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PIC18F67J11T-I Datasheet, PDF (135/466 Pages) Microchip Technology – 64/80-Pin, High-Performance, 1-Mbit Flash Microcontrollers
PIC18F87J11 FAMILY
11.0 I/O PORTS
Depending on the device selected and features
enabled, there are up to nine 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 memory-mapped registers for its
operation:
• TRIS register (Data Direction register)
• PORT register (reads the levels on the pins of the
device)
• LAT register (Output Latch register)
Reading the PORT register reads the current status of
the pins, whereas writing to the PORT register writes to
the Output Latch (LAT) register.
Setting a TRIS bit (= 1) makes the corresponding port
pin an input (i.e., puts the corresponding output driver
in a High-Impedance mode). Clearing a TRIS bit (= 0)
makes the corresponding port pin an output (i.e., puts
the contents of the corresponding LAT bit on the
selected pin).
The Output Latch (LAT register) is useful for
read-modify-write operations on the value that the I/O
pins are driving. Read-modify-write operations on the
LAT register read and write the latched output value for
the PORT register.
A simplified model of a generic I/O port, without the
interfaces to other peripherals, is shown in Figure 11-1.
FIGURE 11-1:
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.
11.1 I/O Port Pin Capabilities
When developing an application, the capabilities of the
port pins must be considered. Outputs on some pins
have higher output drive strength than others. Similarly,
some pins can tolerate higher than VDD input levels.
11.1.1
INPUT PINS AND VOLTAGE
CONSIDERATIONS
The voltage tolerance of pins used as device inputs is
dependent on the pin’s input function. Pins that are
used as digital only inputs are able to handle DC
voltages up to 5.5V, a level typical for digital logic
circuits. In contrast, pins that also have analog input
functions of any kind (such as A/D and comparator
inputs) can only tolerate voltages up to VDD. Voltage
excursions beyond VDD on these pins should be
avoided.
Table 11-1 summarizes the input capabilities. Refer to
Section 28.0 “Electrical Characteristics” for more
details.
TABLE 11-1: INPUT VOLTAGE LEVELS
Port or Pin
Tolerated
Input
Description
PORTA<7:0>
PORTC<1:0>
VDD Only VDD input levels
are tolerated.
PORTF<6:1>
PORTH<7:4>(1)
PORTB<7:0>
PORTC<7:2>
PORTD<7:0>
5.5V
Tolerates input levels
above VDD, useful for
most standard logic.
PORTE<7:0>
PORTF<7>
PORTG<4:0>
PORTH<3:0>(1)
PORTJ<7:0>(1)
Note 1: These ports are not available on 64-pin
devices.
11.1.2 PIN OUTPUT DRIVE
When used as digital I/O, the output pin drive strengths
vary for groups of pins intended to meet the needs for
a variety of applications. In general, there are three
classes of output pins in terms of drive capability.
PORTB and PORTC, as well as PORTA<7:6>, are
designed to drive higher current loads, such as LEDs.
PORTD, PORTE and PORTJ are capable of driving
digital circuits associated with external memory
devices; they can also drive LEDs, but only those with
smaller current requirements. PORTF, PORTG and
PORTH, along with PORTA<5:0>, have the lowest
drive level, but are capable of driving normal digital
circuit loads with a high input impedance.
 2007-2012 Microchip Technology Inc.
DS39778E-page 135