mirror of
https://github.com/KolibriOS/kolibrios.git
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7c539d8e19
git-svn-id: svn://kolibrios.org@6400 a494cfbc-eb01-0410-851d-a64ba20cac60
329 lines
17 KiB
NASM
329 lines
17 KiB
NASM
;throttle_backemf.asm
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.NOLIST
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; ***************************************************************************************
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; * PWM MODEL RAILROAD THROTTLE *
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; * *
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; * WRITTEN BY: PHILIP DEVRIES *
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; * *
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; * Copyright (C) 2003 Philip DeVries *
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; * *
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; * This program is free software; you can redistribute it and/or modify *
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; * it under the terms of the GNU General Public License as published by *
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; * the Free Software Foundation; either version 2 of the License, or *
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; * (at your option) any later version. *
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; * *
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; * This program is distributed in the hope that it will be useful, *
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; * but WITHOUT ANY WARRANTY; without even the implied warranty of *
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; * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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; * GNU General Public License for more details. *
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; * *
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; * You should have received a copy of the GNU General Public License *
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; * along with this program; if not, write to the Free Software *
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; * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA *
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; * *
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; ***************************************************************************************
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.LIST
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.ifdef BACKEMF_ENABLED
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;********************************************************************************
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;* BACKEMF_ADJUST *
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;* Top level routine *
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;* *
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;* The throttle_set is compared against the back emf generated by the motor *
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;* and adjusted to reduce the error *
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;* *
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;* Inputs: throttle_set Target speed *
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;* Returns: throttle_set Adjusted target speed *
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;* Changed: error_hi Adjusted throttle, upper 8 bits (local) *
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;* error_lo Adjusted throttle, lower 8 bits (local) *
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;* error_hi_prev Previous throttle, for filter (global) *
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;* error_lo_prev Previous throttle, for filter (global) *
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;* emf_hi Measured emf, upper 8 bits (local) *
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;* emf_lo Measured emf, lower 8 bits (local) *
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;* B_Temp,B_Temp1 *
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;* Calls: ADC_SETUP_EMF *
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;* div16u *
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;* DIVIDE_16_SIMPLE *
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;* Goto: none *
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;********************************************************************************
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HILOCAL1 error_lo ; assign local variables
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HILOCAL2 error_hi
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;*****************************************************************
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;*Convert throttle setting into 2 byte 2's compl. *
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;* *
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;* This is a 7 bit number plus 1 more bits after the radix *
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;* It is in (error_hi) -radix- (error_lo) *
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;*****************************************************************
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mov error_hi,throttle_set ; Put throttle into 16 bit form
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clr error_lo
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lsr error_hi ; Convert to 2's compliment
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ror error_lo
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;********************************************************************************
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;* READ_BACKEMF *
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;* Returns a 2 byte 2's compliment measurement of the motor backemf. *
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;* *
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;* 1. Add together 8 samples of the (8 bit) pwm value in the two byte *
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;* emf_hi--emf_lo register. *
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;* 2. Multiply by 16. *
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;* 3. Result: Minimum value = 0x000 (decimal 0) *
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;* Maximum value = 0x7F8 (decimal 2040) *
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;* *
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;* Time required: *
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;* 1. 1st Sample: 125uS *
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;* 2. next 7 Samples: 455uS *
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;* 3. balance of Subroutine: 10's of uS *
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;* TOTAL 580uS min *
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;* *
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;* Each cycle of the 25kHz PWM takes 40uS, therefore, this routine takes *
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;* at least 14.5 cycles of the 25kHz pwm. *
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;* *
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;* Inputs: None *
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;* Returns: emf_hi--emf_lo: 2 Byte 2's compl (but always positive) *
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;* measure of motor backemf. *
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;* Changed: B_Temp,B_Temp1 *
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;* Calls: ADC_SETUP_EMF *
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;********************************************************************************
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LOWLOCAL1 emf_hi ; Names of local registers
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LOWLOCAL2 emf_lo
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;READ_BACKEMF:
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rcall ADC_SETUP_EMF ; Setup ADC to measure back_emf.
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clr emf_lo ; Clear the value of emf.
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clr emf_hi
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ldi B_Temp,8 ; Add 8 samples
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WAIT_FOR_EMF_MEASURE: ; Wait for a measurement of the EMF
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sbis ADCSR,ADIF
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rjmp WAIT_FOR_EMF_MEASURE
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in B_Temp1,ADCH ; Read the measurement
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sbi ADCSR,4 ; Clear the interrupt
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add emf_lo,B_Temp1 ; Add to low byte (no carry)
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clr B_Temp1
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adc emf_hi,B_Temp1 ; Add carry to high byte.
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dec B_Temp
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brne WAIT_FOR_EMF_MEASURE ; Measure for complete set
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; Sum of 8 samples.
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ldi B_Temp,4 ; Convert 11 bit number into a 15 bit
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COMPUTE_EMF_AVERAGE: ; number (only 11 significant figures
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lsl emf_lo ; though)
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rol emf_hi
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dec B_Temp
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brne COMPUTE_EMF_AVERAGE
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;*****************************************************************
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;* Compute the error. That is, throttle = throttle - emf *
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;* *
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;* The result is a two byte number (signed two's compl) in *
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;* error_hi -radix- error_lo *
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;*****************************************************************
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sub error_lo,emf_lo ; subtract low bytes (after radix)
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sbc error_hi,emf_hi ; subtract high bytes (before radix)
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.ifdef BACKEMF_SCALE_ENABLED
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;*****************************************************************
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;* Error multiplier (complex) *
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;* *
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;* Error gain is equal to: *
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;* *
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;* Error err_scale err_mult *
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;* ------------------------ * 2 * 2 *
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;* err_scale *
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;* 2 + throttle_set *
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;* *
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;* The maximum gain when throttle_set = 0 is 2^err_mult *
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;* is cut in half when throttle_set = 2^err_scale *
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;* *
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;* Result is signed two's compliment in *
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;* error_hi--error_lo -radix- *
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;*****************************************************************
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cbr Flags_1,F_negative_err ; Assume error is positive
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sbrs error_hi,7 ; Test algebraic sign
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rjmp POSITIVE_ERR
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sbr Flags_1,F_negative_err ; If error is negative, set flag.
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com error_lo ; Convert to positive
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com error_hi
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subi error_lo,0xFF
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sbci error_hi,0xFF
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POSITIVE_ERR:
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B_TEMPLOCAL _bemf_lo_byte
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B_TEMPLOCAL1 _bemf_hi_byte
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mov _bemf_lo_byte,throttle_set ; Divisor = throttle_set+2^err_scale
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clr _bemf_hi_byte
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ldi B_Temp2,EXP2(err_scale)
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add _bemf_lo_byte,B_Temp2
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adc _bemf_hi_byte,_bemf_hi_byte
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; mov dd16uL,error_lo ; Dividend = error (same register)
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; mov dd16uH,error_hi
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rcall div16u ; Divide error by (throttle+offset)
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; (almost 4 pwm cycles)
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; adds 3 to Cycle_count
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; mov error_lo,dres16uL ; Same register
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; mov error_hi,dres16uH
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sbrs Flags_1,BF_negative_err ; Check sign flag
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rjmp POSITIVE_ERR_1
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com error_lo ; Convert back to negative
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com error_hi ; if necessary
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subi error_lo,0xFF
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sbci error_hi,0xFF
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POSITIVE_ERR_1: ; Scale for maximum
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ldi _bemf_lo_byte, 7 - error_mult - err_scale
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rcall DIVIDE_16_SIMPLE
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.else ;case BACKEMF_SCALE_ENABLED is NOT enabled
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;*****************************************************************
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;* Error multiplier (simple) *
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;* *
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;* The error multiplier setting (error_mult) can range *
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;* from -8 to +7, and the actual error multiplier is *
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;* 2^(error_mult), which therefore ranges from 1/256 to 128. *
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;* *
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;* Step 1. Multiply by 2^8. *
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;* Equivalent to moving the radix point to after *
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;* error_lo. THIS STEP REQUIRES NO CODE *
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;* *
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;* Step 2. Divide by 2^(error_mult - 8) *
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;* *
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;* Result is signed two's compliment in *
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;* error_hi--error_lo -radix- *
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;*****************************************************************
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ldi _bemf_lo_byte, 7 - error_mult
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rcall DIVIDE_16_SIMPLE
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.endif ;BACKEMF_SCALE_ENABLED
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COMPUTE_NEW_PWM:
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;*****************************************************************
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;* Add in the original throttle *
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;*****************************************************************
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add error_lo,throttle_set
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clr B_Temp
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adc error_hi,B_Temp
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;*****************************************************************
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;* Clamp to between 0 and +255 *
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;*****************************************************************
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brmi SET_ZERO_PWM ; If result is NEGATIVE, set to zero.
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cpi error_hi,0x00 ; If hi byte is zero, result is ok.
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breq LOWPASS
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ldi error_lo,0xFF ; otherwise, clamp
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rjmp LOWPASS
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SET_ZERO_PWM:
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clr error_lo
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LOWPASS:
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.ifdef LOWPASS_ENABLED
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;*****************************************************************
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;* A transversal low pass filter *
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;* Lowpass on the emf-adjusted pwm *
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;* *
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;* gain input "emf_lowpass_gain", range = 0 to 8 *
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;* *
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;* The actual filter time constant "tau" is equal to *
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;* tau = 2^emf_lowpass_gain * sample_interval *
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;* *
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;* The sample interval is nominally 10mS, so the time *
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;* constant values are: *
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;* 0 1 2 3 4 5 6 7 8 *
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;* 10mS,20mS,40mS,80mS,160mS,320mS,640mS,1.28S,2.56S *
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;* *
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;* The current sample is added to an attenuated sum of previous *
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;* samples as follows: *
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;* *
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;* Adjusted Value = 1/(2^gain) x *
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;* ( 1x sample number (i) *
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;* + gain x sample number (i-1) *
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;* + gain^2 x sample number (i-2) *
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;* + gain^3 x sample number (i-3) *
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;* + .... *
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;* ) *
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;* Where: *
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;* Gain values: gain = (2^emf_lowpass_gain - 1) / 2^n *
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;* 0,1/2,3/4,7/8,15/16 ... 255/256 *
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;* *
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;* Algorithm: *
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;* *
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;* -Input (current sample) in error_lo (error_hi=0) *
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;* 0x00FF max *
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;* *
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;* -Input (scaled sum of previous samples) in *
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;* error_hi_prev--error_lo_prev. *
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;* 0x00FF * (2^emf_lowpass_gain - 1 ) max *
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;* *
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;* 1. The error_hi_prev--error_lo_prev is added to *
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;* error_hi--error_lo *
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;* 0x00FF * (2^emf_lowpass_gain) max *
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;* *
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;* 2. This value is also stored in *
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;* error_hi_prev--error_lo_prev *
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;* *
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;* 3. The value (error_hi--error_lo) is divided by *
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;* 2^emf_lowpass_gain (resulting in lowpass value, *
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;* max 0x00FF) *
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;* *
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;* 4. The value (error_hi--error_lo) is subtracted from *
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;* error_hi_prev--error_lo_prev. This is the new *
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;* stored value. *
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;*****************************************************************
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clr error_hi
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;****
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;* 1. Add in cumulative previous error
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;****
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add error_lo,error_lo_prev ; Add in scaled previous samples
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adc error_hi,error_hi_prev ;
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;****
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;* 2. Store
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;****
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mov error_lo_prev,error_lo ; Store new value
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mov error_hi_prev,error_hi ; Store new value
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;****
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;* 3. Divide new value
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;****
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ldi _bemf_lo_byte,emf_lowpass_gain
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rcall DIVIDE_16_SIMPLE
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;****
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;* 4. New value in error_prev
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;****
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ADJUST_STORED:
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sub error_lo_prev,error_lo
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sbc error_hi_prev,error_hi
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.endif ;LOWPASS_FILTER
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mov throttle_set,error_lo
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subi Cycle_count,256-15 ; Normal arrival here occurs after 3.5 + 14.5 +
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; pwm cycles. Add 15 counts here, also 3 added in
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; div16u
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.endif BACKEMF_ENABLED
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