PIC18F4550-IP Datasheet, PDF(115/438 Page) Microchip Technology – 28/40/44-Pin, High-Performance, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F4550-IP Datasheet, PDF (115/438 Pages) Microchip Technology – 28/40/44-Pin, High-Performance, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F2455/2550/4455/4550

10.0 I/O PORTS

Depending on the device selected and features

enabled, there are up to five ports available. Some pins

of the I/O ports are multiplexed with an alternate

function from the peripheral features on the device. In

general, when a peripheral is enabled, that pin may not

be used as a general purpose I/O pin.

Each port has three registers for its operation. These

registers are:

â¢ TRIS register (data direction register)

â¢ PORT register (reads the levels on the pins of the

device)

â¢ LAT register (output latch)

The Data Latch register (LATA) is useful for read-

modify-write operations on the value driven by the I/O

pins.

A simplified model of a generic I/O port, without the

interfaces to other peripherals, is shown in Figure 10-1.

FIGURE 10-1:

GENERIC I/O PORT

OPERATION

RD LAT

Data

Bus

WR LAT

or PORT

WR TRIS

RD TRIS

D

Q

CK

Data Latch

DQ

CK

TRIS Latch

I/O pin(1)

Input

Buffer

Q

D

RD PORT

ENEN

Note 1: I/O pins have diode protection to VDD and VSS.

10.1 PORTA, TRISA and LATA Registers

PORTA is an 8-bit wide, bidirectional port. The corre-

sponding Data Direction register is TRISA. Setting a

TRISA bit (= 1) will make the corresponding PORTA pin

an input (i.e., put the corresponding output driver in a

high-impedance mode). Clearing a TRISA bit (= 0) will

make the corresponding PORTA pin an output (i.e., put

the contents of the output latch on the selected pin).

Reading the PORTA register reads the status of the

pins; writing to it will write to the port latch.

The Data Latch register (LATA) is also memory

mapped. Read-modify-write operations on the LATA

register read and write the latched output value for

PORTA.

The RA4 pin is multiplexed with the Timer0 module

clock input to become the RA4/T0CKI pin. The RA6 pin

is multiplexed with the main oscillator pin; it is enabled

as an oscillator or I/O pin by the selection of the main

oscillator in Configuration Register 1H (see

Section 25.1 âConfiguration Bitsâ for details). When

not used as a port pin, RA6 and its associated TRIS

and LAT bits are read as â0â.

RA4 is also multiplexed with the USB module; it serves

as a receiver input from an external USB transceiver.

For details on configuration of the USB module, see

Section 17.2 âUSB Status and Controlâ.

Several PORTA pins are multiplexed with analog inputs,

the analog VREF+ and VREF- inputs and the comparator

voltage reference output. The operation of pins RA5

and RA3:RA0 as A/D converter inputs is selected by

clearing/setting the control bits in the ADCON1 register

(A/D Control Register 1).

Note:

On a Power-on Reset, RA5 and RA3:RA0

are configured as analog inputs and read

as â0â. RA4 is configured as a digital input.

All other PORTA pins have TTL input levels and full

CMOS output drivers.

The TRISA register controls the direction of the RA

pins, even when they are being used as analog inputs.

The user must ensure the bits in the TRISA register are

maintained set when using them as analog inputs.

EXAMPLE 10-1: INITIALIZING PORTA

CLRF

CLRF

MOVLW

MOVWF

MOVLW

MOVWF

MOVLW

MOVWF

PORTA

LATA

0Fh

ADCON1

07h

CMCON

0CFh

TRISA

; Initialize PORTA by

; clearing output

; data latches

; Alternate method

; to clear output

; data latches

; Configure A/D

; for digital inputs

; Configure comparators

; for digital input

; Value used to

; initialize data

; direction

; Set RA<3:0> as inputs

; RA<5:4> as outputs

Â© 2009 Microchip Technology Inc.

DS39632E-page 113

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