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| PIC18F45K80-I Datasheet, PDF (615/622 Pages) Microchip Technology – 28/40/44/64-Pin, Enhanced Flash Microcontrollers with ECAN and nanoWatt XLP Technology | |||
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PIC18F66K80 FAMILY
TMR1H Register ....................................................... 209
TMR1L Register........................................................ 209
Timer2 ............................................................................... 221
Associated Registers ................................................ 222
Interrupt..................................................................... 222
Operation .................................................................. 221
Output ....................................................................... 222
PR2 Register............................................................. 262
TMR2 to PR2 Match Interrupt ................................... 262
Timer3 ............................................................................... 223
16-Bit Read/Write Mode............................................ 227
Associated Registers ................................................ 232
Gates ........................................................................ 228
Operation .................................................................. 226
Oscillator ................................................................... 223
Overflow Interrupt ............................................. 223, 232
SOSC Oscillator
Use as the Timer3 Clock Source ...................... 227
Special Event Trigger (ECCP) .................................. 232
TMR3H Register ....................................................... 223
TMR3L Register........................................................ 223
Timer4 ............................................................................... 233
Associated Registers ................................................ 234
Interrupt..................................................................... 234
Operation .................................................................. 233
Output ....................................................................... 234
Postscaler. See Postscaler, Timer4.
PR4 Register............................................................. 233
Prescaler. See Prescaler, Timer4.
TMR4 Register.......................................................... 233
Timing Diagrams
A/D Conversion......................................................... 580
Asynchronous Reception .......................................... 347
Asynchronous Transmission..................................... 344
Asynchronous Transmission (Back-to-Back) ............ 344
Automatic Baud Rate Calculation ............................. 342
Auto-Wake-up Bit (WUE) During Normal Operation . 349
Auto-Wake-up Bit (WUE) During Sleep .................... 349
Baud Rate Generator with Clock Arbitration ............. 319
BRG Overflow Sequence.......................................... 342
BRG Reset Due to SDA Arbitration During Start Condi-
tion .................................................................... 328
Brown-out Reset (BOR) ............................................ 566
Bus Collision During a Repeated Start Condition (Case
1)....................................................................... 329
Bus Collision During a Repeated Start Condition (Case
2)....................................................................... 329
Bus Collision During a Start Condition (SCL = 0) ..... 328
Bus Collision During a Stop Condition (Case 1) ....... 330
Bus Collision During a Stop Condition (Case 2) ....... 330
Bus Collision During Start Condition (SDA Only)...... 327
Bus Collision for Transmit and Acknowledge............ 326
Capture/Compare/PWM (ECCP1, ECCP2) .............. 569
CLKO and I/O ........................................................... 564
Clock/Instruction Cycle ............................................. 106
DSM Carrier High Synchronization (MDCHSYNC = 1,
MDCLSYNC = 0) .............................................. 198
DSM Carrier Low Synchronization (MDCHSYNC = 0,
MDCLSYNC = 1) .............................................. 199
DSM Full Synchronization (MDCHSYNC = 1, MD-
CLSYNC = 1) .................................................... 199
DSM No Synchronization (MDCHSYNC = 0, MD-
CLSYNC = 0) .................................................... 198
DSM On-Off Keying (OOK) Synchronization ............ 198
Enhanced PWM Output (Active-High) ...................... 272
Enhanced PWM Output (Active-Low) ....................... 273
EUSART Synchronous Transmission (Master/Slave) ....
578
EUSART/AUSART Synchronous Receive (Master/
Slave) ............................................................... 578
Example SPI Master Mode (CKE = 0) ...................... 570
Example SPI Master Mode (CKE = 1) ...................... 571
Example SPI Slave Mode (CKE = 0) ........................ 572
Example SPI Slave Mode (CKE = 1) ........................ 573
External Clock .......................................................... 562
Fail-Safe Clock Monitor (FSCM)............................... 478
First Start Bit Timing ................................................. 320
Full-Bridge PWM Output........................................... 276
Half-Bridge PWM Output .................................. 274, 281
High-Voltage Detect Operation (VDIRMAG = 1) ...... 389
HLVD Characteristics ............................................... 567
I2C Acknowledge Sequence..................................... 325
I2C Bus Data............................................................. 575
I2C Bus Start/Stop Bits ............................................. 574
I2C Master Mode (7 or 10-Bit Transmission) ............ 323
I2C Master Mode (7-Bit Reception) .......................... 324
I2C Slave Mode (10-Bit Reception, SEN = 0, ADMSK =
01001) .............................................................. 308
I2C Slave Mode (10-Bit Reception, SEN = 0) ........... 309
I2C Slave Mode (10-Bit Reception, SEN = 1) ........... 314
I2C Slave Mode (10-Bit Transmission) ..................... 310
I2C Slave Mode (7-bit Reception, SEN = 0, ADMSK =
01011) .............................................................. 306
I2C Slave Mode (7-Bit Reception, SEN = 0) ............. 305
I2C Slave Mode (7-Bit Reception, SEN = 1) ............. 313
I2C Slave Mode (7-Bit Transmission) ....................... 307
I2C Slave Mode General Call Address Sequence (7 or
10-Bit Addressing Mode) .................................. 315
I2C Stop Condition Receive or Transmit Mode......... 325
Low-Voltage Detect Operation (VDIRMAG = 0) ....... 388
MSSP Clock Synchronization................................... 312
MSSP I2C Bus Data ................................................. 576
MSSP I2C Bus Start/Stop Bits .................................. 576
Parallel Slave Port (PSP) Read................................ 194
Parallel Slave Port (PSP) Write ................................ 193
PWM Auto-Shutdown with Auto-Restart Enabled .... 280
PWM Auto-Shutdown with Firmware Restart ........... 280
PWM Direction Change ............................................ 277
PWM Direction Change at Near 100% Duty Cycle... 278
PWM Output ............................................................. 262
Repeated Start Condition ......................................... 321
Reset, Watchdog Timer (WDT), Oscillator Start-up Timer
(OST) and Power-up Timer (PWRT) ................ 565
Send Break Character Sequence............................. 350
Slave Synchronization .............................................. 293
Slow Rise Time (MCLR Tied to VDD, VDD Rise > TPWRT)
85
SPI Mode (Master Mode) ......................................... 292
SPI Mode (Slave Mode, CKE = 0) ............................ 294
SPI Mode (Slave Mode, CKE = 1) ............................ 294
Steering Event at Beginning of Instruction (STRSYNC =
1) ...................................................................... 284
Steering Event at End of Instruction (STRSYNC = 0) ....
284
Synchronous Reception (Master Mode, SREN) ....... 353
Synchronous Transmission ...................................... 351
Synchronous Transmission (Through TXEN) ........... 352
Time-out Sequence on POR w/ PLL Enabled (MCLR
Tied to VDD)........................................................ 86
Time-out Sequence on Power-up (MCLR Not Tied to
ï£ 2010-2012 Microchip Technology Inc.
DS39977F-page 615
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