commit
844fe98fe8
68 changed files with 30138 additions and 0 deletions
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-Input=DefaultBuild\cstart.obj |
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-Input=DefaultBuild\r_cg_serial.obj |
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-Input=DefaultBuild\r_cg_serial_user.obj |
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-Input=DefaultBuild\anaout.obj |
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-Input=DefaultBuild\i2c.obj |
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-Input=DefaultBuild\dipSwitch.obj |
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-ROm=.sdata=.sdataR |
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-DEVICE=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF |
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-OUtput=DefaultBuild\multical.mot |
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-FOrm=Stype |
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-NOMessage |
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-exit |
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Renesas Optimizing Linker (W3.07.00 ) 14-Jan-2026 10:30:43 |
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|
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*** Options *** |
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|
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-subcommand=DefaultBuild\multical.clnk |
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-Input=DefaultBuild\cstart.obj |
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-Input=DefaultBuild\stkinit.obj |
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-Input=DefaultBuild\r_main.obj |
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-Input=DefaultBuild\r_systeminit.obj |
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-Input=DefaultBuild\r_cg_cgc.obj |
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-Input=DefaultBuild\r_cg_cgc_user.obj |
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-Input=DefaultBuild\r_cg_serial.obj |
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-Input=DefaultBuild\r_cg_serial_user.obj |
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-Input=DefaultBuild\r_cg_wdt.obj |
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-Input=DefaultBuild\r_cg_wdt_user.obj |
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-Input=DefaultBuild\r_cg_adc.obj |
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-Input=DefaultBuild\r_cg_adc_user.obj |
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-Input=DefaultBuild\r_cg_port.obj |
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-Input=DefaultBuild\r_cg_port_user.obj |
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-Input=DefaultBuild\anaout.obj |
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-Input=DefaultBuild\owi.obj |
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-Input=DefaultBuild\i2c.obj |
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-Input=DefaultBuild\uart.obj |
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-Input=DefaultBuild\delay.obj |
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-Input=DefaultBuild\dipSwitch.obj |
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-SECURITY_ID=00000000000000000000 |
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-DEVICE=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF |
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-DEBug |
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-NOCOmpress |
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-NOOPtimize |
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-OUtput=DefaultBuild\multical.abs |
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-OCDBG=04 |
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-USER_OPT_BYTE=FFFFF8 |
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-LISt=DefaultBuild\multical.map |
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-SHow=SYmbol,Total_size |
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-AUTO_SECTION_LAYOUT |
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-ROm=.data=.dataR |
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-ROm=.sdata=.sdataR |
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-NOMessage |
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-MEMory=High |
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-NOLOgo |
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-LIBrary=DefaultBuild\multical.lib |
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*** Error information *** |
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*** Mapping List *** |
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SECTION START END SIZE ALIGN |
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.vect |
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00000000 0000007f 80 0 |
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00000094 00000094 0 2 |
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.security_id |
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000000c4 000000cd a 1 |
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.RLIB |
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000000c4 000000c4 0 1 |
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.data |
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000000ce 0000014a 7d 2 |
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.text |
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0000014b 000002fd 1b3 1 |
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.textf |
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00003000 0000335b 35c 2 |
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.SLIB |
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0000335c 00005d9d 2a42 1 |
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.bss |
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000faf00 000fafa3 a4 2 |
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.dataR |
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000fafa4 000fb020 7d 2 |
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.sbss |
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000ffe20 000ffe20 0 2 |
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.sdataR |
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000ffe20 000ffe20 0 2 |
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*** Total Section Size *** |
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RAMDATA SECTION: 00000121 Byte(s) |
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ROMDATA SECTION: 0000047b Byte(s) |
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PROGRAM SECTION: 000045e8 Byte(s) |
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|
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*** Symbol List *** |
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|
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SECTION= |
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FILE= START END SIZE |
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SYMBOL ADDR SIZE INFO COUNTS OPT |
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|
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SECTION=.vect |
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FILE=rlink_generates_03 |
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00000000 0000007f 80 |
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|
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SECTION=.constf |
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FILE=_REL_print |
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00000080 00000093 14 |
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SECTION=.option_byte |
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FILE=rlink_generates_01 |
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000000c0 000000c3 4 |
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SECTION=.security_id |
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FILE=rlink_generates_02 |
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000000c4 000000cd a |
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SECTION=.data |
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FILE=DefaultBuild\r_main.obj |
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000000ce 00000132 65 |
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FILE=DefaultBuild\i2c.obj |
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00000134 00000139 6 |
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FILE=DefaultBuild\uart.obj |
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0000013a 0000014a 11 |
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|
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SECTION=.text |
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FILE=DefaultBuild\cstart.obj |
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0000014b 000001bd 73 |
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_start |
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0000014b 0 none ,g * |
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_exit |
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000001bb 0 none ,g * |
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_atexit |
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000001bd 0 none ,g * |
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FILE=DefaultBuild\r_cg_serial_user.obj |
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000001be 000002f9 13c |
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_r_uart0_interrupt_receive@1 |
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000001be 5f func ,l * |
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_r_uart0_interrupt_send@1 |
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0000021d 2f func ,l * |
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_r_uart1_interrupt_receive@1 |
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0000024c 5f func ,l * |
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_r_uart1_interrupt_send@1 |
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000002ab 2f func ,l * |
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_r_iica0_interrupt@1 |
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000002da 20 func ,l * |
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FILE=DefaultBuild\r_cg_wdt_user.obj |
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000002fa 000002fb 2 |
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_r_wdt_interrupt@1 |
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000002fa 2 func ,l * |
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FILE=DefaultBuild\r_cg_adc_user.obj |
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000002fc 000002fd 2 |
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_r_adc_interrupt@1 |
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000002fc 2 func ,l * |
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|
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SECTION=.textf |
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FILE=DefaultBuild\stkinit.obj |
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000002fe 00000341 44 |
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_stkinit |
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000002fe 0 none ,g * |
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LSTINIT1 |
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0000030c 0 none ,l * |
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LSTINIT2 |
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00000336 0 none ,l * |
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LSTINIT3 |
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00000341 0 none ,l * |
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FILE=DefaultBuild\r_main.obj |
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00000342 00000901 5c0 |
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_hex2byte@1 |
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00000342 34 func ,l * |
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_handle_uart_command_line |
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00000376 539 func ,g * |
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_main |
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000008af 31 func ,g * |
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_R_MAIN_UserInit |
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000008e0 22 func ,g * |
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FILE=DefaultBuild\r_systeminit.obj |
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00000902 00000948 47 |
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_R_Systeminit |
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00000902 42 func ,g * |
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_hdwinit |
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00000944 5 func ,g * |
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FILE=DefaultBuild\r_cg_cgc.obj |
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00000949 00000972 2a |
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_R_CGC_Create |
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00000949 2a func ,g * |
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FILE=DefaultBuild\r_cg_cgc_user.obj |
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00000973 00000975 3 |
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_R_CGC_Get_ResetSource |
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00000973 3 func ,g * |
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FILE=DefaultBuild\r_cg_serial.obj |
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00000976 00000c49 2d4 |
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_R_SAU0_Create |
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00000976 c func ,g * |
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_R_UART0_Create |
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00000982 6e func ,g * |
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_R_UART0_Start |
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000009f0 26 func ,g * |
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_R_UART0_Stop |
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00000a16 1e func ,g * |
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_R_UART0_Receive |
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00000a34 18 func ,g * |
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_R_UART0_Send |
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00000a4c 26 func ,g * |
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_R_SAU1_Create |
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00000a72 c func ,g * |
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_R_UART1_Create |
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00000a7e 6e func ,g * |
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_R_UART1_Start |
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00000aec 26 func ,g * |
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_R_UART1_Stop |
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00000b12 1e func ,g * |
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_R_UART1_Receive |
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00000b30 18 func ,g * |
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_R_UART1_Send |
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00000b48 26 func ,g * |
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_R_IICA0_Create |
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00000b6e 50 func ,g * |
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_R_IICA0_Stop |
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00000bbe 5 func ,g * |
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_R_IICA0_StopCondition |
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00000bc3 5 func ,g * |
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_R_IICA0_Master_Send |
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00000bc8 3f func ,g * |
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_R_IICA0_Master_Receive |
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00000c07 43 func ,g * |
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FILE=DefaultBuild\r_cg_serial_user.obj |
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00000c4a 00000d06 bd |
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_r_uart0_callback_receiveend@1 |
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00000c4a 1 func ,l * |
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_r_uart0_callback_softwareoverrun@1 |
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00000c4b 1 func ,l * |
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_r_uart0_callback_sendend@1 |
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00000c4c 5 func ,l * |
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_r_uart0_callback_error@1 |
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00000c51 1 func ,l * |
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_r_uart1_callback_receiveend@1 |
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00000c52 2e func ,l * |
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_r_uart1_callback_softwareoverrun@1 |
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00000c80 1 func ,l * |
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_r_uart1_callback_sendend@1 |
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00000c81 1 func ,l * |
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_r_uart1_callback_error@1 |
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00000c82 1 func ,l * |
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_iica0_masterhandler@1 |
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00000c83 84 func ,l * |
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FILE=DefaultBuild\r_cg_wdt.obj |
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00000d07 00000d1a 14 |
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_R_WDT_Create |
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00000d07 10 func ,g * |
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_R_WDT_Restart |
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00000d17 4 func ,g * |
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FILE=DefaultBuild\r_cg_adc.obj |
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00000d1b 00000dce b4 |
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_R_ADC_Create |
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00000d1b 91 func ,g * |
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_R_ADC_Start |
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00000dac a func ,g * |
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_R_ADC_Stop |
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00000db6 a func ,g * |
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_R_ADC_Set_OperationOn |
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00000dc0 4 func ,g * |
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_R_ADC_Set_OperationOff |
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00000dc4 4 func ,g * |
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_R_ADC_Get_Result |
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00000dc8 7 func ,g * |
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FILE=DefaultBuild\r_cg_port.obj |
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00000dcf 00000dd5 7 |
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_R_PORT_Create |
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00000dcf 7 func ,g * |
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FILE=DefaultBuild\anaout.obj |
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00000dd6 00000ebb e6 |
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_ANAOUT_AllLow |
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00000dd6 10 func ,g * |
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_ANAOUT_Init |
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00000de6 1e func ,g * |
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_ANAOUT_Select |
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00000e04 b8 func ,g * |
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FILE=DefaultBuild\owi.obj |
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00000ebc 00001626 76b |
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_OWI_EnablePower |
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00000ebc 4 func ,g * |
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_OWI_DisablePower |
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00000ec0 3 func ,g * |
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_GPIO_Clear |
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00000ec3 b func ,g * |
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_GPIO_Input |
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00000ece 7 func ,g * |
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_GPIO_Read |
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00000ed5 6 func ,g * |
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_OWI_Init |
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00000edb f func ,g * |
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_OWI_Start |
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00000eea 16 func ,g * |
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_OWI_Stop |
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00000f00 15 func ,g * |
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_OWI_SecureStop |
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00000f15 46 func ,g * |
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_OWI_WriteBit |
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00000f5b 3a func ,g * |
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_OWI_WriteByte |
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00000f95 32 func ,g * |
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_OWI_ReadBit |
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00000fc7 50 func ,g * |
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_OWI_ReadByte |
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00001017 34 func ,g * |
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_OWI_T_ReadBytesAndPrint |
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0000104b c8 func ,g * |
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_OWI_A_CommandMode |
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00001113 26c func ,g * |
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_OWI_Diagnostic |
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0000137f 102 func ,g * |
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_OWI_disable |
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00001481 9 func ,g * |
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_OWI_T_CommandMode |
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0000148a 4f func ,g * |
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_OWI_CommandMode |
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000014d9 40 func ,g * |
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_OWI_ReadBytesAndPrint |
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00001519 10e func ,g * |
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FILE=DefaultBuild\i2c.obj |
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00001627 00001ac8 4a2 |
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_disable |
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00001627 19 func ,g * |
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_I2C_EnablePower |
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00001640 4 func ,g * |
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_I2C_DisablePower |
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00001644 3 func ,g * |
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_I2C_A_Command_Mode_receiveData |
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00001647 213 func ,g * |
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_I2C_Diagnostic |
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0000185a e4 func ,g * |
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_I2C_T_Command_Mode_receiveData |
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0000193e 37 func ,g * |
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_I2C_Command_Mode_receiveData |
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00001975 26 func ,g * |
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_I2C_Command_Mode_Send |
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0000199b 12e func ,g * |
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FILE=DefaultBuild\uart.obj |
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00001ac9 00001c22 15a |
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_rs485_set_tx |
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00001ac9 b func ,g * |
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_rs485_init |
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00001ad4 a func ,g * |
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_uart_send_string |
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00001ade 22 func ,g * |
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_uart1_send_string |
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00001b00 10 func ,g * |
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_uart_send_hex |
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00001b10 50 func ,g * |
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_uart1_send_hex |
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00001b60 4c func ,g * |
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_ADC_ReadAndSend_UART |
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00001bac 77 func ,g * |
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FILE=DefaultBuild\delay.obj |
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00001c23 00001cda b8 |
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_delay |
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00001c23 16 func ,g * |
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_delay_us |
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00001c39 7d func ,g * |
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_delay_ms |
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00001cb6 25 func ,g * |
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FILE=DefaultBuild\dipSwitch.obj |
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00001cdb 00001cf0 16 |
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_DipSwitch_Init |
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00001cdb 8 func ,g * |
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_DipSwitch_ReadValue_0to31 |
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00001ce3 9 func ,g * |
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_DipSwitch_ReadAddr_1to32 |
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00001cec 5 func ,g * |
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SECTION=.const |
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FILE=DefaultBuild\r_main.obj |
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00003000 00003145 146 |
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FILE=DefaultBuild\owi.obj |
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FILE=DefaultBuild\i2c.obj |
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00003200 00003356 157 |
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FILE=DefaultBuild\uart.obj |
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_ADC_CHANNELS@1@ADC_ReadAndSend_UART |
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FILE=_COM_fdiv |
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00003497 000035c4 12e |
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FILE=_COM_fmul |
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000035c5 000036b1 ed |
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FILE=_COM_ftoul |
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FILE=isdigit |
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_memset |
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_sprintf |
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_strcpy |
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_toupper |
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FILE=_REL_f_norm |
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__REL_f_norm |
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FILE=_REL_f_round |
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__REL_f_round |
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__REL_ftol |
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FILE=_REL_ltof |
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__REL_ltof |
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FILE=_REL_print |
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__REL_print |
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__COM_ullrem |
|||
000058ea 0 none ,g * |
|||
FILE=_REL_fcmp |
|||
0000591b 00005952 38 |
|||
__REL_fcmp |
|||
0000591b 0 none ,g * |
|||
FILE=_REL_fordered_core |
|||
00005953 0000596e 1c |
|||
__REL_fordered_core |
|||
00005953 0 none ,g * |
|||
FILE=_REL_lldiv |
|||
0000596f 00005b74 206 |
|||
__REL_lldiv |
|||
0000598b 0 none ,g * |
|||
FILE=_REL_llrem |
|||
00005b75 00005d78 204 |
|||
__REL_llrem |
|||
00005b92 0 none ,g * |
|||
FILE=_REL_ltosl |
|||
00005d79 00005d9d 25 |
|||
__REL_ltosl |
|||
00005d79 0 none ,g * |
|||
|
|||
SECTION=.bss |
|||
FILE=DefaultBuild\r_cg_serial.obj |
|||
000faf00 000faf1f 20 |
|||
_gp_uart0_tx_address |
|||
000faf00 2 data ,g * |
|||
_g_uart0_tx_count |
|||
000faf02 2 data ,g * |
|||
_gp_uart0_rx_address |
|||
000faf04 2 data ,g * |
|||
_g_uart0_rx_count |
|||
000faf06 2 data ,g * |
|||
_g_uart0_rx_length |
|||
000faf08 2 data ,g * |
|||
_gp_uart1_tx_address |
|||
000faf0a 2 data ,g * |
|||
_g_uart1_tx_count |
|||
000faf0c 2 data ,g * |
|||
_gp_uart1_rx_address |
|||
000faf0e 2 data ,g * |
|||
_g_uart1_rx_count |
|||
000faf10 2 data ,g * |
|||
_g_uart1_rx_length |
|||
000faf12 2 data ,g * |
|||
_g_iica0_master_status_flag |
|||
000faf14 1 data ,g * |
|||
_g_iica0_slave_status_flag |
|||
000faf15 1 data ,g * |
|||
_gp_iica0_rx_address |
|||
000faf16 2 data ,g * |
|||
_g_iica0_rx_len |
|||
000faf18 2 data ,g * |
|||
_g_iica0_rx_cnt |
|||
000faf1a 2 data ,g * |
|||
_gp_iica0_tx_address |
|||
000faf1c 2 data ,g * |
|||
_g_iica0_tx_cnt |
|||
000faf1e 2 data ,g * |
|||
FILE=sprintf |
|||
000faf20 000faf23 4 |
|||
__REL_pointer@1 |
|||
000faf20 4 data ,l * |
|||
FILE=_REL_print |
|||
000faf24 000fafa3 80 |
|||
_qt@1@_REL_inmod@1 |
|||
000faf24 80 data ,l * |
|||
|
|||
SECTION=.dataR |
|||
FILE=DefaultBuild\r_main.obj |
|||
000fafa4 000fb008 65 |
|||
_uart_rx_done |
|||
000fafa4 1 data ,g * |
|||
_uart_rx_index |
|||
000fafa5 1 data ,g * |
|||
_uart_rx_buffer |
|||
000fafa6 60 data ,g * |
|||
_uart_rx_length |
|||
000fb006 2 data ,g * |
|||
_g_fixed_addr@1 |
|||
000fb008 1 data ,l * |
|||
FILE=DefaultBuild\i2c.obj |
|||
000fb00a 000fb00f 6 |
|||
_g_i2c_last_command |
|||
000fb00a 3 data ,g * |
|||
_g_i2c_command_valid |
|||
000fb00d 1 data ,g * |
|||
_dis@1@disable |
|||
000fb00e 2 data ,l * |
|||
FILE=DefaultBuild\uart.obj |
|||
000fb010 000fb020 11 |
|||
_g_adc_bytes |
|||
000fb010 10 data ,g * |
|||
_g_adc_len |
|||
000fb020 1 data ,g * |
|||
|
|||
Absolute value symbols |
|||
FILE=rlink_generates_04 |
|||
__s.text |
|||
0000014b 0 none ,g * |
|||
__e.text |
|||
000002fe 0 none ,g * |
|||
__s.textf |
|||
000002fe 0 none ,g * |
|||
__e.textf |
|||
00001cf1 0 none ,g * |
|||
__s.const |
|||
00003000 0 none ,g * |
|||
__e.const |
|||
0000335c 0 none ,g * |
|||
__s.constf |
|||
00000080 0 none ,g * |
|||
__e.constf |
|||
00000094 0 none ,g * |
|||
__s.data |
|||
000000ce 0 none ,g * |
|||
__e.data |
|||
0000014b 0 none ,g * |
|||
__s.sdata |
|||
00000080 0 none ,g * |
|||
__e.sdata |
|||
00000080 0 none ,g * |
|||
__s.bss |
|||
000faf00 0 none ,g * |
|||
__e.bss |
|||
000fafa4 0 none ,g * |
|||
__s.sbss |
|||
000ffe20 0 none ,g * |
|||
__e.sbss |
|||
000ffe20 0 none ,g * |
|||
__s.dataR |
|||
000fafa4 0 none ,g * |
|||
__e.dataR |
|||
000fb021 0 none ,g * |
|||
__s.sdataR |
|||
000ffe20 0 none ,g * |
|||
__e.sdataR |
|||
000ffe20 0 none ,g * |
|||
__s.init_array |
|||
00000094 0 none ,g * |
|||
__e.init_array |
|||
00000094 0 none ,g * |
|||
__s.RLIB |
|||
000000c4 0 none ,g * |
|||
__e.RLIB |
|||
000000c4 0 none ,g * |
|||
__s.SLIB |
|||
0000335c 0 none ,g * |
|||
__e.SLIB |
|||
00005d9e 0 none ,g * |
|||
__s.option_byte |
|||
000000c0 0 none ,g * |
|||
__e.option_byte |
|||
000000c4 0 none ,g * |
|||
__s.security_id |
|||
000000c4 0 none ,g * |
|||
__e.security_id |
|||
000000ce 0 none ,g * |
|||
__s.vect |
|||
00000000 0 none ,g * |
|||
__e.vect |
|||
00000080 0 none ,g * |
|||
__RAM_ADDR_START |
|||
000faf00 0 none ,g * |
|||
__RAM_ADDR_END |
|||
000ffee0 0 none ,g * |
|||
__STACK_ADDR_START |
|||
000ffe20 0 none ,g * |
|||
__STACK_ADDR_END |
|||
000fb022 0 none ,g * |
|||
|
|||
*** Unfilled Areas *** |
|||
|
|||
AREA START END |
|||
|
|||
*** Delete Symbols *** |
|||
|
|||
SYMBOL SIZE INFO |
|||
File diff suppressed because it is too large
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
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@ -0,0 +1,298 @@ |
|||
QualityReport |
|||
2026년 1월 14일 수요일 오전 10:30:44 |
|||
|
|||
------ Start build(multical, DefaultBuild) ------ |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\Bin\ccrl.exe r_main.c -cpu=S3 -o DefaultBuild\r_main.obj "-dev=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF" -g -g_line -I "..\..\Documents\카카오톡 받은 파일\IDH1.1\IDH1.1" -I ..\IDH1.1 -I . -c -msg_lang=english |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\Bin\ccrl.exe dipSwitch.c -cpu=S3 -o DefaultBuild\dipSwitch.obj "-dev=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF" -g -g_line -I "..\..\Documents\카카오톡 받은 파일\IDH1.1\IDH1.1" -I ..\IDH1.1 -I . -c -msg_lang=english |
|||
W0511106:The folder "..\..\Documents\카카오톡 받은 파일\IDH1.1\IDH1.1" specified by the "-I" option is not found. |
|||
W0511106:The folder "..\..\Documents\카카오톡 받은 파일\IDH1.1\IDH1.1" specified by the "-I" option is not found. |
|||
W0511106:The folder "..\IDH1.1" specified by the "-I" option is not found. |
|||
W0511106:The folder "..\IDH1.1" specified by the "-I" option is not found. |
|||
W0511186:The evaluation period for the option "-Odefault" of CC-RL V1 is valid for the remaining 60 days. After that, it will be implicitly changed to "-Olite". Please consider purchasing the product to continue using "-Odefault". |
|||
W0511186:The evaluation period for the option "-Odefault" of CC-RL V1 is valid for the remaining 60 days. After that, it will be implicitly changed to "-Olite". Please consider purchasing the product to continue using "-Odefault". |
|||
owi.h(47):W0523076:Function declarations should have prototype |
|||
i2c.h(8):W0520047:Incompatible redefinition of macro "RAM_BYTES" (declared at line 11 of "uart.h") |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(18):W0520301:Typedef name has already been declared (with same type) |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(19):W0520301:Typedef name has already been declared (with same type) |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(20):W0520301:Typedef name has already been declared (with same type) |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(25):W0520301:Typedef name has already been declared (with same type) |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(26):W0520301:Typedef name has already been declared (with same type) |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\inc\stdint.h(27):W0520301:Typedef name has already been declared (with same type) |
|||
r_main.c(115):W0520172:External/internal linkage conflict with previous declaration |
|||
r_main.c(133):W0523077:Called function should have prototype |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC\CC-RL\V1.15.00\Bin\rlink.exe -subcommand=DefaultBuild\multical.clnk |
|||
W0561018:The evaluation period of CC-RL V1 is valid for the remaining 60 days. After that, functional limit will be applied. Please consider purchasing the product. |
|||
W0561018:The evaluation period of CC-RL V1 is valid for the remaining 60 days. After that, functional limit will be applied. Please consider purchasing the product. |
|||
Renesas Optimizing Linker Completed |
|||
------ Build ended(Error:0, Warning:18)(multical, DefaultBuild) ------ |
|||
|
|||
--- CommandFile 1 --- |
|||
DefaultBuild\multical.clnk : |
|||
-Input=DefaultBuild\cstart.obj |
|||
-Input=DefaultBuild\stkinit.obj |
|||
-Input=DefaultBuild\r_main.obj |
|||
-Input=DefaultBuild\r_systeminit.obj |
|||
-Input=DefaultBuild\r_cg_cgc.obj |
|||
-Input=DefaultBuild\r_cg_cgc_user.obj |
|||
-Input=DefaultBuild\r_cg_serial.obj |
|||
-Input=DefaultBuild\r_cg_serial_user.obj |
|||
-Input=DefaultBuild\r_cg_wdt.obj |
|||
-Input=DefaultBuild\r_cg_wdt_user.obj |
|||
-Input=DefaultBuild\r_cg_adc.obj |
|||
-Input=DefaultBuild\r_cg_adc_user.obj |
|||
-Input=DefaultBuild\r_cg_port.obj |
|||
-Input=DefaultBuild\r_cg_port_user.obj |
|||
-Input=DefaultBuild\anaout.obj |
|||
-Input=DefaultBuild\owi.obj |
|||
-Input=DefaultBuild\i2c.obj |
|||
-Input=DefaultBuild\uart.obj |
|||
-Input=DefaultBuild\delay.obj |
|||
-Input=DefaultBuild\dipSwitch.obj |
|||
-SECURITY_ID=00000000000000000000 |
|||
-DEVICE=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF |
|||
-DEBug |
|||
-NOCOmpress |
|||
-NOOPtimize |
|||
-OUtput=DefaultBuild\multical.abs |
|||
-OCDBG=04 |
|||
-USER_OPT_BYTE=FFFFF8 |
|||
-LISt=DefaultBuild\multical.map |
|||
-SHow=SYmbol,Total_size |
|||
-AUTO_SECTION_LAYOUT |
|||
-ROm=.data=.dataR |
|||
-ROm=.sdata=.sdataR |
|||
-NOMessage |
|||
-MEMory=High |
|||
-NOLOgo |
|||
-LIBrary=DefaultBuild\multical.lib |
|||
-end |
|||
-Input=DefaultBuild\multical.abs |
|||
-DEVICE=C:\Program Files (x86)\Renesas Electronics\CS+\CC\Device\RL78\Devicefile\DR5F10PPJ.DVF |
|||
-OUtput=DefaultBuild\multical.mot |
|||
-FOrm=Stype |
|||
-NOMessage |
|||
-exit |
|||
|
|||
|
|||
--- SHA1 hash value of output files --- |
|||
C:\Users\COMPUTER1\OneDrive\문서\카카오톡 받은 파일\Amosense_Firmware\Amosense_Firmware\DefaultBuild\multical.abs: 02573826f641eca7df73ff054c8e823c4d5b11c4 |
|||
C:\Users\COMPUTER1\OneDrive\문서\카카오톡 받은 파일\Amosense_Firmware\Amosense_Firmware\DefaultBuild\multical.mot: c95d0bc8130fb9e402da42eee0be70f0ce6eca3e |
|||
|
|||
|
|||
--- System Information --- |
|||
*OS Version |
|||
Microsoft Windows 11 Pro (-, 10.0.26200, WOW64) |
|||
*Language |
|||
한국어(대한민국) |
|||
*.NET Framework Version |
|||
Microsoft .NET Framework 4 [.NET 4.8 or later] (533509) |
|||
*WebView2 Version |
|||
143.0.3650.139 |
|||
|
|||
--- Application Information --- |
|||
*Product Name |
|||
CS+ for CC |
|||
*Package Version |
|||
V8.13.00 [05 Dec 2024] |
|||
*Version |
|||
V9.13.00.05 [12 Nov 2024] |
|||
*Assembly Version |
|||
3.12.10.1 |
|||
*Product License |
|||
|
|||
*Execution Place |
|||
C:\Program Files (x86)\Renesas Electronics\CS+\CC |
|||
*Memory Usage |
|||
*Private Working Set |
|||
295 MB |
|||
*Number of GDI Objects |
|||
2228 |
|||
*Number of USER Objects |
|||
1638 |
|||
*Opened Files |
|||
3 editors, 3 files, 16 KB |
|||
|
|||
--- Build Tool Plug-in Information --- |
|||
RH850 Build tool CC-RH Plug-in |
|||
*Version |
|||
V8.09.00.00 [07 Oct 2022] |
|||
*Assembly Version |
|||
1.1.10.12 |
|||
*DLL File Name |
|||
BuildToolCCRH.dll |
|||
RL78 Build tool CC-RL Plug-in |
|||
*Version |
|||
V8.11.00.00 [29 Sep 2023] |
|||
*Assembly Version |
|||
1.0.0.0 |
|||
*DLL File Name |
|||
BuildToolCCRL.dll |
|||
RX Build tool CC-RX Plug-in |
|||
*Version |
|||
V8.09.00.00 [07 Oct 2022] |
|||
*Assembly Version |
|||
3.12.10.1 |
|||
*DLL File Name |
|||
BuildToolCCRX.dll |
|||
RH850 Build tool GHS CCRH850 Plug-in |
|||
*Version |
|||
V1.10.00.01 [25 Sep 2024] |
|||
*Assembly Version |
|||
1.0.0.0 |
|||
*DLL File Name |
|||
BuildToolGHSCCRH850.dll |
|||
|
|||
--- Debug Tool Plug-in Information --- |
|||
Debugger Collection Plug-in |
|||
*Version |
|||
V8.13.00.04 [26 Nov 2024] |
|||
*Assembly Version |
|||
2.12.10.1 |
|||
*DLL File Name |
|||
DebugToolCollection.dll |
|||
|
|||
--- Other Plug-in Information --- |
|||
Code Generator Plug-in for RH850 |
|||
*Version |
|||
V1.02.02.05 [25 May 2018] |
|||
*Assembly Version |
|||
1.0.0.0 |
|||
*DLL File Name |
|||
CodeGeneratorRH850.dll |
|||
Code Generator Plug-in |
|||
*Version |
|||
V4.08.06.01 [28 Oct 2022] |
|||
*Assembly Version |
|||
3.0.0.0 |
|||
*DLL File Name |
|||
CodePart.dll |
|||
Code Generator/PinView Plug-in |
|||
*Version |
|||
V2.10.07.02 [08 Nov 2021] |
|||
*Assembly Version |
|||
1.0.0.0 |
|||
*DLL File Name |
|||
CodePart2.dll |
|||
Debug Console Plug-in |
|||
*Version |
|||
V8.09.00.03 [24 Nov 2022] |
|||
*Assembly Version |
|||
8.9.0.0 |
|||
*DLL File Name |
|||
DebugConsole.dll |
|||
Quick and Effective tool solution - QE |
|||
*Version |
|||
V9.12.00.01 [08 Apr 2024] |
|||
*Assembly Version |
|||
1.15.10.16 |
|||
*DLL File Name |
|||
InCarTools.dll |
|||
Pin Configurator Plug-in |
|||
*Version |
|||
V1.54.01.01 [31 Jul 2014] |
|||
*Assembly Version |
|||
1.6.10.23 |
|||
*DLL File Name |
|||
PinConfig.dll |
|||
Program Analyzer Plug-in |
|||
*Version |
|||
V4.13.00.03 [24 May 2023] |
|||
*Assembly Version |
|||
3.12.11.9 |
|||
*DLL File Name |
|||
ProgramAnalyzer.dll |
|||
IronPython Console Plug-in |
|||
*Version |
|||
V1.49.00.02 [08 Nov 2024] |
|||
*Assembly Version |
|||
1.6.10.23 |
|||
*DLL File Name |
|||
PythonConsole.dll |
|||
Editor plug-in DLL |
|||
*Version |
|||
V1.20.00.03 [20 May 2024] |
|||
*Assembly Version |
|||
1.1.0.0 |
|||
*DLL File Name |
|||
SEditor.dll |
|||
Stack Usage Tracer |
|||
*Version |
|||
V1.05.00.02 [30 Jul 2014] |
|||
*Assembly Version |
|||
1.30.11.15 |
|||
*DLL File Name |
|||
Stk.dll |
|||
Update Manager Plug-in |
|||
*Version |
|||
V2.03.00.02 [29 Oct 2018] |
|||
*Assembly Version |
|||
1.13.6.20 |
|||
*DLL File Name |
|||
Update.dll |
|||
|
|||
Debug Tool Common Interface |
|||
*Version |
|||
V8.13.00.04 [26 Nov 2024] |
|||
*Assembly Version |
|||
3.12.10.1 |
|||
*DLL File Name |
|||
CommonDebuggerInterface.dll |
|||
Device Information Common Interface |
|||
*Version |
|||
V9.13.00.02 [03 Oct 2024] |
|||
*Assembly Version |
|||
3.0.0.0 |
|||
*DLL File Name |
|||
DeviceInformation.dll |
|||
|
|||
--- Main Project Information --- |
|||
C:\Users\COMPUTER1\OneDrive\문서\카카오톡 받은 파일\Amosense_Firmware\Amosense_Firmware\multical.mtpj |
|||
Microcontroller Information |
|||
*R5F10PPJ |
|||
*File Name: Version |
|||
RL78_Productlist.xml: V8.130000 |
|||
R5F10PPJ_common.xml: V1.13.00.XX.02 |
|||
DR5F10PPJ.DVF: V1.11 |
|||
f14_ppx.ti: V1.02 |
|||
-: - |
|||
|
|||
|
|||
Build Tool Information |
|||
*CC-RL |
|||
* Version of plug-in(*.dll) |
|||
V8.13.00.02 [09 Oct 2024] |
|||
* The Version of the Compiler Package |
|||
V1.15.00 |
|||
|
|||
* The version of SMS Assembler |
|||
V1.00.00.01 [29 May 2020] |
|||
* The version of GREEN_DSP Structured Assembler |
|||
V1.05.00 |
|||
|
|||
|
|||
Debug Tool Information |
|||
*RL78 Simulator |
|||
Debugger Library V8.13.00.04 [26 Nov 2024] |
|||
|
|||
|
|||
Other Tool Information |
|||
*None |
|||
|
|||
*None |
|||
|
|||
*None |
|||
|
|||
*Pin Configurator |
|||
*Program Analyzer |
|||
*Version |
|||
V4.13.00.03 [24 May 2023] |
|||
|
|||
*Code Generator |
|||
Other Information |
|||
*RL78/F14 Code Library |
|||
*Version |
|||
V2.03.07.02 [08 Nov 2021] |
|||
*Description |
|||
Code library for RL78/F14 code generation plugin. |
|||
|
|||
|
|||
@ -0,0 +1,110 @@ |
|||
#include "anaout.h" |
|||
|
|||
// -------------------------------------------------------
|
|||
// Helper macros
|
|||
// -------------------------------------------------------
|
|||
#define BIT(n) (1u << (n)) |
|||
|
|||
// -------------------------------------------------------
|
|||
// ANAOUT mapping (사용자 제공 기준)
|
|||
// ANAOUT_1 : P64 -> P6.4
|
|||
// ANAOUT_2 : P65 -> P6.5
|
|||
// ANAOUT_3 : P66 -> P6.6
|
|||
// ANAOUT_4 : P67 -> P6.7
|
|||
//
|
|||
// ANAOUT_5 : P44 -> P4.4
|
|||
// ANAOUT_6 : P43 -> P4.3
|
|||
// ANAOUT_7 : P42 -> P4.2
|
|||
// ANAOUT_8 : P41 -> P4.1
|
|||
//
|
|||
// ANAOUT_9 : P50 -> P5.0
|
|||
// ANAOUT_10 : P51 -> P5.1
|
|||
// ANAOUT_11 : P52 -> P5.2
|
|||
//
|
|||
// ANAOUT_12 : P60 -> P6.0
|
|||
// ANAOUT_13 : P61 -> P6.1
|
|||
//
|
|||
// ANAOUT_14 : P72 -> P7.2
|
|||
// ANAOUT_15 : P73 -> P7.3
|
|||
// ANAOUT_16 : P75 -> P7.5
|
|||
// ANAOUT_17 : P74 -> P7.4
|
|||
// ANAOUT_18 : P76 -> P7.6
|
|||
// ANAOUT_19 : P77 -> P7.7
|
|||
//
|
|||
// ANAOUT_20 : P130 -> P13.0
|
|||
// -------------------------------------------------------
|
|||
|
|||
// 그룹별 마스크(빠른 AllLow/Init용)
|
|||
#define P4_ANA_MASK (BIT(4) | BIT(3) | BIT(2) | BIT(1)) // P4.4~P4.1
|
|||
#define P5_ANA_MASK (BIT(0) | BIT(1) | BIT(2)) // P5.0~P5.2
|
|||
#define P6_ANA_MASK (BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(1) | BIT(0)) // P6.7~P6.4 + P6.1~P6.0
|
|||
#define P7_ANA_MASK (BIT(7) | BIT(6) | BIT(5) | BIT(4) | BIT(3) | BIT(2)) // P7.7~P7.2
|
|||
#define P13_ANA_MASK (BIT(0)) // P13.0
|
|||
|
|||
void ANAOUT_AllLow(void) |
|||
{ |
|||
// 해당 비트만 LOW로 내림
|
|||
P4 &= (uint8_t)~(uint8_t)P4_ANA_MASK; |
|||
P5 &= (uint8_t)~(uint8_t)P5_ANA_MASK; |
|||
P6 &= (uint8_t)~(uint8_t)P6_ANA_MASK; |
|||
P7 &= (uint8_t)~(uint8_t)P7_ANA_MASK; |
|||
P13 &= (uint8_t)~(uint8_t)P13_ANA_MASK; |
|||
} |
|||
|
|||
void ANAOUT_Init(void) |
|||
{ |
|||
// 출력 설정: PM bit = 0 이 출력
|
|||
PM4 &= (uint8_t)~(uint8_t)P4_ANA_MASK; |
|||
PM5 &= (uint8_t)~(uint8_t)P5_ANA_MASK; |
|||
PM6 &= (uint8_t)~(uint8_t)P6_ANA_MASK; |
|||
PM7 &= (uint8_t)~(uint8_t)P7_ANA_MASK; |
|||
|
|||
// 초기 상태: 전부 LOW
|
|||
ANAOUT_AllLow(); |
|||
} |
|||
|
|||
void ANAOUT_Select(uint8_t ch) |
|||
{ |
|||
if (ch < ANAOUT_CH_MIN || ch > ANAOUT_CH_MAX) { |
|||
ANAOUT_AllLow(); |
|||
return; |
|||
} |
|||
|
|||
ANAOUT_AllLow(); |
|||
__nop(); __nop(); __nop(); __nop(); // break-before-make
|
|||
|
|||
// 2) 선택된 채널만 HIGH
|
|||
switch (ch) |
|||
{ |
|||
case 1: P6 |= (uint8_t)BIT(4); break; // P64
|
|||
case 2: P6 |= (uint8_t)BIT(5); break; // P65
|
|||
case 3: P6 |= (uint8_t)BIT(6); break; // P66
|
|||
case 4: P6 |= (uint8_t)BIT(7); break; // P67
|
|||
|
|||
case 5: P4 |= (uint8_t)BIT(4); break; // P44
|
|||
case 6: P4 |= (uint8_t)BIT(3); break; // P43
|
|||
case 7: P4 |= (uint8_t)BIT(2); break; // P42
|
|||
case 8: P4 |= (uint8_t)BIT(1); break; // P41
|
|||
|
|||
case 9: P5 |= (uint8_t)BIT(0); break; // P50
|
|||
case 10: P5 |= (uint8_t)BIT(1); break; // P51
|
|||
case 11: P5 |= (uint8_t)BIT(2); break; // P52
|
|||
|
|||
case 12: P6 |= (uint8_t)BIT(0); break; // P60
|
|||
case 13: P6 |= (uint8_t)BIT(1); break; // P61
|
|||
|
|||
case 14: P7 |= (uint8_t)BIT(2); break; // P72
|
|||
case 15: P7 |= (uint8_t)BIT(3); break; // P73
|
|||
case 16: P7 |= (uint8_t)BIT(5); break; // P75
|
|||
case 17: P7 |= (uint8_t)BIT(4); break; // P74
|
|||
case 18: P7 |= (uint8_t)BIT(6); break; // P76
|
|||
case 19: P7 |= (uint8_t)BIT(7); break; // P77
|
|||
|
|||
case 20: P13 |= (uint8_t)BIT(0); break; // P130
|
|||
|
|||
default: |
|||
// 범위 밖이면 전체 LOW 유지
|
|||
break; |
|||
} |
|||
} |
|||
|
|||
@ -0,0 +1,15 @@ |
|||
#ifndef ANAOUT_H |
|||
#define ANAOUT_H |
|||
|
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_port.h" |
|||
#include <stdint.h> |
|||
|
|||
#define ANAOUT_CH_MIN (1u) |
|||
#define ANAOUT_CH_MAX (20u) |
|||
|
|||
void ANAOUT_Init(void); |
|||
void ANAOUT_AllLow(void); |
|||
void ANAOUT_Select(uint8_t ch); // 1~20, 범위 밖이면 AllLow 처리
|
|||
|
|||
#endif |
|||
@ -0,0 +1,4 @@ |
|||
#include "delay.h" |
|||
#include "uart.h" |
|||
#include "owi.h" |
|||
#include "i2c.h" |
|||
@ -0,0 +1,314 @@ |
|||
;/********************************************************************************************************************** |
|||
; * DISCLAIMER |
|||
; * This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. No |
|||
; * other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
; * applicable laws, including copyright laws. |
|||
; * THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING |
|||
; * THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, |
|||
; * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED. TO THE MAXIMUM |
|||
; * EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES |
|||
; * SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO |
|||
; * THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
; * Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability of |
|||
; * this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
; * following link: |
|||
; * http://www.renesas.com/disclaimer |
|||
; * |
|||
; * Copyright (C) 2020-2022 Renesas Electronics Corporation. All rights reserved. |
|||
; *********************************************************************************************************************/ |
|||
; NOTE : THIS IS A TYPICAL EXAMPLE. |
|||
|
|||
$IFNDEF __RENESAS_VERSION__ |
|||
__RENESAS_VERSION__ .EQU 0x01000000 |
|||
$ENDIF |
|||
|
|||
.public _start |
|||
.public _exit |
|||
.public _atexit |
|||
|
|||
;----------------------------------------------------------------------------- |
|||
; RAM section |
|||
;----------------------------------------------------------------------------- |
|||
.SECTION .dataR, DATA |
|||
.SECTION .sdataR, DATA |
|||
; .SECTION .datafR, DATAF |
|||
; .SECTION .textfR, TEXTF |
|||
|
|||
$IF (__RENESAS_VERSION__ < 0x01010000) ; for CC-RL V1.00 |
|||
;----------------------------------------------------------------------------- |
|||
; stack area |
|||
;----------------------------------------------------------------------------- |
|||
; !!! [CAUTION] !!! |
|||
; Set up stack size suitable for a project. |
|||
.SECTION .stack_bss, BSS |
|||
_stackend: |
|||
.DS 0x200 |
|||
_stacktop: |
|||
$ENDIF |
|||
|
|||
;----------------------------------------------------------------------------- |
|||
; RESET vector |
|||
;----------------------------------------------------------------------------- |
|||
_start .VECTOR 0 |
|||
|
|||
;----------------------------------------------------------------------------- |
|||
; startup |
|||
;----------------------------------------------------------------------------- |
|||
.SECTION .text, TEXT |
|||
_start: |
|||
;-------------------------------------------------- |
|||
; setting register bank |
|||
;-------------------------------------------------- |
|||
; SEL RB0 |
|||
|
|||
;-------------------------------------------------- |
|||
; setting mirror area |
|||
;-------------------------------------------------- |
|||
; ONEB !PMC ; mirror area = 10000-1FFFFH |
|||
|
|||
;-------------------------------------------------- |
|||
; setting the stack pointer |
|||
;-------------------------------------------------- |
|||
$IF (__RENESAS_VERSION__ >= 0x01010000) |
|||
MOVW SP,#LOWW(__STACK_ADDR_START) |
|||
$ELSE ; for CC-RL V1.00 |
|||
MOVW SP,#LOWW(_stacktop) |
|||
$ENDIF |
|||
|
|||
;-------------------------------------------------- |
|||
; initializing stack area |
|||
;-------------------------------------------------- |
|||
$IF (__RENESAS_VERSION__ >= 0x01010000) |
|||
MOVW AX,#LOWW(__STACK_ADDR_END) |
|||
$ELSE ; for CC-RL V1.00 |
|||
MOVW AX,#LOWW(_stackend) |
|||
$ENDIF |
|||
CALL !!_stkinit |
|||
|
|||
;-------------------------------------------------- |
|||
; hardware initialization |
|||
;-------------------------------------------------- |
|||
CALL !!_hdwinit |
|||
|
|||
$IFDEF __USE_RAM_INIT_TABLE |
|||
;-------------------------------------------------- |
|||
; initializing RAM |
|||
;-------------------------------------------------- |
|||
MOVW AX,#LOWW(STARTOF(.ram_init_table)) |
|||
BR $.L5_RAM_INIT_TABLE |
|||
.L1_RAM_INIT_TABLE: |
|||
PUSH AX ;table pointer |
|||
MOVW HL,AX |
|||
MOV ES,#HIGHW(STARTOF(.ram_init_table)) |
|||
MOVW AX,ES:[HL+6] ;dst |
|||
MOVW DE,AX |
|||
MOVW AX,ES:[HL+4] ;size |
|||
ADDW AX,DE |
|||
MOVW BC,AX ;end |
|||
MOV A,ES:[HL+2] ;high(src) |
|||
CMP A,#0xF |
|||
BZ $.L3_RAM_INIT_TABLE_CLEAR |
|||
|
|||
PUSH AX |
|||
MOVW AX,ES:[HL] ;loww(src) |
|||
MOVW HL,AX |
|||
POP AX |
|||
MOV ES,A |
|||
BR $.L3_RAM_INIT_TABLE_COPY |
|||
|
|||
.L2_RAM_INIT_TABLE_COPY: |
|||
MOV A,ES:[HL] |
|||
INCW HL |
|||
MOV [DE],A |
|||
INCW DE |
|||
.L3_RAM_INIT_TABLE_COPY: |
|||
MOVW AX,DE |
|||
CMPW AX,BC |
|||
BC $.L2_RAM_INIT_TABLE_COPY |
|||
BR $.L4_RAM_INIT_TABLE |
|||
|
|||
.L2_RAM_INIT_TABLE_CLEAR: |
|||
MOV [DE],#0 |
|||
INCW DE |
|||
.L3_RAM_INIT_TABLE_CLEAR: |
|||
MOVW AX,DE |
|||
CMPW AX,BC |
|||
BC $.L2_RAM_INIT_TABLE_CLEAR |
|||
|
|||
.L4_RAM_INIT_TABLE: |
|||
POP AX ;table ponter |
|||
ADDW AX,#8 |
|||
.L5_RAM_INIT_TABLE: |
|||
CMPW AX,#LOWW(STARTOF(.ram_init_table)+SIZEOF(.ram_init_table)) |
|||
BC $.L1_RAM_INIT_TABLE |
|||
|
|||
$ELSE ; __USE_RAM_INIT_TABLE |
|||
;-------------------------------------------------- |
|||
; initializing BSS |
|||
;-------------------------------------------------- |
|||
; clear external variables which doesn't have initial value (near) |
|||
MOVW HL,#LOWW(STARTOF(.bss)) |
|||
MOVW AX,#LOWW(STARTOF(.bss) + SIZEOF(.bss)) |
|||
BR $.L2_BSS |
|||
.L1_BSS: |
|||
MOV [HL+0],#0 |
|||
INCW HL |
|||
.L2_BSS: |
|||
CMPW AX,HL |
|||
BNZ $.L1_BSS |
|||
|
|||
; clear saddr variables which doesn't have initial value |
|||
MOVW HL,#LOWW(STARTOF(.sbss)) |
|||
MOVW AX,#LOWW(STARTOF(.sbss) + SIZEOF(.sbss)) |
|||
BR $.L2_SBSS |
|||
.L1_SBSS: |
|||
MOV [HL+0],#0 |
|||
INCW HL |
|||
.L2_SBSS: |
|||
CMPW AX,HL |
|||
BNZ $.L1_SBSS |
|||
|
|||
; clear external variables which doesn't have initial value (far) |
|||
; MOV ES,#HIGHW(STARTOF(.bssf)) |
|||
; MOVW HL,#LOWW(STARTOF(.bssf)) |
|||
; MOVW AX,#LOWW(STARTOF(.bssf) + SIZEOF(.bssf)) |
|||
; BR $.L2_BSSF |
|||
;.L1_BSSF: |
|||
; MOV ES:[HL+0],#0 |
|||
; INCW HL |
|||
;.L2_BSSF: |
|||
; CMPW AX,HL |
|||
; BNZ $.L1_BSSF |
|||
|
|||
;-------------------------------------------------- |
|||
; ROM data copy |
|||
;-------------------------------------------------- |
|||
; copy external variables having initial value (near) |
|||
MOV ES,#HIGHW(STARTOF(.data)) |
|||
MOVW BC,#LOWW(SIZEOF(.data)) |
|||
BR $.L2_DATA |
|||
.L1_DATA: |
|||
DECW BC |
|||
MOV A,ES:LOWW(STARTOF(.data))[BC] |
|||
MOV LOWW(STARTOF(.dataR))[BC],A |
|||
.L2_DATA: |
|||
CLRW AX |
|||
CMPW AX,BC |
|||
BNZ $.L1_DATA |
|||
|
|||
; copy saddr variables having initial value |
|||
MOV ES,#HIGHW(STARTOF(.sdata)) |
|||
MOVW BC,#LOWW(SIZEOF(.sdata)) |
|||
BR $.L2_SDATA |
|||
.L1_SDATA: |
|||
DECW BC |
|||
MOV A,ES:LOWW(STARTOF(.sdata))[BC] |
|||
MOV LOWW(STARTOF(.sdataR))[BC],A |
|||
.L2_SDATA: |
|||
CLRW AX |
|||
CMPW AX,BC |
|||
BNZ $.L1_SDATA |
|||
|
|||
; copy external variables having initial value (far) |
|||
; MOVW BC,#LOWW(SIZEOF(.dataf)) |
|||
; BR $.L2_DATAF |
|||
;.L1_DATAF: |
|||
; DECW BC |
|||
; MOV ES,#HIGHW(STARTOF(.dataf)) |
|||
; MOV A,ES:LOWW(STARTOF(.dataf))[BC] |
|||
; MOV ES,#HIGHW(STARTOF(.datafR)) |
|||
; MOV ES:LOWW(STARTOF(.datafR))[BC],A |
|||
;.L2_DATAF: |
|||
; CLRW AX |
|||
; CMPW AX,BC |
|||
; BNZ $.L1_DATAF |
|||
|
|||
; copy .text to RAM |
|||
; MOV C,#HIGHW(STARTOF(.textf)) |
|||
; MOVW HL,#LOWW(STARTOF(.textf)) |
|||
; MOVW DE,#LOWW(STARTOF(.textfR)) |
|||
; BR $.L2_TEXT |
|||
;.L1_TEXT: |
|||
; MOV A,C |
|||
; MOV ES,A |
|||
; MOV A,ES:[HL] |
|||
; MOV [DE],A |
|||
; INCW DE |
|||
; INCW HL |
|||
; CLRW AX |
|||
; CMPW AX,HL |
|||
; SKNZ |
|||
; INC C |
|||
;.L2_TEXT: |
|||
; MOVW AX,HL |
|||
; CMPW AX,#LOWW(STARTOF(.text) + SIZEOF(.text)) |
|||
; BNZ $.L1_TEXT |
|||
|
|||
$ENDIF ; __USE_RAM_INIT_TABLE |
|||
|
|||
;-------------------------------------------------- |
|||
; call global constructor (_peace_global_ctor_0) |
|||
;-------------------------------------------------- |
|||
MOVW BC,#LOWW(SIZEOF(.init_array)) |
|||
BR $.L2_INIT |
|||
.L1_INIT: |
|||
DECW BC |
|||
DECW BC |
|||
MOV ES,#HIGHW(STARTOF(.init_array)) |
|||
MOVW AX,ES:LOWW(STARTOF(.init_array))[BC] |
|||
MOV CS,#0x00 |
|||
PUSH BC |
|||
CALL AX |
|||
POP BC |
|||
.L2_INIT: |
|||
CLRW AX |
|||
CMPW AX,BC |
|||
BNZ $.L1_INIT |
|||
|
|||
;-------------------------------------------------- |
|||
; call main function |
|||
;-------------------------------------------------- |
|||
CALL !!_main ; main(); |
|||
|
|||
;-------------------------------------------------- |
|||
; call exit function |
|||
;-------------------------------------------------- |
|||
CLRW AX ; exit(0) |
|||
_exit: |
|||
BR $_exit |
|||
|
|||
;----------------------------------------------------------------------------- |
|||
; atexit (only ret) |
|||
;----------------------------------------------------------------------------- |
|||
_atexit: |
|||
RET |
|||
|
|||
;----------------------------------------------------------------------------- |
|||
; section |
|||
;----------------------------------------------------------------------------- |
|||
$IF (__RENESAS_VERSION__ >= 0x01010000) |
|||
.SECTION .RLIB, TEXTF |
|||
.L_section_RLIB: |
|||
.SECTION .SLIB, TEXTF |
|||
.L_section_SLIB: |
|||
$ENDIF |
|||
.SECTION .textf, TEXTF |
|||
.L_section_textf: |
|||
.SECTION .const, CONST |
|||
.L_section_const: |
|||
.SECTION .constf, CONSTF |
|||
.L_section_constf: |
|||
.SECTION .data, DATA |
|||
.L_section_data: |
|||
;.SECTION .dataf, DATAF |
|||
;.L_section_dataf: |
|||
.SECTION .sdata, SDATA |
|||
.L_section_sdata: |
|||
.SECTION .bss, BSS |
|||
.L_section_bss: |
|||
;.SECTION .bssf, BSSF |
|||
;.L_section_bssf: |
|||
.SECTION .sbss, SBSS |
|||
.L_section_sbss: |
|||
.SECTION .init_array, CONSTF |
|||
.L_section_init_array: |
|||
@ -0,0 +1,86 @@ |
|||
#include "delay.h" |
|||
|
|||
|
|||
/**
|
|||
* 함수명: delay |
|||
* 목적: 단순 루프를 이용한 지연(delay) 함수 |
|||
* |
|||
* 매개변수: |
|||
* - d : 지연 카운트 값. 값이 클수록 지연 시간이 길어짐 |
|||
* |
|||
* 동작 방식: |
|||
* - while(d--) 루프를 반복하면서 CPU를 바쁘게 사용 |
|||
* - 외부 타이머나 정확한 시간 기준은 없음 |
|||
* - 단순히 CPU 사이클을 소비하여 지연 발생 |
|||
* |
|||
* 주의사항: |
|||
* - CPU 클럭에 따라 지연 시간이 달라짐 |
|||
* - 정밀한 시간 지연이 필요하면 하드웨어 타이머 사용 권장 |
|||
*/ |
|||
void delay(long d){ |
|||
while(d--); |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: delay_us |
|||
* 목적: 마이크로초(us) 단위의 지연(delay) 함수 |
|||
* |
|||
* 매개변수: |
|||
* - us : 지연 시간 (마이크로초 단위) |
|||
* |
|||
* 동작 방식: |
|||
* 1. 입력된 us 값에 따라 반복 횟수 count 계산 |
|||
* - us <= 150 : count = (us * 100 + 50) / 100 |
|||
* - us > 150 : count = (us * 106 + 50) / 100 |
|||
* - 소수점 올림 효과를 위해 +50 추가 |
|||
* 2. for 루프를 count만큼 반복하면서 __nop() 수행 |
|||
* - __nop()는 "No Operation" 명령어로, CPU 사이클만 소비 |
|||
* 3. 루프 종료 후 지정된 시간만큼 지연 |
|||
* |
|||
* 주의사항: |
|||
* - CPU 클럭 속도에 따라 실제 지연 시간은 달라질 수 있음 |
|||
* - 매우 정밀한 시간 지연이 필요하면 타이머 기반 지연 권장 |
|||
*/ |
|||
void delay_us(volatile uint32_t us) |
|||
{ |
|||
volatile uint32_t i; |
|||
volatile uint32_t count; |
|||
|
|||
if (us <= 150) { |
|||
count = (us * 100 + 50) / 100; // 소수점 올림 효과를 위해 +50 추가
|
|||
} else { |
|||
count = (us * 106 + 50) / 100; |
|||
} |
|||
|
|||
for (i = 0; i < count; i++) { |
|||
__nop(); |
|||
} |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: delay_ms |
|||
* 목적: 밀리초(ms) 단위의 지연(delay) 함수 |
|||
* |
|||
* 매개변수: |
|||
* - ms : 지연 시간 (밀리초 단위) |
|||
* |
|||
* 동작 방식: |
|||
* 1. 외부 for 루프(i)는 ms만큼 반복 |
|||
* 2. 내부 for 루프(j)는 0~799까지 반복 |
|||
* - 내부 루프 반복 횟수 800은 CPU 클럭 속도에 따라 조정 필요 |
|||
* - 반복 동안 아무 작업도 하지 않고 CPU 사이클 소모 |
|||
* 3. 두 루프가 모두 끝나면 지정된 시간만큼 대략 지연 완료 |
|||
* |
|||
* 주의사항: |
|||
* - 정확한 시간 지연은 보장되지 않음 (CPU 클럭, 최적화 레벨 등 영향) |
|||
* - 매우 정밀한 지연이 필요하면 타이머 기반 지연 권장 |
|||
* - delay_ms와 delay_us를 혼합해 사용할 수 있음 |
|||
*/ |
|||
void delay_ms(unsigned int ms) |
|||
{ |
|||
volatile unsigned int i, j; |
|||
for (i = 0; i < ms; i++) |
|||
for (j = 0; j < 800; j++); // 내부 루프 조정 필요 (클럭에 따라 조정)
|
|||
} |
|||
@ -0,0 +1,5 @@ |
|||
#include "r_cg_macrodriver.h" |
|||
|
|||
void delay(long d); |
|||
void delay_ms(unsigned int ms); |
|||
void delay_us(volatile uint32_t us); |
|||
@ -0,0 +1,35 @@ |
|||
#include "dipSwitch.h" |
|||
|
|||
/*
|
|||
* 회로도 기준: |
|||
* ADD_1..ADD_5 = P8.1..P8.5 |
|||
* Pull-up to VCC5, DIP ON -> GND(LOW) => Active-Low |
|||
*/ |
|||
#define DIP_PORT P8 |
|||
#define DIP_PM PM8 |
|||
#define DIP_MASK (0x3Eu) // b0011_1110 = P8.1~P8.5
|
|||
#define DIP_SHIFT (1u) // P8.1이 bit0로 오도록
|
|||
|
|||
void DipSwitch_Init(void) |
|||
{ |
|||
// 입력 설정: PM bit=1 => input
|
|||
DIP_PM |= DIP_MASK; |
|||
} |
|||
|
|||
uint8_t DipSwitch_ReadValue_0to31(void) |
|||
{ |
|||
uint8_t raw = (uint8_t)(DIP_PORT & DIP_MASK); |
|||
|
|||
// Active-Low이므로 반전 후, 마스크 적용
|
|||
uint8_t v = (uint8_t)((~raw) & DIP_MASK); |
|||
|
|||
// P8.1~P8.5 -> bit0~bit4
|
|||
v = (uint8_t)(v >> DIP_SHIFT); |
|||
|
|||
return (uint8_t)(v & 0x1Fu); // 0~31
|
|||
} |
|||
|
|||
uint8_t DipSwitch_ReadAddr_1to32(void) |
|||
{ |
|||
return (uint8_t)(DipSwitch_ReadValue_0to31() + 1u); // 1~32
|
|||
} |
|||
@ -0,0 +1,33 @@ |
|||
#ifndef DIPSWITCH_H |
|||
#define DIPSWITCH_H |
|||
|
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_port.h" // P8, PM8 사용 |
|||
|
|||
#ifdef __cplusplus |
|||
extern "C" { |
|||
#endif |
|||
|
|||
/**
|
|||
* DIP Switch 초기화 (입력 설정) |
|||
*/ |
|||
void DipSwitch_Init(void); |
|||
|
|||
/**
|
|||
* DIP Switch(5bit)를 읽어 주소(1~32)로 변환해 반환 |
|||
* - 회로: Pull-up, DIP ON -> GND (Active-Low) |
|||
* - 핀: P8.1~P8.5 (ADD_1~ADD_5) |
|||
*/ |
|||
uint8_t DipSwitch_ReadAddr_1to32(void); |
|||
|
|||
/**
|
|||
* (옵션) 디버그용: DIP 5bit(0~31) 그대로 반환 |
|||
* - ADD_1이 LSB |
|||
*/ |
|||
uint8_t DipSwitch_ReadValue_0to31(void); |
|||
|
|||
#ifdef __cplusplus |
|||
} |
|||
#endif |
|||
|
|||
#endif /* DIPSWITCH_H */ |
|||
@ -0,0 +1,35 @@ |
|||
;/********************************************************************************************************************** |
|||
; * DISCLAIMER |
|||
; * This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. No |
|||
; * other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
; * applicable laws, including copyright laws. |
|||
; * THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING |
|||
; * THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, |
|||
; * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED. TO THE MAXIMUM |
|||
; * EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES |
|||
; * SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO |
|||
; * THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
; * Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability of |
|||
; * this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
; * following link: |
|||
; * http://www.renesas.com/disclaimer |
|||
; * |
|||
; * Copyright (C) 2020 Renesas Electronics Corporation. All rights reserved. |
|||
; *********************************************************************************************************************/;--------------------------------------------------------------------- |
|||
; _hdwinit |
|||
; |
|||
; void _hdwinit(void); |
|||
; |
|||
; input: |
|||
; NONE |
|||
; output: |
|||
; NONE |
|||
;--------------------------------------------------------------------- |
|||
|
|||
; NOTE : THIS IS A TYPICAL EXAMPLE. |
|||
|
|||
.PUBLIC _hdwinit |
|||
|
|||
.textf .CSEG TEXTF |
|||
_hdwinit: |
|||
RET |
|||
@ -0,0 +1,487 @@ |
|||
#include "i2c.h" |
|||
#include "delay.h" |
|||
#include "uart.h" |
|||
#include <string.h> |
|||
|
|||
uint8_t g_i2c_last_command[3] = {0}; |
|||
uint8_t g_i2c_command_valid = 0; |
|||
|
|||
|
|||
/**
|
|||
* 함수명: disable |
|||
* 목적: I2C 장치에 비활성화(disable) 명령을 전송 |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 전송할 데이터 준비 |
|||
* - dis 배열에 {0x01, 0x02} 값 저장 |
|||
* |
|||
* 2) I2C 송신 |
|||
* - R_IICA0_Master_Send() 호출하여 슬레이브 주소로 데이터 전송 |
|||
* - 전송 성공 시 다음 단계로 진행 |
|||
* - 전송 실패 시 UART로 "I2C Send Failed" 메시지 출력 후 함수 종료 |
|||
* |
|||
* 참고: |
|||
* - SLAVE_ADDR는 전송 대상 I2C 장치 주소 |
|||
* - sizeof(dis)를 통해 전송할 데이터 길이 자동 계산 |
|||
* - 전송 타임아웃은 100ms |
|||
*/ |
|||
void disable(void){ |
|||
static uint8_t dis[] = {0x01, 0x02}; |
|||
//static uint8_t tx[] = {0xT0, 0x00, 0x00};
|
|||
|
|||
// I2C 마스터 송신
|
|||
if (R_IICA0_Master_Send(SLAVE_ADDR << 1, dis, sizeof(dis), 100) != MD_OK) |
|||
{ |
|||
uart_send_string("I2C Send Failed\r\n"); |
|||
return; |
|||
} |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_EnablePower |
|||
* 목적: I2C 장치 전원을 켠다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) P7 레지스터의 특정 비트를 설정하여 전원 출력 HIGH 상태로 변경 |
|||
* - _02_Pn1_OUTPUT_1 : P7 포트의 1번 핀을 출력 모드로 HIGH 설정 |
|||
* |
|||
* 참고: |
|||
* - I2C 장치 전원 공급용 핀을 제어 |
|||
* - 출력 HIGH 상태로 전원이 켜짐 |
|||
*/ |
|||
void I2C_EnablePower(void) { |
|||
P7 = _02_Pn1_OUTPUT_1; |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_DisablePower |
|||
* 목적: I2C 장치 전원을 끈다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) P7 레지스터의 특정 비트를 클리어하여 전원 출력 LOW 상태로 변경 |
|||
* - _00_Pn1_OUTPUT_0 : P7 포트의 1번 핀을 출력 모드로 LOW 설정 |
|||
* |
|||
* 참고: |
|||
* - I2C 장치 전원 공급용 핀을 제어 |
|||
* - 출력 LOW 상태로 전원이 꺼짐 |
|||
*/ |
|||
void I2C_DisablePower(void) { |
|||
P7 = _00_Pn1_OUTPUT_0; |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_A_Command_Mode_receiveData |
|||
* 목적: I2C 장치에서 ADC 데이터와 명령 리스트를 읽고, |
|||
* 최종적으로 UART로 데이터를 전송한다. |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : 사용자 명령(UserCmd) 데이터 배열 |
|||
* - tx_len : 사용자 명령 데이터 길이 |
|||
* - id : I2C 슬레이브 장치 주소 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) ADC 읽기 |
|||
* - ADC_ReadAndSend_UART() 호출로 4채널 ADC 값을 읽음 |
|||
* - 읽은 값이 4개가 아니면 오류 메시지 UART 출력 후 종료 |
|||
* - TOP, BRP, BRN, BRP-BRN, BOT 값 순서대로 UART 문자열 구성 |
|||
* |
|||
* 2) CMD_LIST 순서대로 I2C 읽기 |
|||
* - CMD_LIST는 장치 내부 명령 6개 정의 |
|||
* - R_IICA0_Master_Send()로 명령 전송 |
|||
* - R_IICA0_Master_Receive()로 응답 읽음 |
|||
* - 읽은 값(rx[1], rx[2])을 UART 문자열에 추가 |
|||
* |
|||
* 3) 사용자 CMD 처리 |
|||
* - tx_data와 tx_len이 유효하면 해당 데이터를 I2C 장치로 전송 |
|||
* - 응답을 rx 배열로 읽고 UART 문자열에 추가 |
|||
* - 없으면 "0000"으로 표시 |
|||
* |
|||
* 4) 최종 출력 |
|||
* - 완성된 문자열(line)을 UART로 전송 |
|||
* - 각 단계마다 적절한 delay로 통신 안정성 확보 |
|||
* |
|||
* 참고: |
|||
* - RAM_BYTES는 I2C 응답 버퍼 크기 |
|||
* - UART 출력은 ","로 각 값 구분 후, 마지막에 CRLF 추가 |
|||
* - ADC와 I2C 읽기 순서가 고정되어 있어 코드만 봐도 데이터 처리 흐름 이해 가능 |
|||
*/ |
|||
void I2C_A_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ) |
|||
{ |
|||
uint8_t CMD_LIST[6][3] = { |
|||
{0x2E, 0x00, 0x00}, // BR
|
|||
{0x2E, 0x01, 0x00}, // BR_AZ
|
|||
{0x2E, 0x02, 0x00}, // T_RAW
|
|||
{0x2E, 0x16, 0x00}, // Y_data
|
|||
{0x2E, 0x41, 0x00}, // BR_AOUT
|
|||
{0x2E, 0x40, 0x00} |
|||
}; |
|||
|
|||
char line[128]; |
|||
size_t n = 0; |
|||
uint8_t rx[RAM_BYTES] = {0}; |
|||
int j; |
|||
|
|||
// 1) ADC 읽기 (4채널)
|
|||
ADC_ReadAndSend_UART(); |
|||
if (g_adc_len != 4) { // TOP, BRP, BRN, BOT만 읽음
|
|||
uart_send_string("Err:adc_count\r\n"); |
|||
return; |
|||
} |
|||
|
|||
// 2) UART 문자열 구성 (5개 값)
|
|||
for (j = 0; j < 5; j++) { |
|||
float v = 0.0f; |
|||
|
|||
switch (j) { |
|||
case 0: // 1번: TOP
|
|||
v = g_adc_bytes[0]; |
|||
break; |
|||
case 1: // 2번: BRP
|
|||
v = g_adc_bytes[1]; |
|||
break; |
|||
case 2: // 3번: BRN
|
|||
v = g_adc_bytes[2]; |
|||
break; |
|||
case 3: // 4번: BRP - BRN
|
|||
v = g_adc_bytes[1] - g_adc_bytes[2]; |
|||
break; |
|||
case 4: // 5번: BOT
|
|||
v = g_adc_bytes[3]; |
|||
break; |
|||
} |
|||
|
|||
n += sprintf(&line[n], "%.2f", v); |
|||
|
|||
|
|||
line[n++] = ','; |
|||
|
|||
} |
|||
|
|||
|
|||
delay(100000); |
|||
|
|||
|
|||
// 2) CMD_LIST 순서대로 I2C 읽기
|
|||
for (j = 0; j < 6; j++) { |
|||
if (R_IICA0_Master_Send((id << 1), CMD_LIST[j], 3, 100) != MD_OK) { |
|||
uart_send_string("I2C Send Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(10000); |
|||
|
|||
if (R_IICA0_Master_Receive((id << 1), rx, RAM_BYTES, 100) != MD_OK) { |
|||
uart_send_string("I2C Receive Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(10000); |
|||
|
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
|
|||
// 마지막 CMD 뒤에는 쉼표 붙이지 않음
|
|||
if (j < 5) { |
|||
line[n++] = ','; |
|||
} |
|||
} |
|||
|
|||
// 3) UserCmd 처리
|
|||
line[n++] = ','; // UserCmd 앞 쉼표
|
|||
if (tx_data != NULL && tx_len > 0) { |
|||
if (R_IICA0_Master_Send((id << 1), tx_data, tx_len, 100) != MD_OK) { |
|||
uart_send_string("I2C UserCmd Send Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(100000); |
|||
|
|||
if (R_IICA0_Master_Receive((id << 1), rx, RAM_BYTES, 100) != MD_OK) { |
|||
uart_send_string("I2C UserCmd Receive Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(10000); |
|||
|
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
} else { |
|||
n += sprintf(&line[n], "0000"); |
|||
} |
|||
|
|||
// 마지막에 CRLF
|
|||
line[n++] = '\r'; |
|||
line[n++] = '\n'; |
|||
line[n] = '\0'; |
|||
|
|||
uart_send_string(line); |
|||
delay(10000); |
|||
|
|||
} |
|||
|
|||
/**
|
|||
* 함수명: I2C_Diagnostic |
|||
* 목적: I2C 장치의 진단용 데이터를 읽어 UART로 출력 |
|||
* |
|||
* 매개변수: |
|||
* - id : I2C 슬레이브 장치 주소 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) CMD_LIST 정의 |
|||
* - 장치에서 읽어야 하는 10개의 진단 명령 |
|||
* - 각 명령은 3바이트: {명령 코드, 파라미터1, 파라미터2} |
|||
* |
|||
* 2) CMD_LIST 순서대로 I2C 통신 수행 |
|||
* - R_IICA0_Master_Send()로 명령 전송 |
|||
* - R_IICA0_Master_Receive()로 응답 읽기 |
|||
* - 읽은 데이터(rx[1], rx[2])를 UART 문자열(line)에 추가 |
|||
* - 마지막 CMD 뒤에는 쉼표 생략 |
|||
* - 각 전송/수신 후 delay로 통신 안정성 확보 |
|||
* |
|||
* 3) UART 출력 |
|||
* - 완성된 문자열(line)을 UART로 전송 |
|||
* - 마지막에 CRLF 추가 |
|||
* |
|||
* 참고: |
|||
* - RAM_BYTES는 I2C 응답 버퍼 크기 |
|||
* - UART 출력 문자열은 각 CMD별 2바이트씩 HEX로 표시 |
|||
* - 함수는 I2C 장치 상태 확인용 진단 루틴으로 사용 |
|||
*/ |
|||
void I2C_Diagnostic(uint8_t id ) |
|||
{ |
|||
uint8_t CMD_LIST[10][3] = { |
|||
{0x2E, 0x01, 0x00}, // BR
|
|||
{0x2E, 0x00, 0x00}, // BR_AZ
|
|||
{0x2E, 0x02, 0x00}, // T_RAW
|
|||
{0x2E, 0x03, 0x00}, // Y_data
|
|||
{0x2E, 0x21, 0x00}, // BR_AOUT
|
|||
{0x2E, 0x40, 0x00}, |
|||
{0x2E, 0x05, 0x00}, |
|||
{0x2E, 0x07, 0x00}, |
|||
{0x2E, 0x19, 0x00}, |
|||
{0x2E, 0x0B, 0x00} |
|||
}; |
|||
|
|||
char line[128]; |
|||
size_t n = 0; |
|||
uint8_t rx[RAM_BYTES] = {0}; |
|||
int j; |
|||
|
|||
|
|||
|
|||
// 2) CMD_LIST 순서대로 I2C 읽기
|
|||
for (j = 0; j < 10; j++) { |
|||
if (R_IICA0_Master_Send((id << 1), CMD_LIST[j], 3, 100) != MD_OK) { |
|||
uart_send_string("I2C Send Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(10000); |
|||
|
|||
if (R_IICA0_Master_Receive((id << 1), rx, RAM_BYTES, 100) != MD_OK) { |
|||
uart_send_string("I2C Receive Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(10000); |
|||
|
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
|
|||
// 마지막 CMD 뒤에는 쉼표 붙이지 않음
|
|||
if (j < 9) { |
|||
line[n++] = ','; |
|||
} |
|||
} |
|||
|
|||
|
|||
|
|||
// 마지막에 CRLF
|
|||
line[n++] = '\r'; |
|||
line[n++] = '\n'; |
|||
line[n] = '\0'; |
|||
|
|||
uart_send_string(line); |
|||
delay(10000); |
|||
|
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_T_Command_Mode_receiveData |
|||
* 목적: I2C 장치에 명령(tx_data) 전송 후, 상태를 UART로 출력 |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : I2C로 전송할 데이터 버퍼 |
|||
* - tx_len : 전송할 데이터 길이 (바이트) |
|||
* - id : I2C 슬레이브 장치 주소 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) I2C 하드웨어 초기화 |
|||
* - R_IICA0_Create()를 호출하여 I2C 모듈 초기화 |
|||
* - I2C 장치에 전원 공급 (I2C_EnablePower()) |
|||
* - 전원 안정화를 위해 약간의 delay(1초) |
|||
* |
|||
* 2) I2C 명령 전송 |
|||
* - R_IICA0_Master_Send()로 장치에 tx_data 전송 |
|||
* - 전송 실패 시 UART로 "I2C Send Failed" 출력하고 함수 종료 |
|||
* |
|||
* 3) UART 출력 |
|||
* - 전송 성공 여부와 상관없이 "51" 문자열을 UART로 출력 |
|||
* |
|||
* 참고: |
|||
* - 이 함수는 읽기(read) 기능 없이 명령 전송만 수행 |
|||
* - UART 출력 "51"은 전송 완료 신호/디버깅용 |
|||
*/ |
|||
void I2C_T_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ) |
|||
{ |
|||
char uart_buf[16]; |
|||
int j; |
|||
uint8_t rx[3] = {0}; |
|||
|
|||
R_IICA0_Create(); |
|||
I2C_EnablePower(); |
|||
delay(1000000); |
|||
|
|||
if (R_IICA0_Master_Send((id << 1), tx_data, tx_len, 100) != MD_OK) |
|||
{ |
|||
uart_send_string("I2C Send Failed\r\n"); |
|||
return; |
|||
} |
|||
|
|||
|
|||
uart_send_string("51\r\n"); |
|||
|
|||
|
|||
|
|||
|
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_Command_Mode_receiveData |
|||
* 목적: I2C 장치에 명령(tx_data)을 전송하고, 상태를 UART로 출력 |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : I2C로 전송할 데이터 버퍼 |
|||
* - tx_len : 전송할 데이터 길이 (바이트) |
|||
* - id : I2C 슬레이브 장치 주소 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) I2C 명령 전송 |
|||
* - R_IICA0_Master_Send()로 지정한 슬레이브(id)에 tx_data 전송 |
|||
* - 전송 실패 시 UART로 "I2C Send Failed" 출력 후 함수 종료 |
|||
* |
|||
* 2) UART 출력 |
|||
* - 전송 성공 시 "51" 문자열을 UART로 전송 |
|||
* - 디버깅 또는 전송 완료 신호용 |
|||
* |
|||
* 참고: |
|||
* - 읽기 기능 없이 명령 전송만 수행 |
|||
* - I2C 전원 제어나 초기화는 포함되어 있지 않음 |
|||
*/ |
|||
void I2C_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ) |
|||
{ |
|||
char uart_buf[16]; |
|||
int j; |
|||
uint8_t rx[3] = {0}; |
|||
|
|||
if (R_IICA0_Master_Send((id << 1), tx_data, tx_len, 100) != MD_OK) |
|||
{ |
|||
uart_send_string("I2C Send Failed\r\n"); |
|||
return; |
|||
} |
|||
|
|||
uart_send_string("51\r\n"); |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: I2C_Command_Mode_Send |
|||
* 목적: I2C 슬레이브 장치로부터 데이터를 읽고, UART로 출력 |
|||
* |
|||
* 매개변수: |
|||
* - tx_len : 읽을 데이터 길이 (바이트) |
|||
* - id : I2C 슬레이브 장치 주소 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) I2C 데이터 수신 |
|||
* - R_IICA0_Master_Receive()를 사용하여 지정된 슬레이브(id)로부터 tx_len 바이트 읽기 |
|||
* - 실패 시 UART로 "I2C Receive Failed" 출력 후 함수 종료 |
|||
* |
|||
* 2) UART 출력 |
|||
* - 첫 번째 바이트는 "%02X " 형식으로 바로 출력 |
|||
* - 그 다음 바이트들은 2바이트씩 묶어서 "%02X%02X " 형식으로 출력 |
|||
* - 마지막에 남은 1바이트는 단독으로 "%02X" 출력 |
|||
* - 모든 출력 후 줄바꿈("\r\n") 추가 |
|||
* |
|||
* 3) delay |
|||
* - 각 출력 사이에 delay를 넣어 UART 전송 안정화 |
|||
* |
|||
* 참고: |
|||
* - I2C 전원 제어나 초기화는 포함되어 있지 않음 |
|||
* - 출력 포맷은 디버깅 또는 로그용 |
|||
*/ |
|||
void I2C_Command_Mode_Send(uint8_t tx_len, uint8_t id) |
|||
{ |
|||
char uart_buf[16]; |
|||
char tmp_buf[8]; |
|||
int i,j; |
|||
uint8_t rx[600]; |
|||
uint8_t va0, va1; |
|||
uint8_t status = 0x00; |
|||
int tries = 0; |
|||
|
|||
/* ★추가: 버퍼 초기화 (기존 로직/출력 형식 유지) */ |
|||
memset(uart_buf, 0, sizeof(uart_buf)); |
|||
memset(tmp_buf, 0, sizeof(tmp_buf)); |
|||
memset(rx, 0x00, sizeof(rx)); // 가드 패턴(0x00으로 해도 무방)
|
|||
|
|||
if (R_IICA0_Master_Receive((id << 1), rx, (uint8_t)(tx_len), 1000) != MD_OK) { |
|||
uart_send_string("I2C Receive Failed\r\n"); |
|||
return; |
|||
} |
|||
delay(1000000); |
|||
|
|||
sprintf(uart_buf, "%02X ", rx[0]); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(uart_buf); |
|||
delay(10000); |
|||
|
|||
for (i = 1; i < (tx_len); i += 2) { |
|||
va0 = rx[i]; |
|||
if (i + 1 < (tx_len)) { |
|||
va1 = rx[i + 1]; |
|||
delay(10000); |
|||
sprintf(uart_buf, "%02X%02X ", va0, va1); |
|||
uart_send_string(uart_buf); |
|||
delay(10000); |
|||
} else { |
|||
delay(10000); |
|||
sprintf(uart_buf, "%02X", va0); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(uart_buf); |
|||
delay(10000); |
|||
} |
|||
} |
|||
uart_send_string("\r\n"); |
|||
} |
|||
|
|||
@ -0,0 +1,30 @@ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_serial.h" |
|||
#include "r_cg_port.h" |
|||
#include "uart.h" |
|||
|
|||
#define SLAVE_ADDR 0x28 |
|||
|
|||
#define RAM_BYTES 12 |
|||
extern volatile uint8_t i2c_tx_done; |
|||
extern volatile uint8_t i2c_rx_done; |
|||
|
|||
void I2C_EnablePower(void); |
|||
void I2C_DisablePower(void); |
|||
void I2C_Command_Mode(void); |
|||
//void I2C_read_nvm(void);
|
|||
void I2C_T_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ); |
|||
void I2C_A_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ); |
|||
void I2C_Command_Mode_receiveData(const uint8_t *tx_data, uint8_t tx_len,uint8_t id ); |
|||
void I2C_Command_Mode_Send(uint8_t tx_len, uint8_t id); |
|||
void I2C_Diagnostic(uint8_t id); |
|||
|
|||
void disable(void); |
|||
|
|||
void i2c_enter_nomal_mode(void); |
|||
void i2c_read_ram_out0(void); |
|||
void i2c_read_ram_out1(void); |
|||
void i2c_read_all_ram(void); |
|||
void i2c_read_all_nvm(void); |
|||
void i2c_write_all_nvm(void); |
|||
void i2c_nvm_data(void); |
|||
File diff suppressed because it is too large
@ -0,0 +1,35 @@ |
|||
/**********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. No |
|||
* other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING |
|||
* THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, |
|||
* FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED. TO THE MAXIMUM |
|||
* EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES |
|||
* SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO |
|||
* THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability of |
|||
* this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2020-2022 Renesas Electronics Corporation. All rights reserved. |
|||
*********************************************************************************************************************/ |
|||
/***********************************************************************/ |
|||
/* */ |
|||
/* FILE :Main.c or Main.cpp */ |
|||
/* DATE : */ |
|||
/* DESCRIPTION :Main Program */ |
|||
/* CPU TYPE : */ |
|||
/* */ |
|||
/* NOTE:THIS IS A TYPICAL EXAMPLE. */ |
|||
/* */ |
|||
/***********************************************************************/ |
|||
|
|||
void main(void); |
|||
|
|||
void main(void) |
|||
{ |
|||
|
|||
} |
|||
File diff suppressed because one or more lines are too long
File diff suppressed because one or more lines are too long
File diff suppressed because it is too large
File diff suppressed because it is too large
File diff suppressed because one or more lines are too long
@ -0,0 +1,886 @@ |
|||
#include "owi.h" |
|||
#include "delay.h" |
|||
#include <string.h> |
|||
#include "uart.h" |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_EnablePower |
|||
* 목적: 1-Wire 장치의 전원을 켠다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* - MCU 포트 P7의 1번 핀(P7.1)을 출력 모드로 설정하고 논리 HIGH(_02_Pn1_OUTPUT_1)로 설정하여 |
|||
* 1-Wire 장치에 전원을 공급한다. |
|||
*/ |
|||
void OWI_EnablePower(void) { |
|||
P7 = _02_Pn1_OUTPUT_1; |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_DisablePower |
|||
* 목적: 1-Wire 장치의 전원을 끈다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* - MCU 포트 P7의 1번 핀(P7.1)을 출력 모드로 설정하고 논리 LOW(_00_Pn1_OUTPUT_0)로 설정하여 |
|||
* 1-Wire 장치에 공급되는 전원을 차단한다. |
|||
*/ |
|||
void OWI_DisablePower(void) { |
|||
P7 = _00_Pn1_OUTPUT_0; |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: GPIO_Clear |
|||
* 목적: 1-Wire 통신에 사용하는 GPIO(P70)를 초기화하고 Low 상태로 설정한다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* - OWI_PORT_P 레지스터에서 해당 핀(OWI_PIN_MASK) 비트를 0으로 설정하여 P70을 Low로 만든다. |
|||
* - OWI_PORT_PM 레지스터에서 해당 핀 비트를 0으로 설정하여 P70을 출력 모드로 설정한다. |
|||
* - 결과적으로 P70 핀은 출력 모드로 Low 상태가 된다. |
|||
*/ |
|||
void GPIO_Clear(void) { |
|||
OWI_PORT_P &= ~OWI_PIN_MASK; // P70 = 0 (Low)
|
|||
OWI_PORT_PM &= ~OWI_PIN_MASK; // P70 출력 모드
|
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: GPIO_Input |
|||
* 목적: 1-Wire 통신에 사용하는 GPIO(P70)를 입력 모드로 설정한다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* - OWI_PORT_PM 레지스터에서 해당 핀(OWI_PIN_MASK) 비트를 1로 설정하여 P70을 입력 모드(High-Z)로 만든다. |
|||
* - 출력 신호를 끄고 외부 장치로부터 신호를 읽을 준비를 한다. |
|||
*/ |
|||
void GPIO_Input(void) { |
|||
OWI_PORT_PM |= OWI_PIN_MASK; // P70 입력 모드 (High-Z)
|
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: GPIO_Read |
|||
* 목적: 1-Wire 통신에 사용하는 GPIO(P70)의 현재 상태를 읽는다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: |
|||
* - 1 : P70 핀이 High 상태일 때 |
|||
* - 0 : P70 핀이 Low 상태일 때 |
|||
* |
|||
* 동작 방식: |
|||
* - OWI_PORT_P 레지스터에서 해당 핀(OWI_PIN_MASK) 비트를 확인한다. |
|||
* - 비트가 1이면 High, 0이면 Low로 판단하여 정수값으로 반환한다. |
|||
* - 외부 장치에서 보내는 신호를 읽거나, 현재 GPIO 상태를 확인할 때 사용된다. |
|||
*/ |
|||
int GPIO_Read(void) { |
|||
return (OWI_PORT_P & OWI_PIN_MASK) ? 1 : 0; |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_Init |
|||
* 목적: 1-Wire 통신을 시작하기 위해 GPIO 및 통신 속도를 초기화한다. |
|||
* |
|||
* 매개변수: |
|||
* - bit_time_us : 1비트 전송에 걸리는 시간(마이크로초 단위) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. bit_period_us 전역 변수에 비트 전송 시간을 저장. |
|||
* 2. OWI_PORT_POM 레지스터에서 해당 핀(OWI_PIN_MASK)을 Open-drain(n-channel) 모드로 설정. |
|||
* 3. OWI_PORT_PU 레지스터에서 해당 핀의 내부 풀업 저항 활성화. |
|||
* 4. 초기 상태에서 GPIO를 입력 모드로 설정하여 외부 신호를 기다리는 상태로 대기. |
|||
* |
|||
*/ |
|||
void OWI_Init(uint32_t bit_time_us) { |
|||
bit_period_us = bit_time_us; |
|||
|
|||
OWI_PORT_POM |= OWI_PIN_MASK; // Open-drain (n-channel)
|
|||
OWI_PORT_PU |= OWI_PIN_MASK; // 내부 풀업 활성화
|
|||
|
|||
|
|||
GPIO_Input(); // 초기엔 입력으로 대기
|
|||
} |
|||
|
|||
|
|||
// ----------------------------------------
|
|||
// OWI Start/Stop/Secure
|
|||
// ----------------------------------------
|
|||
|
|||
/**
|
|||
* 함수명: OWI_Start |
|||
* 목적: 1-Wire 통신에서 Start 신호를 발생시켜 통신을 시작한다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. GPIO_Clear() 호출: P70 핀을 Low 상태로 설정하여 Start 신호를 준비. |
|||
* 2. delay_us(TSTART_HOLD): Start 신호를 일정 시간 유지. |
|||
* 3. GPIO_Input() 호출: 핀을 입력 모드(High-Z)로 전환하여 외부 장치가 반응하도록 대기. |
|||
* 4. delay_us(TBIT / 2): 반비트 시간만큼 대기하여 1-Wire 타이밍 맞춤. |
|||
* |
|||
*/ |
|||
void OWI_Start(void) |
|||
{ |
|||
GPIO_Clear(); |
|||
delay_us(TSTART_HOLD); |
|||
GPIO_Input(); |
|||
delay_us(TBIT / 2); |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_Stop |
|||
* 목적: 1-Wire 통신을 종료하고 통신 라인을 정리한다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. GPIO_Input() 호출: 핀을 입력 모드(High-Z)로 설정하여 초기 상태로 대기. |
|||
* 2. delay_us(TSTOP_LOW): Stop 조건을 만족시키기 위해 일정 시간 대기. |
|||
* 3. delay_us(TIDLE): 통신 라인을 안정화시키기 위해 추가 지연. |
|||
* 4. GPIO_Clear() 호출: 핀을 Low로 초기화하여 다음 통신 준비. |
|||
* |
|||
*/ |
|||
void OWI_Stop(void) |
|||
{ |
|||
GPIO_Input(); |
|||
delay_us(TSTOP_LOW); |
|||
delay_us(TIDLE); |
|||
GPIO_Clear(); |
|||
} |
|||
|
|||
|
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_SecureStop |
|||
* 목적: 1-Wire 통신 종료 시 라인을 안전하게 토글하여 슬레이브가 확실히 종료 상태를 인식하도록 한다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. GPIO_Clear() 호출 후 SECURE_HIGH 시간만큼 지연: 라인을 Low 상태로 초기화. |
|||
* 2. SECURE_TOGGLE_COUNT만큼 반복: |
|||
* - GPIO_Input()로 라인을 High-Z 상태로 설정 후 SECURE_TOGGLE_HIGH 시간 대기. |
|||
* - GPIO_Clear()로 라인을 Low 상태로 설정 후 SECURE_TOGGLE_LOW 시간 대기. |
|||
* - 이 과정을 통해 슬레이브가 안전하게 라인 종료를 감지. |
|||
* 3. GPIO_Input() → SECURE_HIGH 지연 → GPIO_Clear() → TSTART_HOLD 지연 → GPIO_Input() 호출: |
|||
* - 라인을 초기 상태로 복귀시켜 다음 통신 준비 완료. |
|||
* |
|||
*/ |
|||
void OWI_SecureStop(void) |
|||
{ |
|||
int i; |
|||
GPIO_Clear(); |
|||
delay_us(SECURE_HIGH); |
|||
|
|||
for (i = 0; i < SECURE_TOGGLE_COUNT; i++) { |
|||
GPIO_Input(); |
|||
delay_us(SECURE_TOGGLE_HIGH); |
|||
GPIO_Clear(); |
|||
delay_us(SECURE_TOGGLE_LOW); |
|||
} |
|||
|
|||
GPIO_Input(); |
|||
delay_us(SECURE_HIGH); |
|||
GPIO_Clear(); |
|||
delay_us(TSTART_HOLD); |
|||
GPIO_Input(); |
|||
} |
|||
|
|||
// ----------------------------------------
|
|||
// OWI Bit/Byte Write & Read
|
|||
// ----------------------------------------
|
|||
|
|||
/**
|
|||
* 함수명: OWI_WriteBit |
|||
* 목적: 1-Wire 통신 라인을 통해 단일 비트(bit)를 송신한다. |
|||
* |
|||
* 매개변수: |
|||
* - bit : 전송할 비트 값 (0 또는 1) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. 전송할 비트에 따라 Low 상태 유지 시간(t_low)을 결정: |
|||
* - bit가 1이면 TLOW_1, 0이면 TLOW_0 |
|||
* 2. t_high = TBIT - t_low 계산: 비트 프레임에서 High 유지 시간 결정. |
|||
* 3. GPIO_Input() 호출: 라인을 풀업 상태(High-Z)로 유지. |
|||
* 4. delay_us(t_high): High 상태 유지. |
|||
* 5. GPIO_Clear() 호출: 라인을 Low 상태로 드라이브. |
|||
* 6. delay_us(t_low): Low 상태 유지. |
|||
* |
|||
*/ |
|||
void OWI_WriteBit(int bit) |
|||
{ |
|||
uint32_t t_low = bit ? TLOW_1 : TLOW_0; |
|||
uint32_t t_high = TBIT - t_low; |
|||
|
|||
GPIO_Input(); // 풀업 상태 유지
|
|||
delay_us(t_high); // High 유지
|
|||
|
|||
GPIO_Clear(); // Low로 드라이브
|
|||
delay_us(t_low); // Low 시간 유지
|
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_WriteByte |
|||
* 목적: 1-Wire 통신 라인을 통해 1바이트 데이터를 전송한다. |
|||
* |
|||
* 매개변수: |
|||
* - data : 전송할 1바이트 데이터(uint8_t) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. 최상위 비트(MSB)부터 최하위 비트(LSB)까지 반복: |
|||
* - 각 비트를 OWI_WriteBit() 함수를 통해 송신. |
|||
* - (data >> i) & 0x01 연산으로 i번째 비트 추출. |
|||
* 2. 모든 8비트를 전송한 후 GPIO_Input() 호출: |
|||
* - 라인을 High-Z 상태로 전환하여 다음 통신 준비. |
|||
* |
|||
*/ |
|||
void OWI_WriteByte(uint8_t data) |
|||
{ |
|||
int i; |
|||
for (i = 7; i >= 0; i--) { |
|||
OWI_WriteBit((data >> i) & 0x01); |
|||
} |
|||
GPIO_Input(); |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_ReadBit |
|||
* 목적: 1-Wire 통신 라인에서 단일 비트를 읽는다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: |
|||
* - 0 또는 1 : 읽은 비트 값 |
|||
* - 0xFF : 타임아웃 발생 시 에러 값 |
|||
* |
|||
* 동작 방식: |
|||
* 1. GPIO_Read()를 사용하여 라인이 High가 될 때까지 대기: |
|||
* - 최대 500us까지 대기(timeout). |
|||
* - 타임아웃 시 UART로 오류 메시지 전송 후 0xFF 반환. |
|||
* 2. delay_us(50) 호출하여 비트 중앙 위치로 대기. |
|||
* 3. GPIO_Read()로 비트 값 판독. |
|||
* 4. delay_us(30)으로 나머지 비트 시간 동안 대기. |
|||
* 5. 판독한 비트 값을 반환. |
|||
* |
|||
*/ |
|||
uint8_t OWI_ReadBit(void) |
|||
{ |
|||
|
|||
uint8_t bit; |
|||
int timeout = 500; |
|||
|
|||
while (!(GPIO_Read()) && timeout-- > 0) { |
|||
delay_us(1); |
|||
} |
|||
|
|||
if (timeout <= 0) { |
|||
uart_send_string("OWI Timeout\r\n"); |
|||
return 0xFF; |
|||
} |
|||
|
|||
delay_us(50); |
|||
bit = GPIO_Read(); |
|||
delay_us(30); |
|||
|
|||
return bit; |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_ReadByte |
|||
* 목적: 1-Wire 통신 라인에서 1바이트 데이터를 읽는다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: |
|||
* - 읽은 1바이트 데이터(uint8_t) |
|||
* |
|||
* 동작 방식: |
|||
* 1. 최상위 비트(MSB)부터 최하위 비트(LSB)까지 반복: |
|||
* - OWI_ReadBit() 함수를 호출하여 1비트씩 읽는다. |
|||
* - 읽은 비트를 적절히 시프트하여 data 변수에 저장. |
|||
* 2. 모든 8비트를 읽은 후 data 반환. |
|||
* |
|||
*/ |
|||
|
|||
uint8_t OWI_ReadByte(void) |
|||
{ |
|||
uint8_t data = 0; |
|||
int i; |
|||
|
|||
for (i = 7; i >= 0; i--) { |
|||
data |= (OWI_ReadBit() << i); |
|||
} |
|||
|
|||
return data; |
|||
} |
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_T_ReadBytesAndPrint |
|||
* 목적: 1-Wire 통신으로 지정한 길이만큼 데이터를 읽고, UART로 형식화하여 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - length : 읽을 데이터 바이트 수 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1. buf 배열에 length만큼 OWI_ReadByte() 호출하여 1바이트씩 읽어 저장. |
|||
* 2. 첫 번째 바이트(buf[0])를 16진수 2자리 문자열로 변환하여 UART 전송. |
|||
* 3. 그 이후 바이트들은 두 개씩 묶어서 16진수 4자리 문자열로 변환 후 UART 전송: |
|||
* - delay(10000) 호출하여 출력 간 간격을 둠. |
|||
* 4. UART 출력은 sprintf → strcpy → uart_send_string 순으로 처리. |
|||
* |
|||
* 참고: |
|||
* - buf[0]는 별도로 출력하고, 이후 바이트들은 2바이트 단위로 묶어 출력. |
|||
* - delay를 통해 슬레이브와 UART 전송 간 타이밍을 확보. |
|||
* - 1-Wire 데이터를 확인하거나 디버깅용으로 사용되는 함수. |
|||
*/ |
|||
void OWI_T_ReadBytesAndPrint(int length) |
|||
{ |
|||
uint8_t buf[129]; |
|||
int i; |
|||
char uart_buf[8]; |
|||
char tmp_buf[8]; |
|||
|
|||
uint8_t va0, va1; |
|||
for (i = 0; i < length; i++) { |
|||
buf[i] = OWI_ReadByte(); |
|||
} |
|||
sprintf(uart_buf, "%02X ", buf[0]); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(tmp_buf); |
|||
|
|||
for (i = 1; i < length; i+=2) { |
|||
|
|||
va0 = buf[i]; |
|||
va1 = buf[i+1]; |
|||
delay(10000); |
|||
sprintf(uart_buf, "%02X%02X ", va0, va1); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(tmp_buf); |
|||
delay(10000); |
|||
} |
|||
} |
|||
|
|||
|
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_A_CommandMode |
|||
* 목적: 1-Wire 장치에서 ADC 데이터 및 명령어(CMD)를 처리하고 결과를 UART로 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : 사용자 전송 데이터 포인터 (3바이트) |
|||
* - tx_len : 사용자 전송 데이터 길이 |
|||
* - id : 장치 ID |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) ADC 읽기 |
|||
* - ADC_ReadAndSend_UART() 호출하여 ADC 데이터를 읽음. |
|||
* - g_adc_bytes 배열을 읽고 2자리 소수점 형식으로 line 배열에 저장. |
|||
* - ADC 채널 수 불일치 시 "Err:adc_count" 출력 후 종료. |
|||
* |
|||
* 2) 1-Wire 장치 전원 켜기 |
|||
* - OWI_EnablePower() 호출. |
|||
* - 전원 안정화를 위해 7ms 지연. |
|||
* |
|||
* 3) 기본 명령(CMD) 전송 및 안전한 읽기 |
|||
* - CMD_LIST에 정의된 6개의 4바이트 명령을 순차적으로 전송. |
|||
* - 각 명령 전/후에 OWI_SecureStop() 호출하여 통신 라인을 초기화. |
|||
* - 각 명령 실행 후 read_address(0x51)로 데이터를 읽음. |
|||
* - 읽은 데이터가 모두 0xFF일 경우 최대 OWI_MAX_RETRY만큼 재시도. |
|||
* - 읽은 Rx 데이터에서 2번째, 3번째 바이트를 line 배열에 16진수로 추가. |
|||
* |
|||
* 4) 사용자 CMD 처리 (tx_data 존재 시) |
|||
* - tx_len가 3바이트인 경우 ID를 포함한 write 후 read 수행. |
|||
* - Rx 데이터 모두 0xFF일 경우 OWI_MAX_RETRY 재시도. |
|||
* - 정상 데이터 수신 시 line 배열에 2번째, 3번째 바이트 추가. |
|||
* - tx_data가 없으면 "0000"을 line 배열에 추가. |
|||
* |
|||
* 5) UART 출력 |
|||
* - 완성된 line 배열 끝에 CRLF 추가 후 uart_send_string()로 전송. |
|||
* |
|||
* 6) 마무리 |
|||
* - delay(10000) 후 OWI_DisablePower() 호출하여 장치 전원 차단. |
|||
* |
|||
* 참고: |
|||
* - OWI_SecureStop() 및 delay_us()를 통해 1-Wire 통신 타이밍과 안정성을 확보. |
|||
* - g_adc_bytes, RAM_BYTES, OWI_MAX_RETRY 등의 상수 및 전역 변수 활용. |
|||
* - UART로 출력되는 형식은 ADC값, 각 CMD 결과, 사용자 CMD 결과가 쉼표로 구분됨. |
|||
*/ |
|||
#define OWI_MAX_RETRY 2 // 재시도 2회
|
|||
#define OWI_RECOVERY_MIN_US 500 // datasheet 기준 최소 recovery 시간
|
|||
|
|||
void OWI_A_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id) |
|||
{ |
|||
|
|||
uint8_t CMD_LIST[6][4] = { |
|||
{0x50,0x2E,0x00,0x00}, // BR
|
|||
{0x50,0x2E,0x01,0x00}, // BR_AZ
|
|||
{0x50,0x2E,0x02,0x00}, // T_RAW
|
|||
{0x50,0x2E,0x16,0x00}, // Y_data
|
|||
{0x50,0x2E,0x41,0x00}, // BR_AOUT
|
|||
{0x50,0x2E,0x00,0x00} // BR_AOUT duplicate
|
|||
}; |
|||
|
|||
char line[128]; |
|||
size_t n = 0; |
|||
uint8_t rx[RAM_BYTES]; |
|||
int i, j, retry, all_ff; |
|||
float v; |
|||
uint8_t read_address = 0x51; |
|||
|
|||
// ===== 1) ADC 읽기 =====
|
|||
ADC_ReadAndSend_UART(); |
|||
if (g_adc_len != ADC_NUM_CH) { |
|||
uart_send_string("Err:adc_count\r\n"); |
|||
return; |
|||
} |
|||
for (j = 0; j < g_adc_len; j++) { |
|||
v = g_adc_bytes[j]; |
|||
n += sprintf(&line[n], "%.2f", v); |
|||
if (j + 1 < g_adc_len) line[n++] = ','; |
|||
} |
|||
line[n++] = ','; |
|||
|
|||
// ===== 2) OWI Power On =====
|
|||
OWI_EnablePower(); |
|||
delay_us(7000); // Power-on delay
|
|||
|
|||
// ===== 3) CMD 전송 및 안전한 읽기 =====
|
|||
for (j = 0; j < 6; j++) { |
|||
OWI_SecureStop(); |
|||
for (i = 0; i < 4; i++) OWI_WriteByte(CMD_LIST[j][i]); |
|||
OWI_Stop(); |
|||
|
|||
// CMD → read 회복 시간
|
|||
delay_us(OWI_RECOVERY_MIN_US); |
|||
|
|||
// Rx 초기화
|
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = 0xFF; |
|||
|
|||
for (retry = 0; retry <= OWI_MAX_RETRY; retry++) { |
|||
// read 전 충분한 recovery 확보
|
|||
delay_us(OWI_RECOVERY_MIN_US); |
|||
|
|||
OWI_SecureStop(); |
|||
OWI_WriteByte(read_address); |
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = OWI_ReadByte(); |
|||
OWI_Stop(); |
|||
|
|||
all_ff = 1; |
|||
for (i = 0; i < RAM_BYTES; i++) { |
|||
if (rx[i] != 0xFF) { all_ff = 0; break; } |
|||
} |
|||
|
|||
if (!all_ff) break; // 정상 데이터 수신
|
|||
if (retry == OWI_MAX_RETRY) { // 모든 재시도 실패
|
|||
OWI_DisablePower(); |
|||
return; |
|||
} |
|||
} |
|||
|
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
line[n++] = ','; |
|||
} |
|||
|
|||
// ===== 4) 사용자 CMD 처리 =====
|
|||
if (tx_data != NULL && tx_len == 3) { |
|||
for (retry = 0; retry <= OWI_MAX_RETRY; retry++) { |
|||
// write CMD
|
|||
OWI_SecureStop(); |
|||
OWI_WriteByte(id << 1); |
|||
for (i = 0; i < 3; i++) OWI_WriteByte(tx_data[i]); |
|||
OWI_Stop(); |
|||
|
|||
// read 준비
|
|||
delay_us(OWI_RECOVERY_MIN_US); |
|||
|
|||
// read
|
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = 0xFF; |
|||
OWI_SecureStop(); |
|||
OWI_WriteByte((id << 1) | 1); |
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = OWI_ReadByte(); |
|||
OWI_Stop(); |
|||
|
|||
all_ff = 1; |
|||
for (i = 0; i < RAM_BYTES; i++) { |
|||
if (rx[i] != 0xFF) { all_ff = 0; break; } |
|||
} |
|||
|
|||
if (!all_ff) break; |
|||
if (retry == OWI_MAX_RETRY) { |
|||
OWI_DisablePower(); |
|||
return; |
|||
} |
|||
} |
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
} else { |
|||
n += sprintf(&line[n], "0000"); |
|||
} |
|||
|
|||
// ===== 5) UART 출력 =====
|
|||
line[n++] = '\r'; |
|||
line[n++] = '\n'; |
|||
line[n] = '\0'; |
|||
uart_send_string(line); |
|||
|
|||
delay(10000); |
|||
OWI_DisablePower(); |
|||
} |
|||
|
|||
|
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_Diagnostic |
|||
* 목적: 1-Wire 장치에서 진단용 명령어를 전송하고 결과를 UART로 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - id : 장치 ID (사용되지 않지만 인터페이스 일관성 유지) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) CMD_LIST에 정의된 10개의 4바이트 진단 명령어를 순차적으로 전송. |
|||
* - OWI_SecureStop() 호출로 통신 라인 초기화. |
|||
* - 각 명령 전송 후 OWI_Stop() 호출. |
|||
* - OWI_RECOVERY_MIN_US 동안 지연하여 장치 준비 시간 확보. |
|||
* |
|||
* 2) 각 명령어 수행 후 read_address(0x51)로 데이터를 읽음. |
|||
* - Rx 배열 초기화(0xFF) 후 OWI_ReadByte()로 데이터 수신. |
|||
* - 읽은 데이터가 모두 0xFF일 경우 최대 OWI_MAX_RETRY만큼 재시도. |
|||
* |
|||
* 3) 정상 데이터 수신 시 rx[1], rx[2] 바이트를 16진수로 line 배열에 추가. |
|||
* - 마지막 명령어가 아니면 콤마(,) 추가. |
|||
* |
|||
* 4) UART 출력 |
|||
* - line 배열 끝에 CRLF 추가 후 uart_send_string()으로 전송. |
|||
* |
|||
* 참고: |
|||
* - OWI_SecureStop() 및 delay_us()를 통해 1-Wire 통신 안정성을 확보. |
|||
* - 이 함수는 장치의 상태 진단 및 디버깅용으로 사용됨. |
|||
*/ |
|||
void OWI_Diagnostic(uint8_t id) |
|||
{ |
|||
uint8_t CMD_LIST[10][4] = { |
|||
{0x50,0x2E,0x01,0x00}, // BR
|
|||
{0x50,0x2E,0x00,0x00}, // BR_AZ
|
|||
{0x50,0x2E,0x02,0x00}, // T_RAW
|
|||
{0x50,0x2E,0x03,0x00}, // Y_data
|
|||
{0x50,0x2E,0x21,0x00}, // BR_AOUT
|
|||
{0x50,0x2E,0x04,0x00}, |
|||
{0x50,0x2E,0x05,0x00}, |
|||
{0x50,0x2E,0x07,0x00}, |
|||
{0x50,0x2E,0x19,0x00}, |
|||
{0x50,0x2E,0x0B,0x00} |
|||
}; |
|||
|
|||
char line[128]; |
|||
size_t n = 0; |
|||
uint8_t rx[RAM_BYTES]; |
|||
int i, j, retry, all_ff; |
|||
float v; |
|||
uint8_t read_address = 0x51; |
|||
|
|||
// ===== 3) CMD 전송 및 안전한 읽기 =====
|
|||
for (j = 0; j < 10; j++) { |
|||
OWI_SecureStop(); |
|||
for (i = 0; i < 4; i++) OWI_WriteByte(CMD_LIST[j][i]); |
|||
OWI_Stop(); |
|||
|
|||
// CMD → read 회복 시간
|
|||
delay_us(OWI_RECOVERY_MIN_US); |
|||
|
|||
// Rx 초기화
|
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = 0xFF; |
|||
|
|||
for (retry = 0; retry <= OWI_MAX_RETRY; retry++) { |
|||
// read 전 충분한 recovery 확보
|
|||
delay_us(OWI_RECOVERY_MIN_US); |
|||
|
|||
OWI_SecureStop(); |
|||
OWI_WriteByte(read_address); |
|||
for (i = 0; i < RAM_BYTES; i++) rx[i] = OWI_ReadByte(); |
|||
OWI_Stop(); |
|||
|
|||
all_ff = 1; |
|||
for (i = 0; i < RAM_BYTES; i++) { |
|||
if (rx[i] != 0xFF) { all_ff = 0; break; } |
|||
} |
|||
|
|||
if (!all_ff) break; // 정상 데이터 수신
|
|||
if (retry == OWI_MAX_RETRY) { // 모든 재시도 실패
|
|||
OWI_DisablePower(); |
|||
return; |
|||
} |
|||
} |
|||
|
|||
// 데이터 추가
|
|||
n += sprintf(&line[n], "%02X%02X", rx[1], rx[2]); |
|||
|
|||
// 마지막이 아닐 때만 콤마 추가
|
|||
if (j < 9) { |
|||
line[n++] = ','; |
|||
} |
|||
} |
|||
|
|||
// ===== 5) UART 출력 =====
|
|||
line[n++] = '\r'; |
|||
line[n++] = '\n'; |
|||
line[n] = '\0'; |
|||
uart_send_string(line); |
|||
|
|||
delay(10000); |
|||
} |
|||
|
|||
/**
|
|||
* 함수명: OWI_disable |
|||
* 목적: 1-Wire 장치 전원을 끄고, UART로 상태를 알린다. |
|||
* |
|||
* 매개변수: 없음 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) OWI_DisablePower() 호출하여 1-Wire 장치 전원 차단. |
|||
* 2) UART로 "51" 문자열과 CRLF 전송하여 장치가 종료되었음을 표시. |
|||
* |
|||
* 참고: |
|||
* - 장치 종료 후 외부 장치나 사용자에게 상태 알림용으로 UART 출력. |
|||
*/ |
|||
void OWI_disable() |
|||
|
|||
{ |
|||
OWI_DisablePower(); |
|||
uart_send_string("51\r\n"); |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_T_CommandMode |
|||
* 목적: 1-Wire 장치에 명령어를 전송하고, UART로 완료 상태를 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : 전송할 명령 데이터 배열 |
|||
* - tx_len : 전송할 명령 데이터 길이 |
|||
* - id : 1-Wire 장치 ID (슬레이브 주소) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 1-Wire 장치 전원 켜기 |
|||
* - OWI_EnablePower() 호출 |
|||
* - 전원 안정화를 위해 7ms 지연 |
|||
* |
|||
* 2) 1-Wire 초기화 |
|||
* - OWI_Init() 호출하여 통신 비트 주기 설정 |
|||
* |
|||
* 3) 명령 전송 (Write sequence) |
|||
* - OWI_SecureStop() 호출로 통신 라인 초기화 |
|||
* - 슬레이브 주소(id << 1)를 전송 (쓰기 모드) |
|||
* - tx_data 배열에 있는 명령 데이터를 순차적으로 전송 |
|||
* - OWI_Stop() 호출하여 쓰기 종료 |
|||
* |
|||
* 4) UART 출력 |
|||
* - "51" 문자열 전송하여 명령 전송 완료 상태 알림 |
|||
* |
|||
* 참고: |
|||
* - 이 함수는 단순히 명령어 전송만 수행하며, 데이터 읽기는 수행하지 않는다. |
|||
* - OWI_SecureStop()와 OWI_Stop()을 사용해 1-Wire 통신 안정성을 확보. |
|||
*/ |
|||
void OWI_T_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id) |
|||
{ |
|||
uint8_t rx[3] = {0}; |
|||
char uart_buf[16]; |
|||
int i; |
|||
|
|||
OWI_EnablePower(); |
|||
delay_us(7000); // Power-on delay
|
|||
OWI_Init(OWI_BIT_PERIOD_US); |
|||
|
|||
// Write sequence (슬레이브 주소와 명령 전송)
|
|||
OWI_SecureStop(); // 통신 준비
|
|||
OWI_WriteByte(id << 1); // 슬레이브 write 주소
|
|||
|
|||
for (i = 0; i < tx_len; i++) { |
|||
OWI_WriteByte(tx_data[i]); // 명령 전송
|
|||
} |
|||
OWI_Stop(); // 쓰기 종료
|
|||
uart_send_string("51\r\n"); |
|||
|
|||
|
|||
|
|||
|
|||
|
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_CommandMode |
|||
* 목적: 1-Wire 장치에 명령어를 전송하고, UART로 완료 상태를 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - tx_data : 전송할 명령 데이터 배열 |
|||
* - tx_len : 전송할 명령 데이터 길이 |
|||
* - id : 1-Wire 장치 ID (슬레이브 주소) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 명령 전송 (Write sequence) |
|||
* - OWI_SecureStop() 호출로 통신 라인 초기화 |
|||
* - 슬레이브 주소(id << 1)를 전송 (쓰기 모드) |
|||
* - tx_data 배열에 있는 명령 데이터를 순차적으로 전송 |
|||
* - OWI_Stop() 호출하여 쓰기 종료 |
|||
* |
|||
* 2) UART 출력 |
|||
* - "51" 문자열 전송하여 명령 전송 완료 상태 알림 |
|||
* |
|||
* 참고: |
|||
* - 전원 켜기/통신 초기화 단계는 포함되어 있지 않음 |
|||
* - 이 함수는 단순히 명령어 전송만 수행하며, 데이터 읽기는 수행하지 않는다 |
|||
* - OWI_SecureStop()와 OWI_Stop()을 사용해 1-Wire 통신 안정성을 확보 |
|||
*/ |
|||
void OWI_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id) |
|||
{ |
|||
uint8_t rx[3] = {0}; |
|||
char uart_buf[16]; |
|||
int i; |
|||
|
|||
// Write sequence (슬레이브 주소와 명령 전송)
|
|||
OWI_SecureStop(); // 통신 준비
|
|||
OWI_WriteByte(id << 1); // 슬레이브 write 주소
|
|||
|
|||
for (i = 0; i < tx_len; i++) { |
|||
OWI_WriteByte(tx_data[i]); // 명령 전송
|
|||
} |
|||
OWI_Stop(); // 쓰기 종료
|
|||
|
|||
uart_send_string("51\r\n"); |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: OWI_ReadBytesAndPrint |
|||
* 목적: 1-Wire 장치에서 지정된 길이만큼 데이터를 읽고, UART로 출력한다. |
|||
* |
|||
* 매개변수: |
|||
* - length : 읽을 바이트 수 |
|||
* - id : 1-Wire 장치 ID (슬레이브 주소) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 읽기 시작 |
|||
* - OWI_SecureStop() 호출로 통신 라인 초기화 |
|||
* - (id << 1) | 1 전송하여 슬레이브 읽기 모드 설정 |
|||
* |
|||
* 2) 지정된 length만큼 OWI_ReadByte()로 데이터 읽기 |
|||
* - 읽은 데이터는 buf 배열에 저장 |
|||
* |
|||
* 3) UART 출력 |
|||
* - buf[0] 단독 출력 |
|||
* - 이후 1번부터는 두 바이트씩 페어로 묶어 출력 |
|||
* - 마지막 바이트가 홀수이면 단독 출력 |
|||
* - 각 출력 전후에 delay(10000) 호출 (UART 전송 안정성 확보) |
|||
* - 출력 포맷: 16진수 문자열 |
|||
* - 마지막에 CRLF("\r\n") 추가 |
|||
* |
|||
* 참고: |
|||
* - UART 출력 시 임시 버퍼(uart_buf, tmp_buf)를 사용 |
|||
* - delay를 통해 데이터 안정성 및 가독성 확보 |
|||
*/ |
|||
void OWI_ReadBytesAndPrint(int length, uint8_t id) |
|||
{ |
|||
uint8_t buf[600]; |
|||
int i; |
|||
char uart_buf[8]; |
|||
char tmp_buf[8]; |
|||
|
|||
uint8_t va0, va1; |
|||
|
|||
OWI_SecureStop(); |
|||
OWI_WriteByte((id << 1) | 1); |
|||
|
|||
for (i = 0; i < length; i++) { |
|||
buf[i] = OWI_ReadByte(); |
|||
} |
|||
sprintf(uart_buf, "%02X ", buf[0]); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(tmp_buf); |
|||
|
|||
for (i = 1; i < length; i += 2) { |
|||
|
|||
va0 = buf[i]; |
|||
|
|||
if (i + 1 < length) { |
|||
// 완전한 페어
|
|||
va1 = buf[i + 1]; |
|||
delay(10000); |
|||
sprintf(uart_buf, "%02X%02X ", va0, va1); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(tmp_buf); |
|||
delay(10000); |
|||
} else { |
|||
// 마지막 1바이트가 남은 경우 단독 출력
|
|||
delay(10000); |
|||
sprintf(uart_buf, "%02X", va0); |
|||
strcpy(tmp_buf, uart_buf); |
|||
uart_send_string(tmp_buf); |
|||
delay(10000); |
|||
} |
|||
} |
|||
uart_send_string("\r\n"); |
|||
} |
|||
|
|||
|
|||
|
|||
@ -0,0 +1,48 @@ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_serial.h" |
|||
#include "r_cg_port.h" |
|||
|
|||
|
|||
|
|||
// OWI에 사용할 핀 정의 (P70)
|
|||
#define OWI_PORT_P P7 // 포트 출력 레지스터
|
|||
#define OWI_PORT_PM PM7 // 포트 방향 (1: 입력, 0: 출력)
|
|||
#define OWI_PORT_PU PU7 // 내부 풀업
|
|||
#define OWI_PORT_POM POM7 // Open-drain 설정
|
|||
|
|||
#define OWI_PIN_MASK (1 << 0) // P70 = bit 0
|
|||
#define OWI_BIT_PERIOD_US 100 |
|||
#define TBIT OWI_BIT_PERIOD_US |
|||
#define TLOW_0 (TBIT * 0.75) // 75us
|
|||
#define TLOW_1 (TBIT * 0.25) // 225us
|
|||
#define TSTOP_LOW (TBIT * 2) // 600us
|
|||
#define TIDLE (TBIT * 3) // 900us
|
|||
#define TSTART_HOLD 50 // ≥25us 기준으로 50us 확보
|
|||
#define SECURE_HIGH 250 |
|||
#define SECURE_TOGGLE_COUNT 3 |
|||
#define SECURE_TOGGLE_LOW 40 |
|||
#define SECURE_TOGGLE_HIGH 60 |
|||
|
|||
static uint32_t bit_period_us = 100; // 기본 OWI 비트 시간
|
|||
|
|||
void OWI_EnablePower(void); |
|||
void OWI_DisablePower(void); |
|||
void GPIO_Clear(void); |
|||
void GPIO_Input(void); |
|||
int GPIO_Read(void); |
|||
void OWI_Init(uint32_t bit_time_us); |
|||
void OWI_Start(void); |
|||
void OWI_Stop(void); |
|||
void OWI_SecureStop(void); |
|||
void OWI_WriteBit(int bit); |
|||
void OWI_WriteByte(uint8_t data); |
|||
uint8_t OWI_ReadBit(void); |
|||
uint8_t OWI_ReadByte(void); |
|||
void OWI_T_ReadBytesAndPrint(int length); |
|||
void OWI_ReadBytesAndPrint(int length, uint8_t id); |
|||
void OWI_T_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id); |
|||
void OWI_A_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id); |
|||
void owi_write_coefficients(void); |
|||
void OWI_CommandMode(const uint8_t *tx_data, uint8_t tx_len, uint8_t id); |
|||
void OWI_disable(); |
|||
void OWI_Diagnostic(uint8_t id); |
|||
@ -0,0 +1,161 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_adc.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for ADC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_adc.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Create |
|||
* Description : This function initializes the AD converter. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Create(void) |
|||
{ |
|||
ADCEN = 1U; /* supply AD clock */ |
|||
ADM0 = _00_AD_ADM0_INITIALVALUE; /* disable AD conversion and clear ADM0 register */ |
|||
ADMK = 1U; /* disable INTAD interrupt */ |
|||
ADIF = 0U; /* clear INTAD interrupt flag */ |
|||
/* Set INTAD low priority */ |
|||
ADPR1 = 1U; |
|||
ADPR0 = 1U; |
|||
/* The reset status of ADPC is analog input, so it's unnecessary to set. */ |
|||
/* Set ANI0 - ANI23 pin as analog input */ |
|||
PM10 |= 0x3FU; |
|||
PM9 |= 0xFFU; |
|||
PM8 |= 0xFFU; |
|||
PM3 |= 0x18U; |
|||
/* Set ANI24 pin */ |
|||
PMC12 |= 0x20U; |
|||
PM12 |= 0x20U; |
|||
/* Set ANI25 pin */ |
|||
PMC12 |= 0x01U; |
|||
PM12 |= 0x01U; |
|||
/* Set ANI26 pin */ |
|||
PMC7 |= 0x01U; |
|||
PM7 |= 0x01U; |
|||
/* Set ANI27 pin */ |
|||
PMC7 |= 0x02U; |
|||
PM7 |= 0x02U; |
|||
/* Set ANI28 pin */ |
|||
PMC7 |= 0x04U; |
|||
PM7 |= 0x04U; |
|||
/* Set ANI29 pin */ |
|||
PMC7 |= 0x08U; |
|||
PM7 |= 0x08U; |
|||
/* Set ANI30 pin */ |
|||
PMC7 |= 0x10U; |
|||
PM7 |= 0x10U; |
|||
ADM0 = _00_AD_CONVERSION_CLOCK_64 | _00_AD_TIME_MODE_NORMAL_1 | _00_AD_OPERMODE_SELECT; |
|||
ADM1 = _00_AD_TRIGGER_SOFTWARE | _00_AD_CONVMODE_CONSELECT; |
|||
ADM2 = _00_AD_POSITIVE_VDD | _00_AD_NEGATIVE_VSS | _00_AD_AREA_MODE_1 | _00_AD_RESOLUTION_10BIT; |
|||
ADUL = _FF_AD_ADUL_VALUE; |
|||
ADLL = _00_AD_ADLL_VALUE; |
|||
ADS = _00_AD_INPUT_CHANNEL_0; |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Start |
|||
* Description : This function starts the AD converter. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Start(void) |
|||
{ |
|||
ADIF = 0U; /* clear INTAD interrupt flag */ |
|||
ADMK = 0U; /* enable INTAD interrupt */ |
|||
ADCS = 1U; /* enable AD conversion */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Stop |
|||
* Description : This function stops the AD converter. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Stop(void) |
|||
{ |
|||
ADCS = 0U; /* disable AD conversion */ |
|||
ADMK = 1U; /* disable INTAD interrupt */ |
|||
ADIF = 0U; /* clear INTAD interrupt flag */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Set_OperationOn |
|||
* Description : This function enables comparator operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Set_OperationOn(void) |
|||
{ |
|||
ADCE = 1U; /* enable AD comparator */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Set_OperationOff |
|||
* Description : This function stops comparator operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Set_OperationOff(void) |
|||
{ |
|||
ADCE = 0U; /* disable AD comparator */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_ADC_Get_Result |
|||
* Description : This function returns the conversion result in the buffer. |
|||
* Arguments : buffer - |
|||
* the address where to write the conversion result |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Get_Result(uint16_t * const buffer) |
|||
{ |
|||
*buffer = (uint16_t)(ADCR >> 6U); |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,223 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_adc.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for ADC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef ADC_H |
|||
#define ADC_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
/*
|
|||
Peripheral enable register 0 (PER0) |
|||
*/ |
|||
/* Control of AD converter input clock (ADCEN) */ |
|||
#define _00_AD_CLOCK_STOP (0x00U) /* stop supply of input clock */ |
|||
#define _20_AD_CLOCK_SUPPLY (0x20U) /* supply input clock */ |
|||
|
|||
/*
|
|||
AD converter mode register 0 (ADM0) |
|||
*/ |
|||
#define _00_AD_ADM0_INITIALVALUE (0x00U) |
|||
/* AD conversion operation control (ADCS) */ |
|||
#define _80_AD_CONVERSION_ENABLE (0x80U) /* enable AD conversion operation control */ |
|||
#define _00_AD_CONVERSION_DISABLE (0x00U) /* disable AD conversion operation control */ |
|||
/* Specification of AD conversion operation mode (ADMD) */ |
|||
#define _00_AD_OPERMODE_SELECT (0x00U) /* select operation mode */ |
|||
#define _40_AD_OPERMODE_SCAN (0x40U) /* scan operation mode */ |
|||
/* AD conversion clock selection (FR2 - FR0) */ |
|||
#define _00_AD_CONVERSION_CLOCK_64 (0x00U) /* fCLK/64 */ |
|||
#define _08_AD_CONVERSION_CLOCK_32 (0x08U) /* fCLK/32 */ |
|||
#define _10_AD_CONVERSION_CLOCK_16 (0x10U) /* fCLK/16 */ |
|||
#define _18_AD_CONVERSION_CLOCK_8 (0x18U) /* fCLK/8 */ |
|||
#define _20_AD_CONVERSION_CLOCK_6 (0x20U) /* fCLK/6 */ |
|||
#define _28_AD_CONVERSION_CLOCK_5 (0x28U) /* fCLK/5 */ |
|||
#define _30_AD_CONVERSION_CLOCK_4 (0x30U) /* fCLK/4 */ |
|||
#define _38_AD_CONVERSION_CLOCK_2 (0x38U) /* fCLK/2 */ |
|||
/* Specification AD conversion time mode (LV1, LV0) */ |
|||
#define _00_AD_TIME_MODE_NORMAL_1 (0x00U) /* normal 1 mode */ |
|||
#define _02_AD_TIME_MODE_NORMAL_2 (0x02U) /* normal 2 mode */ |
|||
/* AD comparator operation control (ADCE) */ |
|||
#define _01_AD_COMPARATOR_ENABLE (0x01U) /* enable comparator operation control */ |
|||
#define _00_AD_COMPARATOR_DISABLE (0x00U) /* disable comparator operation control */ |
|||
|
|||
/*
|
|||
Analog input channel specification register (ADS) |
|||
*/ |
|||
/* Specification of analog input channel (ADISS, ADS4 - ADS0) */ |
|||
/* Select mode */ |
|||
#define _00_AD_INPUT_CHANNEL_0 (0x00U) /* ANI0 */ |
|||
#define _01_AD_INPUT_CHANNEL_1 (0x01U) /* ANI1 */ |
|||
#define _02_AD_INPUT_CHANNEL_2 (0x02U) /* ANI2 */ |
|||
#define _03_AD_INPUT_CHANNEL_3 (0x03U) /* ANI3 */ |
|||
#define _04_AD_INPUT_CHANNEL_4 (0x04U) /* ANI4 */ |
|||
#define _05_AD_INPUT_CHANNEL_5 (0x05U) /* ANI5 */ |
|||
#define _06_AD_INPUT_CHANNEL_6 (0x06U) /* ANI6 */ |
|||
#define _07_AD_INPUT_CHANNEL_7 (0x07U) /* ANI7 */ |
|||
#define _08_AD_INPUT_CHANNEL_8 (0x08U) /* ANI8 */ |
|||
#define _09_AD_INPUT_CHANNEL_9 (0x09U) /* ANI9 */ |
|||
#define _0A_AD_INPUT_CHANNEL_10 (0x0AU) /* ANI10 */ |
|||
#define _0B_AD_INPUT_CHANNEL_11 (0x0BU) /* ANI11 */ |
|||
#define _0C_AD_INPUT_CHANNEL_12 (0x0CU) /* ANI12 */ |
|||
#define _0D_AD_INPUT_CHANNEL_13 (0x0DU) /* ANI13 */ |
|||
#define _0E_AD_INPUT_CHANNEL_14 (0x0EU) /* ANI14 */ |
|||
#define _0F_AD_INPUT_CHANNEL_15 (0x0FU) /* ANI15 */ |
|||
#define _10_AD_INPUT_CHANNEL_16 (0x10U) /* ANI16 */ |
|||
#define _11_AD_INPUT_CHANNEL_17 (0x11U) /* ANI17 */ |
|||
#define _12_AD_INPUT_CHANNEL_18 (0x12U) /* ANI18 */ |
|||
#define _13_AD_INPUT_CHANNEL_19 (0x13U) /* ANI19 */ |
|||
#define _14_AD_INPUT_CHANNEL_20 (0x14U) /* ANI20 */ |
|||
#define _15_AD_INPUT_CHANNEL_21 (0x15U) /* ANI21 */ |
|||
#define _16_AD_INPUT_CHANNEL_22 (0x16U) /* ANI22 */ |
|||
#define _17_AD_INPUT_CHANNEL_23 (0x17U) /* ANI23 */ |
|||
#define _18_AD_INPUT_CHANNEL_24 (0x18U) /* ANI24 */ |
|||
#define _19_AD_INPUT_CHANNEL_25 (0x19U) /* ANI25 */ |
|||
#define _1A_AD_INPUT_CHANNEL_26 (0x1AU) /* ANI26 */ |
|||
#define _1B_AD_INPUT_CHANNEL_27 (0x1BU) /* ANI27 */ |
|||
#define _1C_AD_INPUT_CHANNEL_28 (0x1CU) /* ANI28 */ |
|||
#define _1D_AD_INPUT_CHANNEL_29 (0x1DU) /* ANI29 */ |
|||
#define _1E_AD_INPUT_CHANNEL_30 (0x1EU) /* ANI30 */ |
|||
#define _80_AD_INPUT_TEMPERSENSOR_0 (0x80U) /* temperature sensor 0 output is used to be the input channel */ |
|||
#define _81_AD_INPUT_INTERREFVOLT (0x81U) /* internal reference voltage output is used to be the input channel */ |
|||
/* Scan mode */ |
|||
#define _00_AD_INPUT_CHANNEL_0_3 (0x00U) /* ANI0 - ANI3 */ |
|||
#define _01_AD_INPUT_CHANNEL_1_4 (0x01U) /* ANI1 - ANI4 */ |
|||
#define _02_AD_INPUT_CHANNEL_2_5 (0x02U) /* ANI2 - ANI5 */ |
|||
#define _03_AD_INPUT_CHANNEL_3_6 (0x03U) /* ANI3 - ANI6 */ |
|||
#define _04_AD_INPUT_CHANNEL_4_7 (0x04U) /* ANI4 - ANI7 */ |
|||
#define _05_AD_INPUT_CHANNEL_5_8 (0x05U) /* ANI5 - ANI8 */ |
|||
#define _06_AD_INPUT_CHANNEL_6_9 (0x06U) /* ANI6 - ANI9 */ |
|||
#define _07_AD_INPUT_CHANNEL_7_10 (0x07U) /* ANI7 - ANI10 */ |
|||
#define _08_AD_INPUT_CHANNEL_8_11 (0x08U) /* ANI8 - ANI11 */ |
|||
#define _09_AD_INPUT_CHANNEL_9_12 (0x09U) /* ANI9 - ANI12 */ |
|||
#define _0A_AD_INPUT_CHANNEL_10_13 (0x0AU) /* ANI10 - ANI13 */ |
|||
#define _0B_AD_INPUT_CHANNEL_11_14 (0x0BU) /* ANI11 - ANI14 */ |
|||
#define _0C_AD_INPUT_CHANNEL_12_15 (0x0CU) /* ANI12 - ANI15 */ |
|||
#define _0D_AD_INPUT_CHANNEL_13_16 (0x0DU) /* ANI13 - ANI16 */ |
|||
#define _0E_AD_INPUT_CHANNEL_14_17 (0x0EU) /* ANI14 - ANI17 */ |
|||
#define _0F_AD_INPUT_CHANNEL_15_18 (0x0FU) /* ANI15 - ANI18 */ |
|||
#define _10_AD_INPUT_CHANNEL_16_19 (0x10U) /* ANI16 - ANI19 */ |
|||
#define _11_AD_INPUT_CHANNEL_17_20 (0x11U) /* ANI17 - ANI20 */ |
|||
#define _12_AD_INPUT_CHANNEL_18_21 (0x12U) /* ANI18 - ANI21 */ |
|||
#define _13_AD_INPUT_CHANNEL_19_22 (0x13U) /* ANI19 - ANI22 */ |
|||
#define _14_AD_INPUT_CHANNEL_20_23 (0x14U) /* ANI20 - ANI23 */ |
|||
|
|||
/*
|
|||
AD converter mode register 1 (ADM1) |
|||
*/ |
|||
/* AD trigger mode selection (ADTMD1, ADTMD0) */ |
|||
#define _00_AD_TRIGGER_SOFTWARE (0x00U) /* software trigger mode */ |
|||
#define _80_AD_TRIGGER_HARDWARE_NOWAIT (0x80U) /* hardware trigger mode (no wait) */ |
|||
#define _C0_AD_TRIGGER_HARDWARE_WAIT (0xC0U) /* hardware trigger mode (wait) */ |
|||
/* AD convertion mode selection (ADSCM) */ |
|||
#define _00_AD_CONVMODE_CONSELECT (0x00U) /* continuous convertion mode */ |
|||
#define _20_AD_CONVMODE_ONESELECT (0x20U) /* oneshot convertion mode */ |
|||
/* Trigger signal selection (ADTRS1, ADTRS0) */ |
|||
#define _00_AD_TRIGGER_INTTM01 (0x00U) /* INTTM01 */ |
|||
#define _01_AD_TRIGGER_ELC (0x01U) /* ELC */ |
|||
#define _01_AD_TRIGGER_TIMER (0x01U) /* INTTRD0,INTTRJ0 */ |
|||
#define _02_AD_TRIGGER_INTRTC (0x02U) /* INTRTC */ |
|||
/*
|
|||
AD converter mode register 2 (ADM2) |
|||
*/ |
|||
/* AD VREF(+) selection (ADREFP1, ADREFP0) */ |
|||
#define _00_AD_POSITIVE_VDD (0x00U) /* use VDD as VREF(+) */ |
|||
#define _40_AD_POSITIVE_AVREFP (0x40U) /* use AVREFP as VREF(+) */ |
|||
#define _80_AD_POSITIVE_INTERVOLT (0x80U) /* use internal voltage as VREF(+) */ |
|||
/* AD VREF(-) selection (ADREFM) */ |
|||
#define _00_AD_NEGATIVE_VSS (0x00U) /* use VSS as VREF(-) */ |
|||
#define _20_AD_NEGATIVE_AVREFM (0x20U) /* use AVREFM as VREF(-) */ |
|||
/* AD conversion result upper/lower bound value selection (ADRCK) */ |
|||
#define _00_AD_AREA_MODE_1 (0x00U) /* generates INTAD when ADLL <= ADCRH <= ADUL */ |
|||
#define _08_AD_AREA_MODE_2_3 (0x08U) /* generates INTAD when ADUL < ADCRH or ADLL > ADCRH */ |
|||
/* AD wakeup function selection (AWC) */ |
|||
#define _00_AD_WAKEUP_OFF (0x00U) /* stop wakeup function */ |
|||
#define _04_AD_WAKEUP_ON (0x04U) /* use wakeup function */ |
|||
/* AD resolution selection (ADTYP) */ |
|||
#define _00_AD_RESOLUTION_10BIT (0x00U) /* 10 bits */ |
|||
#define _01_AD_RESOLUTION_8BIT (0x01U) /* 8 bits */ |
|||
|
|||
/*
|
|||
AD test function register (ADTES) |
|||
*/ |
|||
/* AD test mode signal (ADTES2 - ADTES0) */ |
|||
#define _00_AD_NORMAL_INPUT (0x00U) /* normal mode */ |
|||
#define _02_AD_TEST_AVREFM (0x02U) /* use AVREFM as test signal */ |
|||
#define _03_AD_TEST_AVREFP (0x03U) /* use AVREFP as test signal */ |
|||
/*
|
|||
Format of A/D Converter Trigger Select Register 0 (ADTRGS0)(F13 only) |
|||
*/ |
|||
/* Selection of the operation trigger of the A/D converter when the timer RD0 input capture B/compare match B
|
|||
interrupt request is generated (ADTRGS00) */ |
|||
#define _01_AD_TRIGGER_INTTRD0 (0x01U) /* A/D conversion is started when the interrupt request is generated */ |
|||
|
|||
/*
|
|||
Format of A/D Converter Trigger Select Register 1 (ADTRGS1)(F13 only) |
|||
*/ |
|||
/* Selection of the operation trigger of the A/D converter when the timer RJ0 interrupt request is generated (ADTRGS10) */ |
|||
#define _01_AD_TRIGGER_INTTRJ0 (0x01U) /* A/D conversion is started when the interrupt request is generated */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
/* Upper bound (ADUL) value */ |
|||
#define _FF_AD_ADUL_VALUE (0xFFU) |
|||
/* Upper bound (ADLL) value */ |
|||
#define _00_AD_ADLL_VALUE (0x00U) |
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
typedef enum |
|||
{ |
|||
ADCHANNEL0, ADCHANNEL1, ADCHANNEL2, ADCHANNEL3, ADCHANNEL4, ADCHANNEL5, ADCHANNEL6, |
|||
ADCHANNEL7, ADCHANNEL8, ADCHANNEL9, ADCHANNEL10, ADCHANNEL11, ADCHANNEL12, |
|||
ADCHANNEL13, ADCHANNEL14, ADCHANNEL15, ADCHANNEL16, ADCHANNEL17, ADCHANNEL18, |
|||
ADCHANNEL19, ADCHANNEL20, ADCHANNEL21, ADCHANNEL22, ADCHANNEL23, ADCHANNEL24 = 24U, |
|||
ADCHANNEL25, ADCHANNEL26, ADCHANNEL27, ADCHANNEL28, ADCHANNEL29, ADCHANNEL30, |
|||
ADTEMPERSENSOR0 = 128U, ADINTERREFVOLT |
|||
} ad_channel_t; |
|||
typedef enum |
|||
{ |
|||
ADNORMALINPUT, |
|||
ADAVREFM = 2U, |
|||
ADAVREFP |
|||
} test_channel_t; |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
void R_ADC_Create(void); |
|||
void R_ADC_Start(void); |
|||
void R_ADC_Stop(void); |
|||
void R_ADC_Set_OperationOn(void); |
|||
void R_ADC_Set_OperationOff(void); |
|||
void R_ADC_Get_Result(uint16_t * const buffer); |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,64 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_adc_user.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for ADC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_adc.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
#pragma interrupt r_adc_interrupt(vect=INTAD) |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_adc_interrupt |
|||
* Description : This function is INTAD interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_adc_interrupt(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,82 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_cgc.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for CGC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_cgc.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_CGC_Create |
|||
* Description : This function initializes the clock generator. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_CGC_Create(void) |
|||
{ |
|||
/* Set fSL */ |
|||
SELLOSC = 1U; |
|||
/* Set fMX */ |
|||
CMC = _00_CGC_HISYS_PORT | _00_CGC_SUB_PORT | _00_CGC_SYSOSC_DEFAULT | _00_CGC_SUBMODE_DEFAULT; |
|||
MSTOP = 1U; |
|||
/* Set fMAIN */ |
|||
MCM0 = 0U; |
|||
MDIV = _01_CGC_FMP_DIV_1; |
|||
/* Set fMP to clock through mode */ |
|||
SELPLL = 0U; |
|||
/* Set fSUB */ |
|||
XTSTOP = 1U; |
|||
/* Set fCLK */ |
|||
CSS = 0U; |
|||
/* Set fIH */ |
|||
HIOSTOP = 0U; |
|||
/* Set RTC clock source */ |
|||
RTCCL = _80_CGC_RTC_FIH; |
|||
RTCCL |= _42_CGC_RTC_DIV122; |
|||
/* Set Timer RD clock source to fCLK, fMP */ |
|||
TRD_CKSEL = 0U; |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,227 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_cgc.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for CGC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef CGC_H |
|||
#define CGC_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
/*
|
|||
Clock operation mode control register (CMC) |
|||
*/ |
|||
/* High-speed system clock pin operation mode (EXCLK, OSCSEL) */ |
|||
#define _C0_CGC_HISYS_PIN (0xC0U) |
|||
#define _00_CGC_HISYS_PORT (0x00U) /* X1, X2 as I/O port */ |
|||
#define _40_CGC_HISYS_OSC (0x40U) /* X1, X2 as crystal/ceramic resonator connection */ |
|||
#define _80_CGC_HISYS_PORT1 (0x80U) /* X1, X2 as I/O port */ |
|||
#define _C0_CGC_HISYS_EXT (0xC0U) /* X1 as I/O port, X2 as external clock input */ |
|||
/* Subsystem clock pin operation mode (EXCLKS, OSCSELS) */ |
|||
#define _30_CGC_SUB_PIN (0x30U) |
|||
#define _00_CGC_SUB_PORT (0x00U) /* XT1, XT2 as I/O port */ |
|||
#define _10_CGC_SUB_OSC (0x10U) /* XT1, XT2 as crystal connection */ |
|||
#define _20_CGC_SUB_PORT1 (0x20U) /* XT1, XT2 as I/O port */ |
|||
#define _30_CGC_SUB_EXT (0x30U) /* XT1 as I/O port, XT2 as external clock input */ |
|||
/* XT1 oscillator oscillation mode selection (AMPHS1, AMPHS0) */ |
|||
#define _00_CGC_SUBMODE_DEFAULT (0x00U) |
|||
#define _00_CGC_SUBMODE_LOW (0x00U) /* low power consumption oscillation */ |
|||
#define _02_CGC_SUBMODE_NORMAL (0x02U) /* normal oscillation */ |
|||
#define _04_CGC_SUBMODE_ULOW (0x04U) /* ultra-low power consumption oscillation */ |
|||
/* Control of X1 high-speed system clock oscillation frequency (AMPH) */ |
|||
#define _00_CGC_SYSOSC_DEFAULT (0x00U) |
|||
#define _00_CGC_SYSOSC_UNDER10M (0x00U) /* fX <= 10MHz */ |
|||
#define _01_CGC_SYSOSC_OVER10M (0x01U) /* fX > 10MHz */ |
|||
|
|||
/*
|
|||
Clock operation status control register (CSC) |
|||
*/ |
|||
/* Control of high-speed system clock operation (MSTOP) */ |
|||
#define _00_CGC_HISYS_OPER (0x00U) /* X1 oscillator/external clock operating */ |
|||
#define _80_CGC_HISYS_STOP (0x80U) /* X1 oscillator/external clock stopped */ |
|||
/* Subsystem clock operation (XTSTOP) */ |
|||
#define _00_CGC_SUB_OPER (0x00U) /* XT1 oscillator operating */ |
|||
#define _40_CGC_SUB_STOP (0x40U) /* XT1 oscillator stopped */ |
|||
/* High-speed OCO operation (HIOSTOP) */ |
|||
#define _00_CGC_HIO_OPER (0x00U) /* high-speed OCO operating */ |
|||
#define _01_CGC_HIO_STOP (0x01U) /* high-speed OCO stopped */ |
|||
|
|||
/*
|
|||
Oscillation stabilization time counter status register (OSTC) |
|||
*/ |
|||
/* Oscillation stabilization time status (MOST18 - MOST8) */ |
|||
#define _00_CGC_OSCSTAB_STA0 (0x00U) /* < 2^8/fX */ |
|||
#define _80_CGC_OSCSTAB_STA8 (0x80U) /* 2^8/fX */ |
|||
#define _C0_CGC_OSCSTAB_STA9 (0xC0U) /* 2^9/fX */ |
|||
#define _E0_CGC_OSCSTAB_STA10 (0xE0U) /* 2^10/fX */ |
|||
#define _F0_CGC_OSCSTAB_STA11 (0xF0U) /* 2^11/fX */ |
|||
#define _F8_CGC_OSCSTAB_STA13 (0xF8U) /* 2^13/fX */ |
|||
#define _FC_CGC_OSCSTAB_STA15 (0xFCU) /* 2^15/fX */ |
|||
#define _FE_CGC_OSCSTAB_STA17 (0xFEU) /* 2^17/fX */ |
|||
#define _FF_CGC_OSCSTAB_STA18 (0xFFU) /* 2^18/fX */ |
|||
|
|||
/*
|
|||
Oscillation stabilization time select register (OSTS) |
|||
*/ |
|||
/* Oscillation stabilization time selection (OSTS2 - OSTS0) */ |
|||
#define _00_CGC_OSCSTAB_SEL8 (0x00U) /* 2^8/fX */ |
|||
#define _01_CGC_OSCSTAB_SEL9 (0x01U) /* 2^9/fX */ |
|||
#define _02_CGC_OSCSTAB_SEL10 (0x02U) /* 2^10/fX */ |
|||
#define _03_CGC_OSCSTAB_SEL11 (0x03U) /* 2^11/fX */ |
|||
#define _04_CGC_OSCSTAB_SEL13 (0x04U) /* 2^13/fX */ |
|||
#define _05_CGC_OSCSTAB_SEL15 (0x05U) /* 2^15/fX */ |
|||
#define _06_CGC_OSCSTAB_SEL17 (0x06U) /* 2^17/fX */ |
|||
#define _07_CGC_OSCSTAB_SEL18 (0x07U) /* 2^18/fX */ |
|||
|
|||
/*
|
|||
PLL control register (PLLCTL) |
|||
*/ |
|||
/* Lockup wait counter setting value */ |
|||
#define _00_CGC_LOCKUP_WAIT_7 (0x00U) /* 2^7/fMAIN */ |
|||
#define _40_CGC_LOCKUP_WAIT_8 (0x40U) /* 2^8/fMAIN */ |
|||
#define _80_CGC_LOCKUP_WAIT_9 (0x80U) /* 2^9/fMAIN */ |
|||
/* PLL output clock selection (PLLDIV1) */ |
|||
#define _00_CGC_PLL_BELOW_32MHZ (0x00U) /* when fMAIN <= 32 MHz */ |
|||
#define _20_CGC_PLL_ABOVE_32MHZ (0x20U) /* when fMAIN > 32 MHz */ |
|||
/* PLL output clock division selection (PLLDIV0) */ |
|||
#define _00_CGC_PLL_DIVISION_2 (0x00U) /* divides the clock frequency by 2 */ |
|||
#define _10_CGC_PLL_DIVISION_4 (0x10U) /* divides the clock frequency by 4 */ |
|||
/* Clock mode selection (SELPLL) */ |
|||
#define _00_CGC_NOSEL_PLL (0x00U) /* clock through mode */ |
|||
#define _04_CGC_SEL_PLL (0x04U) /* PLL clock select mode */ |
|||
/* PLL output clock (fPLLO) multiplier selection (PLLMUL) */ |
|||
#define _00_CGC_PLL_MULTIPLY_X12 (0x00U) /* clock through mode */ |
|||
#define _02_CGC_PLL_MULTIPLY_X16 (0x02U) /* PLL clock select mode */ |
|||
/* Operating or stopping PLL function (PLLON) */ |
|||
#define _00_CGC_PLL_STOP (0x00U) /* PLL operating stopped */ |
|||
#define _01_CGC_PLL_ENABLE (0x01U) /* PLL operating */ |
|||
|
|||
/*
|
|||
PLL status register (PLLSTS) |
|||
*/ |
|||
/* PLL lock state */ |
|||
#define _00_CGC_PLL_UNLOCKED (0x00U) /* Unlocked state */ |
|||
#define _80_CGC_PLL_LOCKED (0x80U) /* Locked state */ |
|||
|
|||
/*
|
|||
FMP clock selection division register (MDIV) |
|||
*/ |
|||
/* Division of PLL clock (fMP) */ |
|||
#define _00_CGC_FMP_DIV_DEFAULT (0x00U) /* fMP (default) */ |
|||
#define _01_CGC_FMP_DIV_1 (0x01U) /* fMP/2^1 */ |
|||
#define _02_CGC_FMP_DIV_2 (0x02U) /* fMP/2^2 */ |
|||
#define _03_CGC_FMP_DIV_3 (0x03U) /* fMP/2^3 */ |
|||
#define _04_CGC_FMP_DIV_4 (0x04U) /* fMP/2^4 */ |
|||
#define _05_CGC_FMP_DIV_5 (0x05U) /* fMP/2^5 */ |
|||
#define _06_CGC_FMP_DIV_6 (0x06U) /* fMP/2^6 */ |
|||
|
|||
/*
|
|||
System clock control register (CKC) |
|||
*/ |
|||
/* Status of CPU/peripheral hardware clock fCLK (CLS) */ |
|||
#define _00_CGC_CPUCLK_MAIN (0x00U) /* main system clock (fMAIN) */ |
|||
#define _80_CGC_CPUCLK_SUB (0x80U) /* subsystem clock (fSUB) */ |
|||
/* Selection of CPU/peripheral hardware clock fCLK (CSS) */ |
|||
#define _00_CGC_CPUCLK_SELMAIN (0x00U) /* main system clock (fMAIN) */ |
|||
#define _40_CGC_CPUCLK_SELSUB (0x40U) /* subsystem clock (fSUB) */ |
|||
/* Status of Main system clock fMAIN (MCS) */ |
|||
#define _00_CGC_MAINCLK_HIO (0x00U) /* high-speed OCO clock (fIH) */ |
|||
#define _20_CGC_MAINCLK_HISYS (0x20U) /* high-speed system clock (fMX) */ |
|||
/* Selection of Main system clock fMAIN (MCM0) */ |
|||
#define _00_CGC_MAINCLK_SELHIO (0x00U) /* high-speed OCO clock (fIH) */ |
|||
#define _10_CGC_MAINCLK_SELHISYS (0x10U) /* high-speed system clock (fMX) */ |
|||
|
|||
/*
|
|||
Operation speed mode control register (OSMC) |
|||
*/ |
|||
/* Setting in subsystem clock HALT mode (RTCLPC) */ |
|||
#define _00_CGC_SUBINHALT_ON (0x00U) /* enables supply of subsystem clock to peripheral functions */ |
|||
#define _80_CGC_SUBINHALT_OFF (0x80U) /* stops supply to peripheral functions other than RTC and interval timer */ |
|||
/* RTC macro operation clock (WUTMMCK0) */ |
|||
#define _00_CGC_RTC_CLK_OTHER (0x00U) /* Other than fIL */ |
|||
#define _10_CGC_RTC_CLK_FIL (0x10U) /* use fIL clock */ |
|||
|
|||
/*
|
|||
Illegal memory access detection control register (IAWCTL) |
|||
*/ |
|||
/* Illegal memory access detection control (IAWEN) */ |
|||
#define _00_CGC_ILLEGAL_ACCESS_OFF (0x00U) /* disables illegal memory access detection */ |
|||
#define _80_CGC_ILLEGAL_ACCESS_ON (0x80U) /* enables illegal memory access detection */ |
|||
/* RAM guard area (GRAM1, GRAM0) */ |
|||
#define _00_CGC_RAM_GUARD_OFF (0x00U) /* invalid, it is possible to write RAM */ |
|||
#define _10_CGC_RAM_GUARD_AREA0 (0x10U) /* 128 bytes from RAM bottom address */ |
|||
#define _20_CGC_RAM_GUARD_AREA1 (0x20U) /* 256 bytes from RAM bottom address */ |
|||
#define _30_CGC_RAM_GUARD_AREA2 (0x30U) /* 512 bytes from RAM bottom address */ |
|||
/* PORT register guard (GPORT) */ |
|||
#define _00_CGC_PORT_GUARD_OFF (0x00U) /* invalid, it is possible to write PORT register */ |
|||
#define _04_CGC_PORT_GUARD_ON (0x04U) /* valid, it is impossible to write PORT register, but possible for read */ |
|||
/* Interrupt register guard (GINT) */ |
|||
#define _00_CGC_INT_GUARD_OFF (0x00U) /* invalid, it is possible to write interrupt register */ |
|||
#define _02_CGC_INT_GUARD_ON (0x02U) /* valid, it is impossible to write , but possible for read */ |
|||
/* CSC register guard (GCSC) */ |
|||
#define _00_CGC_CSC_GUARD_OFF (0x00U) /* invalid, it is possible to write CSC register */ |
|||
#define _01_CGC_CSC_GUARD_ON (0x01U) /* valid, it is impossible to write CSC register, but possible for read */ |
|||
|
|||
/*
|
|||
RTC clock selection register (RTCCL) |
|||
*/ |
|||
/* Operation clock source selection for RTC (RTCCL7) */ |
|||
#define _00_CGC_RTC_FMX (0x00U) /* RTC uses External Main clock (fMX) */ |
|||
#define _80_CGC_RTC_FIH (0x80U) /* RTC uses Internal high speed clock (fIH) */ |
|||
/* Operation selection of RTC macro (RTCCL6,RTCCKS1 - RTCCKS0) */ |
|||
#define _00_CGC_RTC_FSUB (0x00U) /* RTC uses sub clock */ |
|||
#define _02_CGC_RTC_DIV128 (0x02U) /* RTC uses high-speed clock / 128 */ |
|||
#define _03_CGC_RTC_DIV256 (0x03U) /* RTC uses high-speed clock / 256 */ |
|||
#define _42_CGC_RTC_DIV122 (0x42U) /* RTC uses high-speed clock / 122 */ |
|||
#define _43_CGC_RTC_DIV244 (0x43U) /* RTC uses high-speed clock / 244 */ |
|||
|
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
typedef enum |
|||
{ |
|||
HIOCLK, |
|||
SYSX1CLK, |
|||
SYSEXTCLK, |
|||
SUBXT1CLK, |
|||
SUBEXTCLK |
|||
} clock_mode_t; |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
void R_CGC_Create(void); |
|||
void R_CGC_Get_ResetSource(void); |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,64 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_cgc_user.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for CGC module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_cgc.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_CGC_Get_ResetSource |
|||
* Description : This function process of Reset. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_CGC_Get_ResetSource(void) |
|||
{ |
|||
uint8_t reset_flag = RESF; |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,89 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_macrodriver.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements general head file. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef STATUS_H |
|||
#define STATUS_H |
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "iodefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
#ifndef __TYPEDEF__ |
|||
#define DI __DI |
|||
#define EI __EI |
|||
#define HALT __halt |
|||
#define NOP __nop |
|||
#define STOP __stop |
|||
#define BRK __brk |
|||
|
|||
/* Status list definition */ |
|||
#define MD_STATUSBASE 0x00U |
|||
#define MD_OK (MD_STATUSBASE + 0x00U) /* register setting OK */ |
|||
#define MD_SPT (MD_STATUSBASE + 0x01U) /* IIC stop */ |
|||
#define MD_NACK (MD_STATUSBASE + 0x02U) /* IIC no ACK */ |
|||
#define MD_BUSY1 (MD_STATUSBASE + 0x03U) /* busy 1 */ |
|||
#define MD_BUSY2 (MD_STATUSBASE + 0x04U) /* busy 2 */ |
|||
#define MD_OVERRUN (MD_STATUSBASE + 0x05U) /* IIC OVERRUN occur */ |
|||
|
|||
/* Error list definition */ |
|||
#define MD_ERRORBASE 0x80U |
|||
#define MD_ERROR (MD_ERRORBASE + 0x00U) /* error */ |
|||
#define MD_ARGERROR (MD_ERRORBASE + 0x01U) /* error agrument input error */ |
|||
#define MD_ERROR1 (MD_ERRORBASE + 0x02U) /* error 1 */ |
|||
#define MD_ERROR2 (MD_ERRORBASE + 0x03U) /* error 2 */ |
|||
#define MD_ERROR3 (MD_ERRORBASE + 0x04U) /* error 3 */ |
|||
#define MD_ERROR4 (MD_ERRORBASE + 0x05U) /* error 4 */ |
|||
#define MD_DATAEXISTS (MD_ERRORBASE + 0x06U) /* data to be transferred next exists in TXBn register */ |
|||
#endif |
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
#ifndef __TYPEDEF__ |
|||
typedef signed char int8_t; |
|||
typedef unsigned char uint8_t; |
|||
typedef signed short int16_t; |
|||
typedef unsigned short uint16_t; |
|||
typedef signed long int32_t; |
|||
typedef unsigned long uint32_t; |
|||
typedef unsigned short MD_STATUS; |
|||
#define __TYPEDEF__ |
|||
#endif |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
|
|||
#endif |
|||
@ -0,0 +1,63 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_port.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for PORT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_port.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_PORT_Create |
|||
* Description : This function initializes the Port I/O. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_PORT_Create(void) |
|||
{ |
|||
P13 = _00_Pn0_OUTPUT_0; |
|||
POM6 = _04_POMn2_NCH_ON | _08_POMn3_NCH_ON; |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,265 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_port.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for PORT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef PORT_H |
|||
#define PORT_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
/*
|
|||
Port Mode Register (PMm) |
|||
*/ |
|||
/* Pmn pin I/O mode selection (PMm7 - PMm0) */ |
|||
#define _01_PMn0_NOT_USE (0x01U) /* not use Pn0 as digital I/O */ |
|||
#define _01_PMn0_MODE_INPUT (0x01U) /* use Pn0 as input mode */ |
|||
#define _00_PMn0_MODE_OUTPUT (0x00U) /* use Pn0 as output mode */ |
|||
#define _02_PMn1_NOT_USE (0x02U) /* not use Pn1 as digital I/O */ |
|||
#define _02_PMn1_MODE_INPUT (0x02U) /* use Pn1 as input mode */ |
|||
#define _00_PMn1_MODE_OUTPUT (0x00U) /* use Pn1 as output mode */ |
|||
#define _04_PMn2_NOT_USE (0x04U) /* not use Pn2 as digital I/O */ |
|||
#define _04_PMn2_MODE_INPUT (0x04U) /* use Pn2 as input mode */ |
|||
#define _00_PMn2_MODE_OUTPUT (0x00U) /* use Pn2 as output mode */ |
|||
#define _08_PMn3_NOT_USE (0x08U) /* not use Pn3 as digital I/O */ |
|||
#define _08_PMn3_MODE_INPUT (0x08U) /* use Pn3 as input mode */ |
|||
#define _00_PMn3_MODE_OUTPUT (0x00U) /* use Pn3 as output mode */ |
|||
#define _10_PMn4_NOT_USE (0x10U) /* not use Pn4 as digital I/O */ |
|||
#define _10_PMn4_MODE_INPUT (0x10U) /* use Pn4 as input mode */ |
|||
#define _00_PMn4_MODE_OUTPUT (0x00U) /* use Pn4 as output mode */ |
|||
#define _20_PMn5_NOT_USE (0x20U) /* not use Pn5 as digital I/O */ |
|||
#define _20_PMn5_MODE_INPUT (0x20U) /* use Pn5 as input mode */ |
|||
#define _00_PMn5_MODE_OUTPUT (0x00U) /* use Pn5 as output mode */ |
|||
#define _40_PMn6_NOT_USE (0x40U) /* not use Pn6 as digital I/O */ |
|||
#define _40_PMn6_MODE_INPUT (0x40U) /* use Pn6 as input mode */ |
|||
#define _00_PMn6_MODE_OUTPUT (0x00U) /* use Pn6 as output mode */ |
|||
#define _80_PMn7_NOT_USE (0x80U) /* not use Pn7 as digital I/O */ |
|||
#define _80_PMn7_MODE_INPUT (0x80U) /* use Pn7 as input mode */ |
|||
#define _00_PMn7_MODE_OUTPUT (0x00U) /* use Pn7 as output mode */ |
|||
|
|||
/*
|
|||
Port Register (Pm) |
|||
*/ |
|||
/* Pmn pin data (Pm0 to Pm7) */ |
|||
#define _00_Pn0_OUTPUT_0 (0x00U) /* Pn0 output 0 */ |
|||
#define _01_Pn0_OUTPUT_1 (0x01U) /* Pn0 output 1 */ |
|||
#define _00_Pn1_OUTPUT_0 (0x00U) /* Pn1 output 0 */ |
|||
#define _02_Pn1_OUTPUT_1 (0x02U) /* Pn1 output 1 */ |
|||
#define _00_Pn2_OUTPUT_0 (0x00U) /* Pn2 output 0 */ |
|||
#define _04_Pn2_OUTPUT_1 (0x04U) /* Pn2 output 1 */ |
|||
#define _00_Pn3_OUTPUT_0 (0x00U) /* Pn3 output 0 */ |
|||
#define _08_Pn3_OUTPUT_1 (0x08U) /* Pn3 output 1 */ |
|||
#define _00_Pn4_OUTPUT_0 (0x00U) /* Pn4 output 0 */ |
|||
#define _10_Pn4_OUTPUT_1 (0x10U) /* Pn4 output 1 */ |
|||
#define _00_Pn5_OUTPUT_0 (0x00U) /* Pn5 output 0 */ |
|||
#define _20_Pn5_OUTPUT_1 (0x20U) /* Pn5 output 1 */ |
|||
#define _00_Pn6_OUTPUT_0 (0x00U) /* Pn6 output 0 */ |
|||
#define _40_Pn6_OUTPUT_1 (0x40U) /* Pn6 output 1 */ |
|||
#define _00_Pn7_OUTPUT_0 (0x00U) /* Pn7 output 0 */ |
|||
#define _80_Pn7_OUTPUT_1 (0x80U) /* Pn7 output 1 */ |
|||
|
|||
/*
|
|||
Pull-up Resistor Option Register (PUm) |
|||
*/ |
|||
/* Pmn pin on-chip pull-up resistor selection (PUmn) */ |
|||
#define _00_PUn0_PULLUP_OFF (0x00U) /* Pn0 pull-up resistor not connected */ |
|||
#define _01_PUn0_PULLUP_ON (0x01U) /* Pn0 pull-up resistor connected */ |
|||
#define _00_PUn1_PULLUP_OFF (0x00U) /* Pn1 pull-up resistor not connected */ |
|||
#define _02_PUn1_PULLUP_ON (0x02U) /* Pn1 pull-up resistor connected */ |
|||
#define _00_PUn2_PULLUP_OFF (0x00U) /* Pn2 Pull-up resistor not connected */ |
|||
#define _04_PUn2_PULLUP_ON (0x04U) /* Pn2 pull-up resistor connected */ |
|||
#define _00_PUn3_PULLUP_OFF (0x00U) /* Pn3 pull-up resistor not connected */ |
|||
#define _08_PUn3_PULLUP_ON (0x08U) /* Pn3 pull-up resistor connected */ |
|||
#define _00_PUn4_PULLUP_OFF (0x00U) /* Pn4 pull-up resistor not connected */ |
|||
#define _10_PUn4_PULLUP_ON (0x10U) /* Pn4 pull-up resistor connected */ |
|||
#define _00_PUn5_PULLUP_OFF (0x00U) /* Pn5 pull-up resistor not connected */ |
|||
#define _20_PUn5_PULLUP_ON (0x20U) /* Pn5 pull-up resistor connected */ |
|||
#define _00_PUn6_PULLUP_OFF (0x00U) /* Pn6 pull-up resistor not connected */ |
|||
#define _40_PUn6_PULLUP_ON (0x40U) /* Pn6 pull-up resistor connected */ |
|||
#define _00_PUn7_PULLUP_OFF (0x00U) /* Pn7 pull-up resistor not connected */ |
|||
#define _80_PUn7_PULLUP_ON (0x80U) /* Pn7 pull-up resistor connected */ |
|||
|
|||
/*
|
|||
Port Input Mode Register (PIMm) |
|||
*/ |
|||
/* Pmn pin input buffer selection (PIMmn) */ |
|||
#define _00_PIMn0_TTL_OFF (0x00U) /* set Pn0 normal input buffer */ |
|||
#define _01_PIMn0_TTL_ON (0x01U) /* set Pn0 TTL input buffer */ |
|||
#define _00_PIMn1_TTL_OFF (0x00U) /* set Pn1 normal input buffer */ |
|||
#define _02_PIMn1_TTL_ON (0x02U) /* set Pn1 TTL input buffer */ |
|||
#define _00_PIMn2_TTL_OFF (0x00U) /* set Pn2 normal input buffer */ |
|||
#define _04_PIMn2_TTL_ON (0x04U) /* set Pn2 TTL input buffer */ |
|||
#define _00_PIMn3_TTL_OFF (0x00U) /* set Pn3 normal input buffer */ |
|||
#define _08_PIMn3_TTL_ON (0x08U) /* set Pn3 TTL input buffer */ |
|||
#define _00_PIMn4_TTL_OFF (0x00U) /* set Pn4 normal input buffer */ |
|||
#define _10_PIMn4_TTL_ON (0x10U) /* set Pn4 TTL input buffer */ |
|||
#define _00_PIMn5_TTL_OFF (0x00U) /* set Pn5 normal input buffer */ |
|||
#define _20_PIMn5_TTL_ON (0x20U) /* set Pn5 TTL input buffer */ |
|||
#define _00_PIMn6_TTL_OFF (0x00U) /* set Pn6 normal input buffer */ |
|||
#define _40_PIMn6_TTL_ON (0x40U) /* set Pn6 TTL input buffer */ |
|||
#define _00_PIMn7_TTL_OFF (0x00U) /* set Pn7 normal input buffer */ |
|||
#define _80_PIMn7_TTL_ON (0x80U) /* set Pn7 TTL input buffer */ |
|||
|
|||
/*
|
|||
Port Input Threshold Control Register (PITHLm) |
|||
*/ |
|||
/* Pmn pin input threshold selection (PITHLmn) */ |
|||
#define _00_PITHLn0_SCHMITT3_OFF (0x00U) /* set Pn0 schmitt 1 input (default) */ |
|||
#define _01_PITHLn0_SCHMITT3_ON (0x01U) /* set Pn0 schmitt 3 input */ |
|||
#define _00_PITHLn1_SCHMITT3_OFF (0x00U) /* set Pn1 schmitt 1 input (default) */ |
|||
#define _02_PITHLn1_SCHMITT3_ON (0x02U) /* set Pn1 schmitt 3 input */ |
|||
#define _00_PITHLn2_SCHMITT3_OFF (0x00U) /* set Pn2 schmitt 1 input (default) */ |
|||
#define _04_PITHLn2_SCHMITT3_ON (0x04U) /* set Pn2 schmitt 3 input */ |
|||
#define _00_PITHLn3_SCHMITT3_OFF (0x00U) /* set Pn3 schmitt 1 input (default) */ |
|||
#define _08_PITHLn3_SCHMITT3_ON (0x08U) /* set Pn3 schmitt 3 input */ |
|||
#define _00_PITHLn4_SCHMITT3_OFF (0x00U) /* set Pn4 schmitt 1 input (default) */ |
|||
#define _10_PITHLn4_SCHMITT3_ON (0x10U) /* set Pn4 schmitt 3 input */ |
|||
#define _00_PITHLn5_SCHMITT3_OFF (0x00U) /* set Pn5 schmitt 1 input (default) */ |
|||
#define _20_PITHLn5_SCHMITT3_ON (0x20U) /* set Pn5 schmitt 3 input */ |
|||
#define _00_PITHLn6_SCHMITT3_OFF (0x00U) /* set Pn6 schmitt 1 input (default) */ |
|||
#define _40_PITHLn6_SCHMITT3_ON (0x40U) /* set Pn6 schmitt 3 input */ |
|||
#define _00_PITHLn7_SCHMITT3_OFF (0x00U) /* set Pn7 schmitt 1 input (default) */ |
|||
#define _80_PITHLn7_SCHMITT3_ON (0x80U) /* set Pn7 schmitt 3 input */ |
|||
|
|||
/*
|
|||
Port Output Mode Register (POMm) |
|||
*/ |
|||
/* Pmn pin output mode selection (POMmn) */ |
|||
#define _00_POMn0_NCH_OFF (0x00U) /* set Pn0 output normal mode */ |
|||
#define _01_POMn0_NCH_ON (0x01U) /* set Pn0 output N-ch open-drain mode */ |
|||
#define _00_POMn1_NCH_OFF (0x00U) /* set Pn1 output normal mode */ |
|||
#define _02_POMn1_NCH_ON (0x02U) /* set Pn1 output N-ch open-drain mode */ |
|||
#define _00_POMn2_NCH_OFF (0x00U) /* set Pn2 output normal mode */ |
|||
#define _04_POMn2_NCH_ON (0x04U) /* set Pn2 output N-ch open-drain mode */ |
|||
#define _00_POMn3_NCH_OFF (0x00U) /* set Pn3 output normal mode */ |
|||
#define _08_POMn3_NCH_ON (0x08U) /* set Pn3 output N-ch open-drain mode */ |
|||
#define _00_POMn4_NCH_OFF (0x00U) /* set Pn4 output normal mode */ |
|||
#define _10_POMn4_NCH_ON (0x10U) /* set Pn4 output N-ch open-drain mode */ |
|||
#define _00_POMn5_NCH_OFF (0x00U) /* set Pn5 output normal mode */ |
|||
#define _20_POMn5_NCH_ON (0x20U) /* set Pn5 output N-ch open-drain mode */ |
|||
#define _00_POMn6_NCH_OFF (0x00U) /* set Pn6 output normal mode */ |
|||
#define _40_POMn6_NCH_ON (0x40U) /* set Pn6 output N-ch open-drain mode */ |
|||
#define _00_POMn7_NCH_OFF (0x00U) /* set Pn7 output normal mode */ |
|||
#define _80_POMn7_NCH_ON (0x80U) /* set Pn7 output N-ch open-drain mode */ |
|||
|
|||
/*
|
|||
Port Operation Mode Register (PMCm) |
|||
*/ |
|||
/* Pmn pin digital input buffer selection (PMCmn) */ |
|||
#define _01_PMCn0_NOT_USE (0x01U) /* not use Pn0 digital input */ |
|||
#define _00_PMCn0_DI_ON (0x00U) /* enable Pn0 digital input */ |
|||
#define _02_PMCn1_NOT_USE (0x02U) /* not use Pn1 digital input */ |
|||
#define _00_PMCn1_DI_ON (0x00U) /* enable Pn1 digital input */ |
|||
#define _04_PMCn2_NOT_USE (0x04U) /* not use Pn2 digital input */ |
|||
#define _00_PMCn2_DI_ON (0x00U) /* enable Pn2 digital input */ |
|||
#define _08_PMCn3_NOT_USE (0x08U) /* not use Pn3 digital input */ |
|||
#define _00_PMCn3_DI_ON (0x00U) /* enable Pn3 digital input */ |
|||
#define _10_PMCn4_NOT_USE (0x10U) /* not use Pn4 digital input */ |
|||
#define _00_PMCn4_DI_ON (0x00U) /* enable Pn4 digital input */ |
|||
#define _20_PMCn5_NOT_USE (0x20U) /* not use Pn5 digital input */ |
|||
#define _00_PMCn5_DI_ON (0x00U) /* enable Pn5 digital input */ |
|||
#define _40_PMCn6_NOT_USE (0x40U) /* not use Pn6 digital input */ |
|||
#define _00_PMCn6_DI_ON (0x00U) /* enable Pn6 digital input */ |
|||
#define _80_PMCn7_NOT_USE (0x80U) /* not use Pn7 digital input */ |
|||
#define _00_PMCn7_DI_ON (0x00U) /* enable Pn7 digital input */ |
|||
|
|||
/*
|
|||
Port output slew rate select register (PSRSEL) |
|||
*/ |
|||
/* P140/PCLBUZ0 pin output mode selection (PSR140) */ |
|||
#define _00_PSR140_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _20_PSR140_SLOW (0x20U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
/* P14/SCK01/SCL01/TO06/TRDIOC0 pin output mode selection (PSR14) */ |
|||
#define _00_PSR14_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _10_PSR14_SLOW (0x10U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
/* P120/SO01/TO07/TRDIOD0 pin output mode selection (PSR120) */ |
|||
#define _00_PSR120_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _08_PSR120_SLOW (0x08U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
/* P30/TO01/TRDIOD1/SNZOUT0 pin output mode selection (PSR30) */ |
|||
#define _00_PSR30_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _04_PSR30_SLOW (0x04U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
/* P12/SO10/TO11/(TRDIOD0)/TXD1/SNZOUT3 pin output mode selection (PSR12) */ |
|||
#define _00_PSR12_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _02_PSR12_SLOW (0x02U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
/* P10/SCK10/TO13/TRJO0/SCL10/LTXD1/CTXD0 pin output mode selection (PSR10) */ |
|||
#define _00_PSR10_NORMAL (0x00U) /* normal mode (5 V/5 ns) */ |
|||
#define _01_PSR10_SLOW (0x01U) /* slow mode (25 V/5 ns (target) (TYP.)) */ |
|||
|
|||
|
|||
/*
|
|||
AD port configuration register (ADPC) |
|||
*/ |
|||
/* Analog input/digital input switching (ADPC4 - ADPC0) */ |
|||
#define _00_ADPC_DI_OFF (0x00U) /* use P33, P34, P80 - P87, P90 - P97, P100 - P105 as analog input */ |
|||
#define _18_ADPC_DI_ON (0x18U) /* use P105 as digital input */ |
|||
#define _17_ADPC_DI_ON (0x17U) /* use P104 - P105 as digital input */ |
|||
#define _16_ADPC_DI_ON (0x16U) /* use P103 - P105 as digital input */ |
|||
#define _15_ADPC_DI_ON (0x15U) /* use P102 - P105 as digital input */ |
|||
#define _14_ADPC_DI_ON (0x14U) /* use P101 - P105 as digital input */ |
|||
#define _13_ADPC_DI_ON (0x13U) /* use P100 - P105 as digital input */ |
|||
#define _12_ADPC_DI_ON (0x12U) /* use P97, P100 - P105 as digital input */ |
|||
#define _11_ADPC_DI_ON (0x11U) /* use P96 - P97, P100 - P105 as digital input */ |
|||
#define _10_ADPC_DI_ON (0x10U) /* use P95 - P97, P100 - P105 as digital input */ |
|||
#define _0F_ADPC_DI_ON (0x0FU) /* use P94 - P97, P100 - P105 as digital input */ |
|||
#define _0E_ADPC_DI_ON (0x0EU) /* use P93 - P97, P100 - P105 as digital input */ |
|||
#define _0D_ADPC_DI_ON (0x0DU) /* use P92 - P97, P100 - P105 as digital input */ |
|||
#define _0C_ADPC_DI_ON (0x0CU) /* use P91 - P97, P100 - P105 as digital input */ |
|||
#define _0B_ADPC_DI_ON (0x0BU) /* use P90 - P97, P100 - P105 as digital input */ |
|||
#define _0A_ADPC_DI_ON (0x0AU) /* use P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _09_ADPC_DI_ON (0x09U) /* use P86 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _08_ADPC_DI_ON (0x08U) /* use P85 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _07_ADPC_DI_ON (0x07U) /* use P84 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _06_ADPC_DI_ON (0x06U) /* use P83 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _05_ADPC_DI_ON (0x05U) /* use P82 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _04_ADPC_DI_ON (0x04U) /* use P81 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _03_ADPC_DI_ON (0x03U) /* use P80 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _02_ADPC_DI_ON (0x02U) /* use P34, P80 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
#define _01_ADPC_DI_ON (0x01U) /* use P33, P34, P80 - P87, P90 - P97, P100 - P105 as digital input */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
#define _F0_PM0_DEFAULT (0xF0U) /* PM0 default value */ |
|||
#define _E0_PM3_DEFAULT (0xE0U) /* PM3 default value */ |
|||
#define _1E_PM12_DEFAULT (0x1EU) /* PM12 default value */ |
|||
#define _FE_PM14_DEFAULT (0xFEU) /* PM14 default value */ |
|||
#define _E0_PMC7_DEFAULT (0xE0U) /* PMC7 default value */ |
|||
#define _DE_PMC12_DEFAULT (0xDEU) /* PMC12 default value */ |
|||
|
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
void R_PORT_Create(void); |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,51 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_port_user.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for PORT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_port.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,530 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_serial.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for Serial module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_serial.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
volatile uint8_t * gp_uart0_tx_address; /* uart0 transmit buffer address */ |
|||
volatile uint16_t g_uart0_tx_count; /* uart0 transmit data number */ |
|||
volatile uint8_t * gp_uart0_rx_address; /* uart0 receive buffer address */ |
|||
volatile uint16_t g_uart0_rx_count; /* uart0 receive data number */ |
|||
volatile uint16_t g_uart0_rx_length; /* uart0 receive data length */ |
|||
volatile uint8_t * gp_uart1_tx_address; /* uart1 transmit buffer address */ |
|||
volatile uint16_t g_uart1_tx_count; /* uart1 transmit data number */ |
|||
volatile uint8_t * gp_uart1_rx_address; /* uart1 receive buffer address */ |
|||
volatile uint16_t g_uart1_rx_count; /* uart1 receive data number */ |
|||
volatile uint16_t g_uart1_rx_length; /* uart1 receive data length */ |
|||
volatile uint8_t g_iica0_master_status_flag; /* iica0 master flag */ |
|||
volatile uint8_t g_iica0_slave_status_flag; /* iica0 slave flag */ |
|||
volatile uint8_t * gp_iica0_rx_address; /* iica0 receive buffer address */ |
|||
volatile uint16_t g_iica0_rx_len; /* iica0 receive data length */ |
|||
volatile uint16_t g_iica0_rx_cnt; /* iica0 receive data count */ |
|||
volatile uint8_t * gp_iica0_tx_address; /* iica0 send buffer address */ |
|||
volatile uint16_t g_iica0_tx_cnt; /* iica0 send data count */ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_SAU0_Create |
|||
* Description : This function initializes the SAU0 module. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_SAU0_Create(void) |
|||
{ |
|||
SAU0EN = 1U; /* supply SAU0 clock */ |
|||
NOP(); |
|||
NOP(); |
|||
NOP(); |
|||
NOP(); |
|||
SPS0 = _0000_SAU_CK00_FCLK_0 | _0000_SAU_CK01_FCLK_0; |
|||
R_UART0_Create(); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART0_Create |
|||
* Description : This function initializes the UART0 module. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART0_Create(void) |
|||
{ |
|||
ST0 |= _0002_SAU_CH1_STOP_TRG_ON | _0001_SAU_CH0_STOP_TRG_ON; /* disable UART0 receive and transmit */ |
|||
STMK0 = 1U; /* disable INTST0 interrupt */ |
|||
STIF0 = 0U; /* clear INTST0 interrupt flag */ |
|||
SRMK0 = 1U; /* disable INTSR0 interrupt */ |
|||
SRIF0 = 0U; /* clear INTSR0 interrupt flag */ |
|||
/* Set INTST0 low priority */ |
|||
STPR10 = 1U; |
|||
STPR00 = 1U; |
|||
/* Set INTSR0 low priority */ |
|||
SRPR10 = 1U; |
|||
SRPR00 = 1U; |
|||
SMR00 = _0020_SAU_SMRMN_INITIALVALUE | _0000_SAU_CLOCK_SELECT_CK00 | _0000_SAU_TRIGGER_SOFTWARE | |
|||
_0002_SAU_MODE_UART | _0000_SAU_TRANSFER_END; |
|||
SCR00 = _8000_SAU_TRANSMISSION | _0000_SAU_PARITY_NONE | _0080_SAU_LSB | _0010_SAU_STOP_1 | _0007_SAU_LENGTH_8; |
|||
SDR00 = _4400_UART0_TRANSMIT_DIVISOR; |
|||
NFEN0 |= _01_SAU_RXD0_FILTER_ON; |
|||
SIR01 = _0004_SAU_SIRMN_FECTMN | _0002_SAU_SIRMN_PECTMN | _0001_SAU_SIRMN_OVCTMN; /* clear error flag */ |
|||
SMR01 = _0020_SAU_SMRMN_INITIALVALUE | _0000_SAU_CLOCK_SELECT_CK00 | _0100_SAU_TRIGGER_RXD | _0000_SAU_EDGE_FALL | |
|||
_0002_SAU_MODE_UART | _0000_SAU_TRANSFER_END; |
|||
SCR01 = _4000_SAU_RECEPTION | _0000_SAU_PARITY_NONE | _0080_SAU_LSB | _0010_SAU_STOP_1 | _0007_SAU_LENGTH_8; |
|||
SDR01 = _4400_UART0_RECEIVE_DIVISOR; |
|||
SO0 |= _0001_SAU_CH0_DATA_OUTPUT_1; |
|||
SOL0 |= _0000_SAU_CHANNEL0_NORMAL; /* output level normal */ |
|||
SOE0 |= _0001_SAU_CH0_OUTPUT_ENABLE; /* enable UART0 output */ |
|||
/* Set RxD0 pin */ |
|||
PM1 |= 0x40U; |
|||
/* Set TxD0 pin */ |
|||
P1 |= 0x20U; |
|||
PM1 &= 0xDFU; |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART0_Start |
|||
* Description : This function starts the UART0 module operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART0_Start(void) |
|||
{ |
|||
SO0 |= _0001_SAU_CH0_DATA_OUTPUT_1; /* output level normal */ |
|||
SOE0 |= _0001_SAU_CH0_OUTPUT_ENABLE; /* enable UART0 output */ |
|||
SS0 |= _0002_SAU_CH1_START_TRG_ON | _0001_SAU_CH0_START_TRG_ON; /* enable UART0 receive and transmit */ |
|||
STIF0 = 0U; /* clear INTST0 interrupt flag */ |
|||
SRIF0 = 0U; /* clear INTSR0 interrupt flag */ |
|||
STMK0 = 0U; /* enable INTST0 interrupt */ |
|||
SRMK0 = 0U; /* enable INTSR0 interrupt */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART0_Stop |
|||
* Description : This function stops the UART0 module operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART0_Stop(void) |
|||
{ |
|||
STMK0 = 1U; /* disable INTST0 interrupt */ |
|||
SRMK0 = 1U; /* disable INTSR0 interrupt */ |
|||
ST0 |= _0002_SAU_CH1_STOP_TRG_ON | _0001_SAU_CH0_STOP_TRG_ON; /* disable UART0 receive and transmit */ |
|||
SOE0 &= ~_0001_SAU_CH0_OUTPUT_ENABLE; /* disable UART0 output */ |
|||
STIF0 = 0U; /* clear INTST0 interrupt flag */ |
|||
SRIF0 = 0U; /* clear INTSR0 interrupt flag */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART0_Receive |
|||
* Description : This function receives UART0 data. |
|||
* Arguments : rx_buf - |
|||
* receive buffer pointer |
|||
* rx_num - |
|||
* buffer size |
|||
* Return Value : status - |
|||
* MD_OK or MD_ARGERROR |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_UART0_Receive(uint8_t * const rx_buf, uint16_t rx_num) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
if (rx_num < 1U) |
|||
{ |
|||
status = MD_ARGERROR; |
|||
} |
|||
else |
|||
{ |
|||
g_uart0_rx_count = 0U; |
|||
g_uart0_rx_length = rx_num; |
|||
gp_uart0_rx_address = rx_buf; |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART0_Send |
|||
* Description : This function sends UART0 data. |
|||
* Arguments : tx_buf - |
|||
* transfer buffer pointer |
|||
* tx_num - |
|||
* buffer size |
|||
* Return Value : status - |
|||
* MD_OK or MD_ARGERROR |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_UART0_Send(uint8_t * const tx_buf, uint16_t tx_num) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
if (tx_num < 1U) |
|||
{ |
|||
status = MD_ARGERROR; |
|||
} |
|||
else |
|||
{ |
|||
gp_uart0_tx_address = tx_buf; |
|||
g_uart0_tx_count = tx_num; |
|||
STMK0 = 1U; /* disable INTST0 interrupt */ |
|||
SDR00L = *gp_uart0_tx_address; |
|||
gp_uart0_tx_address++; |
|||
g_uart0_tx_count--; |
|||
STMK0 = 0U; /* enable INTST0 interrupt */ |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_SAU1_Create |
|||
* Description : This function initializes the SAU1 module. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_SAU1_Create(void) |
|||
{ |
|||
SAU1EN = 1U; /* supply SAU1 clock */ |
|||
NOP(); |
|||
NOP(); |
|||
NOP(); |
|||
NOP(); |
|||
SPS1 = _0000_SAU_CK00_FCLK_0 | _0000_SAU_CK01_FCLK_0; |
|||
R_UART1_Create(); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART1_Create |
|||
* Description : This function initializes the UART1 module. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART1_Create(void) |
|||
{ |
|||
ST1 |= _0002_SAU_CH1_STOP_TRG_ON | _0001_SAU_CH0_STOP_TRG_ON; /* disable UART1 receive and transmit */ |
|||
STMK1 = 1U; /* disable INTST1 interrupt */ |
|||
STIF1 = 0U; /* clear INTST1 interrupt flag */ |
|||
SRMK1 = 1U; /* disable INTSR1 interrupt */ |
|||
SRIF1 = 0U; /* clear INTSR1 interrupt flag */ |
|||
/* Set INTST1 low priority */ |
|||
STPR11 = 1U; |
|||
STPR01 = 1U; |
|||
/* Set INTSR1 low priority */ |
|||
SRPR11 = 1U; |
|||
SRPR01 = 1U; |
|||
SMR10 = _0020_SAU_SMRMN_INITIALVALUE | _0000_SAU_CLOCK_SELECT_CK00 | _0000_SAU_TRIGGER_SOFTWARE | |
|||
_0002_SAU_MODE_UART | _0000_SAU_TRANSFER_END; |
|||
SCR10 = _8000_SAU_TRANSMISSION | _0000_SAU_PARITY_NONE | _0080_SAU_LSB | _0010_SAU_STOP_1 | _0007_SAU_LENGTH_8; |
|||
SDR10 = _4400_UART1_TRANSMIT_DIVISOR; |
|||
NFEN0 |= _04_SAU_RXD1_FILTER_ON; |
|||
SIR11 = _0004_SAU_SIRMN_FECTMN | _0002_SAU_SIRMN_PECTMN | _0001_SAU_SIRMN_OVCTMN; /* clear error flag */ |
|||
SMR11 = _0020_SAU_SMRMN_INITIALVALUE | _0000_SAU_CLOCK_SELECT_CK00 | _0100_SAU_TRIGGER_RXD | _0000_SAU_EDGE_FALL | |
|||
_0002_SAU_MODE_UART | _0000_SAU_TRANSFER_END; |
|||
SCR11 = _4000_SAU_RECEPTION | _0000_SAU_PARITY_NONE | _0080_SAU_LSB | _0010_SAU_STOP_1 | _0007_SAU_LENGTH_8; |
|||
SDR11 = _4400_UART1_RECEIVE_DIVISOR; |
|||
SO1 |= _0001_SAU_CH0_DATA_OUTPUT_1; |
|||
SOL1 |= _0000_SAU_CHANNEL0_NORMAL; /* output level normal */ |
|||
SOE1 |= _0001_SAU_CH0_OUTPUT_ENABLE; /* enable UART1 output */ |
|||
/* Set RxD1 pin */ |
|||
PM1 |= 0x02U; |
|||
/* Set TxD1 pin */ |
|||
P1 |= 0x04U; |
|||
PM1 &= 0xFBU; |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART1_Start |
|||
* Description : This function starts the UART1 module operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART1_Start(void) |
|||
{ |
|||
SO1 |= _0001_SAU_CH0_DATA_OUTPUT_1; /* output level normal */ |
|||
SOE1 |= _0001_SAU_CH0_OUTPUT_ENABLE; /* enable UART1 output */ |
|||
SS1 |= _0002_SAU_CH1_START_TRG_ON | _0001_SAU_CH0_START_TRG_ON; /* enable UART1 receive and transmit */ |
|||
STIF1 = 0U; /* clear INTST1 interrupt flag */ |
|||
SRIF1 = 0U; /* clear INTSR1 interrupt flag */ |
|||
STMK1 = 0U; /* enable INTST1 interrupt */ |
|||
SRMK1 = 0U; /* enable INTSR1 interrupt */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART1_Stop |
|||
* Description : This function stops the UART1 module operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_UART1_Stop(void) |
|||
{ |
|||
STMK1 = 1U; /* disable INTST1 interrupt */ |
|||
SRMK1 = 1U; /* disable INTSR1 interrupt */ |
|||
ST1 |= _0002_SAU_CH1_STOP_TRG_ON | _0001_SAU_CH0_STOP_TRG_ON; /* disable UART1 receive and transmit */ |
|||
SOE1 &= ~_0001_SAU_CH0_OUTPUT_ENABLE; /* disable UART1 output */ |
|||
STIF1 = 0U; /* clear INTST1 interrupt flag */ |
|||
SRIF1 = 0U; /* clear INTSR1 interrupt flag */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART1_Receive |
|||
* Description : This function receives UART1 data. |
|||
* Arguments : rx_buf - |
|||
* receive buffer pointer |
|||
* rx_num - |
|||
* buffer size |
|||
* Return Value : status - |
|||
* MD_OK or MD_ARGERROR |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_UART1_Receive(uint8_t * const rx_buf, uint16_t rx_num) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
if (rx_num < 1U) |
|||
{ |
|||
status = MD_ARGERROR; |
|||
} |
|||
else |
|||
{ |
|||
g_uart1_rx_count = 0U; |
|||
g_uart1_rx_length = rx_num; |
|||
gp_uart1_rx_address = rx_buf; |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_UART1_Send |
|||
* Description : This function sends UART1 data. |
|||
* Arguments : tx_buf - |
|||
* transfer buffer pointer |
|||
* tx_num - |
|||
* buffer size |
|||
* Return Value : status - |
|||
* MD_OK or MD_ARGERROR |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_UART1_Send(uint8_t * const tx_buf, uint16_t tx_num) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
if (tx_num < 1U) |
|||
{ |
|||
status = MD_ARGERROR; |
|||
} |
|||
else |
|||
{ |
|||
gp_uart1_tx_address = tx_buf; |
|||
g_uart1_tx_count = tx_num; |
|||
STMK1 = 1U; /* disable INTST1 interrupt */ |
|||
SDR10L = *gp_uart1_tx_address; |
|||
gp_uart1_tx_address++; |
|||
g_uart1_tx_count--; |
|||
STMK1 = 0U; /* enable INTST1 interrupt */ |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_IICA0_Create |
|||
* Description : This function initializes the IICA0 module. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_IICA0_Create(void) |
|||
{ |
|||
IICA0EN = 1U; /* supply IICA0 clock */ |
|||
IICE0 = 0U; /* disable IICA0 operation */ |
|||
IICAMK0 = 1U; /* disable INTIICA0 interrupt */ |
|||
IICAIF0 = 0U; /* clear INTIICA0 interrupt flag */ |
|||
/* Set INTIICA0 low priority */ |
|||
IICAPR10 = 1U; |
|||
IICAPR00 = 1U; |
|||
/* Set SCLA0, SDAA0 pin */ |
|||
P6 &= 0xF3U; |
|||
PM6 |= 0x0CU; |
|||
SMC0 = 0U; |
|||
IICWL0 = _4C_IICA0_IICWL_VALUE; |
|||
IICWH0 = _55_IICA0_IICWH_VALUE; |
|||
IICCTL01 |= _01_IICA_fCLK_HALF; |
|||
SVA0 = _10_IICA0_MASTERADDRESS; |
|||
STCEN0 = 1U; |
|||
IICRSV0 = 1U; |
|||
SPIE0 = 0U; |
|||
WTIM0 = 1U; |
|||
ACKE0 = 1U; |
|||
IICAMK0 = 0U; |
|||
IICE0 = 1U; |
|||
LREL0 = 1U; |
|||
/* Set SCLA0, SDAA0 pin */ |
|||
PM6 &= 0xF3U; |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_IICA0_Stop |
|||
* Description : This function stops IICA0 module operation. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_IICA0_Stop(void) |
|||
{ |
|||
IICE0 = 0U; /* disable IICA0 operation */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_IICA0_StopCondition |
|||
* Description : This function sets IICA0 stop condition flag. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_IICA0_StopCondition(void) |
|||
{ |
|||
SPT0 = 1U; /* set stop condition flag */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_IICA0_Master_Send |
|||
* Description : This function starts to send data as master mode. |
|||
* Arguments : adr - |
|||
* send address |
|||
* tx_buf - |
|||
* transfer buffer pointer |
|||
* tx_num - |
|||
* buffer size |
|||
* wait - |
|||
* wait for start condition |
|||
* Return Value : status - |
|||
* MD_OK or MD_ERROR1 or MD_ERROR2 |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_IICA0_Master_Send(uint8_t adr, uint8_t * const tx_buf, uint16_t tx_num, uint8_t wait) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
IICAMK0 = 1U; /* disable INTIICA0 interrupt */ |
|||
|
|||
if ((1U == IICBSY0) && (0U == MSTS0)) |
|||
{ |
|||
/* Check bus busy */ |
|||
IICAMK0 = 0U; /* enable INTIICA0 interrupt */ |
|||
status = MD_ERROR1; |
|||
} |
|||
else |
|||
{ |
|||
STT0 = 1U; /* send IICA0 start condition */ |
|||
IICAMK0 = 0U; /* enable INTIICA0 interrupt */ |
|||
|
|||
/* Wait */ |
|||
while (wait--) |
|||
{ |
|||
; |
|||
} |
|||
|
|||
if (0U == STD0) |
|||
{ |
|||
status = MD_ERROR2; |
|||
} |
|||
|
|||
/* Set parameter */ |
|||
g_iica0_tx_cnt = tx_num; |
|||
gp_iica0_tx_address = tx_buf; |
|||
g_iica0_master_status_flag = _00_IICA_MASTER_FLAG_CLEAR; |
|||
adr &= (uint8_t)~0x01U; /* set send mode */ |
|||
IICA0 = adr; /* send address */ |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_IICA0_Master_Receive |
|||
* Description : This function starts to receive IICA0 data as master mode. |
|||
* Arguments : adr - |
|||
* receive address |
|||
* rx_buf - |
|||
* receive buffer pointer |
|||
* rx_num - |
|||
* buffer size |
|||
* wait - |
|||
* wait for start condition |
|||
* Return Value : status - |
|||
* MD_OK or MD_ERROR1 or MD_ERROR2 |
|||
***********************************************************************************************************************/ |
|||
MD_STATUS R_IICA0_Master_Receive(uint8_t adr, uint8_t * const rx_buf, uint16_t rx_num, uint8_t wait) |
|||
{ |
|||
MD_STATUS status = MD_OK; |
|||
|
|||
IICAMK0 = 1U; /* disable INTIIA0 interrupt */ |
|||
|
|||
if ((1U == IICBSY0) && (0U == MSTS0)) |
|||
{ |
|||
/* Check bus busy */ |
|||
IICAMK0 = 0U; /* enable INTIIA0 interrupt */ |
|||
status = MD_ERROR1; |
|||
} |
|||
else |
|||
{ |
|||
STT0 = 1U; /* set IICA0 start condition */ |
|||
IICAMK0 = 0U; /* enable INTIIA0 interrupt */ |
|||
|
|||
/* Wait */ |
|||
while (wait--) |
|||
{ |
|||
; |
|||
} |
|||
|
|||
if (0U == STD0) |
|||
{ |
|||
status = MD_ERROR2; |
|||
} |
|||
|
|||
/* Set parameter */ |
|||
g_iica0_rx_len = rx_num; |
|||
g_iica0_rx_cnt = 0U; |
|||
gp_iica0_rx_address = rx_buf; |
|||
g_iica0_master_status_flag = _00_IICA_MASTER_FLAG_CLEAR; |
|||
adr |= 0x01U; /* set receive mode */ |
|||
IICA0 = adr; /* receive address */ |
|||
} |
|||
|
|||
return (status); |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,399 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_serial.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for Serial module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef SERIAL_H |
|||
#define SERIAL_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
/*
|
|||
Serial Clock Select Register m (SPSm) |
|||
*/ |
|||
/* Section of operation clock (CKm0) (PRSm03 - PRSm00) */ |
|||
#define _0000_SAU_CK00_FCLK_0 (0x0000U) /* ck00 - fCLK */ |
|||
#define _0001_SAU_CK00_FCLK_1 (0x0001U) /* ck00 - fCLK/2^1 */ |
|||
#define _0002_SAU_CK00_FCLK_2 (0x0002U) /* ck00 - fCLK/2^2 */ |
|||
#define _0003_SAU_CK00_FCLK_3 (0x0003U) /* ck00 - fCLK/2^3 */ |
|||
#define _0004_SAU_CK00_FCLK_4 (0x0004U) /* ck00 - fCLK/2^4 */ |
|||
#define _0005_SAU_CK00_FCLK_5 (0x0005U) /* ck00 - fCLK/2^5 */ |
|||
#define _0006_SAU_CK00_FCLK_6 (0x0006U) /* ck00 - fCLK/2^6 */ |
|||
#define _0007_SAU_CK00_FCLK_7 (0x0007U) /* ck00 - fCLK/2^7 */ |
|||
#define _0008_SAU_CK00_FCLK_8 (0x0008U) /* ck00 - fCLK/2^8 */ |
|||
#define _0009_SAU_CK00_FCLK_9 (0x0009U) /* ck00 - fCLK/2^9 */ |
|||
#define _000A_SAU_CK00_FCLK_10 (0x000AU) /* ck00 - fCLK/2^10 */ |
|||
#define _000B_SAU_CK00_FCLK_11 (0x000BU) /* ck00 - fCLK/2^11 */ |
|||
#define _000C_SAU_CK00_FCLK_12 (0x000CU) /* ck00 - fCLK/2^12 */ |
|||
#define _000D_SAU_CK00_FCLK_13 (0x000DU) /* ck00 - fCLK/2^13 */ |
|||
#define _000E_SAU_CK00_FCLK_14 (0x000EU) /* ck00 - fCLK/2^14 */ |
|||
#define _000F_SAU_CK00_FCLK_15 (0x000FU) /* ck00 - fCLK/2^15 */ |
|||
/* Section of operation clock (CKm1) (PRSm13 - PRSm10) */ |
|||
#define _0000_SAU_CK01_FCLK_0 (0x0000U) /* ck01 - fCLK */ |
|||
#define _0010_SAU_CK01_FCLK_1 (0x0010U) /* ck01 - fCLK/2^1 */ |
|||
#define _0020_SAU_CK01_FCLK_2 (0x0020U) /* ck01 - fCLK/2^2 */ |
|||
#define _0030_SAU_CK01_FCLK_3 (0x0030U) /* ck01 - fCLK/2^3 */ |
|||
#define _0040_SAU_CK01_FCLK_4 (0x0040U) /* ck01 - fCLK/2^4 */ |
|||
#define _0050_SAU_CK01_FCLK_5 (0x0050U) /* ck01 - fCLK/2^5 */ |
|||
#define _0060_SAU_CK01_FCLK_6 (0x0060U) /* ck01 - fCLK/2^6 */ |
|||
#define _0070_SAU_CK01_FCLK_7 (0x0070U) /* ck01 - fCLK/2^7 */ |
|||
#define _0080_SAU_CK01_FCLK_8 (0x0080U) /* ck01 - fCLK/2^8 */ |
|||
#define _0090_SAU_CK01_FCLK_9 (0x0090U) /* ck01 - fCLK/2^9 */ |
|||
#define _00A0_SAU_CK01_FCLK_10 (0x00A0U) /* ck01 - fCLK/2^10 */ |
|||
#define _00B0_SAU_CK01_FCLK_11 (0x00B0U) /* ck01 - fCLK/2^11 */ |
|||
#define _00C0_SAU_CK01_FCLK_12 (0x00C0U) /* ck01 - fCLK/2^12 */ |
|||
#define _00D0_SAU_CK01_FCLK_13 (0x00D0U) /* ck01 - fCLK/2^13 */ |
|||
#define _00E0_SAU_CK01_FCLK_14 (0x00E0U) /* ck01 - fCLK/2^14 */ |
|||
#define _00F0_SAU_CK01_FCLK_15 (0x00F0U) /* ck01 - fCLK/2^15 */ |
|||
|
|||
/*
|
|||
Serial Mode Register mn (SMRmn) |
|||
*/ |
|||
#define _0020_SAU_SMRMN_INITIALVALUE (0x0020U) |
|||
/* Selection of macro clock (MCK) of channel n (CKSmn) */ |
|||
#define _0000_SAU_CLOCK_SELECT_CK00 (0x0000U) /* operation clock CK0 set by PRS register */ |
|||
#define _8000_SAU_CLOCK_SELECT_CK01 (0x8000U) /* operation clock CK1 set by PRS register */ |
|||
/* Selection of transfer clock (TCLK) of channel n (CCSmn) */ |
|||
#define _0000_SAU_CLOCK_MODE_CKS (0x0000U) /* divided operation clock MCK specified by CKSmn bit */ |
|||
#define _4000_SAU_CLOCK_MODE_TI0N (0x4000U) /* clock input from SCK pin (slave transfer in CSI mode) */ |
|||
/* Selection of start trigger source (STSmn) */ |
|||
#define _0000_SAU_TRIGGER_SOFTWARE (0x0000U) /* only software trigger is valid */ |
|||
#define _0100_SAU_TRIGGER_RXD (0x0100U) /* valid edge of RXD pin */ |
|||
/* Controls inversion of level of receive data of channel n in UART mode (SISmn0) */ |
|||
#define _0000_SAU_EDGE_FALL (0x0000U) /* falling edge is detected as the start bit */ |
|||
#define _0040_SAU_EDGE_RISING (0x0040U) /* rising edge is detected as the start bit */ |
|||
/* Setting of operation mode of channel n (MDmn2, MDmn1) */ |
|||
#define _0000_SAU_MODE_CSI (0x0000U) /* CSI mode */ |
|||
#define _0002_SAU_MODE_UART (0x0002U) /* UART mode */ |
|||
#define _0004_SAU_MODE_IIC (0x0004U) /* simplified IIC mode */ |
|||
/* Selection of interrupt source of channel n (MDmn0) */ |
|||
#define _0000_SAU_TRANSFER_END (0x0000U) /* transfer end interrupt */ |
|||
#define _0001_SAU_BUFFER_EMPTY (0x0001U) /* buffer empty interrupt */ |
|||
|
|||
/*
|
|||
Serial Communication Operation Setting Register mn (SCRmn) |
|||
*/ |
|||
/* Setting of operation mode of channel n (TXEmn, RXEmn) */ |
|||
#define _0000_SAU_NOT_COMMUNICATION (0x0000U) /* does not start communication */ |
|||
#define _4000_SAU_RECEPTION (0x4000U) /* reception only */ |
|||
#define _8000_SAU_TRANSMISSION (0x8000U) /* transmission only */ |
|||
#define _C000_SAU_RECEPTION_TRANSMISSION (0xC000U) /* reception and transmission */ |
|||
/* Selection of data and clock phase in CSI mode (DAPmn, CKPmn) */ |
|||
#define _0000_SAU_TIMING_1 (0x0000U) /* type 1 */ |
|||
#define _1000_SAU_TIMING_2 (0x1000U) /* type 2 */ |
|||
#define _2000_SAU_TIMING_3 (0x2000U) /* type 3 */ |
|||
#define _3000_SAU_TIMING_4 (0x3000U) /* type 4 */ |
|||
/* Setting of parity bit in UART mode (PTCmn1 - PTCmn0) */ |
|||
#define _0000_SAU_PARITY_NONE (0x0000U) /* none parity */ |
|||
#define _0100_SAU_PARITY_ZERO (0x0100U) /* zero parity */ |
|||
#define _0200_SAU_PARITY_EVEN (0x0200U) /* even parity */ |
|||
#define _0300_SAU_PARITY_ODD (0x0300U) /* odd parity */ |
|||
/* Selection of data transfer sequence in CSI and UART modes (DIRmn) */ |
|||
#define _0000_SAU_MSB (0x0000U) /* MSB */ |
|||
#define _0080_SAU_LSB (0x0080U) /* LSB */ |
|||
/* Setting of stop bit in UART mode (SLCmn1, SLCmn0) */ |
|||
#define _0000_SAU_STOP_NONE (0x0000U) /* none stop bit */ |
|||
#define _0010_SAU_STOP_1 (0x0010U) /* 1 stop bit */ |
|||
#define _0020_SAU_STOP_2 (0x0020U) /* 2 stop bits */ |
|||
/* Setting of data length in CSI and UART modes (DLSmn3 - DLSmn0) (m = 0, 1) */ |
|||
#define _0006_SAU_LENGTH_7 (0x0006U) /* 07-bit data length */ |
|||
#define _0007_SAU_LENGTH_8 (0x0007U) /* 08-bit data length */ |
|||
#define _0008_SAU_LENGTH_9 (0x0008U) /* 09-bit data length */ |
|||
#define _0009_SAU_LENGTH_10 (0x0009U) /* 10-bit data length */ |
|||
#define _000A_SAU_LENGTH_11 (0x000AU) /* 11-bit data length */ |
|||
#define _000B_SAU_LENGTH_12 (0x000BU) /* 12-bit data length */ |
|||
#define _000C_SAU_LENGTH_13 (0x000CU) /* 13-bit data length */ |
|||
#define _000D_SAU_LENGTH_14 (0x000DU) /* 14-bit data length */ |
|||
#define _000E_SAU_LENGTH_15 (0x000EU) /* 15-bit data length */ |
|||
#define _000F_SAU_LENGTH_16 (0x000FU) /* 16-bit data length */ |
|||
|
|||
/*
|
|||
Serial Output Level Register m (SOLm) |
|||
*/ |
|||
/* Selects inversion of the level of the transmit data of channel n in UART mode */ |
|||
#define _0000_SAU_CHANNEL0_NORMAL (0x0000U) /* normal bit level */ |
|||
#define _0001_SAU_CHANNEL0_INVERTED (0x0001U) /* inverted bit level */ |
|||
|
|||
/*
|
|||
Noise Filter Enable Register 0 (NFEN0) |
|||
*/ |
|||
/* Use of noise filter */ |
|||
#define _00_SAU_RXD1_FILTER_OFF (0x00U) /* noise filter off */ |
|||
#define _04_SAU_RXD1_FILTER_ON (0x04U) /* noise filter on */ |
|||
#define _00_SAU_RXD0_FILTER_OFF (0x00U) /* noise filter off */ |
|||
#define _01_SAU_RXD0_FILTER_ON (0x01U) /* noise filter on */ |
|||
|
|||
/*
|
|||
Format of Serial Status Register mn (SSRmn) |
|||
*/ |
|||
/* Communication status indication flag of channel n (TSFmn) */ |
|||
#define _0040_SAU_UNDER_EXECUTE (0x0040U) /* communication is under execution */ |
|||
/* Buffer register status indication flag of channel n (BFFmn) */ |
|||
#define _0020_SAU_VALID_STORED (0x0020U) /* valid data is stored in the SDRmn register */ |
|||
/* Framing error detection flag of channel n (FEFmn) */ |
|||
#define _0004_SAU_FRAM_ERROR (0x0004U) /* a framing error occurs during UART reception */ |
|||
/* Parity error detection flag of channel n (PEFmn) */ |
|||
#define _0002_SAU_PARITY_ERROR (0x0002U) /* a parity error occurs or ACK is not detected */ |
|||
/* Overrun error detection flag of channel n (OVFmn) */ |
|||
#define _0001_SAU_OVERRUN_ERROR (0x0001U) /* an overrun error occurs */ |
|||
|
|||
/*
|
|||
Serial Channel Start Register m (SSm) |
|||
*/ |
|||
/* Operation start trigger of channel 0 (SSm0) */ |
|||
#define _0000_SAU_CH0_START_TRG_OFF (0x0000U) /* no trigger operation */ |
|||
#define _0001_SAU_CH0_START_TRG_ON (0x0001U) /* sets SEm0 to 1 and enters the communication wait status */ |
|||
/* Operation start trigger of channel 1 (SSm1) */ |
|||
#define _0000_SAU_CH1_START_TRG_OFF (0x0000U) /* no trigger operation */ |
|||
#define _0002_SAU_CH1_START_TRG_ON (0x0002U) /* sets SEm1 to 1 and enters the communication wait status */ |
|||
|
|||
/*
|
|||
Serial Channel Stop Register m (STm) |
|||
*/ |
|||
/* Operation stop trigger of channel 0 (STm0) */ |
|||
#define _0000_SAU_CH0_STOP_TRG_OFF (0x0000U) /* no trigger operation */ |
|||
#define _0001_SAU_CH0_STOP_TRG_ON (0x0001U) /* operation is stopped (stop trigger is generated) */ |
|||
/* Operation stop trigger of channel 1 (STm1) */ |
|||
#define _0000_SAU_CH1_STOP_TRG_OFF (0x0000U) /* no trigger operation */ |
|||
#define _0002_SAU_CH1_STOP_TRG_ON (0x0002U) /* operation is stopped (stop trigger is generated) */ |
|||
|
|||
/*
|
|||
Format of Serial Flag Clear Trigger Register mn (SIRmn) |
|||
*/ |
|||
/* Clear trigger of overrun error flag of channel n (OVCTmn) */ |
|||
#define _0001_SAU_SIRMN_OVCTMN (0x0001U) |
|||
/* Clear trigger of parity error flag of channel n (PECTmn) */ |
|||
#define _0002_SAU_SIRMN_PECTMN (0x0002U) |
|||
/* Clear trigger of framing error of channel n (FECTMN) */ |
|||
#define _0004_SAU_SIRMN_FECTMN (0x0004U) |
|||
|
|||
/*
|
|||
Serial Output Enable Register m (SOEm) |
|||
*/ |
|||
/* Serial output enable/disable of channel 0 (SOEm0) */ |
|||
#define _0001_SAU_CH0_OUTPUT_ENABLE (0x0001U) /* enables output by serial communication operation */ |
|||
#define _0000_SAU_CH0_OUTPUT_DISABLE (0x0000U) /* stops output by serial communication operation */ |
|||
/* Serial output enable/disable of channel 1 (SOEm1) */ |
|||
#define _0002_SAU_CH1_OUTPUT_ENABLE (0x0002U) /* enables output by serial communication operation */ |
|||
#define _0000_SAU_CH1_OUTPUT_DISABLE (0x0000U) /* stops output by serial communication operation */ |
|||
|
|||
/*
|
|||
Serial Output Register m (SOm) |
|||
*/ |
|||
/* Serial data output of channel 0 (SOm0) */ |
|||
#define _0000_SAU_CH0_DATA_OUTPUT_0 (0x0000U) /* Serial data output value is "0" */ |
|||
#define _0001_SAU_CH0_DATA_OUTPUT_1 (0x0001U) /* Serial data output value is "1" */ |
|||
/* Serial data output of channel 1 (SOm1) */ |
|||
#define _0000_SAU_CH1_DATA_OUTPUT_0 (0x0000U) /* Serial data output value is "0" */ |
|||
#define _0002_SAU_CH1_DATA_OUTPUT_1 (0x0002U) /* Serial data output value is "1" */ |
|||
/* Serial clock output of channel 0 (CKOm0) */ |
|||
#define _0000_SAU_CH0_CLOCK_OUTPUT_0 (0x0000U) /* Serial clock output value is "0" */ |
|||
#define _0100_SAU_CH0_CLOCK_OUTPUT_1 (0x0100U) /* Serial clock output value is "1" */ |
|||
/* Serial clock output of channel 1 (CKOm1) */ |
|||
#define _0000_SAU_CH1_CLOCK_OUTPUT_0 (0x0000U) /* Serial clock output value is "0" */ |
|||
#define _0200_SAU_CH1_CLOCK_OUTPUT_1 (0x0200U) /* Serial clock output value is "1" */ |
|||
|
|||
/*
|
|||
SAU Standby Control Register m (SSCm) |
|||
*/ |
|||
/* SAU Standby Wakeup Control Bit (SWC) */ |
|||
#define _0000_SAU_CH0_SNOOZE_OFF (0x0000U) /* disable start function from STOP state of chip */ |
|||
#define _0001_SAU_CH0_SNOOZE_ON (0x0001U) /* enable start function from STOP state of chip */ |
|||
|
|||
/*
|
|||
Serial slave select enable register m (SSEmn) |
|||
*/ |
|||
/* SAU0 Channel 0 SSI00 input setting in CSI communication and slave mode (SSE00) */ |
|||
#define _00_SAU_CH0_SSI00_UNUSED (0x00U) /* disables SSI00 pin input */ |
|||
#define _01_SAU_CH0_SSI00_USED (0x01U) /* enables SSI00 pin input */ |
|||
/* SAU0 Channel 1 SSI01 input setting in CSI communication and slave mode (SSE01) */ |
|||
#define _00_SAU_CH1_SSI01_UNUSED (0x00U) /* disables SSI01 pin input */ |
|||
#define _02_SAU_CH1_SSI01_USED (0x02U) /* enables SSI01 pin input */ |
|||
/* SAU1 Channel 0 SSI10 input setting in CSI communication and slave mode (SSE10) */ |
|||
#define _00_SAU_CH0_SSI10_UNUSED (0x00U) /* disables SSI10 pin input */ |
|||
#define _01_SAU_CH0_SSI10_USED (0x01U) /* enables SSI10 pin input */ |
|||
/* SAU1 Channel 1 SSI11 input setting in CSI communication and slave mode (SSE11) */ |
|||
#define _00_SAU_CH1_SSI11_UNUSED (0x00U) /* disables SSI11 pin input */ |
|||
#define _02_SAU_CH1_SSI11_USED (0x02U) /* enables SSI11 pin input */ |
|||
|
|||
/* SAU used flag */ |
|||
#define _00_SAU_IIC_MASTER_FLAG_CLEAR (0x00U) |
|||
#define _01_SAU_IIC_SEND_FLAG (0x01U) |
|||
#define _02_SAU_IIC_RECEIVE_FLAG (0x02U) |
|||
#define _04_SAU_IIC_SENDED_ADDRESS_FLAG (0x04U) |
|||
|
|||
|
|||
/*
|
|||
IICA Control Register (IICCTLn0) |
|||
*/ |
|||
/* IIC operation enable (IICEn) */ |
|||
#define _00_IICA_OPERATION_DISABLE (0x00U) /* stop operation */ |
|||
#define _80_IICA_OPERATION_ENABLE (0x80U) /* enable operation */ |
|||
/* Exit from communications (LRELn) */ |
|||
#define _00_IICA_COMMUNICATION_NORMAL (0x00U) /* normal operation */ |
|||
#define _40_IICA_COMMUNICATION_EXIT (0x40U) /* exit from current communication */ |
|||
/* Wait cancellation (WRELn) */ |
|||
#define _00_IICA_WAIT_NOTCANCEL (0x00U) /* do not cancel wait */ |
|||
#define _20_IICA_WAIT_CANCEL (0x20U) /* cancel wait */ |
|||
/* Generation of interrupt when stop condition (SPIEn) */ |
|||
#define _00_IICA_STOPINT_DISABLE (0x00U) /* disable */ |
|||
#define _10_IICA_STOPINT_ENABLE (0x10U) /* enable */ |
|||
/* Wait and interrupt generation (WTIMn) */ |
|||
#define _00_IICA_WAITINT_CLK8FALLING (0x00U) /* generated at the eighth clock's falling edge */ |
|||
#define _08_IICA_WAITINT_CLK9FALLING (0x08U) /* generated at the ninth clock's falling edge */ |
|||
/* Acknowledgement control (ACKEn) */ |
|||
#define _00_IICA_ACK_DISABLE (0x00U) /* disable acknowledgement */ |
|||
#define _04_IICA_ACK_ENABLE (0x04U) /* enable acknowledgement */ |
|||
/* Start condition trigger (STTn) */ |
|||
#define _00_IICA_START_NOTGENERATE (0x00U) /* do not generate start condition */ |
|||
#define _02_IICA_START_GENERATE (0x02U) /* generate start condition */ |
|||
/* Stop condition trigger (SPTn) */ |
|||
#define _00_IICA_STOP_NOTGENERATE (0x00U) /* do not generate stop condition */ |
|||
#define _01_IICA_STOP_GENERATE (0x01U) /* generate stop condition */ |
|||
|
|||
/*
|
|||
IICA Status Register (IICSn) |
|||
*/ |
|||
/* Master device status (MSTSn) */ |
|||
#define _00_IICA_STATUS_NOTMASTER (0x00U) /* slave device status or communication standby status */ |
|||
#define _80_IICA_STATUS_MASTER (0x80U) /* master device communication status */ |
|||
/* Detection of arbitration loss (ALDn) */ |
|||
#define _00_IICA_ARBITRATION_NO (0x00U) /* arbitration win or no arbitration */ |
|||
#define _40_IICA_ARBITRATION_LOSS (0x40U) /* arbitration loss */ |
|||
/* Detection of extension code reception (EXCn) */ |
|||
#define _00_IICA_EXTCODE_NOT (0x00U) /* extension code not received */ |
|||
#define _20_IICA_EXTCODE_RECEIVED (0x20U) /* extension code received */ |
|||
/* Detection of matching addresses (COIn) */ |
|||
#define _00_IICA_ADDRESS_NOTMATCH (0x00U) /* addresses do not match */ |
|||
#define _10_IICA_ADDRESS_MATCH (0x10U) /* addresses match */ |
|||
/* Detection of transmit/receive status (TRCn) */ |
|||
#define _00_IICA_STATUS_RECEIVE (0x00U) /* receive status */ |
|||
#define _08_IICA_STATUS_TRANSMIT (0x08U) /* transmit status */ |
|||
/* Detection of acknowledge signal (ACKDn) */ |
|||
#define _00_IICA_ACK_NOTDETECTED (0x00U) /* ACK signal was not detected */ |
|||
#define _04_IICA_ACK_DETECTED (0x04U) /* ACK signal was detected */ |
|||
/* Detection of start condition (STDn) */ |
|||
#define _00_IICA_START_NOTDETECTED (0x00U) /* start condition not detected */ |
|||
#define _02_IICA_START_DETECTED (0x02U) /* start condition detected */ |
|||
/* Detection of stop condition (SPDn) */ |
|||
#define _00_IICA_STOP_NOTDETECTED (0x00U) /* stop condition not detected */ |
|||
#define _01_IICA_STOP_DETECTED (0x01U) /* stop condition detected */ |
|||
|
|||
/*
|
|||
IICA Flag Register (IICFn) |
|||
*/ |
|||
/* STT clear flag (STCFn) */ |
|||
#define _00_IICA_STARTFLAG_GENERATE (0x00U) /* generate start condition */ |
|||
#define _80_IICA_STARTFLAG_UNSUCCESSFUL (0x80U) /* start condition generation unsuccessful */ |
|||
/* IIC bus status flag (IICBSYn) */ |
|||
#define _00_IICA_BUS_RELEASE (0x00U) /* bus release status */ |
|||
#define _40_IICA_BUS_COMMUNICATION (0x40U) /* bus communication status */ |
|||
/* Initial start enable trigger (STCENn) */ |
|||
#define _00_IICA_START_WITHSTOP (0x00U) /* generate start upon detecting stop condition */ |
|||
#define _02_IICA_START_WITHOUTSTOP (0x02U) /* generate start without detecting stop condition */ |
|||
/* Communication reservation function disable bit (IICRSVn) */ |
|||
#define _00_IICA_RESERVATION_ENABLE (0x00U) /* enable communication reservation */ |
|||
#define _01_IICA_RESERVATION_DISABLE (0x01U) /* disable communication reservation */ |
|||
|
|||
/*
|
|||
IICA Control Register 1 (IICCTLn1) |
|||
*/ |
|||
/* Control of address match wakeup (WUPn) */ |
|||
#define _00_IICA_WAKEUP_STOP (0x00U) /* stop address match wakeup function in STOP mode */ |
|||
#define _80_IICA_WAKEUP_ENABLE (0x80U) /* enable address match wakeup function in STOP mode */ |
|||
/* Detection of SCL0 pin level (CLDn) */ |
|||
#define _00_IICA_SCL_LOW (0x00U) /* detect clock line at low level */ |
|||
#define _20_IICA_SCL_HIGH (0x20U) /* detect clock line at high level */ |
|||
/* Detection of SDA0 pin level (DADn) */ |
|||
#define _00_IICA_SDA_LOW (0x00U) /* detect data line at low level */ |
|||
#define _10_IICA_SDA_HIGH (0x10U) /* detect data line at high level */ |
|||
/* Operation mode switching (SMCn) */ |
|||
#define _00_IICA_MODE_STANDARD (0x00U) /* operates in standard mode */ |
|||
#define _08_IICA_MODE_HIGHSPEED (0x08U) /* operates in high-speed mode */ |
|||
/* Digital filter operation control (DFCn) */ |
|||
#define _00_IICA_FILTER_OFF (0x00U) /* digital filter off */ |
|||
#define _04_IICA_FILTER_ON (0x04U) /* digital filter on */ |
|||
/* Operation of clock dividing frequency permission (PRSn) */ |
|||
#define _00_IICA_fCLK (0x00U) /* clock of dividing frequency operation (fCLK) */ |
|||
#define _01_IICA_fCLK_HALF (0x01U) /* 2 clock of dividing frequency operation (fCLK/2) */ |
|||
|
|||
/* IICA used flag */ |
|||
#define _80_IICA_ADDRESS_COMPLETE (0x80U) |
|||
#define _00_IICA_MASTER_FLAG_CLEAR (0x00U) |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
#define _4400_UART0_RECEIVE_DIVISOR (0x4400U) |
|||
#define _4400_UART0_TRANSMIT_DIVISOR (0x4400U) |
|||
#define _4400_UART1_RECEIVE_DIVISOR (0x4400U) |
|||
#define _4400_UART1_TRANSMIT_DIVISOR (0x4400U) |
|||
#define _10_IICA0_MASTERADDRESS (0x10U) |
|||
#define _55_IICA0_IICWH_VALUE (0x55U) |
|||
#define _4C_IICA0_IICWL_VALUE (0x4CU) |
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
void R_SAU0_Create(void); |
|||
void R_UART0_Create(void); |
|||
void R_UART0_Start(void); |
|||
void R_UART0_Stop(void); |
|||
MD_STATUS R_UART0_Send(uint8_t * const tx_buf, uint16_t tx_num); |
|||
MD_STATUS R_UART0_Receive(uint8_t * const rx_buf, uint16_t rx_num); |
|||
static void r_uart0_callback_error(uint8_t err_type); |
|||
static void r_uart0_callback_receiveend(void); |
|||
static void r_uart0_callback_sendend(void); |
|||
static void r_uart0_callback_softwareoverrun(uint16_t rx_data); |
|||
void R_SAU1_Create(void); |
|||
void R_UART1_Create(void); |
|||
void R_UART1_Start(void); |
|||
void R_UART1_Stop(void); |
|||
MD_STATUS R_UART1_Send(uint8_t * const tx_buf, uint16_t tx_num); |
|||
MD_STATUS R_UART1_Receive(uint8_t * const rx_buf, uint16_t rx_num); |
|||
static void r_uart1_callback_error(uint8_t err_type); |
|||
static void r_uart1_callback_receiveend(void); |
|||
static void r_uart1_callback_sendend(void); |
|||
static void r_uart1_callback_softwareoverrun(uint16_t rx_data); |
|||
void R_IICA0_Create(void); |
|||
MD_STATUS R_IICA0_Master_Send(uint8_t adr, uint8_t * const tx_buf, uint16_t tx_num, uint8_t wait); |
|||
MD_STATUS R_IICA0_Master_Receive(uint8_t adr, uint8_t * const rx_buf, uint16_t rx_num, uint8_t wait); |
|||
void R_IICA0_Stop(void); |
|||
void R_IICA0_StopCondition(void); |
|||
static void r_iica0_callback_master_sendend(void); |
|||
static void r_iica0_callback_master_receiveend(void); |
|||
static void r_iica0_callback_master_error(MD_STATUS flag); |
|||
static void iica0_masterhandler(void); |
|||
static void iica0_slavehandler(void); |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,460 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_serial_user.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for Serial module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_serial.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
#include "uart.h" |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
#pragma interrupt r_uart0_interrupt_send(vect=INTST0) |
|||
#pragma interrupt r_uart0_interrupt_receive(vect=INTSR0) |
|||
#pragma interrupt r_uart1_interrupt_send(vect=INTST1) |
|||
#pragma interrupt r_uart1_interrupt_receive(vect=INTSR1) |
|||
#pragma interrupt r_iica0_interrupt(vect=INTIICA0) |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
extern volatile uint8_t * gp_uart0_tx_address; /* uart0 send buffer address */ |
|||
extern volatile uint16_t g_uart0_tx_count; /* uart0 send data number */ |
|||
extern volatile uint8_t * gp_uart0_rx_address; /* uart0 receive buffer address */ |
|||
extern volatile uint16_t g_uart0_rx_count; /* uart0 receive data number */ |
|||
extern volatile uint16_t g_uart0_rx_length; /* uart0 receive data length */ |
|||
extern volatile uint8_t * gp_uart1_tx_address; /* uart1 send buffer address */ |
|||
extern volatile uint16_t g_uart1_tx_count; /* uart1 send data number */ |
|||
extern volatile uint8_t * gp_uart1_rx_address; /* uart1 receive buffer address */ |
|||
extern volatile uint16_t g_uart1_rx_count; /* uart1 receive data number */ |
|||
extern volatile uint16_t g_uart1_rx_length; /* uart1 receive data length */ |
|||
extern volatile uint8_t g_iica0_master_status_flag; /* iica0 master flag */ |
|||
extern volatile uint8_t g_iica0_slave_status_flag; /* iica0 slave flag */ |
|||
extern volatile uint8_t * gp_iica0_rx_address; /* iica0 receive buffer address */ |
|||
extern volatile uint16_t g_iica0_rx_cnt; /* iica0 receive data length */ |
|||
extern volatile uint16_t g_iica0_rx_len; /* iica0 receive data count */ |
|||
extern volatile uint8_t * gp_iica0_tx_address; /* iica0 send buffer address */ |
|||
extern volatile uint16_t g_iica0_tx_cnt; /* iica0 send data count */ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_interrupt_receive |
|||
* Description : This function is INTSR0 interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_uart0_interrupt_receive(void) |
|||
{ |
|||
volatile uint8_t rx_data; |
|||
volatile uint8_t err_type; |
|||
|
|||
err_type = (uint8_t)(SSR01 & 0x0007U); |
|||
SIR01 = (uint16_t)err_type; |
|||
|
|||
if (err_type != 0U) |
|||
{ |
|||
r_uart0_callback_error(err_type); |
|||
} |
|||
|
|||
rx_data = SDR01L; |
|||
|
|||
if (g_uart0_rx_length > g_uart0_rx_count) |
|||
{ |
|||
*gp_uart0_rx_address = rx_data; |
|||
gp_uart0_rx_address++; |
|||
g_uart0_rx_count++; |
|||
|
|||
if (g_uart0_rx_length == g_uart0_rx_count) |
|||
{ |
|||
r_uart0_callback_receiveend(); |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
r_uart0_callback_softwareoverrun(rx_data); |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_interrupt_send |
|||
* Description : This function is INTST0 interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_uart0_interrupt_send(void) |
|||
{ |
|||
if (g_uart0_tx_count > 0U) |
|||
{ |
|||
SDR00L = *gp_uart0_tx_address; |
|||
gp_uart0_tx_address++; |
|||
g_uart0_tx_count--; |
|||
} |
|||
else |
|||
{ |
|||
r_uart0_callback_sendend(); |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_callback_receiveend |
|||
* Description : This function is a callback function when UART0 finishes reception. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart0_callback_receiveend(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_callback_softwareoverrun |
|||
* Description : This function is a callback function when UART0 receives an overflow data. |
|||
* Arguments : rx_data - |
|||
* receive data |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart0_callback_softwareoverrun(uint16_t rx_data) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_callback_sendend |
|||
* Description : This function is a callback function when UART0 finishes transmission. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart0_callback_sendend(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
rs485_set_tx(0); |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart0_callback_error |
|||
* Description : This function is a callback function when UART0 reception error occurs. |
|||
* Arguments : err_type - |
|||
* error type value |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart0_callback_error(uint8_t err_type) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_interrupt_receive |
|||
* Description : This function is INTSR1 interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_uart1_interrupt_receive(void) |
|||
{ |
|||
volatile uint8_t rx_data; |
|||
volatile uint8_t err_type; |
|||
|
|||
err_type = (uint8_t)(SSR11 & 0x0007U); |
|||
SIR11 = (uint16_t)err_type; |
|||
|
|||
if (err_type != 0U) |
|||
{ |
|||
r_uart1_callback_error(err_type); |
|||
} |
|||
|
|||
rx_data = SDR11L; |
|||
|
|||
if (g_uart1_rx_length > g_uart1_rx_count) |
|||
{ |
|||
*gp_uart1_rx_address = rx_data; |
|||
gp_uart1_rx_address++; |
|||
g_uart1_rx_count++; |
|||
|
|||
if (g_uart1_rx_length == g_uart1_rx_count) |
|||
{ |
|||
r_uart1_callback_receiveend(); |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
r_uart1_callback_softwareoverrun(rx_data); |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_interrupt_send |
|||
* Description : This function is INTST1 interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_uart1_interrupt_send(void) |
|||
{ |
|||
if (g_uart1_tx_count > 0U) |
|||
{ |
|||
SDR10L = *gp_uart1_tx_address; |
|||
gp_uart1_tx_address++; |
|||
g_uart1_tx_count--; |
|||
} |
|||
else |
|||
{ |
|||
r_uart1_callback_sendend(); |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_callback_receiveend |
|||
* Description : This function is a callback function when UART1 finishes reception. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart1_callback_receiveend(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
uint8_t c = uart_rx_buffer[uart_rx_index]; |
|||
|
|||
uart_rx_index++; |
|||
uart_rx_length = uart_rx_index; |
|||
|
|||
// 한 줄 입력 끝 or 버퍼 가득
|
|||
if (c == '\n' || uart_rx_index >= (UART_RX_BUF_SIZE - 1)) |
|||
{ |
|||
uart_rx_done = 1; |
|||
} |
|||
else |
|||
{ |
|||
// 다음 1바이트 계속 수신
|
|||
R_UART1_Receive((uint8_t *)&uart_rx_buffer[uart_rx_index], 1); |
|||
} |
|||
|
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_callback_softwareoverrun |
|||
* Description : This function is a callback function when UART1 receives an overflow data. |
|||
* Arguments : rx_data - |
|||
* receive data |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart1_callback_softwareoverrun(uint16_t rx_data) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_callback_sendend |
|||
* Description : This function is a callback function when UART1 finishes transmission. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart1_callback_sendend(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_uart1_callback_error |
|||
* Description : This function is a callback function when UART1 reception error occurs. |
|||
* Arguments : err_type - |
|||
* error type value |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_uart1_callback_error(uint8_t err_type) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_iica0_interrupt |
|||
* Description : This function is INTIICA0 interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_iica0_interrupt(void) |
|||
{ |
|||
if ((IICS0 & _80_IICA_STATUS_MASTER) == 0x80U) |
|||
{ |
|||
iica0_masterhandler(); |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: iica0_masterhandler |
|||
* Description : This function is IICA0 master handler. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void iica0_masterhandler(void) |
|||
{ |
|||
/* Detection of stop condition handling */ |
|||
if ((0U == IICBSY0) && (g_iica0_tx_cnt != 0U)) |
|||
{ |
|||
r_iica0_callback_master_error(MD_SPT); |
|||
} |
|||
else |
|||
{ |
|||
/* Control for sended address */ |
|||
if ((g_iica0_master_status_flag & _80_IICA_ADDRESS_COMPLETE) == 0U) |
|||
{ |
|||
if (1U == ACKD0) |
|||
{ |
|||
g_iica0_master_status_flag |= _80_IICA_ADDRESS_COMPLETE; |
|||
|
|||
if (1U == TRC0) |
|||
{ |
|||
WTIM0 = 1U; |
|||
|
|||
if (g_iica0_tx_cnt > 0U) |
|||
{ |
|||
IICA0 = *gp_iica0_tx_address; |
|||
gp_iica0_tx_address++; |
|||
g_iica0_tx_cnt--; |
|||
} |
|||
else |
|||
{ |
|||
r_iica0_callback_master_sendend(); |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
ACKE0 = 1U; |
|||
WTIM0 = 0U; |
|||
WREL0 = 1U; |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
r_iica0_callback_master_error(MD_NACK); |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
/* Master send control */ |
|||
if (1U == TRC0) |
|||
{ |
|||
if ((0U == ACKD0) && (g_iica0_tx_cnt != 0U)) |
|||
{ |
|||
r_iica0_callback_master_error(MD_NACK); |
|||
} |
|||
else |
|||
{ |
|||
if (g_iica0_tx_cnt > 0U) |
|||
{ |
|||
IICA0 = *gp_iica0_tx_address; |
|||
gp_iica0_tx_address++; |
|||
g_iica0_tx_cnt--; |
|||
} |
|||
else |
|||
{ |
|||
r_iica0_callback_master_sendend(); |
|||
} |
|||
} |
|||
} |
|||
/* Master receive control */ |
|||
else |
|||
{ |
|||
if (g_iica0_rx_cnt < g_iica0_rx_len) |
|||
{ |
|||
*gp_iica0_rx_address = IICA0; |
|||
gp_iica0_rx_address++; |
|||
g_iica0_rx_cnt++; |
|||
|
|||
if (g_iica0_rx_cnt == g_iica0_rx_len) |
|||
{ |
|||
ACKE0 = 0U; |
|||
WTIM0 = 1U; |
|||
WREL0 = 1U; |
|||
} |
|||
else |
|||
{ |
|||
WREL0 = 1U; |
|||
} |
|||
} |
|||
else |
|||
{ |
|||
r_iica0_callback_master_receiveend(); |
|||
} |
|||
} |
|||
} |
|||
} |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_iica0_callback_master_error |
|||
* Description : This function is a callback function when IICA0 master error occurs. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_iica0_callback_master_error(MD_STATUS flag) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_iica0_callback_master_receiveend |
|||
* Description : This function is a callback function when IICA0 finishes master reception. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_iica0_callback_master_receiveend(void) |
|||
{ |
|||
SPT0 = 1U; |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_iica0_callback_master_sendend |
|||
* Description : This function is a callback function when IICA0 finishes master transmission. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void r_iica0_callback_master_sendend(void) |
|||
{ |
|||
SPT0 = 1U; |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,38 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_userdefine.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file includes user definition. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef _USER_DEF_H |
|||
#define _USER_DEF_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
User definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,78 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_wdt.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for WDT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_wdt.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_WDT_Create |
|||
* Description : This function initializes the watchdogtimer. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_WDT_Create(void) |
|||
{ |
|||
WDTIMK = 1U; /* disable INTWDTI interrupt */ |
|||
WDTIIF = 0U; /* clear INTWDTI interrupt flag */ |
|||
/* Set INTWDTI low priority */ |
|||
WDTIPR1 = 1U; |
|||
WDTIPR0 = 1U; |
|||
WDTIMK = 0U; /* enable INTWDTI interrupt */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_WDT_Restart |
|||
* Description : This function restarts the watchdog timer. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_WDT_Restart(void) |
|||
{ |
|||
WDTE = 0xACU; /* restart watchdog timer */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,52 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_wdt.h |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for WDT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
#ifndef WDT_H |
|||
#define WDT_H |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions (Register bit) |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Macro definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Typedef definitions |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global functions |
|||
***********************************************************************************************************************/ |
|||
void R_WDT_Create(void); |
|||
void R_WDT_Restart(void); |
|||
|
|||
/* Start user code for function. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#endif |
|||
@ -0,0 +1,64 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_cg_wdt_user.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements device driver for WDT module. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_wdt.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
#pragma interrupt r_wdt_interrupt(vect=INTWDTI) |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: r_wdt_interrupt |
|||
* Description : This function is INTWDTI interrupt service routine. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
static void __near r_wdt_interrupt(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,367 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_main.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements main function. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_cgc.h" |
|||
#include "r_cg_port.h" |
|||
#include "r_cg_serial.h" |
|||
#include "r_cg_adc.h" |
|||
#include "r_cg_wdt.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
#include "common.h" |
|||
#include "anaout.h" |
|||
#include "dipSwitch.h" |
|||
#include <string.h> |
|||
#include <ctype.h> |
|||
#include <stddef.h> |
|||
#include <r_cg_port.h> |
|||
|
|||
#define CMD_MAX 529 |
|||
|
|||
volatile uint8_t uart_rx_done = 0; |
|||
volatile uint8_t uart_rx_index = 0; |
|||
volatile uint8_t uart_rx_buffer[UART_RX_BUF_SIZE] = {0}; |
|||
volatile uint16_t uart_rx_length = 0; |
|||
|
|||
// (1~32)
|
|||
static uint8_t g_fixed_addr = 1; |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
static unsigned char hex2byte(char h, char l) |
|||
{ |
|||
unsigned char hi, lo; |
|||
if (h >= 'a' && h <= 'f') h -= 32; |
|||
if (l >= 'a' && l <= 'f') l -= 32; |
|||
hi = (h >= 'A') ? (unsigned char)(h - 'A' + 10) : (unsigned char)(h - '0'); |
|||
lo = (l >= 'A') ? (unsigned char)(l - 'A' + 10) : (unsigned char)(l - '0'); |
|||
return (unsigned char)((hi << 4) | lo); |
|||
} |
|||
|
|||
// Prefix: "X<AA>C_<CCC>:"
|
|||
static int parse_x_prefix(const char *s, int len, uint8_t *addr, uint8_t *ch, int *payload_pos) |
|||
{ |
|||
if (len < 9) return 0; |
|||
if (toupper((unsigned char)s[0]) != 'X') return 0; |
|||
|
|||
if (!isdigit((unsigned char)s[1]) || !isdigit((unsigned char)s[2])) return -1; |
|||
if (toupper((unsigned char)s[3]) != 'C') return -1; |
|||
if (s[4] != '_') return -1; |
|||
if (!isdigit((unsigned char)s[5]) || !isdigit((unsigned char)s[6]) || !isdigit((unsigned char)s[7])) return -1; |
|||
if (s[8] != ':') return -1; |
|||
|
|||
*addr = (uint8_t)((s[1] - '0') * 10 + (s[2] - '0')); |
|||
*ch = (uint8_t)((s[5] - '0') * 100 + (s[6] - '0') * 10 + (s[7] - '0')); |
|||
*payload_pos = 9; |
|||
return 1; |
|||
} |
|||
|
|||
typedef enum { |
|||
PROTOCOL_I2CT, |
|||
PROTOCOL_OWIT, |
|||
PROTOCOL_I2CW, |
|||
PROTOCOL_I2CR, |
|||
PROTOCOL_OWIW, |
|||
PROTOCOL_OWIR, |
|||
PROTOCOL_I2CA, |
|||
PROTOCOL_OWIA, |
|||
PROTOCOL_OWID, |
|||
PROTOCOL_OWIC, |
|||
PROTOCOL_I2CC, |
|||
PROTOCOL_UNKNOWN |
|||
} ProtocolType; |
|||
|
|||
static ProtocolType detect_protocol(char header1, char header2) |
|||
{ |
|||
if (header1 == 'I' && header2 == 'W') return PROTOCOL_I2CW; |
|||
if (header1 == 'I' && header2 == 'R') return PROTOCOL_I2CR; |
|||
if (header1 == 'O' && header2 == 'W') return PROTOCOL_OWIW; |
|||
if (header1 == 'O' && header2 == 'R') return PROTOCOL_OWIR; |
|||
return PROTOCOL_UNKNOWN; |
|||
} |
|||
|
|||
static void cmd_unknown(const unsigned char *d, unsigned int len) |
|||
{ |
|||
uart1_send_string("Unknown cmd\r\n"); |
|||
delay(100000); |
|||
} |
|||
|
|||
static void process_cmd(ProtocolType protocol, uint8_t id, |
|||
const unsigned char *data, unsigned int len) |
|||
{ |
|||
switch (protocol) { |
|||
case PROTOCOL_I2CT: I2C_T_Command_Mode_receiveData(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_OWIT: OWI_T_CommandMode(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_I2CW: I2C_Command_Mode_receiveData(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_I2CR: I2C_Command_Mode_Send((uint8_t)len, id); break; |
|||
case PROTOCOL_OWIW: OWI_CommandMode(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_OWIR: OWI_ReadBytesAndPrint(len, id); break; |
|||
case PROTOCOL_I2CA: I2C_A_Command_Mode_receiveData(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_OWIA: OWI_A_CommandMode(data, (uint8_t)len, id); break; |
|||
case PROTOCOL_OWID: OWI_disable(); break; |
|||
case PROTOCOL_OWIC: OWI_Diagnostic(id); break; |
|||
case PROTOCOL_I2CC: I2C_Diagnostic(id); break; |
|||
default: cmd_unknown(data, len); break; |
|||
} |
|||
} |
|||
|
|||
void handle_uart_command_line(void) |
|||
{ |
|||
char line[UART_RX_BUF_SIZE]; |
|||
|
|||
while (1) |
|||
{ |
|||
if (uart_rx_done) |
|||
{ |
|||
int i; |
|||
int idx = 0; |
|||
int pos = 2; |
|||
int rx_len; |
|||
ProtocolType proto; |
|||
uint8_t id; |
|||
unsigned int byte_len; |
|||
uint8_t cmd[CMD_MAX]; |
|||
unsigned int k = 0; |
|||
|
|||
uart_rx_done = 0; |
|||
|
|||
rx_len = (int)uart_rx_length; |
|||
if (rx_len < 0) rx_len = 0; |
|||
if (rx_len > (int)UART_RX_BUF_SIZE - 1) rx_len = (int)UART_RX_BUF_SIZE - 1; |
|||
uart_rx_buffer[rx_len] = '\0'; |
|||
|
|||
for (i = 0; i < rx_len && i < (int)sizeof(line) - 1; i++) { |
|||
char c = (char)uart_rx_buffer[i]; |
|||
if (c == '\r') continue; |
|||
if (c == '\n') break; |
|||
line[idx++] = c; |
|||
} |
|||
line[idx] = '\0'; |
|||
|
|||
// Prefix
|
|||
{ |
|||
uint8_t addr = 0; |
|||
uint8_t ch = 0; |
|||
int payload_pos = 0; |
|||
int r = parse_x_prefix(line, idx, &addr, &ch, &payload_pos); |
|||
|
|||
if (r == -1) { |
|||
uart1_send_string("Err:X_prefix\r\n"); |
|||
goto clear; |
|||
} |
|||
|
|||
if (r == 1) { |
|||
if (addr < 1 || addr > 32) { uart1_send_string("Err:addr_range\r\n"); goto clear; } |
|||
if (ch < 1 || ch > 20) { uart1_send_string("Err:ch_range\r\n"); goto clear; } |
|||
|
|||
if (addr != g_fixed_addr) { |
|||
uart1_send_string("Err:addr_mismatch\r\n"); |
|||
goto clear; |
|||
} |
|||
|
|||
|
|||
ANAOUT_Select(ch); |
|||
|
|||
|
|||
{ |
|||
int rem = idx - payload_pos; |
|||
if (rem <= 0) { |
|||
uart1_send_string("<ACK>XC\r\n"); |
|||
goto clear; |
|||
} |
|||
for (i = 0; i < rem; i++) line[i] = line[payload_pos + i]; |
|||
line[rem] = '\0'; |
|||
idx = rem; |
|||
pos = 2; |
|||
} |
|||
} |
|||
} |
|||
|
|||
if (idx < 7) { uart1_send_string("Err:short\r\n"); goto clear; } |
|||
|
|||
{ |
|||
char h0 = (char)toupper((unsigned char)line[0]); |
|||
char h1 = (char)toupper((unsigned char)line[1]); |
|||
proto = detect_protocol(h0, h1); |
|||
} |
|||
if (proto == PROTOCOL_UNKNOWN) { uart1_send_string("Err:ID\r\n"); goto clear; } |
|||
|
|||
if (line[pos] == 't' || line[pos] == 'T') { |
|||
if (proto == PROTOCOL_OWIW) proto = PROTOCOL_OWIT; |
|||
else if (proto == PROTOCOL_I2CW) proto = PROTOCOL_I2CT; |
|||
pos++; |
|||
} |
|||
|
|||
if (line[pos] == 'a' || line[pos] == 'A') { |
|||
if (proto == PROTOCOL_OWIW) proto = PROTOCOL_OWIA; |
|||
else if (proto == PROTOCOL_I2CW) proto = PROTOCOL_I2CA; |
|||
pos++; |
|||
} |
|||
|
|||
if (line[pos] == 'd' || line[pos] == 'D') { |
|||
if (proto == PROTOCOL_OWIW) proto = PROTOCOL_OWID; |
|||
pos++; |
|||
} |
|||
|
|||
if (line[pos] == 'c' || line[pos] == 'C') { |
|||
if (proto == PROTOCOL_OWIW) proto = PROTOCOL_OWIC; |
|||
else if (proto == PROTOCOL_I2CW) proto = PROTOCOL_I2CC; |
|||
pos++; |
|||
} |
|||
|
|||
if (line[pos] == '_' || line[pos] == ':') pos++; |
|||
|
|||
if (pos + 1 >= idx) { uart1_send_string("Err:id_short\r\n"); goto clear; } |
|||
id = hex2byte(line[pos], line[pos+1]); |
|||
pos += 2; |
|||
|
|||
if (pos + 2 >= idx || |
|||
!(line[pos] >= '0' && line[pos] <= '9') || |
|||
!(line[pos+1] >= '0' && line[pos+1] <= '9') || |
|||
!(line[pos+2] >= '0' && line[pos+2] <= '9')) { |
|||
uart1_send_string("Err:len_dec\r\n"); goto clear; |
|||
} |
|||
byte_len = (unsigned int)(100*(line[pos]-'0') + 10*(line[pos+1]-'0') + (line[pos+2]-'0')); |
|||
pos += 3; |
|||
if (byte_len > CMD_MAX) { uart1_send_string("Err:len_range\r\n"); goto clear; } |
|||
|
|||
if (proto == PROTOCOL_I2CA || proto == PROTOCOL_OWIA) { |
|||
if (byte_len != 0 && byte_len != 3) { |
|||
uart1_send_string("Err:len_a_mode\r\n"); goto clear; |
|||
} |
|||
if (byte_len == 0) { |
|||
if (pos != idx) { uart1_send_string("Err:read_no_payload\r\n"); goto clear; } |
|||
} else { |
|||
if ((int)(pos + (int)byte_len*2) > idx) { uart1_send_string("Err:len_mismatch\r\n"); goto clear; } |
|||
for (k = 0; k < byte_len; k++) { |
|||
cmd[k] = hex2byte(line[pos + 2*k], line[pos + 2*k + 1]); |
|||
} |
|||
pos += byte_len*2; |
|||
if (pos != idx) { uart1_send_string("Err:len_trail\r\n"); goto clear; } |
|||
} |
|||
} |
|||
else if (proto == PROTOCOL_OWIT || proto == PROTOCOL_I2CT || |
|||
proto == PROTOCOL_OWIW || proto == PROTOCOL_I2CW) |
|||
{ |
|||
if (byte_len == 0) { uart1_send_string("Err:payload0\r\n"); goto clear; } |
|||
if ((int)(pos + (int)byte_len*2) > idx) { uart1_send_string("Err:len_mismatch\r\n"); goto clear; } |
|||
for (k = 0; k < byte_len; k++) { |
|||
cmd[k] = hex2byte(line[pos + 2*k], line[pos + 2*k + 1]); |
|||
} |
|||
pos += byte_len*2; |
|||
if (pos != idx) { uart1_send_string("Err:len_trail\r\n"); goto clear; } |
|||
} |
|||
else if (proto == PROTOCOL_OWIR || proto == PROTOCOL_I2CR) |
|||
{ |
|||
if (byte_len == 0) { uart1_send_string("Err:read_len_nonzero\r\n"); goto clear; } |
|||
if (pos != idx) { uart1_send_string("Err:read_no_payload\r\n"); goto clear; } |
|||
} |
|||
|
|||
process_cmd(proto, id, cmd, byte_len); |
|||
|
|||
clear: |
|||
idx = 0; |
|||
uart_rx_index = 0; |
|||
uart_rx_length = 0; |
|||
R_UART1_Receive((uint8_t *)&uart_rx_buffer[uart_rx_index], 1); |
|||
} |
|||
} |
|||
} |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
void R_MAIN_UserInit(void); |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: main |
|||
* Description : This function implements main function. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void main(void) |
|||
{ |
|||
R_MAIN_UserInit(); |
|||
/* Start user code. Do not edit comment generated here */ |
|||
R_UART0_Create(); // UART0
|
|||
R_UART1_Create(); // UART1
|
|||
|
|||
R_IICA0_Create(); // I2C
|
|||
|
|||
R_UART0_Start(); // RS485
|
|||
R_UART1_Start(); // PC
|
|||
|
|||
R_UART1_Receive((uint8_t *)&uart_rx_buffer[uart_rx_index], 1); |
|||
|
|||
handle_uart_command_line(); |
|||
|
|||
delay(100000); |
|||
|
|||
while (1U) |
|||
{ |
|||
; |
|||
} |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_MAIN_UserInit |
|||
* Description : This function adds user code before implementing main function. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_MAIN_UserInit(void) |
|||
{ |
|||
/* Start user code. Do not edit comment generated here */ |
|||
EI(); |
|||
R_PORT_Create(); |
|||
|
|||
rs485_init(); |
|||
|
|||
R_ADC_Create(); |
|||
R_ADC_Set_OperationOn(); |
|||
|
|||
DipSwitch_Init(); |
|||
g_fixed_addr = DipSwitch_ReadAddr_1to32(); |
|||
|
|||
ANAOUT_Init(); |
|||
/* End user code. Do not edit comment generated here */ |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,99 @@ |
|||
/***********************************************************************************************************************
|
|||
* DISCLAIMER |
|||
* This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. |
|||
* No other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
* applicable laws, including copyright laws. |
|||
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING THIS SOFTWARE, WHETHER EXPRESS, IMPLIED |
|||
* OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
|||
* NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY |
|||
* LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE FOR ANY DIRECT, |
|||
* INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR |
|||
* ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
* Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability |
|||
* of this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
* following link: |
|||
* http://www.renesas.com/disclaimer
|
|||
* |
|||
* Copyright (C) 2012, 2021 Renesas Electronics Corporation. All rights reserved. |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* File Name : r_systeminit.c |
|||
* Version : CodeGenerator for RL78/F14 V2.03.07.02 [08 Nov 2021] |
|||
* Device(s) : R5F10PPJ |
|||
* Tool-Chain : CCRL |
|||
* Description : This file implements system initializing function. |
|||
* Creation Date: 2026-01-13 |
|||
***********************************************************************************************************************/ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Includes |
|||
***********************************************************************************************************************/ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_cgc.h" |
|||
#include "r_cg_port.h" |
|||
#include "r_cg_serial.h" |
|||
#include "r_cg_adc.h" |
|||
#include "r_cg_wdt.h" |
|||
/* Start user code for include. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
#include "r_cg_userdefine.h" |
|||
|
|||
/***********************************************************************************************************************
|
|||
Pragma directive |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for pragma. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
Global variables and functions |
|||
***********************************************************************************************************************/ |
|||
/* Start user code for global. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: R_Systeminit |
|||
* Description : This function initializes every macro. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void R_Systeminit(void) |
|||
{ |
|||
/* Set periperal I/O redirection */ |
|||
PIOR0 = 0x00U; |
|||
PIOR1 = 0x00U; |
|||
PIOR2 = 0x00U; |
|||
PIOR3 = 0x00U; |
|||
PIOR4 = 0x00U; |
|||
PIOR5 = 0x00U; |
|||
PIOR6 = 0x00U; |
|||
PIOR7 = 0x00U; |
|||
PIOR8 = 0x00U; |
|||
R_CGC_Get_ResetSource(); |
|||
R_CGC_Create(); |
|||
R_PORT_Create(); |
|||
R_SAU0_Create(); |
|||
R_SAU1_Create(); |
|||
R_IICA0_Create(); |
|||
R_ADC_Create(); |
|||
R_WDT_Create(); |
|||
|
|||
/* Set invalid memory access detection control */ |
|||
IAWCTL = 0x00U; |
|||
} |
|||
|
|||
|
|||
/***********************************************************************************************************************
|
|||
* Function Name: hdwinit |
|||
* Description : This function initializes hardware setting. |
|||
* Arguments : None |
|||
* Return Value : None |
|||
***********************************************************************************************************************/ |
|||
void hdwinit(void) |
|||
{ |
|||
DI(); |
|||
R_Systeminit(); |
|||
} |
|||
|
|||
/* Start user code for adding. Do not edit comment generated here */ |
|||
/* End user code. Do not edit comment generated here */ |
|||
@ -0,0 +1,77 @@ |
|||
;/********************************************************************************************************************** |
|||
; * DISCLAIMER |
|||
; * This software is supplied by Renesas Electronics Corporation and is only intended for use with Renesas products. No |
|||
; * other uses are authorized. This software is owned by Renesas Electronics Corporation and is protected under all |
|||
; * applicable laws, including copyright laws. |
|||
; * THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING |
|||
; * THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, |
|||
; * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED. TO THE MAXIMUM |
|||
; * EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES |
|||
; * SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR ANY REASON RELATED TO |
|||
; * THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. |
|||
; * Renesas reserves the right, without notice, to make changes to this software and to discontinue the availability of |
|||
; * this software. By using this software, you agree to the additional terms and conditions found by accessing the |
|||
; * following link: |
|||
; * http://www.renesas.com/disclaimer |
|||
; * |
|||
; * Copyright (C) 2020 Renesas Electronics Corporation. All rights reserved. |
|||
; *********************************************************************************************************************/;--------------------------------------------------------------------- |
|||
; _stkinit |
|||
; |
|||
; void _stkinit(void __near * stackbss); |
|||
; |
|||
; input: |
|||
; stackbss = AX (#LOWW(_stackend)) |
|||
; output: |
|||
; NONE |
|||
;--------------------------------------------------------------------- |
|||
|
|||
; NOTE : THIS IS A TYPICAL EXAMPLE. |
|||
|
|||
.PUBLIC _stkinit |
|||
|
|||
.textf .CSEG TEXTF |
|||
_stkinit: |
|||
MOVW HL,AX ; stack_end_addr |
|||
MOV [SP+3],#0x00 ; [SP+0]-[SP+2] for return address |
|||
MOVW AX,SP |
|||
SUBW AX,HL ; SUBW AX,#LOWW _@STEND |
|||
BNH $LSTINIT3 ; goto end |
|||
SHRW AX,5 ; loop count for 32 byte transfer |
|||
MOVW BC,AX |
|||
CLRW AX |
|||
LSTINIT1: |
|||
CMPW AX,BC |
|||
BZ $LSTINIT2 |
|||
MOVW [HL],AX |
|||
MOVW [HL+2],AX |
|||
MOVW [HL+4],AX |
|||
MOVW [HL+6],AX |
|||
MOVW [HL+8],AX |
|||
MOVW [HL+10],AX |
|||
MOVW [HL+12],AX |
|||
MOVW [HL+14],AX |
|||
MOVW [HL+16],AX |
|||
MOVW [HL+18],AX |
|||
MOVW [HL+20],AX |
|||
MOVW [HL+22],AX |
|||
MOVW [HL+24],AX |
|||
MOVW [HL+26],AX |
|||
MOVW [HL+28],AX |
|||
MOVW [HL+30],AX |
|||
XCHW AX,HL |
|||
ADDW AX,#0x20 |
|||
XCHW AX,HL |
|||
DECW BC |
|||
BR $LSTINIT1 |
|||
LSTINIT2: |
|||
MOVW AX,SP |
|||
CMPW AX,HL |
|||
BZ $LSTINIT3 ; goto end |
|||
CLRW AX |
|||
MOVW [HL],AX |
|||
INCW HL |
|||
INCW HL |
|||
BR $LSTINIT2 |
|||
LSTINIT3: |
|||
RET |
|||
@ -0,0 +1,182 @@ |
|||
#include "uart.h" |
|||
#include "delay.h" |
|||
#include "r_cg_adc.h" |
|||
#include "r_cg_port.h" |
|||
|
|||
#define RS485_EN_PORT P4 |
|||
#define RS485_EN_PM PM4 |
|||
#define RS485_EN_MASK (0x20U) // P4.5
|
|||
|
|||
float g_adc_bytes[ADC_NUM_CH] = {0.0f}; |
|||
uint8_t g_adc_len = 0; |
|||
|
|||
void rs485_set_tx(uint8_t on) |
|||
{ |
|||
if (on) RS485_EN_PORT |= RS485_EN_MASK; // EN=1 (TX)
|
|||
else RS485_EN_PORT &= (uint8_t)~RS485_EN_MASK; // EN=0 (RX)
|
|||
} |
|||
|
|||
void rs485_init(void) |
|||
{ |
|||
RS485_EN_PM &= (uint8_t)~RS485_EN_MASK; // 출력
|
|||
rs485_set_tx(0); // 기본 RX 모드
|
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: uart_send_string |
|||
* 목적: null 종료된 문자열을 UART0로 전송 |
|||
* |
|||
* 매개변수: |
|||
* - str : 전송할 문자열 (C 문자열, '\0'로 종료) |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 문자열 길이 계산 |
|||
* - 문자열 끝을 나타내는 '\0'이 나올 때까지 len 증가 |
|||
* |
|||
* 2) UART 전송 |
|||
* - R_UART0_Send() 함수를 사용하여 계산한 길이만큼 문자열 전송 |
|||
* - (uint8_t *)로 캐스팅하여 바이트 배열 형식 전달 |
|||
* |
|||
* 참고: |
|||
* - null 문자('\0')는 전송되지 않음 |
|||
* - UART0 초기화와 전송 준비는 별도로 되어 있어야 함 |
|||
*/ |
|||
|
|||
// UART0(RS485)
|
|||
void uart_send_string(const char *str) |
|||
{ |
|||
uint16_t len = 0; |
|||
while (str[len] != '\0') len++; |
|||
|
|||
rs485_set_tx(1); |
|||
R_UART0_Send((uint8_t *)str, len); |
|||
} |
|||
|
|||
// UART1(PC)
|
|||
void uart1_send_string(const char *str) |
|||
{ |
|||
uint16_t len = 0; |
|||
while (str[len] != '\0') len++; |
|||
R_UART1_Send((uint8_t *)str, len); |
|||
} |
|||
|
|||
/**
|
|||
* 함수명: uart_send_hex |
|||
* 목적: 8비트 값(uint8_t)을 16진수 문자열로 변환 후 UART0로 전송 |
|||
* |
|||
* 매개변수: |
|||
* - val : 전송할 8비트 값 |
|||
* |
|||
* 반환값: 없음 (void) |
|||
* |
|||
* 동작 방식: |
|||
* 1) 상위/하위 4비트 분리 |
|||
* - high = val >> 4, 상위 4비트 |
|||
* - low = val & 0x0F, 하위 4비트 |
|||
* |
|||
* 2) 16진수 문자로 변환 |
|||
* - 0~9 → '0'~'9' |
|||
* - 10~15 → 'A'~'F' |
|||
* - hex[0] = 상위 4비트 문자 |
|||
* - hex[1] = 하위 4비트 문자 |
|||
* |
|||
* 3) UART 전송 |
|||
* - R_UART0_Send()를 사용해 2바이트 전송 |
|||
* |
|||
* 4) 전송 후 지연 |
|||
* - delay(10000)으로 약간의 전송 간격 확보 |
|||
* |
|||
* 참고: |
|||
* - 이 함수는 1바이트 값을 항상 2자리 16진수로 표현 |
|||
* - 예: val = 0xAF → "AF" 전송 |
|||
*/ |
|||
void uart_send_hex(uint8_t val) |
|||
{ |
|||
uint8_t hex[2]; |
|||
uint8_t high = (val >> 4) & 0x0F; |
|||
uint8_t low = val & 0x0F; |
|||
|
|||
hex[0] = (high < 10) ? ('0' + high) : ('A' + (high - 10)); |
|||
hex[1] = (low < 10) ? ('0' + low) : ('A' + (low - 10)); |
|||
|
|||
rs485_set_tx(1); |
|||
R_UART0_Send(hex, 2); |
|||
delay(10000); |
|||
} |
|||
|
|||
void uart1_send_hex(uint8_t val) |
|||
{ |
|||
uint8_t hex[2]; |
|||
uint8_t high = (val >> 4) & 0x0F; |
|||
uint8_t low = val & 0x0F; |
|||
|
|||
hex[0] = (high < 10) ? ('0' + high) : ('A' + (high - 10)); |
|||
hex[1] = (low < 10) ? ('0' + low ) : ('A' + (low - 10)); |
|||
|
|||
R_UART1_Send(hex, 2); |
|||
delay(10000); |
|||
} |
|||
|
|||
|
|||
|
|||
/**
|
|||
* 함수명: ADC_ReadAndSend_UART |
|||
* 목적: 여러 ADC 채널을 읽고 전압으로 변환하여 전역 배열에 저장 |
|||
* |
|||
* 동작 방식: |
|||
* 1) ADC 채널 배열 정의 |
|||
* - ADC_NUM_CH 개수만큼 읽을 채널 지정 |
|||
* - 예: {0x02, 0x03, 0x04, 0x05} |
|||
* |
|||
* 2) 각 채널 순차적으로 읽기 |
|||
* for (i = 0; i < ADC_NUM_CH; i++) |
|||
* a) ADS 레지스터에 채널 선택 |
|||
* b) R_ADC_Start()로 변환 시작 |
|||
* c) 변환 완료 대기 (ADIF == 1 될 때까지) |
|||
* d) ADIF 플래그 클리어 |
|||
* e) 변환 값 읽기: R_ADC_Get_Result(&adc_value) |
|||
* f) ADC 정지: R_ADC_Stop() |
|||
* |
|||
* 3) ADC 값을 전압으로 변환 |
|||
* - voltage = (adc_value / ADC_RESOLUTION) * VREF |
|||
* - 예: 12bit ADC, VREF = 5V이면 0~4095 → 0~5V 변환 |
|||
* |
|||
* 4) 전역 배열에 저장 |
|||
* - g_adc_bytes[i] = voltage |
|||
* - g_adc_len 증가 |
|||
* |
|||
* 참고: |
|||
* - g_adc_bytes[]: 변환된 전압 저장용 전역 배열 |
|||
* - g_adc_len: 현재 읽은 채널 수 |
|||
*/ |
|||
void ADC_ReadAndSend_UART(void) |
|||
{ |
|||
static const uint8_t ADC_CHANNELS[ADC_NUM_CH] = { 0x02,0x03,0x04,0x05}; |
|||
|
|||
uint16_t adc_value; |
|||
float voltage; |
|||
int i; |
|||
|
|||
g_adc_len = 0; |
|||
|
|||
for (i = 0; i < ADC_NUM_CH; i++) { |
|||
ADS = ADC_CHANNELS[i]; // 채널 선택
|
|||
R_ADC_Start(); // 변환 시작
|
|||
while (ADIF == 0U); // 변환 완료 대기
|
|||
ADIF = 0U; |
|||
|
|||
R_ADC_Get_Result(&adc_value); |
|||
R_ADC_Stop(); |
|||
|
|||
/* V 계산 */ |
|||
voltage = (adc_value / ADC_RESOLUTION) * VREF; |
|||
|
|||
g_adc_bytes[i] = voltage; |
|||
g_adc_len++; |
|||
} |
|||
|
|||
} |
|||
@ -0,0 +1,37 @@ |
|||
#include "r_cg_macrodriver.h" |
|||
#include "r_cg_serial.h" |
|||
#include "r_cg_adc.h" |
|||
|
|||
|
|||
|
|||
|
|||
#define ADC_RESOLUTION 1023.0f // 10-bit ADC
|
|||
#define VREF 5.06f // V
|
|||
#define ADC_NUM_CH 4 |
|||
#define RAM_BYTES 13 |
|||
#define UART_RX_BUF_SIZE 96 |
|||
|
|||
extern float g_adc_bytes[ADC_NUM_CH]; |
|||
extern uint8_t g_adc_len; |
|||
|
|||
extern volatile uint8_t uart_rx_done; |
|||
extern volatile uint8_t uart_rx_index; |
|||
extern volatile uint8_t uart_rx_buffer[UART_RX_BUF_SIZE]; |
|||
extern volatile uint16_t uart_rx_length; |
|||
|
|||
|
|||
void uart_send_string(const char *str); // UART0(RS485)
|
|||
void uart_send_hex(uint8_t val); // UART0(RS485)
|
|||
|
|||
void uart1_send_string(const char *str); // UART1(PC)
|
|||
void uart1_send_hex(uint8_t val); // UART1(PC)
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//void UART0_ReceiveHandler(void);
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void ADC_ReadAndSend_UART(void); |
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void cmd_enter_command_mode(const unsigned char *d, unsigned int len); |
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void cmd_unknown(const unsigned char *d, unsigned int len); |
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// RS485 EN(P45)
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void rs485_init(void); |
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void rs485_set_tx(uint8_t on); |
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Loading…
Reference in new issue