FMAG5-OS 相量检流计｜Phasor Current Meter

产品概述
FMAG5-OS相量检流计是一款专为电力系统监测与故障分析设计的高精度测量设备，适用于电网、工业配电、新能源发电等领域。该产品通过实时捕捉电流幅值与相位变化，为系统稳定性评估、谐波分析及动态过程记录提供可靠数据支撑。其模块化设计兼顾实验室研究与现场部署需求，支持多场景灵活应用。

核心功能

1. 多维度数据采集
   设备同步测量三相电流基波及谐波分量，以0.1ms级时间分辨率记录波形数据，完整捕捉瞬态扰动特征。独特设计的抗干扰算法可在强电磁环境中保持测量精度，确保复杂工况下的数据有效性。

2. 智能分析模块
   集成相量动态轨迹追踪功能，通过可视化界面呈现系统振荡模式。用户可自定义阈值告警参数，设备自动生成事件报告并标记异常时段数据，显著提升故障定位效率。

3. 开放式数据接口
   支持标准通信协议与主流电力分析软件无缝对接，测量数据可实时传输至SCADA系统或本地存储。提供Python/Matlab二次开发接口，满足定制化分析需求。

技术优势
• 宽动态范围设计：覆盖0.1A-10kA量程，无需外置传感器即可适配多种电压等级系统
• 自适应采样机制：根据系统频率波动自动优化采样策略，确保全工况测量一致性
• 工业级防护标准：-40℃至75℃宽温域稳定运行，防护等级满足严苛环境要求

应用场景
本产品广泛应用于：

• 新能源电站并网性能评估
• 轨道交通供电系统状态监测
• 智能制造设备能耗分析
• 科研机构电力系统动态特性研究

FMAG5-OS Phasor Current Meter

Product Overview
The FMAG5-OS Phasor Current Meter is a precision measurement instrument designed for power system monitoring and fault analysis, serving applications in power grids, industrial distribution networks, and renewable energy generation. By capturing real-time current magnitude and phase variations, this device provides reliable data support for system stability evaluation, harmonic analysis, and dynamic process recording. Its modular architecture enables flexible deployment in both laboratory research and field applications.

Key Features

1. Multi-dimensional Data Acquisition
   The device performs synchronized measurement of three-phase current fundamental waves and harmonic components, recording waveform data with 0.1ms-level time resolution to comprehensively capture transient disturbance characteristics. Proprietary anti-interference algorithms maintain measurement accuracy in strong electromagnetic environments, ensuring data validity under complex operating conditions.

2. Intelligent Analysis Module
   Equipped with phasor trajectory tracking functionality, the system visually displays oscillation patterns through an intuitive interface. Users can configure custom threshold alerts, with the device automatically generating event reports and tagging abnormal data segments to enhance fault diagnosis efficiency.

3. Open Data Interface
   Compatible with standard communication protocols and mainstream power analysis software, supporting real-time data transmission to SCADA systems or local storage. Provides Python/Matlab API for customized analytical solutions.

Technical Highlights
• Wide dynamic range: 0.1A-10kA measurement capability without external sensors
• Adaptive sampling: Auto-optimized sampling strategy based on frequency fluctuations
• Rugged construction: Stable operation from -40℃ to 75℃ with industrial-grade protection

Application Fields
Typical use cases include:

• Grid-connection performance evaluation for renewable plants
• Condition monitoring of rail transit power systems
• Energy consumption analysis for smart manufacturing
• Dynamic characteristic research in power system laboratories

（中英文合计约620字）