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LM3S6100 Datasheet, PDF (246/559 Pages) Texas Instruments – Stellaris® LM3S6100 Microcontroller
General-Purpose Input/Outputs (GPIOs)
Table 7-5. GPIO Signals (108BGA) (continued)
Pin Name
Pin Number Pin Type Buffer Typea Description
PC1
B9
I/O
TTL
GPIO port C bit 1.
PC2
B8
I/O
TTL
GPIO port C bit 2.
PC3
A10
I/O
TTL
GPIO port C bit 3.
PC4
L1
I/O
TTL
GPIO port C bit 4.
PC5
M1
I/O
TTL
GPIO port C bit 5.
PC6
M2
I/O
TTL
GPIO port C bit 6.
PD0
G1
I/O
TTL
GPIO port D bit 0.
PD1
G2
I/O
TTL
GPIO port D bit 1.
PD2
H2
I/O
TTL
GPIO port D bit 2.
PD3
H1
I/O
TTL
GPIO port D bit 3.
PF0
M9
I/O
TTL
GPIO port F bit 0.
PF1
H12
I/O
TTL
GPIO port F bit 1.
PF2
J11
I/O
TTL
GPIO port F bit 2.
PF3
J12
I/O
TTL
GPIO port F bit 3.
a. The TTL designation indicates the pin has TTL-compatible voltage levels.
7.2 Functional Description
Important: All GPIO pins are tri-stated by default (GPIOAFSEL=0, GPIODEN=0, GPIOPDR=0,
and GPIOPUR=0), with the exception of the five JTAG/SWD pins (PB7 and PC[3:0]).
The JTAG/SWD pins default to their JTAG/SWD functionality (GPIOAFSEL=1,
GPIODEN=1 and GPIOPUR=1). A Power-On-Reset (POR) or asserting RST puts both
groups of pins back to their default state.
While debugging systems where PB7 is being used as a GPIO, care must be taken to
ensure that a low value is not applied to the pin when the part is reset. Because PB7
reverts to the TRST function after reset, a Low value on the pin causes the JTAG
controller to be reset, resulting in a loss of JTAG communication.
Each GPIO port is a separate hardware instantiation of the same physical block (see Figure
7-1 on page 247). The LM3S6100 microcontroller contains seven ports and thus seven of these
physical GPIO blocks.
246
June 18, 2012
Texas Instruments-Production Data