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;***************************************************************************************** ; Copyright © [01/26/1999] Scenix Semiconductor, Inc. All rights reserved. ; ; Scenix Semiconductor, Inc. assumes no responsibility or liability for ; the use of this [product, application, software, any of these products]. ; Scenix Semiconductor conveys no license, implicitly or otherwise, under ; any intellectual property rights. ; Information contained in this publication regarding (e.g.: application, ; implementation) and the like is intended through suggestion only and may ; be superseded by updates. Scenix Semiconductor makes no representation ; or warranties with respect to the accuracy or use of these information, ; or infringement of patents arising from such use or otherwise. ;***************************************************************************************** ; ; Filename: SX52_timers.src ; ; Authors: Stephen Holland ; Sr. Applications Engineer ; Scenix Semiconductor ; ; Revision: 1.00 ; ; Part: SX52BD datecode AA9931AC ; Freq: 50Mhz ; Compiler: Parallax SX-Key52 software v1.12 and SASM 1.40 ; ; Date Written: 10/16/99 ; ; Last Revised: 10/31/99 ; ; Program Description: ; ; This code demonstrates the various modes of the SX48BD and SX52BD onboard 16-bit ; timers. ; ; Revision History: ; 10/31/99 - Added timer capture functions set_CP1 and set_CP2 (each function monitors ; both capture sources on the timer). ; ;***************************************************************************************** ;***************************************************************************************** ; Target SX ; Uncomment one of the following lines to choose the SX48BD/ES, SX48BD, SX52BD/ES or SX52BD. ; For SX48BD/ES and SX52BD/ES, uncomment both defines, SX48_52 and SX48_52_ES. ;***************************************************************************************** ;SX48_52 SX48_52_ES ;***************************************************************************************** ; Assembler Used ; Uncomment the following line if using the Parallax SX-Key assembler. SASM assembler ; enabled by default. ;***************************************************************************************** SX_Key ;********************************************************************************* ; Assembler directives: ; high speed external osc, turbo mode, 8-level stack, and extended option reg. ; ; SX18/20/28 - 4 pages of program memory and 8 banks of RAM enabled by default. ; SX48/52 - 8 pages of program memory and 16 banks of RAM enabled by default. ; ;********************************************************************************* IFDEF SX_Key ;SX-Key Directives IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SX-Key device oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48/52/BD device directives for SX-Key device oschs2 ENDIF ENDIF freq 50_000_000 ELSE ;SASM Directives IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SASM device SX52,oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48BD or SX52BD device directives for SASM device SX52,oschs2 ENDIF ENDIF ENDIF id ' ' ; reset reset_entry ; set reset vector ;***************************************************************************************** ; Macros ;***************************************************************************************** ;********************************************************************************* ; Macro: _bank ; Sets the bank appropriately for all revisions of SX. ; ; This is required since the bank instruction has only a 3-bit operand, it cannot ; be used to access all 16 banks of the SX48/52. For this reason FSR.4 (for SX48/52BD/ES) ; or FSR.7 (SX48/52bd production release) needs to be set appropriately, depending ; on the bank address being accessed. This macro fixes this. ; ; So, instead of using the bank instruction to switch between banks, use _bank instead. ; ;********************************************************************************* _bank macro 1 expand bank \1 noexpand IFDEF SX48_52 IFDEF SX48_52_ES IF \1 & %00010000 ;SX48BD/ES and SX52BD/ES (engineering sample) bank instruction expand setb fsr.4 ;modifies FSR bits 5,6 and 7. FSR.4 needs to be set by software. noexpand ENDIF ELSE IF \1 & %10000000 ;SX48BD and SX52BD (production release) bank instruction expand setb fsr.7 ;modifies FSR bits 4,5 and 6. FSR.7 needs to be set by software. noexpand ELSE expand clrb fsr.7 noexpand ENDIF ENDIF ENDIF endm ;********************************************************************************* ; Macro: _mode ; Sets the MODE register appropriately for all revisions of SX. ; ; This is required since the MODE (or MOV M,#) instruction has only a 4-bit operand. ; The SX18/20/28AC use only 4 bits of the MODE register, however the SX48/52BD have ; the added ability of reading or writing some of the MODE registers, and therefore use ; 5-bits of the MODE register. The MOV M,W instruction modifies all 8-bits of the ; MODE register, so this instruction must be used on the SX48/52BD to make sure the MODE ; register is written with the correct value. This macro fixes this. ; ; So, instead of using the MODE or MOV M,# instructions to load the M register, use ; _mode instead. ; ;********************************************************************************* _mode macro 1 noexpand IFDEF SX48_52 expand mov w,#\1 ;loads the M register correctly for the SX48BD and SX52BD mov m,w noexpand ELSE expand mov m,#\1 ;loads the M register correctly for the SX18AC, SX20AC ;and SX28AC noexpand ENDIF endm IFDEF SX_Key ;***************************************************************************************** ; Debugger Watches (SX-Key software only) ;***************************************************************************************** watch T1cap1_done,1,ubin watch T1CAP1L,16,uhex watch T1cap2_done,1,ubin watch T1CAP2L,16,uhex watch T2cap1_done,1,ubin watch T2CAP1L,16,uhex watch T2cap2_done,1,ubin watch T2CAP2L,16,uhex ENDIF ;***************************************************************************************** ; Data Memory address definitions ; These definitions ensure the proper address is used for banks 0 - 7 for 2K SX devices ; (SX18/20/28) and 4K SX devices (SX48/52). ;***************************************************************************************** global_org = $0A bank0_org = $00 bank1_org = $10 bank2_org = $20 bank3_org = $30 bank4_org = $40 bank5_org = $50 bank6_org = $60 bank7_org = $70 ;***************************************************************************************** ; Global Register definitions ; NOTE: Global data memory starts at $0A on SX48/52 and $08 on SX18/20/28. ;***************************************************************************************** org global_org function_temp equ global_org global_temp equ global_org+1 flags equ global_org+2 ;program flags register timer_flag equ flags.0 ;indicates a timeout on the software 16-bit timer T1cap1_done equ flags.1 ;indicates T1 capture 1 done T1cap2_done equ flags.2 ;indicates T1 capture 2 done T2cap1_done equ flags.3 ;indicates T2 capture 1 done T2cap2_done equ flags.4 ;indicates T2 capture 2 done ;***************************************************************************************** ; RAM Bank Register definitions ;***************************************************************************************** ;********************************************************************************* ; Bank 0 ;********************************************************************************* org bank0_org bank0 = $ ;********************************************************************************* ; Bank 1 ;********************************************************************************* org bank1_org bank1 = $ timers = $ t1_hdc_high ds 1 ;T1R1CMH value t1_hdc_low ds 1 ;T1R1CML value t1_ldc_high ds 1 ;T1R2CMH value t1_ldc_low ds 1 ;T1R2CML value t2_hdc_high ds 1 ;T2R1CMH value t2_hdc_low ds 1 ;T2R1CML value t2_ldc_high ds 1 ;T2R2CMH value t2_ldc_low ds 1 ;T2R2CML value T1CAP1L ds 1 ;T1 capture 1 low byte T1CAP1H ds 1 ;T1 capture 1 high byte T1CAP2L ds 1 ;T1 capture 2 low byte T1CAP2H ds 1 ;T1 capture 2 high byte T2CAP1L ds 1 ;T2 capture 1 low byte T2CAP1H ds 1 ;T2 capture 1 high byte T2CAP2L ds 1 ;T2 capture 2 low byte T2CAP2H ds 1 ;T2 capture 2 high byte ;********************************************************************************* ; Bank 2 ;********************************************************************************* org bank2_org bank2 = $ timer_vp = $ timer_low ds 1 ;timer accumulator low byte timer_high ds 1 ;timer accumulator high byte ;********************************************************************************* ; Bank 3 ;********************************************************************************* org bank3_org bank3 = $ ;********************************************************************************* ; Bank 4 ;********************************************************************************* org bank4_org bank4 = $ ;********************************************************************************* ; Bank 5 ;********************************************************************************* org bank5_org bank5 = $ ;********************************************************************************* ; Bank 6 ;********************************************************************************* org bank6_org bank6 = $ ;********************************************************************************* ; Bank 7 ;********************************************************************************* org bank7_org bank7 = $ ;********************************************************************************* ; Bank 8 ;********************************************************************************* org $80 ;bank 8 address on SX52 bank8 = $ ;********************************************************************************* ; Bank 9 ;********************************************************************************* org $90 ;bank 9 address on SX52 bank9 = $ ;********************************************************************************* ; Bank A ;********************************************************************************* org $A0 ;bank A address on SX52 bankA = $ ;********************************************************************************* ; Bank B ;********************************************************************************* org $B0 ;bank B address on SX52 bankB = $ ;********************************************************************************* ; Bank C ;********************************************************************************* org $C0 ;bank C address on SX52 bankC = $ ;********************************************************************************* ; Bank D ;********************************************************************************* org $D0 ;bank D address on SX52 bankD = $ ;********************************************************************************* ; Bank E ;********************************************************************************* org $E0 ;bank E address on SX52 bankE = $ ;********************************************************************************* ; Bank F ;********************************************************************************* org $F0 ;bank F address on SX52 bankF = $ ;***************************************************************************************** ; Port Assignment ;***************************************************************************************** RA_latch equ %00000000 ;SX18/20/28/48/52 port A latch init RA_DDIR equ %11111111 ;SX18/20/28/48/52 port A DDIR value RA_LVL equ %00000000 ;SX18/20/28/48/52 port A LVL value RA_PLP equ %11111111 ;SX18/20/28/48/52 port A PLP value RB_latch equ %00000000 ;SX18/20/28/48/52 port B latch init RB_DDIR equ %10111111 ;SX18/20/28/48/52 port B DDIR value RB_ST equ %11111111 ;SX18/20/28/48/52 port B ST value RB_LVL equ %00000000 ;SX18/20/28/48/52 port B LVL value RB_PLP equ %11111111 ;SX18/20/28/48/52 port B PLP value RC_latch equ %00000000 ;SX18/20/28/48/52 port C latch init RC_DDIR equ %11111011 ;SX18/20/28/48/52 port C DDIR value RC_ST equ %11111111 ;SX18/20/28/48/52 port C ST value RC_LVL equ %00000000 ;SX18/20/28/48/52 port C LVL value RC_PLP equ %11111111 ;SX18/20/28/48/52 port C PLP value RD_latch equ %00000000 ;SX48/52 port D latch init RD_DDIR equ %11111111 ;SX48/52 port D DDIR value RD_ST equ %11111111 ;SX48/52 port D ST value RD_LVL equ %00000000 ;SX48/52 port D LVL value RD_PLP equ %11111111 ;SX48/52 port D PLP value RE_latch equ %00000000 ;SX48/52 port E latch init RE_DDIR equ %01111111 ;SX48/52 port E DDIR value RE_ST equ %11111111 ;SX48/52 port E ST value RE_LVL equ %00000000 ;SX48/52 port E LVL value RE_PLP equ %11111111 ;SX48/52 port E PLP value ;***************************************************************************************** ; Pin Definitions ;***************************************************************************************** timer_pin equ re.7 ;flashing timer LED ;***************************************************************************************** ; Program constants ;***************************************************************************************** int_period = 217 ;RTCC Interrupt rate ; = 1/(int_period*RTCC prescaler*1/50MHz) ; = 1/(217*1*20ns) = 4.34us ;********************************************************************************* ; SX48BD/52BD Mode addresses ; *On SX48BD/52BD, most registers addressed via mode are read and write, with the ; exception of CMP and WKPND which do an exchange with W. ;********************************************************************************* ; Timer (read) addresses TCPL_R equ $00 ;Read Timer Capture register low byte TCPH_R equ $01 ;Read Timer Capture register high byte TR2CML_R equ $02 ;Read Timer R2 low byte TR2CMH_R equ $03 ;Read Timer R2 high byte TR1CML_R equ $04 ;Read Timer R1 low byte TR1CMH_R equ $05 ;Read Timer R1 high byte TCNTB_R equ $06 ;Read Timer control register B TCNTA_R equ $07 ;Read Timer control register A ; Exchange addresses CMP equ $08 ;Exchange Comparator enable/status register with W WKPND equ $09 ;Exchange MIWU/RB Interrupts pending with W ; Port setup (read) addresses WKED_R equ $0A ;Read MIWU/RB Interrupt edge setup, 0 = falling, 1 = rising WKEN_R equ $0B ;Read MIWU/RB Interrupt edge setup, 0 = enabled, 1 = disabled ST_R equ $0C ;Read Port Schmitt Trigger setup, 0 = enabled, 1 = disabled LVL_R equ $0D ;Read Port Level setup, 0 = CMOS, 1 = TTL PLP_R equ $0E ;Read Port Weak Pullup setup, 0 = enabled, 1 = disabled DDIR_R equ $0F ;Read Port Direction ; Timer (write) addresses CLR_TMR equ $10 ;Resets 16-bit Timer TR2CML_W equ $12 ;Write Timer R2 low byte TR2CMH_W equ $13 ;Write Timer R2 high byte TR1CML_W equ $14 ;Write Timer R1 low byte TR1CMH_W equ $15 ;Write Timer R1 high byte TCNTB_W equ $16 ;Write Timer control register B TCNTA_W equ $17 ;Write Timer control register A ; Port setup (write) addresses WKED_W equ $1A ;Write MIWU/RB Interrupt edge setup, 0 = falling, 1 = rising WKEN_W equ $1B ;Write MIWU/RB Interrupt edge setup, 0 = enabled, 1 = disabled ST_W equ $1C ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled LVL_W equ $1D ;Write Port Level setup, 0 = CMOS, 1 = TTL PLP_W equ $1E ;Write Port Weak Pullup setup, 0 = enabled, 1 = disabled DDIR_W equ $1F ;Write Port Direction ;***************************************************************************************** ; Interrupt Service Routine ;***************************************************************************************** ; Note: The interrupt code must always originate at address $0. ; ; Interrupt Frequency = (Cycle Frequency / -(retiw value)) For example: ; With a retiw value of -217 and an oscillator frequency of 50MHz, this ; code runs every 4.34us. ;***************************************************************************************** org $0 interrupt ;3 ;********************************************************************************* ; Virtual Peripheral: 16-bit Timer ; ; ; Input variable(s): ; Output variable(s): ; Variable(s) affected: ; Flag(s) affected: ;********************************************************************************* :16bit_timer _bank timer_vp inc timer_low ;adjust timer's accumulator snb z inc timer_high ; (timer = 16 bits long) snz setb timer_flag ;toggle_led sb timer_high.6 ;toggle timer (square wave) clrb timer_pin snb timer_high.6 setb timer_pin ;********************************************************************************* ; Set Interrupt Rate ;********************************************************************************* isr_end mov w,#-int_period ;refresh RTCC on return retiw ;return from the interrupt ; = 1/(int_period*RTCC prescaler*1/50MHz) ; = 1/(217*1*20ns) = 4.34us ;***************************************************************************************** ; End of the Interrupt Service Routine ;***************************************************************************************** ;***************************************************************************************** ; RESET VECTOR ;***************************************************************************************** ;********************************************************************************* ; Program execution begins here on power-up or after a reset ;********************************************************************************* reset_entry ;********************************************************************************* ; Initialise all port configuration ;********************************************************************************* _mode ST_W ;point MODE to write ST register mov w,#RB_ST ;Setup RB Schmitt Trigger, 0 = enabled, 1 = disabled mov !rb,w mov w,#RC_ST ;Setup RC Schmitt Trigger, 0 = enabled, 1 = disabled mov !rc,w mov w,#RD_ST ;Setup RD Schmitt Trigger, 0 = enabled, 1 = disabled mov !rd,w mov w,#RE_ST ;Setup RE Schmitt Trigger, 0 = enabled, 1 = disabled mov !re,w _mode LVL_W ;point MODE to write LVL register mov w,#RA_LVL ;Setup RA CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !ra,w mov w,#RB_LVL ;Setup RB CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rb,w mov w,#RC_LVL ;Setup RC CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rc,w mov w,#RD_LVL ;Setup RD CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rd,w mov w,#RE_LVL ;Setup RE CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !re,w _mode PLP_W ;point MODE to write PLP register mov w,#RA_PLP ;Setup RA Weak Pull-up, 0 = enabled, 1 = disabled mov !ra,w mov w,#RB_PLP ;Setup RB Weak Pull-up, 0 = enabled, 1 = disabled mov !rb,w mov w,#RC_PLP ;Setup RC Weak Pull-up, 0 = enabled, 1 = disabled mov !rc,w mov w,#RD_PLP ;Setup RD Weak Pull-up, 0 = enabled, 1 = disabled mov !rd,w mov w,#RE_PLP ;Setup RE Weak Pull-up, 0 = enabled, 1 = disabled mov !re,w _mode DDIR_W ;point MODE to write DDIR register mov w,#RA_DDIR ;Setup RA Direction register, 0 = output, 1 = input mov !ra,w mov w,#RB_DDIR ;Setup RB Direction register, 0 = output, 1 = input mov !rb,w mov w,#RC_DDIR ;Setup RC Direction register, 0 = output, 1 = input mov !rc,w mov w,#RD_DDIR ;Setup RD Direction register, 0 = output, 1 = input mov !rd,w mov w,#RE_DDIR ;Setup RE Direction register, 0 = output, 1 = input mov !re,w mov w,#RA_latch ;Initialize RA data latch mov ra,w mov w,#RB_latch ;Initialize RB data latch mov rb,w mov w,#RC_latch ;Initialize RC data latch mov rc,w mov w,#RD_latch ;Initialize RD data latch mov rd,w mov w,#RE_latch ;Initialize RE data latch mov re,w ;********************************************************************************* ; Clear all Data RAM locations ;********************************************************************************* ;SX48/52 RAM clear routine mov w,#$0a ;reset all ram starting at $0A mov fsr,w :zero_ram clr ind ;clear using indirect addressing incsz fsr ;repeat until done jmp :zero_ram _bank bank0 ;clear bank 0 registers clr $10 clr $11 clr $12 clr $13 clr $14 clr $15 clr $16 clr $17 clr $18 clr $19 clr $1a clr $1b clr $1c clr $1d clr $1e clr $1f ;********************************************************************************* ; Initialize program/VP registers ;********************************************************************************* ;********************************************************************************* ; Setup and enable RTCC interrupt, WREG register, RTCC/WDT prescaler ;********************************************************************************* RTCC_ON = %10000000 ;Enables RTCC at address $01 (RTW hi) ;*WREG at address $01 (RTW lo) by default RTCC_ID = %01000000 ;Disables RTCC edge interrupt (RTE_IE hi) ;*RTCC edge interrupt (RTE_IE lo) enabled by default RTCC_INC_EXT = %00100000 ;Sets RTCC increment on RTCC pin transition (RTS hi) ;*RTCC increment on internal instruction (RTS lo) is default RTCC_FE = %00010000 ;Sets RTCC to increment on falling edge (RTE_ES hi) ;*RTCC to increment on rising edge (RTE_ES lo) is default RTCC_PS_ON = %00000000 ;Assigns prescaler to RTCC (PSA lo) RTCC_PS_OFF = %00001000 ;Assigns prescaler to RTCC (PSA lo) PS_000 = %00000000 ;RTCC = 1:2, WDT = 1:1 PS_001 = %00000001 ;RTCC = 1:4, WDT = 1:2 PS_010 = %00000010 ;RTCC = 1:8, WDT = 1:4 PS_011 = %00000011 ;RTCC = 1:16, WDT = 1:8 PS_100 = %00000100 ;RTCC = 1:32, WDT = 1:16 PS_101 = %00000101 ;RTCC = 1:64, WDT = 1:32 PS_110 = %00000110 ;RTCC = 1:128, WDT = 1:64 PS_111 = %00000111 ;RTCC = 1:256, WDT = 1:128 mov w,#RTCC_PS_OFF ;setup option register mov !option,w jmp @main org $200 ;***************************************************************************************** ; Jump table for page 1 ; Enables CALLs to functions in the second half of the page ;***************************************************************************************** set_PWM1 jmp set_PWM1_ set_PWM2 jmp set_PWM2_ set_CAP1 jmp set_CAP1_ set_CAP2 jmp set_CAP2_ set_EXT1 jmp set_EXT1_ set_EXT2 jmp set_EXT2_ getFreq jmp getFreq_ ;***************************************************************************************** ; Subroutines ;***************************************************************************************** ;********************************************************************************* ; Function: delay_10n_ms ; This subroutine delays 'w'*10 milliseconds (with RTCC of 217 cycles). ; ; Inputs: ; w - # of milliseconds to delay for. ; Outputs: ; none ; Registers affected: ; temp, timer_high, timer_low, timer_flag ;********************************************************************************* delay_10n_ms mov function_temp,w _bank timers :loop clrb timer_flag ; This loop delays for 10ms mov timer_high,#$f6 mov timer_low,#$d7 jnb timer_flag,$ dec function_temp ; do it w-1 times. jnz :loop clrb timer_flag retp ;********************************************************************************* ; Function: set_PWM1 ; Sets up Multi-function Timer 1 in PWM mode. The registers t1_hdc_high and ; t1_hdc_low set up the 16-bit high duty cycle value, and t1_ldc_high and t1_ldc_low ; setup the 16-bit low duty cycle value ; ; Inputs: t1_hdc_high, t1_hdc_low, t1_ldc_high, t1_ldc_low ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; none ;********************************************************************************* set_PWM1_ _mode CLR_TMR ;clear Timer T1 mov w,#$00 mov !rb,w ;************************************************************************* ; Setup T1 control registers ; -PWM mode, prescaler=1:1 ;************************************************************************* _mode TCNTA_W ;write to T1CNTA mov w,#$00 mov !rb,w _mode TCNTB_W ;write to T1CNTB mov w,#$01 mov !rb,w ;************************************************************************* ; Setup high duty-cycle via R1(16-bit) ;************************************************************************* _mode TR1CMH_W ;write to T1R1CMH mov w,t1_hdc_high mov !rb,w _mode TR1CML_W ;write to T1R1CML mov w,t1_hdc_low mov !rb,w ;************************************************************************* ; Setup low duty-cycle via R2(16-bit) ;************************************************************************* _mode TR2CMH_W ;write to T1R2CMH mov w,t1_ldc_high mov !rb,w _mode TR2CML_W ;write to T1R2CML mov w,t1_ldc_low mov !rb,w retp ;********************************************************************************* ; Function: set_PWM2 ; Sets up Multi-function Timer 2 in PWM mode. ; ; Inputs: t2_hdc_high, t2_hdc_low, t2_ldc_high, t2_ldc_low ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; none ;********************************************************************************* set_PWM2_ _mode CLR_TMR ;clear Timer T2 mov w,#$00 mov !rc,w ;************************************************************************* ; Setup T2 control registers ; -PWM mode, prescaler=1:1 ;************************************************************************* _mode TCNTA_W ;write to T2CNTA mov w,#$00 mov !rc,w _mode TCNTB_W ;write to T2CNTB mov w,#$01 mov !rc,w ;************************************************************************* ; Setup high duty-cycle via R1(16-bit) ;************************************************************************* _mode TR1CMH_W ;write to T2R1CMH mov w,t2_hdc_high mov !rc,w _mode TR1CML_W ;write to T2R1CML mov w,t2_hdc_low mov !rc,w ;************************************************************************* ; Setup low duty-cycle via R2(16-bit) ;************************************************************************* _mode TR2CMH_W ;write to T2R2CMH mov w,t2_ldc_high mov !rc,w _mode TR2CML_W ;write to T2R2CML mov w,t2_ldc_low mov !rc,w retp ;********************************************************************************* ; Function: set_CP1 ; Sets up Multi-function Timer 1 in Capture mode. A valid transition on the ; capture 1 pin captures the counter value into the dedicated capture registers ; (16-bit), T1CPL and T1CPH. A valid transition on the capture 2 pin captures ; the counter value into the R2 registers (16-bit), T1R2CML and T1R2CMH. ; ; Inputs: none ; ; Outputs: T1CPL, T1CPH, T1R2CML and T1R2CMH ; ; Registers affected: ; ;********************************************************************************* set_CAP1_ _mode CLR_TMR ;clear Timer T1 mov w,#$00 mov !rb,w ;************************************************************************* ; Setup T1 control registers ; -Capture mode, prescaler=1:1 ;************************************************************************* _mode TCNTB_W ;write to T1CNTB mov w,#%01000010 ;setup capture edge (T1CNTB.6), mov !rb,w ;setup capture clock prescaler T1PS2:0 (T1CNTB.4:2) and ;enable Capture/Compare mode (T1CNTA.1:0 = 10b) _mode TCNTA_W ;write to T1CNTA mov w,#%00000000 ;setup capture interrupt (T1CNTA.5) and mov !rb,w ;disable compare interrupt (T1CNTA.2) ;************************************************************************* ; Wait for Capture flag 1, T1CPF1 (T1CNTA.6) ;************************************************************************* :again snb T1cap1_done jmp :cap2 _mode TCNTA_R ;read from T1CNTA mov !rb,w mov function_temp,w sb function_temp.6 ;check bit 6 (T1CPF1) jmp :cap2 setb T1cap1_done ;T1 Capture 1 done, get 16-bit result _mode TCPL_R ;read from T1CPL mov !rb,w ;get T1CPL and, _bank timers mov T1CAP1L,w ;write it to T1CAP1L _mode TCPH_R ;read from T1CPH mov !rb,w ;get T1CPH and, mov T1CAP1H,w ;write it to T1CAP1H ;************************************************************************* ; Wait for Capture flag 2, T1CPF2 (T1CNTA.7) ;************************************************************************* :cap2 snb T1cap2_done jmp :again _mode TCNTA_R ;read from T1CNTA mov !rb,w mov function_temp,w sb function_temp.7 ;check bit 7 (T1CPF2) jmp :again setb T1cap2_done ;T1 Capture 2 done, get 16-bit result _mode TR2CML_R ;read from T1R2CML mov !rb,w ;get T1R2CML and, _bank timers mov T1CAP2L,w ;write it to T1CAP2L _mode TR2CMH_R ;read from T1R2CMH mov !rb,w ;get T1R2CMH and, mov T1CAP2H,w ;write it to T1CAP2H retp ;********************************************************************************* ; Function: set_CP2 ; Sets up Multi-function Timer 2 in Capture mode. A valid transition on the ; capture 1 pin captures the counter value into the dedicated capture registers ; (16-bit), T2CPL and T2CPH. A valid transition on the capture 2 pin captures ; the counter value into the R2 registers (16-bit), T2R2CML and T2R2CMH. ; ; Inputs: none ; ; Outputs: T1CPL, T1CPH, T1R2CML and T1R2CMH ; ; Registers affected: ; ;********************************************************************************* set_CAP2_ _mode CLR_TMR ;clear Timer T2 mov w,#$00 mov !rc,w ;************************************************************************* ; Setup T2 control registers ; -Capture mode, prescaler=1:1 ;************************************************************************* _mode TCNTB_W ;write to T2CNTB mov w,#%01000010 ;setup capture edge (T2CNTB.6), mov !rc,w ;setup capture clock prescaler T2PS2:0 (T2CNTB.4:2) and ;enable Capture/Compare mode (T2CNTA.1:0 = 10b) _mode TCNTA_W ;write to T2CNTA mov w,#%00000000 ;setup capture interrupt (T2CNTA.5) and mov !rc,w ;disable compare interrupt (T2CNTA.2) ;************************************************************************* ; Wait for Capture flag 1, T2CPF1 (T2CNTA.6) ;************************************************************************* :again snb T2cap1_done jmp :cap2 _mode TCNTA_R ;read from T2CNTA mov !rc,w mov function_temp,w sb function_temp.6 ;check bit 6 (T2CPF1) jmp :cap2 setb T2cap1_done ;T2 Capture 1 done, get 16-bit result _mode TCPL_R ;read from T2CPL mov !rc,w ;get T2CPL and, _bank timers mov T2CAP1L,w ;write it to T2CAP1L _mode TCPH_R ;read from T2CPH mov !rc,w ;get T2CPH and, mov T2CAP1H,w ;write it to T2CAP1H ;************************************************************************* ; Wait for Capture flag 2, T2CPF2 (T2CNTA.7) ;************************************************************************* :cap2 snb T2cap2_done jmp :again _mode TCNTA_R ;read from T2CNTA mov !rc,w mov function_temp,w sb function_temp.7 ;check bit 7 (T2CPF2) jmp :again setb T2cap2_done ;T2 Capture 2 done, get 16-bit result _mode TR2CML_R ;read from T2R2CML mov !rc,w ;get T2R2CML and, _bank timers mov T2CAP2L,w ;write it to T2CAP2L _mode TR2CMH_R ;read from T2R2CMH mov !rc,w ;get T2R2CMH and, mov T2CAP2H,w ;write it to T2CAP2H retp ;********************************************************************************* ; Function: set_EXT1 ; Sets up Multi-function Timer 1 in External Event mode. The registers t1_hdc_high and ; t1_hdc_low set up the 16-bit high duty cycle value, and t1_ldc_high and t1_ldc_low ; setup the 16-bit low duty cycle value ; ; Inputs: t1_hdc_high, t1_hdc_low, t1_ldc_high, t1_ldc_low ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; none ;********************************************************************************* set_EXT1_ _mode CLR_TMR ;clear Timer T1 mov w,#$00 mov !rb,w ;************************************************************************* ; Setup T1 control registers ; -External Event mode, prescaler=1:1 ;************************************************************************* _mode TCNTA_W ;write to T1CNTA mov w,#$00 mov !rb,w _mode TCNTB_W ;write to T1CNTB mov w,#$11 mov !rb,w ;************************************************************************* ; Setup high duty-cycle via R1(16-bit) ;************************************************************************* _mode TR1CMH_W ;write to T1R1CMH mov w,t1_hdc_high mov !rb,w _mode TR1CML_W ;write to T1R1CML mov w,t1_hdc_low mov !rb,w ;************************************************************************* ; Setup low duty-cycle via R2(16-bit) ;************************************************************************* _mode TR2CMH_W ;write to T1R2CMH mov w,t1_ldc_high mov !rb,w _mode TR2CML_W ;write to T1R2CML mov w,t1_ldc_low mov !rb,w retp ;********************************************************************************* ; Function: set_EXT2 ; Sets up Multi-function Timer 2 in External Event mode. The registers t2_hdc_high and ; t2_hdc_low set up the 16-bit high duty cycle value, and t2_ldc_high and t2_ldc_low ; setup the 16-bit low duty cycle value ; ; Inputs: t2_hdc_high, t2_hdc_low, t2_ldc_high, t2_ldc_low ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; none ;********************************************************************************* set_EXT2_ _mode CLR_TMR ;clear Timer T2 mov w,#$00 mov !rc,w ;************************************************************************* ; Setup T1 control registers ; -External Event mode, prescaler=1:1 ;************************************************************************* _mode TCNTA_W ;write to T2CNTA mov w,#$00 mov !rc,w _mode TCNTB_W ;write to T2CNTB mov w,#$03 mov !rc,w ;************************************************************************* ; Setup high duty-cycle via R1(16-bit) ;************************************************************************* _mode TR1CMH_W ;write to T2R1CMH mov w,t2_hdc_high mov !rc,w _mode TR1CML_W ;write to T2R1CML mov w,t2_hdc_low mov !rc,w ;************************************************************************* ; Setup low duty-cycle via R2(16-bit) ;************************************************************************* _mode TR2CMH_W ;write to T2R2CMH mov w,t2_ldc_high mov !rc,w _mode TR2CML_W ;write to T2R2CML mov w,t2_ldc_low mov !rc,w retp ;********************************************************************************* ; Function: getFreq ; ; Inputs: ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; none ;********************************************************************************* getFreq_ _mode CLR_TMR ;clear Timer T2 mov w,#$00 mov !rc,w ;************************************************************************* ; Setup T2 control registers ; -Capture mode, prescaler=1:1 ;************************************************************************* _mode TCNTB_W ;write to T2CNTB mov w,#%01000010 ;setup capture edge (T2CNTB.6), mov !rc,w ;setup capture clock prescaler T2PS2:0 (T2CNTB.4:2) and ;enable Capture/Compare mode (T2CNTA.1:0 = 10b) _mode TCNTA_W ;write to T2CNTA mov w,#%00000000 ;setup capture interrupt (T2CNTA.5) and mov !rc,w ;disable compare interrupt (T2CNTA.2) ;************************************************************************* ; Wait for Capture flag 1, T2CPF1 (T2CNTA.6) ;************************************************************************* :again _mode TCNTA_R ;read from T2CNTA mov !rc,w mov function_temp,w sb function_temp.6 ;check bit 6 (T2CPF1) jmp :again setb T2cap1_done ;T2 Capture 1 done, get 16-bit result _mode TCPL_R ;read from T2CPL mov !rc,w ;get T2CPL and, _bank timers mov T2CAP1L,w ;write it to T2CAP1L _mode TCPH_R ;read from T2CPH mov !rc,w ;get T2CPH and, mov T2CAP1H,w ;write it to T2CAP1H retp org $A00 ;***************************************************************************************** ; MAIN PROGRAM CODE ;***************************************************************************************** ;********************************************************************************* ; Main ;********************************************************************************* main _bank timers mov t1_hdc_high,#$00 ;load T1R1CMH value mov t1_hdc_low,#$ff ;load T1R1CML value mov t1_ldc_high,#$00 ;load T1R2CMH value mov t1_ldc_low,#$ff ;load T1R2CML value call @set_PWM1 ; _bank timers ; mov t2_hdc_high,#$00 ;load T1R1CMH value ; mov t2_hdc_low,#$01 ;load T1R1CML value ; mov t2_ldc_high,#$00 ;load T1R2CMH value ; mov t2_ldc_low,#$01 ;load T1R2CML value ; call @set_EXT2 ;********************************************************************************* ; Main Program Loop ;********************************************************************************* main_loop ; jmp Variable_PWM ; call @set_CAP2 call @getFreq jmp main_loop ;********************************************************************************* ; Function: Variable_PWM ; This function demonstrates how to setup and enable an onboard 16-bit timer in ; PWM mode and modulate the PWM output. ;********************************************************************************* Variable_PWM ;********************************************************************************* ; Setup and enable onboard 16-bit timers in PWM mode. ;********************************************************************************* :loop1 _bank timers mov t1_hdc_high,#$ff ;load T1R1CMH value mov t1_hdc_low,#$ff ;load T1R1CML value mov t1_ldc_high,#$ff ;load T1R2CMH value mov t1_ldc_low,#$ff ;load T1R2CML value call @set_PWM1 mov w,#10 call @delay_10n_ms ;********************************************************************************* ; Only update PWM on overflow of R2 ;********************************************************************************* _mode TCNTA_W ;write to T1CNTA (to clear the flags) mov w,#$00 mov !rb,w _mode TCNTA_R ;read T1CNTA (to check T1CMF2) :loop2 mov w,#$00 mov !rb,w sb wreg.4 ;wait until T1CMF2 gets set jmp :loop2 ;********************************************************************************* ; Reload onboard 16-bit timers with new values. ;********************************************************************************* _bank timers mov t1_hdc_high,#$7f ;load T1R1CMH value mov t1_hdc_low,#$ff ;load T1R1CML value mov t1_ldc_high,#$7f ;load T1R2CMH value mov t1_ldc_low,#$ff ;load T1R2CML value call @set_PWM1 mov w,#10 call @delay_10n_ms ;********************************************************************************* ; Only update PWM on overflow of R2 ;********************************************************************************* _mode TCNTA_W ;write to T1CNTA (to clear the flags) mov w,#$00 mov !rb,w _mode TCNTA_R ;read T1CNTA (to check T1CMF2) :loop3 mov w,#$00 mov !rb,w sb wreg.4 ;wait until T1CMF2 gets set jmp :loop3 jmp :loop1 ;***************************************************************************************** ; END OFMAIN PROGRAM CODE ;***************************************************************************************** ;***************************************************************************************** END ;End of program code ;*****************************************************************************************
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