【台湾泰仕PROVA11微电流交直流钳表 产品介绍】

泰仕PROVA11是一款专为精准测量微小交直流电流而设计的高性能钳形表，适用于工业检测、设备维护、新能源系统监测及科研实验等领域。其创新设计兼顾便携性与功能性，可满足复杂环境下的多样化测量需求。

核心功能方面，PROVA11采用高灵敏度霍尔传感器技术，支持0.1mA至200A的宽量程交直流电流测量，分辨率达0.1mA，尤其擅长检测低至毫安级的微弱电流信号。标配40mm开口钳头可轻松夹持线缆，非接触式测量有效保障操作安全。设备配备6000计数液晶显示屏，支持数据保持、相对值测量和自动量程切换功能，直观显示电流波形与数值变化。

技术参数上，交直流电压测量范围覆盖0.1V至600V，基本精度达到±1.5%+5dgt，采样速率2次/秒。配备低通滤波功能，可有效抑制高频干扰信号。坚固的ABS外壳符合人体工学设计，防护等级满足日常工业环境要求。内置双节AAA电池提供长达200小时续航，搭配自动关机功能延长使用周期。

应用场景涵盖光伏系统漏电流检测、精密仪器功耗分析、工业设备待机电流监测、新能源汽车电路诊断等领域。其微电流检测能力特别适合识别设备待机能耗异常、线路绝缘劣化等潜在问题，帮助用户实现能源效率优化与设备预防性维护。

产品优势体现在三个方面：1）高灵敏传感器与抗干扰电路设计，确保微小电流信号的稳定捕捉；2）紧凑型机身（215×70×38mm）与背光显示提升现场操作便利性；3）双层绝缘结构配合防摔设计增强设备耐用性。通过优化测量算法，设备在-10℃至50℃宽温域范围内保持可靠性能。

【TESPRO PROVA11 Micro-current AC/DC Clamp Meter Introduction】

The TESPRO PROVA11 is a high-performance clamp meter specifically designed for precise measurement of micro AC/DC currents, ideal for industrial inspections, equipment maintenance, renewable energy system monitoring, and scientific research. Combining portability with advanced functionality, it delivers reliable performance in complex working environments.

Equipped with high-sensitivity Hall sensor technology, the PROVA11 covers a wide measurement range from 0.1mA to 200A for both AC and DC currents, achieving 0.1mA resolution. Its 40mm jaw allows non-intrusive current detection on live conductors up to Φ15mm, ensuring operational safety. The 6000-count LCD display with bargraph visualization provides real-time current waveform monitoring, complemented by practical functions like data hold, relative measurement, and auto-ranging.

Technical specifications include AC/DC voltage measurement from 0.1V to 600V, basic accuracy of ±1.5%+5dgt, and 2 times/sec sampling rate. The low-pass filter effectively eliminates high-frequency interference. The ergonomic ABS housing with dual-layer insulation ensures durability in industrial environments, while dual AAA batteries support 200 hours of continuous operation with auto power-off function.

This instrument excels in multiple applications: detecting leakage currents in photovoltaic systems, analyzing power consumption of precision instruments, monitoring standby currents in industrial equipment, and diagnosing circuits in new energy vehicles. Its micro-current detection capability effectively identifies energy waste in standby modes and early-stage insulation degradation.

Key advantages include: 1) Optimized sensing technology for stable capture of weak current signals 2) Compact dimensions (215×70×38mm) with backlit display enhancing field usability 3) Drop-resistant structure with reinforced insulation improving long-term reliability. Advanced algorithms maintain measurement consistency across -10℃ to 50℃ temperature range, making it a versatile tool for energy management and predictive maintenance.