托莱斯科技经济型土壤水分传感器技术说明书

土壤水分传感器的功能和常用的仪器下载提示：该文档是本店铺精心编制而成的，希望大家下载后，能够帮助大家解决实际问题。

文档下载后可定制修改，请根据实际需要进行调整和使用，谢谢!本店铺为大家提供各种类型的实用资料，如教育随笔、日记赏析、句子摘抄、古诗大全、经典美文、话题作文、工作总结、词语解析、文案摘录、其他资料等等，想了解不同资料格式和写法，敬请关注!Download tips: This document is carefully compiled by this editor. I hope that after you download it, it can help you solve practical problems. The document can be customized and modified after downloading, please adjust and use it according to actual needs, thank you! In addition, this shop provides you with various types of practical materials, such as educational essays, diary appreciation, sentence excerpts, ancient poems, classic articles, topic composition, work summary, word parsing, copy excerpts, other materials and so on, want to know different data formats and writing methods, please pay attention!土壤水分传感器的功能和常用的仪器1. 引言土壤水分传感器是一种用于监测土壤水分含量的仪器设备，对于农业生产、环境监测等领域具有重要意义。

管式土壤水分监测仪用户手册目录1.产品简介.....................................................................................................错误！未定义书签。

1.1产品概述 (3)1.2产品特点 (4)1.3技术参数 (4)1.4产品选型 (4)2.设备安装说明 (5)2.1设备尺寸与检测高度 (5)2.2设备安装前检查 (5)2.2.1安装位置选择 (6)2.3安装方式 (6)2.3产品接线说明 (8)3.配置软件安装及使用 (8)4.通信协议 (9)5.联系方式.....................................................................................................错误！未定义书签。

6.文档历史.....................................................................................................错误！未定义书签。

1.1产品概述土壤水分传感器工作原理DGTR-T 自动土壤水分观测仪采用的土壤水分传感器基于频域反射法（Frequency Domain Reflectometry ）原理，简称FDR 法。

土壤水分传感器主要由一对圆形金属环组成一个电容，其间的土壤充当电介质，电容与振荡器组成一个调谐电路，传感器电容量与两极间被测介质的介电常数成正比关系。

由于水的介电常数比一般介质的介电常数要大得多，所以当土壤中的水分增加时，其介电常数相应增大，测量时传感器给出的电容值也随之上升，相应的，传感器的测量频率也会发生变化。

利用土壤水分传感器在不同土壤含水量中的频率SF （scaled frequency 归一化频率）变化来测量土壤体积含水量(θV )，两者的关系可以用公式θV =a*SF b 表述，其中a 和b 为参数。

土壤盐分电导率传感器（EC值）技术说明书
TS-TYF新一代土壤盐分电导率（土壤EC传感器）一体化传感器吸取了国外同类仪器的先进技术，结合我国的情况和使用要求研制而成。

一、功能特点
1、具备土壤盐分、电导率同时检测功能；
2、结构简单、性能稳定、操作方便；
3、采用先进的石墨电极技术，直接埋入土中，免维护；
4、集成度高、体积小、功耗低、携带方便；
5、真正实现低成本、低价格、高性能；
6、寿命长、便利性、高可靠性；
7、支持二次开发；
二、技术参数
1、测量范围：0～8000mg/L
2、分辨率：1mg/L
3、准确度：0~1000mg/L，＜+9%
4、1000~3000mg/L，＜+3%
5、3000~5000mg/L，＜+4%
6、5000~8000mg/L，<+2%
7、供电方式：DC 12V
8、输出形式：电压：0~2.5V
9、工作环境：温度：-10℃～60℃，湿度：0~100%RH。

蒸发传感器技术说明书
蒸发传感器是用于观测水面蒸发在不同时间上变化规律的仪器，可与蒸发桶使用以监测水面蒸发量。

此传感器是新一代高精度传感器，具有准确度、分辨率高等特点。

蒸发传感器的技术参数：
蒸发传感器是用于观测水面蒸发在不同时间上变化规律的仪器，可与蒸发桶使用以监测水面蒸发量。

此传感器是新一代高精度传感器，具有准确度、分辨率高等特点；
1、量程范围：0～1000mm
2、准确度：±0.5%（0～+50℃）
3、分辨率： 0.1mm
4、供电方式：DC12V
5、输出形式：0～5V
6、负载电阻：电压型：RL≥1K
7、电流型：RL≤600Ω
8、工作温度：-20℃～85℃
9、相对湿度：100%。

森林火险气象监测站技术说明书
森林火灾是森林生态系统的大敌，它能在很短时间内，烧毁大面积的森林和大量的林副产品，破坏林分结构和森林环境，破坏自然界生态平衡，造成气候失调，水土流失，河流淤塞，洪水泛滥或水源枯竭。

森林火险气象监测站一般是通过监测容易发生森林火灾区域的风速风向、空气的温度、相对湿度、太阳辐射等气象因子，可以对预防森林大火的发生，在发生大火时也可以指导工作人员进行快速合理的灭火工作，使人民的财产损失降到最低点。

森林火险气象监测站的功能特点：
1、采集器：采用工业级处理芯片，搭配ABS外壳，整体轻便、坚固美观。

具备192*64全点阵液晶显示，可完成图形显示或12*4个汉字显示（可选配7寸液晶显示屏幕），适用于各种恶劣环境。

2、具有外部U盘存储扩展功能。

3、传感器：环境温度、湿度、风速、风向、气压、土壤温度、土壤湿度传感器、雨量传感器、总辐射传感器等各种气象要素传感器（可根据需求选配）。

4、支架：主杆表面采用热镀锌、静电喷塑工艺处理，抗腐蚀、抗氧化性强，主杆高度3.5米，配备防风拉索。

5、气象数据分析软件1套:
数据查询功能：支持任意时间段的各类实时数据、历史数据的查询、导出、打印功能。

数据统计功能：支持单要素统计功能：可按年、月、日、小时、10分钟或任意时间段进行单要素最大值、最小值、平均值的统计。

数据图表功能：根据采集的数据可以形成实时曲线，并可以以柱形图、饼状图等直观的方式呈现。

PM2.5/PM10二合一传感器技术说明书
PM2.5/PM10二合一传感器（变送器）是一款基于激光散射原理的数字式通用颗粒物浓度传感器，可连续采集并计算单位体积内空气中不同粒径的悬浮颗粒物个数，即颗粒物浓度分布，进而换算成为质量浓度，并以通用数字接口形式输出。

本传感器可嵌入各种与空气中悬浮颗粒物浓度相关的仪器仪表或环境改善设备，为其提供及时准确的浓度数据。

PM2.5/PM10二合一传感器的技术参数：
1、PM10:量程范围：0～2000ug/m3
2、准确度：±10%
3、分辨率：1 ug/m3
4、PM2.5:量程范围：0～1000ug/m3
5、准确度：±10%
6、分辨率：1 ug/m3。

土壤水分传感器设计实例-概述说明以及解释1.引言1.1 概述土壤水分传感器是一种用于监测土壤中水分含量的设备，可以帮助农民和园艺爱好者更好地管理作物的灌溉，从而提高农作物的产量和质量。

本文将介绍土壤水分传感器的重要性、设计原理以及设计实例分析，希望能为读者提供一个全面的认识和了解。

通过本文的学习，读者可以对土壤水分传感器有一个更加具体和深入的认识，并且将其应用于实际生产中去。

"1.2 文章结构: 本文分为引言、正文和结论三个部分。

在引言部分，将对土壤水分传感器的重要性进行概述，并介绍本文的结构和目的。

在正文部分，将详细介绍土壤水分传感器的重要性、设计原理以及一个实例分析。

最后，在结论部分，将对本文进行总结，并探讨该设计在实际应用中的潜在价值和未来的发展方向。

"1.3 目的目的部分的内容：本文旨在介绍土壤水分传感器的设计实例，通过对土壤水分传感器重要性、设计原理和实例分析的探讨，旨在帮助读者了解土壤水分传感器的工作原理和设计方法。

同时，也希望通过本文的阐述，能够为土壤水分传感器的应用提供一些参考和指导。

通过深入探讨土壤水分传感器的设计实例，本文旨在促进土壤水分监测技术的发展和应用，提高农业生产效率和土壤水分管理水平。

2.正文2.1 土壤水分传感器的重要性土壤水分传感器是农业生产中不可或缺的重要物联网设备。

它可以用来实时监测土壤中的水分含量，为农民提供科学的灌溉建议，帮助他们合理利用水资源，提高农作物的产量和质量。

传感器所测得的数据能够直接影响到作物的生长和发育，因此土壤水分传感器对于农业生产的创新和可持续发展具有重要意义。

通过实时监测土壤水分含量，农民可以根据实际情况对灌溉进行精细化管理，避免因过量或不足的灌溉而导致土壤盐碱化、根系窒息等问题的发生。

此外，合理的灌溉管理还能够减少浪费的水资源，降低灌溉成本，提高农作物的抗旱能力，为农业生产带来可观的经济收益。

除此之外，土壤水分传感器还可以帮助农民监测土壤中的盐分含量和重金属污染情况，及时发现土壤环境的变化，保护土壤生态系统，维护农田的生态平衡，确保农产品的质量和安全。

土壤水分计使用说明书一、产品介绍土壤水分计是一种专门用于测量土壤水分含量的仪器。

它采用先进的传感技术，能够准确、快速地检测土壤中的水分含量。

通过使用土壤水分计，您可以及时了解土壤中的水分状况，有针对性地进行灌溉和管理，提高作物生长的效益。

二、产品外观与组成1. 外观：土壤水分计外观整体简洁、美观，手持式设计，便于携带和操作。

2. 组成：土壤水分计主要由探头、显示屏、操作按钮和电源开关等组成。

三、使用前的准备工作在开始使用土壤水分计之前，请确认以下事项：1. 电池：确保土壤水分计内置的电池电量充足，必要时更换电池。

2. 清洁：使用清洁柔软的布擦拭土壤水分计的外壳和探头，确保没有灰尘或杂质。

3. 探头检查：检查探头是否完好无损，如有损坏请及时更换。

四、仪器操作步骤1. 打开电源：将土壤水分计顶部的电源开关拨至开启位置，仪器即开始启动。

2. 插入土壤：将土壤水分计的探头轻轻插入待测土壤中，确保插入深度适当。

3. 开始测量：按下显示屏上的测量按钮，土壤水分计即开始进行测量，测量结果将即时显示在屏幕上。

4. 结果获取：待测量值稳定后，读取屏幕上显示的水分含量数值。

如果需要记录，请按保存按钮将结果存储。

五、使用注意事项1. 使用环境：土壤水分计适用于室内和室外环境的土壤水分测量，但请避免在极端温度和湿度条件下使用。

2. 插入深度：插入土壤水分计探头的深度应根据具体实际情况来调整，确保测量准确性。

3. 清洁保养：使用完毕后，请将土壤水分计探头擦拭干净，并保持干燥。

4. 存储条件：请将土壤水分计存放在干燥、通风的地方，避免长时间暴露于阳光下。

5. 电池更换：当土壤水分计电池电量不足时，请及时更换新电池，以确保正常使用。

六、故障排除在使用土壤水分计过程中，可能会遇到以下故障情况及解决方法：1. 仪器无法开启：检查电池是否充足，如不足请更换新电池。

2. 测量结果不准确：确认探头是否完好无损，插入深度是否合适，并重新进行测量。

光合有效辐射智能传感器技术说明书
光合有效辐射表（光合作用传感器）是一款用于测量400～700nm波长范围内自然光的光合有效辐射产品，使用简单，可直接与数字电压表或数据采集器相连，并可全天候使用。

光合有效辐射智能传感器的功能特点：
（1）符合WMO世界气象组织规范（CIMO Guide）
（2）适用于各种恶劣环境
（3）稳定性好
（4）无源精确测量
（5）灵敏度高
（6）使用方便，免维护
光合有效辐射智能传感器的工作原理：
光合有效辐射表采用硅光探测器，通过一个400～700nm的光学滤光器，当有光照时，产生一个与入射辐射强度成正比的电压信号，并且其灵敏度与入射光的直射角度的余弦成正比。

每台光合有效辐射表都给出各自的灵敏度，并可以直接读出单位为μmol/m2·s 的测量数值。

光合有效辐射智能传感器的技术参数：
光合有效辐射表又称光量子数，主要用于测量400～700nm波长范围内的自然光的光合有效辐射，体积小巧，运用方便；
1、光谱范围：400～700nm
2、量程： 0～2000?molm-2?s-1、0～2000 W/m2
3、供电方式：DC5V
4、输出形式：0~2.5V
5、响应时间：约1s（99%）
6、温度相关：最大0.05%/℃
7、余弦校正：上至80°入射角
8、工作温度：-40°至65°
9、相对湿度：0～100%
10、灵敏度：5～50v/Min/s
11、内阻：＜2K。

土壤型温湿度传感器说明书_ 相对湿度和温度测量_ 兼有露点_ 全部校准，数字输出，_ 卓越的长期稳定性_ 防水封装，可用于土壤测量_ 超低能耗产品概述数字温湿度传感器系列中土壤型专用传感器，它把传感元件和信号处理集成起来，输出全标定的数字信号。

产品具有极高的可靠性与卓越的长期稳定性。

传感器包括一个电容性聚合体测湿敏感元件、一个用能隙材料制成的测温元件，并在同一芯片上，与14 位的A/D 转换器以及串行接口电路实现无缝连接。

因此，该产品具有品质卓越、超快响应、抗干扰能力强、极高的性价比等优点。

每个传感器芯片都在极为精确的湿度腔室中进行标定，校准系数以程序形式储存在OTP 内存中，在标定的过程中使用。

传感器在检测信号的处理过程中要调用这些校准系数。

两线制的串行接口与内部的电压调整，使外围系统集成变得快速而简单。

微小的体积极低的功耗，使SS2005成为各类应用的首选。

土壤专用传感器提供4 脚引线封装，且传感器与引线之间采用接插件形式，易于更换与替换。

接口说明：技术参数：传感器外形尺寸：SHT系列传感器性能说明图 2 25℃时传感器的最大相对湿度误差图3 最大温度误差电气特性：1 默认测量分辨率为温度14 位，湿度12 位。

通过状态寄存器可分别降至12 位和8 位2 在出厂质量检验时，每支传感器都在25℃（77℉）和3.3V 条件下测试并且完全符合精度指标。

该精度值不包括滞后与非线性。

3 在25℃和1m/s 气流的条件下，达到一阶响应63%所需要的时间。

4 在挥发性有机混合物中数值可能会高一些。

见说明书1.3。

5 在VDD=5.5V 和25℃的条件下，每秒进行一次12 位精度测量的平均值。

6 响应时间取决于传感器表面的热容和热阻。

使用指南1. 应用信息1.1 工作条件传感器在建议的工作条件下性能正常，请参阅图4。

超出建议的工作范围可能导致信号暂时性漂移（60 小时后漂移+3%RH）。

当恢复到正常工作条件后，传感器会缓慢自恢复到校正状态。

土壤电导率变送器STESTM-YM220说明书测量参数盐分量程：0～10mS/cm 精度：±5% 分辨率：0.001mS/cm 输出信号：RS485 互换精度：< 1% 复测误差：< 1% 漂移：<1%/小时换算公式：数字量/=1000电路参数工作电压：12～24V (电压型)(建议使用电压型，电流型传感器温度补偿精度降低)输出阻抗：约10KΩ(采集器AD输入阻抗应>100MΩ)静态电流：低压型约 6mA，高压型约10mA响应时间：约3S数据刷新频率：≥3S/次 (频率自适应范围3-10秒，根据被测物质含水量自动调节)使用寿命：＞5000小时(5mS/cm盐溶液中通电连续浸泡，电解产物Fe3+)工作温度：-10℃～60℃（全程温度补偿）物理参数探头类型：不锈钢电极(5针式)封装外壳：耐候ABS工程塑料/尼龙密封材料：环氧树脂(黑色阻燃)电缆长度：10米(三芯屏蔽)功能简介1、基于电化学分析的电导率测量方法，自带介电原理土壤湿度传感器及LPTC温度传感器。

2、当测量类型为土壤盐分(EC)时，使用温湿补偿型电极。

该电极具备结构简单、性能稳定、响应速度快、受土壤湿度影响较小等优点，是观测和研究盐渍土及水盐动态的重要工具。

3、使用高性能处理器，针对每个探头进行单独标定。

用户只需通过简单的电压、电流采集即可得到被测土壤或溶液的电导率信息，一般无须进行二次标定。

4、采用线性传感器器件以及数字补偿方式，精度较高，温度、湿度可单独输出。

5、采用功耗管理策略，在降低功耗的同时加强对探头电极的保护，使电极的极化现象放缓，有效延长探头使用寿命。

(针对电压输出型可提供低功耗解决方案)6、可定制RS485数字输出方式，支持MODBUS标准指令(04号读寄存器指令)。

7、具备电源线、地线、信号线三向保护功能，可防护因反接、短路等造成的损毁。

引线定义电源正(12-24V)：红线电源地(信号地)：黑线 RS485-/A：黄线 RS485+/B：绿线通讯指令04号ModBus指令起始地址1站号2，示例：02 04 00 01 00 01 60 39数据长度1（2字节）注意事项1、不锈钢电极传感器仅适用于土壤直接测量(不可测溶液)，且尽量保证土壤含水率为饱和。

土壤水分温度传感器的功能介绍通过使用模块化的气体质量流量传感器与压力传感器，麻醉设备和呼吸机厂商能够简化制造、维护和产品使用培训。

为传感设备构建平台化方式，创建了数千种选项，不但可快速充足各种封装类型、产品外形和尺寸的需要，还实现了设计者在整个产品线使用相同的传感器设计的想法。

举例来说，设计新生儿和成人呼吸机，便可使用相同的传感器，它们之间的*区分在于校准。

各种类型呼吸设备的设计都面临一个共同的重点挑战，即使用来自不同厂商的气泵。

这意味着每件设备在相同的输出设置下，其实际输出都将有所偏差，因此需要快捷的传感器功能。

另外，设计也会互有差异，其气流通道的尺寸和长度会有所不同，这会影响封装要求和感应气流的方式。

霍尼韦尔TruStabilityHSC/SSC26PC液体介质兼容传感器，允许客户使用传感器的一个端口接触凝露环境或去离子水等非腐蚀性液体介质，免去了为保护传感器不受此类介质侵蚀而造成的额外本钱。

麻醉设备用于向患者施用麻醉药物，使患者在药物生效后，感受不到医学临床操作的不适，削减或除去痛感。

麻醉设备使用的气体质量流量传感器必须能测量空气、氧气和氧化亚氮气流的流量，以确保正确的给气量。

呼吸机可将空气与氧气的混合物送入和抽离患者的肺部，以帮助他们呼吸。

因此，在呼吸机中使用的气体质量流量传感器不但需要能精准测量空气和氧气气流，还要能便于操作人员进行校准，从而保证供给正确的供氧量，而且具备可在供给流速的条件下进行调整或校准。

正是由于有了可测量宽气流范围的气体质量流量传感器的显现，设计者便可以选择优化应用整体性能的零部件。

通过搭积木的方式，我们可以通过软件实行微调校准，因此设计人员能够针对实在设计修改气流测量范围。

这一点特别紧要，由于像呼吸机这样的呼吸设备常常使用多个气体质量流量传感器，以针对不同功能要求供给特定气流范围和灵敏度。

在麻醉设备中使用电路板安装型和不锈钢介质隔离型压力传感器同样可以实现快捷测量空气和氧气压力。

TRS-1 土壤水分传感器⊙技术参数◆测量参数：土壤容积含水率◆单位：%( m3/m3)◆量程：0～100%◆探针长度：5.3cm◆探针直径：3mm◆探针材料：不锈钢◆密封材料：环氧树脂◆测量精度：±3%◆工作温度范围：-40℃～85℃◆工作电压：7～24V（电压型） 7～24V（电流型）◆工作电流：25～35mA，典型值28mA（电压型）◆测量主频：100Ｍhz◆输出信号：电压型0～1.875V DC电流型0～20mA 直流◆测量稳定时间：2秒◆响应时间：＜1秒◆测量区域：以中央探针为中心，围绕中央探针的直径7cm、高7cm的圆柱体◆电缆长度：1.5米 (标配)⊙外型规格TRS-1⊙功能及特点（1）本传感器体积小巧化设计，携带方便，安装、操作及维护简单。

（2）结构设计合理，不绣钢探针保证使用寿命。

（3）外部以环氧树脂纯胶体封装，密封性好，可直接埋入土壤中使用，且不受腐蚀。

（4）土质影响较小，应用地区广泛。

（5）测量精度高，性能可靠，确保正常工作。

（6）响应速度快，数据传输效率高。

⊙适用范围适用于节水农业灌溉、温室大棚蔬菜、花卉园艺、草地牧场、土壤速测、植物培养、科学试验等领域。

⊙安装及操作方法1.线色说明（请认真查看您所购买的线色，然后依据下表进行接线）红线电源输入黄线电压型号/电流信号蓝黑线地线或者：棕线电源输入蓝线电压型号/电流信号灰黑线地线附：单通道湿度传感器接线示意图：2.操作说明（1）传感器有两种插用方法：①传感器竖插使用（见下图1）：将传感器垂直90度插入被测土壤中，插入时请勿摇晃传感器，以防传感器探针被压弯，损坏探针。

②多路传感器平插使用（见下图2）：将传感器平行插入被测土壤中。

此方法用于多层土壤水分检测，插入时请勿摇晃传感器，以防传感器探针被压弯，损坏钢针。

（2）当感觉被测土壤里有硬块或异物时，请重新选择被测土壤位置，或将当前土壤中的硬块去除，然后再继续检测。

（3）操作注意事项：①测量前应选择密度均匀的土壤作为被测对象②请勿将传感器探针插入硬土块中，防止探针损坏③不可直接拽拉电缆将传感器移出土壤，用手握住环氧树脂外包装被测土壤④使用完毕后，用毛刷扫除探针上的土尘，并用柔软的布擦干探针，保护湿度探头干净，增加使用寿命（图）⊙TRS-1湿度传感器通用校正方法（一）土壤湿度的测量与土壤的酸碱度、土壤的密度、土壤的土质有关，但差距不是很大，如果要进行精确测量，需要针对不同的土壤(酸碱度，密度，土质其中任意一项不相同时)进行单独的标定。

1 “To Measure Is To Know”FieldScout® TDR 250 Soil Moisture MeterProduct Manual**********************800.248.8873Item #62502GENERAL OVERVIEWThank you for purchasing a FieldScout TDR 250 Soil Moisture Meter. This manual describes the meter’s general features and operations.Soil moisture is a critical, and potentially highly valuable component of the soil environment. Time domain reflectometry (TDR) is a proven technology for quickly and accurately determining volumetric water content (VWC) in soil. Electrical conductivity (EC) is a function of the moisture and salt in the soil and can be factored out to increase the accuracy of VWC measurements. The meter also measures soil surface temperature. The user can quickly transition between taking VWC readings in standard, high-clay or sand based soils.The TDR 250’s shaft-mounted probe allows the user to take measurements while standing. The meter’s built-in data logger eliminates the need to record data manually. Measurements can be saved to a USB flash drive using the built-in USB port.Includes the Following Components:• TDR 250 Meter • 4 AA Batteries (already installed)Note: TDR rods are sold separatelyTABLE OF CONTENTS General Overview.................................................Product Details.....................................................Operation..............................................................Data Logging & Measurements.........................Maintenance........................................................Updating & Calibration.......................................This manual will familiarize you with the features and operation of your new FieldScout TDR 250 Soil Moisture Meter. Please read this manual thoroughly before launching the unit.For customer support or to place an order, call Spectrum T echnologies, Inc. at 800-248-8873 or 815-436-4440, FAX at 815-436-4460,*****************************. Spectrum T echnologies, Inc.3600 Thayer Court Aurora, IL 6050423-56-77-88-99-103PRODUCT DETAILSSpecificationsProduct Dimensions Characteristic Power Weight Log Capacity Display IP Rating Description4 AA Batteries (included)3.75 lb (8.27 kg)Up to 124,000 MeasurementsBacklit, High-Contrast, Graphic LCDDisplay: IP53, Probe: IP67Connectivity Measurement Units Resolution, Accuracy & Range Available Rod Dimensions USB Type A% Volumetric Water Content (VWC)Period (raw sensor reading)VWC: 0.1% increment ± 3.0% @ <2 mS/cm 0% to Saturation (Saturation is typically around 50% volumetric water)Turf................... 1.5" (3.8cm)Short................ 3.0" (7.6cm)Medium........... 4.8" (12.2cm)Long................. 8.0" (20.32cm)Diameter......... 0.2" (0.5cm)Spacing............ 1.25" (3.18cm)4Display Screens The TDR 250 has 3 main display screens:• Startup • Reading • Settings MenuStartup Information Screen Initially displayed after powered on • Displays model, serial number and firmware version • Press and hold ON/OFF|BACK button remain on this screenReading Screen Displays the last measurements of VWC, EC in milliSiemens/cm and temperature with rod type, selected soil type and a reading count with running average. VWC=0% readings will be displayed but will not increased the counter or be included in the average.Settings Menu Screen Used for changing device features, setting rod length and working with log files Use the arrow buttons to move to the desired option The Select button toggles through option choicesClear Average*: Clears the display average and count Note: Same as pressing and holding the READ|Down arrow buttonRod Length : Select the Rod lengthSoil Type : Selects soil type used in measurements:• Standard: for most soil types • Hi-Clay: for soils with higher clay content (> 27%)• Sand: for sand based fields or turf greensClear Logs*: Erases data logs from internal memorySave to USB*: Transfers data logs to a USB flash drive if attachedBacklight : Sets the LCD backlight: ON, OFF, AUTO. In AUTO mode, the backlight will shut off 5 seconds after button press Sound : Enable or disable beep for audible feedbackMoisture Type : • VWC%: Volumetric Water Content with EC compensation • Period: Raw sensor reading in microseconds (US)• TDR 300: VWC% without EC compensationAuto-Off : Power off delay (15, 30, 45, 60 minutes)Current Date, Current Time : Set/display the current time and date valuesTime Zone: Offset from Greenwich Mean Time, as the offset changes, the Time and Date will update5Daylight Savings : ON or OFFCalibration*: Overrides factory calibrationClear User Calibration : Clears the user applied calibration back to factory settingsFactory Defaults*: Resets menu settings and counter to the factory default value*Pressing Select button for these options brings up additional screenAbout : Displays general information (model and serial number, firmware versions for display and sensor)Defaults :Optional Accessories There are two optional items that can be used to expand the capabilities of the TDR250. Visit for more information and installation instructions.TDR Spacer (Item 6435SP)• Placed on the end of the sensor block to aid in identification of how fast and firm the turf greens are. The spacer hastwo orientations allowing it to work for either desired depth• Requires 1.5" (3.8cm) turf rods • Allows for the measurements of 0.5" (1.3cm) or 1.0" (2.5cm) soil depthsPilot Hole Maker (Item 6430PH)If the ground is especially hard or compact, you can use a Pilot Hole maker to make 3" holes to aid in starting the insertion of the probe rods.Rod Length Soil Type Sound Backlight Moisture Type EC Units Not Set Standard ON Disabled VWCmS/cmAuto-Off Time Zone 15 minutesGMT6OPERATIONSButton FunctionsSetting Date/Time The Date and Time are displayed in the Settings Menu.Note: When the batteries are removed, the date and time are resetUpdating the Date and Time 1. Press the MENU|SELECT button to enter the Settings Menu 2. Press the UP /DOWN arrow to navigate to either the Current Date or Current Time option 3. Press the MENU|SELECT button to access the Time/Date update screen 4. Press the DELETE|UP button to set the date and time. The current time for the timezone setting will be displayed 5. Use the UP /DOWN arrow to adjust the highlighted selection 6. Press the MENU|SELECT button to confirm the change and proceed to the next selection 7. After pressing the MENU|SELECT button to set the minutes, the display will return to the Reading screen 8. Press the ON/OFF|BACKbutton to return to the Settings Menu without making any changeON/OFF|BACK Button • Press briefly to power on • Press and hold to power on and stay on the logo screen • Press and hold for 2 seconds to power off • Press within a menu to return to prior screenMENU |SELECT Button • Press to enter menus • Press to select or confirm a menu selectionDELETE |UP Button • Press to move up within a menu • Delete last measurement from the running average, counter and its entry from the internal data logREAD |DOWN Button • Press to move down within a menu • Press READ to take a reading • Press and hold to reset the average and count2507Meter OperationsHandlebars AttachedSetting Up the Meter 1. Slide the lock washers onto the threaded ends of the handle bars2. Install the two cushion grip handles and tighten securely3. Pull the battery transport tab out of the display unit4. Select a set of probe rods and screw them to the bottom of the probe block, tightening securely.5. Set the desired user settings in the settings menuTaking Readings 1. Grip the TDR handles to the left and right of the display 2. Push down on the handles maintaining a steady downward pressure to drive the rods into the soil until the sensor base is in contact with the soil surface. Refrain from any back and forth or side to side movement which can introduce air pockets into the soil medium which will alter the reading accuracyCaution: Exercise care not to bend or damage the rods 3. Press the READ button and observe the change in results on the top displayDATA LOGGING & MEASUREMENTSData Logs Downloading Data Logs to a USB Flash Drive 1. Connect the flash drive directly to the meter’s USB portNote: Do not connect a USB cable as this may damage the TDR 2. Press the MENU|SELECTbutton to open the Settings Menu3. Press the READ|DOWN arrow button to advance to the Save to USB option4. Press the MENU|SELECT button to select the optionThe data will be saved as a comma-separated text file (.csv) with the serial number as the file name. These files can be opened with common text-editing or spreadsheet software. If a previous data file exists on the flash drive with the same file name, it will be over-writtten. Be sure to backup any existing data logs on the flash drive prior to saving a new file.Erasing the Internal Data Log 1. Press theMENU|SELECT button to open the Settings Menu2. Press the READ|DOWN arrow button to advance to the Clear Logs option3. Press the MENU|SELECT button to select the option4. Press the MENU|SELECT button again to start the process or the ON/OFF|BACK button to return back to the menuData CollectedThe following information is logged with each reading:Time VWC%Period Rod Length Soil Type VWC Mode Based on the GMT offset selected in the Time Zone optionVolumetric Water Content based on the Moisture Type setting -EC Compensated or “TDR 300” (without EC Compensation)Raw Period result (after any applied user calibration)Depicted as Long (L , 8"), Med (M , 4.8"), Short (S , 3"), Turf (T , 1.5"),0.5" Spacer (1), 1.0" Spacer (2)Depicted as Standard (S ), Hi-Clay (H ) or Sand (D )Depicted as EC Compensated (V ) orTDR 300/non-compensated (3)8VWC Measurements Volumetric Water Content (VWC)The ratio of the volume of water in a given volume of soil to the total soil volume expressed as a decimal or percentage. Four soil moisture levels of most importance can be defined as follows:Saturation: All soil pores are filled with water. The VWC will equal the percent pore space of the soil.Field Capacity: The condition that exists after a saturated soil is allowed to drain to a point where the pull of gravity is no longer able to remove any additional water.Permanent Wilting Point: The highest moisture content at which a plant can no longer extract water from the soil.Plant Available Water: the amount of water between Permanent Wilting Point and Field Capacity. Irrigation should be initiated when half the Plant Available Water has been depleted.Time Domain Reflectometry (TDR)The speed of an electromagnetic wave along a waveguide in soil is dependent on the bulk dielectric permittivity (ε) of the soil matrix. The fact that water (ε = 80) has a much greater dielectric constant than air (ε = 1) or soil solids (ε = 3-7) is exploited to determine the VWC of the soil. The VWC measured by the TDR is an average over the length of the waveguide.The sampling volume is an elliptical cylinder that extends approximately 3cm out from the rods. The high frequency signal information is then converted to volumetric water content. High amounts of clay or high electrical conductivity (EC > 2 mS/cm) will attenuate the high-frequency signal and affect the reading displayed by the meter. Very high organic matter content will similarly affect the VWC reading.MAINTENANCE Meter Care The FieldScout TDR meter will funtion properly under normal conditions experienced in field use. The sensor block is sealed and will not be damaged by immersion in water. The display is NOT waterproof. The meter should not be used during heavy rainfall or left exposed during irrigation events. If the display does get wet, it should be dried out immediately.Follow these tips to prolong the life of the device:• Store in a cool and dry place when not in use • Keep the meter and probe rods clean and dry in between uses • Remove the batteries if not used for an extended period of time (i.e. between seasons)Battery Life If the battery level is low or a battery is inserted incorrectly, the low battery icon appears on the screen and the display will power off. Battery life is affected by the enabled features and frequency of use. If not needed, the backlight can be disabled or set to AUTO mode which allows enough time to see new measurements and then will power down the backlight to prolong the battery life.Display and Sensor Separation 1. Remove the probe rods from the sensor base 2. Flip the display so the backing plate is facing up 3. Remove the 4 screws on the base using a Phillips screwdriver 4. Gently separate the display from the base plate Note: The sensor cable connected in the center has limited cable lengthBattery Replacement 1. Follow the steps above to access the batteries 2. Install four new AA batteries observing correct polarity by referencing the positive (+) and negative (-) labels 3.Follow the Display Installation steps to reinstall the display9Display Installation 1. Reconnect the sensor cable to the 3.5mm connector on the back of the display module if previously removed.2. Insert the foam spacer back behind the sensor cable if previously removed. The split end fits around the sensor cable molding.3. Guide the excess cable back down through the base plate.4. Align the arrows on the base and display in the same direction. The USB port should face the same side as the serial number label.5. Tighten the four mounting screws.UPDATING & CALIBRATIONUpdating Device Firmware Firmware updates may be made available to add or improve the product features. The firmware can be updated using a USB flash drive. Firmware update files can be found on the Spectrum website.1. Copy the latest firmware update from your PC onto the root directory of the flash drive. The file will not be seen by the meter if it is renamed or stored within a folder on the drive.2. Power off the meter3. Remove the protective cap from the meter’s USB port4. Insert the flash drive directly into the meter’s USB port. Do not connect a USB cable as this may damage the TDR.5. While pressing the DELETE|UP arrow button, press and release the ON/OFF|BACK button. The meter will beep briefly and the screen should stay blank.6. Release the buttonsNote: The display screen will remain blank during the update process. The meter will beep a second time once the process has completed and then reboot to the logo screen. The new firmware will now be displayed below the Spectrum logo.7. The display will alert the user if further updates are to be made and show a message when completed 8. Remove the flash drive and replace the USB port coverSoil-Specific Reading Correlation Improve accuracy and correlate TDR period readings with a soil-specific sample set. VWC data can be correlated by measuring the weight of a known volume of saturated soil as it is gradually dried, by gradually wetting a known soil with measured increments of water or by using a neutron probe. In most cases, gravimetric sampling is performed. This procedure is briefly described below.1. Establish a number of field sites to sample2. Wet each site with varying amounts of water3. Obtain FieldScout TDR period reading at each sample site4. Extract an undisturbed soil core at each sample site. Store samples in a sealed plastic container to reduce evaporation.5. Weigh the wet soil samples.6. Dry the samples (221oF/105oC for 48 hours) and weigh again.7. Plot sample measurements against FieldScout TDR readingsRegression analysis is used to develop a formula to correlate TDR reading to the sample data Volumetic Water Content Calculations : Where :VWC = 100*(M wet - M dry )/(p w *V tot ) M wet M dry = mass (g) of wet and dry soil repectivelyGravimetric Water Constant Calculations : V tot = total soil volume (ml)VWC = GWC*(p b /p w ) p w = density of water (1 g/ml)GWC = 100*(M wet - M dry )/M dryp b = M dry /V tot10Calibration The FieldScout TDR is fully calibrated at the factory. Further calibration is not required, nor recommended. The meter has internal calibrations that will work for many soil types. Each meter will have a small difference in how it responds to identical soil conditions. This can be due to air being introduced while measuring, bent probes, loose probes, sensor drift or component tolerances. The meter allows for adjustments to the calibration to account for these differences. Should the user prefer to perform the calibration, the following are required:1. A clean glass or plastic container. The container must be at least 4" (10cm) wide and 2" (5.08cm) longer than the length of the TDR rods.2. A sufficient volume of unused distilled or de-ionized water to fill the above container Note: Well or municipal tap water cannot be substituted.Procedure:1. Pour all the distilled/de-ionized water into the container Note: The water and container must be free of minerals and salts to calibrate properly 2. From the Settings Menu, set the rod length to the correct length of the rods currently installed 3. From the Settings Menu, choose the Calibration option 4. Press the MENU|SELECT button to initiate the calibration process. Follow the display messages.5. While keeping objects and personnel clear from the area; raise the meter so the rods are in the air. Press the MENU|SELECT button and wait until the meter indicates it is ready.6. Immerse the rods completely in the distilled/de-ionized water until the sensor base is in contact with the liquid. Keep the sensor base and rods centered in the container. Do not submerge the sensor base.7. Press the MENU|SELECT button and wait until the meter indicates it is ready. The meter will then show that the calibration is complete for that specific rod length. If more than one rod size is being used, a calibration operation must be done for each rod length used.Troubleshooting Verifying Operation:The meter should read a measurement of 0% VWC with clean rods raised in the air. T est measurements should be made using distilled water, not wall or municipal tap water, in a container at least 4" (10cm) wide and deep enough to submerge the full length of the sensor rods up to the sensor base. Measurements in water will not read 100% as the equations were set for typical water content of the soil type used.Typical VWC range in water using VWC% mode and standard settings:Unable to save data to or load firmware from a USB flash drive :Confirm the drive is not full or write protected. Verify the drive has FAT or FAT32 format. Firmware should be in the root directory, outside of any folders.“Sensor Not Detected” appears on the display :Communication lost between the sensor and display. The connection may be dirty, unplugged, or broken. Check the cable condition, clean the connection and reset. Power the meter off and then back on to reset.“No Sensor” appears on the display :Sensor unplugged from the display. Be sure to keep the foam insert behind the cable to retain the cable during batterychanges. Reconnect the sensor, power the meter off and then back on to reset.Rod LengthVWC %8" (20.3cm)60 - 65 4.8" (12.2cm)70 - 753" (7.6cm)75 - 80 1.5" (3.8cm)65 - 7011WARRANTY This product is warranted to be free from defects in material or workmanship for one year from the date of purchase. During the warranty period Spectrum will, at its option, either repair or replace products that prove to be defective. This warranty does not cover damage due to improper installation or use, lightning, negligence, accident, unauthorized modifications, or to incidental or consequential damages beyond the Spectrum product. Before returning a failed unit, you must obtain a Returned Materials Authorization (RMA) from Spectrum. Spectrum is not responsible for any package that is returned without a valid RMA number or for the loss of the package by any shipping company.Form 132 (23-124)Rev. A 07/2023Spectrum and FieldScout are registered trademarks of Spectrum T echnologies, Inc.3600 Thayer Court Aurora, IL 60504800.248.8873。