SLASF59 Data sheet

SLASF59A May 2023 – December 2023 MSPM0L1304-Q1 , MSPM0L1305-Q1 , MSPM0L1306-Q1

PRODUCTION DATA

Package Options

Refer to the PDF data sheet for device specific package drawings

Mechanical Data (Package|Pins)

DGS|28
DYY|16
RGE|24
RHB|32
DGS|32
DGS|20

Thermal pad, mechanical data (Package|Pins)

Orderable Information

slasf59a_oa

6.3 Signal Descriptions

Table 6-3 Signal Descriptions

FUNCTION	SIGNAL NAME	PIN NO.⁽¹⁾						PIN TYPE ⁽²⁾	DESCRIPTION
FUNCTION	SIGNAL NAME	32 VQFN	32 VSSOP	28 VSSOP	24 VQFN	20 VSSOP	16 SOT	PIN TYPE ⁽²⁾	DESCRIPTION
ADC	A0	31	2	2	–	2	–	I	ADC0 analog input 0
	A1	30	1	1	22	1	1	I	ADC0 analog input 1
	A2	29	32	28	21	20	16	I	ADC0 analog input 2
	A3	28	31	27	20	19	15	I	ADC0 analog input 3
	A4	26	29	25	18	17	13	I	ADC0 analog input 4
	A5	25	28	24	17	–	–	I	ADC0 analog input 5
	A6	24	27	23	16	16	12	I	ADC0 analog input 6
	A7	22	25	21	14	14	10	I	ADC0 analog input 7
	A8	20	23	19	12	12	–	I	ADC0 analog input 8
	A9	19	22	18	11	–	–	I	ADC0 analog input 9
BSL	BSL_invoke	22	25	21	14	14	10	I	Input pin used to invoke bootloader
BSL (I²C)	BSLSCL	2	5	5	1	5	4	I/O	Default I²C BSL clock
BSL (I²C)	BSLSDA	1	4	4	24	4	3	I/O	Default I²C BSL data
BSL (UART)	BSLRX	26	29	25	18	17	13	I	Default UART BSL receive
BSL (UART)	BSLTX	27	30	26	19	18	14	O	Default UART BSL transmit
Clock	CLK_OUT	11 18 26	14 16 17 21 29	17 25	8 9 18	17	13	O	Configurable clock output
Clock	ROSC	6	9	9	5	8	7	I	External resistor used for improving oscillator accuracy
Comparator	COMP0_IN0-	31	2	2	–	2	–	I	Comparator 0 inverting input 0
	COMP0_IN0+	30	1	1	22	1	1	I	Comparator 0 non-inverting input 0
	COMP0_IN1-	27	30	26	19	18	14	I	Comparator 0 inverting input 1
	COMP0_IN1+	24	27	23	16	16	12	I	Comparator 0 non-inverting input 1
	COMP0_OUT	7 11 15 20	10 14 18 23	10 16 19	6 10 12	11 12	–	O	Comparator 0 output
Debug	SWCLK	24	27	23	16	16	12	I	Serial wire debug input clock
Debug	SWDIO	23	26	22	15	15	11	I/O	Serial wire debug data input/output
General-Purpose Amplifier	GPAMP_IN+	30	1	1	22	1	1	I	GPAMP non-inverting terminal input
	GPAMP_OUT	26	29	25	14	17	13	O	GPAMP output
	GPAMP_IN-	22	25	21	18	14	10	I	GPAMP inverting terminal input
GPIO	PA0	1	4	4	24	4	3	I/O	General-purpose digital I/O with wake up from SHUTDOWN
	PA1	2	5	5	1	5	4	I/O	General-purpose digital I/O with wake up from SHUTDOWN
	PA2	6	9	9	5	8	7	I/O	General-purpose digital I/O
	PA3	7	10	10	6	–	–	I/O	General-purpose digital I/O
	PA4	8	11	11	7	9	–	I/O	General-purpose digital I/O
	PA5	9	12	12	–	–	–	I/O	General-purpose digital I/O
	PA6	10	13	13	–	10	8	I/O	General-purpose digital I/O
	PA7	11	14	–	–	–	–	I/O	General-purpose digital I/O
	PA8	12	15	–	–	–	–	I/O	General-purpose digital I/O
	PA9	13	16	14	8	–	–	I/O	General-purpose digital I/O
	PA10	14	17	15	9	–	–	I/O	General-purpose digital I/O
	PA11	15	18	16	10	11	–	I/O	General-purpose digital I/O
	PA12	16	19	–	–	–	–	I/O	General-purpose digital I/O
	PA13	17	20	–	–	–	–	I/O	General-purpose digital I/O
	PA14	18	21	17	–	–	–	I/O	General-purpose digital I/O
	PA15	19	22	18	11	–	–	I/O	General-purpose digital I/O
	PA16	20	23	19	12	12	–	I/O	General-purpose digital I/O
	PA17	21	24	20	13	13	9	I/O	General-purpose digital I/O with wake up from SHUTDOWN
	PA18	22	25	21	14	14	10	I/O	General-purpose digital I/O with wake up from SHUTDOWN
	PA19	23	26	22	15	15	11	I/O	General-purpose digital I/O
	PA20	24	27	23	16	16	12	I/O	General-purpose digital I/O
	PA21	25	28	24	17	–	–	I/O	General-purpose digital I/O
	PA22	26	29	25	18	17	13	I/O	General-purpose digital I/O
	PA23	27	30	26	19	18	14	I/O	General-purpose digital I/O
	PA24	28	31	27	20	19	15	I/O	General-purpose digital I/O
	PA25	29	32	28	21	20	16	I/O	General-purpose digital I/O
	PA26	30	1	1	22	1	1	I/O	General-purpose digital I/O
	PA27	31	2	2	–	2	–	I/O	General-purpose digital I/O
I²C	I2C0_SCL	2 15	5 18	5 16	1 10	5 11	4	I/O	I2C0 serial clock
	I2C0_SDA	1 14	4 17	4 15	24 9	4	3	I/O	I2C0 serial data
	I2C1_SCL	19 21 24	11 22 24 27	18 20 23	7 11 13 16	13 16	9 12	I/O	I2C1 serial clock
	I2C1_SDA	20 22 23	10 23 25 26	19 21 22	6 12 14 15	12 14 15	10 11	I/O	I2C1 serial data
Operational Amplifier with Chopping (Zero-Drift Op-Amp)	OPA0_IN0+	29	32	28	21	20	16	I	OPA0 non-inverting terminal input 0
	OPA0_IN0-	28	31	27	20	19	15	I	OPA0 inverting terminal input 0
	OPA0_IN1-	28	31	27	20	19	15	I	OPA0 inverting terminal input 1
	OPA0_OUT	26	29	25	18	17	13	O	OPA0 output
	OPA1_IN0+	22	25	21	14	14	10	I	OPA1 non-inverting terminal input 0
	OPA1_IN0-	21	24	20	13	13	9	I	OPA1 inverting terminal input 0
	OPA1_IN1-	21	24	20	13	13	9	I	OPA1 inverting terminal input 1
	OPA1_OUT	20	23	19	12	12	–	O	OPA1 output
Power	VSS	5	8	8	4	7	6	P	Ground supply
	VDD	4	7	7	3	6	5	P	Power supply
	VCORE	32	3	3	23	3	2	P	Regulated core power supply output
	QFN Pad	Pad	–	–	Pad	–	–	P	QFN package exposed thermal pad. TI recommends connection to V_SS.
SPI	SPI0_CS0	6 12	9 15	9	5	8	7	I/O	SPI0 chip-select 0
	SPI0_CS1	1 7 21	4 10 24	4 10 20	24 6 13	4 13	3 9	I/O	SPI0 chip-select 1
	SPI0_CS2	19 28	22 31	18 27	11 20	19	15	I/O	SPI0 chip-select 2
	SPI0_CS3	27 31	30 2	2 26	19	2 18	14	I/O	SPI0 chip-select 3
	SPI0_SCK	10 15 21	13 18 24	13 16 20	10 13	10 11 13	8 9	I/O	SPI0 clock signal input – SPI peripheral mode Clock signal output – SPI controller mode
	SPI0_POCI	8 14 20 23 30	11 17 23 26 1	1 11 15 19 22	7 9 12 15 22	1 9 12 15	1 11	I/O	SPI0 controller in/peripheral out
	SPI0_PICO	9 13 22 29	12 16 25 32	12 14 21 28	8 14 21	14 20	10 16	I/O	SPI0 controller out/peripheral in
System	NRST	3	6	6	2	5	4	I	Reset input active low
Timer	TIMG0_C0	9 16 20 27	12 19 23 30	12 19 26	12 19	12 18	14	I/O	General purpose timer 0 CCR0 capture input/ compare output
	TIMG0_C1	10 17 28	13 20 31	13 27	20	10 19	8 15	I/O	General purpose timer 0 CCR1 capture input/ compare output
	TIMG1_C0	1 11 18 30	4 14 21 1	1 4 17	24 22	1 4	1 3	I/O	General purpose timer 1 CCR0 capture input/ compare output
	TIMG1_C1	2 6 31	5 9 2	2 5 9	1 5	2 5 8	4 7	I/O	General purpose timer 1 CCR1 capture input/ compare output
	TIMG2_C0	7 12 25	10 15 28	10 24	6 17	–	–	I/O	General purpose timer 2 CCR0 capture input/ compare output
	TIMG2_C1	8 13 26	11 16 29	11 14 25	7 8 18	9 17	13	I/O	General purpose timer 2 CCR1 capture input/ compare output
	TIMG4_C0	14 21 24	17 24 27	15 20 23		13 16	9 12	I/O	General purpose timer 4 CCR0 capture input/ compare output
	TIMG4_C1	15 19 22 29	18 22 25 32	16 18 21 28	9 13 16	11 14 20	10 16	I/O	General purpose timer 4 CCR1 capture input/ compare output
UART	UART0_TX	12 21 25 27 29	15 24 28 30 32	20 24 26 28	13 17 19 21	13 18 20	9 14 16	O	UART0 transmit data
	UART0_RX	13 22 26 30	16 25 29 1	1 14 21 25	8 14 18 22	1 14 17	1 10 13	I	UART0 receive data
	UART0_CTS	16 25 27	19 28 30	24 26	17 19	18	14	I	UART0 "clear to send" flow control input
	UART0_RTS	17 26 28	20 29 31	25 27	18 20	17 19	13 15	O	UART0 "request to send" flow control output
	UART1_TX	1 14 18 27	4 17 21 30	4 15 17 26	24 9 19	4 18	3 14	O	UART1 transmit data
	UART1_RX	2 15 17 26	5 18 20 29	5 16 25	1 10 18	5 11 17	4 13	I	UART1 receive data
	UART1_CTS	7 13 18	10 16 21	10 14 17	6 8	–	–	I	UART1 "clear to send" flow control input
	UART1_RTS	8 12 19	11 15 22	11 18	7 11	9	–	O	UART1 "request to send" flow control output
Voltage Reference⁽³⁾	VREF+	27	30	26	19	18	14	I	Voltage reference power supply - external reference input
Voltage Reference⁽³⁾	VREF-	25	28	24	17	–	–	I	Voltage reference ground supply - external reference input

(1) – = not available

(2) I = input, O = output, I/O = input or output, P = power

(3) When using VREF+ and VREF- to bring in an external voltage reference for analog peripherals such as the ADC, a decoupling capacitor must be placed on VREF+ to VREF-/GND with a capacitance based on the external reference source