Texas Instruments EK-TM4C1294XL 사용자 설명서
Functional Description
2.1.6.2
BoosterPack 2
The second BoosterPack XL interface is located near the middle of the board. This interface is fully compliant with the BoosterPack standard, and
adds features not covered by the BoosterPack standard that enable operation with additional BoosterPacks.
adds features not covered by the BoosterPack standard that enable operation with additional BoosterPacks.
An additional analog signal is provided on the outer left header (X6-9). This signal can be used to monitor the touch panel on the popular Kentec
EB-LM4F120-L35 BoosterPack.
EB-LM4F120-L35 BoosterPack.
Using the jumpers JP4 and JP5, Controller Area Network (CAN) digital receive and transmit signals can be optionally routed to the BoosterPack 2
interface. The location of these signals is consistent with the CAN interface on the Tiva C Series TM4C123G LaunchPad and the Stellaris
LM4F120 LaunchPad. In the default configuration, UART0 is used for the ICDI virtual UART and CAN is not present on the BoosterPack headers.
In this configuration, the ROM serial bootloader can be used over the ICDI virtual UART. When the jumpers are configured for CAN on the
BoosterPack, then UART4 must be used for the ICDI virtual UART.
interface. The location of these signals is consistent with the CAN interface on the Tiva C Series TM4C123G LaunchPad and the Stellaris
LM4F120 LaunchPad. In the default configuration, UART0 is used for the ICDI virtual UART and CAN is not present on the BoosterPack headers.
In this configuration, the ROM serial bootloader can be used over the ICDI virtual UART. When the jumpers are configured for CAN on the
BoosterPack, then UART4 must be used for the ICDI virtual UART.
To comply with both the original and the new BoosterPack standard, I2C is provided on both sides of the BoosterPack connection. Use of I2C on
the bottom left of the BoosterPack connection is highly encouraged where possible, to be in compliance with the new BoosterPack standard. To
provide I2C capability on the right side of the connector, per the original standard, two zero-ohm resistors (R19 and R20) are used to combine the
SPI and I2C signals. These signals are not shared with any other pins on the LaunchPad and therefore removal of these zero-ohm resistors
should not be required. Software should be certain that unused GPIO signals are configured as inputs.
the bottom left of the BoosterPack connection is highly encouraged where possible, to be in compliance with the new BoosterPack standard. To
provide I2C capability on the right side of the connector, per the original standard, two zero-ohm resistors (R19 and R20) are used to combine the
SPI and I2C signals. These signals are not shared with any other pins on the LaunchPad and therefore removal of these zero-ohm resistors
should not be required. Software should be certain that unused GPIO signals are configured as inputs.
provides a complete listing of the BoosterPack pins and the GPIO alternate functions available at each pin. The TM4C1294NCPDT
GPIO register GPIOPCTL values are shown for each configuration. The headers in this table are labeled from left to right in ten pin columns. ‘A’
and ‘D’ make up the outer BoosterPack standard pins, ‘B’ and ‘C’ make up the inner BoosterPack XL standard pins.
and ‘D’ make up the outer BoosterPack standard pins, ‘B’ and ‘C’ make up the inner BoosterPack XL standard pins.
Table 2-2. BoosterPack 2 GPIO and Signal Muxing
Digital Function (FPIOPCTL Bit Encoding)
Standard
MCU
Header Pin
GPIO
Analog
Function
Pin
1
2
3
5
6
7
8
11
13
14
15
A2
1
3.3V
A2
2
Analog
PD2
3
AIN13
-
I2C8SCL
T1CCP0
C2o
-
-
-
-
-
-
SSI2Fss
A2
3
UART RX
PP0
118
C2+
U6Rx
-
-
-
-
-
-
-
-
-
SSI3XDAT2
A2
4
UART TX
PP1
119
C2-
U6Tx
-
-
-
-
-
-
-
-
-
SSI3XDAT3
PD4
125
AIN7
U2Rx
-
T3CCP0
-
-
-
-
-
-
-
SSI1XDAT2
GPIO
A2
5
(See JP4)
PA0
33
-
U0Rx
I2C9SCL
T0CCP0
-
-
CANORx
-
-
-
-
-
PD5
126
AIN6
U2Tx
-
T3CCP1
-
-
-
-
-
-
-
SSI1XDAT3
Analog
A2
6
(See JP5)
PA1
34
-
U0Tx
I2C9SDA
T0CCP1
-
-
CAN0Tx
-
-
-
-
-
A2
7
SPI CLK
PQ0
5
-
-
-
-
-
-
-
-
-
-
SSI3Clk
EPI0S20
A2
8
GPIO
PP4
105
-
U3RTS
U0DSR
-
-
-
-
-
-
-
USB0D7
-
A2
9
I2C SCL
PN5
112
-
U1RI
U3CTS
I2C2SCL
-
-
-
-
-
-
-
EPIO0S35
A2
10
I2C SDA
PN4
111
-
U1DTR
U3RTS
I2C2SDA
-
-
-
-
-
-
-
EPIO0S34
B2
1
5V
B2
2
GND
B2
3
Analog
PB4
121
AIN10
U0CTS
I2C5SCL
-
-
-
-
-
-
-
-
SSI1Fss
11
SPMU365A – March 2014 – Revised March 2014
Hardware Description
Copyright © 2014, Texas Instruments Incorporated