Datasheet Texas Instruments MSP430FR5994 — Даташит

Производитель	Texas Instruments
Серия	MSP430FR5994

Datasheets

Цены

Купить MSP430FR5994 на РадиоЛоцман.Цены — от 404 до 3 130 ₽ 30 предложений от 13 поставщиков Микроконтроллер 16-бит ядро ARM Cortex M0+ RISC 256KB Флэш-память питание 3.3В 64-Pin LQFP
T-electron Россия и страны СНГ	MSP430FR5994IRGZR Texas Instruments	404 ₽	Купить
ЧипСити Россия	MSP430FR5994IPNR Texas Instruments	470 ₽	Купить
Берёзка Электронные Компоненты Россия	MSP430FR5994IPM Texas Instruments	от 3 130 ₽	Купить
Acme Chip Весь мир	MSP430FR5994IPNR Texas Instruments	по запросу	Купить

Статус

Корпус / Упаковка / Маркировка

Параметры

Parameters / Models	MSP430FR5994IPM	MSP430FR5994IPMR	MSP430FR5994IPN	MSP430FR5994IPNR	MSP430FR5994IRGZR	MSP430FR5994IRGZT	MSP430FR5994IZVW	MSP430FR5994IZVWR	XMS430FR5994IPNR
ADC	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch	ADC12 - 20ch
AES	AES256	AES256	AES256	AES256	AES256	AES256	AES256	AES256	AES256
Active Power, uA/MHz	120	120	120	120	120	120	120	120
Active Power (uA/MHz)									120
Additional Features	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA,Real-Time Clock,Watchdog,Temp Sensor,Brown Out Reset,IrDA	LEA Real-Time Clock Watchdog Temp Sensor Brown Out Reset IrDA
BSL	UART	UART	UART	UART	UART	UART	UART	UART	UART
CPU	MSP430	MSP430	MSP430	MSP430	MSP430	MSP430	MSP430	MSP430	MSP430
Comparators	16	16	16	16	16	16	16	16
Comparators(Inputs)									16
DMA	6	6	6	6	6	6	6	6	6
Featured	fr5	fr5	fr5	fr5	fr5	fr5	fr5	fr5
Тактовая частота, МГц	16	16	16	16	16	16	16	16
Frequency(MHz)									16
GPIO Pins	68	68	68	68	68	68	68	68
GPIO Pins(#)									68
I2C	4	4	4	4	4	4	4	4	4
Max VCC	3.6	3.6	3.6	3.6	3.6	3.6	3.6	3.6	3.6
Min VCC	1.8	1.8	1.8	1.8	1.8	1.8	1.8	1.8	1.8
Multiplier	32x32	32x32	32x32	32x32	32x32	32x32	32x32	32x32	32x32
Non-volatile Memory, KB	256	256	256	256	256	256	256	256
Non-volatile Memory (KB)									256
Рабочий диапазон температур, C	от -40 до 85	от -40 до 85	от -40 до 85	от -40 до 85	от -40 до 85	от -40 до 85	от -40 до 85	от -40 до 85
Operating Temperature Range(C)									-40 to 85
Package Group	LQFP	LQFP	LQFP	LQFP	VQFN	VQFN	NFBGA	NFBGA	LQFP
Package Size: mm2:W x L, PKG	64LQFP: 144 mm2: 12 x 12(LQFP)	64LQFP: 144 mm2: 12 x 12(LQFP)	64LQFP: 144 mm2: 12 x 12(LQFP)	64LQFP: 144 mm2: 12 x 12(LQFP)	48VQFN: 49 mm2: 7 x 7(VQFN)	48VQFN: 49 mm2: 7 x 7(VQFN)	87NFBGA: 36 mm2: 6 x 6(NFBGA)	87NFBGA: 36 mm2: 6 x 6(NFBGA)
Package Size: mm2:W x L (PKG)									64LQFP: 144 mm2: 12 x 12(LQFP)
RAM, KB	8	8	8	8	8	8	8	8
RAM(KB)									264
Rating	Catalog	Catalog	Catalog	Catalog	Catalog	Catalog	Catalog	Catalog	Catalog
SPI	8	8	8	8	8	8	8	8	8
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	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	N/A	N/A	N/A	N/A	capacitive Touch I/O
Standby Power, LPM3-uA	0.7	0.7	0.7	0.7	0.7	0.7	0.7	0.7
Standby Power (LPM3-uA)									0.7
Timers - 16-bit	6	6	6	6	6	6	6	6	6
UART	4	4	4	4	4	4	4	4	4
Wakeup Time, us	7	7	7	7	7	7	7	7
Wakeup Time (us)									7

Экологический статус

Application Notes

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  This application report is an extension to MSPBoot – Main Memory Bootloader for MSP430 Microcontrollers and describes the implementation of a main-memory resident bootloader for MSP430 FRAM microcontrollers using either universal asynchronous receiver/transmitter (UART) communication or a serial peripheral interface (SPI) bus and CC110x RF transceivers to accomplish over-the-air downloads (OAD). W
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  Benchmarking the Signal Processing Capabilities of the Low-Energy Accelerator (Rev. B)
  PDF, 922 Кб, Версия: B, Файл опубликован: 1 ноя 2016
  This application report covers the performance of the low-energy accelerator (LEA) in advanced signal processing while maintaining the ultra-low-power consumption on a 16-bit MSP430в„ў FRAM microcontroller (MCU). The LEA module is compared against the performance of optimized software-enabled signal processing code running on both the 16-bit MSP430 MCUs and a competitor ARMВ® CortexВ®-M0+ based MCU. T
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  Low-Energy Accelerator (LEA) Frequently Asked Questions (FAQ)
  PDF, 282 Кб, Файл опубликован: 1 ноя 2016
  This document answers common questions about the low-energy accelerator (LEA) module built for signal processing on the MSP430 FRAM MCUs. It describes how to get started with devices that support the LEA module and use it to perform efficient signal processing, matrix multiplication, and other operations.
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  Random Number Generation Using MSP430FR59xx and MSP430FR69xx Microcontrollers
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  Random number generation has a role in a variety of applications, such as cryptography and tamper detection.In digital systems, it becomes difficult to introduce the concept of true randomness as a machine executes code in the sequence it is programed. This introduces the notion of true random number generators (TRNGs) and pseudorandom number generators (PRNGs), also known as deterministic rando
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  Migrating From MSP430F4xx Family to MSP430FR58xx/FR59xx/FR68xx/FR69xx Family (Rev. B)
  PDF, 183 Кб, Версия: B, Файл опубликован: 3 ноя 2016
  This application report enables easy migration from MSP430F4xx flash-based MCUs to the MSP430FR58xx/59xx/68xx/69xx family of FRAM-based MCUs. The intent is to highlight key differences between the two families. For more information on the use of the MSP430FR58xx/FR59xx/68xx/69xx devices, see the MSP430FR58xx, MSP430FR59xx, MSP430FR68xx, and MSP430FR69xx Family User's Guide.
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  Designing With the MSP430FR58xx, FR59xx, FR68xx, and FR69xx ADC (Rev. A)
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  Designing an application with the analog-to-digital converter (ADC) requires several considerations to optimize for power and performance. This application report discusses the basics of how you would analyze a data sheet and user's guide to design your application. It goes into the fundamentals of how to optimize your design based on the external requirements and available ADC configurations. The
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  MSP430 Advanced Power Optimizations: ULP Advisor SW and EnergyTrace Technology
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  MSP430 FRAM Technology – How To and Best Practices
  PDF, 326 Кб, Файл опубликован: 23 июн 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 Кб, Версия: A, Файл опубликован: 1 май 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 the MSP430F5xx,F6xx Family to the MSP430FR58xx/FR59xx/68xx Family (Rev. D)
  PDF, 151 Кб, Версия: D, Файл опубликован: 3 ноя 2016
  This application report helps enable easy migration from MSP430F5xx and MSP430F6xx flash-based MCUs to the MSP430FR58xx/FR59xx/68xx/69xx FRAM-based MCUs. For the migration guide to MSP430FR57xx, see Migrating From the MSP430F2xx Family to the MSP430FR57xx Family. It covers programming, system, and peripheral considerations when migrating firmware. The intent is to highlight differences between the
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  Migrating from the MSP430F2xx,G2xx Family to the MSP430FR58xx/FR59xx/68xx/69xx (Rev. E)
  PDF, 179 Кб, Версия: E, Файл опубликован: 3 ноя 2016
  This application report enables easy migration from MSP430F2xx flash-based MCUs to the MSP430FR58xx/FR59xx/68xx/69xx family of FRAM-based MCUs. For the migration guide to MSP430FR57xx, see Migrating From the MSP430F2xx Family to the MSP430FR57xx Family. It covers programming, system, and peripheral considerations when migrating firmware. The intent is to highlight key differences between the two f

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Классификация производителя

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