company blog about Supply TI EVM430-F6736 Single-Phase Electricity Meter Evaluation Board, For Measuring The MSP430F6736 Mixed-Signal Microcontroller

Supply TI EVM430-F6736 Single-Phase Electricity Meter Evaluation Board, For Measuring The MSP430F6736 Mixed-Signal Microcontroller

Shenzhen Mingjiada Electronics Co., Ltd. — Long-term supply of [TI] EVM430-F6736: Single-phase electricity meter evaluation board for measuring the MSP430F6736. Below are the product details for EVM430-F6736:

EVM430-F6736 is a single-phase electricity meter evaluation board based on the MSP430F6736 metering-specific microcontroller. The EVM430-F6736 enables developers to connect directly to live power lines for voltage and current input measurement, incorporating a third-terminal connection system for tamper detection. Its design facilitates rapid evaluation and testing of MSP430F673x/F672x series chips, providing visual verification of high-precision metering results while accelerating product development through its wide dynamic range and convenient calibration features.

At the heart of the EVM430-F6736 evaluation board lies an MSP430F6736 mixed-signal microcontroller. This MCU belongs to TI's MSP430F6xxx platform, a system-on-chip (SoC) specifically engineered for single-phase, two-phase, and even three-phase electricity meter solutions.

The EVM430-F6736 evaluation board provides a complete single-phase electricity meter hardware reference design. Users can connect it directly to a test system or AC power supply to run real-time energy measurement applications. The board features extensive interfaces and indicator components, facilitating result viewing, calibration, and debugging for developers.

EVM430-F6736 Core Chip: MSP430F6736
The MSP430F6736 features a powerful 16-bit RISC CPU operating at up to 25MHz. Its ultra-low power characteristics are crucial for portable and battery-powered metering applications: standby mode (LPM3) consumes as little as 1.7µA at 3.0V, while shutdown mode (LPM4.5) requires merely 0.78µA.
The chip's analogue front end underpins its metering capabilities, incorporating up to three independent high-performance 24-bit Σ-Δ ADCs (analogue-to-digital converters). These ADCs employ a second-order Σ-Δ architecture with differential input support and integrate a programmable gain amplifier offering up to 128x amplification, enabling direct amplification of faint sensor signals.
Furthermore, the chip incorporates a 32-bit hardware multiplier, significantly accelerating the intensive mathematical operations required for energy calculation. These hardware features collectively ensure the real-time performance and precision of electrical parameter computation.

Products supported by EVM430-F6736:
MSP430 Microcontrollers
MSP430F6720 — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 16KB flash memory, 1KB RAM
MSP430F6720A — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 16KB flash memory, 1KB RAM
MSP430F6721 — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 32KB flash memory, 2KB RAM
MSP430F6721A — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 32KB flash memory, 2KB RAM
MSP430F6723 — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 64KB flash memory, 4KB RAM
MSP430F6723A — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 64KB flash memory, 4KB RAM
MSP430F6724 — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 96KB flash memory, 4KB RAM
MSP430F6724A — Single-phase metering SoC with 2 Σ-Δ ADCs, LCD, real-time clock, 96KB flash memory, 4KB RAM

EVM430-F6736 Features:
Capable of running real-time power measurement applications
Connectable to any test system or AC voltage
Multiple power supply options
Convenient result viewing and calibration
Metering software provided

Mingjiada Electronics maintains long-term supply of the TI EVM430-F6736 single-phase electricity meter evaluation board for measuring the MSP430F6736. For further product information regarding the EVM430-F6736 or to enquire about samples, please visit the Mingjiada Electronics official website (https://www.integrated-ic.com/) for additional supply details.