/usr/share/avra/m406def.inc is in avra 1.3.0-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 | ;***** THIS IS A MACHINE GENERATED FILE - DO NOT EDIT ********************
;***** Created: 2005-01-11 10:31 ******* Source: ATmega406.xml ***********
;*************************************************************************
;* A P P L I C A T I O N N O T E F O R T H E A V R F A M I L Y
;*
;* Number : AVR000
;* File Name : "m406def.inc"
;* Title : Register/Bit Definitions for the ATmega406
;* Date : 2005-01-11
;* Version : 2.14
;* Support E-mail : avr@atmel.com
;* Target MCU : ATmega406
;*
;* DESCRIPTION
;* When including this file in the assembly program file, all I/O register
;* names and I/O register bit names appearing in the data book can be used.
;* In addition, the six registers forming the three data pointers X, Y and
;* Z have been assigned names XL - ZH. Highest RAM address for Internal
;* SRAM is also defined
;*
;* The Register names are represented by their hexadecimal address.
;*
;* The Register Bit names are represented by their bit number (0-7).
;*
;* Please observe the difference in using the bit names with instructions
;* such as "sbr"/"cbr" (set/clear bit in register) and "sbrs"/"sbrc"
;* (skip if bit in register set/cleared). The following example illustrates
;* this:
;*
;* in r16,PORTB ;read PORTB latch
;* sbr r16,(1<<PB6)+(1<<PB5) ;set PB6 and PB5 (use masks, not bit#)
;* out PORTB,r16 ;output to PORTB
;*
;* in r16,TIFR ;read the Timer Interrupt Flag Register
;* sbrc r16,TOV0 ;test the overflow flag (use bit#)
;* rjmp TOV0_is_set ;jump if set
;* ... ;otherwise do something else
;*************************************************************************
#ifndef _M406DEF_INC_
#define _M406DEF_INC_
#pragma partinc 0
; ***** SPECIFY DEVICE ***************************************************
.device ATmega406
#pragma AVRPART ADMIN PART_NAME ATmega406
.equ SIGNATURE_000 = 0x1e
.equ SIGNATURE_001 = 0x95
.equ SIGNATURE_002 = 0x07
#pragma AVRPART CORE CORE_VERSION V2E
; ***** I/O REGISTER DEFINITIONS *****************************************
; NOTE:
; Definitions marked "MEMORY MAPPED"are extended I/O ports
; and cannot be used with IN/OUT instructions
.equ BPPLR = 0xf8 ; MEMORY MAPPED
.equ BPCR = 0xf7 ; MEMORY MAPPED
.equ CBPTR = 0xf6 ; MEMORY MAPPED
.equ BPOCD = 0xf5 ; MEMORY MAPPED
.equ BPSCD = 0xf4 ; MEMORY MAPPED
.equ BPDUV = 0xf3 ; MEMORY MAPPED
.equ BPIR = 0xf2 ; MEMORY MAPPED
.equ CBCR = 0xf1 ; MEMORY MAPPED
.equ FCSR = 0xf0 ; MEMORY MAPPED
.equ CADICH = 0xe9 ; MEMORY MAPPED
.equ CADICL = 0xe8 ; MEMORY MAPPED
.equ CADRDC = 0xe7 ; MEMORY MAPPED
.equ CADRCC = 0xe6 ; MEMORY MAPPED
.equ CADCSRB = 0xe5 ; MEMORY MAPPED
.equ CADCSRA = 0xe4 ; MEMORY MAPPED
.equ CADAC3 = 0xe3 ; MEMORY MAPPED
.equ CADAC2 = 0xe2 ; MEMORY MAPPED
.equ CADAC1 = 0xe1 ; MEMORY MAPPED
.equ CADAC0 = 0xe0 ; MEMORY MAPPED
.equ BGCRR = 0xd1 ; MEMORY MAPPED
.equ BGCCR = 0xd0 ; MEMORY MAPPED
.equ CCSR = 0xc0 ; MEMORY MAPPED
.equ TWBCSR = 0xbe ; MEMORY MAPPED
.equ TWAMR = 0xbd ; MEMORY MAPPED
.equ TWCR = 0xbc ; MEMORY MAPPED
.equ TWDR = 0xbb ; MEMORY MAPPED
.equ TWAR = 0xba ; MEMORY MAPPED
.equ TWSR = 0xb9 ; MEMORY MAPPED
.equ TWBR = 0xb8 ; MEMORY MAPPED
.equ OCR1AH = 0x89 ; MEMORY MAPPED
.equ OCR1AL = 0x88 ; MEMORY MAPPED
.equ TCNT1H = 0x85 ; MEMORY MAPPED
.equ TCNT1L = 0x84 ; MEMORY MAPPED
.equ TCCR1B = 0x81 ; MEMORY MAPPED
.equ DIDR0 = 0x7e ; MEMORY MAPPED
.equ VADMUX = 0x7c ; MEMORY MAPPED
.equ VADCSR = 0x7a ; MEMORY MAPPED
.equ VADCH = 0x79 ; MEMORY MAPPED
.equ VADCL = 0x78 ; MEMORY MAPPED
.equ TIMSK1 = 0x6f ; MEMORY MAPPED
.equ TIMSK0 = 0x6e ; MEMORY MAPPED
.equ PCMSK1 = 0x6c ; MEMORY MAPPED
.equ PCMSK0 = 0x6b ; MEMORY MAPPED
.equ EICRA = 0x69 ; MEMORY MAPPED
.equ PCICR = 0x68 ; MEMORY MAPPED
.equ FOSCCAL = 0x66 ; MEMORY MAPPED
.equ PRR0 = 0x64 ; MEMORY MAPPED
.equ WUTCSR = 0x62 ; MEMORY MAPPED
.equ WDTCSR = 0x60 ; MEMORY MAPPED
.equ SREG = 0x3f
.equ SPH = 0x3e
.equ SPL = 0x3d
.equ SPMCSR = 0x37
.equ MCUCR = 0x35
.equ MCUSR = 0x34
.equ SMCR = 0x33
.equ OCDR = 0x31
.equ GPIOR2 = 0x2b
.equ GPIOR1 = 0x2a
.equ OCR0B = 0x28
.equ OCR0A = 0x27
.equ TCNT0 = 0x26
.equ TCCR0B = 0x25
.equ TCCR0A = 0x24
.equ GTCCR = 0x23
.equ EEARH = 0x22
.equ EEARL = 0x21
.equ EEDR = 0x20
.equ EECR = 0x1f
.equ GPIOR0 = 0x1e
.equ EIMSK = 0x1d
.equ EIFR = 0x1c
.equ PCIFR = 0x1b
.equ TIFR1 = 0x16
.equ TIFR0 = 0x15
.equ PORTD = 0x0b
.equ DDRD = 0x0a
.equ PIND = 0x09
.equ PORTC = 0x08
.equ PORTB = 0x05
.equ DDRB = 0x04
.equ PINB = 0x03
.equ PORTA = 0x02
.equ DDRA = 0x01
.equ PINA = 0x00
; ***** BIT DEFINITIONS **************************************************
; ***** AD_CONVERTER *****************
; VADMUX - The VADC multiplexer Selection Register
.equ VADMUX0 = 0 ; Analog Channel and Gain Selection Bits
.equ VADMUX1 = 1 ; Analog Channel and Gain Selection Bits
.equ VADMUX2 = 2 ; Analog Channel and Gain Selection Bits
.equ VADMUX3 = 3 ; Analog Channel and Gain Selection Bits
; VADCSR - The VADC Control and Status register
.equ VADCCIE = 0 ; VADC Conversion Complete Interrupt Enable
.equ VADCCIF = 1 ; VADC Conversion Complete Interrupt Flag
.equ VADSC = 2 ; VADC Satrt Conversion
.equ VADEN = 3 ; VADC Enable
; ***** EXTERNAL_INTERRUPT ***********
; EICRA - External Interrupt Control Register
.equ ISC00 = 0 ; External Interrupt Sense Control 0 Bit 0
.equ ISC01 = 1 ; External Interrupt Sense Control 0 Bit 1
.equ ISC10 = 2 ; External Interrupt Sense Control 1 Bit 0
.equ ISC11 = 3 ; External Interrupt Sense Control 1 Bit 1
.equ ISC20 = 4 ; External Interrupt Sense Control 2 Bit 0
.equ ISC21 = 5 ; External Interrupt Sense Control 2 Bit 1
.equ ISC30 = 6 ; External Interrupt Sense Control 3 Bit 0
.equ ISC31 = 7 ; External Interrupt Sense Control 3 Bit 1
; EIMSK - External Interrupt Mask Register
.equ INT0 = 0 ; External Interrupt Request 0 Enable
.equ INT1 = 1 ; External Interrupt Request 1 Enable
.equ INT2 = 2 ; External Interrupt Request 1 Enable
.equ INT3 = 3 ; External Interrupt Request 1 Enable
; EIFR - External Interrupt Flag Register
.equ INTF0 = 0 ; External Interrupt Flag 0
.equ INTF1 = 1 ; External Interrupt Flag 1
.equ INTF2 = 2 ; External Interrupt Flag 2
.equ INTF3 = 3 ; External Interrupt Flag 3
; PCICR - Pin Change Interrupt Control Register
.equ PCIE0 = 0 ; Pin Change Interrupt Enable 0
.equ PCIE1 = 1 ; Pin Change Interrupt Enable 1
; PCIFR - Pin Change Interrupt Flag Register
.equ PCIF0 = 0 ; Pin Change Interrupt Flag 1
.equ PCIF1 = 1 ; Pin Change Interrupt Flag 1
; ***** TIMER_COUNTER_1 **************
; TCCR1B - Timer/Counter1 Control Register B
.equ CS10 = 0 ; Clock Select1 bit 0
.equ CS11 = 1 ; Clock Select1 bit 1
.equ CS12 = 2 ; Clock Select1 bit 2
.equ CTC1 = 3 ; Clear Timer/Counter on Compare Match
; TIMSK1 - Timer/Counter Interrupt Mask Register
.equ TOIE1 = 0 ; Timer/Counter1 Overflow Interrupt Enable
.equ OCIE1A = 1 ; Timer/Counter1 Output Compare Interrupt Enable
; TIFR1 - Timer/Counter Interrupt Flag register
.equ TOV1 = 0 ; Timer/Counter1 Overflow Flag
.equ OCF1A = 1 ; Timer/Counter1 Output Compare Flag A
; GTCCR - General Timer/Counter Control Register
.equ PSRSYNC = 0 ; Prescaler Reset
.equ PSRASY = 1 ;
.equ TSM = 7 ; Timer/Counter Synchronization Mode
; ***** WAKEUP_TIMER *****************
; WUTCSR - Wake-up Timer Control Register
.equ WUTP0 = 0 ; Wake-up Timer Prescaler Bit 0
.equ WUTP1 = 1 ; Wake-up Timer Prescaler Bit 1
.equ WUTP2 = 2 ; Wake-up Timer Prescaler Bit 2
.equ WUTE = 3 ; Wake-up Timer Enable
.equ WUTR = 4 ; Wake-up Timer Reset
.equ WUTCF = 5 ; Wake-up timer Calibration Flag
.equ WUTIE = 6 ; Wake-up Timer Interrupt Enable
.equ WUTIF = 7 ; Wake-up Timer Interrupt Flag
; ***** BATTERY_PROTECTION ***********
; BPPLR - Battery Protection Parameter Lock Register
.equ BPPL = 0 ; Battery Protection Parameter Lock
.equ BPPLE = 1 ; Battery Protection Parameter Lock Enable
; BPCR - Battery Protection Control Register
.equ CCD = 0 ;
.equ DCD = 1 ;
.equ SCD = 2 ;
.equ DUVD = 3 ;
; CBPTR - Current Battery Protection Timing Register
.equ OCPT0 = 0 ;
.equ OCPT1 = 1 ;
.equ OCPT2 = 2 ;
.equ OCPT3 = 3 ;
.equ SCPT0 = 4 ;
.equ SCPT1 = 5 ;
.equ SCPT2 = 6 ;
.equ SCPT3 = 7 ;
; BPOCD - Battery Protection OverCurrent Detection Level Register
.equ CCDL0 = 0 ;
.equ CCDL1 = 1 ;
.equ CCDL2 = 2 ;
.equ CCDL3 = 3 ;
.equ DCDL0 = 4 ;
.equ DCDL1 = 5 ;
.equ DCDL2 = 6 ;
.equ DCDL3 = 7 ;
; BPSCD - Battery Protection Short-Circuit Detection Level Register
.equ SCDL0 = 0 ;
.equ SCDL1 = 1 ;
.equ SCDL2 = 2 ;
.equ SCDL3 = 3 ;
; BPDUV - Battery Protection Deep Under Voltage Register
.equ DUDL0 = 0 ;
.equ DUDL1 = 1 ;
.equ DUDL2 = 2 ;
.equ DUDL3 = 3 ;
.equ DUVT0 = 4 ;
.equ DUVT1 = 5 ;
; BPIR - Battery Protection Interrupt Register
.equ SCIE = 0 ;
.equ DOCIE = 1 ;
.equ COCIE = 2 ;
.equ DUVIE = 3 ; Deep Under-voltage Early Warning Interrupt Enable
.equ SCIF = 4 ;
.equ DOCIF = 5 ;
.equ COCIF = 6 ; Charge Over-current Protection Activated Interrupt Flag
.equ DUVIF = 7 ; Deep Under-voltage Early Warning Interrupt Flag
; ***** FET **************************
; FCSR -
.equ PFD = 0 ; Precharge FET disable
.equ CFE = 1 ; Charge FET Enable
.equ DFE = 2 ; Discharge FET Enable
.equ CPS = 3 ; Current Protection Status
.equ PWMOPC = 4 ; Pulse Width Modulation Modulation of OPC output
.equ PWMOC = 5 ; Pulse Width Modulation of OC output
; ***** COULOMB_COUNTER **************
; CADCSRA - CC-ADC Control and Status Register A
.equ CADSE = 0 ; When the CADSE bit is written to one, the ongoing CC-ADC conversion is aborted, and the CC-ADC enters Regular Current detection mode.
.equ CADSI0 = 1 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADSI1 = 2 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADAS0 = 3 ; CC_ADC Accumulate Current Select Bit 0
.equ CADAS1 = 4 ; CC_ADC Accumulate Current Select Bit 1
.equ CADUB = 5 ; CC_ADC Update Busy
.equ CADEN = 7 ; When the CADEN bit is cleared (zero), the CC-ADC is disabled. When the CADEN bit is set (one), the CC-ADC will continuously measure the voltage drop over the external sense resistor RSENSE. In Power-down, only the Regular Current detection is active. In Power-off, the CC-ADC is always disabled.
; CADCSRB - CC-ADC Control and Status Register B
.equ CADICIF = 0 ; CC-ADC Instantaneous Current Interrupt Flag
.equ CADRCIF = 1 ; CC-ADC Accumulate Current Interrupt Flag
.equ CADACIF = 2 ; CC-ADC Accumulate Current Interrupt Flag
.equ CADICIE = 4 ; CAD Instantenous Current Interrupt Enable
.equ CADRCIE = 5 ; Regular Current Interrupt Enable
.equ CADACIE = 6 ;
; CADAC3 - ADC Accumulate Current
.equ CADAC24 = 0 ;
.equ CADAC25 = 1 ;
.equ CADAC26 = 2 ;
.equ CADAC27 = 3 ;
.equ CADAC28 = 4 ;
.equ CADAC29 = 5 ;
.equ CADAC30 = 6 ;
.equ CADAC31 = 7 ;
; CADAC2 - ADC Accumulate Current
.equ CADAC16 = 0 ;
.equ CADAC17 = 1 ;
.equ CADAC18 = 2 ;
.equ CADAC19 = 3 ;
.equ CADAC20 = 4 ;
.equ CADAC21 = 5 ;
.equ CADAC22 = 6 ;
.equ CADAC23 = 7 ;
; CADAC1 - ADC Accumulate Current
.equ CADAC08 = 0 ;
.equ CADAC09 = 1 ;
.equ CADAC10 = 2 ;
.equ CADAC11 = 3 ;
.equ CADAC12 = 4 ;
.equ CADAC13 = 5 ;
.equ CADAC14 = 6 ;
.equ CADAC15 = 7 ;
; CADAC0 - ADC Accumulate Current
.equ CADAC00 = 0 ;
.equ CADAC01 = 1 ;
.equ CADAC02 = 2 ;
.equ CADAC03 = 3 ;
.equ CADAC04 = 4 ;
.equ CADAC05 = 5 ;
.equ CADAC06 = 6 ;
.equ CADAC07 = 7 ;
; CADRCC - CC-ADC Regular Charge Current
.equ CADRCC0 = 0 ; When the CADSE bit is written to one, the ongoing CC-ADC conversion is aborted, and the CC-ADC enters Regular Current detection mode.
.equ CADRCC1 = 1 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADRCC2 = 2 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADRCC3 = 3 ; The CADACT bits determine the conversion time for the Accumulate Current output as shown in Table 43.
.equ CADRCC4 = 4 ; The CADACT bits determine the conversion time for the Accumulate Current output as shown in Table 43.
.equ CADRCC5 = 5 ;
.equ CADRCC6 = 6 ;
.equ CADRCC7 = 7 ; When the CADEN bit is cleared (zero), the CC-ADC is disabled. When the CADEN bit is set (one), the CC-ADC will continuously measure the voltage drop over the external sense resistor RSENSE. In Power-down, only the Regular Current detection is active. In Power-off, the CC-ADC is always disabled.
; CADRDC - CC-ADC Regular Discharge Current
.equ CADRDC0 = 0 ; When the CADSE bit is written to one, the ongoing CC-ADC conversion is aborted, and the CC-ADC enters Regular Current detection mode.
.equ CADRDC1 = 1 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADRDC2 = 2 ; The CADSI bits determine the current sampling interval for the Regular Current detection in Power-down mode. The actual settings remain to be determined.
.equ CADRDC3 = 3 ; The CADACT bits determine the conversion time for the Accumulate Current output as shown in Table 43.
.equ CADRDC4 = 4 ; The CADACT bits determine the conversion time for the Accumulate Current output as shown in Table 43.
.equ CADRDC5 = 5 ;
.equ CADRDC6 = 6 ;
.equ CADRDC7 = 7 ; When the CADEN bit is cleared (zero), the CC-ADC is disabled. When the CADEN bit is set (one), the CC-ADC will continuously measure the voltage drop over the external sense resistor RSENSE. In Power-down, only the Regular Current detection is active. In Power-off, the CC-ADC is always disabled.
; ***** CELL_BALANCING ***************
; CBCR - Cell Balancing Control Register
.equ CBE1 = 0 ; Battery Protection Parameter Lock
.equ CBE2 = 1 ; Cell Balancing Enable 2
.equ CBE3 = 2 ; Cell Balancing Enable 4
.equ CBE4 = 3 ; Cell Balancing Enable 4
; ***** CPU **************************
; SREG - Status Register
.equ SREG_C = 0 ; Carry Flag
.equ SREG_Z = 1 ; Zero Flag
.equ SREG_N = 2 ; Negative Flag
.equ SREG_V = 3 ; Two's Complement Overflow Flag
.equ SREG_S = 4 ; Sign Bit
.equ SREG_H = 5 ; Half Carry Flag
.equ SREG_T = 6 ; Bit Copy Storage
.equ SREG_I = 7 ; Global Interrupt Enable
; MCUCR - MCU Control Register
.equ IVCE = 0 ; Interrupt Vector Change Enable
.equ IVSEL = 1 ; Interrupt Vector Select
.equ PUD = 4 ; Pull-up disable
.equ JTD = 7 ; JTAG Disable
; MCUSR - MCU Status Register
.equ PORF = 0 ; Power-on reset flag
.equ EXTRF = 1 ; External Reset Flag
.equ BODRF = 2 ; Brown-out Reset Flag
.equ WDRF = 3 ; Watchdog Reset Flag
.equ JTRF = 4 ; JTAG Reset Flag
; FOSCCAL - Fast Oscillator Calibration Value
.equ FCAL0 = 0 ; Oscillator Calibration Value Bit0
.equ FCAL1 = 1 ; Oscillator Calibration Value Bit1
.equ FCAL2 = 2 ; Oscillator Calibration Value Bit2
.equ FCAL3 = 3 ; Oscillator Calibration Value Bit3
.equ FCAL4 = 4 ; Oscillator Calibration Value Bit4
.equ FCAL5 = 5 ; Oscillator Calibration Value Bit5
.equ FCAL6 = 6 ; Oscillator Calibration Value Bit6
.equ FCAL7 = 7 ; Oscillator Calibration Value Bit7
; SMCR - Sleep Mode Control Register
.equ SE = 0 ; Sleep Enable
.equ SM0 = 1 ; Sleep Mode Select bit 0
.equ SM1 = 2 ; Sleep Mode Select bit 1
.equ SM2 = 3 ; Sleep Mode Select bit 2
; GPIOR2 - General Purpose IO Register 2
.equ GPIOR20 = 0 ; General Purpose IO Register 2 bit 0
.equ GPIOR21 = 1 ; General Purpose IO Register 2 bit 1
.equ GPIOR22 = 2 ; General Purpose IO Register 2 bit 2
.equ GPIOR23 = 3 ; General Purpose IO Register 2 bit 3
.equ GPIOR24 = 4 ; General Purpose IO Register 2 bit 4
.equ GPIOR25 = 5 ; General Purpose IO Register 2 bit 5
.equ GPIOR26 = 6 ; General Purpose IO Register 2 bit 6
.equ GPIOR27 = 7 ; General Purpose IO Register 2 bit 7
; GPIOR1 - General Purpose IO Register 1
.equ GPIOR10 = 0 ; General Purpose IO Register 1 bit 0
.equ GPIOR11 = 1 ; General Purpose IO Register 1 bit 1
.equ GPIOR12 = 2 ; General Purpose IO Register 1 bit 2
.equ GPIOR13 = 3 ; General Purpose IO Register 1 bit 3
.equ GPIOR14 = 4 ; General Purpose IO Register 1 bit 4
.equ GPIOR15 = 5 ; General Purpose IO Register 1 bit 5
.equ GPIOR16 = 6 ; General Purpose IO Register 1 bit 6
.equ GPIOR17 = 7 ; General Purpose IO Register 1 bit 7
; GPIOR0 - General Purpose IO Register 0
.equ GPIOR00 = 0 ; General Purpose IO Register 0 bit 0
.equ GPIOR01 = 1 ; General Purpose IO Register 0 bit 1
.equ GPIOR02 = 2 ; General Purpose IO Register 0 bit 2
.equ GPIOR03 = 3 ; General Purpose IO Register 0 bit 3
.equ GPIOR04 = 4 ; General Purpose IO Register 0 bit 4
.equ GPIOR05 = 5 ; General Purpose IO Register 0 bit 5
.equ GPIOR06 = 6 ; General Purpose IO Register 0 bit 6
.equ GPIOR07 = 7 ; General Purpose IO Register 0 bit 7
; CCSR - Clock Control and Status Register
.equ ACS = 0 ; Asynchronous Clock Select
.equ XOE = 1 ; 32 kHz Crystal Oscillator Enable
; DIDR0 - Digital Input Disable Register
.equ VADC0D = 0 ; When this bit is written logic one, the digital input buffer of the corresponding V_ADC pin is disabled.
.equ VADC1D = 1 ; When this bit is written logic one, the digital input buffer of the corresponding V_ADC pin is disabled.
.equ VADC2D = 2 ; When this bit is written logic one, the digital input buffer of the corresponding V_ADC pin is disabled.
.equ VADC3D = 3 ; When this bit is written logic one, the digital input buffer of the corresponding V_ADC pin is disabled.
; PRR0 - Power Reduction Register 0
.equ PRVADC = 0 ; Power Reduction V-ADC
.equ PRTIM0 = 1 ; Power Reduction Timer/Counter0
.equ PRTIM1 = 2 ; Power Reduction Timer/Counter1
.equ PRTWI = 3 ; Power Reduction TWI
; ***** WATCHDOG *********************
; WDTCSR - Watchdog Timer Control Register
.equ WDP0 = 0 ; Watch Dog Timer Prescaler bit 0
.equ WDP1 = 1 ; Watch Dog Timer Prescaler bit 1
.equ WDP2 = 2 ; Watch Dog Timer Prescaler bit 2
.equ WDE = 3 ; Watch Dog Enable
.equ WDCE = 4 ; Watchdog Change Enable
.equ WDP3 = 5 ; Watchdog Timer Prescaler Bit 3
.equ WDIE = 6 ; Watchdog Timeout Interrupt Enable
.equ WDIF = 7 ; Watchdog Timeout Interrupt Flag
; ***** TIMER_COUNTER_0 **************
; TCCR0A - Timer/Counter0 Control Register
.equ WGM00 = 0 ; Clock Select0 bit 0
.equ WGM01 = 1 ; Clock Select0 bit 1
.equ COM0B0 = 4 ;
.equ COM0B1 = 5 ;
.equ COM0A0 = 6 ; Waveform Generation Mode
.equ COM0A1 = 7 ; Force Output Compare
; TCCR0B - Timer/Counter0 Control Register
.equ CS00 = 0 ; Clock Select0 bit 0
.equ CS01 = 1 ; Clock Select0 bit 1
.equ CS02 = 2 ; Clock Select0 bit 2
.equ WGM02 = 3 ;
.equ FOC0B = 6 ; Waveform Generation Mode
.equ FOC0A = 7 ; Force Output Compare
; TCNT0 - Timer Counter 0
.equ TCNT00 = 0 ; Timer Counter 0 bit 0
.equ TCNT01 = 1 ; Timer Counter 0 bit 1
.equ TCNT02 = 2 ; Timer Counter 0 bit 2
.equ TCNT03 = 3 ; Timer Counter 0 bit 3
.equ TCNT04 = 4 ; Timer Counter 0 bit 4
.equ TCNT05 = 5 ; Timer Counter 0 bit 5
.equ TCNT06 = 6 ; Timer Counter 0 bit 6
.equ TCNT07 = 7 ; Timer Counter 0 bit 7
; OCR0A - Output compare Register A
.equ OCR0A0 = 0 ;
.equ OCR0A1 = 1 ;
.equ OCR0A2 = 2 ;
.equ OCR0A3 = 3 ;
.equ OCR0A4 = 4 ;
.equ OCR0A5 = 5 ;
.equ OCR0A6 = 6 ;
.equ OCR0A7 = 7 ;
; OCR0B - Output compare Register B
.equ OCR0B0 = 0 ;
.equ OCR0B1 = 1 ;
.equ OCR0B2 = 2 ;
.equ OCR0B3 = 3 ;
.equ OCR0B4 = 4 ;
.equ OCR0B5 = 5 ;
.equ OCR0B6 = 6 ;
.equ OCR0B7 = 7 ;
; TIMSK0 - Timer/Counter Interrupt Mask Register
.equ TOIE0 = 0 ; Overflow Interrupt Enable
.equ OCIE0A = 1 ; Output Compare Interrupt Enable
.equ OCIE0B = 2 ; Output Compare Interrupt Enable
; TIFR0 - Timer/Counter Interrupt Flag register
.equ TOV0 = 0 ; Overflow Flag
.equ OCF0A = 1 ; Output Compare Flag
.equ OCF0B = 2 ; Output Compare Flag
; ***** PORTA ************************
; PORTA - Port A Data Register
.equ PORTA0 = 0 ; Port A Data Register bit 0
.equ PA0 = 0 ; For compatibility
.equ PORTA1 = 1 ; Port A Data Register bit 1
.equ PA1 = 1 ; For compatibility
.equ PORTA2 = 2 ; Port A Data Register bit 2
.equ PA2 = 2 ; For compatibility
.equ PORTA3 = 3 ; Port A Data Register bit 3
.equ PA3 = 3 ; For compatibility
.equ PORTA4 = 4 ; Port A Data Register bit 4
.equ PA4 = 4 ; For compatibility
.equ PORTA5 = 5 ; Port A Data Register bit 5
.equ PA5 = 5 ; For compatibility
.equ PORTA6 = 6 ; Port A Data Register bit 6
.equ PA6 = 6 ; For compatibility
.equ PORTA7 = 7 ; Port A Data Register bit 7
.equ PA7 = 7 ; For compatibility
; DDRA - Port A Data Direction Register
.equ DDA0 = 0 ; Data Direction Register, Port A, bit 0
.equ DDA1 = 1 ; Data Direction Register, Port A, bit 1
.equ DDA2 = 2 ; Data Direction Register, Port A, bit 2
.equ DDA3 = 3 ; Data Direction Register, Port A, bit 3
.equ DDA4 = 4 ; Data Direction Register, Port A, bit 4
.equ DDA5 = 5 ; Data Direction Register, Port A, bit 5
.equ DDA6 = 6 ; Data Direction Register, Port A, bit 6
.equ DDA7 = 7 ; Data Direction Register, Port A, bit 7
; PINA - Port A Input Pins
.equ PINA0 = 0 ; Input Pins, Port A bit 0
.equ PINA1 = 1 ; Input Pins, Port A bit 1
.equ PINA2 = 2 ; Input Pins, Port A bit 2
.equ PINA3 = 3 ; Input Pins, Port A bit 3
.equ PINA4 = 4 ; Input Pins, Port A bit 4
.equ PINA5 = 5 ; Input Pins, Port A bit 5
.equ PINA6 = 6 ; Input Pins, Port A bit 6
.equ PINA7 = 7 ; Input Pins, Port A bit 7
; ***** PORTB ************************
; PORTB - Port B Data Register
.equ PORTB0 = 0 ; Port B Data Register bit 0
.equ PB0 = 0 ; For compatibility
.equ PORTB1 = 1 ; Port B Data Register bit 1
.equ PB1 = 1 ; For compatibility
.equ PORTB2 = 2 ; Port B Data Register bit 2
.equ PB2 = 2 ; For compatibility
.equ PORTB3 = 3 ; Port B Data Register bit 3
.equ PB3 = 3 ; For compatibility
.equ PORTB4 = 4 ; Port B Data Register bit 4
.equ PB4 = 4 ; For compatibility
.equ PORTB5 = 5 ; Port B Data Register bit 5
.equ PB5 = 5 ; For compatibility
.equ PORTB6 = 6 ; Port B Data Register bit 6
.equ PB6 = 6 ; For compatibility
.equ PORTB7 = 7 ; Port B Data Register bit 7
.equ PB7 = 7 ; For compatibility
; DDRB - Port B Data Direction Register
.equ DDB0 = 0 ; Port B Data Direction Register bit 0
.equ DDB1 = 1 ; Port B Data Direction Register bit 1
.equ DDB2 = 2 ; Port B Data Direction Register bit 2
.equ DDB3 = 3 ; Port B Data Direction Register bit 3
.equ DDB4 = 4 ; Port B Data Direction Register bit 4
.equ DDB5 = 5 ; Port B Data Direction Register bit 5
.equ DDB6 = 6 ; Port B Data Direction Register bit 6
.equ DDB7 = 7 ; Port B Data Direction Register bit 7
; PINB - Port B Input Pins
.equ PINB0 = 0 ; Port B Input Pins bit 0
.equ PINB1 = 1 ; Port B Input Pins bit 1
.equ PINB2 = 2 ; Port B Input Pins bit 2
.equ PINB3 = 3 ; Port B Input Pins bit 3
.equ PINB4 = 4 ; Port B Input Pins bit 4
.equ PINB5 = 5 ; Port B Input Pins bit 5
.equ PINB6 = 6 ; Port B Input Pins bit 6
.equ PINB7 = 7 ; Port B Input Pins bit 7
; ***** PORTC ************************
; PORTC - Port C Data Register
.equ PORTC0 = 0 ; Port C Data Register bit 0
.equ PC0 = 0 ; For compatibility
; ***** PORTD ************************
; PORTD - Data Register, Port D
.equ PORTD0 = 0 ;
.equ PD0 = 0 ; For compatibility
.equ PORTD1 = 1 ;
.equ PD1 = 1 ; For compatibility
; DDRD
.equ DDD0 = 0 ;
.equ DDD1 = 1 ;
; PIND - Input Pins, Port D
.equ PIND0 = 0 ;
.equ PIND1 = 1 ;
; ***** BOOT_LOAD ********************
; SPMCSR - Store Program Memory Control Register
.equ SPMEN = 0 ; Store Program Memory Enable
.equ PGERS = 1 ; Page Erase
.equ PGWRT = 2 ; Page Write
.equ BLBSET = 3 ; Boot Lock Bit Set
.equ RWWSRE = 4 ; Read While Write section read enable
.equ SIGRD = 5 ; Signature Row Read
.equ RWWSB = 6 ; Read While Write Section Busy
.equ SPMIE = 7 ; SPM Interrupt Enable
; ***** TWI **************************
; TWBCSR - TWI Bus Control and Status Register
.equ TWBCIP = 0 ; TWI Bus Connect/Disconnect Interrupt Polarity
.equ TWBDT0 = 1 ; TWI Bus Disconnect Time-out Period
.equ TWBDT1 = 2 ; TWI Bus Disconnect Time-out Period
.equ TWBCIE = 6 ; TWI Bus Connect/Disconnect Interrupt Enable
.equ TWBCIF = 7 ; TWI Bus Connect/Disconnect Interrupt Flag
; TWAMR - TWI (Slave) Address Mask Register
.equ TWAM0 = 1 ;
.equ TWAM1 = 2 ;
.equ TWAM2 = 3 ;
.equ TWAM3 = 4 ;
.equ TWAM4 = 5 ;
.equ TWAM5 = 6 ;
.equ TWAM6 = 7 ;
; TWBR - TWI Bit Rate register
.equ TWBR0 = 0 ;
.equ TWBR1 = 1 ;
.equ TWBR2 = 2 ;
.equ TWBR3 = 3 ;
.equ TWBR4 = 4 ;
.equ TWBR5 = 5 ;
.equ TWBR6 = 6 ;
.equ TWBR7 = 7 ;
; TWCR - TWI Control Register
.equ TWIE = 0 ; TWI Interrupt Enable
.equ TWEN = 2 ; TWI Enable Bit
.equ TWWC = 3 ; TWI Write Collition Flag
.equ TWSTO = 4 ; TWI Stop Condition Bit
.equ TWSTA = 5 ; TWI Start Condition Bit
.equ TWEA = 6 ; TWI Enable Acknowledge Bit
.equ TWINT = 7 ; TWI Interrupt Flag
; TWSR - TWI Status Register
.equ TWPS0 = 0 ; TWI Prescaler
.equ TWPS1 = 1 ; TWI Prescaler
.equ TWS3 = 3 ; TWI Status
.equ TWS4 = 4 ; TWI Status
.equ TWS5 = 5 ; TWI Status
.equ TWS6 = 6 ; TWI Status
.equ TWS7 = 7 ; TWI Status
; TWDR - TWI Data register
.equ TWD0 = 0 ; TWI Data Register Bit 0
.equ TWD1 = 1 ; TWI Data Register Bit 1
.equ TWD2 = 2 ; TWI Data Register Bit 2
.equ TWD3 = 3 ; TWI Data Register Bit 3
.equ TWD4 = 4 ; TWI Data Register Bit 4
.equ TWD5 = 5 ; TWI Data Register Bit 5
.equ TWD6 = 6 ; TWI Data Register Bit 6
.equ TWD7 = 7 ; TWI Data Register Bit 7
; TWAR - TWI (Slave) Address register
.equ TWGCE = 0 ; TWI General Call Recognition Enable Bit
.equ TWA0 = 1 ; TWI (Slave) Address register Bit 0
.equ TWA1 = 2 ; TWI (Slave) Address register Bit 1
.equ TWA2 = 3 ; TWI (Slave) Address register Bit 2
.equ TWA3 = 4 ; TWI (Slave) Address register Bit 3
.equ TWA4 = 5 ; TWI (Slave) Address register Bit 4
.equ TWA5 = 6 ; TWI (Slave) Address register Bit 5
.equ TWA6 = 7 ; TWI (Slave) Address register Bit 6
; ***** BANDGAP **********************
; BGCRR - Bandgap Calibration of Resistor Ladder
.equ BGCR0 = 0 ; Bandgap Calibration of Resistor Ladder Bit 0
.equ BGCR1 = 1 ; Bandgap Calibration of Resistor Ladder Bit 1
.equ BGCR2 = 2 ; Bandgap Calibration of Resistor Ladder Bit 2
.equ BGCR3 = 3 ; Bandgap Calibration of Resistor Ladder Bit 3
.equ BGCR4 = 4 ; Bandgap Calibration of Resistor Ladder Bit 4
.equ BGCR5 = 5 ; Bandgap Calibration of Resistor Ladder Bit 5
.equ BGCR6 = 6 ; Bandgap Calibration of Resistor Ladder Bit 6
.equ BGCR7 = 7 ; Bandgap Calibration of Resistor Ladder Bit 7
; BGCCR - Bandgap Calibration Register
.equ BGCC0 = 0 ; BG Calibration of PTAT Current Bit 0
.equ BGCC1 = 1 ; BG Calibration of PTAT Current Bit 1
.equ BGCC2 = 2 ; BG Calibration of PTAT Current Bit 2
.equ BGCC3 = 3 ; BG Calibration of PTAT Current Bit 3
.equ BGCC4 = 4 ; BG Calibration of PTAT Current Bit 4
.equ BGCC5 = 5 ; BG Calibration of PTAT Current Bit 5
.equ BGEN = 7 ; Setting the BGEN bit to one will enable the bandgap voltage reference. This bit must be set before enabling the CC_ADC or V_ADC, and must remain set while either ADC is enabled.
; ***** EEPROM ***********************
; EEDR - EEPROM Data Register
.equ EEDR0 = 0 ; EEPROM Data Register bit 0
.equ EEDR1 = 1 ; EEPROM Data Register bit 1
.equ EEDR2 = 2 ; EEPROM Data Register bit 2
.equ EEDR3 = 3 ; EEPROM Data Register bit 3
.equ EEDR4 = 4 ; EEPROM Data Register bit 4
.equ EEDR5 = 5 ; EEPROM Data Register bit 5
.equ EEDR6 = 6 ; EEPROM Data Register bit 6
.equ EEDR7 = 7 ; EEPROM Data Register bit 7
; EECR - EEPROM Control Register
.equ EERE = 0 ; EEPROM Read Enable
.equ EEWE = 1 ; EEPROM Write Enable
.equ EEMWE = 2 ; EEPROM Master Write Enable
.equ EERIE = 3 ; EEPROM Ready Interrupt Enable
.equ EEPM0 = 4 ; EEPROM Programming Mode Bits
.equ EEPM1 = 5 ; EEPROM Programming Mode Bits
; ***** LOCKSBITS ********************************************************
.equ LB1 = 0 ; Lock bit
.equ LB2 = 1 ; Lock bit
.equ BLB01 = 2 ; Boot Lock bit
.equ BLB02 = 3 ; Boot Lock bit
.equ BLB11 = 4 ; Boot lock bit
.equ BLB12 = 5 ; Boot lock bit
; ***** FUSES ************************************************************
; LOW fuse bits
.equ SUT0 = 1 ; Select start-up time
.equ SUT1 = 2 ; Select start-up time
.equ BOOTRST = 3 ; Select reset vector
.equ BOOTSZ0 = 4 ; Select boot size
.equ BOOTSZ1 = 5 ; Select boot size
.equ EESAVE = 6 ; EEPROM memory is preserved through chip erase
.equ WDTON = 7 ; Watchdog Timer Always On
; HIGH fuse bits
.equ JTAGEN = 0 ; Enable JTAG
.equ OCDEN = 1 ; Enable OCD
; ***** CPU REGISTER DEFINITIONS *****************************************
.def XH = r27
.def XL = r26
.def YH = r29
.def YL = r28
.def ZH = r31
.def ZL = r30
; ***** DATA MEMORY DECLARATIONS *****************************************
.equ FLASHEND = 0x4fff ; Note: Word address
.equ IOEND = 0x00ff
.equ SRAM_START = 0x0100
.equ SRAM_SIZE = 2048
.equ RAMEND = 0x08ff
.equ XRAMEND = 0x07ff
.equ E2END = 0x01ff
.equ EEPROMEND = 0x01ff
.equ EEADRBITS = 9
#pragma AVRPART MEMORY PROG_FLASH 40960
#pragma AVRPART MEMORY EEPROM 512
#pragma AVRPART MEMORY INT_SRAM SIZE 2048
#pragma AVRPART MEMORY INT_SRAM START_ADDR 0x100
; ***** BOOTLOADER DECLARATIONS ******************************************
.equ NRWW_START_ADDR = 0x4800
.equ NRWW_STOP_ADDR = 0x4fff
.equ RWW_START_ADDR = 0x0
.equ RWW_STOP_ADDR = 0x47ff
.equ PAGESIZE = 32
.equ FIRSTBOOTSTART = 0x4f00
.equ SECONDBOOTSTART = 0x4e00
.equ THIRDBOOTSTART = 0x4c00
.equ FOURTHBOOTSTART = 0x4800
.equ SMALLBOOTSTART = FIRSTBOOTSTART
.equ LARGEBOOTSTART = FOURTHBOOTSTART
; ***** INTERRUPT VECTORS ************************************************
.equ BPINTaddr = 0x0002 ; Battery Protection Interrupt
.equ INT0addr = 0x0004 ; External Interrupt Request 0
.equ INT1addr = 0x0006 ; External Interrupt Request 1
.equ INT2addr = 0x0008 ; External Interrupt Request 2
.equ INT3addr = 0x000a ; External Interrupt Request 3
.equ PCI0addr = 0x000c ; Pin Change Interrupt 0
.equ PCI1addr = 0x000e ; Pin Change Interrupt 1
.equ WDTaddr = 0x0010 ; Watchdog Timeout Interrupt
.equ WUTaddr = 0x0012 ; Wakeup timer overflow
.equ OC1addr = 0x0014 ; Timer/Counter 1 Compare Match
.equ OVF1addr = 0x0016 ; Timer/Counter 1 Overflow
.equ OC0Aaddr = 0x0018 ; Timer/Counter0 Compare A Match
.equ OC0Baddr = 0x001a ; Timer/Counter0 Compare B Match
.equ OVF0addr = 0x001c ; Timer/Counter0 Overflow
.equ TWICDaddr = 0x001e ; Two-Wire Bus Connect/Disconnect
.equ TWIaddr = 0x0020 ; Two-Wire Serial Interface
.equ VADCaddr = 0x0022 ; Voltage ADC Conversion Complete
.equ CADICaddr = 0x0024 ; Coulomb Counter ADC Conversion Complete
.equ CADRCaddr = 0x0026 ; Coloumb Counter ADC Regular Current
.equ CADACaddr = 0x0028 ; Coloumb Counter ADC Accumulator
.equ ERDYaddr = 0x002a ; EEPROM Ready
.equ SPMRaddr = 0x002c ; Store Program Memory Ready
.equ INT_VECTORS_SIZE = 46 ; size in words
#endif /* _M406DEF_INC_ */
; ***** END OF FILE ******************************************************
|