Datasheet PIC10F320, PIC10F322, PIC10LF320, PIC10LF322 (Microchip) - 5
| Manufacturer | Microchip |
| Description | 6/8-Pin Flash-Based, 8-Bit Microcontrollers |
| Pages / Page | 193 / 5 — PIC10(L)F320/322. TO OUR VALUED CUSTOMERS. docerrors@microchip.com. Most … |
| File Format / Size | PDF / 1.5 Mb |
| Document Language | English |
PIC10(L)F320/322. TO OUR VALUED CUSTOMERS. docerrors@microchip.com. Most Current Data Sheet. http://www.microchip.com. Errata
Model Line for this Datasheet
- PIC10F320-E/MC PIC10F320-E/OT PIC10F320-E/P PIC10F320-I/MC PIC10F320-I/OT PIC10F320-I/P PIC10F320T-E/MC PIC10F320T-E/OT PIC10F320T-E/OTVAO PIC10F320T-I/MC PIC10F320T-I/OT PIC10LF320-E/MC PIC10LF320-E/OT PIC10LF320-E/P PIC10LF320-I/MC PIC10LF320-I/OT PIC10LF320-I/P PIC10LF320T-I/MC PIC10LF320T-I/OT
- PIC10F322-E/MC PIC10F322-E/OT PIC10F322-E/OTVAO PIC10F322-E/P PIC10F322-I/MC PIC10F322-I/OT PIC10F322-I/P PIC10F322-ICE/P PIC10F322T-E/OT PIC10F322T-E/OTV01 PIC10F322T-E/OTVAO PIC10F322T-I/MC PIC10F322T-I/OT PIC10F322T-I/OTVAO PIC10LF322-E/MC PIC10LF322-E/OT PIC10LF322-E/P PIC10LF322-I/MC PIC10LF322-I/OT PIC10LF322-I/P PIC10LF322T-I/MC PIC10LF322T-I/OT
Text Version of Document
PIC10(L)F320/322 TO OUR VALUED CUSTOMERS
It is our intention to provide our valued customers with the best documentation possible to ensure successful use of your Microchip products. To this end, we will continue to improve our publications to better suit your needs. Our publications will be refined and enhanced as new volumes and updates are introduced. If you have any questions or comments regarding this publication, please contact the Marketing Communications Department via E-mail at
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Errata
An errata sheet, describing minor operational differences from the data sheet and recommended workarounds, may exist for current devices. As device/documentation issues become known to us, we will publish an errata sheet. The errata will specify the revision of silicon and revision of document to which it applies. To determine if an errata sheet exists for a particular device, please check with one of the following: • Microchip’s Worldwide Website;
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DS40001585D-page 5 Document Outline High-Performance RISC CPU Memory Special Microcontroller Features eXtreme Low-Power (XLP) Features (PIC10LF320/322) Peripheral Features PIC10(L)F320/322 Family Types FIGURE 1: 6-Pin Diagram, PIC10(L)F320/322 FIGURE 2: 8-Pin Diagram, PIC10(L)F320/322 TABLE 1: 6 and 8-Pin Allocation Table, PIC10(L)F320/322 Table of Contents Most Current Data Sheet Errata Customer Notification System 6/8-Pin Flash-Based, 8-Bit Microcontrollers 1.0 Device Overview TABLE 1-1: Device Peripheral Summary FIGURE 1-1: PIC10(L)F320/322 Block Diagram TABLE 1-2: PIC10(L)F320/322 Pinout Description 2.0 Memory Organization 2.1 Program Memory Organization TABLE 2-1: Device Sizes and Addresses FIGURE 2-1: Program Memory Map And Stack For PIC10(L)F320 FIGURE 2-2: Program Memory Map And Stack For PIC10(L)F322 2.2 Data Memory Organization Register 2-1: STATUS: STATUS Register TABLE 2-2: PIC10(L)F320/322 Memory Map (Bank 0) TABLE 2-3: Special Function Register Summary (Bank 0) 2.3 PCL and PCLATH FIGURE 2-3: Loading of PC in Different Situations 2.4 Indirect Addressing, INDF and FSR Registers EXAMPLE 2-1: Indirect Addressing FIGURE 2-4: Direct/Indirect Addressing PIC10(L)F320/322 3.0 Device Configuration 3.1 Configuration Word 3.2 Register Definitions: Configuration Word Register 3-1: CONFIG: Configuration Word 3.3 Code Protection 3.4 Write Protection 3.5 User ID 3.6 Device ID and Revision ID 3.7 Register Definitions: Device and Revision Register 3-2: DEVID: Device ID Register(1) 4.0 Oscillator Module 4.1 Overview FIGURE 4-1: PIC10(L)F320/322 Clock Source Block Diagram 4.2 Clock Source Modes 4.3 Internal Clock Modes 4.4 Register Definitions: Reference Clock Control Register 4-1: CLKRCON – Reference Clock Control Register 4.5 Register Definitions: Oscillator Control Register 4-2: OSCCON: Oscillator Control Register 4.6 External Clock Mode TABLE 4-1: Summary of Registers Associated with Clock Sources TABLE 4-2: Summary of Configuration Word with Clock Sources 5.0 Resets FIGURE 5-1: Simplified Block Diagram Of On-Chip Reset Circuit 5.1 Power-On Reset (POR) 5.2 Brown-Out Reset (BOR) TABLE 5-1: BOR Operating Modes FIGURE 5-2: Brown-Out Situations 5.3 Register Definition: BOR Control Register 5-1: BORCON: Brown-out Reset Control Register 5.4 Low-Power Brown-out Reset (LPBOR) 5.5 MCLR TABLE 5-2: MCLR Configuration 5.6 Watchdog Timer (WDT) Reset 5.7 Programming Mode ICSP Exit 5.8 Power-Up Timer 5.9 Start-up Sequence FIGURE 5-3: Reset Start-up Sequence 5.10 Determining the Cause of a Reset TABLE 5-3: Reset Status Bits and Their Significance TABLE 5-4: Reset Condition for Special Registers 5.11 Power Control (PCON) Register 5.12 Register Definition: Power Control Register 5-2: PCON: Power Control Register TABLE 5-5: Summary Of Registers Associated With Resets TABLE 5-6: Summary of Configuration Word with Resets 6.0 Interrupts FIGURE 6-1: Interrupt Logic 6.1 Operation 6.2 Interrupt Latency FIGURE 6-2: Interrupt Latency FIGURE 6-3: INT Pin Interrupt Timing 6.3 Interrupts During Sleep 6.4 INT Pin 6.5 Context Saving During Interrupts EXAMPLE 6-1: Saving Status and W Registers in RAM 6.6 Interrupt Control Registers Register 6-1: INTCON: Interrupt Control Register Register 6-2: PIE1: Peripheral Interrupt Enable Register 1 Register 6-3: PIR1: Peripheral Interrupt Request Register 1 TABLE 6-1: Summary of Registers Associated with Interrupts 7.0 Power-Down Mode (Sleep) 7.1 Wake-up from Sleep FIGURE 7-1: Wake-up From Sleep through Interrupt TABLE 7-1: Summary of Registers Associated with power-down Mode 8.0 Watchdog Timer FIGURE 8-1: Watchdog Timer Block Diagram 8.1 Independent Clock Source 8.2 WDT Operating Modes TABLE 8-1: WDT Operating Modes 8.3 Time-Out Period 8.4 Clearing the WDT 8.5 Operation During Sleep TABLE 8-2: WDT Clearing Conditions 8.6 Watchdog Control Register Register 8-1: WDTCON: Watchdog Timer Control Register TABLE 8-3: Summary of Registers Associated with Watchdog Timer TABLE 8-4: Summary of cONFIGURATION wORD with Watchdog Timer 9.0 Flash Program Memory Control 9.1 PMADRL and PMADRH Registers 9.2 Flash Program Memory Overview TABLE 9-1: Flash Memory Organization By Device FIGURE 9-1: Flash Program Memory Read Flowchart FIGURE 9-2: Flash Program Memory Read Cycle Execution EXAMPLE 9-1: Flash PROGRAM MEMORY Read FIGURE 9-3: Flash Program Memory Unlock Sequence Flowchart FIGURE 9-4: Flash Program Memory Erase Flowchart EXAMPLE 9-2: Erasing One Row of Program Memory FIGURE 9-5: Block WRITES to Flash Program Memory With 16 write latches FIGURE 9-6: Flash Program Memory Write Flowchart EXAMPLE 9-3: Writing to Flash Program Memory 9.3 Modifying Flash Program Memory FIGURE 9-7: Flash Program Memory Modify Flowchart 9.4 User ID, Device ID and Configuration Word Access TABLE 9-2: User ID, Device ID and Configuration Word Access (cfgs = 1) EXAMPLE 9-4: Configuration Word and Device ID Access 9.5 Write Verify FIGURE 9-8: Flash Program Memory Verify Flowchart 9.6 Flash Program Memory Control Registers Register 9-1: PMDATL: Program Memory Data Low Register 9-2: PMDATH: Program Memory Data hIGH Register 9-3: PMADRL: Program Memory Address Low Register 9-4: PMADRH: Program Memory Address hIGH Register 9-5: PMCON1: Program Memory Control 1 Register Register 9-6: PMCON2: Program Memory Control 2 Register TABLE 9-3: Summary of Registers Associated with Flash Program Memory TABLE 9-4: Summary of cONFIGURATION wORD with Flash Program Memory 10.0 I/O Port FIGURE 10-1: I/O Port Operation EXAMPLE 10-1: Initializing PORTA 10.1 PORTA Registers TABLE 10-1: PORTA Output Priority 10.2 Register Definitions: PORTA Register 10-1: PORTA: PORTA Register Register 10-2: TRISA: PORTA Tri-State Register Register 10-3: LATA: PORTA Data Latch Register Register 10-4: ANSELA: PORTA Analog Select Register Register 10-5: WPUA: Weak Pull-UP PORTA Register TABLE 10-2: Summary of Registers Associated with PORTA 11.0 Interrupt-On-Change 11.1 Enabling the Module 11.2 Individual Pin Configuration 11.3 Interrupt Flags 11.4 Clearing Interrupt Flags EXAMPLE 11-1: Clearing Interrupt Flags 11.5 Operation in Sleep FIGURE 11-1: Interrupt-On-Change Block Diagram 11.6 Interrupt-On-Change Registers Register 11-1: IOCAP: Interrupt-on-Change PORTA Positive Edge Register Register 11-2: IOCAN: Interrupt-on-Change PORTA Negative Edge Register Register 11-3: IOCAF: Interrupt-on-Change PORTA Flag Register TABLE 11-1: Summary of Registers Associated with Interrupt-on-Change 12.0 Fixed Voltage Reference (FVR) 12.1 Independent Gain Amplifiers 12.2 FVR Stabilization Period FIGURE 12-1: Voltage Reference Block Diagram TABLE 12-1: Peripherals Requiring the Fixed Voltage Reference (FVR) 12.3 FVR Control Registers Register 12-1: FVRCON: Fixed Voltage Reference Control Register TABLE 12-2: Summary of Registers Associated with Fixed Voltage Reference 13.0 Internal Voltage Regulator (IVR) TABLE 13-1: IVR Power modes - REGULATED Register 13-1: VREGCON: Voltage Regulator Control Register 14.0 Temperature Indicator Module 14.1 Circuit Operation FIGURE 14-1: Temperature Circuit Diagram 14.2 Minimum Operating Vdd vs. Minimum Sensing Temperature TABLE 14-1: Recommended Vdd vs. Range 14.3 Temperature Output 14.4 ADC Acquisition Time TABLE 14-2: Summary of Registers Associated with the Temperature Indicator 15.0 Analog-to-Digital Converter (ADC) Module FIGURE 15-1: ADC Simplified Block Diagram 15.1 ADC Configuration TABLE 15-1: ADC Clock Period (Tad) Vs. Device Operating Frequencies FIGURE 15-2: Analog-to-Digital Conversion Tad Cycles 15.2 ADC Operation 15.3 ADC Register Definitions Register 15-1: ADCON: A/D Control Register 0 Register 15-2: ADRES: ADC Result Register 15.4 A/D Acquisition Requirements FIGURE 15-3: Analog Input Model FIGURE 15-4: ADC Transfer Function TABLE 15-2: Summary of Registers Associated with ADC 16.0 Timer0 Module 16.1 Timer0 Operation FIGURE 16-1: Block Diagram of the Timer0 Prescaler Register 16-1: OPTION_REG: OPTION Register TABLE 16-1: Summary of Registers Associated with Timer0 17.0 Timer2 Module 17.1 Timer2 Operation FIGURE 17-1: Timer2 Block Diagram Register 17-1: T2CON: Timer2 Control Register TABLE 17-1: Summary of Registers Associated With Timer2 18.0 Pulse-Width Modulation (PWM) Module FIGURE 18-1: Simplified PWM Block Diagram FIGURE 18-2: PWM Output 18.1 PWMx Pin Configuration TABLE 18-1: Example PWM Frequencies and Resolutions (Fosc = 20 MHz) TABLE 18-2: Example PWM Frequencies and Resolutions (Fosc = 8 MHz) 18.2 PWM Register Definitions Register 18-1: PWMxCON: PWM Control Register Register 18-2: PWMXDCH: PWM Duty Cycle High Bits Register 18-3: PWMxDCL: PWM Duty Cycle LOW Bits TABLE 18-3: Summary of Registers Associated with PWM 19.0 Configurable Logic Cell (CLC) FIGURE 19-1: CLCx Simplified Block Diagram 19.1 CLCx Setup TABLE 19-1: CLCx Data Input Selection TABLE 19-2: Data gating Logic 19.2 CLCx Interrupts 19.3 Effects of a Reset 19.4 Operation During Sleep FIGURE 19-2: Input Data Selection and Gating FIGURE 19-3: Programmable Logic Functions 19.5 CLC Control Registers Register 19-1: CLCxCON: Configurable Logic CELL Control Register Register 19-2: CLCxPOL: Signal Polarity Control Register Register 19-3: CLCxSEL0: MULTIPLEXER DATA 1 and 2 SELECT Register Register 19-4: CLCxSEL1: MULTIPLEXER DATA 3 and 4 SELECT Register Register 19-5: CLCxGLS0: Gate 1 Logic Select Register Register 19-6: CLCxGLS1: Gate 2 Logic Select Register Register 19-7: CLCxGLS2: Gate 3 Logic Select Register Register 19-8: CLCxGLS3: Gate 4 Logic Select Register TABLE 19-3: Summary Of Registers Associated With CLCx 20.0 Numerically Controlled Oscillator (NCO) Module FIGURE 20-1: Numerically Controlled Oscillator (NCOx) Module Simplified Block Diagram 20.1 NCOx OPERATION 20.2 FIXED DUTY CYCLE (FDC) MODE 20.3 PULSE FREQUENCY (PF) MODE 20.4 OUTPUT POLARITY CONTROL FIGURE 20-2: NCO – Fixed Duty Cycle (FDC) and Pulse Frequency Mode (PFM) Output Operation Diagram 20.5 Interrupts 20.6 Effects of a Reset 20.7 Operation In Sleep 20.8 NCOx Control Registers Register 20-1: NCOxCON: NCOx Control Register Register 20-2: NCOxCLK: NCOx Input Clock Control Register Register 20-3: NCOxACCL: NCOx Accumulator Register – Low Byte Register 20-4: NCOxACCH: NCOx Accumulator Register – High Byte Register 20-5: NCOxACCU: NCOx Accumulator Register – Upper Byte Register 20-6: NCOxINCL: NCOx Increment Register – Low Byte Register 20-7: NCOxINCH: NCOx Increment Register – High Byte TABLE 20-1: Summary of Registers Associated with NCOx 21.0 Complementary Waveform Generator (CWG) Module FIGURE 21-1: CWG Block Diagram FIGURE 21-2: Typical CWG Operation with PWM1 (no Auto-shutdown) 21.1 Fundamental Operation 21.2 Clock Source 21.3 Selectable Input Sources 21.4 Output Control 21.5 Dead-Band Control 21.6 Rising Edge Dead Band 21.7 Falling Edge Dead Band 21.8 Dead-Band Uncertainty FIGURE 21-3: Dead-band Operation, CWGxDBR = 01H, CWGxDBF = 02H FIGURE 21-4: Dead-band Operation, CWGxDBR = 03H, CWGxDBF = 04H, Source shorter than dead band EXAMPLE 21-1: Dead-band Delay time Uncertainty 21.9 Auto-shutdown Control 21.10 Operation During Sleep 21.11 Configuring the CWG FIGURE 21-5: SHUTDOWN Functionality, Auto-restart Disabled (GxARSEN = 0) FIGURE 21-6: SHUTDOWN Functionality, Auto-restart Enabled (GxARSEN = 1) 21.12 CWG Control Registers Register 21-1: CWGxCON0: CWG Control Register 0 Register 21-2: CWGxCON1: CWG Control Register 1 Register 21-3: CWGXCON2: CWG Control Register 2 Register 21-4: CWGxDBR: Complementary Waveform Generator (CWGx) Rising Dead-band Count Register Register 21-5: CWGxdbf: Complementary Waveform Generator (CWGx) Falling Dead-band Count Register TABLE 21-1: Summary of Registers Associated with CWG 22.0 In-Circuit Serial Programming™ (ICSP™) 22.1 High-Voltage Programming Entry Mode 22.2 Low-Voltage Programming Entry Mode 22.3 Common Programming Interfaces FIGURE 22-1: ICD RJ-11 Style Connector Interface FIGURE 22-2: PICkit™ Style Connector Interface FIGURE 22-3: Typical connection for ICSP™ programming 23.0 Instruction Set Summary 23.1 Read-Modify-Write Operations TABLE 23-1: Opcode Field Descriptions FIGURE 23-1: General Format for Instructions TABLE 23-2: Instruction Set 23.2 Instruction Descriptions 24.0 Electrical Specifications 24.1 Absolute Maximum Ratings(†) 24.2 Standard Operating Conditions FIGURE 24-1: PIC10F320/322 Voltage Frequency Graph, -40°C £ Ta £ +125°C FIGURE 24-2: PIC10LF320/322 Voltage Frequency Graph, -40°C £ Ta £ +125°C 24.3 DC Characteristics TABLE 24-1: Supply Voltage FIGURE 24-3: POR and POR Rearm with Slow Rising Vdd TABLE 24-2: Supply Voltage (Idd)(1,2) TABLE 24-3: Power-Down Currents (Ipd)(1,2) TABLE 24-4: I/O Ports TABLE 24-5: Memory Programming Requirements 24.4 Thermal Considerations 24.5 AC Characteristics FIGURE 24-4: Load Conditions FIGURE 24-5: Clock Timing TABLE 24-6: Clock Oscillator Timing Requirements TABLE 24-7: Oscillator Parameters FIGURE 24-6: HFINTOSC Frequency Accuracy Over Device Vdd and Temperature FIGURE 24-7: CLKR and I/O Timing TABLE 24-8: CLKR and I/O Timing Parameters FIGURE 24-8: Reset, Watchdog Timer, and Power-up Timer Timing FIGURE 24-9: Brown-Out Reset Timing and Characteristics TABLE 24-9: Reset, Watchdog Timer, Power-up Timer and Brown-Out Reset Parameters FIGURE 24-10: Timer0 and Timer1 External Clock Timings TABLE 24-10: Timer0 External Clock Requirements FIGURE 24-11: CLC Propagation Timing TABLE 24-11: Configuration Logic Cell (CLC) Characteristics TABLE 24-12: A/D Converter (ADC) Characteristics: TABLE 24-13: A/D Conversion Requirements FIGURE 24-12: A/D Conversion Timing (Normal Mode) FIGURE 24-13: A/D Conversion Timing (Sleep Mode) 25.0 DC and AC Characteristics Graphs and Charts 26.0 Development Support 26.1 MPLAB X Integrated Development Environment Software 26.2 MPLAB XC Compilers 26.3 MPASM Assembler 26.4 MPLINK Object Linker/ MPLIB Object Librarian 26.5 MPLAB Assembler, Linker and Librarian for Various Device Families 26.6 MPLAB X SIM Software Simulator 26.7 MPLAB REAL ICE In-Circuit Emulator System 26.8 MPLAB ICD 3 In-Circuit Debugger System 26.9 PICkit 3 In-Circuit Debugger/ Programmer 26.10 MPLAB PM3 Device Programmer 26.11 Demonstration/Development Boards, Evaluation Kits, and Starter Kits 26.12 Third-Party Development Tools 27.0 Packaging Information 27.1 Package Marking Information TABLE 27-1: 8-Lead 2X3 dfn (mc) tOP Marking TABLE 27-2: 6-Lead SOT-23 (OT) Package Top Marking 27.2 Package Details Appendix A: Data Sheet Revision History The Microchip Website Customer Change Notification Service Customer Support Product Identification System Trademarks Worldwide Sales and Service
It is our intention to provide our valued customers with the best documentation possible to ensure successful use of your Microchip products. To this end, we will continue to improve our publications to better suit your needs. Our publications will be refined and enhanced as new volumes and updates are introduced. If you have any questions or comments regarding this publication, please contact the Marketing Communications Department via E-mail at
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Most Current Data Sheet
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Errata
An errata sheet, describing minor operational differences from the data sheet and recommended workarounds, may exist for current devices. As device/documentation issues become known to us, we will publish an errata sheet. The errata will specify the revision of silicon and revision of document to which it applies. To determine if an errata sheet exists for a particular device, please check with one of the following: • Microchip’s Worldwide Website;
ht tp://www.microchip.com
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DS40001585D-page 5 Document Outline High-Performance RISC CPU Memory Special Microcontroller Features eXtreme Low-Power (XLP) Features (PIC10LF320/322) Peripheral Features PIC10(L)F320/322 Family Types FIGURE 1: 6-Pin Diagram, PIC10(L)F320/322 FIGURE 2: 8-Pin Diagram, PIC10(L)F320/322 TABLE 1: 6 and 8-Pin Allocation Table, PIC10(L)F320/322 Table of Contents Most Current Data Sheet Errata Customer Notification System 6/8-Pin Flash-Based, 8-Bit Microcontrollers 1.0 Device Overview TABLE 1-1: Device Peripheral Summary FIGURE 1-1: PIC10(L)F320/322 Block Diagram TABLE 1-2: PIC10(L)F320/322 Pinout Description 2.0 Memory Organization 2.1 Program Memory Organization TABLE 2-1: Device Sizes and Addresses FIGURE 2-1: Program Memory Map And Stack For PIC10(L)F320 FIGURE 2-2: Program Memory Map And Stack For PIC10(L)F322 2.2 Data Memory Organization Register 2-1: STATUS: STATUS Register TABLE 2-2: PIC10(L)F320/322 Memory Map (Bank 0) TABLE 2-3: Special Function Register Summary (Bank 0) 2.3 PCL and PCLATH FIGURE 2-3: Loading of PC in Different Situations 2.4 Indirect Addressing, INDF and FSR Registers EXAMPLE 2-1: Indirect Addressing FIGURE 2-4: Direct/Indirect Addressing PIC10(L)F320/322 3.0 Device Configuration 3.1 Configuration Word 3.2 Register Definitions: Configuration Word Register 3-1: CONFIG: Configuration Word 3.3 Code Protection 3.4 Write Protection 3.5 User ID 3.6 Device ID and Revision ID 3.7 Register Definitions: Device and Revision Register 3-2: DEVID: Device ID Register(1) 4.0 Oscillator Module 4.1 Overview FIGURE 4-1: PIC10(L)F320/322 Clock Source Block Diagram 4.2 Clock Source Modes 4.3 Internal Clock Modes 4.4 Register Definitions: Reference Clock Control Register 4-1: CLKRCON – Reference Clock Control Register 4.5 Register Definitions: Oscillator Control Register 4-2: OSCCON: Oscillator Control Register 4.6 External Clock Mode TABLE 4-1: Summary of Registers Associated with Clock Sources TABLE 4-2: Summary of Configuration Word with Clock Sources 5.0 Resets FIGURE 5-1: Simplified Block Diagram Of On-Chip Reset Circuit 5.1 Power-On Reset (POR) 5.2 Brown-Out Reset (BOR) TABLE 5-1: BOR Operating Modes FIGURE 5-2: Brown-Out Situations 5.3 Register Definition: BOR Control Register 5-1: BORCON: Brown-out Reset Control Register 5.4 Low-Power Brown-out Reset (LPBOR) 5.5 MCLR TABLE 5-2: MCLR Configuration 5.6 Watchdog Timer (WDT) Reset 5.7 Programming Mode ICSP Exit 5.8 Power-Up Timer 5.9 Start-up Sequence FIGURE 5-3: Reset Start-up Sequence 5.10 Determining the Cause of a Reset TABLE 5-3: Reset Status Bits and Their Significance TABLE 5-4: Reset Condition for Special Registers 5.11 Power Control (PCON) Register 5.12 Register Definition: Power Control Register 5-2: PCON: Power Control Register TABLE 5-5: Summary Of Registers Associated With Resets TABLE 5-6: Summary of Configuration Word with Resets 6.0 Interrupts FIGURE 6-1: Interrupt Logic 6.1 Operation 6.2 Interrupt Latency FIGURE 6-2: Interrupt Latency FIGURE 6-3: INT Pin Interrupt Timing 6.3 Interrupts During Sleep 6.4 INT Pin 6.5 Context Saving During Interrupts EXAMPLE 6-1: Saving Status and W Registers in RAM 6.6 Interrupt Control Registers Register 6-1: INTCON: Interrupt Control Register Register 6-2: PIE1: Peripheral Interrupt Enable Register 1 Register 6-3: PIR1: Peripheral Interrupt Request Register 1 TABLE 6-1: Summary of Registers Associated with Interrupts 7.0 Power-Down Mode (Sleep) 7.1 Wake-up from Sleep FIGURE 7-1: Wake-up From Sleep through Interrupt TABLE 7-1: Summary of Registers Associated with power-down Mode 8.0 Watchdog Timer FIGURE 8-1: Watchdog Timer Block Diagram 8.1 Independent Clock Source 8.2 WDT Operating Modes TABLE 8-1: WDT Operating Modes 8.3 Time-Out Period 8.4 Clearing the WDT 8.5 Operation During Sleep TABLE 8-2: WDT Clearing Conditions 8.6 Watchdog Control Register Register 8-1: WDTCON: Watchdog Timer Control Register TABLE 8-3: Summary of Registers Associated with Watchdog Timer TABLE 8-4: Summary of cONFIGURATION wORD with Watchdog Timer 9.0 Flash Program Memory Control 9.1 PMADRL and PMADRH Registers 9.2 Flash Program Memory Overview TABLE 9-1: Flash Memory Organization By Device FIGURE 9-1: Flash Program Memory Read Flowchart FIGURE 9-2: Flash Program Memory Read Cycle Execution EXAMPLE 9-1: Flash PROGRAM MEMORY Read FIGURE 9-3: Flash Program Memory Unlock Sequence Flowchart FIGURE 9-4: Flash Program Memory Erase Flowchart EXAMPLE 9-2: Erasing One Row of Program Memory FIGURE 9-5: Block WRITES to Flash Program Memory With 16 write latches FIGURE 9-6: Flash Program Memory Write Flowchart EXAMPLE 9-3: Writing to Flash Program Memory 9.3 Modifying Flash Program Memory FIGURE 9-7: Flash Program Memory Modify Flowchart 9.4 User ID, Device ID and Configuration Word Access TABLE 9-2: User ID, Device ID and Configuration Word Access (cfgs = 1) EXAMPLE 9-4: Configuration Word and Device ID Access 9.5 Write Verify FIGURE 9-8: Flash Program Memory Verify Flowchart 9.6 Flash Program Memory Control Registers Register 9-1: PMDATL: Program Memory Data Low Register 9-2: PMDATH: Program Memory Data hIGH Register 9-3: PMADRL: Program Memory Address Low Register 9-4: PMADRH: Program Memory Address hIGH Register 9-5: PMCON1: Program Memory Control 1 Register Register 9-6: PMCON2: Program Memory Control 2 Register TABLE 9-3: Summary of Registers Associated with Flash Program Memory TABLE 9-4: Summary of cONFIGURATION wORD with Flash Program Memory 10.0 I/O Port FIGURE 10-1: I/O Port Operation EXAMPLE 10-1: Initializing PORTA 10.1 PORTA Registers TABLE 10-1: PORTA Output Priority 10.2 Register Definitions: PORTA Register 10-1: PORTA: PORTA Register Register 10-2: TRISA: PORTA Tri-State Register Register 10-3: LATA: PORTA Data Latch Register Register 10-4: ANSELA: PORTA Analog Select Register Register 10-5: WPUA: Weak Pull-UP PORTA Register TABLE 10-2: Summary of Registers Associated with PORTA 11.0 Interrupt-On-Change 11.1 Enabling the Module 11.2 Individual Pin Configuration 11.3 Interrupt Flags 11.4 Clearing Interrupt Flags EXAMPLE 11-1: Clearing Interrupt Flags 11.5 Operation in Sleep FIGURE 11-1: Interrupt-On-Change Block Diagram 11.6 Interrupt-On-Change Registers Register 11-1: IOCAP: Interrupt-on-Change PORTA Positive Edge Register Register 11-2: IOCAN: Interrupt-on-Change PORTA Negative Edge Register Register 11-3: IOCAF: Interrupt-on-Change PORTA Flag Register TABLE 11-1: Summary of Registers Associated with Interrupt-on-Change 12.0 Fixed Voltage Reference (FVR) 12.1 Independent Gain Amplifiers 12.2 FVR Stabilization Period FIGURE 12-1: Voltage Reference Block Diagram TABLE 12-1: Peripherals Requiring the Fixed Voltage Reference (FVR) 12.3 FVR Control Registers Register 12-1: FVRCON: Fixed Voltage Reference Control Register TABLE 12-2: Summary of Registers Associated with Fixed Voltage Reference 13.0 Internal Voltage Regulator (IVR) TABLE 13-1: IVR Power modes - REGULATED Register 13-1: VREGCON: Voltage Regulator Control Register 14.0 Temperature Indicator Module 14.1 Circuit Operation FIGURE 14-1: Temperature Circuit Diagram 14.2 Minimum Operating Vdd vs. Minimum Sensing Temperature TABLE 14-1: Recommended Vdd vs. Range 14.3 Temperature Output 14.4 ADC Acquisition Time TABLE 14-2: Summary of Registers Associated with the Temperature Indicator 15.0 Analog-to-Digital Converter (ADC) Module FIGURE 15-1: ADC Simplified Block Diagram 15.1 ADC Configuration TABLE 15-1: ADC Clock Period (Tad) Vs. Device Operating Frequencies FIGURE 15-2: Analog-to-Digital Conversion Tad Cycles 15.2 ADC Operation 15.3 ADC Register Definitions Register 15-1: ADCON: A/D Control Register 0 Register 15-2: ADRES: ADC Result Register 15.4 A/D Acquisition Requirements FIGURE 15-3: Analog Input Model FIGURE 15-4: ADC Transfer Function TABLE 15-2: Summary of Registers Associated with ADC 16.0 Timer0 Module 16.1 Timer0 Operation FIGURE 16-1: Block Diagram of the Timer0 Prescaler Register 16-1: OPTION_REG: OPTION Register TABLE 16-1: Summary of Registers Associated with Timer0 17.0 Timer2 Module 17.1 Timer2 Operation FIGURE 17-1: Timer2 Block Diagram Register 17-1: T2CON: Timer2 Control Register TABLE 17-1: Summary of Registers Associated With Timer2 18.0 Pulse-Width Modulation (PWM) Module FIGURE 18-1: Simplified PWM Block Diagram FIGURE 18-2: PWM Output 18.1 PWMx Pin Configuration TABLE 18-1: Example PWM Frequencies and Resolutions (Fosc = 20 MHz) TABLE 18-2: Example PWM Frequencies and Resolutions (Fosc = 8 MHz) 18.2 PWM Register Definitions Register 18-1: PWMxCON: PWM Control Register Register 18-2: PWMXDCH: PWM Duty Cycle High Bits Register 18-3: PWMxDCL: PWM Duty Cycle LOW Bits TABLE 18-3: Summary of Registers Associated with PWM 19.0 Configurable Logic Cell (CLC) FIGURE 19-1: CLCx Simplified Block Diagram 19.1 CLCx Setup TABLE 19-1: CLCx Data Input Selection TABLE 19-2: Data gating Logic 19.2 CLCx Interrupts 19.3 Effects of a Reset 19.4 Operation During Sleep FIGURE 19-2: Input Data Selection and Gating FIGURE 19-3: Programmable Logic Functions 19.5 CLC Control Registers Register 19-1: CLCxCON: Configurable Logic CELL Control Register Register 19-2: CLCxPOL: Signal Polarity Control Register Register 19-3: CLCxSEL0: MULTIPLEXER DATA 1 and 2 SELECT Register Register 19-4: CLCxSEL1: MULTIPLEXER DATA 3 and 4 SELECT Register Register 19-5: CLCxGLS0: Gate 1 Logic Select Register Register 19-6: CLCxGLS1: Gate 2 Logic Select Register Register 19-7: CLCxGLS2: Gate 3 Logic Select Register Register 19-8: CLCxGLS3: Gate 4 Logic Select Register TABLE 19-3: Summary Of Registers Associated With CLCx 20.0 Numerically Controlled Oscillator (NCO) Module FIGURE 20-1: Numerically Controlled Oscillator (NCOx) Module Simplified Block Diagram 20.1 NCOx OPERATION 20.2 FIXED DUTY CYCLE (FDC) MODE 20.3 PULSE FREQUENCY (PF) MODE 20.4 OUTPUT POLARITY CONTROL FIGURE 20-2: NCO – Fixed Duty Cycle (FDC) and Pulse Frequency Mode (PFM) Output Operation Diagram 20.5 Interrupts 20.6 Effects of a Reset 20.7 Operation In Sleep 20.8 NCOx Control Registers Register 20-1: NCOxCON: NCOx Control Register Register 20-2: NCOxCLK: NCOx Input Clock Control Register Register 20-3: NCOxACCL: NCOx Accumulator Register – Low Byte Register 20-4: NCOxACCH: NCOx Accumulator Register – High Byte Register 20-5: NCOxACCU: NCOx Accumulator Register – Upper Byte Register 20-6: NCOxINCL: NCOx Increment Register – Low Byte Register 20-7: NCOxINCH: NCOx Increment Register – High Byte TABLE 20-1: Summary of Registers Associated with NCOx 21.0 Complementary Waveform Generator (CWG) Module FIGURE 21-1: CWG Block Diagram FIGURE 21-2: Typical CWG Operation with PWM1 (no Auto-shutdown) 21.1 Fundamental Operation 21.2 Clock Source 21.3 Selectable Input Sources 21.4 Output Control 21.5 Dead-Band Control 21.6 Rising Edge Dead Band 21.7 Falling Edge Dead Band 21.8 Dead-Band Uncertainty FIGURE 21-3: Dead-band Operation, CWGxDBR = 01H, CWGxDBF = 02H FIGURE 21-4: Dead-band Operation, CWGxDBR = 03H, CWGxDBF = 04H, Source shorter than dead band EXAMPLE 21-1: Dead-band Delay time Uncertainty 21.9 Auto-shutdown Control 21.10 Operation During Sleep 21.11 Configuring the CWG FIGURE 21-5: SHUTDOWN Functionality, Auto-restart Disabled (GxARSEN = 0) FIGURE 21-6: SHUTDOWN Functionality, Auto-restart Enabled (GxARSEN = 1) 21.12 CWG Control Registers Register 21-1: CWGxCON0: CWG Control Register 0 Register 21-2: CWGxCON1: CWG Control Register 1 Register 21-3: CWGXCON2: CWG Control Register 2 Register 21-4: CWGxDBR: Complementary Waveform Generator (CWGx) Rising Dead-band Count Register Register 21-5: CWGxdbf: Complementary Waveform Generator (CWGx) Falling Dead-band Count Register TABLE 21-1: Summary of Registers Associated with CWG 22.0 In-Circuit Serial Programming™ (ICSP™) 22.1 High-Voltage Programming Entry Mode 22.2 Low-Voltage Programming Entry Mode 22.3 Common Programming Interfaces FIGURE 22-1: ICD RJ-11 Style Connector Interface FIGURE 22-2: PICkit™ Style Connector Interface FIGURE 22-3: Typical connection for ICSP™ programming 23.0 Instruction Set Summary 23.1 Read-Modify-Write Operations TABLE 23-1: Opcode Field Descriptions FIGURE 23-1: General Format for Instructions TABLE 23-2: Instruction Set 23.2 Instruction Descriptions 24.0 Electrical Specifications 24.1 Absolute Maximum Ratings(†) 24.2 Standard Operating Conditions FIGURE 24-1: PIC10F320/322 Voltage Frequency Graph, -40°C £ Ta £ +125°C FIGURE 24-2: PIC10LF320/322 Voltage Frequency Graph, -40°C £ Ta £ +125°C 24.3 DC Characteristics TABLE 24-1: Supply Voltage FIGURE 24-3: POR and POR Rearm with Slow Rising Vdd TABLE 24-2: Supply Voltage (Idd)(1,2) TABLE 24-3: Power-Down Currents (Ipd)(1,2) TABLE 24-4: I/O Ports TABLE 24-5: Memory Programming Requirements 24.4 Thermal Considerations 24.5 AC Characteristics FIGURE 24-4: Load Conditions FIGURE 24-5: Clock Timing TABLE 24-6: Clock Oscillator Timing Requirements TABLE 24-7: Oscillator Parameters FIGURE 24-6: HFINTOSC Frequency Accuracy Over Device Vdd and Temperature FIGURE 24-7: CLKR and I/O Timing TABLE 24-8: CLKR and I/O Timing Parameters FIGURE 24-8: Reset, Watchdog Timer, and Power-up Timer Timing FIGURE 24-9: Brown-Out Reset Timing and Characteristics TABLE 24-9: Reset, Watchdog Timer, Power-up Timer and Brown-Out Reset Parameters FIGURE 24-10: Timer0 and Timer1 External Clock Timings TABLE 24-10: Timer0 External Clock Requirements FIGURE 24-11: CLC Propagation Timing TABLE 24-11: Configuration Logic Cell (CLC) Characteristics TABLE 24-12: A/D Converter (ADC) Characteristics: TABLE 24-13: A/D Conversion Requirements FIGURE 24-12: A/D Conversion Timing (Normal Mode) FIGURE 24-13: A/D Conversion Timing (Sleep Mode) 25.0 DC and AC Characteristics Graphs and Charts 26.0 Development Support 26.1 MPLAB X Integrated Development Environment Software 26.2 MPLAB XC Compilers 26.3 MPASM Assembler 26.4 MPLINK Object Linker/ MPLIB Object Librarian 26.5 MPLAB Assembler, Linker and Librarian for Various Device Families 26.6 MPLAB X SIM Software Simulator 26.7 MPLAB REAL ICE In-Circuit Emulator System 26.8 MPLAB ICD 3 In-Circuit Debugger System 26.9 PICkit 3 In-Circuit Debugger/ Programmer 26.10 MPLAB PM3 Device Programmer 26.11 Demonstration/Development Boards, Evaluation Kits, and Starter Kits 26.12 Third-Party Development Tools 27.0 Packaging Information 27.1 Package Marking Information TABLE 27-1: 8-Lead 2X3 dfn (mc) tOP Marking TABLE 27-2: 6-Lead SOT-23 (OT) Package Top Marking 27.2 Package Details Appendix A: Data Sheet Revision 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