SPRSP61C Data sheet

SPRSP61C October 2021 – December 2023 TMS320F280034 , TMS320F280034-Q1 , TMS320F280036-Q1 , TMS320F280036C-Q1 , TMS320F280037 , TMS320F280037C , TMS320F280037C-Q1 , TMS320F280038C-Q1 , TMS320F280039-Q1 , TMS320F280039C , TMS320F280039C-Q1

PRODMIX

Package Options

Mechanical Data (Package|Pins)

PM|64
- MTQF008B
PT|48
- MTQF003C
PN|80
- MTQF010B
PZ|100
- MTQF013A

Thermal pad, mechanical data (Package|Pins)

PZ|100
- QFND428

Orderable Information

5.2 Pin Attributes

Table 5-1 Pin Attributes

SIGNAL NAME	MUX POSITION	100 PZ	80 PN	64 PMQ	64 PM	48 PT	PIN TYPE	DESCRIPTION
ANALOG
A0		23	19	15	15	11	I	ADC-A Input 0
B15							I	ADC-B Input 15
C15							I	ADC-C Input 15
CMP3_HP2							I	CMPSS-3 High Comparator Positive Input 2
CMP3_LP2							I	CMPSS-3 Low Comparator Positive Input 2
DACA_OUT							O	Buffered DAC-A Output.
AIO231	0, 4, 8, 12						I	Analog Pin Used For Digital Input 231 This pin also has digital mux functions which are described in the GPIO section of this table.
A1		22	18	14	14	10	I	ADC-A Input 1
B7							I	ADC-B Input 7
CMP1_HP4							I	CMPSS-1 High Comparator Positive Input 4
CMP1_LP4							I	CMPSS-1 Low Comparator Positive Input 4
DACB_OUT							O	Buffered DAC-B Output.
AIO232	0, 4, 8, 12						I	Analog Pin Used For Digital Input 232 This pin also has digital mux functions which are described in the GPIO section of this table.
A2		17	13	9	9	6	I	ADC-A Input 2
B6							I	ADC-B Input 6
C9							I	ADC-C Input 9
CMP1_HP0							I	CMPSS-1 High Comparator Positive Input 0
CMP1_LP0							I	CMPSS-1 Low Comparator Positive Input 0
AIO224	0, 4, 8, 12						I	Analog Pin Used For Digital Input 224 This pin also has digital mux functions which are described in the GPIO section of this table.
A3		18					I	ADC-A Input 3
CMP3_HP5							I	CMPSS-3 High Comparator Positive Input 5
CMP3_LP5							I	CMPSS-3 Low Comparator Positive Input 5
AIO229	0, 4, 8, 12						I	Analog Pin Used For Digital Input 229
A3			12	8	8	5	I	ADC-A Input 3
CMP3_HP5							I	CMPSS-3 High Comparator Positive Input 5
CMP3_LP5							I	CMPSS-3 Low Comparator Positive Input 5
A4		36	27	23	23	19	I	ADC-A Input 4
B8							I	ADC-B Input 8
CMP2_HP0							I	CMPSS-2 High Comparator Positive Input 0
CMP2_LP0							I	CMPSS-2 Low Comparator Positive Input 0
AIO225	0, 4, 8, 12						I	Analog Pin Used For Digital Input 225 This pin also has digital mux functions which are described in the GPIO section of this table.
A5		35					I	ADC-A Input 5
CMP2_HP5							I	CMPSS-2 High Comparator Positive Input 5
CMP2_LP5							I	CMPSS-2 Low Comparator Positive Input 5
AIO249	0, 4, 8, 12						I	Analog Pin Used For Digital Input 249
A5			17	13	13	9	I	ADC-A Input 5
CMP2_HP5							I	CMPSS-2 High Comparator Positive Input 5
CMP2_LP5							I	CMPSS-2 Low Comparator Positive Input 5
A6		14	10	6	6	4	I	ADC-A Input 6
CMP1_HP2							I	CMPSS-1 High Comparator Positive Input 2
CMP1_LP2							I	CMPSS-1 Low Comparator Positive Input 2
AIO228	0, 4, 8, 12						I	Analog Pin Used For Digital Input 228 This pin also has digital mux functions which are described in the GPIO section of this table.
A8		37					I	ADC-A Input 8
CMP4_HP4							I	CMPSS-4 High Comparator Positive Input 4
CMP4_LP4							I	CMPSS-4 Low Comparator Positive Input 4
AIO240	0, 4, 8, 12						I	Analog Pin Used For Digital Input 240 This pin also has digital mux functions which are described in the GPIO section of this table.
A8			24	20	20	16	I	ADC-A Input 8
CMP4_HP4							I	CMPSS-4 High Comparator Positive Input 4
CMP4_LP4							I	CMPSS-4 Low Comparator Positive Input 4
AIO241	0, 4, 8, 12						I	Analog Pin Used For Digital Input 241 This pin also has digital mux functions which are described in the GPIO section of this table.
A9		38	28	24	24	20	I	ADC-A Input 9
CMP2_HP2							I	CMPSS-2 High Comparator Positive Input 2
CMP2_LP2							I	CMPSS-2 Low Comparator Positive Input 2
AIO227	0, 4, 8, 12						I	Analog Pin Used For Digital Input 227 This pin also has digital mux functions which are described in the GPIO section of this table.
A10		40	29	25	25	21	I	ADC-A Input 10
B1							I	ADC-B Input 1
C10							I	ADC-C Input 10
CMP2_HN0							I	CMPSS-2 High Comparator Negative Input 0
CMP2_HP3							I	CMPSS-2 High Comparator Positive Input 3
CMP2_LN0							I	CMPSS-2 Low Comparator Negative Input 0
CMP2_LP3							I	CMPSS-2 Low Comparator Positive Input 3
AIO230	0, 4, 8, 12						I	Analog Pin Used For Digital Input 230 This pin also has digital mux functions which are described in the GPIO section of this table.
A11		20	16	12	12	8	I	ADC-A Input 11
B10							I	ADC-B Input 10
C0							I	ADC-C Input 0
CMP1_HN1							I	CMPSS-1 High Comparator Negative Input 1
CMP1_HP1							I	CMPSS-1 High Comparator Positive Input 1
CMP1_LN1							I	CMPSS-1 Low Comparator Negative Input 1
CMP1_LP1							I	CMPSS-1 Low Comparator Positive Input 1
AIO237	0, 4, 8, 12						I	Analog Pin Used For Digital Input 237 This pin also has digital mux functions which are described in the GPIO section of this table.
A12		28	22	18	18	14	I	ADC-A Input 12
CMP2_HN1							I	CMPSS-2 High Comparator Negative Input 1
CMP2_HP1							I	CMPSS-2 High Comparator Positive Input 1
CMP2_LN1							I	CMPSS-2 Low Comparator Negative Input 1
CMP2_LP1							I	CMPSS-2 Low Comparator Positive Input 1
AIO238	0, 4, 8, 12						I	Analog Pin Used For Digital Input 238 This pin also has digital mux functions which are described in the GPIO section of this table.
A14		19	15	11	11		I	ADC-A Input 14
B14							I	ADC-B Input 14
C4							I	ADC-C Input 4
CMP3_HP4							I	CMPSS-3 High Comparator Positive Input 4
CMP3_LP4							I	CMPSS-3 Low Comparator Positive Input 4
AIO239	0, 4, 8, 12						I	Analog Pin Used For Digital Input 239 This pin also has digital mux functions which are described in the GPIO section of this table.
A15			14	10	10	7	I	ADC-A Input 15
CMP1_HN0							I	CMPSS-1 High Comparator Negative Input 0
CMP1_HP3							I	CMPSS-1 High Comparator Positive Input 3
CMP1_LN0							I	CMPSS-1 Low Comparator Negative Input 0
CMP1_LP3							I	CMPSS-1 Low Comparator Positive Input 3
AIO233	0, 4, 8, 12						I	Analog Pin Used For Digital Input 233 This pin also has digital mux functions which are described in the GPIO section of this table.
B0		41					I	ADC-B Input 0
C11							I	ADC-C Input 11
CMP2_HP4							I	CMPSS-2 High Comparator Positive Input 4
CMP2_LP4							I	CMPSS-2 Low Comparator Positive Input 4
AIO253	0, 4, 8, 12						I	Analog Pin Used For Digital Input 253
B0			24	20	20	16	I	ADC-B Input 0
C11							I	ADC-C Input 11
CMP2_HP4							I	CMPSS-2 High Comparator Positive Input 4
CMP2_LP4							I	CMPSS-2 Low Comparator Positive Input 4
B2		15	11	7	7	4	I	ADC-B Input 2
C6							I	ADC-C Input 6
CMP3_HP0							I	CMPSS-3 High Comparator Positive Input 0
CMP3_LP0							I	CMPSS-3 Low Comparator Positive Input 0
AIO226	0, 4, 8, 12						I	Analog Pin Used For Digital Input 226 This pin also has digital mux functions which are described in the GPIO section of this table.
B3		16	12	8	8	5	I	ADC-B Input 3
CMP3_HN0							I	CMPSS-3 High Comparator Negative Input 0
CMP3_HP3							I	CMPSS-3 High Comparator Positive Input 3
CMP3_LN0							I	CMPSS-3 Low Comparator Negative Input 0
CMP3_LP3							I	CMPSS-3 Low Comparator Positive Input 3
VDAC							I	Optional external reference voltage for on-chip DACs.
AIO242	0, 4, 8, 12						I	Analog Pin Used For Digital Input 242 This pin also has digital mux functions which are described in the GPIO section of this table.
B4		39	28	24	24	20	I	ADC-B Input 4
C8							I	ADC-C Input 8
CMP4_HP0							I	CMPSS-4 High Comparator Positive Input 0
CMP4_LP0							I	CMPSS-4 Low Comparator Positive Input 0
AIO236	0, 4, 8, 12						I	Analog Pin Used For Digital Input 236
B5		32					I	ADC-B Input 5
CMP1_HP5							I	CMPSS-1 High Comparator Positive Input 5
CMP1_LP5							I	CMPSS-1 Low Comparator Positive Input 5
AIO252	0, 4, 8, 12						I	Analog Pin Used For Digital Input 252 This pin also has digital mux functions which are described in the GPIO section of this table.
B5		48	33				I	ADC-B Input 5
CMP1_HP5							I	CMPSS-1 High Comparator Positive Input 5
CMP1_LP5							I	CMPSS-1 Low Comparator Positive Input 5
GPIO20							I/O	General-Purpose Input Output 20 This pin also has digital mux functions which are described in the GPIO section of this table.
B11		30					I	ADC-B Input 11
CMP4_HP5							I	CMPSS-4 High Comparator Positive Input 5
CMP4_LP5							I	CMPSS-4 Low Comparator Positive Input 5
AIO251	0, 4, 8, 12						I	Analog Pin Used For Digital Input 251
B11		49	34				I	ADC-B Input 11
CMP4_HP5							I	CMPSS-4 High Comparator Positive Input 5
CMP4_LP5							I	CMPSS-4 Low Comparator Positive Input 5
GPIO21							I/O	General-Purpose Input Output 21 This pin also has digital mux functions which are described in the GPIO section of this table.
C1		29	22	18	18	14	I	ADC-C Input 1
CMP4_HP2							I	CMPSS-4 High Comparator Positive Input 2
CMP4_LP2							I	CMPSS-4 Low Comparator Positive Input 2
AIO248	0, 4, 8, 12						I	Analog Pin Used For Digital Input 248
AIO248		29	22	18	18	14	I	Analog Pin Used For Digital Input 248
B12		21	17	13	13	9	I	ADC-B Input 12
C2							I	ADC-C Input 2
CMP3_HN1							I	CMPSS-3 High Comparator Negative Input 1
CMP3_HP1							I	CMPSS-3 High Comparator Positive Input 1
CMP3_LN1							I	CMPSS-3 Low Comparator Negative Input 1
CMP3_LP1							I	CMPSS-3 Low Comparator Positive Input 1
AIO244	0, 4, 8, 12						I	Analog Pin Used For Digital Input 244 This pin also has digital mux functions which are described in the GPIO section of this table.
A7		31	23	19	19	15	I	ADC-A Input 7
C3							I	ADC-C Input 3
CMP4_HN1							I	CMPSS-4 High Comparator Negative Input 1
CMP4_HP1							I	CMPSS-4 High Comparator Positive Input 1
CMP4_LN1							I	CMPSS-4 Low Comparator Negative Input 1
CMP4_LP1							I	CMPSS-4 Low Comparator Positive Input 1
AIO245	0, 4, 8, 12						I	Analog Pin Used For Digital Input 245 This pin also has digital mux functions which are described in the GPIO section of this table.
C5		28	12	8	8	5	I	ADC-C Input 5
B9		18	14	10	10	7	I	ADC-B Input 9
C7		18	14	10	10	7	I	ADC-C Input 7
C14		42					I	ADC-C Input 14
CMP4_HN0							I	CMPSS-4 High Comparator Negative Input 0
CMP4_HP3							I	CMPSS-4 High Comparator Positive Input 3
CMP4_LN0							I	CMPSS-4 Low Comparator Negative Input 0
CMP4_LP3							I	CMPSS-4 Low Comparator Positive Input 3
AIO247	0, 4, 8, 12						I	Analog Pin Used For Digital Input 247
C14			27	23	23	19	I	ADC-C Input 14
CMP4_HN0							I	CMPSS-4 High Comparator Negative Input 0
CMP4_HP3							I	CMPSS-4 High Comparator Positive Input 3
CMP4_LN0							I	CMPSS-4 Low Comparator Negative Input 0
CMP4_LP3							I	CMPSS-4 Low Comparator Positive Input 3
VREFHI		24, 25	20	16	16	12	I	ADC High Reference. In external reference mode, externally drive the high reference voltage onto this pin. In internal reference mode, a voltage is driven onto this pin by the device. In either mode, place at least a 2.2-µF capacitor on this pin. This capacitor should be placed as close to the device as possible between the VREFHI and VREFLO pins.
VREFLO		26, 27	21	17	17	13	I	ADC Low Reference
GPIO
AIO231	0, 4, 8, 12	23	19	15	15	11	I	Analog Pin Used For Digital Input 231 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_C1	2						I	SDFM-1 Channel 1 Clock Input
HIC_BASESEL1	15						I	HIC Base address range select 1
AIO232	0, 4, 8, 12	22	18	14	14	10	I	Analog Pin Used For Digital Input 232 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_D4	2						I	SDFM-1 Channel 4 Data Input
HIC_BASESEL0	15						I	HIC Base address range select 0
AIO224	0, 4, 8, 12	17	13	9	9	6	I	Analog Pin Used For Digital Input 224 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_D3	2						I	SDFM-2 Channel 3 Data Input
HIC_A3	15						I	HIC Address 3
AIO225	0, 4, 8, 12	36	27	23	23	19	I	Analog Pin Used For Digital Input 225 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C2	2						I	SDFM-2 Channel 2 Clock Input
HIC_NWE	15						I	HIC Data Write enable from host
AIO228	0, 4, 8, 12	14	10	6	6	4	I	Analog Pin Used For Digital Input 228 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C1	2						I	SDFM-2 Channel 1 Clock Input
HIC_A0	15						I	HIC Address 0
AIO240	0, 4, 8, 12	37					I	Analog Pin Used For Digital Input 240 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C1	2						I	SDFM-2 Channel 1 Clock Input
HIC_NBE1	15						I	HIC Byte enable 1
AIO241	0, 4, 8, 12		24	20	20	16	I	Analog Pin Used For Digital Input 241 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C1	2						I	SDFM-2 Channel 1 Clock Input
HIC_NBE1	15						I	HIC Byte enable 1
AIO227	0, 4, 8, 12	38	28	24	24	20	I	Analog Pin Used For Digital Input 227 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_C3	2						I	SDFM-1 Channel 3 Clock Input
HIC_NBE0	15						I	HIC Byte enable 0
AIO230	0, 4, 8, 12	40	29	25	25	21	I	Analog Pin Used For Digital Input 230 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_C4	2						I	SDFM-1 Channel 4 Clock Input
HIC_BASESEL2	15						I	HIC Base address range select 2
AIO237	0, 4, 8, 12	20	16	12	12	8	I	Analog Pin Used For Digital Input 237 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_D2	2						I	SDFM-1 Channel 2 Data Input
HIC_A6	15						I	HIC Address 6
AIO238	0, 4, 8, 12	28	22	18	18	14	I	Analog Pin Used For Digital Input 238 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C3	2						I	SDFM-2 Channel 3 Clock Input
HIC_NCS	15						I	HIC Chip select input
AIO239	0, 4, 8, 12	19	15	11	11		I	Analog Pin Used For Digital Input 239 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_D1	2						I	SDFM-1 Channel 1 Data Input
HIC_A5	15						I	HIC Address 5
AIO233	0, 4, 8, 12		14	10	10	7	I	Analog Pin Used For Digital Input 233 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_D1	2						I	SDFM-2 Channel 1 Data Input
HIC_A4	15						I	HIC Address 4
AIO226	0, 4, 8, 12	15	11	7	7	4	I	Analog Pin Used For Digital Input 226 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_D4	2						I	SDFM-2 Channel 4 Data Input
HIC_A1	15						I	HIC Address 1
AIO242	0, 4, 8, 12	16	12	8	8	5	I	Analog Pin Used For Digital Input 242 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_D2	2						I	SDFM-2 Channel 2 Data Input
HIC_A2	15						I	HIC Address 2
AIO252	0, 4, 8, 12	32					I	Analog Pin Used For Digital Input 252 This pin also has analog functions which are described in the ANALOG section of this table.
SD2_C4	2	32					I	SDFM-2 Channel 4 Clock Input
AIO244	0, 4, 8, 12	21	17	13	13	9	I	Analog Pin Used For Digital Input 244 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_D3	2						I	SDFM-1 Channel 3 Data Input
HIC_A7	15						I	HIC Address 7
AIO245	0, 4, 8, 12	31	23	19	19	15	I	Analog Pin Used For Digital Input 245 This pin also has analog functions which are described in the ANALOG section of this table.
SD1_C2	2						I	SDFM-1 Channel 2 Clock Input
HIC_NOE	15						O	HIC Output enable for data bus
GPIO0	0, 4, 8, 12	79	63	52	52	42	I/O	General-Purpose Input Output 0
EPWM1_A	1						O	ePWM-1 Output A
I2CA_SDA	6						I/OD	I2C-A Open-Drain Bidirectional Data
SPIA_STE	7						I/O	SPI-A Slave Transmit Enable (STE)
FSIRXA_CLK	9						I	FSIRX-A Input Clock
MCAN_RX	10						I	CAN/CAN FD Receive
CLB_OUTPUTXBAR8	11						O	CLB Output X-BAR Output 8
EQEP1_INDEX	13						I/O	eQEP-1 Index
HIC_D7	14						I/O	HIC Data 7
HIC_BASESEL1	15						I	HIC Base address range select 1
GPIO1	0, 4, 8, 12	78	62	51	51	41	I/O	General-Purpose Input Output 1
EPWM1_B	1						O	ePWM-1 Output B
I2CA_SCL	6						I/OD	I2C-A Open-Drain Bidirectional Clock
SPIA_SOMI	7						I/O	SPI-A Slave Out, Master In (SOMI)
MCAN_TX	10						O	CAN/CAN FD Transmit
CLB_OUTPUTXBAR7	11						O	CLB Output X-BAR Output 7
HIC_A2	13						I	HIC Address 2
FSITXA_TDM_D1	14						I	FSITX-A Time Division Multiplexed Additional Data Input
HIC_D10	15						I/O	HIC Data 10
GPIO2	0, 4, 8, 12	77	61	50	50	40	I/O	General-Purpose Input Output 2
EPWM2_A	1						O	ePWM-2 Output A
OUTPUTXBAR1	5						O	Output X-BAR Output 1
PMBUSA_SDA	6						I/OD	PMBus-A Open-Drain Bidirectional Data
SPIA_SIMO	7						I/O	SPI-A Slave In, Master Out (SIMO)
SCIA_TX	9						O	SCI-A Transmit Data
FSIRXA_D1	10						I	FSIRX-A Optional Additional Data Input
I2CB_SDA	11						I/OD	I2C-B Open-Drain Bidirectional Data
HIC_A1	13						I	HIC Address 1
CANA_TX	14						O	CAN-A Transmit
HIC_D9	15						I/O	HIC Data 9
GPIO3	0, 4, 8, 12	76	60	49	49	39	I/O	General-Purpose Input Output 3
EPWM2_B	1						O	ePWM-2 Output B
OUTPUTXBAR2	2, 5						O	Output X-BAR Output 2
PMBUSA_SCL	6						I/OD	PMBus-A Open-Drain Bidirectional Clock
SPIA_CLK	7						I/O	SPI-A Clock
SCIA_RX	9						I	SCI-A Receive Data
FSIRXA_D0	10						I	FSIRX-A Primary Data Input
I2CB_SCL	11						I/OD	I2C-B Open-Drain Bidirectional Clock
HIC_NOE	13						O	HIC Output enable for data bus
CANA_RX	14						I	CAN-A Receive
HIC_D4	15						I/O	HIC Data 4
GPIO4	0, 4, 8, 12	75	59	48	48	38	I/O	General-Purpose Input Output 4
EPWM3_A	1						O	ePWM-3 Output A
MCAN_TX	3						O	CAN/CAN FD Transmit
OUTPUTXBAR3	5						O	Output X-BAR Output 3
CANA_TX	6						O	CAN-A Transmit
SPIB_CLK	7						I/O	SPI-B Clock
EQEP2_STROBE	9						I/O	eQEP-2 Strobe
FSIRXA_CLK	10						I	FSIRX-A Input Clock
CLB_OUTPUTXBAR6	11						O	CLB Output X-BAR Output 6
HIC_BASESEL2	13						I	HIC Base address range select 2
HIC_NWE	15						I	HIC Data Write enable from host
GPIO5	0, 4, 8, 12	89	74	61	61	47	I/O	General-Purpose Input Output 5
EPWM3_B	1						O	ePWM-3 Output B
OUTPUTXBAR3	3						O	Output X-BAR Output 3
MCAN_RX	5						I	CAN/CAN FD Receive
CANA_RX	6						I	CAN-A Receive
SPIA_STE	7						I/O	SPI-A Slave Transmit Enable (STE)
FSITXA_D1	9						O	FSITX-A Optional Additional Data Output
CLB_OUTPUTXBAR5	10						O	CLB Output X-BAR Output 5
HIC_A7	13						I	HIC Address 7
HIC_D4	14						I/O	HIC Data 4
HIC_D15	15						I/O	HIC Data 15
GPIO6	0, 4, 8, 12	97	80	64	64	48	I/O	General-Purpose Input Output 6
EPWM4_A	1						O	ePWM-4 Output A
OUTPUTXBAR4	2						O	Output X-BAR Output 4
SYNCOUT	3						O	External ePWM Synchronization Pulse
EQEP1_A	5						I	eQEP-1 Input A
SPIB_SOMI	7						I/O	SPI-B Slave Out, Master In (SOMI)
FSITXA_D0	9						O	FSITX-A Primary Data Output
FSITXA_D1	11						O	FSITX-A Optional Additional Data Output
HIC_NBE1	13						I	HIC Byte enable 1
CLB_OUTPUTXBAR8	14						O	CLB Output X-BAR Output 8
HIC_D14	15						I/O	HIC Data 14
GPIO7	0, 4, 8, 12	84	68	57	57	43	I/O	General-Purpose Input Output 7
EPWM4_B	1						O	ePWM-4 Output B
OUTPUTXBAR5	3						O	Output X-BAR Output 5
EQEP1_B	5						I	eQEP-1 Input B
SPIB_SIMO	7						I/O	SPI-B Slave In, Master Out (SIMO)
FSITXA_CLK	9						O	FSITX-A Output Clock
CLB_OUTPUTXBAR2	10						O	CLB Output X-BAR Output 2
HIC_A6	13						I	HIC Address 6
HIC_D14	15						I/O	HIC Data 14
GPIO8	0, 4, 8, 12	74	58	47	47		I/O	General-Purpose Input Output 8
EPWM5_A	1						O	ePWM-5 Output A
ADCSOCAO	3						O	ADC Start of Conversion A for External ADC
EQEP1_STROBE	5						I/O	eQEP-1 Strobe
SCIA_TX	6						O	SCI-A Transmit Data
SPIA_SIMO	7						I/O	SPI-A Slave In, Master Out (SIMO)
I2CA_SCL	9						I/OD	I2C-A Open-Drain Bidirectional Clock
FSITXA_D1	10						O	FSITX-A Optional Additional Data Output
CLB_OUTPUTXBAR5	11						O	CLB Output X-BAR Output 5
HIC_A0	13						I	HIC Address 0
FSITXA_TDM_CLK	14						I	FSITX-A Time Division Multiplexed Clock Input
HIC_D8	15						I/O	HIC Data 8
GPIO9	0, 4, 8, 12	90	75	62	62		I/O	General-Purpose Input Output 9
EPWM5_B	1						O	ePWM-5 Output B
SCIB_TX	2						O	SCI-B Transmit Data
OUTPUTXBAR6	3						O	Output X-BAR Output 6
EQEP1_INDEX	5						I/O	eQEP-1 Index
SCIA_RX	6						I	SCI-A Receive Data
SPIA_CLK	7						I/O	SPI-A Clock
FSITXA_D0	10						O	FSITX-A Primary Data Output
LINB_RX	11						I	LIN-B Receive
HIC_BASESEL0	13						I	HIC Base address range select 0
I2CB_SCL	14						I/OD	I2C-B Open-Drain Bidirectional Clock
HIC_NRDY	15						O	HIC Ready from device to host
GPIO10	0, 4, 8, 12	93	76	63	63		I/O	General-Purpose Input Output 10
EPWM6_A	1						O	ePWM-6 Output A
ADCSOCBO	3						O	ADC Start of Conversion B for External ADC
EQEP1_A	5						I	eQEP-1 Input A
SCIB_TX	6						O	SCI-B Transmit Data
SPIA_SOMI	7						I/O	SPI-A Slave Out, Master In (SOMI)
I2CA_SDA	9						I/OD	I2C-A Open-Drain Bidirectional Data
FSITXA_CLK	10						O	FSITX-A Output Clock
LINB_TX	11						O	LIN-B Transmit
HIC_NWE	13						I	HIC Data Write enable from host
FSITXA_TDM_D0	14						I	FSITX-A Time Division Multiplexed Data Input
CLB_OUTPUTXBAR4	15						O	CLB Output X-BAR Output 4
GPIO11	0, 4, 8, 12	52	37	31	31		I/O	General-Purpose Input Output 11
EPWM6_B	1						O	ePWM-6 Output B
OUTPUTXBAR7	3						O	Output X-BAR Output 7
EQEP1_B	5						I	eQEP-1 Input B
SCIB_RX	6						I	SCI-B Receive Data
SPIA_STE	7						I/O	SPI-A Slave Transmit Enable (STE)
FSIRXA_D1	9						I	FSIRX-A Optional Additional Data Input
LINB_RX	10						I	LIN-B Receive
EQEP2_A	11						I	eQEP-2 Input A
SPIA_SIMO	13						I/O	SPI-A Slave In, Master Out (SIMO)
HIC_D6	14						I/O	HIC Data 6
HIC_NBE0	15						I	HIC Byte enable 0
GPIO12	0, 4, 8, 12	51	36	30	30		I/O	General-Purpose Input Output 12
EPWM7_A	1						O	ePWM-7 Output A
MCAN_RX	3						I	CAN/CAN FD Receive
EQEP1_STROBE	5						I/O	eQEP-1 Strobe
SCIB_TX	6						O	SCI-B Transmit Data
PMBUSA_CTL	7						I/O	PMBus-A Control Signal - Slave Input/Master Output
FSIRXA_D0	9						I	FSIRX-A Primary Data Input
LINB_TX	10						O	LIN-B Transmit
SPIA_CLK	11						I/O	SPI-A Clock
CANA_RX	13						I	CAN-A Receive
HIC_D13	14						I/O	HIC Data 13
HIC_INT	15						O	HIC Device interrupt to host
GPIO13	0, 4, 8, 12	50	35	29	29		I/O	General-Purpose Input Output 13
EPWM7_B	1						O	ePWM-7 Output B
MCAN_TX	3						O	CAN/CAN FD Transmit
EQEP1_INDEX	5						I/O	eQEP-1 Index
SCIB_RX	6						I	SCI-B Receive Data
PMBUSA_ALERT	7						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
FSIRXA_CLK	9						I	FSIRX-A Input Clock
LINB_RX	10						I	LIN-B Receive
SPIA_SOMI	11						I/O	SPI-A Slave Out, Master In (SOMI)
CANA_TX	13						O	CAN-A Transmit
HIC_D11	14						I/O	HIC Data 11
HIC_D5	15						I/O	HIC Data 5
GPIO14	0, 4, 8, 12	96	79				I/O	General-Purpose Input Output 14
EPWM8_A	1						O	ePWM-8 Output A
SCIB_TX	2						O	SCI-B Transmit Data
I2CB_SDA	5						I/OD	I2C-B Open-Drain Bidirectional Data
OUTPUTXBAR3	6						O	Output X-BAR Output 3
PMBUSA_SDA	7						I/OD	PMBus-A Open-Drain Bidirectional Data
SPIB_CLK	9						I/O	SPI-B Clock
EQEP2_A	10						I	eQEP-2 Input A
LINB_TX	11						O	LIN-B Transmit
EPWM3_A	13						O	ePWM-3 Output A
CLB_OUTPUTXBAR7	14						O	CLB Output X-BAR Output 7
HIC_D15	15						I/O	HIC Data 15
GPIO15	0, 4, 8, 12	95	78				I/O	General-Purpose Input Output 15
EPWM8_B	1						O	ePWM-8 Output B
SCIB_RX	2						I	SCI-B Receive Data
I2CB_SCL	5						I/OD	I2C-B Open-Drain Bidirectional Clock
OUTPUTXBAR4	6						O	Output X-BAR Output 4
PMBUSA_SCL	7						I/OD	PMBus-A Open-Drain Bidirectional Clock
SPIB_STE	9						I/O	SPI-B Slave Transmit Enable (STE)
EQEP2_B	10						I	eQEP-2 Input B
LINB_RX	11						I	LIN-B Receive
EPWM3_B	13						O	ePWM-3 Output B
CLB_OUTPUTXBAR6	14						O	CLB Output X-BAR Output 6
HIC_D12	15						I/O	HIC Data 12
GPIO16	0, 4, 8, 12	54	39	33	33	26	I/O	General-Purpose Input Output 16
SPIA_SIMO	1						I/O	SPI-A Slave In, Master Out (SIMO)
OUTPUTXBAR7	3						O	Output X-BAR Output 7
EPWM5_A	5						O	ePWM-5 Output A
SCIA_TX	6						O	SCI-A Transmit Data
SD1_D1	7						I	SDFM-1 Channel 1 Data Input
EQEP1_STROBE	9						I/O	eQEP-1 Strobe
PMBUSA_SCL	10						I/OD	PMBus-A Open-Drain Bidirectional Clock
XCLKOUT	11						O	External Clock Output. This pin outputs a divided-down version of a chosen clock signal from within the device.
EQEP2_B	13						I	eQEP-2 Input B
SPIB_SOMI	14						I/O	SPI-B Slave Out, Master In (SOMI)
HIC_D1	15						I/O	HIC Data 1
GPIO17	0, 4, 8, 12	55	40	34	34		I/O	General-Purpose Input Output 17
SPIA_SOMI	1						I/O	SPI-A Slave Out, Master In (SOMI)
OUTPUTXBAR8	3						O	Output X-BAR Output 8
EPWM5_B	5						O	ePWM-5 Output B
SCIA_RX	6						I	SCI-A Receive Data
SD1_C1	7						I	SDFM-1 Channel 1 Clock Input
EQEP1_INDEX	9						I/O	eQEP-1 Index
PMBUSA_SDA	10						I/OD	PMBus-A Open-Drain Bidirectional Data
CANA_TX	11						O	CAN-A Transmit
HIC_D2	15						I/O	HIC Data 2
GPIO18	0, 4, 8, 12	68	50	41	41	33	I/O	General-Purpose Input Output 18
SPIA_CLK	1						I/O	SPI-A Clock
SCIB_TX	2						O	SCI-B Transmit Data
CANA_RX	3						I	CAN-A Receive
EPWM6_A	5						O	ePWM-6 Output A
I2CA_SCL	6						I/OD	I2C-A Open-Drain Bidirectional Clock
SD1_D2	7						I	SDFM-1 Channel 2 Data Input
EQEP2_A	9						I	eQEP-2 Input A
PMBUSA_CTL	10						I/O	PMBus-A Control Signal - Slave Input/Master Output
XCLKOUT	11						O	External Clock Output. This pin outputs a divided-down version of a chosen clock signal from within the device.
LINB_TX	13						O	LIN-B Transmit
FSITXA_TDM_CLK	14						I	FSITX-A Time Division Multiplexed Clock Input
HIC_INT	15						O	HIC Device interrupt to host
X2	ALT						I/O	Crystal oscillator output.
GPIO19	0, 4, 8, 12	69	51	42	42	34	I/O	General-Purpose Input Output 19
SPIA_STE	1						I/O	SPI-A Slave Transmit Enable (STE)
SCIB_RX	2						I	SCI-B Receive Data
CANA_TX	3						O	CAN-A Transmit
EPWM6_B	5						O	ePWM-6 Output B
I2CA_SDA	6						I/OD	I2C-A Open-Drain Bidirectional Data
SD1_C2	7						I	SDFM-1 Channel 2 Clock Input
EQEP2_B	9						I	eQEP-2 Input B
PMBUSA_ALERT	10						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
CLB_OUTPUTXBAR1	11						O	CLB Output X-BAR Output 1
LINB_RX	13						I	LIN-B Receive
FSITXA_TDM_D0	14						I	FSITX-A Time Division Multiplexed Data Input
HIC_NBE0	15						I	HIC Byte enable 0
X1	ALT						I/O	Crystal oscillator input or single-ended clock input. The device initialization software must configure this pin before the crystal oscillator is enabled. To use this oscillator, a quartz crystal circuit must be connected to X1 and X2. This pin can also be used to feed a single-ended 3.3-V level clock. See the XTAL section for usage details.
GPIO20	0, 4, 8, 12	48	33				I/O	General-Purpose Input Output 20 This pin also has analog functions which are described in the ANALOG section of this table.
EQEP1_A	1						I	eQEP-1 Input A
SPIB_SIMO	6						I/O	SPI-B Slave In, Master Out (SIMO)
SD1_D3	7						I	SDFM-1 Channel 3 Data Input
MCAN_TX	9						O	CAN/CAN FD Transmit
GPIO21	0, 4, 8, 12	49	34				I/O	General-Purpose Input Output 21 This pin also has analog functions which are described in the ANALOG section of this table.
EQEP1_B	1						I	eQEP-1 Input B
SPIB_SOMI	6						I/O	SPI-B Slave Out, Master In (SOMI)
SD1_C3	7						I	SDFM-1 Channel 3 Clock Input
MCAN_RX	9						I	CAN/CAN FD Receive
GPIO22	0, 4, 8, 12	83	67	56	56		I/O	General-Purpose Input Output 22
EQEP1_STROBE	1						I/O	eQEP-1 Strobe
SCIB_TX	3						O	SCI-B Transmit Data
SPIB_CLK	6						I/O	SPI-B Clock
SD1_D4	7						I	SDFM-1 Channel 4 Data Input
LINA_TX	9						O	LIN-A Transmit
CLB_OUTPUTXBAR1	10						O	CLB Output X-BAR Output 1
LINB_TX	11						O	LIN-B Transmit
HIC_A5	13						I	HIC Address 5
EPWM4_A	14						O	ePWM-4 Output A
HIC_D13	15						I/O	HIC Data 13
GPIO23	0, 4, 8, 12	81	65	54	54		I/O	General-Purpose Input Output 23
EQEP1_INDEX	1						I/O	eQEP-1 Index
SCIB_RX	3						I	SCI-B Receive Data
SPIB_STE	6						I/O	SPI-B Slave Transmit Enable (STE)
SD1_C4	7						I	SDFM-1 Channel 4 Clock Input
LINA_RX	9						I	LIN-A Receive
CLB_OUTPUTXBAR3	10						O	CLB Output X-BAR Output 3
LINB_RX	11						I	LIN-B Receive
HIC_A3	13						I	HIC Address 3
EPWM4_B	14						O	ePWM-4 Output B
HIC_D11	15						I/O	HIC Data 11
GPIO24	0, 4, 8, 12	56	41	35	35	27	I/O	General-Purpose Input Output 24
OUTPUTXBAR1	1						O	Output X-BAR Output 1
EQEP2_A	2						I	eQEP-2 Input A
EPWM8_A	5						O	ePWM-8 Output A
SPIB_SIMO	6						I/O	SPI-B Slave In, Master Out (SIMO)
SD2_D1	7						I	SDFM-2 Channel 1 Data Input
LINB_TX	9						O	LIN-B Transmit
PMBUSA_SCL	10						I/OD	PMBus-A Open-Drain Bidirectional Clock
SCIA_TX	11						O	SCI-A Transmit Data
ERRORSTS	13						O	Error Status Output. This signal requires an external pulldown.
HIC_D3	15						I/O	HIC Data 3
GPIO25	0, 4, 8, 12	57	42				I/O	General-Purpose Input Output 25
OUTPUTXBAR2	1						O	Output X-BAR Output 2
EQEP2_B	2						I	eQEP-2 Input B
EQEP1_A	5						I	eQEP-1 Input A
SPIB_SOMI	6						I/O	SPI-B Slave Out, Master In (SOMI)
SD2_C1	7						I	SDFM-2 Channel 1 Clock Input
FSITXA_D1	9						O	FSITX-A Optional Additional Data Output
PMBUSA_SDA	10						I/OD	PMBus-A Open-Drain Bidirectional Data
SCIA_RX	11						I	SCI-A Receive Data
HIC_BASESEL0	14						I	HIC Base address range select 0
GPIO26	0, 4, 8, 12	58	43				I/O	General-Purpose Input Output 26
OUTPUTXBAR3	1, 5						O	Output X-BAR Output 3
EQEP2_INDEX	2						I/O	eQEP-2 Index
SPIB_CLK	6						I/O	SPI-B Clock
SD2_D2	7						I	SDFM-2 Channel 2 Data Input
FSITXA_D0	9						O	FSITX-A Primary Data Output
PMBUSA_CTL	10						I/O	PMBus-A Control Signal - Slave Input/Master Output
I2CA_SDA	11						I/OD	I2C-A Open-Drain Bidirectional Data
HIC_D0	14						I/O	HIC Data 0
HIC_A1	15						I	HIC Address 1
GPIO27	0, 4, 8, 12	59	44				I/O	General-Purpose Input Output 27
OUTPUTXBAR4	1, 5						O	Output X-BAR Output 4
EQEP2_STROBE	2						I/O	eQEP-2 Strobe
SPIB_STE	6						I/O	SPI-B Slave Transmit Enable (STE)
SD2_C2	7						I	SDFM-2 Channel 2 Clock Input
FSITXA_CLK	9						O	FSITX-A Output Clock
PMBUSA_ALERT	10						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
I2CA_SCL	11						I/OD	I2C-A Open-Drain Bidirectional Clock
HIC_D1	14						I/O	HIC Data 1
HIC_A4	15						I	HIC Address 4
GPIO28	0, 4, 8, 12	1	4	2	2	2	I/O	General-Purpose Input Output 28
SCIA_RX	1						I	SCI-A Receive Data
EPWM7_A	3						O	ePWM-7 Output A
OUTPUTXBAR5	5						O	Output X-BAR Output 5
EQEP1_A	6						I	eQEP-1 Input A
SD2_D3	7						I	SDFM-2 Channel 3 Data Input
EQEP2_STROBE	9						I/O	eQEP-2 Strobe
LINA_TX	10						O	LIN-A Transmit
SPIB_CLK	11						I/O	SPI-B Clock
ERRORSTS	13						O	Error Status Output. This signal requires an external pulldown.
I2CB_SDA	14						I/OD	I2C-B Open-Drain Bidirectional Data
HIC_NOE	15						O	HIC Output enable for data bus
GPIO29	0, 4, 8, 12	100	3	1	1	1	I/O	General-Purpose Input Output 29
SCIA_TX	1						O	SCI-A Transmit Data
EPWM7_B	3						O	ePWM-7 Output B
OUTPUTXBAR6	5						O	Output X-BAR Output 6
EQEP1_B	6						I	eQEP-1 Input B
SD2_C3	7						I	SDFM-2 Channel 3 Clock Input
EQEP2_INDEX	9						I/O	eQEP-2 Index
LINA_RX	10						I	LIN-A Receive
SPIB_STE	11						I/O	SPI-B Slave Transmit Enable (STE)
ERRORSTS	13						O	Error Status Output. This signal requires an external pulldown.
I2CB_SCL	14						I/OD	I2C-B Open-Drain Bidirectional Clock
HIC_NCS	15						I	HIC Chip select input
AUXCLKIN	ALT						I	Auxiliary Clock Input
GPIO30	0, 4, 8, 12	98	1				I/O	General-Purpose Input Output 30
CANA_RX	1						I	CAN-A Receive
SPIB_SIMO	3						I/O	SPI-B Slave In, Master Out (SIMO)
OUTPUTXBAR7	5						O	Output X-BAR Output 7
EQEP1_STROBE	6						I/O	eQEP-1 Strobe
SD2_D4	7						I	SDFM-2 Channel 4 Data Input
FSIRXA_CLK	9						I	FSIRX-A Input Clock
MCAN_RX	10						I	CAN/CAN FD Receive
EPWM1_A	11						O	ePWM-1 Output A
HIC_D8	14						I/O	HIC Data 8
GPIO31	0, 4, 8, 12	99	2				I/O	General-Purpose Input Output 31
CANA_TX	1						O	CAN-A Transmit
SPIB_SOMI	3						I/O	SPI-B Slave Out, Master In (SOMI)
OUTPUTXBAR8	5						O	Output X-BAR Output 8
EQEP1_INDEX	6						I/O	eQEP-1 Index
SD2_C4	7						I	SDFM-2 Channel 4 Clock Input
FSIRXA_D1	9						I	FSIRX-A Optional Additional Data Input
MCAN_TX	10						O	CAN/CAN FD Transmit
EPWM1_B	11						O	ePWM-1 Output B
HIC_D10	14						I/O	HIC Data 10
GPIO32	0, 4, 8, 12	64	49	40	40	32	I/O	General-Purpose Input Output 32
I2CA_SDA	1						I/OD	I2C-A Open-Drain Bidirectional Data
SPIB_CLK	3						I/O	SPI-B Clock
EPWM8_B	5						O	ePWM-8 Output B
LINA_TX	6						O	LIN-A Transmit
SD1_D2	7						I	SDFM-1 Channel 2 Data Input
FSIRXA_D0	9						I	FSIRX-A Primary Data Input
CANA_TX	10						O	CAN-A Transmit
PMBUSA_SDA	11						I/OD	PMBus-A Open-Drain Bidirectional Data
ADCSOCBO	13						O	ADC Start of Conversion B for External ADC
HIC_INT	15						O	HIC Device interrupt to host
GPIO33	0, 4, 8, 12	53	38	32	32	25	I/O	General-Purpose Input Output 33
I2CA_SCL	1						I/OD	I2C-A Open-Drain Bidirectional Clock
SPIB_STE	3						I/O	SPI-B Slave Transmit Enable (STE)
OUTPUTXBAR4	5						O	Output X-BAR Output 4
LINA_RX	6						I	LIN-A Receive
SD1_C2	7						I	SDFM-1 Channel 2 Clock Input
FSIRXA_CLK	9						I	FSIRX-A Input Clock
CANA_RX	10						I	CAN-A Receive
EQEP2_B	11						I	eQEP-2 Input B
ADCSOCAO	13						O	ADC Start of Conversion A for External ADC
SD1_C1	14						I	SDFM-1 Channel 1 Clock Input
HIC_D0	15						I/O	HIC Data 0
GPIO34	0, 4, 8, 12	94	77				I/O	General-Purpose Input Output 34
OUTPUTXBAR1	1						O	Output X-BAR Output 1
PMBUSA_SDA	6						I/OD	PMBus-A Open-Drain Bidirectional Data
HIC_NBE1	13						I	HIC Byte enable 1
I2CB_SDA	14						I/OD	I2C-B Open-Drain Bidirectional Data
HIC_D9	15						I/O	HIC Data 9
GPIO35	0, 4, 8, 12	63	48	39	39	31	I/O	General-Purpose Input Output 35
SCIA_RX	1						I	SCI-A Receive Data
I2CA_SDA	3						I/OD	I2C-A Open-Drain Bidirectional Data
CANA_RX	5						I	CAN-A Receive
PMBUSA_SCL	6						I/OD	PMBus-A Open-Drain Bidirectional Clock
LINA_RX	7						I	LIN-A Receive
EQEP1_A	9						I	eQEP-1 Input A
PMBUSA_CTL	10						I/O	PMBus-A Control Signal - Slave Input/Master Output
EPWM5_B	11						O	ePWM-5 Output B
SD2_C1	13						I	SDFM-2 Channel 1 Clock Input
HIC_NWE	14						I	HIC Data Write enable from host
TDI	15						I	JTAG Test Data Input (TDI) - TDI is the default mux selection for the pin. The internal pullup is disabled by default. The internal pullup should be enabled or an external pullup added on the board if this pin is used as JTAG TDI to avoid a floating input.
GPIO37	0, 4, 8, 12	61	46	37	37	29	I/O	General-Purpose Input Output 37
OUTPUTXBAR2	1						O	Output X-BAR Output 2
I2CA_SCL	3						I/OD	I2C-A Open-Drain Bidirectional Clock
SCIA_TX	5						O	SCI-A Transmit Data
CANA_TX	6						O	CAN-A Transmit
LINA_TX	7						O	LIN-A Transmit
EQEP1_B	9						I	eQEP-1 Input B
PMBUSA_ALERT	10						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
HIC_NRDY	14						O	HIC Ready from device to host
TDO	15						O	JTAG Test Data Output (TDO) - TDO is the default mux selection for the pin. The internal pullup is disabled by default. The TDO function will be in a tri-state condition when there is no JTAG activity, leaving this pin floating; the internal pullup should be enabled or an external pullup added on the board to avoid a floating GPIO input.
GPIO39	0, 4, 8, 12		56		46		I/O	General-Purpose Input Output 39
MCAN_RX	6						I	CAN/CAN FD Receive
FSIRXA_CLK	7						I	FSIRX-A Input Clock
EQEP2_INDEX	9						I/O	eQEP-2 Index
CLB_OUTPUTXBAR2	11						O	CLB Output X-BAR Output 2
SYNCOUT	13						O	External ePWM Synchronization Pulse
EQEP1_INDEX	14						I/O	eQEP-1 Index
HIC_D7	15						I/O	HIC Data 7
GPIO40	0, 4, 8, 12	80	64	53	53		I/O	General-Purpose Input Output 40
SPIB_SIMO	1						I/O	SPI-B Slave In, Master Out (SIMO)
EPWM2_B	5						O	ePWM-2 Output B
PMBUSA_SDA	6						I/OD	PMBus-A Open-Drain Bidirectional Data
FSIRXA_D0	7						I	FSIRX-A Primary Data Input
SCIB_TX	9						O	SCI-B Transmit Data
EQEP1_A	10						I	eQEP-1 Input A
LINB_TX	11						O	LIN-B Transmit
HIC_NBE1	14						I	HIC Byte enable 1
HIC_D5	15						I/O	HIC Data 5
GPIO41	0, 4, 8, 12	82	66	55	55		I/O	General-Purpose Input Output 41
EPWM2_A	5						O	ePWM-2 Output A
PMBUSA_SCL	6						I/OD	PMBus-A Open-Drain Bidirectional Clock
FSIRXA_D1	7						I	FSIRX-A Optional Additional Data Input
SCIB_RX	9						I	SCI-B Receive Data
EQEP1_B	10						I	eQEP-1 Input B
LINB_RX	11						I	LIN-B Receive
HIC_A4	13						I	HIC Address 4
SPIB_SOMI	14						I/O	SPI-B Slave Out, Master In (SOMI)
HIC_D12	15						I/O	HIC Data 12
GPIO42	0, 4, 8, 12		57				I/O	General-Purpose Input Output 42
LINA_RX	2						I	LIN-A Receive
OUTPUTXBAR5	3						O	Output X-BAR Output 5
PMBUSA_CTL	5						I/O	PMBus-A Control Signal - Slave Input/Master Output
I2CA_SDA	6						I/OD	I2C-A Open-Drain Bidirectional Data
EQEP1_STROBE	10						I/O	eQEP-1 Strobe
CLB_OUTPUTXBAR3	11						O	CLB Output X-BAR Output 3
HIC_D2	14						I/O	HIC Data 2
HIC_A6	15						I	HIC Address 6
GPIO43	0, 4, 8, 12		54				I/O	General-Purpose Input Output 43
OUTPUTXBAR6	3						O	Output X-BAR Output 6
PMBUSA_ALERT	5, 9						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
I2CA_SCL	6						I/OD	I2C-A Open-Drain Bidirectional Clock
EQEP1_INDEX	10						I/O	eQEP-1 Index
CLB_OUTPUTXBAR4	11						O	CLB Output X-BAR Output 4
SD2_D3	13						I	SDFM-2 Channel 3 Data Input
HIC_D3	14						I/O	HIC Data 3
HIC_A7	15						I	HIC Address 7
GPIO44	0, 4, 8, 12	85	69				I/O	General-Purpose Input Output 44
OUTPUTXBAR7	3						O	Output X-BAR Output 7
EQEP1_A	5						I	eQEP-1 Input A
PMBUSA_SDA	6						I/OD	PMBus-A Open-Drain Bidirectional Data
FSITXA_CLK	7						O	FSITX-A Output Clock
PMBUSA_CTL	9						I/O	PMBus-A Control Signal - Slave Input/Master Output
CLB_OUTPUTXBAR3	10						O	CLB Output X-BAR Output 3
FSIRXA_D0	11						I	FSIRX-A Primary Data Input
HIC_D7	13						I/O	HIC Data 7
LINB_TX	14						O	LIN-B Transmit
HIC_D5	15						I/O	HIC Data 5
GPIO45	0, 4, 8, 12		73				I/O	General-Purpose Input Output 45
OUTPUTXBAR8	3						O	Output X-BAR Output 8
FSITXA_D0	7						O	FSITX-A Primary Data Output
PMBUSA_ALERT	9						I/OD	PMBus-A Open-Drain Bidirectional Alert Signal
CLB_OUTPUTXBAR4	10						O	CLB Output X-BAR Output 4
SD2_C3	13						I	SDFM-2 Channel 3 Clock Input
HIC_D6	15						I/O	HIC Data 6
GPIO46	0, 4, 8, 12		6				I/O	General-Purpose Input Output 46
LINA_TX	3						O	LIN-A Transmit
MCAN_TX	5						O	CAN/CAN FD Transmit
FSITXA_D1	7						O	FSITX-A Optional Additional Data Output
PMBUSA_SDA	9						I/OD	PMBus-A Open-Drain Bidirectional Data
SD2_C4	13						I	SDFM-2 Channel 4 Clock Input
HIC_NWE	15						I	HIC Data Write enable from host
GPIO47	0, 4, 8, 12	6					I/O	General-Purpose Input Output 47
LINA_RX	3						I	LIN-A Receive
MCAN_RX	5						I	CAN/CAN FD Receive
CLB_OUTPUTXBAR2	7						O	CLB Output X-BAR Output 2
PMBUSA_SCL	9						I/OD	PMBus-A Open-Drain Bidirectional Clock
SD2_D4	13						I	SDFM-2 Channel 4 Data Input
FSITXA_TDM_CLK	14						I	FSITX-A Time Division Multiplexed Clock Input
HIC_A6	15						I	HIC Address 6
GPIO48	0, 4, 8, 12	7					I/O	General-Purpose Input Output 48
OUTPUTXBAR3	1						O	Output X-BAR Output 3
CANA_TX	3						O	CAN-A Transmit
SCIA_TX	6						O	SCI-A Transmit Data
SD1_D1	7						I	SDFM-1 Channel 1 Data Input
PMBUSA_SDA	9						I/OD	PMBus-A Open-Drain Bidirectional Data
HIC_A7	15						I	HIC Address 7
GPIO49	0, 4, 8, 12	8					I/O	General-Purpose Input Output 49
OUTPUTXBAR4	1						O	Output X-BAR Output 4
CANA_RX	3						I	CAN-A Receive
SCIA_RX	6						I	SCI-A Receive Data
SD1_C1	7						I	SDFM-1 Channel 1 Clock Input
LINA_RX	9						I	LIN-A Receive
SD2_D1	13						I	SDFM-2 Channel 1 Data Input
FSITXA_D0	14						O	FSITX-A Primary Data Output
HIC_D2	15						I/O	HIC Data 2
GPIO50	0, 4, 8, 12	9					I/O	General-Purpose Input Output 50
EQEP1_A	1						I	eQEP-1 Input A
MCAN_TX	5						O	CAN/CAN FD Transmit
SPIB_SIMO	6						I/O	SPI-B Slave In, Master Out (SIMO)
SD1_D2	7						I	SDFM-1 Channel 2 Data Input
I2CB_SDA	9						I/OD	I2C-B Open-Drain Bidirectional Data
SD2_D2	13						I	SDFM-2 Channel 2 Data Input
FSITXA_D1	14						O	FSITX-A Optional Additional Data Output
HIC_D3	15						I/O	HIC Data 3
GPIO51	0, 4, 8, 12	10					I/O	General-Purpose Input Output 51
EQEP1_B	1						I	eQEP-1 Input B
MCAN_RX	5						I	CAN/CAN FD Receive
SPIB_SOMI	6						I/O	SPI-B Slave Out, Master In (SOMI)
SD1_C2	7						I	SDFM-1 Channel 2 Clock Input
I2CB_SCL	9						I/OD	I2C-B Open-Drain Bidirectional Clock
SD2_D3	13						I	SDFM-2 Channel 3 Data Input
FSITXA_CLK	14						O	FSITX-A Output Clock
HIC_D6	15						I/O	HIC Data 6
GPIO52	0, 4, 8, 12	11					I/O	General-Purpose Input Output 52
EQEP1_STROBE	1						I/O	eQEP-1 Strobe
CLB_OUTPUTXBAR5	5						O	CLB Output X-BAR Output 5
SPIB_CLK	6						I/O	SPI-B Clock
SD1_D3	7						I	SDFM-1 Channel 3 Data Input
SYNCOUT	9						O	External ePWM Synchronization Pulse
SD2_D4	13						I	SDFM-2 Channel 4 Data Input
FSIRXA_D0	14						I	FSIRX-A Primary Data Input
HIC_NWE	15						I	HIC Data Write enable from host
GPIO53	0, 4, 8, 12	12					I/O	General-Purpose Input Output 53
EQEP1_INDEX	1						I/O	eQEP-1 Index
CLB_OUTPUTXBAR6	5						O	CLB Output X-BAR Output 6
SPIB_STE	6						I/O	SPI-B Slave Transmit Enable (STE)
SD1_C3	7						I	SDFM-1 Channel 3 Clock Input
ADCSOCAO	9						O	ADC Start of Conversion A for External ADC
CANA_RX	10						I	CAN-A Receive
SD1_C1	13						I	SDFM-1 Channel 1 Clock Input
FSIRXA_D1	14						I	FSIRX-A Optional Additional Data Input
GPIO54	0, 4, 8, 12	13					I/O	General-Purpose Input Output 54
SPIA_SIMO	1						I/O	SPI-A Slave In, Master Out (SIMO)
EQEP2_A	5						I	eQEP-2 Input A
OUTPUTXBAR2	6						O	Output X-BAR Output 2
SD1_D4	7						I	SDFM-1 Channel 4 Data Input
ADCSOCBO	9						O	ADC Start of Conversion B for External ADC
LINB_TX	10						O	LIN-B Transmit
SD1_C2	13						I	SDFM-1 Channel 2 Clock Input
FSIRXA_CLK	14						I	FSIRX-A Input Clock
FSITXA_TDM_D1	15						I	FSITX-A Time Division Multiplexed Additional Data Input
GPIO55	0, 4, 8, 12	43					I/O	General-Purpose Input Output 55
SPIA_SOMI	1						I/O	SPI-A Slave Out, Master In (SOMI)
EQEP2_B	5						I	eQEP-2 Input B
OUTPUTXBAR3	6						O	Output X-BAR Output 3
SD1_C4	7						I	SDFM-1 Channel 4 Clock Input
ERRORSTS	9						O	Error Status Output. This signal requires an external pulldown.
LINB_RX	10						I	LIN-B Receive
SD1_C3	13						I	SDFM-1 Channel 3 Clock Input
HIC_A0	15						I	HIC Address 0
GPIO56	0, 4, 8, 12	65					I/O	General-Purpose Input Output 56
SPIA_CLK	1						I/O	SPI-A Clock
CLB_OUTPUTXBAR7	2						O	CLB Output X-BAR Output 7
MCAN_TX	3						O	CAN/CAN FD Transmit
EQEP2_STROBE	5						I/O	eQEP-2 Strobe
SCIB_TX	6						O	SCI-B Transmit Data
SD2_D1	7						I	SDFM-2 Channel 1 Data Input
SPIB_SIMO	9						I/O	SPI-B Slave In, Master Out (SIMO)
I2CA_SDA	10						I/OD	I2C-A Open-Drain Bidirectional Data
EQEP1_A	11						I	eQEP-1 Input A
SD1_C4	13						I	SDFM-1 Channel 4 Clock Input
FSIRXA_D1	14						I	FSIRX-A Optional Additional Data Input
HIC_D6	15						I/O	HIC Data 6
GPIO57	0, 4, 8, 12	66					I/O	General-Purpose Input Output 57
SPIA_STE	1						I/O	SPI-A Slave Transmit Enable (STE)
CLB_OUTPUTXBAR8	2						O	CLB Output X-BAR Output 8
MCAN_RX	3						I	CAN/CAN FD Receive
EQEP2_INDEX	5						I/O	eQEP-2 Index
SCIB_RX	6						I	SCI-B Receive Data
SD2_C1	7						I	SDFM-2 Channel 1 Clock Input
SPIB_SOMI	9						I/O	SPI-B Slave Out, Master In (SOMI)
I2CA_SCL	10						I/OD	I2C-A Open-Drain Bidirectional Clock
EQEP1_B	11						I	eQEP-1 Input B
FSIRXA_CLK	14						I	FSIRX-A Input Clock
HIC_D4	15						I/O	HIC Data 4
GPIO58	0, 4, 8, 12	67					I/O	General-Purpose Input Output 58
OUTPUTXBAR1	5						O	Output X-BAR Output 1
SPIB_CLK	6						I/O	SPI-B Clock
SD2_D2	7						I	SDFM-2 Channel 2 Data Input
LINA_TX	9						O	LIN-A Transmit
CANA_TX	10						O	CAN-A Transmit
EQEP1_STROBE	11						I/O	eQEP-1 Strobe
SD2_C2	13						I	SDFM-2 Channel 2 Clock Input
FSIRXA_D0	14						I	FSIRX-A Primary Data Input
HIC_NRDY	15						O	HIC Ready from device to host
GPIO59	0, 4, 8, 12	92					I/O	General-Purpose Input Output 59
OUTPUTXBAR2	5						O	Output X-BAR Output 2
SPIB_STE	6						I/O	SPI-B Slave Transmit Enable (STE)
SD2_C2	7						I	SDFM-2 Channel 2 Clock Input
LINA_RX	9						I	LIN-A Receive
CANA_RX	10						I	CAN-A Receive
EQEP1_INDEX	11						I/O	eQEP-1 Index
SD2_C3	13						I	SDFM-2 Channel 3 Clock Input
FSITXA_TDM_D1	14						I	FSITX-A Time Division Multiplexed Additional Data Input
GPIO60	0, 4, 8, 12	44					I/O	General-Purpose Input Output 60
MCAN_TX	3						O	CAN/CAN FD Transmit
OUTPUTXBAR3	5						O	Output X-BAR Output 3
SPIB_SIMO	6						I/O	SPI-B Slave In, Master Out (SIMO)
SD2_D3	7						I	SDFM-2 Channel 3 Data Input
SD2_C4	13						I	SDFM-2 Channel 4 Clock Input
HIC_A0	15						I	HIC Address 0
GPIO61	0, 4, 8, 12	91					I/O	General-Purpose Input Output 61
MCAN_RX	3						I	CAN/CAN FD Receive
OUTPUTXBAR4	5						O	Output X-BAR Output 4
SPIB_SOMI	6						I/O	SPI-B Slave Out, Master In (SOMI)
SD2_C3	7						I	SDFM-2 Channel 3 Clock Input
CANA_RX	14						I	CAN-A Receive
TEST, JTAG, AND RESET
TCK		60	45	36	36	28	I	JTAG test clock with internal pullup.
TMS		62	47	38	38	30	I/O	JTAG test-mode select (TMS) with internal pullup. This serial control input is clocked into the TAP controller on the rising edge of TCK. This device does not have a TRSTn pin. An external pullup resistor (recommended 2.2 kΩ) on the TMS pin to VDDIO should be placed on the board to keep JTAG in reset during normal operation.
XRSn		2	5	3	3	3	I/OD	Device Reset (in) and Watchdog Reset (out). During a power-on condition, this pin is driven low by the device. An external circuit may also drive this pin to assert a device reset. This pin is also driven low by the MCU when a watchdog reset occurs. During watchdog reset, the XRSn pin is driven low for the watchdog reset duration of 512 OSCCLK cycles. A resistor between 2.2 kΩ and 10 kΩ should be placed between XRSn and VDDIO. If a capacitor is placed between XRSn and VSS for noise filtering, it should be 100 nF or smaller. These values will allow the watchdog to properly drive the XRSn pin to VOL within 512 OSCCLK cycles when the watchdog reset is asserted. This pin is an open-drain output with an internal pullup. If this pin is driven by an external device, it should be done using an open-drain device.
POWER AND GROUND
VDD		4, 46, 71, 87	8, 31, 53, 71	4, 27, 44, 59	4, 27, 44, 59	23, 36, 45		1.2-V Digital Logic Power Pins. See the Power Management Module (PMM) section for usage details.
VDDA		34	26	22	22	18		3.3-V Analog Power Pins. Place a minimum 2.2-µF decoupling capacitor on each pin. See the Power Management Module (PMM) section for usage details.
VDDIO		3, 47, 70, 88	7, 32, 52, 72	28, 43, 60	28, 43, 60	24, 35, 46		3.3-V Digital I/O Power Pins. See the Power Management Module (PMM) section for usage details.
VREGENZ		73		46			I	Internal voltage regulator enable with internal pulldown. Tie low to VSS to enable internal VREG. Tie high to VDDIO to use an external supply. See the Power Management Module (PMM) section for usage details.
VSS		5, 45, 72, 86	9, 30, 55, 70	5, 26, 45, 58	5, 26, 45, 58	22, 37, 44		Digital Ground
VSSA		33	25	21	21	17		Analog Ground