SWRS273 Data sheet

SWRS273D November 2021 – September 2024 AWR2944

PRODUCTION DATA

5.3 Signal Descriptions - Digital

Note: All digital IO pins of the device (except NERROR_OUT and WARM_RESET) are non-failsafe; hence, care needs to be taken that they are not driven externally without the VIO supply being present to the device.

Note: The GPIO state during the power supply ramp is not ensured. In case the GPIO is used in the application where the state of the GPIO is critical, even when NRESET is low , a tri-state buffer should be used to isolate the GPIO output from the radar device and a pull resister used to define the required state in the application. The NRESET signal to the radar device could be used to control the output enable (OE) of the tri-state buffer.

Note: ROM bootloader uses only B16 (MSS_UARTA_RX) and C16 (MSS_UARTA_TX) pins for flash programming. It is recommended to use these pins while building the module.

Note: LVDS and Aurora interfaces are intended for debugging and development purposes, not for production use.

Table 5-1 Signal Descriptions - Digital

FUNCTION	SIGNAL NAME	PIN TYPE	DESCRIPTION	PIN NUMBER
SPI Interface	MSS_MIBSPIA_CLK	IO	SPI Channel A - Clock	T16
	MSS_MIBSPIA_MOSI	IO	SPI Channel A - Controller Out Peripheral In	U15
	MSS_MIBSPIA_MISO	IO	SPI Channel A - Controller In Peripheral Out	U16
	MSS_MIBSPIA_CS0	IO	SPI Channel A Chip Select	T15
	MSS_MIBSPIA_HOSTIRQ	O	Out of Band Interrupt to an external host communicating over SPI	V16,V17
	MSS_MIBSPIB_CLK⁽¹⁾	IO	SPI Channel B - Clock	T13,R10
	MSS_MIBSPIB_MOSI⁽¹⁾	IO	SPI Channel B - Controller Out Peripheral In	V12,V11
	MSS_MIBSPIB_MISO⁽¹⁾	IO	SPI Channel B - Controller In Peripheral Out	U13,U11
	MSS_MIBSPIB_CS0	IO	SPI Channel B Chip Select (Instance ID 0)	U14,U12
	MSS_MIBSPIB_CS1	IO	SPI Channel B Chip Select (Instance ID 1)	V16,A16,R14
	MSS_MIBSPIB_CS2	IO	SPI Channel B Chip Select (Instance ID 2)	A16,V11,R14,V17
CAN-FD	MSS_MCANA_RX	I	CAN-FD A (MCAN) Receive Signal	T13,R12,C14,F16,D16
	MSS_MCANA_TX	O	CAN-FD A (MCAN) Transmit Signal	U14,T11,C12,E17,D17
	MSS_MCANB_RX	I	CAN-FD B (MCAN) Receive Signal	V12,A17
	MSS_MCANB_TX	O	CAN-FD B (MCAN) Transmit Signal	U13,B17
UART (MSS)	MSS_UARTA_RX	IO	Main Subsystem - UART A Receive (For Flash programming)	T13,D13,F16,P17,B16,A15
	MSS_UARTA_TX	IO	Main Subsystem - UART A Transmit (For Flash programming)	U14,D15,E17,U17,C16,B14,A14
	MSS_UARTB_TX	IO	Main Subsystem - UART B Receive	T13,U14,C12,D15,G15,E17,L15,U4,B16,A14
	MSS_UARTB_RX	IO	Main Subsystem - UART B Transmit	R17,F16,T7,C16
QSPI for Serial Flash	MSS_QSPI_0	IO	QSPI Data Line #0 (Used with Serial Data Flash)	U11
	MSS_QSPI_1	I	QSPI Data Line #1 (Used with Serial Data Flash)	V11
	MSS_QSPI_2	I	QSPI Data Line #2 (Used with Serial Data Flash)	T11
	MSS_QSPI_3	I	QSPI Data Line #3 (Used with Serial Data Flash)	R12
	MSS_QSPI_CLK	IO	QSPI clock (Used with Serial Data Flash)	R10
	MSS_QSPI_CS	O	QSPI chip select (Used with Serial Data Flash)	U12
I2C interface	MSS_I2CA_SDA	IO	I2C Clock	V12,E17,U17,R8
I2C interface	MSS_I2CA_SCL	IO	I2C Data	U13,F16,P17,U9
RS232 UART	MSS_RS232_RX	IO	Debug UART (Operates as Bus controller) - Receive Signal	F16
RS232 UART	MSS_RS232_TX	IO	Debug UART (Operates as Bus controller) - Transmit Signal	E17
PWM Module	MSS_EPWMA0	O	PWM Module 1 - Output A0	V12,R15,E17,E15,B17,R6
	MSS_EPWMA1	O	PWM Module 1 - Output A1	B15,T17,E17,C18,A17,U8
	MSS_EPWMA_SYNCI	I	PWM Module 1 - Sync Input	A16,D17
	MSS_EPWMA_SYNCO	O	PWM Module 1 - Sync Output	D16
	MSS_EPWMB0	O	PWM Module 2 - Output B0	B15,U13,T17,R14,F16,E17,B17,C17,T7
	MSS_EPWMB1	O	PWM Module 2 - Output B1	R14,F16,A17,R8
	MSS_EPWMB_SYNCI	I	PWM Module 2 - Sync Input	T18,A14
	MSS_EPWMB_SYNCO	O	PWM Module 2 - Sync Output	P16
	MSS_EPWMC0	O	PWM Module 3 - Output C0	T13,F16,E15,C17,U4
	MSS_EPWMC1	O	PWM Module 3 - Output C1	C18,U9
	MSS_EPWMC_SYNCI	I	PWM Module 3 - Sync Input	P17
	MSS_EPWMC_SYNCO	O	PWM Module 3 - Sync Output	N15
	MSS_EPWM_TZ0	I	PWM module Trip Signal 0	G15,J15
	MSS_EPWM_TZ1	I	PWM module Trip Signal 1	A16,M16
	MSS_EPWM_TZ2	I	PWM module Trip Signal 2	B15,L15
RGMII/RMII/MII Ethernet	MSS_MII_COL	I	MSS Ethernet MII Collision Detect	U8
	MSS_MII_CRS	I	MSS Ethernet MII Carrier Sense	R8
	MSS_MII_RXER	I	MSS Ethernet MII Receive Error	U9
	MSS_MII_TXEN	O	MSS Ethernet MII Transmit Enable	R6
	MSS_MII_RXDV	I	MSS Ethernet MII Receive Data Valid	T7
	MSS_MII_TXD3	O	MSS Ethernet MII Transmit Data 3	U4
	MSS_MII_TXD2	O	MSS Ethernet MII Transmit Data 2	U6
	MSS_MII_TXD1	O	MSS Ethernet MII Transmit Data 1	U5
	MSS_MII_TXD0	O	MSS Ethernet MII Transmit Data 0	U7
	MSS_MII_TXCLK	I	MSS Ethernet MII Transmit Clock	V3
	MSS_MII_RXCLK	I	MSS Ethernet MII Receive Clock	T9
	MSS_MII_RXD3	I	MSS Ethernet MII Receive Data 3	U10
	MSS_MII_RXD2	I	MSS Ethernet MII Receive Data 2	V5
	MSS_MII_RXD1	I	MSS Ethernet MII Receive Data 1	V4
	MSS_MII_RXD0	I	MSS Ethernet MII Receive Data 0	V6
	MSS_RMII_REFCLK	IO	MSS Ethernet RMII Clock Input	U8,T9
	MSS_RMII_CRS_DV	I	MSS Ethernet RMII Carrier Sense/Receive Data Valid	R8,T7
	MSS_RMII_RXER	I	MSS Ethernet RMII Receive Error	U9
	MSS_RMII_TXEN	O	MSS Ethernet RMII Transmit Enable	R6
	MSS_RMII_TXD1	O	MSS Ethernet RMII Transmit Data 1	U5
	MSS_RMII_TXD0	O	MSS Ethernet RMII Transmit Data 0	U7
	MSS_RMII_RXD1	I	MSS Ethernet MII Receive Data 1	V4
	MSS_RMII_RXD0	I	MSS Ethernet MII Receive Data 0	V6
	MSS_RGMII_TCTL	O	MSS Ethernet RGMII Transmit Control	R6
	MSS_RGMII_RCTL	I	MSS Ethernet RGMII Receive Control	T7
	MSS_RGMII_TD3	O	MSS Ethernet RGMII Transmit Data 3	U4
	MSS_RGMII_TD2	O	MSS Ethernet RGMII Transmit Data 2	U6
	MSS_RGMII_TD1	O	MSS Ethernet RGMII Transmit Data 1	U5
	MSS_RGMII_TD0	O	MSS Ethernet RGMII Transmit Data 0	U7
	MSS_RGMII_TCLK	O	MSS Ethernet RGMII Transmit Clock	V3
	MSS_RGMII_RCLK	I	MSS Ethernet RGMII Receive Clock	T9
	MSS_RGMII_RD3	I	MSS Ethernet RGMII Receive Data 3	U10
	MSS_RGMII_RD2	I	MSS Ethernet RGMII Receive Data 2	V5
	MSS_RGMII_RD1	I	MSS Ethernet RGMII Receive Data 1	V4
	MSS_RGMII_RD0	I	MSS Ethernet RGMII Receive Data 0	V6
	MSS_MDIO_DATA	IO	MSS Ethernet Manage Data Input/Output data	T5
	MSS_MDIO_CLK	O	MSS Ethernet Manage Data Input/Output Clock	R4
	MSS_CPTS0_TS_SYNC	O	Ethernet Timestamp SYNC output	B16
	MSS_CPTS0_HW2TSPUSH	I	Ethernet hardware Timestamp Inputs Pins	C16
	MSS_CPTS0_HW1TSPUSH	I	Ethernet hardware Timestamp Inputs Pins	A15
Trace Signal	TRACE_DATA_0	O	Debug Trace Output - Data Line	U17
	TRACE_DATA_1	O	Debug Trace Output - Data Line	P17
	TRACE_DATA_2	O	Debug Trace Output - Data Line	T18
	TRACE_DATA_3	O	Debug Trace Output - Data Line	N15
	TRACE_DATA_4	O	Debug Trace Output - Data Line	P16
	TRACE_DATA_5	O	Debug Trace Output - Data Line	L15
	TRACE_DATA_6	O	Debug Trace Output - Data Line	M16
	TRACE_DATA_7	O	Debug Trace Output - Data Line	J15
	TRACE_DATA_8	O	Debug Trace Output - Data Line	D17
	TRACE_DATA_9	O	Debug Trace Output - Data Line	D16
	TRACE_DATA_10	O	Debug Trace Output - Data Line	E15
	TRACE_DATA_11	O	Debug Trace Output - Data Line	C18
	TRACE_DATA_12	O	Debug Trace Output - Data Line	B17
	TRACE_DATA_13	O	Debug Trace Output - Data Line	A17
	TRACE_DATA_14	O	Debug Trace Output - Data Line	C17
	TRACE_CLK	O	Debug Trace Output - Clock	R15
	TRACE_CTL	O	Debug Trace Output - Control	T17
DMM Interface	DMM0	I	Debug Interface (Hardware In Loop) - Data Line	U17
	DMM1	I	Debug Interface (Hardware In Loop) - Data Line	P17
	DMM2	I	Debug Interface (Hardware In Loop) - Data Line	T18
	DMM3	I	Debug Interface (Hardware In Loop) - Data Line	N15
	DMM4	I	Debug Interface (Hardware In Loop) - Data Line	P16
	DMM5	I	Debug Interface (Hardware In Loop) - Data Line	L15
	DMM6	I	Debug Interface (Hardware In Loop) - Data Line	M16
	DMM7	I	Debug Interface (Hardware In Loop) - Data Line	J15
	DMM8	I	Debug Interface (Hardware In Loop) - Data Line	D17
	DMM9	I	Debug Interface (Hardware In Loop) - Data Line	D16
	DMM10	I	Debug Interface (Hardware In Loop) - Data Line	E15
	DMM11	I	Debug Interface (Hardware In Loop) - Data Line	C18
	DMM12	I	Debug Interface (Hardware In Loop) - Data Line	B17
	DMM13	I	Debug Interface (Hardware In Loop) - Data Line	A17
	DMM14	I	Debug Interface (Hardware In Loop) - Data Line	C17
	DMM_CLK	I	Debug Interface (Hardware In Loop) - Clock	R15
	DMM_SYNC	I	Debug Interface (Hardware In Loop) - Sync	T17
	DMM_MUX_IN	I	Debug Interface (Hardware In Loop) Mux Select between DMM1 and DMM2 (Two Instances)	A16,R17,R14
	NDMM_EN	O	Debug Interface (Hardware In Loop) Enable - Active Low Signal	D15,E17
General-purpose I/Os	MSS_GPIO_0	IO	General-purpose I/O	B15,P17,U15,A14
	MSS_GPIO_1	IO	General-purpose I/O	A16,T18,U16,B13
	MSS_GPIO_2	IO	General-purpose I/O	G15,N15,T16,V17,D11
	MSS_GPIO_3	IO	General-purpose I/O	P16,T15
	MSS_GPIO_4	IO	General-purpose I/O	U14,L15,V17
	MSS_GPIO_5	IO	General-purpose I/O	T13,M16
	MSS_GPIO_6	IO	General-purpose I/O	U12,J15
	MSS_GPIO_7	IO	General-purpose I/O	R10,D17
	MSS_GPIO_8	IO	General-purpose I/O	U11,T18,D16,V17,B16,B13
	MSS_GPIO_9	IO	General-purpose I/O	V11,N15,E15,C16,D11
	MSS_GPIO_10	IO	General-purpose I/O	T11,M16,C18,A15
	MSS_GPIO_11	IO	General-purpose I/O	R12,J15,B17,B14
	MSS_GPIO_12	IO	General-purpose I/O	V16,A17,B16
	MSS_GPIO_13	IO	General-purpose I/O	B15,C17,C16
	MSS_GPIO_14	IO	General-purpose I/O	E17,A15
	MSS_GPIO_15	IO	General-purpose I/O	F16,B14
	MSS_GPIO_16	IO	General-purpose I/O	A16
	MSS_GPIO_17	IO	General-purpose I/O	C12,C17,U8
	MSS_GPIO_18	IO	General-purpose I/O	C14,A17,R8
	MSS_GPIO_19	IO	General-purpose I/O	B17,U9
	MSS_GPIO_20	IO	General-purpose I/O	C18,R6
	MSS_GPIO_21	IO	General-purpose I/O	V12,E15,T7
	MSS_GPIO_22	IO	General-purpose I/O	U13,D16,U4
	MSS_GPIO_23	IO	General-purpose I/O	D13,D17,U6
	MSS_GPIO_24	IO	General-purpose I/O	D15,J15,U5
	MSS_GPIO_25	IO	General-purpose I/O	R15,M16,U7
	MSS_GPIO_26	IO	General-purpose I/O	G15,L15,V3
	MSS_GPIO_27	IO	General-purpose I/O	T17,P16,T9
	MSS_GPIO_28	IO	General-purpose I/O	R17,N15,U10
	MSS_GPIO_29	IO	General-purpose I/O	R14,T18,V5,D11
	MSS_GPIO_30	IO	General-purpose I/O	P17,V4,T5,B13
	MSS_GPIO_31	IO	General-purpose I/O	U17,V6,R4,A14
UART (DSS)	DSS_UARTA_TX	IO	Debug UART Transmit [DSP]	U13,R10,J15,B16,A15,A14
UART (DSS)	DSS_UARTA_RX	IO	Debug UART Receive [DSP]	D13,R17,C16,B14
Chirp/Frame signals	ADC_VALID	O	When high, indicating valid ADC samples	V16,T11,R12,R17
	CHIRP_START	O	Pulse signal indicating the start of each chirp	G15,T17
	CHIRP_END	O	Pulse signal indicating the end of each chirp	G15,T17
	FRAME_START	O	Pulse signal indicating the start of each frame	R15,G15,T17
LVDS_VALID	LVDS_VALID	O	When high, indicating valid LVDS data	A16,R15,G15,T17,R14,E17,A14
External clock out	MCU_CLKOUT	O	Programmable clock given out to external MCU or the processor	R15,B13
External clock out	PMIC_CLKOUT	O	Output Clock from the device for PMIC	B15,G15,T17,D11
System Synchronization	SYNC_IN	I	Low frequency Synchronization signal input	R17
System Synchronization	SYNC_OUT	O	Low Frequency Synchronization Signal output	A16,G15,R17,R14
Clock Output	OBS_CLKOUT	O	Observation Clock Output	R15,T17
Clock Output	RCOSC_CLK	O	Internal RCOSC Clock Output	R14
Reference Clock	XREF_CLK0	I	External reference input clock 0	B13
Reference Clock	XREF_CLK1	I	External reference input clock 1	D11
JTAG	TCK	I	JTAG Test Clock	C12
	TMS	IO	JTAG Test Mode Signal	C14
	TDI	I	JTAG Test Data Input	D13
	TDO	O	JTAG Test Data Output	D15
UART (BSS)	BSS_UARTA_TX	O	Debug UART Transmit [Radar Block]	A16,T13,U14,C14,D15,F16,E17,M16
UART (BSS)	BSS_UARTA_RX	I	Debug UART Receive [Radar Block]	C12,R15
Reset	WARM_RESET	IO	Open drain fail safe warm reset signal. Can be driven from PMIC for diagnostic or can be used as status signal that the device is going through reset.	B12
Safety	NERROR_OUT	O	Open drain fail safe output signal. Connected to PMIC/Processor/MCU to indicate that some severe criticality fault has happened. Recovery would be through reset.	C11
Sense On power	SOP[0]	I	The SOP pins are driven externally (weak drive) and the mmWave device senses the state of these pins during bootup to decide the bootup mode. After boot the same pins have other functionality. [SOP2 SOP1 SOP0] = [0 0 1] -> Functional QSPI load mode [SOP2 SOP1 SOP0] = [1 0 1] -> UART load mode [SOP2 SOP1 SOP0] = [0 1 1] -> debug and development mode The following configuration of SOP pins help decide the reference crystal frequency [SOP4 SOP3] = [0 0] -> 40 MHz	D15
	SOP[1]	I		R14
	SOP[2]	I		T17
	SOP[3]	I		A14
	SOP[4]	I		C16
CSI2 RX	CSI2_RX0M0	I	CSI2.0 Receiver #1, Negative Polarity, Lane 0	N18
	CSI2_RX0P0	I	CSI2.0 Receiver #1, Positive Polarity, Lane 0	N17
	CSI2_RX0CLKM	I	CSI2.0 Receiver #1, Clock Input, Negative Polarity	L18
	CSI2_RX0CLKP	I	CSI2.0 Receiver #1, Clock Input, Positive Polarity	L17
	CSI2_RX0M1	I	CSI2.0 Receiver #1, Negative Polarity Lane 1	M18
	CSI2_RX0P1	I	CSI2.0 Receiver #1, Positive Polarity Lane 1	M17
Aurora LVDS	LVDS_TXM0	O	LVDS/Aurora Transmitter, Data Output, Lane 0	F18
	LVDS_TXP0	O	LVDS/Aurora Transmitter, Data Output, Lane 0	F17
	LVDS_TXM2_CLKM	O	LVDS Clock, Aurora Data output - Lane 2	G18
	LVDS_TXP2_CLKP	O	LVDS Clock, Aurora Data output - Lane 2	G17
	LVDS_TXM3_FRCLKM	O	LVDS Frame Clock, Aurora Data Output - Lane 3	H18
	LVDS_TXP3_FRCLKP	O	LVDS Frame Clock, Aurora Data Output - Lane 3	H17
	LVDS_TXM1	O	LVDS/Aurora Transmitter, Data Output, Lane 1	J18
	LVDS_TXP1	O	LVDS/Aurora Transmitter, Data Output, Lane 1	J17

(1) In order to meet SPI timings, it is recommended to use MSS_MIBSPIB_CLK = T13 with MSS_MIBSPIB_MOSI = V12 and MSS_MIBSPIB_MISO = U13. The same applies for the other MSS_MIBSPIB_CLK = R10 as well i.e. with MSS_MIBSPIB_MOSI = V11 and MSS_MIBSPIB_MISO = U11