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MSP430FR6043

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MCU de detección ultrasónica con 64 KB FRAM, RAM de 12 KB y LCD para aplicaciones de medición de gas

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MSP430FR6043

ACTIVO
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Detalles del producto

CPU MSP430 Frequency (MHz) 16 Flash memory (kByte) 64 RAM (kByte) 12 ADC type 12-bit SAR Features Advanced sensing, DMA, Direct drive, LCD, Low-energy accelerator (LEA), Metering test interface (MTIF), Real-time clock, Ultrasonic sensing AFE UART 4 Number of ADC channels 8 SPI 6 USB No Operating temperature range (°C) -40 to 85 Rating Catalog Communication interface I2C, SPI, UART Operating system BareMetal (No OS), TI RTOS Hardware accelerators Low energy accelerator Nonvolatile memory (kByte) 64 Number of GPIOs 57 Number of I2Cs 2 Security Cryptographic acceleration, Secure communication, Secure debug, Software IP protection
CPU MSP430 Frequency (MHz) 16 Flash memory (kByte) 64 RAM (kByte) 12 ADC type 12-bit SAR Features Advanced sensing, DMA, Direct drive, LCD, Low-energy accelerator (LEA), Metering test interface (MTIF), Real-time clock, Ultrasonic sensing AFE UART 4 Number of ADC channels 8 SPI 6 USB No Operating temperature range (°C) -40 to 85 Rating Catalog Communication interface I2C, SPI, UART Operating system BareMetal (No OS), TI RTOS Hardware accelerators Low energy accelerator Nonvolatile memory (kByte) 64 Number of GPIOs 57 Number of I2Cs 2 Security Cryptographic acceleration, Secure communication, Secure debug, Software IP protection
LQFP (PN) 80 196 mm² 14 x 14
  • Best-in-class ultrasonic water and gas flow measurement with ultra-low power consumption
    • Water
      • ±12.5-ps differential time of flight (dToF) accuracy at low to high flow rates and across operating temperature
      • Achieves ±1% accuracy for a wide dynamic range of 500:1
      • Ability to measure a maximum flow rate of 8800 liters/hour (40 gallons/minute) on 25‑mm diameter pipe
      • Ability to detect a minimum flow rate of <1 liter/hour (0.005 gallons/minute)
      • High-precision time measurement resolution of <5 ps
      • Approximately 3-µA overall current consumption with 1 set of results per second
      • Ability to support a wide pipe sizes with 15‑mm to 1000-mm diameter
    • Gas
      • ±250-ps differential time of flight (dToF) accuracy at low to high flow rates and across operating temperature
      • Achieves ±1% accuracy up to 12000 liters/hour with a wide dynamic range of 200:1
      • Ability to measure a flow rate >25000 liters/hour
      • Ability to detect a minimum flow rate of <3 liters/hour
      • High-precision time measurement resolution of <100 ps
      • Approximately 20-µA overall current consumption with 1 set of results per second
  • Compliant to and exceeds ISO4064, OIML R49, EN 14236 and EN 1434 accuracy standards
  • Ability to directly interface standard ultrasonic sensors (up to 2.5 MHz)
  • Integrated analog front end – Ultrasonic Sensing Solution (USS_A) that includes
    • Programmable pulse generator (PPG) to generate multi-tone pulses at various frequencies
    • Integrated PHY with low-impedance output driver (4 Ω) to control input and output channels
    • High-performance high-speed 12-bit analog-to-digital converter (SDHS) with output data rates up to 8 Msps
    • Programmable gain amplifier (PGA) with gain of –6.5 dB to 30.8 dB
    • High-performance PLL with output range of 68 to 80 MHz
  • Metering test interface (MTIF)
    • Pulse generator and pulse counter
    • Pulse rates up to 1024 pulses per second (p/s)
    • Count capacity up to 65535 (16 bit)
    • Operates in LPM3.5 with 200 nA (typical)
  • Low-energy accelerator (LEA)
    • Operation independent of CPU
    • 8KB of RAM shared with CPU
    • Efficient 256-point complex FFT: Up to 40x faster than Arm Cortex-M0+ core
  • Embedded microcontroller
    • 16-bit RISC architecture up to 16‑MHz clock
    • Wide supply voltage range: 1.8 V to 3.6 V (1)
  • Optimized ultra-low-power modes
    • Active mode: approximately 120 µA/MHz
    • Standby mode with real-time clock (RTC) (LPM3.5): 450 nA (2)
    • Shutdown (LPM4.5): 30 nA
  • Ferroelectric random access memory (FRAM)
    • Up to 64KB of nonvolatile memory
    • Ultra-low-power writes
    • Fast write at 125 ns per word (64KB in 4 ms)
    • Unified memory = program + data + storage in one single space
    • 1015 write cycle endurance
    • Radiation resistant and nonmagnetic
  • Intelligent digital peripherals
    • 32-bit hardware multiplier (MPY)
    • 6-channel internal DMA
    • RTC with calendar and alarm functions
    • 6 16-bit timers with up to 7 capture/compare registers each
    • 32-bit and 16-bit cyclic redundancy check (CRC)
  • High-performance analog
    • 12-channel analog comparator
    • 12-bit ADC featuring window comparator, internal reference, and sample-and-hold, with up to 8 external input channels
    • Integrated LCD driver with contrast control for up to 248 segments
  • Multifunction input/output ports
    • All pins support capacitive-touch capability with no need for external components
    • Accessible bit-, byte-, and word-wise (in pairs)
    • Edge-selectable wake from LPM on all ports
    • Programmable pullup and pulldown on all ports
  • Code security and encryption
    • 128- or 256-bit AES security encryption and decryption coprocessor
    • Random number seed for random number generation algorithms
    • IP encapsulation protects memory from external access
    • FRAM provides inherent security advantages
  • Enhanced serial communication
    • Up to 4 eUSCI_A serial communication ports
      • UART with automatic baud-rate detection
      • IrDA encode and decode
    • Up to 2 eUSCI_B serial communication ports
      • I2C with multiple-slave addressing
    • Hardware UART or I2C bootloader (BSL)
  • Flexible clock system
    • Fixed-frequency DCO with 10 selectable factory-trimmed frequencies
    • Low-power low-frequency internal clock source (VLO)
    • 32-kHz crystals (LFXT)
    • High-frequency crystals (HFXT)
  • Development tools and software
  • Device Comparison summarizes the available device variants and package options

(1)Minimum supply voltage is restricted by SVS levels (see the SVS specifications)

(2)The RTC is clocked by a 3.7-pF crystal.
  • Best-in-class ultrasonic water and gas flow measurement with ultra-low power consumption
    • Water
      • ±12.5-ps differential time of flight (dToF) accuracy at low to high flow rates and across operating temperature
      • Achieves ±1% accuracy for a wide dynamic range of 500:1
      • Ability to measure a maximum flow rate of 8800 liters/hour (40 gallons/minute) on 25‑mm diameter pipe
      • Ability to detect a minimum flow rate of <1 liter/hour (0.005 gallons/minute)
      • High-precision time measurement resolution of <5 ps
      • Approximately 3-µA overall current consumption with 1 set of results per second
      • Ability to support a wide pipe sizes with 15‑mm to 1000-mm diameter
    • Gas
      • ±250-ps differential time of flight (dToF) accuracy at low to high flow rates and across operating temperature
      • Achieves ±1% accuracy up to 12000 liters/hour with a wide dynamic range of 200:1
      • Ability to measure a flow rate >25000 liters/hour
      • Ability to detect a minimum flow rate of <3 liters/hour
      • High-precision time measurement resolution of <100 ps
      • Approximately 20-µA overall current consumption with 1 set of results per second
  • Compliant to and exceeds ISO4064, OIML R49, EN 14236 and EN 1434 accuracy standards
  • Ability to directly interface standard ultrasonic sensors (up to 2.5 MHz)
  • Integrated analog front end – Ultrasonic Sensing Solution (USS_A) that includes
    • Programmable pulse generator (PPG) to generate multi-tone pulses at various frequencies
    • Integrated PHY with low-impedance output driver (4 Ω) to control input and output channels
    • High-performance high-speed 12-bit analog-to-digital converter (SDHS) with output data rates up to 8 Msps
    • Programmable gain amplifier (PGA) with gain of –6.5 dB to 30.8 dB
    • High-performance PLL with output range of 68 to 80 MHz
  • Metering test interface (MTIF)
    • Pulse generator and pulse counter
    • Pulse rates up to 1024 pulses per second (p/s)
    • Count capacity up to 65535 (16 bit)
    • Operates in LPM3.5 with 200 nA (typical)
  • Low-energy accelerator (LEA)
    • Operation independent of CPU
    • 8KB of RAM shared with CPU
    • Efficient 256-point complex FFT: Up to 40x faster than Arm Cortex-M0+ core
  • Embedded microcontroller
    • 16-bit RISC architecture up to 16‑MHz clock
    • Wide supply voltage range: 1.8 V to 3.6 V (1)
  • Optimized ultra-low-power modes
    • Active mode: approximately 120 µA/MHz
    • Standby mode with real-time clock (RTC) (LPM3.5): 450 nA (2)
    • Shutdown (LPM4.5): 30 nA
  • Ferroelectric random access memory (FRAM)
    • Up to 64KB of nonvolatile memory
    • Ultra-low-power writes
    • Fast write at 125 ns per word (64KB in 4 ms)
    • Unified memory = program + data + storage in one single space
    • 1015 write cycle endurance
    • Radiation resistant and nonmagnetic
  • Intelligent digital peripherals
    • 32-bit hardware multiplier (MPY)
    • 6-channel internal DMA
    • RTC with calendar and alarm functions
    • 6 16-bit timers with up to 7 capture/compare registers each
    • 32-bit and 16-bit cyclic redundancy check (CRC)
  • High-performance analog
    • 12-channel analog comparator
    • 12-bit ADC featuring window comparator, internal reference, and sample-and-hold, with up to 8 external input channels
    • Integrated LCD driver with contrast control for up to 248 segments
  • Multifunction input/output ports
    • All pins support capacitive-touch capability with no need for external components
    • Accessible bit-, byte-, and word-wise (in pairs)
    • Edge-selectable wake from LPM on all ports
    • Programmable pullup and pulldown on all ports
  • Code security and encryption
    • 128- or 256-bit AES security encryption and decryption coprocessor
    • Random number seed for random number generation algorithms
    • IP encapsulation protects memory from external access
    • FRAM provides inherent security advantages
  • Enhanced serial communication
    • Up to 4 eUSCI_A serial communication ports
      • UART with automatic baud-rate detection
      • IrDA encode and decode
    • Up to 2 eUSCI_B serial communication ports
      • I2C with multiple-slave addressing
    • Hardware UART or I2C bootloader (BSL)
  • Flexible clock system
    • Fixed-frequency DCO with 10 selectable factory-trimmed frequencies
    • Low-power low-frequency internal clock source (VLO)
    • 32-kHz crystals (LFXT)
    • High-frequency crystals (HFXT)
  • Development tools and software
  • Device Comparison summarizes the available device variants and package options

(1)Minimum supply voltage is restricted by SVS levels (see the SVS specifications)

(2)The RTC is clocked by a 3.7-pF crystal.

The Texas Instruments MSP430FR604x and MSP430FR504x SoCs are part of the MSP430 ultrasonic sensing microcontroller (MCU) family and are powerful, highly integrated devices designed for a wide variety of industrial applications:

These MCUs offer an integrated ultrasonic sensing solution (USS_A) module, which provides high accuracy for a wide range of flow rates. The USS module helps achieve ultra-low-power metering combined with lower system cost due to maximum integration requiring very few external components.

MSP430FR604x and MSP430FR504x devices implement high-speed ADC-based signal acquisition followed by optimized digital signal processing using the low-energy accelerator (LEA) to deliver a high-accuracy metering solution with ultra-low power optimum for battery-powered metering applications.

The USS_A module includes a programmable pulse generator (PPG) and a physical interface (PHY) with a low impedance output driver for optimum sensor excitation and accurate impendence matching to deliver best results for zero-flow drift (ZFD). The USS_A module also includes a programmable gain amplifier (PGA) and a high-speed 12-bit 8-Msps sigma-delta ADC (SDHS) for accurate signal acquisition from industry standard ultrasonic transducers.

The MSP430FR604x and MSP430FR504x MCUs also integrate other peripherals to improve system integration for metering. It has a metering test interface (MTIF) module to implement pulse generation to indicate flow measured by the meter. It also has an on-chip 8-mux LCD driver (MSP430FR604x only), a real-time clock (RTC), a 12-bit SAR ADC, an analog comparator, an advanced encryption (AES256) module, and a cyclic redundancy check (CRC) module.

MSP430FR604x and MSP430FR504x MCUs are supported by an extensive hardware and software ecosystem with reference designs and code examples to get your design started quickly. Development kits include the MSP-TS430PN80C 80-pin target development board and EVM430-FR6043 ultrasonic gas flow meter EVM. TI also provides free software including the ultrasonic sensing design center, ultrasonic sensing software library, and MSP430Ware™ software.

The MSP430FR604x and MSP430FR504x MCU family integrates TI’s FRAM (ferroelectric RAM) and a holistic ultra-low-power MSP system architecture, allowing system designers to increase performance while lowering energy consumption. FRAM technology combines the low-energy fast writes, flexibility, and endurance of RAM with the nonvolatility of flash.

For complete module descriptions, see the MSP430FR58xx, MSP430FR59xx, and MSP430FR6xx Family User’s Guide .

The Texas Instruments MSP430FR604x and MSP430FR504x SoCs are part of the MSP430 ultrasonic sensing microcontroller (MCU) family and are powerful, highly integrated devices designed for a wide variety of industrial applications:

These MCUs offer an integrated ultrasonic sensing solution (USS_A) module, which provides high accuracy for a wide range of flow rates. The USS module helps achieve ultra-low-power metering combined with lower system cost due to maximum integration requiring very few external components.

MSP430FR604x and MSP430FR504x devices implement high-speed ADC-based signal acquisition followed by optimized digital signal processing using the low-energy accelerator (LEA) to deliver a high-accuracy metering solution with ultra-low power optimum for battery-powered metering applications.

The USS_A module includes a programmable pulse generator (PPG) and a physical interface (PHY) with a low impedance output driver for optimum sensor excitation and accurate impendence matching to deliver best results for zero-flow drift (ZFD). The USS_A module also includes a programmable gain amplifier (PGA) and a high-speed 12-bit 8-Msps sigma-delta ADC (SDHS) for accurate signal acquisition from industry standard ultrasonic transducers.

The MSP430FR604x and MSP430FR504x MCUs also integrate other peripherals to improve system integration for metering. It has a metering test interface (MTIF) module to implement pulse generation to indicate flow measured by the meter. It also has an on-chip 8-mux LCD driver (MSP430FR604x only), a real-time clock (RTC), a 12-bit SAR ADC, an analog comparator, an advanced encryption (AES256) module, and a cyclic redundancy check (CRC) module.

MSP430FR604x and MSP430FR504x MCUs are supported by an extensive hardware and software ecosystem with reference designs and code examples to get your design started quickly. Development kits include the MSP-TS430PN80C 80-pin target development board and EVM430-FR6043 ultrasonic gas flow meter EVM. TI also provides free software including the ultrasonic sensing design center, ultrasonic sensing software library, and MSP430Ware™ software.

The MSP430FR604x and MSP430FR504x MCU family integrates TI’s FRAM (ferroelectric RAM) and a holistic ultra-low-power MSP system architecture, allowing system designers to increase performance while lowering energy consumption. FRAM technology combines the low-energy fast writes, flexibility, and endurance of RAM with the nonvolatility of flash.

For complete module descriptions, see the MSP430FR58xx, MSP430FR59xx, and MSP430FR6xx Family User’s Guide .
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Documentación técnica

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* Data sheet MSP430FR604x, MSP430FR504x 16-MHz MCU up to 64KB FRAM, 12-Bit High-Speed 8-MSPS Sigma-Delta ADC, and Integrated Sensor AFE datasheet (Rev. B) PDF | HTML 01 dic 2021
* Errata MSP430FR6043 Microcontroller Errata (Rev. B) PDF | HTML 21 oct 2021
* User guide MSP430FR58xx, MSP430FR59xx, and MSP430FR6xx Family User's Guide (Rev. P) PDF | HTML 21 abr 2020
Application note Migration Guide From MSP430 MCUs to MSPM0 MCUs (Rev. B) PDF | HTML 02 jun 2025
Application note Ultrasonic Sensing Solution (USS) Guide PDF | HTML 25 mar 2025
User guide MSP430 FRAM Devices Bootloader (BSL) User's Guide (Rev. AB) PDF | HTML 22 sep 2022
Application note Waveform Capture Based Ultrasonic Sensing Water Flow Metering Technology (Rev. A) PDF | HTML 15 jul 2021
Application note MSP430 System-Level ESD Considerations (Rev. B) PDF | HTML 14 jul 2021
User guide MSP430 MCUs Development Guide Book (Rev. A) PDF | HTML 13 may 2021
Application note Ultrasonic Transducer Selection for Gas Metering (Rev. B) 04 ene 2021
More literature Designing in emerging applications: Ultrasonic sensing and capacitive touch 15 dic 2020
Application note Ultrasonic Applications With MSP430 MCUs 20 nov 2020
Application note Gas Meter Design Guide 28 oct 2020
Application note Oxygen Concentration Sensing PDF | HTML 14 oct 2020
Application note Liquid Concentration Sensing 09 oct 2020
Application note High-Resolution Anemometers 02 oct 2020
Application note Ultrasonic Surface Sensing 25 sep 2020
Application note Ultrasonic Leak Detection 23 sep 2020
User guide Water Flow Meter Quick Start Guide (Rev. B) 17 sep 2020
Application note High Resolution Ultrasonic Liquid Level Sensing (Rev. A) PDF | HTML 01 sep 2020
Application note Answers to Common Sigma-Delta ADC Questions on MSP MCUs PDF | HTML 11 ago 2020
User guide Quick Start Guide for Gas Flow Meter 15 jun 2020
Application note MSP430 System ESD Troubleshooting Guide PDF | HTML 13 dic 2019
Technical article Expanding the ultrasonic sensing solution (USS) library to support our new line of PDF | HTML 20 feb 2019
Application note FAQ on ultrasonic sensing technology for flow metering with MSP430FR604x MCUs (Rev. A) 30 ene 2019
User guide MSP430FR6043-based ultrasonic gas flow meter quick start guide (Rev. B) 24 ene 2019
White paper Ultrasonic sensing of gas flow white paper 24 ene 2019
White paper Matched-Filter Ultrasonic Sensing: Theory and Implementation 15 dic 2017
Application note Low-Energy Accelerator (LEA) Frequently Asked Questions (FAQ) 01 nov 2016

Diseño y desarrollo

Para conocer los términos adicionales o los recursos necesarios, haga clic en cualquier título de abajo para ver la página de detalles cuando esté disponible.

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Kit de desarrollo

MSP-TS430PN80C — Placa de desarrollo destino para MCU MSP430FR6043 - 80 pines (microcontrolador no incluido)

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Ejemplo de código o demostración

SLAC765 MSP430FR6043, MSP430FR6041, MSP430FR5043, MSP430FR5041 code examples

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Diseños de referencia

TIDM-02005 — Diseño de referencia de metrología de detección ultrasónica optimizada para la medición del flujo de

Este diseño de referencia ayuda a los diseñadores a desarrollar un subsistema de medición de agua ultrasónica de costo optimizado utilizando un módulo de solución de detección ultrasónica (USS) integrado, que proporciona un rendimiento de metrología superior con bajo consumo de potencia y máxima (...)
Design guide: PDF
Esquema: PDF
Encapsulado Pines Símbolos CAD, huellas y modelos 3D
LQFP (PN) 80 Ultra Librarian
Se aplican los Términos y condiciones estándar de TI para los elementos de evaluación.

Pedidos y calidad

Información incluida:
  • RoHS
  • REACH
  • Marcado del dispositivo
  • Acabado de plomo/material de la bola
  • Clasificación de nivel de sensibilidad a la humedad (MSL)/reflujo máximo
  • Estimaciones de tiempo medio entre fallas (MTBF)/fallas en el tiempo (FIT)
  • Contenido del material
  • Resumen de calificaciones
  • Monitoreo continuo de confiabilidad
Información incluida:
  • Lugar de fabricación
  • Lugar de ensamblaje

Los productos recomendados pueden tener parámetros, módulos de evaluación o diseños de referencia relacionados con este producto de TI.

Soporte y capacitación

Foros de TI E2E™ con asistencia técnica de los ingenieros de TI

Ver todos los temas del foro en inglés

El contenido lo proporcionan “tal como está” TI y los colaboradores de la comunidad y no constituye especificaciones de TI. Consulte los términos de uso.

Si tiene alguna pregunta sobre calidad, encapsulados o pedido de productos de TI, consulte el servicio de asistencia de TI. ​​​​​​​​​​​​​​

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