【产品中文介绍】

FM-QW红外传输实验仪是一款专为科研实验与教学实践设计的高性能红外信号传输设备。该产品采用创新的模块化架构，通过集成化设计实现光信号与电信号的高效转换，为光学通信、物联网技术、智能控制等领域的实验研究提供可靠的技术支持。其核心功能聚焦于红外波段的信号传输特性分析，可满足多场景下的实验需求，帮助用户深入理解无线通信技术的基础原理与应用拓展。

设备搭载高灵敏度红外收发模块，支持多种调制模式切换，能够在不同环境光干扰条件下保持稳定的信号传输性能。实验平台兼容开放式编程接口，用户可根据需求自定义信号编码规则与传输协议，灵活适配各类创新实验方案。为提升操作便捷性，仪器配备可视化控制面板与实时监测系统，支持传输距离、信号强度、误码率等关键参数的动态显示，便于实验数据的即时采集与分析。

在安全性能方面，产品严格遵循低功耗设计原则，所有工作参数均控制在人体安全范围内。设备支持多机联动组网，可通过级联扩展构建小型红外通信网络，为物联网系统搭建、智能家居控制等教学场景提供实践平台。其紧凑型机身采用工程防震结构，配合可拆卸式功能模块，既保证实验室环境下的长期稳定运行，又便于外出教学演示时的快速部署。

本产品广泛应用于高校电子信息实验室、科研院所创新项目以及企业技术研发中心，特别适用于《光通信原理》《无线传感技术》等专业课程的配套实验。通过丰富的实践场景设计，有效提升学生对物理层通信技术的认知深度，培养系统级工程思维能力。

【Product English Introduction】

The FM-QW Infrared Transmission Experiment System is a high-performance experimental apparatus specifically designed for scientific research and educational applications. Featuring an innovative modular architecture, this equipment integrates optoelectronic conversion technology to enable efficient analysis of infrared signal transmission characteristics, making it an ideal tool for exploring optical communication principles, IoT technologies, and intelligent control systems.

Equipped with a high-sensitivity transceiver module, the system supports multiple modulation modes selection and maintains reliable signal transmission stability under varying ambient light conditions. The open-programming interface allows users to customize signal encoding protocols and transmission parameters, providing exceptional flexibility for developing innovative experimental solutions. An intuitive control panel with real-time monitoring capabilities displays critical parameters including transmission distance, signal intensity, and bit error rate, facilitating instant data acquisition and analysis during experiments.

Engineered with safety-conscious design principles, the device operates within strict low-power consumption limits to ensure user safety. Its network-compatible architecture supports multi-unit interconnection, enabling the construction of small-scale infrared communication networks for practical demonstrations in IoT system design and smart home control scenarios. The compact chassis incorporates shock-resistant construction with detachable functional modules, ensuring long-term reliability in laboratory environments while maintaining portability for off-site educational activities.

This system finds extensive applications in university electronics laboratories, research institute innovation projects, and corporate R&D centers. Particularly suited for curriculum-aligned experiments in "Optical Communication Principles" and "Wireless Sensor Technologies," it provides students with hands-on experience in physical layer communication technologies. Through its versatile experimental configurations, the equipment effectively enhances understanding of signal propagation mechanisms and fosters systematic engineering problem-solving skills.

The FM-QW system emphasizes user-friendly operation through plug-and-play module connections and standardized interface design. With adjustable transmission power and configurable receiver sensitivity, it accommodates experimental requirements ranging from short-range device control to medium-distance data transmission studies. This adaptability makes it a valuable asset for both fundamental research and cutting-edge technological exploration in the field of wireless communication.