Datasheet
Table Of Contents
- High-Performance RISC CPU:
- Flexible Oscillator Structure:
- Special Microcontroller Features:
- Low-Power Features (PIC12LF1501):
- Peripheral Features:
- Peripheral Features (Continued):
- PIC12(L)F1501/PIC16(L)F150X Family Types
- Table of Contents
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 Device Overview
- 2.0 Enhanced Mid-Range CPU
- 3.0 Memory Organization
- 4.0 Device Configuration
- 5.0 Oscillator Module
- 6.0 Resets
- FIGURE 6-1: Simplified Block Diagram Of On-Chip Reset Circuit
- 6.1 Power-on Reset (POR)
- 6.2 Brown-Out Reset (BOR)
- 6.3 Low-Power Brown-out Reset (LPBOR)
- 6.4 MCLR
- 6.5 Watchdog Timer (WDT) Reset
- 6.6 RESET Instruction
- 6.7 Stack Overflow/Underflow Reset
- 6.8 Programming Mode Exit
- 6.9 Power-Up Timer
- 6.10 Start-up Sequence
- 6.11 Determining the Cause of a Reset
- 6.12 Power Control (PCON) Register
- 7.0 Interrupts
- 8.0 Power-Down Mode (Sleep)
- 9.0 Watchdog Timer
- 10.0 Flash Program Memory Control
- 10.1 PMADRL and PMADRH Registers
- 10.2 Flash Program Memory Overview
- 10.3 Modifying Flash Program Memory
- 10.4 User ID, Device ID and Configuration Word Access
- 10.5 Write Verify
- 10.6 Flash Program Memory Control Registers
- Register 10-1: PMDATL: Program Memory Data Low Byte Register
- Register 10-2: PMDATH: Program Memory Data hIGH bYTE Register
- Register 10-3: PMADRL: Program Memory Address Low Byte Register
- Register 10-4: PMADRH: Program Memory Address hIGH bYTE Register
- Register 10-5: PMCON1: Program Memory Control 1 Register
- Register 10-6: PMCON2: Program Memory Control 2 Register
- TABLE 10-3: Summary of Registers Associated with Flash Program Memory
- TABLE 10-4: Summary of Configuration Word with Flash Program Memory
- 11.0 I/O Ports
- TABLE 11-1: Port Availability Per Device
- FIGURE 11-1: Generic I/O Port Operation
- EXAMPLE 11-1: Initializing PORTA
- 11.1 Alternate Pin Function
- 11.2 PORTA Registers
- 11.2.1 ANSELA Register
- 11.2.2 PORTA Functions and Output Priorities
- TABLE 11-2: PORTA Output Priority
- Register 11-2: PORTA: PORTA Register
- Register 11-3: TRISA: PORTA Tri-State Register
- Register 11-4: LATA: PORTA Data Latch Register
- Register 11-5: ANSELA: PORTA Analog Select Register
- Register 11-6: WPUA: Weak Pull-Up PORTA Register
- TABLE 11-3: Summary of Registers Associated with PORTA
- TABLE 11-4: Summary of Configuration Word with PORTA
- 12.0 Interrupt-On-Change
- 13.0 Fixed Voltage Reference (FVR)
- 14.0 Temperature Indicator Module
- 15.0 Analog-to-Digital Converter (ADC) Module
- FIGURE 15-1: ADC Block Diagram
- 15.1 ADC Configuration
- 15.2 ADC Operation
- 15.2.1 Starting a Conversion
- 15.2.2 Completion of a Conversion
- 15.2.3 Terminating a conversion
- 15.2.4 ADC Operation During Sleep
- 15.2.5 Auto-Conversion Trigger
- 15.2.6 A/D Conversion Procedure
- 15.2.7 ADC Register Definitions
- Register 15-1: ADCON0: A/D Control Register 0
- Register 15-2: ADCON1: A/D Control Register 1
- Register 15-3: ADCON2: A/D Control Register 2
- Register 15-4: ADRESH: ADC Result Register High (ADRESH) ADFM = 0
- Register 15-5: ADRESL: ADC Result Register Low (ADRESL) ADFM = 0
- Register 15-6: ADRESH: ADC Result Register High (ADRESH) ADFM = 1
- Register 15-7: ADRESL: ADC Result Register Low (ADRESL) ADFM = 1
- 15.3 A/D Acquisition Requirements
- 16.0 Digital-to-Analog Converter (DAC) Module
- 17.0 Comparator Module
- 18.0 Timer0 Module
- 19.0 Timer1 Module with Gate Control
- 20.0 Timer2 Module
- 21.0 Pulse-Width Modulation (PWM) Module
- FIGURE 21-1: PWM Output
- FIGURE 21-2: Simplified PWM Block Diagram
- 21.1 PWMx Pin Configuration
- 21.2 PWM Register Definitions
- 22.0 Configurable Logic Cell (CLC)
- FIGURE 22-1: CLCx Simplified Block Diagram
- 22.1 CLCx Setup
- 22.2 CLCx Interrupts
- 22.3 Output Mirror Copies
- 22.4 Effects of a Reset
- 22.5 Operation During Sleep
- 22.6 Alternate Pin Locations
- 22.7 CLCx Control Registers
- Register 22-1: CLCxCON: Configurable Logic CELL Control Register
- Register 22-2: CLCxPOL: Signal Polarity Control Register
- Register 22-3: CLCxSEL0: MULTIPLEXER DATA 1 and 2 SELECT Register
- Register 22-4: CLCxSEL1: MULTIPLEXER DATA 3 and 4 SELECT Register
- Register 22-5: CLCxGLS0: Gate 1 Logic Select Register
- Register 22-6: CLCxGLS1: Gate 2 Logic Select Register
- Register 22-7: CLCxGLS2: Gate 3 Logic Select Register
- Register 22-8: CLCxGLS3: Gate 4 Logic Select Register
- Register 22-9: CLCDATA: CLC Data Output
- TABLE 22-3: Summary Of Registers Associated With CLCx
- 23.0 Numerically Controlled Oscillator (NCO) Module
- FIGURE 23-1: Numerically Controlled Oscillator (NCOx) Module Simplified Block Diagram
- 23.1 NCOx OPERATION
- 23.2 FIXED DUTY CYCLE (FDC) MODE
- 23.3 PULSE FREQUENCY (PF) MODE
- 23.4 OUTPUT POLARITY CONTROL
- 23.5 Interrupts
- 23.6 Effects of a Reset
- 23.7 Operation In Sleep
- 23.8 Alternate Pin Locations
- 23.9 NCOx Control Registers
- Register 23-1: NCOxCON: NCOx Control Register
- Register 23-2: NCOxCLK: NCOx Input Clock Control Register
- Register 23-3: NCOxACCL: NCOx Accumulator Register – Low Byte
- Register 23-4: NCOxACCH: NCOx Accumulator Register – High Byte
- Register 23-5: NCOxACCU: NCOx Accumulator Register – Upper Byte
- Register 23-6: NCOxINCL: NCOx Increment Register – Low Byte
- Register 23-7: NCOxINCH: NCOx Increment Register – High Byte
- TABLE 23-1: Summary of Registers Associated with NCOx
- 24.0 Complementary Waveform Generator (CWG) Module
- FIGURE 24-1: Simplified CWG Block Diagram
- FIGURE 24-2: Typical CWG Operation with PWM1 (no Auto-shutdown)
- 24.1 Fundamental Operation
- 24.2 Clock Source
- 24.3 Selectable Input Sources
- 24.4 Output Control
- 24.5 Dead-Band Control
- 24.6 Rising Edge Dead Band
- 24.7 Falling Edge Dead Band
- 24.8 Dead-Band Uncertainty
- 24.9 Auto-shutdown Control
- 24.10 Operation During Sleep
- 24.11 Alternate Pin Locations
- 24.12 Configuring the CWG
- 24.13 CWG Control Registers
- Register 24-1: CWGxCON0: CWG Control Register 0
- Register 24-2: CWGxCON1: CWG Control Register 1
- Register 24-3: CWGXCON2: CWG Control Register 2
- Register 24-4: CWGxDBR: Complementary Waveform Generator (CWGx) Rising Dead-band Count Register
- Register 24-5: CWGxdbf: Complementary Waveform Generator (CWGx) Falling Dead-Band Count Register
- 24.13.1 Alternate Pin Locations
- 25.0 In-Circuit Serial Programming™ (ICSP™)
- 26.0 Instruction Set Summary
- 27.0 Electrical Specifications
- Absolute Maximum Ratings(†)
- 27.1 DC Characteristics: PIC12(L)F1501-I/E (Industrial, Extended)
- 27.2 DC Characteristics: PIC12(L)F1501-I/E (Industrial, Extended)
- 27.3 DC Characteristics: PIC12(L)F1501-I/E (Power-Down)
- 27.3 DC Characteristics: PIC12(L)F1501-I/E (Power-Down) (Continued)
- 27.4 DC Characteristics: PIC12(L)F1501-I/E
- 27.5 Memory Programming Requirements
- 27.6 Thermal Considerations
- 27.7 Timing Parameter Symbology
- 27.8 AC Characteristics: PIC12(L)F1501-I/E
- FIGURE 27-5: Clock Timing
- TABLE 27-1: Clock Oscillator Timing Requirements
- TABLE 27-2: Oscillator Parameters
- FIGURE 27-6: CLKOUT and I/O Timing
- TABLE 27-3: CLKOUT and I/O Timing Parameters
- FIGURE 27-7: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing
- FIGURE 27-8: Brown-Out Reset Timing and Characteristics
- TABLE 27-4: Reset, Watchdog Timer, Oscillator Start-up Timer, Power-up Timer and Brown-Out Reset Parameters
- FIGURE 27-9: Timer0 and Timer1 External Clock Timings
- TABLE 27-5: Timer0 and Timer1 External Clock Requirements
- TABLE 27-6: PIC12(L)F1501 A/D Converter (ADC) Characteristics:
- TABLE 27-7: PIC12(L)F1501 A/D Conversion Requirements
- FIGURE 27-10: PIC12(L)F1501 A/D Conversion Timing (Normal Mode)
- FIGURE 27-11: PIC12(L)F1501 A/D Conversion Timing (Sleep Mode)
- TABLE 27-8: Comparator Specifications
- TABLE 27-9: Digital-to-Analog Converter (DAC) Specifications
- 28.0 DC and AC Characteristics Graphs and Charts
- 30.0 Packaging Information
- Appendix A: Data Sheet Revision History
- INDEX
- Product Identification System
- Worldwide Sales and Service
2011 Microchip Technology Inc. Preliminary DS41615A-page 21
PIC12(L)F1501
TABLE 3-3: PIC12(L)F1501 MEMORY MAP (CONTINUED)
BANK 8 BANK 9 BANK 10 BANK 11 BANK 12 BANK 13 BANK 14 BANK 15
400h
40Bh
Core Registers
(Tab le 3- 2)
480h
48Bh
Core Registers
(Tab le 3- 2)
500h
50Bh
Core Registers
(Table 3-2)
580h
58Bh
Core Registers
(Table 3-2)
600h
60Bh
Core Registers
(Table 3-2)
680h
68Bh
Core Registers
(Table 3-2)
700h
70Bh
Core Registers
(Table 3-2)
780h
78Bh
Core Registers
(Table 3-2)
40Ch
— 48Ch — 50Ch — 58Ch — 60Ch — 68Ch — 70Ch — 78Ch —
40Dh
— 48Dh — 50Dh — 58Dh — 60Dh — 68Dh — 70Dh — 78Dh —
40Eh
—48Eh—50Eh—58Eh—60Eh—68Eh—70Eh—78Eh—
40Fh
—48Fh—50Fh—58Fh—60Fh—68Fh—70Fh—78Fh—
410h
—490h—510h—590h—610h—690h— 710h — 790h —
411h
—491h—511h—591h— 611h PWM1DCL 691h CWG1DBR 711h — 791h —
412h
—492h—512h—592h— 612h PWM1DCH 692h CWG1DBF 712h — 792h —
413h
—493h—513h—593h— 613h PWM1CON 693h CWG1CON0 713h — 793h —
414h
—494h—514h—594h— 614h PWM2DCL 694h CWG1CON1 714h — 794h —
415h
—495h—515h—595h— 615h PWM2DCH 695h CWG1CON2 715h — 795h —
416h
—496h—516h—596h— 616h PWM2CON 696h — 716h — 796h —
417h
—497h—517h—597h— 617h PWM3DCL 697h — 717h — 797h —
418h
— 498h NCO1ACCL 518h —598h— 618h PWM3DCH 698h — 718h — 798h —
419h
— 499h NCO1ACCH 519h —599h— 619h PWM3CON 699h — 719h — 799h —
41Ah
— 49Ah NCO1ACCU 51Ah —59Ah— 61Ah PWM4DCL 69Ah —71Ah—79Ah—
41Bh
— 49Bh NCO1INCL 51Bh —59Bh— 61Bh PWM4DCH 69Bh —71Bh—79Bh—
41Ch
— 49Ch NCO1INCH 51Ch — 59Ch — 61Ch PWM4CON 69Ch — 71Ch — 79Ch —
41Dh
— 49Dh — 51Dh — 59Dh — 61Dh — 69Dh — 71Dh — 79Dh —
41Eh
— 49Eh NCO1CON 51Eh —59Eh—61Eh—69Eh—71Eh—79Eh—
41Fh
— 49Fh NCO1CLK 51Fh —59Fh—61Fh—69Fh—71Fh—79Fh—
420h
Unimplemented
Read as ‘0’
4A0h
Unimplemented
Read as ‘0’
520h
Unimplemented
Read as ‘0’
5A0h
Unimplemented
Read as ‘0’
620h
Unimplemented
Read as ‘0’
6A0h
Unimplemented
Read as ‘0’
720h
Unimplemented
Read as ‘0’
7A0h
Unimplemented
Read as ‘0’
46Fh 4EFh 56Fh 5EFh 64Fh 6EFh 76Fh 7EFh
470h
Common RAM
(Accesses
70h – 7Fh)
4F0h
Common RAM
(Accesses
70h – 7Fh)
570h
Common RAM
(Accesses
70h – 7Fh)
5F0h
Common RAM
(Accesses
70h – 7Fh)
650h
Common RAM
(Accesses
70h – 7Fh)
6F0h
Common RAM
(Accesses
70h – 7Fh)
770h
Common RAM
(Accesses
70h – 7Fh)
7F0h
Common RAM
(Accesses
70h – 7Fh)
47Fh 4FFh 57Fh 5FFh 67Fh 6FFh 77Fh 7FFh
BANK 16 BANK 17 BANK 18 BANK 19 BANK 20 BANK 21 BANK 22 BANK 23
800h
80Bh
Core Registers
(Tab le 3-2 )
880h
88Bh
Core Registers
(Tab le 3- 2)
900h
90Bh
Core Registers
(Table 3-2)
980h
98Bh
Core Registers
(Table 3-2)
A00h
A0Bh
Core Registers
(Table 3-2)
A80h
A8Bh
Core Registers
(Table 3-2)
B00h
B0Bh
Core Registers
(Table 3-2)
B80h
B8Bh
Core Registers
(Table 3-2)
80Ch
Unimplemented
Read as ‘0’
88Ch
Unimplemented
Read as ‘0’
90Ch
Unimplemented
Read as ‘0’
98Ch
Unimplemented
Read as ‘0’
A0Ch
Unimplemented
Read as ‘0’
A8Ch
Unimplemented
Read as ‘0’
B0Ch
Unimplemented
Read as ‘0’
B8Ch
Unimplemented
Read as ‘0’
86Fh 8EFh 96Fh
9EFh
A6Fh
AEFh
B6Fh
BEFh
870h
Common RAM
(Accesses
70h – 7Fh)
8F0h
Common RAM
(Accesses
70h – 7Fh)
970h
Common RAM
(Accesses
70h – 7Fh)
9F0h
Common RAM
(Accesses
70h – 7Fh)
A70h
Common RAM
(Accesses
70h – 7Fh)
AF0h
Common RAM
(Accesses
70h – 7Fh)
B70h
Common RAM
(Accesses
70h – 7Fh)
BF0h
Common RAM
(Accesses
70h – 7Fh)
87Fh 8FFh 97Fh 9FFh A7Fh AFFh B7Fh BFFh
Legend: = Unimplemented data memory locations, read as ‘0’