ZHCSET8C 数据表 | 德州仪器 TI.com.cn

ZHCSET8C April 2015 – August 2018 MSP430FR5870 , MSP430FR5872 , MSP430FR58721 , MSP430FR5922 , MSP430FR59221 , MSP430FR5970 , MSP430FR5972 , MSP430FR59721

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

PM|64
- MTQF008B
RGC|64
- MPQF125F
DGG|56
- MPDS570

散热焊盘机械数据 (封装 | 引脚)

RGC|64
- QFND102O

订购信息

4.3 Signal Descriptions

Table 4-2 describes the signals.

Table 4-2 Signal Descriptions

FUNCTION	SIGNAL NAME	FR597x(1), FR587x(1)	FR592x(1)		SIGNAL TYPE	DESCRIPTION
		PM, RGC	PM, RGC	DGG
		PIN NO.	PIN NO.	PIN NO.
ADC	A0	44	44	47	I	Analog input A0
	A1	43	43	46	I	Analog input A1
	A2	42	42	45	I	Analog input A2
	A3	41	41	44	I	Analog input A3
	A12	45	45	48	I	Analog input A12
	A13	46	46	49	I	Analog input A13
	A14	47	47	50	I	Analog input A14
	A15	48	48	51	I	Analog input A15
	VREF+	43	43	46	O	Output of positive reference voltage
	VREF-	44	44	47	O	Output of negative reference voltage
	VeREF+	43	43	46	I	Input for an external positive reference voltage to the ADC
	VeREF-	44	44	47	I	Input for an external negative reference voltage to the ADC
BSL (I²C)	BSL_CLK	5	5	10	I	BSL Clock (I²C BSL)
BSL (I²C)	BSL_DAT	4	4	9	I	BSL Data (I²C BSL)
BSL (UART)	BSL_RX	32	32	35	I	BSL Receive (UART BSL)
BSL (UART)	BSL_TX	33	33	36	O	BSL Transmit (UART BSL)
Clock	ACLK	23 35	23 35	26 38	O	ACLK output
	HFXIN	55			I	Input terminal of crystal oscillator XT2
	HFXOUT	54			O	Output terminal for crystal oscillator XT2
	LFXIN	51	51	54	I	Input terminal for crystal oscillator XT1
	LFXOUT	52	52	55	O	Output terminal of crystal oscillator XT1
	MCLK	22	22	25	O	MCLK output
	RTCCLK	31 44	31 44	34 47	O	RTC clock output for calibration
	SMCLK	21 38	21 38	24 41	O	SMCLK output
Comparator	C0	44	44	47	I	Comparator input C0
	C1	43	43	46	I	Comparator input C1
	C2	42	42	45	I	Comparator input C2
	C3	41	41	44	I	Comparator input C3
	C12	45	45	48	I	Comparator input C12
	C13	46	46	49	I	Comparator input C13
	C14	47	47	50	I	Comparator input C14
	C15	48	48	51	I	Comparator input C15
	COUT	9 24 42 43	9 24 42 43	14 27 45 46	O	Comparator output
DMA	DMAE0	32 44	32 44	32 44	I	DMA external trigger input
DNC	DNC	6	6	22	–	Do Not Connect (DNC). TI strongly recommends leaving this pin not connected.
Debug	SBWTCK	19	19	23	I	Spy-Bi-Wire input clock
	SBWTDIO	20	20	27	I/O	Spy-Bi-Wire data input/output
	SRCPUOFF	24	24	26	O	Low-power debug: CPU status register CPUOFF
	SROSCOFF	23	23	25	O	Low-power debug: CPU status register OSCOFF
	SRSCG0	22	22	24	O	Low-power debug: CPU status register SCG0
	SRSCG1	21	21	27	O	Low-power debug: CPU status register SCG1
	TCK	24	24	25	I	Test clock
	TCLK	22	22	25	I	Test clock input
	TDI	22	22	24	I	Test data input
	TDO	21	21	22	O	Test data output port
	TEST	19	19	26	I	Test mode pin - select digital I/O on JTAG pins
	TMS	23	23	23	I	Test mode select
GPIO	P1.0	44	44	47	I/O	General-purpose digital I/O
	P1.1	43	43	46	I/O	General-purpose digital I/O
	P1.2	42	42	45	I/O	General-purpose digital I/O
	P1.3	41	41	44	I/O	General-purpose digital I/O
	P1.4	2	2	7	I/O	General-purpose digital I/O
	P1.5	3	3	8	I/O	General-purpose digital I/O
	P1.6	4	4	9	I/O	General-purpose digital I/O
	P1.7	5	5	10	I/O	General-purpose digital I/O
	P2.0	33	33	36	I/O	General-purpose digital I/O
	P2.1	32	32	35	I/O	General-purpose digital I/O
	P2.2	31	31	34	I/O	General-purpose digital I/O
	P2.3	30	30	33	I/O	General-purpose digital I/O
	P3.0	14	14	19	I/O	General-purpose digital I/O
	P3.1	15	15	20	I/O	General-purpose digital I/O
	P3.2	16	16	21	I/O	General-purpose digital I/O
	P3.3	25	25	28	I/O	General-purpose digital I/O
	P3.4	26	26	29	I/O	General-purpose digital I/O
	P3.5	27	27	30	I/O	General-purpose digital I/O
	P3.6	28	28	31	I/O	General-purpose digital I/O
	P3.7	29	29	32	I/O	General-purpose digital I/O
	P4.2	64	64		I/O	General-purpose digital I/O
	P4.3	1	1		I/O	General-purpose digital I/O
	P4.4	58	58	1	I/O	General-purpose digital I/O
	P4.5	59	59	2	I/O	General-purpose digital I/O
	P4.6	60	60	3	I/O	General-purpose digital I/O
	P4.7	61	61	4	I/O	General-purpose digital I/O
	P5.4		54		I/O	General-purpose digital I/O
	P5.5		55		I/O	General-purpose digital I/O
	P5.6		56		I/O	General-purpose digital I/O
	P5.7	57	57		I/O	General-purpose digital I/O
GPIO	P6.0	7	7	12	I/O	General-purpose digital I/O
	P6.1	8	8	13	I/O	General-purpose digital I/O
	P6.2	9	9	14	I/O	General-purpose digital I/O
	P6.3	10	10	15	I/O	General-purpose digital I/O
	P6.4	11	11	16	I/O	General-purpose digital I/O
	P6.5	12	12	17	I/O	General-purpose digital I/O
	P6.6	13	13	18	I/O	General-purpose digital I/O
	P7.0	34	34	37	I/O	General-purpose digital I/O
	P7.1	35	35	38	I/O	General-purpose digital I/O
	P7.2	36	36	39	I/O	General-purpose digital I/O
	P7.3	37	37	40	I/O	General-purpose digital I/O
	P7.4	38	38	41	I/O	General-purpose digital I/O
	P9.4	45	45	48	I/O	General-purpose digital I/O
	P9.5	46	46	49	I/O	General-purpose digital I/O
	P9.6	47	47	50	I/O	General-purpose digital I/O
	P9.7	48	48	51	I/O	General-purpose digital I/O
	PJ.0	21	21	24	I/O	General-purpose digital I/O
	PJ.1	22	22	25	I/O	General-purpose digital I/O
	PJ.2	23	23	26	I/O	General-purpose digital I/O
	PJ.3	24	24	27	I/O	General-purpose digital I/O
	PJ.4	51	51	54	I/O	General-purpose digital I/O
	PJ.5	52	52	55	I/O	General-purpose digital I/O
	PJ.6	55	55		I/O	General-purpose digital I/O
	PJ.7	54	54		I/O	General-purpose digital I/O
I²C	UCB0SCL	5	5	10	I/O	USCI_B0: I²C clock (I²C mode)
	UCB0SDA	4	4	9	I/O	USCI_B0: I²C data (I²C mode)
	UCB1SCL	16 61	16 61	21 4	I/O	USCI_B1: I²C clock (I²C mode)
	UCB1SDA	15 60	15 60	20 3	I/O	USCI_B1: I²C data (I²C mode)
Power	AVCC1	49	49	52	P	Analog power supply
	AVSS1	50	50	53	P	Analog ground supply
	AVSS2	53	53	56	P	Analog ground supply
	AVSS3	56			P	Analog ground supply
	DVCC1	18	18		P	Digital power supply
	DVCC2	40	40	43	P	Digital power supply
	DVCC3	63	63	6	P	Digital power supply
	DVSS1	17	17		P	Digital ground supply
	DVSS2	39	39	42	P	Digital ground supply
	DVSS3	62	62	5	P	Digital ground supply
SPI	UCA0CLK	3 31	3 31	8 34	I/O	USCI_A0: Clock signal input (SPI slave mode), Clock signal output (SPI master mode)
	UCA0SIMO	33 64	33 64	36	I/O	USCI_A0: Slave in, master out (SPI mode)
	UCA0SOMI	1 32	1 32	35	I/O	USCI_A0: Slave out, master in (SPI mode)
	UCA0STE	2 30	2 30	7 33	I/O	USCI_A0: Slave transmit enable (SPI mode)
	UCA1CLK	28	28 56	31	I/O	USCI_A1: Clock signal input (SPI slave mode), Clock signal output (SPI master mode)
	UCA1SIMO	26	26 54	29	I/O	USCI_A1: Slave in, master out (SPI mode)
	UCA1SOMI	27	27 55	30	I/O	USCI_A1: Slave out, master in (SPI mode)
	UCA1STE	29 57	29 57	32	I/O	USCI_A1: Slave transmit enable (SPI mode)
	UCB0CLK	2	2	7	I/O	USCI_B0: Clock signal input (SPI slave mode), Clock signal output (SPI master mode)
	UCB0SIMO	4	4	9	I/O	USCI_B0: Slave in, master out (SPI mode)
	UCB0SOMI	5	5	10	I/O	USCI_B0: Slave out, master in (SPI mode)
	UCB0STE	3	3	8	I/O	USCI_B0: Slave transmit enable (SPI mode)
	UCB1CLK	14 59 64	14 59 64	19 2	I/O	USCI_B1: Clock signal input (SPI slave mode), Clock signal output (SPI master mode)
	UCB1SIMO	15 60	15 60	3 20	I/O	USCI_B1: Slave in, master out (SPI mode)
	UCB1SOMI	16 61	16 61	21 4	I/O	USCI_B1: Slave out, master in (SPI mode)
	UCB1STE	1 58	1 58	1	I/O	USCI_B1: Slave transmit enable (SPI mode)
System	NMI	20	20	23	I	Nonmaskable interrupt input
System	RST	20	20	23	I	Reset input active low
Timer_A	TA0.0	3 35	3 35	8 38	I/O	Timer_A TA0 CCR0 capture: CCI0A input, compare: Out0 output
	TA0.1	4 36 44	4 36 44	9 39 47	I/O	Timer_A TA0 CCR1 capture: CCI1A input, compare: Out1 output
	TA0.2	5 37 43	5 37 43	10 40 46	I/O	Timer_A TA0 CCR2 capture: CCI2A input, compare: Out2 output
	TA0CLK	34 42	34 42	37 45	I	Timer_A TA0 clock signal TA0CLK input
	TA1.0	2 59	2 59	7 2	I/O	Timer_A TA1 CCR0 capture: CCI0A input, compare: Out0 output
	TA1.1	25 42 60	25 42 60	28 45 3	I/O	Timer_A TA1 CCR1 capture: CCI1A input, compare: Out1 output
	TA1.2	41 61	41 61	44 4	I/O	Timer_A TA1 CCR2 capture: CCI2A input, compare: Out2 output
	TA1CLK	43 58	43 58	46 1	I	Timer_A TA1 clock signal TA1CLK input
	TA3.2	14	14	19	I/O	Timer_A TA3 CCR2 capture: CCI2B input, compare: Out2 output
	TA3.3	15	15	20	I/O	Timer_A TA3 CCR3 capture: CCI3B input, compare: Out3 output
	TA3.4	16	16	21	I/O	Timer_A TA3 CCR4 capture: CCI4B input, compare: Out4 output
Timer_B	TB0.0	11 26	11 26	16 29	I/O	Timer_B TB0 CCR0 capture: CCI0B input, compare: Out0 output
	TB0.1	12 27	12 27	17 30	I/O	Timer_B TB0 CCR1 capture: CCI1A input, compare: Out1 output
	TB0.2	13 28	13 28	18 31	I/O	Timer_B TB0 CCR2 capture: CCI2A input, compare: Out2 output
	TB0.3	29	29	32	I/O	Timer_B TB0 CCR3 capture: CCI3B input, compare: Out3 output
	TB0.4	31	31	34	I/O	Timer_B TB0 CCR4 capture: CCI4B input, compare: Out4 output
	TB0.5	32	32	35	I/O	Timer_B TB0 CCR5 capture: CCI5B input, compare: Out5 output
	TB0.6	33	33	36	I/O	Timer_B TB0 CCR6 capture: CCI6B input, compare: Out6 output
	TB0CLK	25 33 57	25 33 57	28 36	I	Timer_B TB0 clock signal TB0CLK input
	TB0OUTH	21 30	21 30	24 33	I	Switch all PWM outputs high impedance input - Timer_B TB0
UART	UCA0RXD	1 32	1 32	35	I	USCI_A0: Receive data (UART mode)
	UCA0TXD	33 64	33 64	36	O	USCI_A0: Transmit data (UART mode)
	UCA1RXD	27	27	30	I	USCI_A1: Receive data (UART mode)
	UCA1TXD	26	26	29	O	USCI_A1: Transmit data (UART mode)
Thermal Pad						RGC package only. VQFN package exposed thermal pad. TI recommends connection to V_SS.