📄 fet120_adc10_temp.s43
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;******************************************************************************
; MSP-FET430P120 Demo - ADC10, Sample A10 Temp and Convert to oC and oF
;
; Description: A single sample is made on A10 with reference to internal
; 1.5V Vref. Software sets ADC10SC to start sample and conversion - ADC10SC
; automatically cleared at EOC. ADC10 internal oscillator/4 times sample
; (64x) and conversion. In Mainloop MSP430 waits in LPM0 to save power until
; ADC10 conversion complete, ADC10_ISR will force exit from any LPMx in
; Mainloop on reti. Result is converted to Temperature represented as
; BCD 0000 - 0145 representing oC saved at 0200h and 0000 - 0292 representing
; oF saved at 0202h. Temperature sensor offset and slope will vary from device
; to device per datasheet tolerance.
; ACLK = n/a, MCLK = SMCLK = default DCO ~ 800kHz, ADC10CLK = ADC10OSC/4
; Uncalibrated temperature measured from device to devive will vary with
; slope and offset - please see datasheet.
; //* MSP430F1232 or MSP430F1132 Device Required *//
;
; MSP430F1232
; -----------------
; /|\| XIN|-
; | | |
; --|RST XOUT|-
; | |
; |A10 |
;
; M. Buccini
; Texas Instruments Inc.
; Feb 2005
; Built with IAR Embedded Workbench Version: 3.21A
;******************************************************************************
#include <msp430x12x2.h>
;------------------------------------------------------------------------------
ORG 0E000h ; Program Start
;------------------------------------------------------------------------------
RESET mov.w #0300h,SP ; Initialize stackpointer
StopWDT mov.w #WDTPW+WDTHOLD,&WDTCTL ; Stop WDT
SetupADC10 mov.w #INCH_10+ADC10DIV_3,&ADC10CTL1 ; Temp Sensor ADC10CLK/4
mov.w #SREF_1+ADC10SHT_3+REFON+ADC10ON+ADC10IE,&ADC10CTL0 ;
mov.w #30,&TACCR0 ; Delay to allow Ref to settle
bis.w #CCIE,&TACCTL0 ; Compare-mode interrupt.
mov.w #TACLR+MC_1+TASSEL_2,&TACTL; up mode, SMCLK
bis.w #LPM0+GIE,SR ; Enter LPM0, enable interrupts
bic.w #CCIE,&TACCTL0 ; Disable timer interrupt
dint
;
Mainloop bis.w #ENC+ADC10SC,&ADC10CTL0 ; Start sampling/conversion
bis.w #CPUOFF+GIE,SR ; LPM0, ADC10_ISR will force exit
call #Trans2TempC ; Transform voltage to temperature
call #BIN2BCD4 ; R13 = TempC = 0000 - 0145 BCD
mov.w R13,&0200h ; 0200h = temperature oC
call #Trans2TempF ; Transform voltage to temperature
call #BIN2BCD4 ; R13 = TempF = 0000 - 0292 BCD
mov.w R13,&0202h ; 0202h = temperature oF
jmp Mainloop ; << breakpoint here
;
;------------------------------------------------------------------------------
Trans2TempC;Subroutine coverts R12 = ADC10MEM/1024*423-278
; oC = ((x/1024)*1500mV)-986mV)*1/3.55mV = x*423/1024 - 278
; Input: ADC10MEM 0000 - 0FFFh, R11, R12, R14, R15 working register
; Output: R12 0000 - 091h
;------------------------------------------------------------------------------
mov.w &ADC10MEM,R12 ;
mov.w #423,R11 ; C
call #MPYU ;
bic.w #00FFh,R14 ; /1024
add.w R15,R14 ;
swpb R14 ;
rra.w R14 ;
rra.w R14 ;
mov.w R14,R12 ;
sub.w #278,R12 ; C
ret ;
;
;------------------------------------------------------------------------------
Trans2TempF;Subroutine coverts R12 = ADC10MEM/1024*761-468
; oF = ((x/1024)*1500mV)-923mV)*1/1.97mV = x*761/1024 - 468
; Input: ADC10MEM 0000 - 0FFFh, R11, R12, R14, R15 working register
; Output: R12 0000 - 0124h
;------------------------------------------------------------------------------
mov.w &ADC10MEM,R12 ;
mov.w #761,R11 ; F
call #MPYU ;
bic.w #00FFh,R14 ; /1024
add.w R15,R14 ;
swpb R14 ;
rra.w R14 ;
rra.w R14 ;
mov.w R14,R12 ;
sub.w #468,R12 ; F
ret ;
;
;------------------------------------------------------------------------------
BIN2BCD4 ; Subroutine converts binary number R12 -> Packed 4- digit BCD R13
; Input: R12 0000 - 0FFFh, R15 working register
; Output: R13 0000 - 4095
;------------------------------------------------------------------------------
mov.w #16,R15 ; Loop Counter
clr.w R13 ; 0 -> RESULT LSD
BIN1 rla.w R12 ; Binary MSB to carry
dadd.w R13,R13 ; RESULT x2 LSD
dec.w R15 ; Through?
jnz BIN1 ; Not through
ret ;
;
;------------------------------------------------------------------------------
MPYU ; Unsigned Multipy R11 x R12 = R15|R14
; Input: R11, R12 -- R10 and R13 are working registers
; Output: R15, R14
;------------------------------------------------------------------------------
clr.w R14 ; 0 -> LSBs result
clr.w R15 ; 0 -> MSBs result
MACU clr.w R13 ; MSBs multiplier
mov.w #1,R10 ; bit test register
MPY2 bit.w R10,R11 ; test actual bit
jz MPY1 ; IF 0: do nothing
add.w R12,R14 ; IF 1: add multiplier to result
addc.w R13,R15 ;
MPY1 rla.w R12 ; multiplier x 2
rlc.w R13 ;
rla.w R10 ; next bit to test
jnc MPY2 ; if bit in carry: finished
ret ; Return from subroutine
;
;------------------------------------------------------------------------------
TA0_ISR; ISR for CCR0
;------------------------------------------------------------------------------
clr &TACTL ; clear Timer_A control registers
bic #LPM0,0(SP) ; Exit LPMx, interrupts enabled
reti ;
;------------------------------------------------------------------------------
;------------------------------------------------------------------------------
ADC10_ISR;
;------------------------------------------------------------------------------
mov.w #GIE,0(SP) ; Exit any LPMx on reti
reti ;
;
;------------------------------------------------------------------------------
; Interrupt Vectors
;------------------------------------------------------------------------------
ORG 0FFFEh ; MSP430 RESET Vector
DW RESET ;
ORG 0FFEAh ; ADC10 Vector
DW ADC10_ISR ;
ORG 0FFF2h ; Timer_A0 Vector
DW TA0_ISR ;
END
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