Datasheet Texas Instruments MSP430FR2433 — Ficha de datos

Fabricante	Texas Instruments
Serie	MSP430FR2433

MSP430FR2433 Microcontrolador de ultra baja potencia de 16 MHz con 16 KB de FRAM, 4 KB de RAM, 19 IO, 4 temporizadores

Hojas de datos

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PDF, 1.6 Mb, Revisión: B, Archivo publicado: jun 19, 2017

Extracto del documento

Precios

Estado

	MSP430FR2433IRGER	MSP430FR2433IRGET	MSP430FR2433IYQWR	MSP430FR2433IYQWT
Estado del ciclo de vida	Activo (Recomendado para nuevos diseños)	Activo (Recomendado para nuevos diseños)	Activo (Recomendado para nuevos diseños)	Activo (Recomendado para nuevos diseños)
Disponibilidad de muestra del fabricante	No	Sí	Sí	No

Embalaje

	MSP430FR2433IRGER	MSP430FR2433IRGET	MSP430FR2433IYQWR	MSP430FR2433IYQWT
N	1	2	3	4
Pin	24	24	24	24
Package Type	RGE	RGE	YQW	YQW
Industry STD Term	VQFN	VQFN	DSBGA	DSBGA
JEDEC Code	S-PQFP-N	S-PQFP-N	S-XBGA-N	S-XBGA-N
Package QTY	3000	250	3000	250
Device Marking	FR2433	FR2433	430FR2433	430FR2433
Width (mm)	4	4
Length (mm)	4	4
Thickness (mm)	.88	.88
Pitch (mm)	.5	.5
Max Height (mm)	1	1
Mechanical Data	Descargar	Descargar	Descargar	Descargar
Carrier			SMALL T&R	SMALL T&R

Paramétricos

Parameters / Models	MSP430FR2433IRGER	MSP430FR2433IRGET	MSP430FR2433IYQWR	MSP430FR2433IYQWT
ADC	ADC10 - 8ch	ADC10 - 8ch	ADC10 - 8ch	ADC10 - 8ch
AES	N/A	N/A	N/A	N/A
Active Power, uA/MHz	126	126	126	126
Additional Features	Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset	Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset	Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset	Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset
BSL	I2C,UART	I2C,UART	I2C,UART	I2C,UART
CPU	MSP430	MSP430	MSP430	MSP430
Featured	fr2	fr2	fr2	fr2
Frequency, MHz	16	16	16	16
GPIO Pins	19	19	19	19
I2C	1	1	1	1
Max VCC	3.6	3.6	3.6	3.6
Min VCC	1.8	1.8	1.8	1.8
Multiplier	32x32	32x32	32x32	32x32
Non-volatile Memory, KB	16	16	16	16
Operating Temperature Range, C	-40 to 85	-40 to 85	-40 to 85	-40 to 85
Package Group	VQFN	VQFN	VQFN	VQFN
Package Size: mm2:W x L, PKG	24VQFN: 16 mm2: 4 x 4(VQFN)	24VQFN: 16 mm2: 4 x 4(VQFN)	24VQFN: 16 mm2: 4 x 4(VQFN)	24VQFN: 16 mm2: 4 x 4(VQFN)
RAM, KB	4	4	4	4
Rating	Catalog	Catalog	Catalog	Catalog
SPI	2	2	2	2
Security Enabler	Cryptographic acceleration,Debug security,Physical security,Secure FW and SW update,Software IP protection	Cryptographic acceleration,Debug security,Physical security,Secure FW and SW update,Software IP protection	Cryptographic acceleration,Debug security,Physical security,Secure FW and SW update,Software IP protection	Cryptographic acceleration,Debug security,Physical security,Secure FW and SW update,Software IP protection
Special I/O	N/A	N/A	N/A	N/A
Standby Power, LPM3-uA	1	1	1	1
Timers - 16-bit	4	4	4	4
UART	2	2	2	2
Wakeup Time, us	10	10	10	10

Plan ecológico

	MSP430FR2433IRGER	MSP430FR2433IRGET	MSP430FR2433IYQWR	MSP430FR2433IYQWT
RoHS	Obediente	Obediente	Obediente	Obediente

Notas de aplicación

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VLO Calibration on the MSP430FR4xx and MSP430FR2xx Family (Rev. A)
PDF, 78 Kb, Revisión: A, Archivo publicado: feb 19, 2016
MSP430FR4xx and MSP430FR2xx (FR4xx/FR2xx) family microcontrollers (MCUs) provide various clock sources, including some high-speed high-accuracy clocks and some low-power low-system-cost clocks. Users can select the best balance of performance, power consumption, and system cost. The on-chip very low-frequency oscillator (VLO) is a clock source with 10-kHz typical frequency included in FR4xx/FR2xx
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MSP430 FRAM Technology вЂ“ How To and Best Practices
PDF, 326 Kb, Archivo publicado: jun 23, 2014
FRAM is a non-volatile memory technology that behaves similar to SRAM while enabling a whole host of new applications, but also changing the way firmware should be designed. This application report outlines the how to and best practices of using FRAM technology in MSP430 from an embedded software development perspective. It discusses how to implement a memory layout according to application-specif
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MSP430 FRAM Quality and Reliability (Rev. A)
PDF, 295 Kb, Revisión: A, Archivo publicado: mayo 1, 2014
FRAM is a nonvolatile embedded memory technology and is known for its ability to be ultra-low power while being the most flexible and easy-to-use universal memory solution available today. This application report is intended to give new FRAM users and those migrating from flash-based applications knowledge on how FRAM meets key quality and reliability requirements such as data retention and endura
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Migrating From MSP430 F2xx and G2xx Families to MSP430 FR4xx and FR2xx Family (Rev. E)
PDF, 237 Kb, Revisión: E, Archivo publicado: mayo 4, 2018
This application report helps to ease the migration from MSP430F2xx flash-based MCUs to the MSP430FR4xx and MSP430FR2xx family of FRAM-based MCUs. It discusses programming system hardware core architecture and peripheral considerations. The intent is to highlight key differences between the two families. For more information on the use of the MSP430FR4xx and MSP430FR2xx devices see the MSP430
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General Oversampling of MSP ADCs for Higher Resolution (Rev. A)
PDF, 551 Kb, Revisión: A, Archivo publicado: abr 1, 2016
Multiple MSP ultra-low-power microcontrollers offer analog-to-digital converters (ADCs) to convert physical quantities into digital numbers, a function that is widely used across numerous applications. There are times, however, when a customer design demands a higher resolution than the ADC of the selected MSP can offer. This application report, which is based on the previously-published Oversampl

Linea modelo

Serie: MSP430FR2433 (4)

MSP430FR2433IRGER MSP430FR2433IRGET MSP430FR2433IYQWR MSP430FR2433IYQWT

Clasificación del fabricante

Semiconductors> Microcontrollers (MCU)> MSP430 ultra-low-power MCUs> MSP430FRxx FRAM