Datasheet
Table Of Contents
- High Performance RISC CPU:
- Special Microcontroller Features:
- Low Power Features:
- Peripheral Features:
- Pin Diagrams
- Most Current Data Sheet
- Errata
- Customer Notification System
- 1.0 General Description
- 2.0 PIC16F627A/628A/648A Device Varieties
- 3.0 Architectural Overview
- 4.0 Memory Organization
- FIGURE 4-1: Program Memory Map and Stack
- TABLE 4-1: general purpose STATIC ram Registers
- TABLE 4-2: Access to Banks of Registers
- FIGURE 4-2: Data Memory Map of the PIC16F627A and PIC16F628A
- FIGURE 4-3: Data Memory Map of the PIC16F648A
- TABLE 4-3: Special Registers Summary Bank0
- TABLE 4-4: Special Function Registers Summary Bank1
- TABLE 4-5: Special Function Registers Summary Bank2
- TABLE 4-6: Special Function Registers Summary Bank3
- FIGURE 4-4: Loading Of PC In Different Situations
- FIGURE 4-5: Direct/Indirect Addressing PIC16F627A/628A/648A
- 5.0 I/O Ports
- FIGURE 5-1: Block Diagram of RA0/AN0:RA1/AN1 Pins
- FIGURE 5-2: Block Diagram of RA2/Vref Pin
- FIGURE 5-3: Block Diagram of the RA3/AN3 Pin
- FIGURE 5-4: Block Diagram of RA4/T0CKI Pin
- FIGURE 5-5: Block Diagram of the RA5/MCLR/Vpp Pin
- FIGURE 5-6: Block Diagram of RA6/OSC2/CLKOUT Pin
- FIGURE 5-7: Block Diagram of RA7/OSC1/CLKIN Pin
- TABLE 5-1: PORTA Functions
- TABLE 5-2: Summary of Registers Associated with PORTA(1)
- FIGURE 5-8: Block Diagram of RB0/INT Pin
- FIGURE 5-9: Block Diagram of RB1/RX/DT Pin
- FIGURE 5-10: Block Diagram of RB2/TX/CK Pin
- FIGURE 5-11: Block Diagram of RB3/CCP1 Pin
- FIGURE 5-12: Block Diagram of RB4/PGM Pin
- FIGURE 5-13: Block Diagram of RB5 Pin
- FIGURE 5-14: Block Diagram of RB6/T1OSO/T1CKI Pin
- FIGURE 5-15: Block Diagram of the RB7/T1OSI Pin
- TABLE 5-3: PORTB Functions
- TABLE 5-4: Summary of Registers Associated With PORTB(1)
- FIGURE 5-16: Successive I/O Operation
- 6.0 Timer0 Module
- 7.0 Timer1 Module
- 8.0 Timer2 Module
- 9.0 Capture/Compare/PWM (CCP) Module
- TABLE 9-1: CCP Mode - Timer Resource
- FIGURE 9-1: Capture Mode Operation Block Diagram
- FIGURE 9-2: Compare Mode Operation Block Diagram
- TABLE 9-2: Registers Associated with Capture, compare, and Timer1
- FIGURE 9-3: Simplified PWM Block Diagram
- FIGURE 9-4: PWM OUTPUT
- TABLE 9-3: Example PWM Frequencies and Resolutions at 20 MHz
- TABLE 9-4: Registers Associated with PWM and Timer2
- 10.0 Comparator Module
- 11.0 Voltage Reference Module
- 12.0 Universal Synchronous Asynchronous Receiver Transmitter (USART) Module
- TABLE 12-1: BAUD rATE fORMULA
- TABLE 12-2: Registers Associated with Baud Rate Generator
- TABLE 12-3: Baud Rates for synchronous Mode
- TABLE 12-4: Baud Rates for Asynchronous Mode (BRGH = 0)
- TABLE 12-5: Baud Rates for Asynchronous Mode (BRGH = 1)
- FIGURE 12-1: RX Pin Sampling Scheme. BRGH = 0
- FIGURE 12-2: RX Pin Sampling Scheme, BRGH = 1
- FIGURE 12-3: RX Pin Sampling Scheme, BRGH = 1
- FIGURE 12-4: RX Pin Sampling Scheme, BRGH = 0 OR BRGH = 1
- FIGURE 12-5: USART Transmit Block Diagram
- FIGURE 12-6: Asynchronous Transmission
- FIGURE 12-7: Asynchronous Transmission (Back to Back)
- TABLE 12-6: Registers Associated with Asynchronous Transmission
- FIGURE 12-8: USART Receive Block Diagram
- FIGURE 12-9: Asynchronous Reception with Address Detect
- FIGURE 12-10: Asynchronous Reception with Address Byte First
- FIGURE 12-11: Asynchronous Reception with Address Byte First Followed by Valid Data Byte
- TABLE 12-7: Registers Associated with Asynchronous Reception
- TABLE 12-8: Registers Associated with Asynchronous Reception
- TABLE 12-9: Registers Associated with Synchronous Master Transmission
- FIGURE 12-12: Synchronous Transmission
- FIGURE 12-13: Synchronous Transmission (Through TXEN)
- TABLE 12-10: Registers Associated with Synchronous Master Reception
- FIGURE 12-14: Synchronous Reception (Master Mode, SREN)
- TABLE 12-11: Registers Associated with Synchronous Slave Transmission
- TABLE 12-12: Registers Associated with Synchronous Slave Reception
- 13.0 Data EEPROM Memory
- 14.0 Special Features of the CPU
- FIGURE 14-1: Crystal Operation (or Ceramic Resonator) (HS, XT or LP Osc Configuration)
- TABLE 14-1: Capacitor Selection for Ceramic Resonators
- TABLE 14-2: Capacitor Selection for Crystal Oscillator
- FIGURE 14-2: External Parallel Resonant Crystal Oscillator Circuit
- FIGURE 14-3: External Series Resonant Crystal Oscillator Circuit
- FIGURE 14-4: External Clock Input Operation (EC, HS, XT or LP Osc Configuration)
- FIGURE 14-5: RC OSCILLATOR MODE
- FIGURE 14-6: Simplified Block Diagram of On-chip Reset Circuit
- FIGURE 14-7: Brown-out Situations WITH PWRT ENABLED
- TABLE 14-3: Time out in Various Situations
- TABLE 14-4: Status/PCON Bits and Their Significance
- TABLE 14-5: Summary of Registers Associated with Brown-out Reset
- TABLE 14-6: Initialization Condition for Special Registers
- TABLE 14-7: Initialization Condition for Registers
- FIGURE 14-8: Time out Sequence on Power-up (MCLR not tied to Vdd): Case
- FIGURE 14-9: Time out Sequence on Power-up (MCLR not tied to Vdd): Case 2
- FIGURE 14-10: Time out Sequence on Power-up (MCLR tied to Vdd)
- FIGURE 14-11: External Power-on Reset Circuit (For Slow Vdd Power-up)
- FIGURE 14-12: External Brown-out Protection Circuit 1
- FIGURE 14-13: External Brown-out Protection Circuit 2
- FIGURE 14-14: Interrupt Logic
- FIGURE 14-15: INT Pin Interrupt Timing
- TABLE 14-8: Summary of interrupt registers
- FIGURE 14-16: Watchdog Timer Block Diagram
- TABLE 14-9: Summary of Watchdog Timer Registers
- FIGURE 14-17: Wake-up from Sleep Through Interrupt
- FIGURE 14-18: Typical In-Circuit Serial Programming Connection
- 15.0 Instruction Set Summary
- 16.0 Development Support
- 17.0 Electrical Specifications
- FIGURE 17-1: PIC16F627A/628A/648A VOLTAGE-FREQUENCY GRAPH, -40°C £ TA £ +125°C
- FIGURE 17-2: PIC16LF627A/628A/648A VOLTAGE-FREQUENCY GRAPH, -40°C £ TA £ +85°C
- TABLE 17-1: DC Characteristics: PIC16F627A/628A/648A (Industrial, Extended) PIC16LF627A/628A/648A...
- TABLE 17-2: Comparator Specifications
- TABLE 17-3: Voltage Reference Specifications
- FIGURE 17-3: Load Conditions
- FIGURE 17-4: External Clock Timing
- TABLE 17-4: External Clock Timing Requirements
- TABLE 17-5: pRECISION INTERNAL OSCILLATOR Parameters
- FIGURE 17-5: CLKOUT and I/O Timing
- TABLE 17-6: CLKOUT and I/O Timing Requirements
- FIGURE 17-6: Reset, Watchdog Timer, Oscillator Start-Up Timer and Power-Up Timer Timing
- FIGURE 17-7: Brown-out Detect Timing
- TABLE 17-7: Reset, Watchdog Timer, Oscillator Start-up Timer and Power-up Timer Requirements
- FIGURE 17-8: Timer0 and Timer1 External Clock Timings
- TABLE 17-9: Timer0 and Timer1 External Clock Requirements
- FIGURE 17-10: Capture/Compare/PWM Timings
- TABLE 17-8: Capture/Compare/PWM Requirements
- FIGURE 17-11: TIMER0 Clock Timing
- TABLE 17-9: TIMER0 Clock Requirements
- 18.0 DC and AC Characteristics Graphs and Tables
- 19.0 Packaging Information
- Appendix A: Data Sheet Revision History
- Appendix B: Device Differences
- Appendix C: Device Migrations
- Appendix D: Migrating from other PICmicro Devices
- Appendix E: Development Tool Version Requirements
- Index
- Product ID System
- Worldwide Sales
PIC16F627A/628A/648A
DS40044A-page 56 Preliminary 2002 Microchip Technology Inc.
9.1 Capture Mode
In Capture mode, CCPR1H:CCPR1L captures the
16-bit value of the TMR1 register when an event occurs
on pin RB3/CCP1. An event is defined as:
• Every falling edge
• Every rising edge
• Every 4th rising edge
• Every 16th rising edge
An event is selected by control bits CCP1M3:CCP1M0
(CCP1CON<3:0>). When a capture is made, the inter-
rupt request flag bit CCP1IF (PIR1<2>) is set. It must
be cleared in software. If another capture occurs before
the value in register CCPR1 is read, the old captured
value will be lost.
9.1.1 CCP PIN CONFIGURATION
In Capture mode, the RB3/CCP1 pin should be config-
ured as an input by setting the TRISB<3> bit.
FIGURE 9-1: CAPTURE MODE
OPERATION BLOCK
DIAGRAM
9.1.2 TIMER1 MODE SELECTION
Timer1 must be running in Timer mode or synchronized
Counter mode for the CCP module to use the capture
feature. In Asynchronous Counter mode, the capture
operation may not work.
9.1.3 SOFTWARE INTERRUPT
When the Capture mode is changed, a false capture
interrupt may be generated. The user should keep bit
CCP1IE (PIE1<2>) clear to avoid false interrupts and
should clear the flag bit CCP1IF following any such
change in Operating mode.
9.1.4 CCP PRESCALER
There are four prescaler settings, specified by bits
CCP1M3:CCP1M0. Whenever the CCP module is
turned off, or the CCP module is not in Capture mode,
the prescaler counter is cleared. This means that any
RESET will clear the prescaler counter.
Switching from one capture prescaler to another may
generate an interrupt. Also, the prescaler counter will
not be cleared, therefore the first capture may be from
a non-zero prescaler. Example 9-1 shows the recom-
mended method for switching between capture pres-
calers. This example also clears the prescaler counter
and will not generate the “false” interrupt.
EXAMPLE 9-1: CHANGING BETWEEN
CAPTURE PRESCALERS
9.2 Compare Mode
In Compare mode, the 16-bit CCPR1 register value is
constantly compared against the TMR1 register pair
value. When a match occurs, the RB3/CCP1 pin is:
• Driven High
• Driven Low
• Remains Unchanged
The action on the pin is based on the value of control
bits CCP1M3:CCP1M0 (CCP1CON<3:0>). At the
same time, interrupt flag bit CCP1IF is set.
FIGURE 9-2: COMPARE MODE
OPERATION BLOCK
DIAGRAM
Note: If the RB3/CCP1 is configured as an out-
put, a write to the port can cause a capture
condition.
CCPR1H CCPR1L
TMR1H TMR1L
Set flag bit CCP1IF
(PIR1<2>)
Capture
Enable
Q’s
CCP1CON<3:0>
RB3/CCP1
Prescaler
³ 1, 4, 16
and
edge detect
Pin
CLRF CCP1CON ;Turn CCP module off
MOVLW NEW_CAPT_PS ;Load the W reg with
; the new prescaler
; mode value and CCP ON
MOVWF CCP1CON ;Load CCP1CON with this
; value
CCPR1H CCPR1L
TMR1H TMR1L
Comparator
QS
R
Output
Logic
Set flag bit CCP1IF
(PIR1<2>)
match
RB3/CCP1
TRISB<3>
CCP1CON<3:0>
Mode Select
Output Enable
Pin
Note: Special event trigger will reset Timer1, but not
set interrupt flag bit TMR1IF (PIR1<0>)