232 Serial on Connects Serial Channel 0 to MUST be removed if R68 or R68 R72 SCla CHO RS232 Transceiver R72 fitted R47 RS232 Serial on Connects Serial Channel 0 to MUST be removed if R44 or R44 R49 SCla CHO RS232 Transceiver R49 fitted Table 6 8 Serial Configuration Links 11 Table 6 9 below describes the function of the option links associated with Analog configuration The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R31 Analogue Power Connects Board VCC1 Analogue supply MUST be JA1 R 43 supply to Analogue supply provided from external interface pins Fit R43 R43 Analogue Power Connects AVCC supply to R31 must be fitted R31 Application headers R109 VREF Connects Board VCC1 VREF can be provided from JA1 R110 supply to VREF external interface pins Fit R110 R110 VREF VREF to Application headers R109 should be fitted R109
8. Signal Name Device Pin 1 CANO Positive CANOH 21 2 GROUND 3 CANO Negative CANOL 22 115 Function Signal Name Device Pin 1 CANI Positive CAN1H 100 2 GROUND 3 CANI Negative CANIL 99 Table 9 10 CAN Headers 23 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 E8a An E8a is supplied with the RSK product 10 2 Mode Support HEW connects to the Microcontroller and programs it via the E8a Mode support is handled transparently to the user 10 3 Breakpoint Support HEW supports breakpoints on the user code both in RAM and ROM Double clicking in the breakpoint column in the code sets the breakpoint Breakpoints will remain unless they are double clicked to remove them 24 10 4 Memory Map H 00000 H 00400 H 07 FFF HUEL H 10000 H 27000 H 26000 H 80000 H FFFFF FR Internal RAM Reserved area Internal ROM data area E xternal Area Reserved area E xternal Area Internal ROM program area H 00400 HO FeO E8a Work RAM HO FFF H 80000 Progam ROM H FF OOO NETT NB i HFFEOD ELE HFFFFF Figure 10 1 Memory Map Chapter 11 Component Placement gt 3903 Guvoa Ee pu d KI En p S On C SR T S C d gt Figure 11 1 Component Placement 26 Chapter 12 Additiona
9. the reset button This control is subsequently used to modify the mode pin states as required The mode pins should change state only while the reset signal is active to avoid possible device damage The reset is held in the active state for a fixed period by a pair of resistors and a capacitor Please check the reset requirements carefully to ensure the reset circuit on the user s board meets all the reset timing requirements Chapter 7 Modes The RSK supports Boot mode and Single chip mode Details of programming the FLASH memory is described in the M16C 6NK Group Hardware Manual 7 1 Boot mode The boot mode settings for this RSK are shown in Table 7 1 Boot Mode pin settings below CNVSS P5 0 P5 5 LSI State after Reset End 1 1 0 Table 7 1 Boot Mode pin settings The software supplied with this RSK only supports Boot mode using an E8a and HEW However hardware exists to enter boot mode manually do not connect the E8a in this case Press and hold the SW1 BOOT The mode pins above are held in their boot states while reset is pressed and released Release the boot button The BOOT LED will be illuminated to indicate that the microcontroller is in boot mode When neither the E8a is connected nor the board is placed in boot mode with CNVSS and P5 5 being pulled low during reset as above the P5 5 pin is pulled high by a 10k resistor the P 5 0 pin is pulled high by a 100k resistor a
10. LCD Module An LCD module is supplied to be connected to the connector 11 This should be fitted so that the LCD module lies over J 3 Care should be taken to ensure the pins are inserted correctly into 11 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 The module supplied with the RSK only supports 5V operation Table 6 5 shows the pin allocation and signal names used on this connector J11 Pin Circuit Net Name Device Pin Circuit Net Name Device Pin Pin 1 Ground 2 5V Only 3 No Connection 4 DLCDRS 70 5 R W Wired to Write only 6 DLCDE 69 7 No Connection 8 No Connection 9 No Connection 10 No Connection 11 DLCD4 66 12 DLCD5 65 13 DLCD6 64 14 DLCD7 63 6 6 Option Links Table 6 6 below describes the function of the option links associated with Power configuration The default configuration is indicated by Table 6 5 LCD Module Connections BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R9 Board VCC Supply to board from J 5 Fit Low ohm resistor to measure current R32 Microcontroller Supply to microcontroller Fit Low ohm resistorto measure R33 current R33 Microcontroller Supply to microcontroller Fit Low ohm resistorto measure R32 VCC2 VCC2 current R25 Boar
11. NT1 17 20 INTO 18 21 TA4IN Um 19 22 TA4OUT Up 20 23 CANOIN 21 24 CANOOUT 22 25 TA2IN Wn 23 26 TA20UT Wp 24 2 Vn 25 28 CLK2 Vp 26 29 IIC_SCL_RXD2 27 30 IICSDA_TXD2 28 Table 9 1 J 1 IK Pin Circuit Net Name Device Pin Circuit Net Name Device Pin Pin 1 PTTX 29 2 PTRX 30 3 PTCK 31 4 8 BUSY 32 5 TXDO 33 6 RXDO 34 7 CLKO 35 8 CTSRTS 36 9 RDY 37 10 ALE 38 11 E8 EPM 39 12 UD 40 13 TRSTn 41 14 RDn 42 15 WRHn 43 16 WRLn_WRn 44 17 23 50 45 18 A22 CS1n 46 19 A21 CS2n 47 20 20 53 48 Table 9 2 2 18 J3 Pin Circuit Net Name Device Pin Circuit Net Name Device Pin Pin 1 A19 LED3 49 2 A18 LED2 50 3 A17 LED 51 2 16 LED 52 5 A15 107 53 6 A14 106 54 1 A13 105 55 8 A12 104 56 9 A11 103 5 10 A10 102 58 11 A9 101 59 12 UC VCC2 60 13 8 100 61 14 GROUND 62 15 A7 DLCD7 63 16 A6 DLCD6 64 17 A5 DLCD5 65 18 A4 DLCD4 66 19 A3 67 20 A2 68 21 1 DLCDE 69 22 0 DLCDRS 70 23 D15 71 24 14 72 25 13 73 26 D12 74 2 D11 75 28 D10 76 29 D9 77 30 08 78 Table 9 3 3 Circuit Net Name Device Pin Circuit Net Name Device Pin Pin 1 D7 79 2 D6 80 3 D5 81 4 D4 82 5 D3 83 6 D2 84 1 D1 85 8 DO 86 9 AN7 15 87 10 AN6 88 11 AN5 CANOSTBn 89 12 AN4 CANOEN 90 13 AN3 91 14 AN2 92 15 AN1 94 16 AVss 94 17 ADPOT ANO 96 18
12. REG10J0017 0200 Everywhere you imagine g 2 ENESAS Renesas Starter Kit RSKM16C6NK User s Manual RENESAS SINGLE CHIP MICROCOMPUTER M16C FAMILY Rev 2 00 Renesas Technology Europe Ltd Revision date 30 2007 WWW renesas com Table of Contents Chapter TPfeface oci iHe E Sa eeu ip eme ie GI teta Chapter 2 P rpose x cte euo a teu au Chapter 3 Power Supply ia i Sl Begq irements 5e ete E 3 2 Power Up Behaviour seen Chapter 4 Board 4 1 Component Layout 4 2 Boara DIMENSIONS is tp RR E iue Chapter 5 Block Diagram sssssssssssesseseeee ene enne nnne enne Chapter 6 User 9 0 1 SWITCHES a dea aede eee eed a raa GARE DS vcs Lit eoe du isnt ue 6 3 Potentlomeler ae et E ete teste tete end ode 6 4 Serial ostenta i stipe ia 6 5 ECD Modu le iei ideni eri t E td Eat EH ats 6 6 Optlort LINKS a naa Ri teda 6 7 Oscillator re 6 8 RESELICINCUMb esis Chapter 7 Modes ined b dica ded aee uicta a dt Ra Da oe og dpa qun A BOOUMOUG since etie ence ge th a 72 Single chipimode i nrc tco prate
13. TS 36 13 Motor control Up 20 14 Motor control Un 19 15 Output Vp 26 16 Motor control Vn 25 17 Input Wp 24 18 Motor control Wn 23 19 Output TA20UT 23 20 Output TA4OUT 20 21 Input TA2IN 20 22 Input 19 23 Open drain INT2 16 24 Tristate Control TRSTn 4l 25 SPARE 26 SPARE Table 9 6 J A2 Standard Generic Header 20 Table 9 7 to Table 9 9 below show the optional generic header connections Marked pins are subject to option links Header Name RSK Signal Device Pin Header Name RSK Signal Device Name Pin Name Pin 1 0 0 70 2 1 1 69 3 2 2 68 4 67 5 4 4 66 6 5 5 65 7 6 6 64 8 7 63 9 8 8 61 10 9 9 59 11 10 58 12 All All 57 13 12 12 56 14 13 A13 55 15 A14 54 16 A15 A15 53 17 00 DO 86 18 Dl D1 85 19 D2 D2 84 20 D3 D3 83 21 D4 D4 82 EE 05 D5 81 23 D6 D6 80 24 D7 D7 79 25 RDn RDn 42 26 WRn WRn 44 27 CSan A23 50 45 28 CSbn CS1n 46 29 D8 D8 78 30 09 D9 77 31 010 10 76 32 Dll D11 75 33 D12 D12 74 34 013 D13 13 35 D14 D14 72 36 0215 D15 71 37 16 16 52 38 5 15 51 39 18 18 50 40 19 19 49 41 A20 20 48 42 21 21 47 43 A22 A22 46 44 SDCLK 45 CScn CS2n 47 46 ALE ALE 38 47 HWRn WRHn 43 48 LWRn WRLn 44 49 CASn 50 RASn
14. d Board VCC1 connected to Disconnected R23 28 Connector 3V3 R28 Board Board VCC1 connected to Disconnected R23 R25 Connector 5V R23 Board Board VCC1 connected to Disconnected R25 R28 Connector J 5 R26 Board VCC2 Board VCC2 connected to Disconnected R24 29 Connector 3 3 R29 Board VCC2 Board VCC2 connected to Disconnected R24 R26 Connector 5V R24 Board VCC2 Board VCC2 connected to Disconnected R26 R29 Connector J 5 Table 6 6 Power Configuration Links Table 6 7 below describes the function of the option links associated with Clock configuration The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R96 External Oscillator Connects External Ring header Disconnects sensitive R100 pins to Microcontroller microcontroller signals from external pins R100 External Oscillator Connects External Ring header Disconnects sensitive R96 pins to Microcontroller microcontroller signals from external pins R97 External Oscillator Parallel resistor for crystal Not fitted R103 External Subclock Connects External Ring header Disconnects sensitive R105 Oscillator pins to Microcontroller microcontroller signals from external pins R105 External Subclock Connects External Ring header Disconnects sensitive R103 Oscillator pins to Microcontroller microcontroller signals from external pins R106 Exte
15. ect 87 to CAN1STBn pin Table 6 10 MCU Pin Function Select Configuration Links Table 6 11 below describes the function of the option links associated with other options The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R35 SW3 Connects SW3 to Analogue Disconnected R34 Trigger input R34 SW3 Connects SW3 to INT2 input Disconnected R35 Table 6 11 Other Option Links 6 7 Oscillator Sources A crystal oscillator is fitted on the RSK and used to supply the main clock input to the Renesas microcontroller Table 6 12 details the oscillators that are fitted and alternative footprints provided on this RSK Component Crystal X1 Fitted 10MHz HC 49U package Subclock X2 Fitted 32 768kHz 905 MX package Table 6 12 Oscillators Resonators 6 8 Reset Circuit The CPU Board includes a simple latch circuit that links the mode selection and reset circuit This provides an easy method for swapping the device between Boot Mode User Boot Mode and User mode This circuit is not required on customers boards as it is intended for providing easy evaluation of the operating modes of the device on the RSK Please refer to the hardware manual for more information on the requirements of the reset circuit The Reset circuit operates by latching the state of the boot switch on pressing
16. l Information For details on how to use High performance Embedded Workshop HEW refer to the HEW manual available on the CD or from the web site For information about the M16C 6NK series microcontrollers refer to the M16C 6NKGroup Hardware Manual For information about the M16C 6NK assembly language refer to the M16C SeriesSoftware Manual Online technical support and information is available at http Www renesas com renesas starter kits Technical Contact Details America techsupport rta renesas com Europe tools support euQ renesas com Japan CSc 9 renesas com General information on Renesas Microcontrollers can be found on the Renesas website at hittp www renesas com 27 Renesas Starter Kit for 16 6 User s Manual Publication Date Rev 02 00 30 2007 Published by Renesas Technology Europe Ltd Duke s Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH United Kingdom 2007 Renesas Technology Europe and Renesas Solutions Corp All Rights Reserved Renesas Starter Kit for M16C 6NK User s Manual 24 NE SAS Renesas Technology Europe Ltd Duke s Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH United Kingdom
17. nd the CNVSS is pulled low by a 100k resistor When an E8a is used these three pins are controlled by the E8a 7 2 Single chip mode This RSK is configured to always bootin Single Chip mode when the E8a is not connected and the boot switch is not depressed as CNVSS is pulled down by a 100k resistor Refer to M16C 6NK Group Hardware Manual for details of Single chip mode CNVSS P5 0 P5 5 LSI State after Reset End 0 1 1 Single Chip Mode Table 7 2 Single Chip Mode pin settings Chapter 8 Programming Methods The board is intended for use with HEW and the supplied E8a module Refer to the M16C 6NK Group Hardware Manual for details of programming the microcontroller without using these tools 9 1 Microcontroller Headers Table 9 1to Table 9 4 show the microcontroller pin headers and their corresponding microcontroller connections The header pins connect Chapter 9 Headers directly to the microcontroller pins Marked pins are subjectto option links JA Pin Circuit Net Name Device Pin Circuit Net Name Device Pin Pin 1 CAN1OUT 99 2 CANIIN 100 3 DAl 1 4 DAO 2 5 TXD2 3 6 RXD2 4 7 CLK3 5 8 BYTE 6 9 E8 CNVSS 7 10 CON_XCIN 8 11 CON_XCOUT 9 12 RESn 10 13 CON XOUT 11 14 GROUND 12 15 CON 13 16 UC 14 17 NMIn 15 18 INT2 16 19 I
18. ng e User Code Debugging e User Circuitry such as Switches LEDs and potentiometer s e User or Example Application e Sample peripheral device initialisation code The RSK board contains all the circuitry required for microcontroller operation Chapter 3 Power Supply 3 1 Requirements This RSK operates from a 5V power supply A diode provides reverse polarity protection only if a current limiting power supply is used RSK boards are supplied with an E8a debugger module 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 1mm barrel power jack Warning The RSK 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 the user LEDs will start to flash After 200 flashes or after pressing a switch the LEDs will flash at a rate 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 Reset Switch BUS Interface Interface Microcontroller Pin Headers User LEDs CAN Ports Boot LED Applica
19. ontroller pin 20 MUST be removed if R93 R93 function select to TA4OUT pin fitted R93 Microcontroller Connects microcontroller pin Should be removed if R94 fitted R94 function select 20 to Up pin R92 Microcontroller Connects microcontroller pin 19 MUST be removed if R92 R90 function select to TAAIN pin fitted R90 Microcontroller Connects microcontroller Should be removed if R92 fitted R92 function select 19 to Un pin R84 Microcontroller pin Connects microcontroller pin 26 MUST be removed if R83 R90 function select to CLK2 pin fitted R83 Microcontroller Connects microcontroller Should be removed if R84 fitted R92 function select 26to Vp pin R87 Microcontroller pin Connects microcontroller pin 24 MUST be removed if R85 R87 function select to TA20UT pin fitted R85 Microcontroller Connects microcontroller pin Should be removed if R87 fitted R85 function select 24 to Wp pin R88 Microcontroller pin Connects microcontroller 23 MUST be removed if R86 R86 function select to TA2IN pin fitted R86 Microcontroller Connects microcontroller pin Should be removed if R88 fitted R88 function select 23 to Wn Option Link Settings Reference Function Fitted Alternative Removed Related To R128 Microcontroller pin Connects microcontroller pin
20. r oa ER atin Chapter 8 Programming Methode essent Chapter 9 Headers tete edt tdt ete dei dee te Hd Rd Gees 9 1 Microcontroller Headers sree tae ee eA E e EER 9 2 Application Headers einai ee ea enn nnne Chapter 10 Code Development TOA e EE 10 2 Mode Tee EE 10 39 E eu e 10 4 Memory Ee BEE Chapter 11 Component Placement Chapter 12 Additional Iniormation essen 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 Renesas Technology Europe Ltd 2007 All rights reserved Renesas Solutions Corporation 2007 All rights reserved Renesas Technology Corporation 2007 All rights reserved Website htto www eu renesas com Glossary CPU Central Processing Unit RTE HEW High performance Embedded Workshop RSO LED Light Emitting Diode RSK PC Program Counter E8a Renesas Technology Europe Ltd Renesas Solutions Organisation Renesas Starter Kit E8a On chip debugger module Chapter 2 Purpose This RSK is an evaluation tool for Renesas microcontrollers Features include e Renesas Microcontroller Programmi
21. rnal Subclock Parallel resistor for crystal Not fitted Oscillator Table 6 7 Clock Configuration Links Table 6 8 below describes the function of the option links associated with Serial configuration The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related To R14 Programming Connects SCK to E8a SCK disconnected from E8a Serial Port R12 Programming Connects E8a to MUST be removed if R44 fitted R44 Serial Port Programming Serial port R13 Programming Connects E8a to Should be removed if R68 fitted R68 Serial Port Programming Serial port R44 Programming Connects RS232 port to MUST be removed if R12 R47 R12 R47 R49 Serial Port Programming SCI port or R49 fitted R68 Programming Connects RS232 port to MUST be removed if R13 R69 R13 R69 R72 Serial Port Programming SCI port or R72 fitted R42 RS232 Driver Enables RS232 Serial MUST be removed if R39 R39 Transceiver Fitted R39 RS232 Driver Disables RS232 Serial MUST be removed if R42 Fitted R42 Transceiver 41 Serial Connector Connects Alternate serial CH2 Disconnects Alternate serial R40 to D connector from D connector R40 Serial Connector Connects Alternate serial 2 Disconnects Alternate serial R41 to D connector from D connector R55 Alternate Serial Connects Alternate Serial CH2
22. ti fi Board Potentiometer User Switches Interface Figure 4 1 Board Layout 4 2 Board Dimensions The following diagram gives the board dimensions and connector positions All through hole connectors on a common 0 1 grid for easy interfacing 120 00mm gt 115 00mm gt 86 36mm Short Board 85 mm R 4 50 80 mm 2 X gt 43 18 mm diu 35 56 mm radius 27 00mm A A sels E 8 E EE 5 E 5 8 cy muy 45 00 A Zo Figure 4 2 Board Dimensions Chapter 5 Block Diagram Power Jack Option Figure 5 1 is representative of the CPU board components and their connectivity Application Board Headers Boot mode pins Microcontroller Boot Circuitry amp signals Microcontroller Pin RESn RESET pin Headers P D type latch IRQ Debug Header Option IRQ Ui ADC Input IRQ pin Serial Connector Option Sw2 SWw3 BOOT RES N C N Nc e A ui Potentiometer en LEDs Power Green User 4 LEDS 1Green 1Orange 2Red Boot Orange Figure 5 1 Block Diagram Figure 5 2 is representative of the connections requ lc JOU 3 Ceo
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