Datasheet
Table Of Contents
- Power Management Features:
- Flexible Oscillator Structure:
- Peripheral Highlights:
- Peripheral Highlights (Continued):
- Special Microcontroller Features:
- Pin Diagrams
- Pin Diagrams (Cont.’d)
- Table of Contents
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 Device Overview
- 2.0 Oscillator Configurations
- 3.0 Power-Managed Modes
- 4.0 Reset
- 4.1 RCON Register
- 4.2 Master Clear (MCLR)
- 4.3 Power-on Reset (POR)
- 4.4 Brown-out Reset (BOR)
- 4.5 Device Reset Timers
- 4.5.1 Power-up Timer (PWRT)
- 4.5.2 Oscillator Start-up Timer (OST)
- 4.5.3 PLL Lock Time-out
- 4.5.4 Time-out Sequence
- TABLE 4-2: Time-out in Various Situations
- FIGURE 4-3: Time-out Sequence on Power-up (MCLR Tied to Vdd, Vdd Rise < Tpwrt)
- FIGURE 4-4: Time-out Sequence on Power-up (MCLR Not Tied to Vdd): Case 1
- FIGURE 4-5: Time-out Sequence on Power-up (MCLR Not Tied to Vdd): Case 2
- FIGURE 4-6: Slow Rise Time (MCLR Tied to Vdd, Vdd Rise > Tpwrt)
- FIGURE 4-7: Time-out Sequence on POR w/PLL Enabled (MCLR Tied to Vdd)
- 4.6 Reset State of Registers
- 5.0 Memory Organization
- 5.1 Program Memory Organization
- 5.2 PIC18 Instruction Cycle
- 5.3 Data Memory Organization
- 5.4 Data Addressing Modes
- 5.5 Data Memory and the Extended Instruction Set
- 5.6 PIC18 Instruction Execution and the Extended Instruction Set
- 6.0 Data EEPROM Memory
- 7.0 Flash Program Memory
- 7.1 Table Reads and Table Writes
- 7.2 Control Registers
- 7.3 Reading the Flash Program Memory
- 7.4 Erasing Flash Program Memory
- 7.5 Writing to Flash Program Memory
- 7.6 Flash Program Operation During Code Protection
- 8.0 8 X 8 Hardware Multiplier
- 8.1 Introduction
- 8.2 Operation
- EXAMPLE 8-1: 8 x 8 Unsigned Multiply Routine
- EXAMPLE 8-2: 8 x 8 Signed Multiply Routine
- TABLE 8-1: Performance Comparison for Various Multiply Operations
- EQUATION 8-1: 16 x 16 Unsigned Multiplication Algorithm
- EXAMPLE 8-3: 16 x 16 Unsigned Multiply Routine
- EQUATION 8-2: 16 x 16 Signed Multiplication Algorithm
- EXAMPLE 8-4: 16 x 16 Signed Multiply Routine
- 9.0 I/O Ports
- 10.0 Interrupts
- 11.0 Timer0 Module
- 12.0 Timer1 Module
- 13.0 Timer2 Module
- 14.0 Timer3 Module
- 15.0 Capture/Compare/PWM (CCP) Modules
- Register 15-1: CCPxCON: CCPx Control Register (28-Pin Devices)
- 15.1 CCP Module Configuration
- 15.2 Capture Mode
- 15.3 Compare Mode
- 15.4 PWM Mode
- 16.0 Enhanced Capture/ Compare/PWM (ECCP) Module
- Register 16-1: CCP1CON: ECCP Control Register (40/44-Pin Devices)
- 16.1 ECCP Outputs and Configuration
- 16.2 Capture and Compare Modes
- 16.3 Standard PWM Mode
- 16.4 Enhanced PWM Mode
- 16.4.1 PWM Period
- 16.4.2 PWM Duty Cycle
- 16.4.3 PWM Output Configurations
- 16.4.4 Half-Bridge Mode
- 16.4.5 Full-Bridge Mode
- 16.4.6 Programmable Dead-Band Delay
- 16.4.7 Enhanced PWM Auto-Shutdown
- 16.4.8 Start-up Considerations
- 16.4.9 Setup for PWM Operation
- 16.4.10 Operation in Power-Managed Modes
- 16.4.11 Effects of a Reset
- 17.0 Master Synchronous Serial Port (MSSP) Module
- 17.1 Master SSP (MSSP) Module Overview
- 17.2 Control Registers
- 17.3 SPI Mode
- 17.4 I2C Mode
- FIGURE 17-7: MSSP Block Diagram (I2C™ Mode)
- 17.4.1 Registers
- 17.4.2 Operation
- 17.4.3 Slave Mode
- 17.4.4 Clock Stretching
- 17.4.5 General Call Address Support
- 17.4.6 Master Mode
- 17.4.7 Baud Rate
- 17.4.8 I2C Master Mode Start Condition Timing
- 17.4.9 I2C Master Mode Repeated Start Condition Timing
- 17.4.10 I2C Master Mode Transmission
- 17.4.11 I2C Master Mode Reception
- 17.4.12 Acknowledge Sequence Timing
- 17.4.13 Stop Condition Timing
- 17.4.14 Sleep Operation
- 17.4.15 Effects of a Reset
- 17.4.16 Multi-Master Mode
- 17.4.17 Multi -Master Communication, Bus Collision and Bus Arbitration
- FIGURE 17-25: Bus Collision Timing for Transmit and Acknowledge
- FIGURE 17-26: Bus Collision During Start Condition (SDA Only)
- FIGURE 17-27: Bus Collision During Start Condition (SCL = 0)
- FIGURE 17-28: BRG Reset Due to SDA Arbitration During Start Condition
- FIGURE 17-29: Bus Collision During a Repeated Start Condition (Case 1)
- FIGURE 17-30: Bus Collision During Repeated Start Condition (Case 2)
- FIGURE 17-31: Bus Collision During a Stop Condition (Case 1)
- FIGURE 17-32: Bus Collision During a Stop Condition (Case 2)
- 18.0 Enhanced Universal Synchronous Receiver Transmitter (EUSART)
- Register 18-1: TXSTA: Transmit Status And Control Register
- Register 18-2: RCSTA: Receive Status And Control Register
- Register 18-3: BAUDCON: Baud Rate Control Register
- 18.1 Baud Rate Generator (BRG)
- 18.2 EUSART Asynchronous Mode
- 18.3 EUSART Synchronous Master Mode
- 18.4 EUSART Synchronous Slave Mode
- 19.0 10-Bit Analog-to-Digital Converter (A/D) Module
- Register 19-1: ADCON0: A/D Control Register 0
- Register 19-2: ADCON1: A/D Control Register 1
- Register 19-3: ADCON2: A/D Control Register 2
- FIGURE 19-1: A/D Block Diagram
- FIGURE 19-2: A/D Transfer Function
- FIGURE 19-3: Analog Input Model
- 19.1 A/D Acquisition Requirements
- 19.2 Selecting and Configuring Acquisition Time
- 19.3 Selecting the A/D Conversion Clock
- 19.4 Operation in Power-Managed Modes
- 19.5 Configuring Analog Port Pins
- 19.6 A/D Conversions
- 19.7 Discharge
- 19.8 Use of the CCP2 Trigger
- 20.0 Comparator Module
- Register 20-1: CMCON: Comparator Control Register
- 20.1 Comparator Configuration
- 20.2 Comparator Operation
- 20.3 Comparator Reference
- 20.4 Comparator Response Time
- 20.5 Comparator Outputs
- 20.6 Comparator Interrupts
- 20.7 Comparator Operation During Sleep
- 20.8 Effects of a Reset
- 20.9 Analog Input Connection Considerations
- 21.0 Comparator Voltage Reference Module
- 22.0 High/Low-Voltage Detect (HLVD)
- 23.0 Special Features of the CPU
- 23.1 Configuration Bits
- TABLE 23-1: Configuration Bits and Device IDs
- Register 23-1: CONFIG1h: Configuration Register 1 High (Byte Address 300001h)
- Register 23-2: CONFIG2L: Configuration Register 2 Low (Byte Address 300002h)
- Register 23-3: CONFIG2H: Configuration Register 2 High (Byte Address 300003h)
- Register 23-4: CONFIG3H: Configuration Register 3 High (Byte Address 300005h)
- Register 23-5: CONFIG4L: Configuration Register 4 Low (Byte Address 300006h)
- Register 23-6: CONFIG5L: Configuration Register 5 Low (Byte Address 300008h)
- Register 23-7: CONFIG5H: Configuration Register 5 High (Byte Address 300009h)
- Register 23-8: CONFIG6L: Configuration Register 6 Low (Byte Address 30000Ah)
- Register 23-9: CONFIG6H: Configuration Register 6 High (Byte Address 30000Bh)
- Register 23-10: CONFIG7L: Configuration Register 7 Low (Byte Address 30000Ch)
- Register 23-11: CONFIG7H: Configuration Register 7 High (Byte Address 30000Dh)
- Register 23-12: DEVID1: Device ID Register 1 for PIC18F2525/2620/4525/4620
- Register 23-13: DEVID2: Device ID Register 2 for PIC18F2525/2620/4525/4620
- 23.2 Watchdog Timer (WDT)
- 23.3 Two-Speed Start-up
- 23.4 Fail-Safe Clock Monitor
- 23.5 Program Verification and Code Protection
- 23.6 ID Locations
- 23.7 In-Circuit Serial Programming
- 23.8 In-Circuit Debugger
- 23.9 Single-Supply ICSP Programming
- 23.1 Configuration Bits
- 24.0 Instruction Set Summary
- 24.1 Standard Instruction Set
- 24.2 Extended Instruction Set
- 25.0 Development Support
- 25.1 MPLAB Integrated Development Environment Software
- 25.2 MPASM Assembler
- 25.3 MPLAB C18 and MPLAB C30 C Compilers
- 25.4 MPLINK Object Linker/ MPLIB Object Librarian
- 25.5 MPLAB ASM30 Assembler, Linker and Librarian
- 25.6 MPLAB SIM Software Simulator
- 25.7 MPLAB ICE 2000 High-Performance In-Circuit Emulator
- 25.8 MPLAB REAL ICE In-Circuit Emulator System
- 25.9 MPLAB ICD 2 In-Circuit Debugger
- 25.10 MPLAB PM3 Device Programmer
- 25.11 PICSTART Plus Development Programmer
- 25.12 PICkit 2 Development Programmer
- 25.13 Demonstration, Development and Evaluation Boards
- 26.0 Electrical Characteristics
- Absolute Maximum Ratings(†)
- 26.1 DC Characteristics: Supply Voltage PIC18F2525/2620/4525/4620 (Industrial) PIC18LF2525/2620/4525/4620 (Industrial)
- 26.2 DC Characteristics: Power-Down and Supply Current PIC18F2525/2620/4525/4620 (Industrial) PIC18LF2525/2620/4525/4620 (Industrial)
- 26.3 DC Characteristics: PIC18F2525/2620/4525/4620 (Industrial) PIC18LF2525/2620/4525/4620 (Industrial)
- 26.4 AC (Timing) Characteristics
- 26.4.1 Timing Parameter Symbology
- 26.4.2 Timing Conditions
- 26.4.3 Timing Diagrams and Specifications
- FIGURE 26-6: External Clock Timing (All Modes Except PLL)
- TABLE 26-6: External Clock Timing Requirements
- TABLE 26-7: PLL Clock Timing Specifications (Vdd = 4.2V to 5.5V)
- TABLE 26-8: AC Characteristics: Internal RC Accuracy PIC18F2525/2620/4525/4620 (Industrial) PIC18LF2525/2620/4525/4620 (Industrial)
- FIGURE 26-7: CLKO and I/O Timing
- TABLE 26-9: CLKO and I/O Timing Requirements
- FIGURE 26-8: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing
- FIGURE 26-9: Brown-out Reset Timing
- TABLE 26-10: Reset, Watchdog Timer, Oscillator Start-up Timer, Power-up Timer and Brown-out Reset Requirements
- FIGURE 26-10: Timer0 and Timer1 External Clock Timings
- TABLE 26-11: Timer0 and Timer1 External Clock Requirements
- FIGURE 26-11: Capture/Compare/PWM Timings (All CCP Modules)
- TABLE 26-12: Capture/Compare/PWM Requirements (All CCP Modules)
- FIGURE 26-12: Parallel Slave Port Timing (PIC18F4525/4620)
- TABLE 26-13: Parallel Slave Port Requirements (PIC18F4525/4620)
- FIGURE 26-13: Example SPI Master Mode Timing (CKE = 0)
- TABLE 26-14: Example SPI Mode Requirements (Master Mode, CKE = 0)
- FIGURE 26-14: Example SPI Master Mode Timing (CKE = 1)
- TABLE 26-15: Example SPI Mode Requirements (Master Mode, CKE = 1)
- FIGURE 26-15: Example Spi Slave Mode Timing (CKE = 0)
- TABLE 26-16: Example SPI Mode Requirements (Slave Mode Timing, CKE = 0)
- FIGURE 26-16: Example SPI Slave Mode Timing (CKE = 1)
- TABLE 26-17: Example SPI Slave Mode Requirements (CKE = 1)
- FIGURE 26-17: I2C™ Bus Start/Stop Bits Timing
- TABLE 26-18: I2C™ Bus Start/Stop Bits Requirements (Slave Mode)
- FIGURE 26-18: I2C™ Bus Data Timing
- TABLE 26-19: I2C™ Bus Data Requirements (Slave Mode)
- FIGURE 26-19: Master SSP I2C™ Bus Start/Stop Bits Timing Waveforms
- TABLE 26-20: Master SSP I2C™ Bus Start/Stop Bits Requirements
- FIGURE 26-20: Master SSP I2C™ Bus Data Timing
- TABLE 26-21: Master SSP I2C™ Bus Data Requirements
- FIGURE 26-21: EUSART Synchronous Transmission (Master/Slave) Timing
- TABLE 26-22: EUSART Synchronous Transmission Requirements
- FIGURE 26-22: EUSART Synchronous Receive (Master/Slave) Timing
- TABLE 26-23: EUSART Synchronous Receive Requirements
- TABLE 26-24: A/D Converter Characteristics: PIC18F2525/2620/4525/4620 (Industrial) PIC18LF2525/2620/4525/4620 (Industrial)
- FIGURE 26-23: A/D Conversion Timing
- TABLE 26-25: A/D Conversion Requirements
- 27.0 DC and AC Characteristics Graphs and Tables
- FIGURE 27-1: Sleep Mode
- FIGURE 27-2: Typical Ipd vs. Vdd Across Temperature (Sleep Mode)
- FIGURE 27-3: Maximum Ipd vs. Vdd Across Temperature (Sleep Mode)
- FIGURE 27-4: Typical T1OSC Delta Current vs. Vdd Across Temp. (Device in Sleep, T1OSC in Low-Power Mode)
- FIGURE 27-5: Maximum T1OSC Delta Current vs. Vdd Across Temp. (Device in Sleep, TIOSC in Low-Power Mode)
- FIGURE 27-6: Typical T1OSC Delta Current vs. Vdd Across Temp. (Device in Sleep, T1OSC in High-Power Mode)
- FIGURE 27-7: Maximum T1OSC Delta Current vs. Vdd Across Temp. (Device in Sleep, T1OSC in High-Power Mode)
- FIGURE 27-8: Typical BOR Delta Current vs. Vdd Across Temp. (BORV = 2.7V, Sleep Mode)
- FIGURE 27-9: Typical WDT Current vs. Vdd Across Temperature (WDT Delta Current in Sleep Mode)
- FIGURE 27-10: Maximum WDT Current vs. Vdd Across Temperature (WDT Delta Current in Sleep Mode)
- FIGURE 27-11: Typical Idd Across Vdd (RC_RUN Mode, 25°C)
- FIGURE 27-12: Maximum Idd Across Vdd (RC_RUN Mode, 85°C)
- FIGURE 27-13: Typical and Maximum Idd Across Vdd (RC_RUN Mode, 31 kHz)
- FIGURE 27-14: Typical Idd Across Vdd (RC_IDLE Mode, 25°C)
- FIGURE 27-15: Maximum Idd Across Vdd (RC_IDLE Mode, -40°C-85°C)
- FIGURE 27-16: Typical and Maximum Idd Across Vdd (RC_IDLE Mode, 31 kHz)
- FIGURE 27-17: Typical and Maximum SEC_RUN Current vs. Vdd Across Temperature (T1OSC in Low-Power Mode)
- FIGURE 27-18: Typical and Maximum SEC_IDLE Current vs. Vdd Across Temperature (T1OSC in Low-Power Mode)
- FIGURE 27-19: Typical Idd vs. Fosc, 500 kHz to 4 MHz (PRI_RUN Mode (EC Clock), 25°C)
- FIGURE 27-20: Maximum Idd vs. Fosc, 500 kHz to 4 MHz (PRI_RUN Mode (EC Clock), -40°C to +125°C)
- FIGURE 27-21: Typical Idd vs. Fosc, 4 MHz to 40 MHz (PRI_RUN Mode (EC Clock), 25°C)
- FIGURE 27-22: Maximum Idd vs. Fosc, 4 MHz to 40 MHz (PRI_RUN Mode (EC Clock), -40°C to +125°C)
- FIGURE 27-23: Typical Idd vs. Fosc, HS/PLL (PRI_RUN Mode, 25°C)
- FIGURE 27-24: Maximum Idd vs. Fosc, HS/PLL (PRI_RUN Mode, -40°C)
- FIGURE 27-25: Typical Idd vs. Fosc, 500 kHz to 4 MHz (PRI_IDLE Mode, 25°C)
- FIGURE 27-26: Maximum Idd vs. Fosc, 500 kHz to 4 MHz (PRI_IDLE Mode, -40°C to +125°C)
- FIGURE 27-27: Typical Idd vs. Fosc, 4 MHz to 40 MHz (PRI_IDLE Mode, 25°C)
- FIGURE 27-28: Maximum Idd vs. Fosc, 4 MHz to 40 MHz (PRI_IDLE Mode, -40°C to +125°C)
- FIGURE 27-29: Typical Idd vs. Fosc, HS/PLL (PRI_IDLE Mode, 25°C)
- FIGURE 27-30: Maximum Idd vs. Fosc, HS/PLL (PRI_IDLE Mode, -40°C)
- FIGURE 27-31: Vin (ST) vs. Vdd, 25°C (-40°C to +125°C)
- FIGURE 27-32: Vin (TTL) vs. Vdd, 25°C (-40°C to +125°C)
- FIGURE 27-33: Vol vs. Iol (Vdd = 3.0V, -40°C to +85°C)
- FIGURE 27-34: Vol vs. Iol (Vdd = 5.0V, -40°C to +125°C)
- FIGURE 27-35: Voh vs. Ioh (Vdd = 3.0V, -40°C to +85°C)
- FIGURE 27-36: Voh vs. Ioh (Vdd = 5.0V, -40°C to +125°C)
- FIGURE 27-37: INTOSC Frequency vs. Vdd, Temperature (-40°C, +25°C, +85°C, +125°C)
- FIGURE 27-38: INTRC vs. Vdd Across Temperature (-40°C to +125°C)
- FIGURE 27-39: WDT Period vs. Vdd Across Temperature (1:1 Postscaler, -40°C to +125°C)
- 28.0 Packaging Information
- Appendix A: Revision History
- Appendix B: Device Differences
- Appendix C: Conversion Considerations
- Appendix D: Migration from Baseline to Enhanced Devices
- Appendix E: Migration from Mid-Range TO Enhanced Devices
- Appendix F: Migration from High-End to Enhanced Devices
- INDEX
- Worldwide Sales and Service
DS39626E-page 410 © 2008 Microchip Technology Inc.
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