Datasheet
Table Of Contents
- TABLE 1: 28/40/44-Pin Allocation Table (PIC16LF1904/6/7)
- 1.0 Device Overview
- 2.0 Enhanced Mid-range CPU
- 3.0 Memory Organization
- TABLE 3-1: Device Sizes and Addresses
- FIGURE 3-1: Program Memory Map And Stack For PIC16LF1904
- FIGURE 3-2: Program Memory Map And Stack For PIC16LF1906/7
- TABLE 3-2: Core Registers
- Register 3-1: STATUS: STATUS Register
- FIGURE 3-3: Banked Memory Partitioning
- TABLE 3-3: PIC16LF1904/6/7 Memory Map
- TABLE 3-3: PIC16LF1904/6/7 Memory Map (Continued)
- TABLE 3-3: PIC16LF1904/6/7 Memory Map (Continued)
- TABLE 3-4: Core Function Registers Summary
- TABLE 3-5: Special Function Register Summary
- FIGURE 3-4: Loading Of PC In Different Situations
- FIGURE 3-5: Accessing the Stack Example 1
- FIGURE 3-6: Accessing the Stack Example 2
- FIGURE 3-7: Accessing the Stack Example 3
- FIGURE 3-8: Accessing the Stack Example 4
- FIGURE 3-9: Indirect Addressing
- FIGURE 3-10: Traditional Data Memory Map
- FIGURE 3-11: Linear Data Memory Map
- FIGURE 3-12: Program Flash Memory Map
- 4.0 Device Configuration
- 5.0 Resets
- FIGURE 5-1: Simplified Block Diagram Of On-Chip Reset Circuit
- TABLE 5-1: BOR Operating Modes
- FIGURE 5-2: Brown-Out Situations
- Register 5-1: BORCON: Brown-out Reset Control Register
- TABLE 5-2: MCLR Configuration
- FIGURE 5-3: Reset Start-Up Sequence
- TABLE 5-3: Reset Status Bits and Their Significance
- TABLE 5-4: Reset Condition for Special Registers(2)
- Register 5-2: PCON: Power Control Register
- TABLE 5-5: Summary Of Registers Associated With Resets
- 6.0 Oscillator Module
- FIGURE 6-1: Simplified PIC® MCU Clock Source Block Diagram
- FIGURE 6-2: External Clock (EC) Mode Operation
- FIGURE 6-3: Quartz Crystal Operation (Secondary Oscillator)
- FIGURE 6-4: Internal Oscillator Switch Timing
- Register 6-1: OSCCON: Oscillator Control Register
- Register 6-2: OSCSTAT: Oscillator Status ReGister
- TABLE 6-1: Summary of Registers Associated with Clock Sources
- TABLE 6-2: Summary of cONFIGURATION wORD with Clock Sources
- 7.0 Interrupts
- FIGURE 7-1: Interrupt Logic
- FIGURE 7-2: Interrupt Latency
- FIGURE 7-3: INT Pin Interrupt Timing
- Register 7-1: INTCON: Interrupt Control Register
- Register 7-2: PIE1: Peripheral Interrupt Enable Register 1
- Register 7-3: PIE2: Peripheral Interrupt Enable Register 2
- Register 7-4: PIR1: Peripheral Interrupt Request Register 1
- Register 7-5: PIR2: Peripheral Interrupt Request Register 2
- TABLE 7-1: Summary of Registers Associated with Interrupts
- 8.0 Power-Down Mode (Sleep)
- 9.0 Watchdog Timer
- 10.0 Flash Program Memory Control
- TABLE 10-1: Flash Memory Organization By Device
- FIGURE 10-1: Flash Program Memory Read Flowchart
- FIGURE 10-2: Flash Program Memory Read Cycle Execution
- FIGURE 10-3: Flash Program Memory Unlock Sequence Flowchart
- FIGURE 10-4: Flash Program Memory Erase Flowchart
- FIGURE 10-5: Block WRITES to Flash Program Memory With 32 write latches
- FIGURE 10-6: Flash Program Memory Write Flowchart
- FIGURE 10-7: Flash Program Memory Modify Flowchart
- TABLE 10-2: User ID, Device ID and Configuration Word Access (cfgs = 1)
- FIGURE 10-8: Flash Program Memory Verify Flowchart
- 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
- TABLE 11-2: PORTA Output Priority
- Register 11-1: PORTA: PORTA Register
- Register 11-2: TRISA: PORTA Tri-State Register
- Register 11-3: LATA: PORTA Data Latch Register
- Register 11-4: ANSELA: PORTA Analog Select Register
- TABLE 11-3: Summary of Registers Associated with PORTA
- TABLE 11-4: Summary of cONFIGURATION wORD with PORTA
- TABLE 11-5: PORTB Output Priority
- Register 11-5: PORTB: PORTB Register
- Register 11-6: TRISB: PORTB Tri-State Register
- Register 11-7: LATB: PORTB Data Latch Register
- Register 11-8: ANSELB: PORTB Analog Select Register
- Register 11-9: WPUB: WEAK PULL-uP PORTB REGISTER
- TABLE 11-6: Summary of Registers Associated with PORTB
- TABLE 11-7: PORTC Output Priority
- Register 11-10: PORTC: PORTC Register
- Register 11-11: TRISC: PORTC Tri-State Register
- Register 11-12: LATC: PORTC Data Latch Register
- TABLE 11-8: Summary of Registers Associated with PORTC
- TABLE 11-9: PORTD Output Priority
- Register 11-13: PORTD: PORTD Register
- Register 11-14: TRISD: PORTD Tri-State Register
- Register 11-15: LATD: PORTB Data Latch Register
- TABLE 11-10: Summary of Registers Associated with PORTD(1)
- Register 11-16: PORTE: PORTE Register
- Register 11-17: TRISE: PORTE Tri-State Register
- Register 11-18: LATE: PORTE Data Latch Register
- Register 11-19: ANSELE: PORTE Analog Select Register
- Register 11-20: WPUE: WEAK PULL-uP PORTe REGISTER
- TABLE 11-11: Summary of Registers Associated with PORTE
- 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
- TABLE 15-1: ADC Clock Period (Tad) Vs. Device Operating Frequencies
- FIGURE 15-2: Analog-to-Digital Conversion Tad Cycles
- FIGURE 15-3: 10-Bit A/D Conversion Result Format
- Register 15-1: ADCON0: A/D Control Register 0
- Register 15-2: ADCON1: A/D Control Register 1
- Register 15-3: ADRESH: ADC Result Register High (ADRESH) ADFM = 0
- Register 15-4: ADRESL: ADC Result Register Low (ADRESL) ADFM = 0
- Register 15-5: ADRESH: ADC Result Register High (ADRESH) ADFM = 1
- Register 15-6: ADRESL: ADC Result Register Low (ADRESL) ADFM = 1
- FIGURE 15-4: Analog Input Model
- FIGURE 15-5: ADC Transfer Function
- TABLE 15-2: Summary of Registers Associated with ADC
- 16.0 Timer0 Module
- 17.0 Timer1 Module with Gate Control
- FIGURE 17-1: Timer1 Block Diagram
- TABLE 17-1: Timer1 Enable Selections
- TABLE 17-2: Clock Source Selections
- TABLE 17-3: Timer1 Gate Enable Selections
- TABLE 17-4: Timer1 Gate Sources
- FIGURE 17-2: Timer1 Incrementing Edge
- FIGURE 17-3: Timer1 Gate Enable Mode
- FIGURE 17-4: Timer1 Gate Toggle Mode
- FIGURE 17-5: Timer1 Gate Single-Pulse Mode
- FIGURE 17-6: Timer1 Gate Single-Pulse and Toggle Combined Mode
- Register 17-1: T1CON: Timer1 Control Register
- Register 17-2: T1GCON: Timer1 Gate Control Register
- TABLE 17-5: Summary of Registers Associated with Timer1
- 18.0 Enhanced Universal Synchronous Asynchronous Receiver Transmitter (EUSART)
- FIGURE 18-1: EUSART Transmit Block Diagram
- FIGURE 18-2: EUSART Receive Block Diagram
- FIGURE 18-3: Asynchronous Transmission
- FIGURE 18-4: Asynchronous Transmission (Back-to-Back)
- TABLE 18-1: Registers Associated with Asynchronous Transmission
- FIGURE 18-5: Asynchronous Reception
- TABLE 18-2: Registers Associated with Asynchronous Reception
- 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
- TABLE 18-3: Baud Rate Formulas
- TABLE 18-4: Registers Associated with Baud Rate Generator
- TABLE 18-5: BAUD Rates for Asynchronous Modes
- TABLE 18-6: BRG Counter Clock Rates
- FIGURE 18-6: Automatic Baud Rate Calibration
- FIGURE 18-7: Auto-Wake-up Bit (WUE) Timing During Normal Operation
- FIGURE 18-8: Auto-Wake-up Bit (WUE) Timings During Sleep
- FIGURE 18-9: Send Break Character Sequence
- FIGURE 18-10: Synchronous Transmission
- FIGURE 18-11: Synchronous Transmission (Through TXEN)
- TABLE 18-7: Registers Associated with Synchronous Master Transmission
- FIGURE 18-12: Synchronous Reception (Master Mode, SREN)
- TABLE 18-8: Registers Associated with Synchronous Master Reception
- TABLE 18-9: Registers Associated with Synchronous Slave Transmission
- TABLE 18-10: Registers Associated with Synchronous Slave Reception
- 19.0 Liquid Crystal Display (LCD) Driver Module
- FIGURE 19-1: LCD Driver Module Block Diagram
- TABLE 19-1: LCD Segment and Data Registers
- Register 19-1: LCDCON: Liquid Crystal Display (LCD) Control Register
- Register 19-2: LCDPS: LCD Phase Register
- Register 19-3: LCDREF: LCD Reference Voltage Control Register
- Register 19-4: LCDCST: LCD Contrast Control Register
- Register 19-5: LCDSEn: LCD Segment Enable Registers
- Register 19-6: LCDDATAn: LCD Data Registers
- FIGURE 19-2: LCD Clock Generation
- TABLE 19-2: LCD Bias Voltages
- FIGURE 19-3: LCD Bias VOltage Generation Block DIagram
- TABLE 19-3: LCD Internal ladder power modes (1/3 Bias)
- FIGURE 19-4: LCD Internal Reference Ladder power mode switching Diagram – Type A
- FIGURE 19-5: LCD Internal Reference Ladder power mode switching Diagram – Type A Waveform (1/2 MUX, 1/2 Bias Drive)
- FIGURE 19-6: LCD Internal Reference Ladder power mode switching Diagram – Type B Waveform (1/2 MUX, 1/2 Bias Drive)
- Register 19-7: LCDRL: LCD Reference Ladder Control Registers
- FIGURE 19-7: Internal reference and Contrast control Block Diagram
- TABLE 19-4: Common Pin Usage
- TABLE 19-5: Frame Frequency Formulas
- TABLE 19-6: Approximate Frame Frequency (in Hz) Using Fosc @ 8 MHz, Timer1 @ 32.768 kHz or LFINTOSC
- TABLE 19-7: LCD Segment Mapping Worksheet
- FIGURE 19-8: Type-A/Type-B Waveforms in Static Drive
- FIGURE 19-9: Type-A Waveforms in 1/2 MUX, 1/2 Bias Drive
- FIGURE 19-10: Type-B Waveforms in 1/2 MUX, 1/2 Bias Drive
- FIGURE 19-11: Type-A Waveforms in 1/2 MUX, 1/3 Bias Drive
- FIGURE 19-12: Type-B Waveforms in 1/2 MUX, 1/3 Bias Drive
- FIGURE 19-13: Type-A Waveforms in 1/3 MUX, 1/2 Bias Drive
- FIGURE 19-14: Type-B Waveforms in 1/3 MUX, 1/2 Bias Drive
- FIGURE 19-15: Type-A Waveforms in 1/3 MUX, 1/3 Bias Drive
- FIGURE 19-16: Type-B Waveforms in 1/3 MUX, 1/3 Bias Drive
- FIGURE 19-17: Type-A Waveforms in 1/4 MUX, 1/3 Bias Drive
- FIGURE 19-18: Type-B Waveforms in 1/4 MUX, 1/3 Bias Drive
- FIGURE 19-19: Waveforms and Interrupt Timing in Quarter-Duty Cycle Drive (Example – Type-B, Non-Static)
- TABLE 19-8: LCD Module Status During Sleep
- FIGURE 19-20: Sleep Entry/Exit when SLPEN = 1
- TABLE 19-9: sUMMARY OF Registers Associated with LCD Operation
- 20.0 In-Circuit Serial Programming™ (ICSP™)
- 21.0 Instruction Set Summary
- 22.0 Electrical Specifications
- FIGURE 22-1: Voltage Frequency Graph, -40°C £ Ta £ +125°C
- FIGURE 22-2: HFINTOSC Frequency Accuracy Over Device Vdd and Temperature
- FIGURE 22-3: POR and POR Rearm with Slow Rising Vdd
- FIGURE 22-4: Load Conditions
- TABLE 22-1: Clock Oscillator Timing Requirements
- TABLE 22-2: Oscillator Parameters
- FIGURE 22-5: CLKOUT and I/O Timing
- TABLE 22-3: CLKOUT and I/O Timing Parameters
- FIGURE 22-6: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing
- FIGURE 22-7: Brown-Out Reset Timing and Characteristics
- FIGURE 22-8: Minimum Pulse width for LPBOR Detection
- TABLE 22-4: Reset, Watchdog Timer, Oscillator Start-up Timer, Power-up Timer and Brown-Out Reset Parameters
- FIGURE 22-9: Timer0 and Timer1 External Clock Timings
- TABLE 22-5: Timer0 and Timer1 External Clock Requirements
- TABLE 22-6: PIC16LF1904/6/7 A/D Converter (ADC) Characteristics:
- TABLE 22-7: PIC16LF1904/6/7 A/D Conversion Requirements
- FIGURE 22-10: PIC16LF1904/6/7 A/D Conversion Timing (Normal Mode)
- FIGURE 22-11: PIC16LF1904/6/7 A/D Conversion Timing (Sleep Mode)
- 23.0 DC and AC Characteristics Graphs and Charts
- 24.0 Development Support
- 25.0 Packaging Information
- Appendix A: Data Sheet Revision History
- The Microchip Web Site
- Customer Change Notification Service
- Customer Support
- Reader Response
- Product Identification System
- Worldwide Sales
2011 Microchip Technology Inc. Preliminary DS41569A-page 217
PIC16LF1904/6/7
19.12 Configuring the LCD Module
The following is the sequence of steps to configure the
LCD module.
1. Select the frame clock prescale using bits
LP<3:0> of the LCDPS register.
2. Configure the appropriate pins to function as
segment drivers using the LCDSEn registers.
3. Configure the LCD module for the following
using the LCDCON register:
- Multiplex and Bias mode, bits LMUX<1:0>
- Timing source, bits CS<1:0>
- Sleep mode, bit SLPEN
4. Write initial values to pixel data registers,
LCDDATA0 through LCDDATA21.
5. Clear LCD Interrupt Flag, LCDIF bit of the PIR2
register and if desired, enable the interrupt by
setting bit LCDIE of the PIE2 register.
6. Configure bias voltages by setting the LCDRL,
LCDREF and the associated ANSELx
registers as needed.
7. Enable the LCD module by setting bit LCDEN of
the LCDCON register.
19.13 Disabling the LCD Module
To disable the LCD module, write all ‘0’s to the
LCDCON register.
19.14 LCD Current Consumption
When using the LCD module the current consumption
consists of the following three factors:
• Oscillator Selection
• LCD Bias Source
• Capacitance of the LCD segments
The current consumption of just the LCD module can
be considered negligible compared to these other
factors.
19.14.1 OSCILLATOR SELECTION
The current consumed by the clock source selected
must be considered when using the LCD module. See
Section 22.0 “Electrical Specifications” for oscillator
current consumption information.
19.14.2 LCD BIAS SOURCE
The LCD bias source, internal or external, can contrib-
ute significantly to the current consumption. Use the
highest possible resistor values while maintaining
contrast to minimize current.
19.14.3 CAPACITANCE OF THE LCD
SEGMENTS
The LCD segments which can be modeled as capaci-
tors which must be both charged and discharged every
frame. The size of the LCD segment and its technology
determines the segment’s capacitance.