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MSP430F67791AIPEUR

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Texas Instruments

Polyphase metering SoC with 7 Sigma-Delta ADCs, LCD, real-time clock, 512KB Flash, 32KB RAM 128-LQFP -40 to 85

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详细参数

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MSP430F67791AIPEUR

Brand Name

Texas Instruments

不含铅

符合

Active

QFP

LFQFP,

128

compliant

EAR99

8542.31.00.01

813

0.76

YES

I2C; SPI; UART

MSP430

25 MHz

YES

R-PQFP-G128

20 mm

128

85 °C

-40 °C

YES

PLASTIC/EPOXY

LFQFP

RECTANGULAR

260

32768

524288

FLASH

1.6 mm

25 MHz

3.6 V

2.4 V

3.3 V

YES

CMOS

INDUSTRIAL

NICKEL PALLADIUM GOLD

GULL WING

0.5 mm

QUAD

14 mm

SoC

参考设计

(9)

TIDM-AUX-MODULE Battery Management and Auxiliary Power Supply Options for E-Meters | TI.com

TIDM-AUX-MODULE: Smart electric meters are required to maintain normal operation for a short period of time after the electric grid fails. This reference design details methods by which designers can meet this requirement when using an advanced, smart meter MCU. Designers can use this design to evaluate options for battery management and auxiliary power supplies quickly and easily.

Three-Phase Metrology With Enhanced ESD Protection and Tamper Detection Reference Design

TIDM-3PHMTR-TAMP-ESD: This design implements an ANSI/IEC Class 0.2 three-phase energy meter with enhanced ESD protection. The design also features tamper detection to limit the feasibility of energy theft and communications through ZigBee™ connectivity. The e-meter SoC is used to perform all metrology functions and sends active power results to the CC2530EM add-on board. Developers can use the companion In Home Display TI Design (TIDM-LOWEND-IHD) to display results remotely. This reference design uses the MSP430F67791A. This reference design can also be used with the MSP430F67791,MSP430F6779 and MSP430F6779A.

Implementation of a 3-Phase Rogowski Coil Based Watt Hour Meter Reference Design

TIDM-3PHMETER-ROGOWSKI: This design, implements a highly integrated single chip electricity metering solution, with support for Rogowski Coil current sensors. Hardware and software design files are provided to enable calculation of various parameters for multi-phase energy measurement, such as RMS current & voltage, active and reactive power and energies, power factor and frequency. The added hardware and software support for Rogowski Coils make it easy to interface with Rogowski coils with minimal hardware changes when migrating from traditional current transformers. The Rogowski coil current sense library implements an efficient software integration of the Rogowski output, enabling this to be a single chip solution for 3-phase e-metering. Software package also includes a dummy application for quick and easy evaluation of the hardware and software.

Battery Management and Auxiliary Power Supply Options for E-Meters

TIDM-3PHMTR-TAMP-ESD Three-Phase Metrology With Enhanced ESD Protection and Tamper Detection Reference Design | TI.com

TIDA-00737 Capacitor Bank Control and HMI Subsystem Reference Design for Automatic Power Factor Controller | TI.com

TIDA-00737: The TIDA-00737 TI design demonstrates working of various functional blocks of an Automatic Power Factor Controller used in MV/LV electrical distribution including – Accurate measurement and computation of voltages, currents, power and power factor; Display of measured parameters using 4 digit seven segment display; Alarms and Status indication using LEDs; Switching outputs for driving Contactor or Thyristor for switching capacitor banks; Monitoring of local and remote temperature using a breadth of products from TI’s portfolio.

TIDM-3PHMETER-ROGOWSKI Implementation of a 3-Phase Rogowski Coil Based Watt Hour Meter Reference Design | TI.com

TIDM-THDREADING Total Harmonic Distortion Measurement For Energy Monitoring Reference Design | TI.com

TIDM-THDREADING: The TIDM-THDREADING reference design implements power quality analysis in a three-phase energy measurement system. Power quality monitoring and analysis has an increasingly large role in improving the reliability of the electricity grid. The design measures Total Harmonic Distortion(THD), monitors voltage sags and swells, and measures phase-to-phase angles to help determine phase sequence and prevent accidental phase swapping. Four-quadrant energy measurement is supported for net metering systems with bi-directional energy flow.

TIDA-00839 Magnetic Tamper Detection Using Low-Power Hall Effect Sensors Reference Design | TI.com

TIDA-00839: Magnetic tampering can paralyze any transformer in an energy measurement system, which may potentially lead to the system being unable to be powered properly or unable to correctly register the energy consumed by a load. This design implements a Class 0.2 three-phase energy measurement system that detects magnetic tampering using hall sensors. Magnetic tamper detection is enabled when running from both main and backup power sources. Methods are used to reduce the current consumption of the hall sensors to increase battery life when running from the backup power source.

< / 共 9 个参考设计 >

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