Datasheet PIC16F84A (Microchip)

ManufacturerMicrochip
Description18-pin Enhanced FLASH/EEPROM 8-Bit Microcontroller
Pages / Page90 / 1 — PIC16F84A. 18-pin Enhanced. FLASH/EEPROM 8-Bit Microcontroller. High …
File Format / SizePDF / 1.9 Mb
Document LanguageEnglish

PIC16F84A. 18-pin Enhanced. FLASH/EEPROM 8-Bit Microcontroller. High Performance RISC CPU Features:. Pin Diagrams. PDIP, SOIC. PIC

Datasheet PIC16F84A Microchip

Model Line for this Datasheet

Text Version of Document

PIC16F84A 18-pin Enhanced FLASH/EEPROM 8-Bit Microcontroller High Performance RISC CPU Features: Pin Diagrams
• Only 35 single word instructions to learn
PDIP, SOIC
• All instructions single-cycle except for program 1 branches which are two-cycle RA2 18 RA1 RA3 2 17 RA0 • Operating speed: DC - 20 MHz clock input
PIC
RA4/T0CKI 3 16 OSC1/CLKIN DC - 200 ns instruction cycle MCLR 4
16F
15 OSC2/CLKOUT • 1024 words of program memory VSS 5 14 VDD
84A
• 68 bytes of Data RAM RB0/INT 6 13 RB7 • 64 bytes of Data EEPROM RB1 7 12 RB6 RB2 8 11 RB5 • 14-bit wide instruction words RB3 9 10 RB4 • 8-bit wide data bytes • 15 Special Function Hardware registers • Eight-level deep hardware stack • Direct, indirect and relative addressing modes • Four interrupt sources:
SSOP
- External RB0/INT pin RA2 1 20 RA1 - TMR0 timer overflow RA3 2 19 RA0 - PORTB<7:4> interrupt-on-change
PIC16
RA4/T0CKI 3 18 OSC1/CLKIN - Data EEPROM write complete MCLR 4 17 OSC2/CLKOUT VSS 5
F
16 VDD
Peripheral Features: 84
VSS 6 15
A
VDD RB0/INT 7 14 RB7 • 13 I/O pins with individual direction control RB1 8 13 RB6 • High current sink/source for direct LED drive RB2 9 12 RB5 - 25 mA sink max. per pin RB3 10 11 RB4 - 25 mA source max. per pin • TMR0: 8-bit timer/counter with 8-bit programmable prescaler
Special Microcontroller Features: CMOS Enhanced FLASH/EEPROM
• 10,000 erase/write cycles Enhanced FLASH
Technology:
Program memory typical • Low power, high speed technology • 10,000,000 typical erase/write cycles EEPROM Data memory typical • Fully static design • EEPROM Data Retention > 40 years • Wide operating voltage range: • In-Circuit Serial Programming™ (ICSP™) - via - Commercial: 2.0V to 5.5V two pins - Industrial: 2.0V to 5.5V • Power-on Reset (POR), Power-up Timer (PWRT), • Low power consumption: Oscillator Start-up Timer (OST) - < 2 mA typical @ 5V, 4 MHz • Watchdog Timer (WDT) with its own On-Chip RC - 15 A typical @ 2V, 32 kHz Oscillator for reliable operation - < 0.5 A typical standby current @ 2V • Code protection • Power saving SLEEP mode • Selectable oscillator options  2001-2013 Microchip Technology Inc. DS35007C-page 1 Document Outline 1.0 Device Overview FIGURE 1-1: PIC16F84A Block Diagram TABLE 1-1: PIC16F84A Pinout Description 2.0 Memory Organization 2.1 Program Memory Organization FIGURE 2-1: Program Memory Map and Stack - PIC16F84A 2.2 Data Memory Organization 2.2.1 General purpose Register File FIGURE 2-2: Register File Map - PIC16F84A 2.3 Special Function Registers TABLE 2-1: Special Function Register File Summary 2.3.1 STATUS Register Register 2-1: Status Register (Address 03h, 83h) 2.3.2 OPTION Register Register 2-2: OPTION Register (Address 81h) 2.3.3 INTCOn Register Register 2-3: INTCON Register (Address 0Bh, 8Bh) 2.4 PCL and PCLATH 2.4.1 Stack 2.5 Indirect Addressing; INDF and FSR Registers EXAMPLE 2-1: Indirect Addressing EXAMPLE 2-2: How to Clear RAM Using Indirect Addressing FIGURE 2-3: Direct/Indirect Addressing 3.0 Data EEPROM Memory Register 3-1: EECON1 Register (Address 88h) 3.1 Reading the EEPROM Data Memory EXAMPLE 3-1: Data EEPROM Read 3.2 Writing to the EEPROM Data Memory EXAMPLE 3-2: Data EEPROM Write 3.3 Write Verify EXAMPLE 3-3: Write Verify TABLE 3-1: Registers/Bits Associated with Data EEPROM 4.0 I/O Ports 4.1 PORTA and TRISA Registers EXAMPLE 4-1: Initializing PORTA FIGURE 4-1: Block Diagram of Pins RA3:RA0 FIGURE 4-2: Block Diagram of Pin RA4 TABLE 4-1: PORTA Functions TABLE 4-2: Summary of Registers Associated With PORTA 4.2 PORTB and TRISB Registers EXAMPLE 4-2: Initializing PORTB FIGURE 4-3: Block Diagram of Pins RB7:RB4 FIGURE 4-4: Block Diagram of Pins RB3:RB0 TABLE 4-3: PORTB Functions TABLE 4-4: Summary of Registers Associated With PORTB 5.0 Timer0 Module 5.1 Timer0 Operation 5.2 Prescaler FIGURE 5-1: Timer0 Block Diagram 5.2.1 Switching Prescaler ASSIGnment 5.3 Timer0 Interrupt FIGURE 5-2: Block Diagram of the Timer0/WDT Prescaler TABLE 5-1: Registers Associated with Timer0 6.0 Special Features of the CPU 6.1 Configuration Bits Register 6-1: PIC16F84A Configuration Word 6.2 Oscillator Configurations 6.2.1 Oscillator Types 6.2.2 Crystal Oscillator/CERAmic Resonators FIGURE 6-1: Crystal/Ceramic Resonator Operation (HS, XT or LP OSC Configuration) FIGURE 6-2: External Clock Input Operation (HS, XT or LP OSC Configuration) TABLE 6-1: Capacitor Selection for Ceramic Resonators TABLE 6-2: Capacitor Selection for Crystal Oscillator 6.2.3 RC Oscillator FIGURE 6-3: RC Oscillator Mode 6.3 Reset FIGURE 6-4: Simplified Block Diagram of On-Chip Reset Circuit TABLE 6-3: Reset Condition for Program Counter and the STATUS Register TABLE 6-4: Reset Conditions for All Registers 6.4 Power-on Reset (POR) 6.5 Power-up Timer (PWRT) 6.6 Oscillator Start-up Timer (OST) FIGURE 6-5: External Power-on Reset Circuit (For Slow Vdd Power-up) FIGURE 6-6: Time-out Sequence on Power-up (MCLR not Tied to Vdd): Case 1 FIGURE 6-7: Time-out Sequence on Power-up (MCLR Not Tied To Vdd): Case 2 FIGURE 6-8: Time-out Sequence on Power-up (MCLR Tied to Vdd): Fast Vdd Rise Time FIGURE 6-9: Time-Out Sequence on Power-Up (MCLR Tied to Vdd): Slow Vdd Rise Time 6.7 Time-out Sequence and Power-down Status Bits (TO/PD) TABLE 6-5: Time-out in Various Situations TABLE 6-6: STATUS bits and Their Significance 6.8 Interrupts FIGURE 6-10: Interrupt Logic 6.8.1 INT Interrupt 6.8.2 TMR0 Interrupt 6.8.3 PORTB Interrupt 6.8.4 Data EEPROM Interrupt 6.9 Context Saving During Interrupts EXAMPLE 6-1: Saving STATUS and W Registers in RAM 6.10 Watchdog Timer (WDT) 6.10.1 WDT Period 6.10.2 WDT Programming Considerations FIGURE 6-11: Watchdog Timer Block Diagram TABLE 6-7: Summary of Registers Associated With the Watchdog Timer 6.11 Power-down Mode (SLEEP) 6.11.1 SLEEP 6.11.2 Wake-up from SLEEP FIGURE 6-12: Wake-up From Sleep Through Interrupt 6.11.3 Wake-Up Using Interrupts 6.12 Program Verification/Code Protection 6.13 ID Locations 6.14 In-Circuit Serial Programming 7.0 Instruction Set Summary TABLE 7-1: Opcode Field Descriptions FIGURE 7-1: General Format for Instructions TABLE 7-2: PIC16CXXX Instruction Set 7.1 Instruction Descriptions 8.0 Development Support 9.0 Electrical Characteristics FIGURE 9-1: PIC16F84A-20 Voltage-Frequency Graph FIGURE 9-2: PIC16LF84A-04 Voltage- Frequency Graph FIGURE 9-3: PIC16F84A-04 Voltage- Frequency Graph 9.1 DC Characteristics 9.2 DC Characteristics: PIC16F84A-04 (Commercial, Industrial) PIC16F84A-20 (Commercial, Industrial) PIC16LF84A-04 (Commercial, Industrial) 9.3 AC (Timing) Characteristics 9.3.1 Timing Parameter Symbology 9.3.2 Timing Conditions TABLE 9-1: Temperature and Voltage Specifications - AC FIGURE 9-4: Parameter Measurement Information FIGURE 9-5: Load Conditions 9.3.3 Timing Diagrams and Specifications FIGURE 9-6: External Clock Timing TABLE 9-2: External Clock Timing Requirements FIGURE 9-7: CLKOUT and I/O Timing TABLE 9-3: CLKOUT and I/O Timing Requirements FIGURE 9-8: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Timing TABLE 9-4: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Requirements FIGURE 9-9: Timer0 Clock Timings TABLE 9-5: Timer0 Clock Requirements 10.0 DC/AC Characteristic Graphs FIGURE 10-1: Typical Idd vs. Fosc OVER Vdd (HS Mode, 25°C) FIGURE 10-2: Maximum Idd vs. Fosc OVER Vdd (HS Mode, -40° to +125°C) FIGURE 10-3: Typical Idd vs. Fosc OVER Vdd (XT Mode, 25°C) FIGURE 10-4: Maximum Idd vs. Fosc OVER Vdd (XT Mode, -40° to +125°C) FIGURE 10-5: Typical Idd vs. Fosc OVER Vdd (LP Mode, 25°C) FIGURE 10-6: Maximum Idd vs. Fosc OVER Vdd (LP Mode, -40° to +125°C) FIGURE 10-7: Average Fosc vs. Vdd for R (RC Mode, C = 22 pF, 25°C) FIGURE 10-8: Average Fosc vs. Vdd for R (RC Mode, C = 100 pF, 25°C) FIGURE 10-9: Average Fosc vs. Vdd for R (RC Mode, C = 300 pF, 25°C) FIGURE 10-10: Ipd vs. Vdd (Sleep Mode, all peripherals disabled) FIGURE 10-11: Ipd vs. Vdd (WDT Mode) FIGURE 10-12: Typical, Minimum, and Maximum WDT Period vs. Vdd over Temp FIGURE 10-13: Typical, Minimum and Maximum Voh vs. Ioh (Vdd = 5V, -40°C to +125°C) FIGURE 10-14: Typical, Minimum and Maximum Voh vs. Ioh (Vdd = 3V, -40°C to +125°C) FIGURE 10-15: Typical, Minimum and Maximum Vol vs. Iol (Vdd = 5V, -40°C to +125°C) FIGURE 10-16: Typical, Minimum and Maximum Vol vs. Iol (Vdd = 3V, -40°C to +125°C) FIGURE 10-17: Minimum and Maximum Vin vs. Vdd, (TTL Input, -40°C to +125°C) FIGURE 10-18: Minimum and Maximum Vin vs. Vdd (ST Input, -40°C to +125°C) 11.0 Packaging Information 11.1 Package Marking Information Appendix A: Revision History Appendix B: Conversion Considerations Appendix C: Migration from Baseline to Mid-range Devices A B C D E F I M O P R S T W Z The Microchip Web Site Customer Change Notification Service Customer Support Reader Response Corporate Office Atlanta Boston Chicago Cleveland Fax: 216-447-0643 Dallas Detroit Indianapolis Toronto Fax: 852-2401-3431 Australia - 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