Texas Instruments Development Kit for TM4C129x,Tiva™ ARM® Cortex™ -M4 Microcontroller DK-TM4C129X DK-TM4C129X 데이터 시트
제품 코드
DK-TM4C129X
Table 26-1. LCD Signals (212BGA) (continued)
Description
Buffer Type
Pin Type
Pin Mux / Pin
Assignment
Pin Number
Pin Name
LCD Data Pin 6 input/output.
TTL
I/O
PS4 (15)
V9
LCDDATA06
LCD Data Pin 7 input/output.
TTL
I/O
PS5 (15)
T13
LCDDATA07
LCD Data Pin 8 input/output.
TTL
I/O
PS6 (15)
U10
LCDDATA08
LCD Data Pin 9 input/output.
TTL
I/O
PS7 (15)
R13
LCDDATA09
LCD Data Pin 10 input/output.
TTL
I/O
PT0 (15)
W10
LCDDATA10
LCD Data Pin 11 input/output.
TTL
I/O
PT1 (15)
V10
LCDDATA11
LCD Data Pin 12 input/output.
TTL
I/O
PN7 (15)
U12
LCDDATA12
LCD Data Pin 13 input/output.
TTL
I/O
PN6 (15)
T12
LCDDATA13
LCD Data Pin 14 input/output.
TTL
I/O
PJ2 (15)
H17
LCDDATA14
LCD Data Pin 15 input/output.
TTL
I/O
PJ3 (15)
F16
LCDDATA15
LCD Data Pin 16 output.
TTL
O
PJ4 (15)
F18
LCDDATA16
LCD Data Pin 17 output.
TTL
O
PJ5 (15)
E17
LCDDATA17
LCD Data Pin 18 output.
TTL
O
PT2 (15)
E18
LCDDATA18
LCD Data Pin 19 output.
TTL
O
PT3 (15)
F17
LCDDATA19
LCD Data Pin 20 output.
TTL
O
PS0 (15)
D12
LCDDATA20
LCD Data Pin 21 output.
TTL
O
PS1 (15)
D13
LCDDATA21
LCD Data Pin 22 output.
TTL
O
PS2 (15)
B14
LCDDATA22
LCD Data Pin 23 output.
TTL
O
PS3 (15)
A14
LCDDATA23
LCD Frame Clock or VSYNC in Raster mode;
Address Latch Enable in LIDD mode
Address Latch Enable in LIDD mode
TTL
O
PR1 (15)
N4
LCDFP
LCD Line Clock or HSYNC in Raster mode; Write
Strobe or Direction bit in LIDD mode
Strobe or Direction bit in LIDD mode
TTL
O
PR2 (15)
N2
LCDLP
LCD Memory Clock/Secondary chip Select
(CS1)/Secondary Enable (E1) in LIDD
Synchronous/Async MPU/Hitachi mode
(CS1)/Secondary Enable (E1) in LIDD
Synchronous/Async MPU/Hitachi mode
TTL
O
PF6 (15)
T8
LCDMCLK
The following table gives a more detailed summary of how the signals are used in each mode. These
features are also discussed in the functional description section.
features are also discussed in the functional description section.
Table 26-2. LCD External Signal Details
Function
Mode
Type
Signal
This signal functions as a frame clock the LCD uses to signal the start of a
new frame of pixels. This signal is also used by TFT displays as the vertical
synchronization signal.
new frame of pixels. This signal is also used by TFT displays as the vertical
synchronization signal.
Raster Mode
Output
LCDFP
(VSYNC)
This signal functions as an Address Latch Enable (ALE)
LIDD Mode
This signal functions as a line clock the LCD uses to signal the end of a line
of pixels. This signal is also used by TFT displays as the horizontal
synchronization signal.
of pixels. This signal is also used by TFT displays as the horizontal
synchronization signal.
Raster Mode
Output
LCDLP
(HSYNC)
This signal functions as a write strobe or direction bit depending on the
interface mode.
interface mode.
LIDD Mode
1849
December 13, 2013
Texas Instruments-Advance Information
Tiva
™
TM4C129XNCZAD Microcontroller