Datasheet
Table Of Contents
- Low-Power Features:
- LCD Driver Module Features:
- Special Microcontroller Features:
- Flexible Oscillator Structure:
- Peripheral Highlights:
- Pin Diagrams
- Pin Diagrams (Continued)
- Table of Contents
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 Device Overview
- 1.1 Core Features
- 1.2 LCD Driver
- 1.3 Other Special Features
- 1.4 Details on Individual Family Members
- TABLE 1-1: Device Features for the PIC18F85J90 family (64-pin Devices)
- TABLE 1-2: Device Features for the PIC18F85J90 family (80-pin Devices)
- FIGURE 1-1: PIC18F6XJ90 (64-pin) Block Diagram
- FIGURE 1-2: PIC18F8XJ90 (80-pin) Block Diagram
- TABLE 1-3: PIC18F6XJ90 Pinout I/O Descriptions
- TABLE 1-4: PIC18F8XJ90 Pinout I/O Descriptions
- 2.0 Guidelines for Getting Started with PIC18FJ Microcontrollers
- 3.0 Oscillator Configurations
- 3.1 Oscillator Types
- 3.2 Control Registers
- 3.3 Clock Sources and Oscillator Switching
- 3.4 External Oscillator Modes
- 3.5 Internal Oscillator Block
- 3.6 Effects of Power-Managed Modes on the Various Clock Sources
- 3.7 Power-up Delays
- 4.0 Power-Managed Modes
- 5.0 Reset
- 6.0 Memory Organization
- 6.1 Program Memory Organization
- 6.2 PIC18 Instruction Cycle
- 6.3 Data Memory Organization
- 6.4 Data Addressing Modes
- 6.5 Program Memory and the Extended Instruction Set
- 6.6 Data Memory and the Extended Instruction Set
- 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 Interrupts
- 10.0 I/O Ports
- FIGURE 10-1: Generic I/O Port Operation
- 10.1 I/O Port Pin Capabilities
- 10.2 PORTA, TRISA and LATA Registers
- 10.3 PORTB, TRISB and LATB Registers
- 10.4 PORTC, TRISC and LATC Registers
- 10.5 PORTD, TRISD and LATD Registers
- 10.6 PORTE, TRISE and LATE Registers
- 10.7 PORTF, LATF and TRISF Registers
- 10.8 PORTG, TRISG and LATG Registers
- 10.9 PORTH, LATH and TRISH Registers
- 10.10 PORTJ, TRISJ and LATJ Registers
- 11.0 Timer0 Module
- 12.0 Timer1 Module
- 13.0 Timer2 Module
- 14.0 Timer3 Module
- 15.0 Capture/Compare/PWM (CCP) Modules
- 16.0 Liquid Crystal Display (LCD) Driver Module
- FIGURE 16-1: LCD Driver Module Block Diagram
- 16.1 LCD Registers
- 16.2 LCD Clock Source
- 16.3 LCD Bias Generation
- 16.4 LCD Multiplex Types
- 16.5 Segment Enables
- 16.6 Pixel Control
- 16.7 LCD Frame Frequency
- 16.8 LCD Waveform Generation
- FIGURE 16-6: Type-A/Type-B Waveforms in Static Drive
- FIGURE 16-7: Type-A Waveforms in 1/2 MUX, 1/2 Bias Drive
- FIGURE 16-8: Type-B Waveforms in 1/2 MUX, 1/2 Bias Drive
- FIGURE 16-9: Type-A Waveforms in 1/2 MUX, 1/3 Bias Drive
- FIGURE 16-10: Type-B Waveforms in 1/2 MUX, 1/3 Bias Drive
- FIGURE 16-11: Type-A Waveforms in 1/3 MUX, 1/2 Bias Drive
- FIGURE 16-12: Type-B Waveforms in 1/3 MUX, 1/2 Bias Drive
- FIGURE 16-13: Type-A Waveforms in 1/3 MUX, 1/3 Bias Drive
- FIGURE 16-14: Type-B Waveforms in 1/3 MUX, 1/3 Bias Drive
- FIGURE 16-15: Type-A Waveforms in 1/4 MUX, 1/3 Bias Drive
- FIGURE 16-16: Type-B Waveforms in 1/4 MUX, 1/3 Bias Drive
- 16.9 LCD Interrupts
- 16.10 Operation During Sleep
- 16.11 Configuring the LCD Module
- 17.0 Master Synchronous Serial Port (MSSP) Module
- 17.1 Master SSP (MSSP) Module Overview
- 17.2 Control Registers
- 17.3 SPI Mode
- FIGURE 17-1: MSSP Block Diagram (SPI Mode)
- 17.3.1 Registers
- 17.3.2 Operation
- 17.3.3 Enabling SPI I/O
- 17.3.4 Open-Drain Output Option
- 17.3.5 Typical Connection
- 17.3.6 Master Mode
- 17.3.7 Slave Mode
- 17.3.8 Slave Select Synchronization
- 17.3.9 Operation in Power-Managed Modes
- 17.3.10 Effects of a Reset
- 17.3.11 Bus Mode Compatibility
- 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
- EXAMPLE 17-2: Address Masking Examples
- FIGURE 17-8: I2C™ Slave Mode Timing with SEN = 0 (Reception, 7-bit Address)
- FIGURE 17-9: I2C™ Slave Mode Timing with SEN = 0 and ADMSK<5:1> = 01011 (Reception, 7-bit Address)
- FIGURE 17-10: I2C™ Slave Mode Timing (Transmission, 7-bit Address)
- FIGURE 17-11: I2C™ Slave Mode Timing with SEN = 0 (Reception, 10-bit Address)
- FIGURE 17-12: I2C™ Slave Mode Timing with SEN = 0 and ADMSK<5:1> = 01001 (Reception, 10-bit Address)
- FIGURE 17-13: I2C™ Slave Mode Timing (Transmission, 10-bit Address)
- 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 17-27: Bus Collision Timing for Transmit and Acknowledge
- FIGURE 17-28: Bus Collision During Start Condition (SDA Only)
- FIGURE 17-29: Bus Collision During Start Condition (SCL = 0)
- FIGURE 17-30: BRG Reset Due to SDA Arbitration During Start Condition
- FIGURE 17-31: Bus Collision During a Repeated Start Condition (Case 1)
- FIGURE 17-32: Bus Collision During Repeated Start Condition (Case 2)
- FIGURE 17-33: Bus Collision During a Stop Condition (Case 1)
- FIGURE 17-34: Bus Collision During a Stop Condition (Case 2)
- TABLE 17-4: Registers Associated with I2C™ Operation
- 18.0 Enhanced Universal Synchronous Asynchronous Receiver Transmitter (EUSART)
- 18.1 Control Registers
- 18.2 EUSART Baud Rate Generator (BRG)
- 18.3 EUSART Asynchronous Mode
- 18.4 EUSART Synchronous Master Mode
- 18.5 EUSART Synchronous Slave Mode
- 19.0 Addressable Universal Synchronous Asynchronous Receiver Transmitter (AUSART)
- 19.1 Control Registers
- 19.2 AUSART Baud Rate Generator (BRG)
- 19.3 AUSART Asynchronous Mode
- 19.4 AUSART Synchronous Master Mode
- 19.5 AUSART Synchronous Slave Mode
- 20.0 10-bit Analog-to-Digital Converter (A/D) Module
- Register 20-1: ADCON0: A/D Control Register 0
- Register 20-2: ADCON1: A/D Control Register 1
- Register 20-3: ADCON2: A/D Control Register 2
- FIGURE 20-1: A/D Block Diagram(1,2)
- FIGURE 20-2: Analog Input Model
- 20.1 A/D Acquisition Requirements
- 20.2 Selecting and Configuring Automatic Acquisition Time
- 20.3 Selecting the A/D Conversion Clock
- 20.4 Configuring Analog Port Pins
- 20.5 A/D Conversions
- 20.6 Use of the CCP2 Trigger
- 20.7 A/D Converter Calibration
- 20.8 Operation in Power-Managed Modes
- 21.0 Comparator Module
- Register 21-1: CMCON: Comparator Module Control Register
- 21.1 Comparator Configuration
- 21.2 Comparator Operation
- 21.3 Comparator Reference
- 21.4 Comparator Response Time
- 21.5 Comparator Outputs
- 21.6 Comparator Interrupts
- 21.7 Comparator Operation During Sleep
- 21.8 Effects of a Reset
- 21.9 Analog Input Connection Considerations
- 22.0 Comparator Voltage Reference Module
- 23.0 Special Features of the CPU
- 23.1 Configuration Bits
- 23.1.1 Considerations for Configuring the PIC18F85J90 family Devices
- TABLE 23-1: Mapping of the Flash Configuration Words to the Configuration Registers
- TABLE 23-2: Configuration Bits and Device IDs
- Register 23-1: CONFIG1L: Configuration Register 1 Low (Byte Address 300000h)
- Register 23-2: CONFIG1H: Configuration Register 1 High (Byte Address 300001h)
- Register 23-3: CONFIG2L: Configuration Register 2 Low (Byte Address 300002h)
- Register 23-4: CONFIG2H: Configuration Register 2 High (Byte Address 300003h)
- Register 23-5: CONFIG3H: Configuration Register 3 High (Byte Address 300005h)
- Register 23-6: DEVID1: Device ID Register 1 for PIC18F85J90 family Devices
- Register 23-7: DEVID2: Device ID Register 2 for PIC18F85J90 family Devices
- 23.1.1 Considerations for Configuring the PIC18F85J90 family Devices
- 23.2 Watchdog Timer (WDT)
- 23.3 On-Chip Voltage Regulator
- 23.4 Two-Speed Start-up
- 23.5 Fail-Safe Clock Monitor
- 23.6 Program Verification and Code Protection
- 23.7 In-Circuit Serial Programming
- 23.8 In-Circuit Debugger
- 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 MPLAB C Compilers for Various Device Families
- 25.3 HI-TECH C for Various Device Families
- 25.4 MPASM Assembler
- 25.5 MPLINK Object Linker/ MPLIB Object Librarian
- 25.6 MPLAB Assembler, Linker and Librarian for Various Device Families
- 25.7 MPLAB SIM Software Simulator
- 25.8 MPLAB REAL ICE In-Circuit Emulator System
- 25.9 MPLAB ICD 3 In-Circuit Debugger System
- 25.10 PICkit 3 In-Circuit Debugger/ Programmer and PICkit 3 Debug Express
- 25.11 PICkit 2 Development Programmer/Debugger and PICkit 2 Debug Express
- 25.12 MPLAB PM3 Device Programmer
- 25.13 Demonstration/Development Boards, Evaluation Kits, and Starter Kits
- 26.0 Electrical Characteristics
- Absolute Maximum Ratings(†)
- 26.1 DC Characteristics: Supply Voltage PIC18F85J90 Family (Industrial)
- 26.2 DC Characteristics: Power-Down and Supply Current PIC18F85J90 Family (Industrial)
- 26.3 DC Characteristics: PIC18F84J90 Family (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 26-4: External Clock Timing
- TABLE 26-7: External Clock Timing Requirements
- TABLE 26-8: PLL Clock Timing Specifications (Vdd = 2.15V to 3.6V)
- TABLE 26-9: Internal RC Accuracy (INTOSC and INTRC Sources)
- FIGURE 26-5: CLKO and I/O Timing
- TABLE 26-10: CLKO and I/O Timing Requirements
- FIGURE 26-6: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing
- TABLE 26-11: Reset, Watchdog Timer, Oscillator Start-up Timer, Power-up Timer and Brown-out Reset Requirements
- FIGURE 26-7: Timer0 and Timer1 External Clock Timings
- TABLE 26-12: Timer0 and Timer1 External Clock Requirements
- FIGURE 26-8: Capture/Compare/PWM Timings (CCP1, CCP2 Modules)
- TABLE 26-13: Capture/Compare/PWM Requirements (CCP1, CCP2 Modules)
- FIGURE 26-9: Example SPI Master Mode Timing (CKE = 0)
- TABLE 26-14: Example SPI Mode Requirements (Master Mode, Cke = 0)
- FIGURE 26-10: Example SPI Master Mode Timing (CKE = 1)
- TABLE 26-15: Example SPI Mode Requirements (Master Mode, CKE = 1)
- FIGURE 26-11: Example SPI Slave Mode Timing (CKE = 0)
- TABLE 26-16: Example SPI Mode Requirements (Slave Mode Timing, CKE = 0)
- FIGURE 26-12: Example SPI Slave Mode Timing (CKE = 1)
- TABLE 26-17: Example SPI Slave Mode Requirements (CKE = 1)
- FIGURE 26-13: I2C™ Bus Start/Stop Bits Timing
- TABLE 26-18: I2C™ Bus Start/Stop Bits Requirements (Slave Mode)
- FIGURE 26-14: I2C™ Bus Data Timing
- TABLE 26-19: I2C™ Bus Data Requirements (Slave Mode)
- FIGURE 26-15: MSSP I2C™ Bus Start/Stop Bits Timing Waveforms
- TABLE 26-20: MSSP I2C™ Bus Start/Stop Bits Requirements
- FIGURE 26-16: MSSP I2C™ Bus Data Timing
- TABLE 26-21: MSSP I2C™ Bus Data Requirements
- FIGURE 26-17: EUSART/AUSART Synchronous Transmission (Master/Slave) Timing
- TABLE 26-22: EUSART/AUSART Synchronous Transmission Requirements
- FIGURE 26-18: EUSART/AUSART Synchronous Receive (Master/Slave) Timing
- TABLE 26-23: EUSART/AUSART Synchronous Receive Requirements
- TABLE 26-24: A/D Converter Characteristics: PIC18F85J90 family (Industrial)
- FIGURE 26-19: A/D Conversion Timing
- TABLE 26-25: A/D Conversion Requirements
- 27.0 Packaging Information
- Appendix A: Revision History
- Appendix B: Migration Between High-End Device Families
- Index
- The Microchip Web Site
- Customer Change Notification Service
- Customer Support
- Reader Response
- Product Identification System
- Worldwide Sales and Service
PIC18F85J90 FAMILY
DS39770C-page 4 2010 Microchip Technology Inc.
Pin Diagrams
64-Pin TQFP
PIC18F63J90
1
2
3
4
5
6
7
8
9
10
11
12
13
14
38
37
36
35
34
33
50 49
17 18 19 20 21 22 23 24 25 26
LCDBIAS3
RE3/COM0
RE4/COM1
RE5/COM2
RE6/COM3
RE7/CCP2
(1)
/SEG31
RD0/SEG0
V
DD
VSS
RD1/SEG1
RD2/SEG2
RD3/SEG3
RD4/SEG4
RD5/SEG5
RD6/SEG6
RD7/SEG7
RE1/LCDBIAS2
RE0/LCDBIAS1
RG0/LCDBIAS0
RG1/TX2/CK2
RG2/RX2/DT2/V
LCAP1
RG3/V
LCAP2
MCLR
RG4/SEG26
VSS
VDDCORE/VCAP
RF7/AN5/SS/SEG25
RF6/AN11/SEG24
RF5/AN10/CV
REF/SEG23
RF4/AN9/SEG22
RF3/AN8/SEG21
RF2/AN7/C1OUT/SEG20
RB0/INT0/SEG30
RB1/INT1/SEG8
RB2/INT2/SEG9
RB3/INT3/SEG10
RB4/KBI0/SEG11
RB5/KBI1/SEG29
RB6/KBI2/PGC
V
SS
OSC2/CLKO/RA6
OSC1/CLKI/RA7
V
DD
RB7/KBI3/PGD
RC4/SDI/SDA/SEG16
RC3/SCK/SCL/SEG17
RC2/CCP1/SEG13
ENVREG
RF1/AN6/C2OUT/SEG19
AV
DD
AVSS
RA3/AN3/VREF+
RA2/AN2/V
REF-
RA1/AN1/SEG18
RA0/AN0
V
SS
VDD
RA4/T0CKI/SEG14
RA5/AN4/SEG15
RC1/T1OSI/CCP2
(1)
/SEG32
RC0/T1OSO/T13CKI
RC7/RX1/DT1/SEG28
RC6/TX1/CK1/SEG27
RC5/SDO/SEG12
15
16
31
40
39
27 28
29 30 32
48
47
46
45
44
43
42
41
54 53 52 5158 57 56 5560 59
64
63 62 61
Note 1: The CCP2 pin placement depends on the CCP2MX bit setting.
PIC18F64J90
PIC18F65J90
Pins are up to 5.5V tolerant