SPRS681G Data sheet

The terminal functions tables identify the external signal names, the associated pin (ball) numbers along with the mechanical package designator, the pin type, whether the pin has any internal pullup or pulldown resistors, and a functional pin description. Bolded pin names denote the muxed pin function being described in each table. For more detailed information on device configurations, peripheral selection, multiplexed pin, and shared pin see Section 6, Device Configurations.

4.2.1 Boot Configuration

Table 4-1 Boot Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
BOOT
Boot Mode inputs. Select the peripheral over which the Host ARM Cortex™-A8 will boot.
GPMC_A[5]/GP0[13]/ BTMODE[4]	AE2	I	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL226	Boot Mode Selection pins. For boot mode information, see Table 6-6.
GPMC_A[4]/GP0[12]/ BTMODE[3]	AE1			GPMC, GP0 PINCTRL225
GPMC_A[3]/GP0[11]/ BTMODE[2]	AE3			GPMC, GP0 PINCTRL224
GPMC_A[2]/GP0[10]/ BTMODE[1]	AE4			GPMC, GP0 PINCTRL223
GPMC_A[1]/GP0[9]/ BTMODE[0]	AE5			GPMC, GP0 PINCTRL222
DEVICE CONTROL
GPMC_A[8]/GP0[16]/ CS0BW	AD4	I	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL229	GPMC CS0 default Data Bus Width input 0 = 8-bit data bus 1 = 16-bit data bus The CS0BW pin is also used by the ROM bootloader to set up the size of BAR ranges in PCIe boot mode.⁽⁴⁾
GPMC_A[7]/GP0[15]/ CS0MUX[1]	AD3	I	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL228	GPMC CS0 default Address/Data multiplexing mode input 00 = Not multiplexed 01 = A/A/D muxed 10 = A/D muxed 11 = Reserved The CS0MUX[1:0] pins are also used by the ROM bootloader to set up the size of BAR ranges in PCIe boot mode.⁽⁴⁾
GPMC_A[6]/GP0[14]/ CS0MUX[0]	AD8	I	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL227
GPMC_A[9]/GP0[17]/ CS0WAIT	AD2	I	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL230	GPMC CS0 default GPMC_Wait enable input 0 = Wait disabled 1 = Wait enabled The CS0WAIT pin is also used by the ROM bootloader to set up the size of BAR ranges in PCIe boot mode.⁽⁴⁾

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

(4) For details on the BAR ranges setup, see the ROM Code Memory and Peripheral Booting chapter of the AM389x Sitara ARM Processors Technical Reference Manual (literature number SPRUGX7).

4.2.2 DDR2 and DDR3 Memory Controller Signals

Table 4-2 DDR2 and DDR3 Memory Controller 0 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
DDR[0]_CLK[0]	B12	O	DVDD_DDR[0]	DDR[0] Clock 0
DDR[0]_CLK[0]	A12	O	DVDD_DDR[0]	DDR[0] Negative Clock 0
DDR[0]_CLK[1]	A15	O	DVDD_DDR[0]	DDR[0] Clock 1
DDR[0]_CLK[1]	B15	O	DVDD_DDR[0]	DDR[0] Negative Clock 1
DDR[0]_CKE	C18	O	DVDD_DDR[0]	DDR[0] Clock Enable
DDR[0]_WE	E13	O	DVDD_DDR[0]	DDR[0] Write Enable
DDR[0]_CS[0]	B17	O	DVDD_DDR[0]	DDR[0] Chip Select 0
DDR[0]_CS[1]	F18	O	DVDD_DDR[0]	DDR[0] Chip Select 1
DDR[0]_RAS	D13	O	DVDD_DDR[0]	DDR[0] Row Address Strobe output
DDR[0]_CAS	C13	O	DVDD_DDR[0]	DDR[0] Column Address Strobe output
DDR[0]_DQM[3]	D9	O	DVDD_DDR[0]	DDR[0] Data Mask outputs DDR[0]_DQM[3]: For upper byte data bus DDR[0]_D[31:24] DDR[0]_DQM[2]: For DDR[0]_D[23:16] DDR[0]_DQM[1]: For DDR[0]_D[15:8] DDR[0]_DQM[0]: For lower byte data bus DDR[0]_D[7:0]
DDR[0]_DQM[2]	G9	O	DVDD_DDR[0]
DDR[0]_DQM[1]	B5	O	DVDD_DDR[0]
DDR[0]_DQM[0]	C2	O	DVDD_DDR[0]
DDR[0]_DQS[3]	B9	IO	DVDD_DDR[0]	Data strobe input/outputs for each byte of the 32-bit data bus. They are outputs to the DDR[0] memory when writing and inputs when reading. They are used to synchronize the data transfers. DDR[0]_DQS[3]: For upper byte data bus DDR[0]_D[31:24] DDR[0]_DQS[2]: For DDR[0]_D[23:16] DDR[0]_DQS[1]: For DDR[0]_D[15:8] DDR[0]_DQS[0]: For lower byte data bus DDR[0]_D[7:0]
DDR[0]_DQS[2]	B8	IO	DVDD_DDR[0]
DDR[0]_DQS[1]	B4	IO	DVDD_DDR[0]
DDR[0]_DQS[0]	F4	IO	DVDD_DDR[0]
DDR[0]_DQS[3]	A9	IO	DVDD_DDR[0]	Complementary data strobe input/outputs for each byte of the 32-bit data bus. They are outputs to the DDR[0] memory when writing and inputs when reading. They are used to synchronize the data transfers. DDR[0]_DQS[3]: For upper byte data bus DDR[0]_D[31:24] DDR[0]_DQS[2]: For DDR[0]_D[23:16] DDR[0]_DQS[1]: For DDR[0]_D[15:8] DDR[0]_DQS[0]: For lower byte data bus DDR[0]_D[7:0]
DDR[0]_DQS[2]	A8	IO	DVDD_DDR[0]
DDR[0]_DQS[1]	A4	IO	DVDD_DDR[0]
DDR[0]_DQS[0]	E3	IO	DVDD_DDR[0]
DDR[0]_ODT[0]	E18	O	DVDD_DDR[0]	DDR[0] On-Die Termination for Chip Select 0.
DDR[0]_ODT[1]	A16	O	DVDD_DDR[0]	DDR[0] On-Die Termination for Chip Select 1.
DDR[0]_RST	D18	O	DVDD_DDR[0]	DDR[0] Reset output
DDR[0]_BA[2]	N15	O	DVDD_DDR[0]	DDR[0] Bank Address outputs
DDR[0]_BA[1]	B14	O	DVDD_DDR[0]
DDR[0]_BA[0]	F13	O	DVDD_DDR[0]
DDR[0]_A[14]	D17	O	DVDD_DDR[0]	DDR[0] Address Bus
DDR[0]_A[13]	B16	O	DVDD_DDR[0]
DDR[0]_A[12]	N16	O	DVDD_DDR[0]
DDR[0]_A[11]	B13	O	DVDD_DDR[0]
DDR[0]_A[10]	C14	O	DVDD_DDR[0]
DDR[0]_A[9]	K13	O	DVDD_DDR[0]
DDR[0]_A[8]	N14	O	DVDD_DDR[0]
DDR[0]_A[7]	A14	O	DVDD_DDR[0]
DDR[0]_A[6]	L13	O	DVDD_DDR[0]
DDR[0]_A[5]	J13	O	DVDD_DDR[0]
DDR[0]_A[4]	H13	O	DVDD_DDR[0]
DDR[0]_A[3]	G13	O	DVDD_DDR[0]
DDR[0]_A[2]	D15	O	DVDD_DDR[0]
DDR[0]_A[1]	N17	O	DVDD_DDR[0]
DDR[0]_A[0]	A13	O	DVDD_DDR[0]
DDR[0]_D[31]	C9	IO	DVDD_DDR[0]	DDR[0] Data Bus
DDR[0]_D[30]	J11	IO	DVDD_DDR[0]
DDR[0]_D[29]	C11	IO	DVDD_DDR[0]
DDR[0]_D[28]	G10	IO	DVDD_DDR[0]
DDR[0]_D[27]	E8	IO	DVDD_DDR[0]
DDR[0]_D[26]	B10	IO	DVDD_DDR[0]
DDR[0]_D[25]	B11	IO	DVDD_DDR[0]
DDR[0]_D[24]	E9	IO	DVDD_DDR[0]
DDR[0]_D[23]	E7	IO	DVDD_DDR[0]
DDR[0]_D[22]	F9	IO	DVDD_DDR[0]
DDR[0]_D[21]	D8	IO	DVDD_DDR[0]
DDR[0]_D[20]	F8	IO	DVDD_DDR[0]
DDR[0]_D[19]	B7	IO	DVDD_DDR[0]
DDR[0]_D[18]	H10	IO	DVDD_DDR[0]
DDR[0]_D[17]	A7	IO	DVDD_DDR[0]
DDR[0]_D[16]	C8	IO	DVDD_DDR[0]
DDR[0]_D[15]	B3	IO	DVDD_DDR[0]	DDR[0] Data Bus
DDR[0]_D[14]	A3	IO	DVDD_DDR[0]
DDR[0]_D[13]	B6	IO	DVDD_DDR[0]
DDR[0]_D[12]	A5	IO	DVDD_DDR[0]
DDR[0]_D[11]	D6	IO	DVDD_DDR[0]
DDR[0]_D[10]	C6	IO	DVDD_DDR[0]
DDR[0]_D[9]	D7	IO	DVDD_DDR[0]
DDR[0]_D[8]	C5	IO	DVDD_DDR[0]
DDR[0]_D[7]	C1	IO	DVDD_DDR[0]
DDR[0]_D[6]	F3	IO	DVDD_DDR[0]
DDR[0]_D[5]	B2	IO	DVDD_DDR[0]
DDR[0]_D[4]	D2	IO	DVDD_DDR[0]
DDR[0]_D[3]	G4	IO	DVDD_DDR[0]
DDR[0]_D[2]	E2	IO	DVDD_DDR[0]
DDR[0]_D[1]	F2	IO	DVDD_DDR[0]
DDR[0]_D[0]	B1	IO	DVDD_DDR[0]
DDR[0]_VTP	A6	I	DVDD_DDR[0]	DDR VTP Compensation Resistor Connection

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

(2) Specifies the operating IO supply voltage for each signal.

Table 4-3 DDR2 and DDR3 Memory Controller 1 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
DDR[1]_CLK[0]	B26	O	DVDD_DDR[1]	DDR[1] Clock 0
DDR[1]_CLK[0]	A26	O	DVDD_DDR[1]	DDR[1] Negative Clock 0
DDR[1]_CLK[1]	A23	O	DVDD_DDR[1]	DDR[1] Clock 1
DDR[1]_CLK[1]	B23	O	DVDD_DDR[1]	DDR[1] Negative Clock 1
DDR[1]_CKE	C20	O	DVDD_DDR[1]	DDR[1] Clock Enable
DDR[1]_WE	E25	O	DVDD_DDR[1]	DDR[1] Write Enable
DDR[1]_CS[0]	B21	O	DVDD_DDR[1]	DDR[1] Chip Select 0
DDR[1]_CS[1]	F20	O	DVDD_DDR[1]	DDR[1] Chip Select 1
DDR[1]_RAS	D25	O	DVDD_DDR[1]	DDR[1] Row Address Strobe output
DDR[1]_CAS	C25	O	DVDD_DDR[1]	DDR[1] Column Address Strobe output
DDR[1]_DQM[3]	D29	O	DVDD_DDR[1]	DDR[1] Data Mask outputs DDR[1]_DQM[3]: For upper byte data bus DDR[1]_D[31:24] DDR[1]_DQM[2]: For DDR[1]_D[23:16] DDR[1]_DQM[1]: For DDR[1]_D[15:8] DDR[1]_DQM[0]: For lower byte data bus DDR[1]_D[7:0]
DDR[1]_DQM[2]	G29	O	DVDD_DDR[1]
DDR[1]_DQM[1]	B33	O	DVDD_DDR[1]
DDR[1]_DQM[0]	C36	O	DVDD_DDR[1]
DDR[1]_DQS[3]	B29	O	DVDD_DDR[1]	Data strobe input/outputs for each byte of the 32-bit data bus. They are outputs to the DDR[1] memory when writing and inputs when reading. They are used to synchronize the data transfers. DDR[1]_DQS[3]: For upper byte data bus DDR[1]_D[31:24] DDR[1]_DQS[2]: For DDR[1]_D[23:16] DDR[1]_DQS[1]: For DDR[1]_D[15:8] DDR[1]_DQS[0]: For lower byte data bus DDR[1]_D[7:0]
DDR[1]_DQS[2]	B30	IO	DVDD_DDR[1]
DDR[1]_DQS[1]	B34	IO	DVDD_DDR[1]
DDR[1]_DQS[0]	F34	IO	DVDD_DDR[1]
DDR[1]_DQS[3]	A29	IO	DVDD_DDR[1]	Complementary data strobe input/outputs for each byte of the 32-bit data bus. They are outputs to the DDR[1] memory when writing and inputs when reading. They are used to synchronize the data transfers. DDR[1]_DQS[3]: For upper byte data bus DDR[1]_D[31:24] DDR[1]_DQS[2]: For DDR[1]_D[23:16] DDR[1]_DQS[1]: For DDR[1]_D[15:8] DDR[1]_DQS[0]: For lower byte data bus DDR[1]_D[7:0]
DDR[1]_DQS[2]	A30	IO	DVDD_DDR[1]
DDR[1]_DQS[1]	A34	IO	DVDD_DDR[1]
DDR[1]_DQS[0]	E35	IO	DVDD_DDR[1]
DDR[1]_ODT[0]	E20	O	DVDD_DDR[1]	DDR[1] On-Die Termination for Chip Select 0.
DDR[1]_ODT[1]	A22	O	DVDD_DDR[1]	DDR[1] On-Die Termination for Chip Select 1.
DDR[1]_RST	D20	O	DVDD_DDR[1]	DDR[1] Reset output
DDR[1]_BA[2]	N23	O	DVDD_DDR[1]	DDR[1] Bank Address outputs
DDR[1]_BA[1]	B24	O	DVDD_DDR[1]
DDR[1]_BA[0]	F25	O	DVDD_DDR[1]
DDR[1]_A[14]	D21	O	DVDD_DDR[1]	DDR[1] Address Bus
DDR[1]_A[13]	B22	O	DVDD_DDR[1]
DDR[1]_A[12]	N22	O	DVDD_DDR[1]
DDR[1]_A[11]	B25	O	DVDD_DDR[1]
DDR[1]_A[10]	C24	O	DVDD_DDR[1]
DDR[1]_A[9]	K25	O	DVDD_DDR[1]
DDR[1]_A[8]	N24	O	DVDD_DDR[1]
DDR[1]_A[7]	A24	O	DVDD_DDR[1]
DDR[1]_A[6]	L25	O	DVDD_DDR[1]
DDR[1]_A[5]	J25	O	DVDD_DDR[1]
DDR[1]_A[4]	H25	O	DVDD_DDR[1]
DDR[1]_A[3]	G25	O	DVDD_DDR[1]
DDR[1]_A[2]	D23	O	DVDD_DDR[1]
DDR[1]_A[1]	N21	O	DVDD_DDR[1]
DDR[1]_A[0]	A25	O	DVDD_DDR[1]
DDR[1]_D[31]	C29	IO	DVDD_DDR[1]	DDR[1] Data Bus
DDR[1]_D[30]	J27	IO	DVDD_DDR[1]
DDR[1]_D[29]	C27	IO	DVDD_DDR[1]
DDR[1]_D[28]	G28	IO	DVDD_DDR[1]
DDR[1]_D[27]	E30	IO	DVDD_DDR[1]
DDR[1]_D[26]	B28	IO	DVDD_DDR[1]
DDR[1]_D[25]	B27	IO	DVDD_DDR[1]
DDR[1]_D[24]	E29	IO	DVDD_DDR[1]
DDR[1]_D[23]	E31	IO	DVDD_DDR[1]
DDR[1]_D[22]	F29	IO	DVDD_DDR[1]
DDR[1]_D[21]	D30	IO	DVDD_DDR[1]
DDR[1]_D[20]	F30	IO	DVDD_DDR[1]
DDR[1]_D[19]	B31	IO	DVDD_DDR[1]
DDR[1]_D[18]	H28	IO	DVDD_DDR[1]
DDR[1]_D[17]	A31	IO	DVDD_DDR[1]
DDR[1]_D[16]	C30	IO	DVDD_DDR[1]
DDR[1]_D[15]	B35	IO	DVDD_DDR[1]	DDR[1] Data Bus
DDR[1]_D[14]	A35	IO	DVDD_DDR[1]
DDR[1]_D[13]	B32	IO	DVDD_DDR[1]
DDR[1]_D[12]	A33	IO	DVDD_DDR[1]
DDR[1]_D[11]	D32	IO	DVDD_DDR[1]
DDR[1]_D[10]	C32	IO	DVDD_DDR[1]
DDR[1]_D[9]	D31	IO	DVDD_DDR[1]
DDR[1]_D[8]	C33	IO	DVDD_DDR[1]
DDR[1]_D[7]	C37	IO	DVDD_DDR[1]
DDR[1]_D[6]	F35	IO	DVDD_DDR[1]
DDR[1]_D[5]	B36	IO	DVDD_DDR[1]
DDR[1]_D[4]	D36	IO	DVDD_DDR[1]
DDR[1]_D[3]	G34	IO	DVDD_DDR[1]
DDR[1]_D[2]	E36	IO	DVDD_DDR[1]
DDR[1]_D[1]	F36	IO	DVDD_DDR[1]
DDR[1]_D[0]	B37	IO	DVDD_DDR[1]
DDR[1]_VTP	A32	I	DVDD_DDR[1]	DDR VTP Compensation Resistor Connection

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

(2) Specifies the operating IO supply voltage for each signal.

4.2.3 Ethernet Media Access Controller (EMAC) Signals

Table 4-4 EMAC Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
MDIO_MCLK	AH37	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL275	Management Data Serial Clock output
MDIO_MDIO	AH36	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL276	Management Data IO
EMAC0
EMAC[0]_COL	AB25	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL251	[G]MII Collision Detect (Sense) input
EMAC[0]_CRS	AA25	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL252	[G]MII Carrier Sense input
EMAC[0]_GMTCLK	AC37	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL253	GMII Source Asynchronous Transmit Clock
EMAC[0]_RXCLK	AE37	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL254	[G]MII Receive Clock
EMAC[0]_RXD[7]	AE36	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL262	[G]MII Receive Data [7:0]. For 1000 EMAC GMII operation, EMAC[0]_RXD[7:0] are used. For 10/100 EMAC MII operation, only EMAC[0]_RXD[3:0] are used.
EMAC[0]_RXD[6]	AC25			- PINCTRL261
EMAC[0]_RXD[5]	AD25			- PINCTRL260
EMAC[0]_RXD[4]	AC35			- PINCTRL259
EMAC[0]_RXD[3]	AD35			- PINCTRL258
EMAC[0]_RXD[2]	AC36			- PINCTRL257
EMAC[0]_RXD[1]	AD36			- PINCTRL256
EMAC[0]_RXD[0]	AD37			- PINCTRL255
EMAC[0]_RXDV	AE35	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL263	[G]MII Receive Data Valid input
EMAC[0]_RXER	AE34	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL264	[G]MII Receive Data Error input
EMAC[0]_TXCLK	AF37	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL265	[G]MII Transmit Clock input
EMAC[0]_TXD[7]	AG35	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL273	[G]MII Transmit Data [7:0]. For 1000 EMAC GMII operation, EMAC[0]_TXD[7:0] are used. For 10/100 EMAC MII operation, only EMAC[0]_TXD[3:0] are used.
EMAC[0]_TXD[6]	AG36			- PINCTRL272
EMAC[0]_TXD[5]	AF36			- PINCTRL271
EMAC[0]_TXD[4]	AG28			- PINCTRL270
EMAC[0]_TXD[3]	AE30			- PINCTRL269
EMAC[0]_TXD[2]	AE31			- PINCTRL268
EMAC[0]_TXD[1]	AE32			- PINCTRL267
EMAC[0]_TXD[0]	AE33			- PINCTRL266
EMAC[0]_TXEN	AG37	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL274	[G]MII Transmit Data Enable output
EMAC1
EMAC[1]_COL	AR30	I	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL72	[G]MII Collision Detect (Sense) input
EMAC[1]_CRS	AN31	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL73	[G]MII Carrier Sense input
EMAC[1]_GMTCLK	AU33	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL61	GMII Source Asynchronous Transmit Clock
EMAC[1]_RXCLK	AT37	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL51	[G]MII Receive Clock
EMAC[1]_RXD[7]	AP32	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL59	[G]MII Receive Data [7:0]. For 1000 EMAC GMII operation, EMAC[1]_RXD[7:0] are used. For 10/100 EMAC MII operation, only EMAC[1]_RXD[3:0] are used.
EMAC[1]_RXD[6]	AU34			- PINCTRL58
EMAC[1]_RXD[5]	AR33			- PINCTRL57
EMAC[1]_RXD[4]	AU35			- PINCTRL56
EMAC[1]_RXD[3]	AT34			- PINCTRL55
EMAC[1]_RXD[2]	AU36			- PINCTRL54
EMAC[1]_RXD[1]	AT35			- PINCTRL53
EMAC[1]_RXD[0]	AT36			- PINCTRL52
EMAC[1]_RXDV	AT33	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL60	[G]MII Receive Data Valid input
EMAC[1]_RXER	AN30	I	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL74	[G]MII Receive Data Error input
EMAC[1]_TXCLK	AT30	I	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL71	[G]MII Transmit Clock input
EMAC[1]_TXD[7]	AM30	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL69	[G]MII Transmit Data [7:0]. For 1000 EMAC GMII operation, EMAC[1]_TXD[7:0] are used. For 10/100 EMAC MII operation, only EMAC[1]_TXD[3:0] are used.
EMAC[1]_TXD[6]	AP30			- PINCTRL68
EMAC[1]_TXD[5]	AT31			- PINCTRL67
EMAC[1]_TXD[4]	AU31			- PINCTRL66
EMAC[1]_TXD[3]	AU32			- PINCTRL65
EMAC[1]_TXD[2]	AT32			- PINCTRL64
EMAC[1]_TXD[1]	AR32			- PINCTRL63
EMAC[1]_TXD[0]	AP31			- PINCTRL62
EMAC[1]_TXEN	AU30	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL70	[G]MII Transmit Data Enable output

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.4 General-Purpose Input/Output (GPIO) Signals

Table 4-5 GPIO Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
GPIO0
Note: General-Purpose Input/Output (IO) pins can also serve as external interrupt inputs.
TIM7_OUT/ GPMC_A[12]/ GP0[31]	G1	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM7, GPMC PINCTRL206	General-Purpose Input/Output (IO) 0 [GP0] pin 31.
TIM6_OUT/ GPMC_A[24]/ GP0[30]	H1	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM6, GPMC PINCTRL205	General-Purpose Input/Output (IO) 0 [GP0] pin 30.
TIM5_OUT/ GP0[29]	H34	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM5 PINCTRL204	General-Purpose Input/Output (IO) 0 [GP0] pin 29.
TIM4_OUT/ GP0[28]	H33	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM4 PINCTRL203	General-Purpose Input/Output (IO) 0 [GP0] pin 28.
GPMC_A[12]/ GP0[27]	H2	IO	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL202	General-Purpose Input/Output (IO) 0 [GP0] pin 27.
GPMC_A[21]/ GP0[26]	H3	IO	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL201	General-Purpose Input/Output (IO) 0 [GP0] pin 26.
GP0[25]	H4	IO	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	- PINCTRL200	General-Purpose Input/Output (IO) 0 [GP0] pin 25.
GPMC_A[13]/ GP0[24]	H6	IO	PULL: IPU / IPD DRIVE: H / L DVDD_3P3	GPMC PINCTRL199	General-Purpose Input/Output (IO) 0 [GP0] pin 24.
GPMC_A[14]/ GP0[23]	H5	IO	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GPMC PINCTRL198	General-Purpose Input/Output (IO) 0 [GP0] pin 23.
GPMC_A[15]/ GP0[22]	J1	IO	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	GPMC PINCTRL197	General-Purpose Input/Output (IO) 0 [GP0] pin 22.
GPMC_A[16]/ GP0[21]	J2	IO	PULL: DIS / IPD DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL196	General-Purpose Input/Output (IO) 0 [GP0] pin 21.
GPMC_A[27]/ GP0[20]	AC5	IO	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL233	General-Purpose Input/Output (IO) 0 [GP0] pin 20.
GPMC_A[11]/ GP0[19]	AC2	IO	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL232	General-Purpose Input/Output (IO) 0 [GP0] pin 19.
GPMC_A[10]/ GP0[18]	AD1	IO	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL231	General-Purpose Input/Output (IO) 0 [GP0] pin 18.
GPMC_A[9]/ GP0[17]/ CS0WAIT	AD2	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL230	General-Purpose Input/Output (IO) 0 [GP0] pin 17.
GPMC_A[8]/ GP0[16]/ CS0BW	AD4	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL229	General-Purpose Input/Output (IO) 0 [GP0] pin 16.
GPMC_A[7]/ GP0[15]/ CS0MUX[1]	AD3	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL228	General-Purpose Input/Output (IO) 0 [GP0] pin 15.
GPMC_A[6]/ GP0[14]/ CS0MUX[0]	AD8	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL227	General-Purpose Input/Output (IO) 0 [GP0] pin 14.
GPMC_A[5]/ GP0[13]/ BTMODE[4]	AE2	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL226	General-Purpose Input/Output (IO) 0 [GP0] pin 13.
GPMC_A[4]/ GP0[12]/ BTMODE[3]	AE1	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL225	General-Purpose Input/Output (IO) 0 [GP0] pin 12.
GPMC_A[3]/ GP0[11]/ BTMODE[2]	AE3	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL224	General-Purpose Input/Output (IO) 0 [GP0] pin 11.
GPMC_A[2]/ GP0[10]/ BTMODE[1]	AE4	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL223	General-Purpose Input/Output (IO) 0 [GP0] pin 10.
GPMC_A[1]/ GP0[9]/ BTMODE[0]	AE5	IO	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GPMC, BOOT PINCTRL222	General-Purpose Input/Output (IO) 0 [GP0] pin 9.
GPMC_A[0]/ GP0[8]	AE6	IO	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL221	General-Purpose Input/Output (IO) 0 [GP0] pin 8.
GP0[7]/ MCA[0]_AMUTEIN	H35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[0] PINCTRL298	General-Purpose Input/Output (IO) 0 [GP0] pin 7.
GP0[6]/ MCA[1]_AMUTEIN/ GPMC_A[23]	G5	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[1], GPMC PINCTRL297	General-Purpose Input/Output (IO) 0 [GP0] pin 6.
GP0[5]/ MCA[2]_AMUTEIN/ GPMC_A[24]	G2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], GPMC PINCTRL296	General-Purpose Input/Output (IO) 0 [GP0] pin 5.
GP0[4]	H32	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL295	General-Purpose Input/Output (IO) 0 [GP0] pin 4.
GP0[3]/ TCLKIN	J31	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	Timer CLKIN PINCTRL294	General-Purpose Input/Output (IO) 0 [GP0] pin 3.
GP0[2]	K30	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL293	General-Purpose Input/Output (IO) 0 [GP0] pin 2.
GP0[1]	L29	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL292	General-Purpose Input/Output (IO) 0 [GP0] pin 1.
GP0[0]	K31	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL291	General-Purpose Input/Output (IO) 0 [GP0] pin 0.
GPIO1
Note: General-Purpose Input/Output (IO) pins can also serve as external interrupt inputs.
GP1[31]/ SATA_ACT1_LED (silicon revision 1.x) SATA_ACT0_LED (silicon revision 2.x)	J33	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SATA PINCTRL300	General-Purpose Input/Output (IO) 1 [GP1] pin 31.
GP1[30]/ SATA_ACT0_LED (silicon revision 1.x) SATA_ACT1_LED (silicon revision 2.x)	J32	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SATA PINCTRL299	General-Purpose Input/Output (IO) 1 [GP1] pin 30.
GPMC_CLK/ GP1[29]	V1	IO	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GPMC PINCTRL250	General-Purpose Input/Output (IO) 1 [GP1] pin 29.
UART0_CTS/ GP1[28]	N7	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0 PINCTRL176	General-Purpose Input/Output (IO) 1 [GP1] pin 28.
UART0_RTS/ GP1[27]	N9	IO	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART0 PINCTRL175	General-Purpose Input/Output (IO) 1 [GP1] pin 27.
UART1_CTS/ GPMC_A[13]/ GPMC_A[17]/ GP1[26]	L3	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART1, GPMC PINCTRL184	General-Purpose Input/Output (IO) 1 [GP1] pin 26.
UART1_RTS/ GPMC_A[14]/ GPMC_A[18]/ GP1[25]	M2	IO	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART1, GPMC PINCTRL183	General-Purpose Input/Output (IO) 1 [GP1] pin 25.
UART2_CTS/ GPMC_A[16]/ GPMC_A[25]/ GP1[24]	K7	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART2, GPMC PINCTRL188	General-Purpose Input/Output (IO) 1 [GP1] pin 24.
UART2_RTS/ GPMC_A[15]/ GPMC_A[26]/ GP1[23]	L9	IO	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART2, GPMC PINCTRL187	General-Purpose Input/Output (IO) 1 [GP1] pin 23.
SPI_SCS[3]/ GPMC_A[21]/ GP1[22]	P1	IO	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	SPI, GPMC PINCTRL170	General-Purpose Input/Output (IO) 1 [GP1] pin 22.
GPMC_CS[4]/ GP1[21]	AG3	IO	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	GPMC PINCTRL211	General-Purpose Input/Output (IO) 1 [GP1] pin 21.
GPMC_DIR/ GP1[20]	AE7	IO	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL218	General-Purpose Input/Output (IO) 1 [GP1] pin 20.
UART0_RIN/ GPMC_A[17]/ GPMC_A[22]/ GP1[19]	N3	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC PINCTRL180	General-Purpose Input/Output (IO) 1 [GP1] pin 19.
UART0_DCD/ GPMC_A[18]/ GPMC_A[23]/ GP1[18]	N5	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC PINCTRL179	General-Purpose Input/Output (IO) 1 [GP1] pin 18.
UART0_DSR/ GPMC_A[19]/ GPMC_A[24]/ GP1[17]	N4	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC PINCTRL178	General-Purpose Input/Output (IO) 1 [GP1] pin 17.
UART0_DTR/ GPMC_A[20]/ GPMC_A[12]/ GP1[16]	N6	IO	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART0, GPMC PINCTRL177	General-Purpose Input/Output (IO) 1 [GP1] pin 16.
GPMC_A[24]/ GP1[15]	J3	IO	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL195	General-Purpose Input/Output (IO) 1 [GP1] pin 15.
GPMC_A[23]/ GP1[14]	J4	IO	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL194	General-Purpose Input/Output (IO) 1 [GP1] pin 14.
GP1[13]	J5	IO	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	- PINCTRL193	General-Purpose Input/Output (IO) 1 [GP1] pin 13.
GPMC_A[25]/ GP1[12]	J7	IO	PULL: IPU / IPD DRIVE: H / L DVDD_3P3	GPMC PINCTRL192	General-Purpose Input/Output (IO) 1 [GP1] pin 12.
GPMC_A[26]/ GP1[11]	J6	IO	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GPMC PINCTRL191	General-Purpose Input/Output (IO) 1 [GP1] pin 11.
GPMC_A[22]/ GP1[10]	K2	IO	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	GPMC PINCTRL190	General-Purpose Input/Output (IO) 1 [GP1] pin 10.
GPMC_A[27]/ GP1[9]	K8	IO	PULL: DIS / IPD DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL189	General-Purpose Input/Output (IO) 1 [GP1] pin 9.
SD_SDWP/ GPMC_A[15]/ GP1[8]	R5	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL165	General-Purpose Input/Output (IO) 1 [GP1] pin 8.
SD_SDCD/ GPMC_A[16]/ GP1[7]	R13	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL164	General-Purpose Input/Output (IO) 1 [GP1] pin 7.
SD_DAT[3]/ GPMC_A[17]/ GP1[6]	T13	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL163	General-Purpose Input/Output (IO) 1 [GP1] pin 6.
SD_DAT[2]_SDRW/ GPMC_A[18]/ GP1[5]	T2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL162	General-Purpose Input/Output (IO) 1 [GP1] pin 5.
SD_DAT[1]_SDIRQ/ GPMC_A[19]/ GP1[4]	T1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL161	General-Purpose Input/Output (IO) 1 [GP1] pin 4.
SD_DAT[0]/ GPMC_A[20]/ GP1[3]	U1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL160	General-Purpose Input/Output (IO) 1 [GP1] pin 3.
SD_CMD/ GPMC_A[21]/ GP1[2]	U3	IO	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	SD, GPMC PINCTRL159	General-Purpose Input/Output (IO) 1 [GP1] pin 2.
SD_CLK/ GPMC_A[13]/ GP1[1]	U2	IO	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	SD, GPMC PINCTRL158	General-Purpose Input/Output (IO) 1 [GP1] pin 1.
SD_POW/ GPMC_A[14]/ GP1[0]	U4	IO	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	SD, GPMC PINCTRL157	General-Purpose Input/Output (IO) 1 [GP1] pin 0.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.5 General-Purpose Memory Controller (GPMC) Signals

Table 4-6 GPMC Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
GPMC_CLK/ GP1[29]	V1	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GP1	GPMC Clock output
GPMC_CS[5]/ GPMC_A[12]	AG1	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	GPMC PINCTRL212	GPMC Chip Select 5
GPMC_CS[4]/ GP1[21]	AG3	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	GP1 PINCTRL211	GPMC Chip Select 4
GPMC_CS[3]	AG9	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL210	GPMC Chip Select 3
GPMC_CS[2]	AH2	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL209	GPMC Chip Select 2
GPMC_CS[1]	AH1	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL208	GPMC Chip Select 1
GPMC_CS[0]	AH7	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL207	GPMC Chip Select 0
GPMC_WE	AG2	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL213	GPMC Write Enable output
GPMC_OE_RE	AF2	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	- PINCTRL214	GPMC Output Enable output
GPMC_BE1	AF1	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	- PINCTRL216	GPMC Upper Byte Enable output
GPMC_BE0_CLE	AE11	O	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	- PINCTRL215	GPMC Lower Byte Enable output or Command Latch Enable output
GPMC_ADV_ALE	AE10	O	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	- PINCTRL217	GPMC Address Valid output or Address Latch Enable output
GPMC_DIR/ GP1[20]	AE7	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GP1 PINCTRL218	GPMC Direction Control for External Transceivers
GPMC_WP	AE9	O	PULL: IPU / IPD DRIVE: H / L DVDD_3P3	- PINCTRL219	GPMC Write Protect output
GPMC_WAIT	AE8	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL220	GPMC Wait input
GPMC_A[27]/ GP0[20]	AC5	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL233	GPMC Address 27
GPMC_A[27]/ GP1[9]	K8	O	PULL: DIS / IPD DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL189	GPMC Address 27
UART1_RXD/ GPMC_A[26]/ GPMC_A[20]	N1	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	UART1, GPMC PINCTRL181	GPMC Address 26
UART2_RTS/ GPMC_A[15]/ GPMC_A[26]/ GP1[23]	L9	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART2, GPMC, GP1 PINCTRL187
GPMC_A[26]/ GP1[11]	J6	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GP1 PINCTRL191
UART1_TXD/ GPMC_A[25]/ GPMC_A[19]	N2	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	UART1, GPMC PINCTRL182	GPMC Address 25
UART2_CTS/ GPMC_A[16]/ GPMC_A[25]/ GP1[24]	K7	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART2, GPMC, GP1 PINCTRL188
GPMC_A[25]/ GP1[12]	J7	O	PULL: IPU / IPD DRIVE: H / L DVDD_3P3	GP1 PINCTRL192
GP0[5]/ MCA[2]_AMUTEIN/ GPMC_A[24]	G2	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0, MCA[2] PINCTRL296	GPMC Address 24
GPMC_A[24]/ GP1[15]	J3	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GP1 PINCTRL195
TIM6_OUT/ GPMC_A[24]/ GP0[30]	H1	O	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM6, GP0 PINCTRL205
UART0_DSR/ GPMC_A[19]/ GPMC_A[24]/ GP1[17]	N4	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL178
GP0[6]/ MCA[1]_AMUTEIN/ GPMC_A[23]	G5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0, MCA[1] PINCTRL297	GPMC Address 23
SPI_SCS[1]/ GPMC_A[23]	P2	O	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	SPI PINCTRL168
UART0_DCD/ GPMC_A[18]/ GPMC_A[23]/ GP1[18]	N5	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL179
GPMC_A[23]/ GP1[14]	J4	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GP1 PINCTRL194
SPI_SCS[2]/ GPMC_A[22]	P3	O	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	SPI PINCTRL169	GPMC Address 22
GPMC_A[22]/ GP1[10]	K2	O	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	GP1 PINCTRL190
UART0_RIN/ GPMC_A[17]/ GPMC_A[22]/ GP1[19]	N3	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL180
SPI_SCS[3]/ GPMC_A[21]/ GP1[22]	P1	O	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	SPI, GP1 PINCTRL170	GPMC Address 21
SD_CMD/ GPMC_A[21]/ GP1[2]	U3	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL159
GPMC_A[21]/ GP0[26]	H3	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GP0 PINCTRL201
SD_DAT[0]/ GPMC_A[20]/ GP1[3]	U1	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL160	GPMC Address 20
UART0_DTR/ GPMC_A[20]/ GPMC_A[12]/ GP1[16]	N6	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART0, GPMC, GP1 PINCTRL177
UART1_RXD/ GPMC_A[26]/ GPMC_A[20]	N1	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	UART12, GPMC PINCTRL181
UART0_DSR/ GPMC_A[19]/ GPMC_A[24]/ GP1[17]	N4	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL178	GPMC Address 19
SD_DAT[1]_SDIRQ/ GPMC_A[19]/ GP1[4]	T1	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL161
UART1_TXD/ GPMC_A[25]/ GPMC_A[19]	N2	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	UART1, GPMC PINCTRL182
SD_DAT[2]_SDRW/ GPMC_A[18]/ GP1[5]	T2	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL162	GPMC Address 18
UART0_DCD/ GPMC_A[18]/ GPMC_A[23]/ GP1[18]	N5	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL179
UART1_RTS/ GPMC_A[14]/ GPMC_A[18]/ GP1[25]	M2	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART1, GPMC, GP1 PINCTRL183
SD_DAT[3]/ GPMC_A[17]/ GP1[6]	T13	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL163	GPMC Address 17
UART0_RIN/ GPMC_A[17]/ GPMC_A[22]/ GP1[19]	N3	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART0, GPMC, GP1 PINCTRL180
UART1_CTS/ GPMC_A[13]/ GPMC_A[17]/ GP1[26]	L3	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART1, GPMC, GP1 PINCTRL184
SD_SDCD/ GPMC_A[16]/ GP1[7]	R13	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL164	GPMC Address 16
UART2_CTS/ GPMC_A[16]/ GPMC_A[25]/ GP1[24]	K7	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART2, GPMC, GP1 PINCTRL188
GPMC_A[16]/ GP0[21]	J2	O	PULL: DIS / IPD DRIVE: Z / Z DVDD_3P3	GPMC, GP0 PINCTRL196
SD_SDWP/ GPMC_A[15]/ GP1[8]	R5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	SD, GP1 PINCTRL165	GPMC Address 15
UART2_RTS/ GPMC_A[15]/ GPMC_A[26]/ GP1[23]	L9	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART2, GPMC, GP1 PINCTRL187
GPMC_A[15]/ GP0[22]	J1	O	PULL: IPU / DIS DRIVE: H / L DVDD_3P3	GP0 PINCTRL197
SD_POW/ GPMC_A[14]/ GP1[0]	U4	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	SD, GPMC, GP1 PINCTRL157	GPMC Address 14
UART1_RTS/ GPMC_A[14]/ GPMC_A[18]/ GP1[25]	M2	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART1, GPMC, GP1 PINCTRL183
GPMC_A[14]/ GP0[23]	H5	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GP0 PINCTRL198
SD_CLK/ GPMC_A[13] / GP1[1]	U2	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	SD, GP1 PINCTRL158	GPMC Address 13
UART1_CTS/ GPMC_A[13]/ GPMC_A[17]/ GP1[26]	L3	O	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	UART1, GPMC, GP1 PINCTRL184
GPMC_A[13]/ GP0[24]	H6	O	PULL: IPU / IPD DRIVE: H / L DVDD_3P3	GP0 PINCTRL199
UART0_DTR/ GPMC_A[20]/ GPMC_A[12]/ GP1[16]	N6	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	UART0, GPMC, GP1 PINCTRL177	GPMC Address 12
GPMC_A[12]/ GP0[27]	H2	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GP0 PINCTRL202
TIM7_OUT/ GPMC_A[12]/ GP0[31]	G1	O	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	TIM7, GP0 PINCTRL206
GPMC_CS[5]/ GPMC_A[12]	AG1	O	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	GPMC PINCTRL212
GPMC_A[11]/ GP0[19]	AC2	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL232	GPMC Address 11
GPMC_A[10]/ GP0[18]	AD1	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL231	GPMC Address 10
GPMC_A[9]/ GP0[17]/ CS0WAIT	AD2	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL230	GPMC Address 9
GPMC_A[8]/ GP0[16]/ CS0BW	AD4	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL229	GPMC Address 8
GPMC_A[7]/ GP0[15]/ CS0MUX[1]	AD3	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL228	GPMC Address 7
GPMC_A[6]/ GP0[14]/ CS0MUX[0]	AD8	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL227	GPMC Address 6
GPMC_A[5]/ GP0[13]/ BTMODE[4]	AE2	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL226	GPMC Address 5
GPMC_A[4]/ GP0[12]/ BTMODE[3]	AE1	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL225	GPMC Address 4
GPMC_A[3]/ GP0[11]/ BTMODE[2]	AE3	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL224	GPMC Address 3
GPMC_A[2]/ GP0[10]/ BTMODE[1]	AE4	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL223	GPMC Address 2
GPMC_A[1]/ GP0[9]/ BTMODE[0]	AE5	O	PULL: IPU / DIS DRIVE: Z / Z DVDD_3P3	GP0, BOOT PINCTRL222	GPMC Address 1
GPMC_A[0]/ GP0[8]	AE6	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL221	GPMC Address 0
GPMC_D[15]	V2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL249	GPMC Data IOs. Only D[7:0] are used for 8-bit interfaces
GPMC_D[14]	V3	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL248
GPMC_D[13]	V10	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL247
GPMC_D[12]	W2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL246
GPMC_D[11]	W1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL245
GPMC_D[10]	W3	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL244
GPMC_D[9]	Y1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL243
GPMC_D[8]	W4	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL242
GPMC_D[7]	Y2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL241
GPMC_D[6]	Y10	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL240
GPMC_D[5]	AA2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL239
GPMC_D[4]	Y3	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL238
GPMC_D[3]	AA3	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL237
GPMC_D[2]	AB2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL236
GPMC_D[1]	AA4	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL235
GPMC_D[0]	AC1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL234

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.6 High-Definition Multimedia Interface (HDMI) Signals

Table 4-7 HDMI Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
HDMI_TMDSCLKP	AT24	O	- VDDA_HDMI	-	HDMI Clock Output. When the HDMI PHY is powered down, these pins should be left unconnected.
HDMI_TMDSCLKN	AU24	O	- VDDA_HDMI	-
HDMI_TMDSDN2	AU27	O	- VDDA_HDMI	-	HDMI Data 2 output. When the HDMI PHY is powered down, these pins should be left unconnected.
HDMI_TMDSDP2	AT27	O	- VDDA_HDMI	-
HDMI_TMDSDN1	AU26	O	- VDDA_HDMI	-	HDMI Data 1 output. When the HDMI PHY is powered down, these pins should be left unconnected.
HDMI_TMDSDP1	AT26	O	- VDDA_HDMI	-
HDMI_TMDSDN0	AU25	O	- VDDA_HDMI	-	HDMI Data 0 output. When the HDMI PHY is powered down, these pins should be left unconnected.
HDMI_TMDSDP0	AT25	O	- VDDA_HDMI	-
HDMI_SCL	AL25	O	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL301	HDMI I2C Serial Clock Output
HDMI_SDA	AK25	IO	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL302	HDMI I2C Serial Data IO
HDMI_CEC	AP25	IO	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL303	HDMI Consumer Electronics Control IO
HDMI_HPDET	AE24	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL304	HDMI Hot Plug Detect Input. Signals the connection / removal of an HDMI cable at the connector.
HDMI_EXTSWING	AN25	A	-	-	HDMI Voltage Reference. When HDMI is used, this pin must be connected via an external 6.8K-Ω (±1% tolerance) resistor to V_SS. When the HDMI PHY is powered down, this pin should be left unconnected.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.7 Inter-Integrated Circuit (I2C) Signals

Table 4-8 I2C Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
I2C0
I2C[0]_SCL	N32	IO	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL287	I2C0 Clock IO
I2C[0]_SDA	N33	IO	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL288	I2C0 Data IO
I2C1
I2C[1]_SCL	N34	IO	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL289	I2C1 Clock IO
I2C[1]_SDA	N35	IO	PULL: DIS / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL290	I2C1 Data IO

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.8 Multichannel Audio Serial Port Signals

Table 4-9 McASP0 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
MCA[0]_ACLKR	AK28	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL126	McASP0 Receive Bit Clock IO
MCA[0]_AHCLKR	AJ27	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL127	McASP0 Receive High-Frequency Master Clock IO
MCA[0]_AFSR	AG29	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL128	McASP0 Receive Frame Sync IO
GP0[7]/ MCA[0]_AMUTEIN	H35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL298	McASP0 Mute Input
MCA[0]_ACLKX	AH30	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL129	McASP0 Transmit Bit Clock IO
MCA[0]_AHCLKX	AH31	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL130	McASP0 Transmit High-Frequency Master Clock IO
MCA[0]_AFSX	AJ31	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL131	McASP0 Transmit Frame Sync IO
MCA[0]_AMUTE	AJ35	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL132	McASP0 Mute Output
MCA[0]_AXR[5]/ MCB_DR	AJ37	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL138	McASP0 Transmit/Receive Data IOs
MCA[0]_AXR[4]/ MCB_DX	AJ36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL137
MCA[0]_AXR[3]/ MCB_FSR	AJ34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL136
MCA[0]_AXR[2]/ MCB_FSX	AJ33	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL135
MCA[0]_AXR[1]	AJ32	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL134
MCA[0]_AXR[0]	AK37	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL133

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-10 McASP1 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
MCA[1]_ACLKR	AK36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL139	McASP1 Receive Bit Clock IO
MCA[1]_AHCLKR	AL37	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL140	McASP1 Receive High-Frequency Master Clock IO
MCA[1]_AFSR	AK35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL141	McASP1 Receive Frame Sync IO
GP0[6]/ MCA[1]_AMUTEIN/ GPMC_A[23]	G5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0, GPMC PINCTRL297	McASP1 Mute Input
MCA[1]_ACLKX	AL36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL142	McASP1 Transmit Bit Clock IO
MCA[1]_AHCLKX	AM37	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL143	McASP1 Transmit High-Frequency Master Clock IO
MCA[1]_AFSX	AK34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL144	McASP1 Transmit Frame Sync IO
MCA[1]_AMUTE	AK33	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL145	McASP1 Mute Output
MCA[1]_AXR[1]	AK32	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL147	McASP1 Transmit/Receive Data IOs
MCA[1]_AXR[0]	AL33	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL146	McASP1 Transmit/Receive Data IOs

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-11 McASP2 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
MCA[2]_ACLKR/ MCB_CLKR/ MCB_DR	AL34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL148	McASP2 Receive Bit Clock IO
MCA[2]_AHCLKR/ MCB_CLKS	AM34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL149	McASP2 Receive High-Frequency Master Clock IO
MCA[2]_AFSR/ MCB_CLKX/ MCB_FSR	AM35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL150	McASP2 Receive Frame Sync IO
GP0[5]/ MCA[2]_AMUTEIN/ GPMC_A[24]	G2	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0, GPMC PINCTRL296	McASP2 Mute Input
MCA[2]_ACLKX/ MCB_CLKX	AM36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL151	McASP2 Transmit Bit Clock IO
MCA[2]_AHCLKX/ MCB_CLKR	AN36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL152	McASP2 Transmit High-Frequency Master Clock IO
MCA[2]_AFSX/ MCB_CLKS/ MCB_FSX	AN35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL153	McASP2 Transmit Frame Sync IO
MCA[2]_AMUTE	AP36	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL154	McASP2 Mute Output
MCA[2]_AXR[1]/ MCB_DX	AR37	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCB PINCTRL156	McASP2 Transmit/Receive Data IOs
MCA[2]_AXR[0]	AR36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL155	McASP2 Transmit/Receive Data IOs

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.9 Multichannel Buffered Serial Port Signals

Table 4-12 McBSP Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
MCA[2]_ACLKR/ MCB_CLKR/ MCB_DR	AL34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL148	McBSP Receive Clock IO
MCA[2]_AHCLKX/ MCB_CLKR	AN36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2] PINCTRL152	McBSP Receive Clock IO
MCA[0]_AXR[3]/ MCB_FSR	AJ34	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[0] PINCTRL136	McBSP Receive Frame Sync IO
MCA[2]_AFSR/ MCB_CLKX/ MCB_FSR	AM35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL150	McBSP Receive Frame Sync IO
MCA[0]_AXR[5]/ MCB_DR	AJ37	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[0] PINCTRL138	McBSP Receive Data Input
MCA[2]_ACLKR/ MCB_CLKR/ MCB_DR	AL34	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL148	McBSP Receive Data Input
MCA[2]_AFSR/ MCB_CLKX/ MCB_FSR	AM35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL150	McBSP Transmit Clock IO
MCA[2]_ACLKX/ MCB_CLKX	AM36	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2] PINCTRL151	McBSP Transmit Clock IO
MCA[0]_AXR[2]/ MCB_FSX	AJ33	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[0] PINCTRL135	McBSP Transmit Frame Sync IO
MCA[2]_AFSX/ MCB_CLKS/ MCB_FSX	AN35	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL153	McBSP Transmit Frame Sync IO
MCA[0]_AXR[4]/ MCB_DX	AJ36	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[0] PINCTRL137	McBSP Transmit Data Output
MCA[2]_AXR[1]/ MCB_DX	AR37	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2] PINCTRL156	McBSP Transmit Data Output
MCA[2]_AHCLKR/ MCB_CLKS	AM34	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2] PINCTRL149	McBSP Source Clock Input
MCA[2]_AFSX/ MCB_CLKS/ MCB_FSX	AN35	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	MCA[2], MCB PINCTRL153	McBSP Source Clock Input

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.10 Oscillator/Phase-Locked Loop (PLL) Signals

Table 4-13 Oscillator/PLL and Clock Generator Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
CLOCK GENERATOR
CLKOUT	F1	O	PULL: IPU / DIS DRIVE: L / L DVDD_3P3	- PINCTRL320	Device Clock output. Can be used as a system clock for other devices
OSCILLATOR/PLL
DEV_MXI/ DEV_CLKIN	A19	I	DIS DEV_DVDD18	-	Device Crystal input. Crystal connection to internal oscillator for system clock. Functions as CLKINDEV clock input when an external oscillator is used.
DEV_MXO	C19	O	DIS DEV_DVDD18	-	Device Crystal output. Crystal connection to internal oscillator for system clock. When device oscillator is BYPASSED, leave this pin unconnected.
DEVOSC_DVDD18	E19	S	-	-	1.8 V Power Supply for Device (DEV) Oscillator. If the internal oscillator is bypassed, DEVOSC_DVDD18 should still be connected to the 1.8-V power supply.
DEVOSC_VSS	B19	GND	-	-	Supply Ground for DEV Oscillator. If the internal oscillator is bypassed, DEVOSC_VSS should be connected to ground (VSS).
CLKIN32	H37	I	PULL: IPU / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL321	RTC Clock input. Optional 32.768 kHz clock for RTC reference. If this pin is not used, it should be held low.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.11 Peripheral Component Interconnect Express (PCIe) Signals

Table 4-14 PCIe Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾	DESCRIPTION
PCIE_TXP0	AB31	O	VDDR_PCIE	PCIE Transmit Data Lane 0. When the PCIe SERDES are powered down, or if this lane is not used, these pins should be left unconnected.
PCIE_TXN0	AB30	O	VDDR_PCIE
PCIE_RXP0	Y29	I	VDDR_PCIE	PCIE Receive Data Lane 0. When the PCIe SERDES are powered down, or if this lane is not used, these pins should be left unconnected.
PCIE_RXN0	V29	I	VDDR_PCIE
PCIE_TXP1	Y27	O	VDDR_PCIE	PCIE Transmit Data Lane 1. When the PCIe SERDES are powered down, or if this lane is not used, these pins should be left unconnected.
PCIE_TXN1	AB28	O	VDDR_PCIE
PCIE_RXP1	V31	I	VDDR_PCIE	PCIE Receive Data Lane 1. When the PCIe SERDES are powered down, or if this lane is not used, these pins should be left unconnected.
PCIE_RXN1	V30	I	VDDR_PCIE
SERDES_CLKP	AB34	I	VDD_LJCB	PCIE Serdes Reference Clock Inputs. Shared between PCI Express and Serial ATA. When neither PCI Express nor Serial ATA are used, these pins should be left unconnected.
SERDES_CLKN	AB33	I	VDD_LJCB

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

(2) Specifies the operating IO supply voltage for each signal.

4.2.12 Reset, Interrupts, and JTAG Interface Signals

Table 4-15 RESET, Interrupts, and JTAG Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
RESET
RESET	G33	I	PULL: IPD / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL316	Device Reset input
POR	F37	I	IPU DVDD_3P3	-	Power-On Reset input
RSTOUT	G37	O	PULL: DIS / DIS DVDD_3P3	- PINCTRL318	Reset output For more detailed information on RSTOUT pin behavior, see Section 8.2.13
INTERRUPTS
NMI	G36	I	PULL: IPD / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL317	External active low maskable interrupt
GP0[31:3]	see Table 4-5	IO	see NOTE	-	Interrupt-capable general-purpose IOs NOTE: All pins are multiplexed with other pin functions. For muxing and internal pullup, pulldown, or disable details, see Table 4-5, GPIO Terminal Functions.
GP1[31:0]	see Table 4-5	IO	see NOTE	-	Interrupt-capable general-purpose IOs NOTE: All pins are multiplexed with other pin functions. For muxing and internal pullup, pulldown, or disable details, see Table 4-5, GPIO Terminal Functions.
JTAG
TCLK	J37	I	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL305	JTAG test clock input
RTCK	J36	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	- PINCTRL306	JTAG return clock output
TDI	J34	I	PULL: IPU / IPU DRIVE: H / H DVDD_3P3	- PINCTRL307	JTAG test data input
TDO	N30	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	- PINCTRL308	JTAG test port data output
TMS	N31	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL309	JTAG test port mode select input. For proper operation, do not oppose the IPU on this pin.
TRST	K36	I	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	- PINCTRL310	JTAG test port reset input
EMU4	M37	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL315	Emulator pin 4
EMU3	M36	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL314	Emulator pin 3
EMU2	L37	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL313	Emulator pin 2
EMU1	L36	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL312	Emulator pin 1
EMU0	J35	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL311	Emulator pin 0

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.13 Secure Digital/Secure Digital Input Output (SD/SDIO) Signals

Table 4-16 SD/SDIO Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
SD_CLK/ GPMC_A[13]/ GP1[1]	U2	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GPMC, GP1 PINCTRL158	SD Clock output
SD_CMD/ GPMC_A[21]/ GP1_[2]	U3	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL159	SD Command output
SD_DAT[0]/ GPMC_A[20]/ GP1[3]	U1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL160	SD Data0 IO. Functions as data bit 0 for 4-bit SD mode and single data bit for 1-bit SD mode.
SD_DAT[1]_SDIRQ/ GPMC_A[19]/ GP1[4]	T1	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GMPC, GP1 PINCTRL161	SD Data1 IO. Functions as data bit 1 for 4-bit SD mode and as an IRQ input for 1-bit SD mode
SD_DAT[2]_SDRW/ GPMC_A[18]/ GP1[5]	T2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL162	SD Data2 IO. Functions as data bit 2 for 4-bit SD mode and as a Read Wait input for 1-bit SD mode.
SD_DAT[3]/ GPMC_A[17]/ GP1[6]	T13	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL163	SD Data3 IO. Functions as data bit 3 for 4-bit SD mode.
SD_POW/ GPMC_A[14]/ GP1[0]	U4	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	GPMC, GP1 PINCTRL157	SD Card Power Enable output
SD_SDCD/ GPMC_A[16]/ GP1[7]	R13	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL164	SD Card Detect input
SD_SDWP/ GPMC_A[15]/ GP1[8]	R5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GMC, GP1 PINCTRL165	SD Card Write Protect input

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.14 Serial ATA Signals

NOTE

Serial ATA pins J32 and J33 have a different naming convention and functionality for silicon revision 1.x devices and silicon revision 2.x devices. These pins are listed separately in Table 4-18.

Table 4-17 Serial ATA Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
SATA_TXN0	T31	O	- VDDR_SATA	-	Serial ATA Data Transmit for disk 0. When the SATA SERDES are powered down, these pins should be left unconnected.
SATA_TXP0	T32	O	- VDDR_SATA	-
SATA_TXN1	U33	O	- VDDR_SATA	-	Serial ATA Data Transmit for disk 1. When the SATA SERDES are powered down, these pins should be left unconnected.
SATA_TXP1	V33	O	- VDDR_SATA	-
SATA_RXN0	V37	I	- VDDR_SATA	-	Serial ATA Data Receive for disk 0. When the SATA SERDES are powered down, these pins should be left unconnected.
SATA_RXP0	V36	I	- VDDR_SATA	-
SATA_RXN1	V35	I	- VDDR_SATA	-	Serial ATA Data Receive for disk 1. When the SATA SERDES are powered down, these pins should be left unconnected.
SATA_RXP1	W35	I	- VDDR_SATA	-
SERDES_CLKP	AB34	I	- VDD_LJCB	-	PCIE Serdes Reference Clock Input. Shared between PCI Express and Serial ATA.
SERDES_CLKN	AB33	I	- VDD_LJCB	-

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-18 Serial ATA [Pins J32, J33] Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
Silicon Revision 1.x
GP1[30]/ SATA_ACT0_LED	J32	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL299	Serial ATA disk 0 Activity LED output
GP1[31]/ SATA_ACT1_LED	J33	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL300	Serial ATA disk 1 Activity LED output
Silicon Revision 2.x
GP1[30]/ SATA_ACT1_LED	J32	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL299	Serial ATA disk 1 Activity LED output
GP1[31]/ SATA_ACT0_LED	J33	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL300	Serial ATA disk 0 Activity LED output

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.15 Serial Peripheral Digital Interconnect Format (SPI) Signals

Table 4-19 SPI Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
SPI_SCLK	R2	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL166	SPI Clock IO
SPI_SCS[3]/ GPMC_A[21]/ GP1[22]	P1	IO	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL170	SPI Chip Select IO
SPI_SCS[2]/ GPMC_A[22]	P3	IO	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL169
SPI_SCS[1]/ GPMC_A[23]	P2	IO	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL168
SPI_SCS[0]	R1	IO	PULL: DIS / IPU DRIVE: Z / Z DVDD_3P3	- PINCTRL167
SPI_D[1]	P13	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL172	SPI Data IO. Can be configured as either MISO or MOSI
SPI_D[0]	N11	IO	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL171	SPI Data IO. Can be configured as either MISO or MOSI

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.16 Timer Signals

Table 4-20 Timer Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
General-Purpose Timers7-1 and Watchdog Timer
GP0[3]/ TCLKIN	J31	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GP0 PINCTRL294	Timer external clock input
Timer7
TIM7_OUT/ GPMC_A[12]/ GP0[31]	G1	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	GPMC, GP0 PINCTRL206	Timer7 capture event input or PWM output
Timer6
TIM6_OUT/ GPMC_A[24]/ GP0[30]	H1	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	GPMC, GP0 PINCTRL205	Timer6 capture event input or PWM output
Timer5
TIM5_OUT/ GP0[29]	H34	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	GP0 PINCTRL204	Timer5 capture event input or PWM output
Timer4
TIM4_OUT/ GP0[28]	H33	IO	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	GP0 PINCTRL203	Timer4 capture event input or PWM output
Timer3-1
There are no external pins on these timers for this device.
Watchdog Timer
WD_OUT	H36	O	PULL: IPU / IPU DRIVE: H / L DVDD_3P3	- PINCTRL319	Watchdog timer event output

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.17 Universal Asynchronous Receiver/Transmitter (UART) Signals

Table 4-21 UART0 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
UART0_RXD	N10	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL173	UART0 Receive Data Input. Functions as IrDA receive input in IrDA modes and CIR receive input in CIR mode.
UART0_TXD	N8	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	- PINCTRL174	UART0 Transmit Data Output. Functions as transmit output in CIR and IrDA modes.
UART0_RTS/ GP1[27]	N9	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	GP1 PINCTRL175	UART0 Request to Send Output. Indicates module is ready to receive data. Functions as SD output in IrDA mode.
UART0_CTS/ GP1[28]	N7	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GP1 PINCTRL176	UART0 Clear to Send Input. Has no function in IrDA and CIR modes.
UART0_DTR/ GPMC_A[20]/ GPMC_A[12]/ GP1[16]	N6	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	GPMC, GP1 PINCTRL177	UART0 Data Terminal Ready Output
UART0_DSR/ GPMC_A[19]/ GPMC_A[24]/ GP1[17]	N4	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL178	UART0 Data Set Ready Input
UART0_DCD/ GPMC_A[18]/ GPMC_A[23]/ GP1[18]	N5	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL179	UART0 Data Carrier Detect Input
UART0_RIN/ GPMC_A[17]/ GPMC_A[22]/ GP1[19]	N3	I	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL180	UART0 Ring Indicator Input

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-22 UART1 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
UART1_RXD/ GPMC_A[26]/ GPMC_A[20]	N1	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	GPMC PINCTRL181	UART1 Receive Data Input. Functions as IrDA receive input in IrDA modes and CIR receive input in CIR mode.
UART1_TXD/ GPMC_A[25]/ GPMC_A[19]	N2	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	GPMC PINCTRL182	UART1 Transmit Data Output. Functions as transmit output in CIR and IrDA modes.
UART1_RTS/ GPMC_A[14]/ GPMC_A[18]/ GP1[25]	M2	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	GPMC, GP1 PINCTRL183	UART1 Request to Send Output. Indicates module is ready to receive data. Functions as SD output in IrDA mode.
UART1_CTS/ GPMC_A[13]/ GPMC_A[17]/ GP1[26]	L3	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL184	UART1 Clear to Send Input. Has no function in IrDA and CIR modes.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-23 UART2 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
UART2_RXD	M1	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL185	UART2 Receive Data Input. Functions as IrDA receive input in IrDA modes and CIR receive input in CIR mode.
UART2_TXD	L2	O	PULL: IPD / IPD DRIVE: L / H DVDD_3P3	- PINCTRL186	UART2 Transmit Data Output. Functions as transmit output in CIR and IrDA modes.
UART2_RTS/ GPMC_A[15]/ GPMC_A[26]/ GP1[23]	L9	O	PULL: IPU / DIS DRIVE: H / H DVDD_3P3	GPMC, GP1 PINCTRL187	UART2 Request to Send Output. Indicates module is ready to receive data. Functions as SD output in IrDA mode.
UART2_CTS/ GPMC_A[16]/ GPMC_A[25]/ GP1[24]	K7	IO	PULL: IPU / IPU DRIVE: Z / Z DVDD_3P3	GPMC, GP1 PINCTRL188	UART2 Clear to Send Input. Has no function in IrDA and CIR modes.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.18 Universal Serial Bus (USB) Signals

Table 4-24 USB Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
USB0
USB0_DP	P37	A IO	-	-	USB0 bidirectional Data Differential signal pair [positive/negative]. When the USB0 PHY is powered down, these pins should be left unconnected.
USB0_DN	P36	A IO	-	-
USB0_R1	N37	A O	-	-	USB0 current reference output. When the USB0 peripheral is used, this pin must be connected via a 44.2-Ω ±1% resistor to VSS. When the USB0 PHY is powered down, this pin should be left unconnected.
USB0_DRVVBUS	P35	O	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	- PINCTRL322	When this pin is used as USB0_DRVVBUS and the USB0 Controller is operating as a Host, this signal is used by the USB0 Controller to enable the external VBUS charge pump. When the USB0 PHY is powered down, this pin should be left unconnected.
VDD_USB0_VBUS	N36	I	-	-	USB0 VBUS input (5 V). The voltage level on this pin is sampled to determine session status. When the USB0 PHY is powered down, this pin should be left unconnected.
USB1
USB1_DP	R37	A IO	-	-	USB1 bidirectional Data Differential signal pair [positive/negative]. When the USB1 PHY is powered down, these pins should be left unconnected.
USB1_DN	R36	A IO	-	-
USB1_R1	T37	A O	-	-	USB1 current reference output. When the USB1 peripheral is used, this pin must be connected via a 44.2-Ω ±1% resistor to VSS. When the USB1 PHY is powered down, this pin should be left unconnected.
USB1_DRVVBUS	R35	O	PULL: IPD / IPD DRIVE: L / L DVDD_3P3	- PINCTRL323	When this pin is used as USB1_DRVVBUS and the USB1 Controller is operating as a Host, this signal is used by the USB1 Controller to enable the external VBUS charge pump. When the USB1 PHY is powered down, this pin should be left unconnected.
VDD_USB1_VBUS	T36	I	-	-	USB1 VBUS input (5 V). The voltage level on this pin is sampled to determine session status. When the USB1 PHY is powered down, this pin should be left unconnected.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.19 Video Input Signals

Table 4-25 Video Input 0 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
VIN[0]A_CLK	AR14	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL83	Video Input 0 Port A Clock input. Input clock for 8-bit, 16-bit, or 24-bit Port A video capture.
VIN[0]B_CLK	AR19	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL84	Video Input 0 Port B Clock input. Input clock for 8-bit Port B video capture. This signal is not used in 16-bit and 24-bit capture modes.
VIN[0]A_D[23]/ VIN[0]B_HSYNC	AT2	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]B PINCTRL15	Video Input 0 Port A Data inputs. For 16-bit capture, D[7:0] are Cb/Cr and [15:8] are Y Port A inputs. For 8-bit capture, D[7:0] are Port A YCbCr data inputs and D[15:8] are Port B YCbCr data inputs. For RGB capture, D[23:16] are R, D[15:8] are G, and D[7:0] are B data inputs.
VIN[0]A_D[22]/ VIN[0]B_VSYNC	AR2	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]B PINCTRL14
VIN[0]A_D[21]/ VIN[0]B_FLD	AU4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]B PINCTRL13
VIN[0]A_D[20]/ VIN[0]B_DE	AN3	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]B PINCTRL12
VIN[0]A_D[19]/ VIN[1]A_DE[0]/ VOUT[1]_C[9]	AK4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A, VOUT[1] PINCTRL25
VIN[0]A_D[18]/ VIN[1]A_FLD/ VOUT[1]_C[8]	AK5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A, VOUT[1] PINCTRL24
VIN[0]A_D[17]/ VIN[1]A_VSYNC/ VOUT[1]_VSYNC (silicon revision 1.x) DAC_VOUT[1]_VSYNC (silicon revision 2.x)	AL5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A, VOUT[1] PINCTRL23
VIN[0]A_D[16]/ VIN[1]A_HSYNC/ VOUT[1]_FLD	AT5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A, VOUT[1] PINCTRL22
VIN[0]A_D[15]	AU14	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL100	Video Input 0 Port A Data inputs. For 16-bit capture, D[7:0] are Cb/Cr and [15:8] are Y Port A inputs. For 8-bit capture, D[7:0] are Port A YCbCr data inputs and D[15:8] are Port B YCbCr data inputs. For RGB capture, D[23:16] are R, D[15:8] are G, and D[7:0] are B data inputs.
VIN[0]A_D[14]	AU15	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL99
VIN[0]A_D[13]	AT15	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL98
VIN[0]A_D[12]	AU16	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL97
VIN[0]A_D[11]	AU17	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL96
VIN[0]A_D[10]	AT16	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL95
VIN[0]A_D[9]	AE16	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL94
VIN[0]A_D[8]	AP17	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL93
VIN[0]A_D[7]	AR17	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL92
VIN[0]A_D[6]	AP18	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL91
VIN[0]A_D[5]	AT17	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL90
VIN[0]A_D[4]	AT18	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL89
VIN[0]A_D[3]	AR18	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL88
VIN[0]A_D[2]	AH18	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL87
VIN[0]A_D[1]	AU18	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL86
VIN[0]A_D[0]	AJ19	I	IPD DVDD_3P3	- PINCTRL85
VIN[0]A_D[23]/ VIN[0]B_HSYNC	AT2	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A PINCTRL15	Video Input 0 Port B Horizontal Sync input. Discrete horizontal synchronization signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in RGB or 16-bit YCbCr capture modes
VIN[0]A_HSYNC	AU5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL32	Video Input 0 Port A Horizontal Sync input. Discrete horizontal synchronization signal for Port A RGB capture mode or YCbCr capture without embedded syncs ("BT.601" modes).
VIN[0]A_D[22]/ VIN[0]B_VSYNC	AR2	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A PINCTRL14	Video Input 0 Port B Vertical Sync input. Discrete vertical synchronization signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in RGB or 16-bit YCbCr capture modes.
VIN[0]A_VSYNC	AM4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL33	Video Input 0 Port A Vertical Sync input. Discrete vertical synchronization signal for Port A RGB capture mode or YCbCr capture without embedded syncs ("BT.601" modes).
VIN[0]A_D[21]/ VIN[0]B_FLD	AU4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A PINCTRL13	Video Input 0 Port B Field ID input. Discrete field identification signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in RGB or 16-bit YCbCr capture modes
VIN[0]A_FLD	AL4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL34	Video Input 0 Port A Field ID input. Discrete field identification signal for Port A RGB capture mode or YCbCr capture without embedded syncs ("BT.601" modes).
VIN[0]A_D[20]/ VIN[0]B_DE	AN3	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A PINCTRL12	Video Input 0 Port B Data Enable input. Discrete data valid signal for Port B RGB capture mode or YCbCr capture without embedded syncs ("BT.601" modes).
VIN[0]A_DE	AT3	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL35	Video Input 0 Port A Data Enable input. Discrete data valid signal for Port A RGB capture mode or YCbCr capture without embedded syncs ("BT.601" modes).

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-26 Video Input 1 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
VOUT[1]_CLK/ VIN[1]A_CLK	AT7	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL46	Video Input 1 Port A Clock input. Input clock for 8-bit or 16-bit Port A video capture. Input data is sampled on the CLK0 edge.
VOUT[1]_AVID/ VIN[1]B_CLK	AT4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL31	Video Input 1 Port B Clock input. Input clock for 8-bit Port B video capture. Input data is sampled on the CLK1 edge. This signal is not used in 16-bit capture modes.
VOUT[1]_HSYNC (silicon revision 1.x) DAC_VOUT[1]_HSYNC (silicon revision 2.x)/ VIN[1]A_D[15]	AR5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL21	Video Input 1 Port A Data inputs. For 16-bit capture, D[7:0] are Cb/Cr and [15:8] are Y Port A inputs. For 8-bit capture, D[7:0] are Port A YCbCr data inputs and D[15:8] are Port B YCbCr data inputs. For VIN[1], only D[15:0] are available.
VIN[1]A_D[14]	AM3	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL11
VOUT[1]_C[7]/ VIN[1]A_D[13]	AD13	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL10
VOUT[1]_C[6] VIN[1]A_D[12]	AN8	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL9
VOUT[1]_C[5]/ VIN[1]A_D[11]	AP8	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL8
VOUT[1]_C[4]/ VIN[1]A_D[10]	AN7	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL7
VOUT[1]_C[3]/ VIN[1]A_D[9]	AM8	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL6
VOUT[1]_C[2]/ VIN[1]A_D[8]	AK6	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL20
VOUT[1]_Y_YC[9]/ VIN[1]A_D[7]	AP6	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL19	Video Input 1 Port A Data inputs. For 16-bit capture, D[7:0] are Cb/Cr and [15:8] are Y Port A inputs. For 8-bit capture, D[7:0] are Port A YCbCr data inputs and D[15:8] are Port B YCbCr data inputs. For VIN[1], only D[15:0] are available.
VOUT[1]_Y_YC[8]/ VIN[1]A_D[6]	AT6	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL18
VOUT[1]_Y_YC[7]/ VIN[1]A_D[5]	AR6	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL17
VOUT[1]_Y_YC[6]/ VIN[1]A_D[4]	AC13	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL16
VOUT[1]_Y_YC[5]/ VIN[1]A_D[3]	AJ7	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL50
VOUT[1]_Y_YC[4]/ VIN[1]A_D[2]	AU6	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL49
VOUT[1]_Y_YC[3]/ VIN[1]A_D[1]	AP7	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL48
VOUT[1]_Y_YC[2]/ VIN[1]A_D[0]	AU7	I	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL47
VOUT[0]_B_CB_C[0]/ VOUT[1]_C[9]/ VIN[1]B_HSYNC_DE	AR9	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL27	Video Input 1 Port B Horizontal Sync or Data Valid signal input. Discrete horizontal synchronization signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in 16-bit YCbCr capture mode.
VIN[0]A_D[16]/ VIN[1]A_HSYNC/ VOUT[1]_FLD	AT5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VOUT[1] PINCTRL22	Video Input 1 Port A Horizontal Sync input. Discrete horizontal synchronization signal for Port A YCbCr capture modes without embedded syncs ("BT.601" modes).
VOUT[0]_G_Y_YC[0]/ VOUT[1]_VSYNC (silicon revision 1.x) DAC_VOUT[1]_VSYNC (silicon revision 2.x)/ VIN[1]B_VSYNC	AP9	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL29	Video Input 1 Port B Vertical Sync input. Discrete vertical synchronization signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in 16-bit YCbCr capture mode.
VIN[0]A_D[17]/ VIN[1]A_VSYNC/ VOUT[1]_VSYNC (silicon revision 1.x) DAC_VOUT[1]_VSYNC (silicon revision 2.x)	AL5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VOUT[1] PINCTRL23	Video Input 1 Port A Vertical Sync input. Discrete vertical synchronization signal for Port A YCbCr capture modes without embedded syncs ("BT.601" modes).
VIN[0]A_D[19]/ VIN[1]A_DE/ VOUT[1]_C[9]	AK4	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VOUT[1] PINCTRL25	Video Input 1 Port A Data Enable input. Discrete data valid signal for Port A YCbCr capture modes without embedded syncs ("BT.601" modes).
VIN[0]A_D[18]/ VIN[1]A_FLD/ VOUT[1]_C[8]	AK5	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VOUT[1] PINCTRL24	Video Input 1Port A Field ID input. Discrete field identification signal for Port A YCbCr capture modes without embedded syncs ("BT.601" modes).
VOUT[0]_G_Y_YC[1]/ VOUT[1]_FLD/ VIN[1]B_FLD	AU8	I	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL30	Video Input 1 Port B Field ID input. Discrete field identification signal for Port B 8-bit YCbCr capture without embedded syncs ("BT.601" modes). Not used in 16-bit YCbCr capture mode.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.20 Digital Video Output Signals

NOTE

Video output 0 pins AR8 and AL9 and video output 1 pins AT9, AR5, AP9, and AL5 have a different naming convention and functionality for silicon revision 1.x devices and silicon revision 2.x devices. These pins are listed separately in Table 4-28 and Table 4-30.

Table 4-27 Video Output 0 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
VOUT[0]_CLK	AT14	O	PULL: IPD / DIS DRIVE: L / H DVDD_3P3	- PINCTRL101	Video Output 0 Clock output.
VOUT[0]_G_Y_YC[9]	AR13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL109	Video Output 0 Data. These signals represent the 8 MSBs of G/Y/YC video data. For RGB mode they are green data bits, for YUV444 mode they are Y data bits, for Y/C mode they are Y (Luma) data bits and for BT.656 mode they are multiplexed Y/Cb/Cr (Luma and Chroma) data bits.
VOUT[0]_G_Y_YC[8]	AU13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL108
VOUT[0]_G_Y_YC[7]	AT13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL107
VOUT[0]_G_Y_YC[6]	AE14	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL106
VOUT[0]_G_Y_YC[5]	AM14	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL105
VOUT[0]_G_Y_YC[4]	AL14	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL104
VOUT[0]_G_Y_YC[3]	AP14	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL103
VOUT[0]_G_Y_YC[2]	AE15	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL102
VOUT[0]_G_Y_YC[1]/ VOUT[1]_FLD/ VIN[1]B_FLD	AU8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT,[1] VIN[1]B PINCTRL30	Video Output 0 Data. These signals represent the 2 LSBs of G/Y/YC video data for 10-bit, 20-bit and 30-bit video modes (VOUT0 only). For RGB mode they are green data bits, for YUV444 mode they are Y data bits, for Y/C mode they are Y (Luma) data bits and for BT.656 mode they are multiplexed Y/Cb/Cr (Luma and Chroma) data bits. These signals are not used in 8/16/24-bit modes
VOUT[0]_G_Y_YC[0]/ VOUT[1]_VSYNC (silicon revision 1.x) DAC_VOUT[1]_VSYNC (silicon revision 2.x)/ VIN[1]B_VSYNC	AP9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1], VIN[1]B PINCTRL29
VOUT[0]_B_CB_C[9]	AT12	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL117	Video Output 0 Data. These signals represent the 8 MSBs of B/CB/C video data. For RGB mode they are blue data bits, for YUV444 mode they are Cb (Chroma) data bits, for Y/C mode they are multiplexed Cb/Cr (Chroma) data bits and for BT.656 mode they are unused
VOUT[0]_B_CB_C[8]	AH13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL116
VOUT[0]_B_CB_C[7]	AM13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL115
VOUT[0]_B_CB_C[6]	AJ13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL114
VOUT[0]_B_CB_C[5]	AK13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL113
VOUT[0]_B_CB_C[4]	AN13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL112
VOUT[0]_B_CB_C[3]	AL13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL111
VOUT[0]_B_CB_C[2]	AP13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	- PINCTRL110
VOUT[0]_B_CB_C[1]/ VOUT[1]_HSYNC (silicon revision 1.x) DAC_VOUT[1]_HSYNC (silicon revision 2.x)/ VOUT[1]_AVID	AT9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL28	Video Output 0 Data. These signals represent the 2 LSBs of B/CB/C video data for 20-bit and 30-bit video modes (VOUT[0] only). For RGB mode they are blue data bits, for YUV444 mode they are Cb (Chroma) data bits, for Y/C mode they are multiplexed Cb/Cr (Chroma) data bits and for BT.656 mode they are unused. These signals are not used in 16/24-bit modes.
VOUT[0]_R_CR[9]/ VOUT[0]_B_CB_C[1]/ VOUT[1]_Y_YC[9]	AU9	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL125
VOUT[0]_B_CB_C[0]/ VOUT[1]_C[9]/ VIN[1]B_HSYNC_DE	AR9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1], VIN[1]B PINCTRL27
VOUT[0]_R_CR[8]/ VOUT[0]_B_CB_C[0]/ VOUT[1]_Y_YC[8]	AK10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL124
VOUT[0]_R_CR[9]/ VOUT[0]_B_CB_C[1]/ VOUT[1]_Y_YC[9]	AU9	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL125	Video Output 0 Data. These signals represent the 8 MSBs of R/CR video data. For RGB mode they are red data bits, for YUV444 mode they are Cr (Chroma) data bits, for Y/C mode and BT.656 modes they are unused.
VOUT[0]_R_CR[8]/ VOUT[0]_B_CB_C[0]/ VOUT[1]_Y_YC[8]	AK10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL124
VOUT[0]_R_CR[7]/ VOUT[0]_G_Y_YC[1]/ VOUT[1]_Y_YC[7]	AL10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL123
VOUT[0]_R_CR[6]/ VOUT[0]_G_Y_YC[0]/ VOUT[1]_Y_YC[6]	AU10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL122
VOUT[0]_R_CR[5]/ VOUT[0]_AVID/ VOUT[1]_Y_YC[5]	AT10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL121
VOUT[0]_R_CR[4]/ VOUT[0]_FLD/ VOUT[1]_Y_YC[4]	AG13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL120
VOUT[0]_R_CR[3]/ VOUT[0]_VSYNC/ VOUT[1]_Y_YC[3]	AR11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL119
VOUT[0]_R_CR[2]/ VOUT[0]_HSYNC/ VOUT[1]_Y_YC[2]	AT11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL118
VOUT[0]_R_CR[1]	AT8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL40	Video Output 0 Data. These signals represent the 2 LSBs of R/CR video data for 30-bit video modes (VOUT[0] only). For RGB mode they are red data bits, for YUV444 mode they are Cr (Chroma) data bits, for Y/C mode and BT.656 modes they are unused. These signals are not used in 24-bit mode.
VOUT[0]_R_CR[0]/ VOUT[1]_C[8]/ VOUT[1]_CLK	AJ11	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[1] PINCTRL26
VOUT[0]_VSYNC	AN9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL37	Video Output 0 Vertical Sync output. This is the discrete vertical synchronization output. This signal is not used for embedded sync modes.
VOUT[0]_R_CR[3]/ VOUT[0]_VSYNC/ VOUT[1]_Y_YC[3]	AR11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL119
VOUT[0]_HSYNC	AM9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL36	Video Output 0 Horizontal Sync output. This is the discrete horizontal synchronization output. This signal is not used for embedded sync modes.
VOUT[0]_R_CR[2]/ VOUT[0]_HSYNC/ VOUT[1]_Y_YC[2]	AT11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL118
VOUT[0]_R_CR[4]/ VOUT[0]_FLD/ VOUT[1]_Y_YC[4]	AG13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL120	Video Output 0 Field ID output. This is the discrete field identification output. This signal is not used for embedded sync modes.
VOUT[0]_R_CR[5]/ VOUT[0]_AVID/ VOUT[1]_Y_YC[5]	AT10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0], VOUT[1] PINCTRL121	Video Output 0 Active Video output. This is the discrete active video indicator output. This signal is not used for embedded sync modes.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-28 Video Output 0 [Pins AR8, AL9] Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
Silicon Revision 1.x Devices
HSYNC_VOUT[0]_AVID	AR8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL39	Video Output 0 Active Video output. This is the discrete active video indicator output. This signal is not used for embedded sync modes.
VSYNC_VOUT[0]_FLD	AL9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL38	Video Output 0 Field ID output. This is the discrete field identification output. This signal is not used for embedded sync modes.
Silicon Revision 2.x Devices
DAC_HSYNC_ VOUT[0]_AVID	AR8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL39	Pin supports two functions in silicon revision 2.x devices: Video Output 0 Active Video output. This is the discrete active video indicator output. This signal is not used for embedded sync modes. Discrete Horizontal Sync for HD-DACs. Functionality is set in SPARE_CTRL0 register as defined in Section 9.10.
DAC_VSYNC_ VOUT[0]_FLD	AL9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	- PINCTRL38	Pin supports two functions in silicon revision 2.x devices: Video Output 0 Field ID output. This is the discrete field identification output. This signal is not used for embedded sync modes. Discrete Vertical Sync for HD-DACs. Functionality is set in SPARE_CTRL0 register as defined in Section 9.10.

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-29 Video Output 1 Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
VOUT[0]_R_CR[0]/ VOUT[1]_C[8]/ VOUT[1]_CLK	AJ11	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL26	Video Output 1 Clock output
VOUT[1]_CLK/ VIN[1]A_CLK	AT7	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL46	Video Output 1 Clock output
VOUT[0]_R_CR[9]/ VOUT[0]_B_CB_C[1]/ VOUT[1]_Y_YC[9]	AU9	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL125	Video Output 1 Data. These signals represent the 8 bits of Y/YC video data. For Y/C mode they are Y (Luma) data bits and for BT.656 mode they are multiplexed Y/Cb/Cr (Luma and Chroma) data bits.
VOUT[1]_Y_YC[9]/ VIN[1]A_D[7]	AP6	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL19
VOUT[0]_R_CR[8]/ VOUT[0]_B_CB_C[0]/ VOUT[1]_Y_YC[8]	AK10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL124
VOUT[1]_Y_YC[8]/ VIN[1]A_D[6]	AT6	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL18
VOUT[0]_R_CR[7]/ VOUT[0]_G_Y_YC[1]/ VOUT[1]_Y_YC[7]	AL10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL123
VOUT[1]_Y_YC[7]/ VIN[1]A_D[5]	AR6	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL17
VOUT[0]_R_CR[6]/ VOUT[0]_G_Y_YC[0]/ VOUT[1]_Y_YC[6]	AU10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL122
VOUT[1]_Y_YC[6]/ VIN[1]A_D[4]	AC13	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL16
VOUT[0]_R_CR[5]/ VOUT[0]_AVID/ VOUT[1]_Y_YC[5]	AT10	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL121	Video Output 1 Data. These signals represent the 8 bits of Y/YC video data. For Y/C mode they are Y (Luma) data bits and for BT.656 mode they are multiplexed Y/Cb/Cr (Luma and Chroma) data bits.
VOUT[1]_Y_YC[5]/ VIN[1]A_D[3]	AJ7	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL50
VOUT[0]_R_CR[4]/ VOUT[0]_FLD/ VOUT[1]_Y_YC[4]	AG13	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL120
VOUT[1]_Y_YC[4]/ VIN[1]A_D[2]	AU6	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL49
VOUT[0]_R_CR[3]/ VOUT[0]_VSYNC / VOUT[1]_Y_YC[3]	AR11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL119
VOUT[1]_Y_YC[3] VIN[1]A_D[1]	AP7	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL48
VOUT[0]_R_CR[2]/ VOUT[0]_HSYNC/ VOUT[1]_Y_YC[2]	AT11	O	PULL: IPD / DIS DRIVE: L / L DVDD_3P3	VOUT[0] PINCTRL118
VOUT[1]_Y_YC[2]/ VIN[1]A_D[0]	AU7	O	PULL: IPD / DIS DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL47
VOUT[0]_B_CB_C[0]/ VOUT[1]_C[9]/ VIN[1]B_HSYNC_DE	AR9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VIN[1]B PINCTRL27	Video Output 1 Data. These signals represent the 8 bits of C video data. For Y/C mode they are multiplexed Cb/Cr (Chroma) data bits, and for BT.656 mode they are unused.
VIN[0]A_D[19]/ VIN[1]A_DE/ VOUT[1]_C[9]	AK4	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VIN[1]A
VIN[0]A_D[18]/ VIN[1]A_FLD/ VOUT[1]_C[8]	AK5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VIN[1]A PINCTRL24
VOUT[0]_R_CR[0]/ VOUT[1]_C[8]/ VOUT[1]_CLK	AJ11	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL26
VOUT[1]_C[7]/ VIN[1]A_D[13]	AD13	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL10
VOUT[1]_C[6]/ VIN[1]A_D[12]	AN8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL9
VOUT[1]_C[5]/ VIN[1]A_D[11]	AP8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL8
VOUT[1]_C[4]/ VIN[1]A_D[10]	AN7	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL7
VOUT[1]_C[3]/ VIN[1]A_D[9]/	AM8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL6
VOUT[1]_C[2]/ VIN[1]A_D[8]	AK6	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL20
VIN[0]A_D[16]/ VIN[1]A_HSYNC/ VOUT[1]_FLD	AT5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VIN[1]A PINCTRL22	Video Output 1 Field ID output. This is the discrete field identification output. This signal is not used for embedded sync modes.
VOUT[0]_G_Y_YC[1]/ VOUT[1]_FLD/ VIN[1]B_FLD	AU8	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VIN[1]B PINCTRL30
VOUT[0]_B_CB_C[1]/ VOUT[1]_HSYNC (silicon revision 1.x) DAC_VOUT[1]_HSYNC (silicon revision 2.x)/ VOUT[1]_AVID	AT9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL28	Video Output 1 Active Video output. This is the discrete active video indicator output. This signal is not used for embedded sync modes.
VOUT[1]_AVID/ VIN[1]B_CLK	AT4	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]B PINCTRL31

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

Table 4-30 Video Output 1 [Pins AT9, AR5, AP9, AL5] Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	MUXED	DESCRIPTION
Silicon Revision 1.x Devices
VOUT[0]_B_CB_C[1]/ VOUT[1]_HSYNC/ VOUT[1]_AVID	AT9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL28	Video Output 1 Horizontal Sync output. This is the discrete horizontal synchronization output. This signal is not used for embedded sync modes.
VOUT[1]_HSYNC/ VIN[1]A_D[15]	AR5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL21
VOUT[0]_G_Y_YC[0]/ VOUT[1]_VSYNC/ VIN[1]B_VSYNC	AP9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VIN[1]B PINCTRL29	Video Output 1 Vertical Sync output. This is the discrete vertical synchronization output. This signal is not used for embedded sync modes.
VIN[0]A_D[17]/ VIN[1]A_VSYNC/ VOUT[1]_VSYNC	AL5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VIN[1]A PINCTRL23
Silicon Revision 2.x Devices
VOUT[0]_B_CB_C[1]/ DAC_VOUT[1]_HSYNC/ VOUT[1]_AVID	AT9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VOUT[1] PINCTRL28	Pin supports two functions in silicon revision 2.x devices: Video Output 1 Horizontal Sync output. This is the discrete horizontal synchronization output. This signal is not used for embedded sync modes. Discrete Horizontal Sync for HD-DACs. Functionality is set in SPARE_CTRL0 register as defined in Section 9.10.
DAC_VOUT[1]_HSYNC/ VIN[1]A_D[15]	AR5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[1]A PINCTRL21
VOUT[0]_G_Y_YC[0]/ DAC_VOUT[1]_VSYNC/ VIN[1]B_VSYNC	AP9	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VOUT[0], VIN[1]B PINCTRL29	Pin supports two functions in silicon revision 2.x devices: Video Output 1 Vertical Sync output. This is the discrete vertical synchronization output. This signal is not used for embedded sync modes. Discrete Vertical Sync for HD-DACs. Functionality is set in SPARE_CTRL0 register as defined in Section 9.10.
VIN[0]A_D[17]/ VIN[1]A_VSYNC/ DAC_VOUT[1]_VSYNC	AL5	O	PULL: IPD / IPD DRIVE: Z / Z DVDD_3P3	VIN[0]A, VIN[1]A PINCTRL23

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

(2) PULL: A / B, where:
A is the state of the internal pull resistor during POR reset
B is the state of the internal pull resistor after POR and Warm reset are de-asserted and during Warm reset
IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled
DRIVE: A / B, where;
A is the driving state of the pin during POR reset
B is the driving state of the pin after POR and Warm reset are de-asserted and during Warm reset
H = Driving High, L = Driving Low, Z = 3-State
For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.21 Analog Video Output Signals

Table 4-31 Analog Video Output Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER	DESCRIPTION
When a specific Video DAC output [IOUTA - IOUTG] is powered down, the corresponding Analog Video Output terminal functions should be left unconnected.
IOUTA	AT21	O	-	Video DAC A output. Analog HD Video DAC (G/Y)
IOUTB	AR21	O	-	Video DAC B output. Analog HD Video DAC (B/Pb)
IOUTC	AP21	O	-	Video DAC C output. Analog HD Video DAC (R/Pr)
IOUTD	AR20	O	-	Video DAC D output. Analog SD Video DAC
IOUTE	AT19	O	-	Video DAC E output. Analog SD Video DAC
IOUTF	AT20	O	-	Video DAC F output. Analog SD Video DAC
IOUTG	AU20	O	-	Video DAC G output. Analog SD Video DAC
DAC_VOUT[1]_HSYNC, DAC_HSYNC_ VOUT[0]_AVID	AR5, AT9, AR8	O	-	Analog HD Video DAC Discrete HSYNC Output
DAC_VOUT[1]_VSYNC, DAC_VSYNC_ VOUT[0]_FLD	AL5, AP9, AL9	O	-	Analog HD Video DAC Discrete VSYNC Output
VDAC_VREF	AH19	I	-	Video DAC reference voltage (0.5 V). When the video DACs are powered down, this pin should be left unconnected.
VDAC_RBIAS_HD	AE22	IO	-	Video DAC HD current bias connection. This pin must be connected via an external 1.2-kΩ resistor to VSSA_HD. When the HD DACs are powered down, this pin should be left unconnected.
VDAC_RBIAS_SD	AP19	IO	-	Video DAC SD current bias connection. This pin must be connected via an external 1.2-kΩ resistor to VSSA_SD. When the SD DACs are powered down, this pin should be left unconnected.

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

4.2.22 Reserved Pins

Table 4-32 Reserved Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER⁽²⁾⁽³⁾	DESCRIPTION
RSV1	AB36	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV2	P25	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV3	N19	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV4	N20	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV5	T28	IO	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV6	T27	IO	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV7	AE23	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV8	D24	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV9	AU37	I	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV10	N28	IO	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV11	N29	IO	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV12	AG25	S	-	Reserved. For proper device operation, this pin must be tied directly to the 1.8-V supply.
RSV13	AG24	S	-	Reserved. For proper device operation, this pin must be tied directly to the 1.8-V supply.
RSV14	AH25	S	-	Reserved. For proper device operation, this pin must be tied directly to the 1.8-V supply.
RSV15	AH24	S	-	Reserved. For proper device operation, this pin must be tied directly to the 1.8-V supply.
RSV16	R34	I	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV17	P34	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV18	P33	S	-	Reserved. For proper device operation, this pin must be tied directly to the 1.8-V supply.
RSV19	P32	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV20	D14	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV21	AN18	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV22	AN19	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV23	AP2	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV24	AU3	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV25	AN2	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV26	AT1	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV27	AR1	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV28	AP1	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV29	AM2	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV30	AL2	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV31	AK1	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV32	AL1	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV33	AM29	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV34	AL28	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV35	AL29	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV36	AN29	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV37	AP29	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV38	AR29	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV39	AT29	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV40	AT28	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV41	AU21	O	-	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV42	AJ1	IO	IPU DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV43	AK2	IO	IPU DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV44	AH8	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV45	AJ2	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV46	AK3	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV47	AJ3	O	DIS DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV48	AJ4	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV49	AJ5	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV50	AJ6	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV51	AB13	I	IPD DVDD_3P3	Reserved. (Leave unconnected, do not connect to power or ground.)
RSV52	AE21	S	-	Reserved. For proper device operation, this pin should be connected to a 1.0-V power supply.
RSV53	AG22	S	-	Reserved. For proper device operation, this pin should be connected to a 1.8-V power supply.
RSV54	AG23	S	-	Reserved. For proper device operation, this pin should be connected to a 1.8-V power supply.
RSV55	AH23	S	-	Reserved. For proper device operation, this pin should be connected to a 1.8-V power supply.
RSV56	AJ23	S	-	Reserved. For proper device operation, this pin should be connected to a 1.8-V power supply.
RSV57	AK22	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV58	AL22	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV59	AM22	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV60	AM21	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.
RSV61	AN21	GND	-	Reserved. For proper device operation, this pin must be tied directly to V_SS.

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

(2) IPD = Internal Pulldown Enabled, IPU = Internal Pullup Enabled, DIS = Internal Pull Disabled. This represents the default state of the internal pull after reset. For more detailed information on pullup and pulldown resistors and situations where external pullup and pulldown resistors are required, see Section 6.3.1, Pullup and Pulldown Resistors.

(3) Specifies the operating IO supply voltage for each signal.

4.2.23 Supply Voltages

Table 4-33 Supply Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER	DESCRIPTION
VREFSSTL_DDR[0]	A17	S	-	Reference Power Supply DDR[0]: 0.75-V for DDR3 memory type 0.9-V for DDR2 memory type
VREFSSTL_DDR[1]	A21	S	-	Reference Power Supply DDR[1] 0.75-V for DDR3 memory type 0.9-V for DDR2 memory type
CVDD	AD22, AD21, AD20, AD19, AD18, AD17, AD16, AC22, AC21, AC20, AC19, AC18, AC17, AC16, AB24, AB23, AB22, AB21, AB20, AB19, AB18, AB17, AB16, AB15, AB14, T24, T23, T22, T21, T20, T19, T18, T17, T16, T15, T14, R22, R21, R20, R19, R18, R17, R16, P22, P21, P20, P19, P18, P17, P16	S	-	Variable Core Voltage Supply for the Always ON Domain
CVDDC	AE25, AE13, AD24, AD23, AD15, AD14, AC24, AC23, AC15, AC14, R24, R23, R15, R14, P24, P23, P15, P14, N25, N13	S	-	1.0-V Constant Power Supply for Memories and PLLs
VDD_USB_0P9	N27	S	-	0.9-V Power Supply for USB PHYs. Note: If the USB is not used, for proper device operation, this pin must be connected to a power supply (0.9 V or CVDDC).
VDDT_SATA	Y34, Y33, V34, V32	S	-	1.0-V Power Supply for SATA Termination and Analog Front End Note: If the SATA is not used, for proper device operation, these pins must be connected to a 1.0-V power supply.
VDDT_PCIE	Y30, Y28, AB32, AB29, AB27	S	-	1.0-V Power Supply for PCIe Termination and Analog Front End Note: If the PCIe is not used, these pins should be connected to a 1.0-V power supply.
VDDA_PLL	B18, A18	S	-	1.5-V Analog Power Supply for PLLs
VDDA_HDMI	AR27, AP24, AP23, AN24, AN23	S	-	1.0-V Analog Power Supply for HDMI Note: If the HDMI is not used, these pins should be connected to a 1.0-V power supply.
VDDA_HD_1P0	AG21	S	-	1.0-V Analog Power Supply for VDAC HD DAC Note: If the HD DAC is not used, this pin should be connected to a 1.0-V power supply.
VDDA_SD_1P0	AG20	S	-	1.0-V Analog Power Supply for VDAC SD DAC Note: If the SD DAC is not used, this pin should be connected to a 1.0-V power supply.
VDDR_SATA	V25, U25	S	-	1.5-V Regulator Power Supply for SATA Note: If the SATA is not used, for proper device operation, these pins must be connected to a 1.5-V power supply.
VDDR_PCIE	Y25, W25	S	-	1.5-V Regulator Power Supply for PCIe Note: If the PCIe is not used, for proper device operation, these pins must be connected to a 1.5-V power supply.
DVDD_DDR[0]	L19, L18, L17, L16, L15, L14, K19, K18, K17, K16, K15, K14, J18, J17, J16, J15, J14, E11, A11, E1, A2	S	-	Power Supply for DDR[0] IOs: 1.5-V for DDR3 memory type 1.8-V for DDR2 memory type
DVDD_DDR[1]	L24, L23, L22, L21, L20, K24, K23, K22, K21, K20, J24, J23, J22, J21, J20, J19, E27, D37, A36, A27	S	-	1.5-V Power Supply for DDR[1] IOs: 1.5-V for DDR3 memory type 1.8-V for DDR2 memory type
DEVOSC_DVDD18	E19	S	-	1.8-V Power Supply for Device Oscillator Note: If the oscillator is not used, this pin should be connected to the 1.8-V power supply (DVDD1P8).
VDD_USB0_1P8	R25	S	-	1.8-V Power Supply for USB0 Note: If the USB is not used, for proper device operation, this pin must be connected to a 1.8-V power supply, or when the USB PHY is not used, this pin can be optionally connected to CVDDC.
VDD_USB1_1P8	T25	S	-	1.8-V Power Supply for USB1 Note: If the USB is not used, for proper device operation, this pin must be connected to a 1.8-V power supply, or when the USB PHY is not used, this pin can be optionally connected to CVDDC.
DVDD1P8	AJ20, AJ24	S	-	1.8-V Power Supply
VDDA_REF_1P8	AT22	S	-	1.8-V Reference Power Supply for VDAC Note: If the VDAC is not used, these pins should be connected to a 1.8-V power supply.
VDDA_HD_1P8	AJ22, AH22	S	-	1.8-V Analog Power Supply for VDAC HD DAC Note: If the HD DAC is not used, these pins should be connected to a 1.8-V power supply.
VDDA_SD_1P8	AJ21, AH21, AH20	S	-	1.8-V Analog Power Supply for VDAC SD DAC Note: If the SD DAC is not used, these pins should be connected to a 1.8-V power supply.
DVDD_3P3	AU29, AU11, AU2, AN37, AN27, AN11, AN1, AJ17, AJ16, AJ15, AJ14, AH17, AH16, AH15, AH14, AG33, AG17, AG16, AG15, AG14, AE29, AE28, AE27, AD29, AD28, AD27, AD11, AD10, AD9, AC29, AC28, AC27, AC11, AC10, AC9, AB11, AB10, AB9, AA11, AA10, AA9, AA1, Y9, U11, U10, U9, T11, T10, T9, R28, R27, R11, R10, R9, P30, P29, P28, P27, P11, P10, P9, P8, L35, L30, L5, L1	S	-	3.3-V Power Supply
VDD_USB0_3P3	T29, R29	S	-	3.3-V Power Supply for USB0
VDD_USB1_3P3	T30, R30	S	-	3.3-V Power Supply for USB1

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

4.2.24 Ground Pins (V_SS)

Table 4-34 Ground Terminal Functions

SIGNAL		TYPE⁽¹⁾	OTHER	DESCRIPTION
NAME	NO.	TYPE⁽¹⁾	OTHER	DESCRIPTION
VSS	AU28, AU23, AU12, AU1, AT23, AR25, AR24, AR23, AR15, AP37, AP15, AN15, AN14, AM31, AM25, AM24, AM23, AM19, AM18, AM17, AM16, AM15, AM7, AM1, AL32, AL31, AL24, AL23, AL19, AL18, AL17, AL16, AL15, AL7, AL6, AK27, AK24, AK23, AK19, AK18, AK17, AK16, AK15, AK11, AJ25, AJ18, AG30, AG26, AG12, AG8, AG5, AF27, AF11, AE20, AE19, AE18, AE17, AD34, AD33, AD32, AD31, AD30, AD7, AD6, AD5, AC34, AC33, AC32, AC31, AC30, AC8, AC7, AC6, AC4, AC3, AB37, AB35, AB8, AB7, AB6, AB1, AA24, AA23, AA22, AA21, AA20, AA19, AA18, AA17, AA16, AA15, AA14, AA13, AA8, AA7, AA6, AA5, Y37, Y36, Y32, Y31, Y24, Y23, Y22, Y21, Y20, Y19, Y18, Y17, Y16, Y15, Y14, Y13, Y8, Y7, Y6, Y5, Y4, W24, W23, W22, W21, W20, W19, W18, W17, W16	GND	-	Ground (GND)
VSS	W15, W14, W13, W9, W8, W7, W6, V28, V27, V24, V23, V22, V21, V20, V19, V18, V17, V16, V15, V14, V13, V9, V8, V7, V6, V5, V4, U24, U23, U22, U21, U20, U18, U17, U16, U15, U14, U13, U8, U7, U6, U5, T35, T34, T33, T8, T7, T6, R33, R32, R31, R8, R7, R6, R4, R3, P31, P7, P6, P5, P4, N18, M27, M11, L33, L26, L12, L8, K37, K1, H27, H24, H23, H22, H21, H20, H19, H18, H17, H16, H15, H14, H11, G32, G31, G24, G23, G22, G21, G20, G18, G17, G16, G15, G14, G7, G6, F31, F24, F23, F22, F21, F17, F16, F15, F14, F7, E37, E24, E14, D1, C23, C21, C17, C15, A37, A28, A10, A1	GND	-	Ground (GND)
VSSA_PLL	U19, B20, A20	GND	-	Analog GND for PLLs
VSSA_HD	AK21, AK20, AL21	GND	-	Analog GND for VDAC HD DAC
VSSA_SD	AU19, AM20, AN20, AL20	GND	-	Analog GND for VDAC SD DAC
VSSA_REF_1P8	AU22	GND	-	Reference GND for VDAC (1.8 V)
DEVOSC_VSS	B19	GND	-	Ground for Device Oscillator

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

Package Options

Mechanical Data (Package|Pins)

Thermal pad, mechanical data (Package|Pins)

Orderable Information

4 Terminal Configuration and Functions

4.1 Pin Assignments

4.1.1 Pin Map (Bottom View)

4.2 Terminal Functions

4.2.1 Boot Configuration

Table 4-1 Boot Terminal Functions

4.2.2 DDR2 and DDR3 Memory Controller Signals

Table 4-2 DDR2 and DDR3 Memory Controller 0 Terminal Functions

Table 4-3 DDR2 and DDR3 Memory Controller 1 Terminal Functions

4.2.3 Ethernet Media Access Controller (EMAC) Signals

Table 4-4 EMAC Terminal Functions

4.2.4 General-Purpose Input/Output (GPIO) Signals

Table 4-5 GPIO Terminal Functions

4.2.5 General-Purpose Memory Controller (GPMC) Signals

Table 4-6 GPMC Terminal Functions

4.2.6 High-Definition Multimedia Interface (HDMI) Signals

Table 4-7 HDMI Terminal Functions

4.2.7 Inter-Integrated Circuit (I2C) Signals

Table 4-8 I2C Terminal Functions

4.2.8 Multichannel Audio Serial Port Signals

Table 4-9 McASP0 Terminal Functions

Table 4-10 McASP1 Terminal Functions

Table 4-11 McASP2 Terminal Functions

4.2.9 Multichannel Buffered Serial Port Signals

Table 4-12 McBSP Terminal Functions

4.2.10 Oscillator/Phase-Locked Loop (PLL) Signals

Table 4-13 Oscillator/PLL and Clock Generator Terminal Functions

4.2.11 Peripheral Component Interconnect Express (PCIe) Signals

Table 4-14 PCIe Terminal Functions

4.2.12 Reset, Interrupts, and JTAG Interface Signals

Table 4-15 RESET, Interrupts, and JTAG Terminal Functions

4.2.13 Secure Digital/Secure Digital Input Output (SD/SDIO) Signals

Table 4-16 SD/SDIO Terminal Functions

4.2.14 Serial ATA Signals

Table 4-17 Serial ATA Terminal Functions

Table 4-18 Serial ATA [Pins J32, J33] Terminal Functions

4.2.15 Serial Peripheral Digital Interconnect Format (SPI) Signals

Table 4-19 SPI Terminal Functions

4.2.16 Timer Signals

Table 4-20 Timer Terminal Functions

4.2.17 Universal Asynchronous Receiver/Transmitter (UART) Signals

Table 4-21 UART0 Terminal Functions

Table 4-22 UART1 Terminal Functions

Table 4-23 UART2 Terminal Functions

4.2.18 Universal Serial Bus (USB) Signals

Table 4-24 USB Terminal Functions

4.2.19 Video Input Signals

Table 4-25 Video Input 0 Terminal Functions

Table 4-26 Video Input 1 Terminal Functions

4.2.20 Digital Video Output Signals

Table 4-27 Video Output 0 Terminal Functions

Table 4-28 Video Output 0 [Pins AR8, AL9] Terminal Functions

Table 4-29 Video Output 1 Terminal Functions

Table 4-30 Video Output 1 [Pins AT9, AR5, AP9, AL5] Terminal Functions

4.2.21 Analog Video Output Signals

Table 4-31 Analog Video Output Terminal Functions

4.2.22 Reserved Pins

Table 4-32 Reserved Terminal Functions

4.2.23 Supply Voltages

Table 4-33 Supply Terminal Functions

4.2.24 Ground Pins (VSS)

Table 4-34 Ground Terminal Functions

4.2.24 Ground Pins (V_SS)