OMAP-L138_15 Datasheet, PDF(46/286 Page) Texas Instruments – OMAP-L138 C6000™ DSP+ ARM® Processor

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OMAP-L138_15 Datasheet, PDF (46/286 Pages) Texas Instruments – OMAP-L138 C6000™ DSP+ ARM® Processor

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OMAP-L138

SPRS586I â JUNE 2009 â REVISED SEPTEMBER 2014

www.ti.com

3.8.12 Universal Asynchronous Receiver/Transmitters (UART0, UART1, UART2)

Table 3-16. Universal Asynchronous Receiver/Transmitter (UART) Terminal Functions

SIGNAL

NAME

TYPE (1)

NO.

PULL (2)

POWER

GROUP (3)

DESCRIPTION

UART0

SPI0_SCS[5] / UART0_RXD / GP8[4] / MII_RXD[3]

C19

I

CP[8]

A

UART0 receive data

SPI0_SCS[4] / UART0_TXD / GP8[3] / MII_RXD[2]

D18

O

CP[8]

A

UART0 transmit data

SPI0_SCS[2] / UART0_RTS / GP8[1] / MII_RXD[0] /

SATA_CP_DET

D16

O

CP[9]

A

UART0 ready-to-send output

SPI0_SCS[3] / UART0_CTS / GP8[2] / MII_RXD[1] /

SATA_MP_SWITCH

E17

I

CP[9]

A

UART0 clear-to-send input

UART1

SPI1_SCS[3] / UART1_RXD / SATA_LED / GP1[1]

E18

I

CP[13]

A

UART1 receive data

SPI1_SCS[2] / UART1_TXD / SATA_CP_POD / GP1[0]

F19

O

CP[13]

A

UART1 transmit data

AHCLKR / PRU0_R30[18] / UART1_RTS /GP0[11] /

PRU0_R31[18]

A2

O

CP[0]

A

UART1 ready-to-send output

AHCLKX / USB_REFCLKIN / UART1_CTS / GP0[10] /

PRU0_R31[17]

A3

I

CP[0]

A

UART1 clear-to-send input

UART2

SPI1_SCS[5] / UART2_RXD / I2C1_SCL /GP1[3]

F17

I

CP[12]

A

UART2 receive data

SPI1_SCS[4] / UART2_TXD / I2C1_SDA /GP1[2]

F16

O

CP[12]

A

UART2 transmit data

AMUTE / PRU0_R30[16] / UART2_RTS / GP0[9] /

PRU0_R31[16]

D5

O

CP[0]

A

UART2 ready-to-send output

RTC_ALARM / UART2_CTS / GP0[8] / DEEPSLEEP

F4

I

CP[0]

A

UART2 clear-to-send input

(1) I = Input, O = Output, I/O = Bidirectional, Z = High impedance, PWR = Supply voltage, GND = Ground, A = Analog signal.

Note: The pin type shown refers to the input, output or high-impedance state of the pin function when configured as the signal name

highlighted in bold. All multiplexed signals may enter a high-impedance state when the configured function is input-only or the configured

function supports high-Z operation. All GPIO signals can be used as input or output. For multiplexed pins where functions have different

types (ie., input versus output), the table reflects the pin function direction for that particular peripheral.

(2) IPD = Internal Pulldown resistor; IPU = Internal Pullup resistor; CP[n] = configurable pull-up/pull-down (where n is the pin group) using

the PUPDENA and PUPDSEL registers in the System Module.The pull-up and pull-down control of these pins is not active until the

device is out of reset. During reset, all of the pins associated with these registers are pulled down. If the application requires a pull-up,

an external pull-up can be used. For more detailed information on pullup/pulldown resistors and situations where external

pullup/pulldown resistors are required, see the Device Configuration section. For electrical specifications on pullup and internal pulldown

circuits, see the Device Operating Conditions section.

(3) This signal is part of a dual-voltage IO group (A, B or C). These groups can be operated at 3.3V or 1.8V nominal. The three groups can

be operated at independent voltages but all pins withina group will operate at the same voltage. Group A operates at the voltage of

power supply DVDD3318_A. Group B operates at the voltage of power supply DVDD3318_B. Group C operates at the voltage of power

supply DVDD3318_C.

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