【TES-1339专业级照度计 产品说明】

TES-1339是一款由台湾泰仕公司研发的高性能光学测量仪器，专为精确采集光照强度数据而设计。其简洁的外观融合人体工学理念，机身采用轻量化ABS工程塑料材质，配合防滑纹理设计，单手持握时可实现舒适操控。设备正面搭载4位液晶显示屏，支持0.1lux分辨率显示，配合白色背光功能确保暗光环境下读数清晰可见。

本产品配备高灵敏度硅光二极管传感器，通过特殊滤光片修正实现近似人眼视觉的光谱响应曲线，可精准测量自然光及各类人造光源的照度值。测量范围覆盖0.1至200,000lux宽域区间，支持自动量程切换技术，无需手动调节即可快速适应不同光照环境。内置32组数据存储单元，配合数据保持（HOLD）功能，为复杂场景下的多位置对比测量提供便利。

在功能性设计方面，TES-1339创新性采用双模供电方案，既支持常规9V电池供电，也可通过外接适配器持续工作，满足实验室长期监测与户外移动测量的双重需求。测量探头采用可分离式结构设计，允许传感器与主机进行30cm延伸操作，便于在特殊空间内灵活调整测量角度。设备内置过载保护电路，当检测到超出量程的光照强度时可自动切断输入信号，有效延长核心元器件使用寿命。

该产品广泛应用于建筑照明设计、植物工厂光环境调控、博物馆展品养护、摄影布光优化等多个专业领域，其稳定的测量性能和便捷的操作特性，为光学环境分析提供可靠的数据支持。

【TES-1339 Professional Illuminance Meter Product Introduction】

The TES-1339 is a high-performance optical measuring instrument developed by TES Electrical Electronic Corp., designed for accurate collection of light intensity data. Its streamlined housing integrates ergonomic principles, constructed with lightweight ABS engineering plastic and non-slip texture patterns for comfortable single-handed operation. The front panel features a 4-digit LCD display with 0.1lux resolution, complemented by white backlight functionality to ensure clear visibility in low-light conditions.

Equipped with a high-sensitivity silicon photodiode sensor, the device utilizes specialized optical filters to achieve spectral response curves closely matching human visual perception, enabling precise measurement of both natural and artificial light sources. With an extensive measuring range from 0.1 to 200,000 lux, the auto-ranging technology automatically adapts to varying light intensities without manual adjustment. The built-in 32-data memory storage combined with Hold function facilitates multi-point comparative measurements in complex environments.

Innovative dual power supply design accommodates both standard 9V battery operation and external adaptor connection, supporting extended laboratory monitoring and mobile field measurements. The detachable probe design allows 30cm sensor extension from the main unit, enhancing measurement flexibility in confined spaces. An integrated overload protection circuit automatically cuts off input signals when detecting excessive light intensity, effectively prolonging core component lifespan.

This instrument serves multiple professional applications including architectural lighting design, plant factory light environment control, museum artifact preservation, and photographic lighting optimization. Its consistent measurement performance and user-friendly operation provide reliable data support for comprehensive optical environment analysis.