PIC32MX775F256H-80V/PT Microchip Technology, PIC32MX775F256H-80V/PT Datasheet - Page 134
PIC32MX775F256H-80V/PT
Manufacturer Part Number
PIC32MX775F256H-80V/PT
Description
256 KB Flash, 64 KB RAM, USB-OTG, Dual CAN, Ethernet, 80 MHz, 10-Bit ADC, DMA 64
Manufacturer
Microchip Technology
Series
PIC® 32MXr
Datasheet
1.PIC32MX575F256H-80VPT.pdf
(256 pages)
Specifications of PIC32MX775F256H-80V/PT
Processor Series
PIC32MX7xx
Core
MIPS
Data Bus Width
32 bit
Program Memory Type
Flash
Program Memory Size
256 KB
Data Ram Size
64 KB
Interface Type
USB, I2C, UART, RS-232, RS-485, SPI
Maximum Clock Frequency
80 MHz
Number Of Programmable I/os
5
Number Of Timers
5
Operating Supply Voltage
2.3 V to 3.6 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
TQFP-100
Operating Temperature Range
- 40 C to + 85 C
Supply Current (max)
10 mA
Core Processor
MIPS32® M4K™
Core Size
32-Bit
Speed
80MHz
Connectivity
CAN, Ethernet, I²C, SPI, UART/USART, USB OTG
Peripherals
Brown-out Detect/Reset, DMA, POR, PWM, WDT
Number Of I /o
53
Eeprom Size
-
Ram Size
64K x 8
Voltage - Supply (vcc/vdd)
2.3 V ~ 3.6 V
Data Converters
A/D 16x10b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 105°C
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
PIC32MX775F256H-80V/PT
Manufacturer:
Microchip Technology
Quantity:
10 000
PIC32MX5XX/6XX/7XX
12.1
All port pins have three registers (TRIS, LAT and
PORT) that are directly associated with their operation.
TRIS is a Data Direction or Tri-State Control register
that determines whether a digital pin is an input or an
output. Setting a TRISx register bit = 1 , configures the
corresponding I/O pin as an input; setting a TRISx
register bit = 0 , configures the corresponding I/O pin as
an output. All port I/O pins are defined as inputs after a
device Reset. Certain I/O pins are shared with analog
peripherals and default to analog inputs after a device
Reset.
PORT is a register used to read the current state of the
signal applied to the port I/O pins. Writing to a PORTx
register performs a write to the port’s latch, LATx
register, latching the data to the port’s I/O pins.
LAT is a register used to write data to the port I/O pins.
The LATx Latch register holds the data written to either
the LATx or PORTx registers. Reading the LATx Latch
register
corresponding PORT or Latch register.
Not all port I/O pins are implemented on some devices,
therefore, the corresponding PORTx, LATx and TRISx
register bits will read as zeros.
12.1.1
Every I/O module register has a corresponding CLR
(clear), SET (set) and INV (invert) register designed to
provide fast atomic bit manipulations. As the name of
the register implies, a value written to a SET, CLR or
INV register effectively performs the implied operation,
but only on the corresponding base register and only
bits specified as ‘ 1 ’ are modified. Bits specified as ‘ 0 ’
are not modified.
Reading SET, CLR and INV registers returns undefined
values. To see the affects of a write operation to a SET,
CLR or INV register, the base register must be read.
12.1.2
Pins are configured as digital inputs by setting the
corresponding TRIS register bits = 1 . When configured
as inputs, they are either TTL buffers or Schmitt
Triggers. Several digital pins share functionality with
analog inputs and default to the analog inputs at POR.
Setting the corresponding bit in the AD1PCFG
register = 1 enables the pin as a digital pin.
DS61156G-page 134
Note:
Parallel I/O (PIO) Ports
reads
CLR, SET AND INV REGISTERS
Using a PORTxINV register to toggle a bit
is recommended because the operation is
performed in hardware atomically, using
fewer instructions, as compared to the
traditional
shown below:
DIGITAL INPUTS
PORTC ^ = 0x0001 ;
the
last
read-modify-write
value
written
method
to
the
The maximum input voltage allowed on the input pins
is the same as the maximum V
Section 31.0 “Electrical Characteristics”
specification details.
12.1.3
Certain pins can be configured as analog inputs used
by the ADC and comparator modules. Setting the
corresponding bits in the AD1PCFG register = 0
enables the pin as an analog input pin and must have
the corresponding TRIS bit set = 1 (input). If the TRIS
bit is cleared = 0 (output), the digital output level (V
or V
configured as analog, its digital input is disabled and
the corresponding PORTx register bit will read ‘ 0 ’. The
AD1PCFG register has a default value of 0x0000;
therefore, all pins that share ANx functions are analog
(not digital) by default.
12.1.4
Pins are configured as digital outputs by setting the
corresponding TRIS register bits = 0 . When configured
as digital outputs, these pins are CMOS drivers or can
be configured as open-drain outputs by setting the
corresponding bits in the Open-Drain Configuration
(ODCx) register.
The open-drain feature allows generation of outputs
higher than V
pins by using external pull-up resistors. The maximum
open-drain voltage allowed is the same as the
maximum V
See the
and their functionality.
12.1.5
Certain pins can be configured as analog outputs, such
as the CV
module. Configuring the comparator reference module
to provide this output will present the analog output
voltage on the pin, independent of the TRIS register
setting for the corresponding pin.
12.1.6
The input change notification function of the I/O ports
(CNx) allows devices to generate interrupt requests in
response to change-of-state on selected pin.
Each CNx pin also has a weak pull-up, which acts as a
current source connected to the pin. The pull-ups are
enabled by setting the corresponding bit in the CNPUE
register.
Note:
OL
) will be converted. Any time a port I/O pin is
“Pin
REF
Analog levels on any pin that is defined as
a digital input (including the ANx pins)
may cause the input buffer to consume
current
specifications.
ANALOG INPUTS
DIGITAL OUTPUTS
ANALOG OUTPUTS
INPUT CHANGE NOTIFICATION
IH
DD
Diagrams” section for the available pins
specification.
output voltage used by the comparator
(e.g., 5V) on any desired 5V tolerant
© 2009-2011 Microchip Technology Inc.
that
exceeds
IH
specification. Refer to
the
for V
device
OH
IH
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