TM4C1237H6PGE Datasheet, PDF(1225/1311 Page) Texas Instruments – The revision history table notes changes made between the indicated revisions of the

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TM4C1237H6PGE Datasheet, PDF (1225/1311 Pages) Texas Instruments – The revision history table notes changes made between the indicated revisions of the

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Tivaâ¢ TM4C1237H6PGE Microcontroller (identical to LM4F132H5QD)

21

Signal Tables

The following tables list the signals available for each pin. Signals are configured as GPIOs on reset,

except for those noted below. Use the GPIOAMSEL register (see page 677) to select analog mode.

For a GPIO pin to be used for an alternate digital function, the corresponding bit in the GPIOAFSEL

register (see page 660) must be set. Further pin muxing options are provided through the PMCx bit

field in the GPIOPCTL register (see page 679), which selects one of several available peripheral

functions for that GPIO.

Important: All GPIO pins are configured as GPIOs by default with the exception of the pins shown

in the table below. A Power-On-Reset (POR) or asserting RST puts the pins back to their

default state.

Table 21-1. GPIO Pins With Default Alternate Functions

GPIO Pin

PA[1:0]

PA[5:2]

PB[3:2]

PC[3:0]

Default State

UART0

SSI0

I2C0

JTAG/SWD

GPIOAFSEL Bit GPIOPCTL PMCx Bit Field

0

0x1

0

0x1

0

0x1

1

0x3

Table 21-2 on page 1226 shows the pin-to-signal-name mapping, including functional characteristics

of the signals. Each possible alternate analog and digital function is listed for each pin.

Table 21-3 on page 1237 lists the signals in alphabetical order by signal name. If it is possible for a

signal to be on multiple pins, each possible pin assignment is listed. The "Pin Mux" column indicates

the GPIO and the encoding needed in the PMCx bit field in the GPIOPCTL register.

Table 21-4 on page 1247 groups the signals by functionality, except for GPIOs. If it is possible for a

signal to be on multiple pins, each possible pin assignment is listed.

Table 21-5 on page 1255 lists the GPIO pins and their analog and digital alternate functions. The AINx

analog signals are not 5-V tolerant and go through an isolation circuit before reaching their circuitry.

These signals are configured by clearing the corresponding DEN bit in the GPIO Digital Enable

(GPIODEN) register and setting the corresponding AMSEL bit in the GPIO Analog Mode Select

(GPIOAMSEL) register. Other analog signals are 5-V tolerant and are connected directly to their

circuitry (C0-, C0+, C1-, C1+, C2-, C2+, USB0VBUS, USB0ID). These signals are configured by

clearing the DEN bit in the GPIO Digital Enable (GPIODEN) register. The digital signals are enabled

by setting the appropriate bit in the GPIO Alternate Function Select (GPIOAFSEL) and GPIODEN

registers and configuring the PMCx bit field in the GPIO Port Control (GPIOPCTL) register to the

numeric enoding shown in the table below. Table entries that are shaded gray are the default values

for the corresponding GPIO pin.

Table 21-6 on page 1259 lists the signals based on number of possible pin assignments. This table

can be used to plan how to configure the pins for a particular functionality. Application Note AN01274

Configuring Tivaâ¢ C Series Microcontrollers with Pin Multiplexing provides an overview of the pin

muxing implementation, an explanation of how a system designer defines a pin configuration, and

examples of the pin configuration process.

Note: All digital inputs are Schmitt triggered.

July 17, 2013

Texas Instruments-Production Data

1225

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