氨气NH3传感器

Ammonia Gas Sensor（Model：MQ137）ManualVersion: 1.4Valid from: 2015-03-10Zhengzhou Winsen Electronics Technology Co., LtdStatementThis manual copyright belongs Zhengzhou Winsen Electronics Technology Co., LTD. Without the written permission, any part of this manual shall not be copied, translated, stored in database or retrieval system, also can’t spread through electronic, copying, record ways.Thanks for purchasing our product. In order to let customers use it better and reduce the faults caused by misuse, please read the manual carefully and operate it correctly in accordance with the instructions. If users disobey the terms or remove, disassemble, change the components inside of the sensor, we shall not be responsible for the loss.The specific such as color, appearance, sizes &etc, please in kind prevail.We are devoting ourselves to products development and technical innovation, so we reserve the right to improve the products without notice. Please confirm it is the valid version before using this manual. At the same time, users’ comments on optimized using way are welcome.Please keep the manual properly, in order to get help if you have questions during the usage in the future.Zhengzhou Winsen Electronics Technology CO., LTDMQ137 Ammonia Gas SensorProfileSensitive material of MQ137 gas sensor is SnO 2, which with lower conductivity in clean air. When NH 3 gas exists, t he sensor’s conductivity gets higher along with the gas concentration rising. Users can convert the change of conductivity to correspond output signal of gas concentration through a simple circuit. MQ137 gas sensor has high sensitivity to NH 3 gas, also can monitor organic amine such as trimethylamine, cholamine well. It can detect kinds of gases including ammonia and is a kind of low-cost sensor for kinds of applications.FeaturesIt has good sensitivity to NH 3 gas in wide range, and has advantages such as long lifespan, low cost and simple drive circuit &etc.Main ApplicationsIt is widely used in domestic NH 3 gas alarm, industrial NH 3 gas leakage alarm, portable NH 3 gas detector.Technical Parameters table.1NOTE: The change of Output voltage(△Vs) is the difference value between V RL in test environment and V in clean air .Basic CircuitFig2. MQ137 Test CircuitInstructions: The above fig is the basic test circuit of MQ137.The sensorrequirestwo voltageinputs: heater voltage(V H ) and circuit voltage(V C ). V H is used to supply standard working temperature to the sensor and it can adopts DC or AC power, while V RL is the voltage of load resistance R L which is in series with sensor. Vc supplies the detect voltage to load resistance R Land it should adopts DC power.Description of Sensor CharactersNH3 AirCautions1 .Following conditions must be prohibited1.1 Exposed to organic silicon steamSensing material will lose sensitivity and never recover if the sensor absorbs organic silicon steam. Sensors must be avoid exposing to silicon bond, fixature, silicon latex, putty or plastic contain silicon environment. 1.2 High Corrosive gasIf the sensors are exposed to high concentration corrosive gas (such as H 2S, SO X , Cl 2, HCl etc.), it will not only result in corrosion of sensors structure, also it cause sincere sensitivity attenuation. 1.3 Alkali, Alkali metals salt, halogen pollutionThe sensors performance will be changed badly if sensors be sprayed polluted by alkali metals salt especially brine, or be exposed to halogen such as fluorine.1.4 Touch waterSensitivity of the sensors will be reduced when spattered or dipped in water. 1.5 FreezingDo avoid icing on sensor’s surface, otherwise sensing material will be broken and lost sensitivity. 1.6 Applied higher voltageApplied voltage on sensor should not be higher than stipulated value, even if the sensor is not physically damaged or broken, it causes down-line or heater damaged, and bring on sensors’ sensitivity characteristic changed badly.1.7 Voltage on wrong pinsFor 6 pins sensor, Pin 2&5 is heating electrodes, Pin (1,3)/(4,6) are testing electrodes (Pin 1 connects with Pin 3, while Pin 4 connects with Pin 6).If apply voltage on Pin 1&3 or 4&6, it will make lead broken; and no signal putout if apply on pins 2&4.Fig7. Lead sketch2 .Following conditions must be avoided 2.1 Water CondensationIndoor conditions, slight water condensation will influence sensors’ performance lightly. However, ifwater condensation on sensors surface and keep a certain period, sensors ’ sensitiv e will be decreased. 2.2 Used in high gas concentrationNo matter the sensor is electrified or not, if it is placed in high gas concentration for long time, sensorscharacteristic will be affected. If lighter gas sprays the sensor,it will cause extremely damage. 2.3 Long time storageThe sensors resistance will drift reversibly if it’s stored for long time without electrify, this drift is related with storage conditions. Sensors should be stored in airproof bag without volatile silicon compound. For the sensors with long time storage but no electrify, they need long galvanical aging time for stability before using. The suggested aging time as follow:Stable2.No matter the sensors electrified or not, if exposed to adverse environment for long time, such as high humidity, high temperature, or high pollution etc., it will influence the sensors’ performance badly. 2.5 VibrationContinual vibration will result in sensors down-lead response then break. In transportation or assembling line, pneumatic screwdriver/ultrasonic welding machine can lead this vibration. 2.6 ConcussionIf sensors meet strong concussion, it may lead its lead wire disconnected. 2.7 Usage Conditions2.7.1For sensor, handmade welding is optimal way. The welding conditions as follow: ● Soldering flux: Rosin soldering flux contains least chlorine ● homothermal soldering iron ● Temperature ： 250℃ ● Time：less than 3 seconds2.7.1If users choose wave-soldering, the following conditions should be obey: ● Soldering flux: Rosin soldering flux contains least chlorine ● Speed: 1-2 Meter/ Minute● Warm-up temperature ：100±20℃ ● Welding temperature ：250±10℃●One time pass wave crest welding machineIf disobey the above using terms, sensors sensitivity will be reduced.。

PS-NH3-100型氨气检测模组使用说明书深圳市普晟传感技术有限公司版权声明本手册版权为深圳市普晟传感技术有限公司所有，未经深圳市普晟传感技术有限公司书面许可，任何单位和个人不得摘录、复制、翻译、注释、编辑本手册的部分或全部内容，侵权必究。

为使您更好地使用本公司产品，请务必仔细阅读本说明书并按照所建议的使用方法进行使用。

对于不按照使用说明进行操作或因擅自去除、拆卸、更换传感器内部组件而对本产品造成的损坏，本公司不承担相应损失。

本公司以客户需求为导向，追求高品质的客户体验与高质量的技术创新，欢迎新老客户与我司进行产品应用探讨。

手册版本号：PS-NH3-100-V 1.0深圳市普晟传感技术有限公司 2020年12月1日产品简介PS-NH3-100型氨气检测模组是我公司针对现有氨气传感器无法实现超低浓度氨气检测以及寿命短等缺陷推出的全新产品，模组采用基于燃料电池原理的选择性高精度氨气传感器结合先进的微检测技术，直接将环境中的氨气气体含量转换成浓度值，标准化数字输出，便于客户集成使用。

PS-NH3-100型氨气检测模组不受环境中常见干扰物的影响，可实现选择性检测环境中的氨气气体含量，为您提供测试场所内氨气含量的精准检测。

特点典型应用选择性检测氨气厕所测量精度高养殖场响应速度快绿建使用寿命长检测仪/监测仪稳定可靠智能家居低功耗……管脚定义管脚名称管脚说明1 Vin(5V)2 GND3 RXD (0～3.3V 数据输入)4 TXD( 0～3.3V 数据输出)结构尺寸技术指标产品型号PS-NH3-100检测原理燃料电池检测气体氨气检测量程0-100ppm最大过载200ppm供电电压 4.5-7V预热时间<3min 响应时间（T）<120S90) <180S 恢复时间 (T10分辨率0.01ppm工作温度-40℃～70℃工作湿度10％－90％RH（非凝结）使用寿命3年（正常使用）质保期12个月重量10g通讯协议➢通用设置传感器模块使用串行通讯方式，通讯配置参数如下：波特率9600数据位8位停止位1位校验位无➢通讯命令通讯分主动上传和问答式，出厂默认为主动上传，每隔1秒发送1次浓度值。

特殊气体传感器（型号：MQ137）使用说明书版本号：1.3实施日期：2014-05-01郑州炜盛电子科技有限公司Zhengzhou Winsen Electronic Technology Co., Ltd声明本说明书版权属郑州炜盛电子科技有限公司（以下称本公司）所有，未经书面许可，本说明书任何部分不得复制、翻译、存储于数据库或检索系统内，也不可以电子、翻拍、录音等任何手段进行传播。

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郑州炜盛电子科技有限公司MQ137氨气传感器产品描述MQ137气体传感器所使用的气敏材料是在清洁空气中电导率较低的二氧化锡(SnO2)。

当传感器所处环境中存在氨气时，传感器的电导率随空气中氨气的浓度的增加而增大。

使用简单的电路即可将电导率的变化转换为与该气体浓度相对应的输出信号。

MQ137气体传感器对氨气的灵敏度高，对其它有机胺（如三甲胺、乙醇胺等）的监测也很理想。

这种传感器可检测多种含氨气体，是一款适合多种应用场合的低成本传感器。

传感器特点本品在较宽的浓度范围对氨气有良好的灵敏度，具有长寿命、低成本、驱动电路简单等优点。

主要应用广泛适用于家庭用氨气报警器、工业用氨气泄漏报警器以及便携式氨气检测器。

技术指标表 1产品型号产品类型标准封装检测气体检测浓度回路电压加热电压负载电阻加热电阻加热功耗灵敏度MQ137半导体气体传感器胶木，金属罩氨气5～500ppm氨气≤24V DC标准电路条件标准测试条件下气敏元件特性V cV HR L5.0V±0.1V AC or DC可调R H 29Ω±3Ω（室温）≤900mWP HS Rs(in air)/Rs(50ppmNH3)≥2≥0.5V (in 50ppm NH3)输出电压△Vs浓度斜率α≤0.6(R200ppm/R50ppm NH3)温度、湿度20℃±2℃；55%±5%RHVc:5.0V±0.1V；V H: 5.0V±0.1V标准测试条件标准测试电路预热时间不少于48小时图 1 传感器结构图注：输出电压变化量（△Vs）是指在测试气氛中的V RL与洁净空气中的V RL的差值基本电路图2 MQ137测试电路说明：上图为MQ137传感器的基本测试电路。

氨气传感器原理氨气传感器是一种用于测量空气中氨气浓度的仪器，它可以广泛应用于农业、环境保护、工业等领域。

传感器的原理是基于氨气的电化学反应，在电极上产生电流或电压信号，进而测量氨气浓度。

本文将介绍氨气传感器的原理及其应用。

氨气传感器主要使用的传感元件是氨气电化学传感器，它利用氨气的电化学反应测量氨气的浓度。

一般来说，氨气电化学传感器由三个基本部分组成：工作电极、参考电极和电解质。

1. 工作电极：在氨气溶液中，工作电极表面的铂金属上发生氧化还原反应，其中氧化反应是把氨气氧化为氮气，还原反应是把氧气还原为水。

这些反应产生的电流或电势与氨气浓度成正比。

2. 参考电极：参考电极通常使用银/银氯化物电极或银电极。

3. 电解质：电解质通常是含有钾离子的盐水溶液，它的主要作用是传递离子电流。

当氨气接触到工作电极时，它会发生电化学反应，产生电荷，并且改变电化学反应的方向。

在测量过程中，电解质中的外部电源引起的电流可以表示氨气与铂电极之间的交互作用。

随着氨气浓度的增加，工作电极中反应的速率随之增加，电位变化也随之增大。

电位或电流的测量可以被用来评估气体浓度。

二、应用领域1. 农业：氨气传感器可用于测量畜禽场等场所的氨气浓度，帮助农民了解空气质量，保护动物健康，减少氨气的挥发和排放，改善环境质量。

2. 工业：氨气传感器可以用于化学处理、卫生清洁、医药制造和其他工业应用中氨气检测，以保护工人健康和安全，防止化学品泄漏和火灾等意外事故发生。

3. 环境保护：氨气传感器可用于测量高氨气浓度的空气污染源，例如农场、污水处理厂、化肥工厂、垃圾填埋场等，掌握状况，制定控制策略，减少氨气排放对环境的影响。

4. 医学：氨气是肝脏疾病的重要生物指标，它能够反映肝脏的代谢活动和功能状态。

利用氨气传感器可以测量人体呼出气中的氨气浓度，从而诊断肝脏疾病。

氨气传感器具有测量范围广、响应时间快、灵敏度高、可重复使用等优点，可以满足不同领域的需求，为实现环保和保障人的健康发挥重要作用。

AmmoniaR e v . 11/2011Sensoric NH3 3E 100 SE深圳市深国安电子科技有限公司Sensoric NH3 3E 100 SEFEATURESAmperometric 3 electrode sensor cellVery stable zero readingVery selectiveHighly sensitiveHydrous electrolyteTYPICAL APPLICATIONSTLV-monitoring, leakage detectionSensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1 1portable & fixed point applicationsFood & Refrigeration Industry, General Industry, Semiconductor Industry PART NUMBER INFORMATIONMINI1845-932-30009SENSORIC CLASSIC1845-932-30069CTL 4 series adaptation1845-932-30049CTL 7 series adaptation1845-932-30079深圳市深国安电子科技有限公司TECHNICAL SPECIFICATIONSMeasuring Range0–100 ppmSensitivity Range130 nA/ppm ±30 nA/ppmZero Current at 20°C< ±100 nAResolution at 20°C< 1 ppmBias Potential0 mVLinearity< 10% full scaleResponse Time at 20°Ct50< 20 s calculated from 5 min. exposure time Sensoric NH3 3E 100 SESensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1 1t90< 60 s calculated from 5 min. exposure time Long Term Sensitivity Drift< 5% per 6 monthsOperation ConditionsTemperature Range-20°C to +40°CHumidity Range15–90% r.H, non–condensingEffect of HumiditySensor Life Expectancy> 24 months in air*Warranty12 monthsNote:* Background concentrations of ammonia might shorten life time of sensor .深圳市深国安电子科技有限公司Sensoric NH3 3E 100 SESensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1深圳市深国安电子科技有限公司Sensoric NH3 3E 100 SESensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1深圳市深国安电子科技有限公司Cross Sensitivities at 20°CGas Concentration Reading [ppm]Alcohols1000 ppm0Carbon Dioxide5000 ppm01Carbon Monoxide100 ppm0Hydrocarbons% range0Hydrogen10000 ppm02Sensoric NH3 3E 100 SESensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1 1Hydrogen Sulfide20 ppm21) At higher carbon dioxide concentration (approx. >5%) there can be a negative reading2) Short gas exposure in minute range.Notes:1.Interference factors may differ from sensor to sensor and with life time. It is not advisable to calibrate with interference gases.2.This table does not claim to be complete. The sensor might also be sensitive to other gases.深圳市深国安电子科技有限公司Safety NoteThis sensor is designed to be used in safety critical applications. To ensure that the sensorand/or instrument in which it is used, are operating properly, it is a requirement that the function of the device is confirmed by exposure to target gas (bump check) before each use of the sensor and/or instrument. Failure to carry out such tests may jeopardize the safety of people and property.AttentionSensoric deems the data contained herein as factual,and the opinions expressed are those of qualified experts based on the results of tests conducted.The above data can not be used as a warranty provision or representation for which Sensoric assumes legal responsibility.The data are offered solely for consideration,investigation and verification.Any use of this information is subject to federal,state and local laws and regulations.R e v . 1 1 / 2 0 1 1Use of the Sensoric range sensors requires complete understanding of the instructions. Before using Sensoric range sensors please carefully read ‘Application Notes’ which can be found at under the heading ‘Support’ -> ‘Application Notes’->‘Sensoric’Product Safety Data Sheets (PSDS) can be obtained at under the heading ‘Support’ -> ‘Product Safety Datasheets’For further assistance on sensor selection and use, please contact a member of the Technical Sales team.深圳市深国安电子科技有限公司。

NH3氨气NH3气体传感器NH3氨气NH3气体传感器特点：★整机体积小,重量轻★高精度,高分辨率,响应迅速快.★上、下限报警值可任意设定，自带零点和目标点校准功能，内置温度补偿，维护方便.★数据恢复功能，免去误操作引起的后顾之忧.★外壳采用特殊材质及工艺，不易磨损，易清洁，长时间使用光亮如新.NH3氨气NH3气体传感器技术参数：★进口电化学传感器具有良好的抗干扰性能，使用寿命长达3年;★采用先进微处理器技术，响应速度快,测量精度高，稳定性和重复性好;★全量程范围温度数字自动跟踪补偿，保证测量准确性;★半导体纳米工艺超低功耗32位微处量器;★全软件自动校准,传感器多达6级目标点校准功能,保证测量的准确性和线性,并且具有数据恢复功能;★防高浓度气体冲击的自动保护功能NH3氨气NH3气体传感器结构图：NH3氨气NH3气体传感器接线示意图:一氧化氮NO 气体传感器参数工作电压DC5V±1%/DC24±1%波特率9600测量气体一氧化氮NO 气体检测原理电化学采样精度±2%F.S 响应时间<30S重复性±1%F.S 工作湿度10-95%RH，(无冷凝)工作温度-30～50℃长期漂移≤±1%（F.S/年）存储温度-40～70℃预热时间30S 工作电流≤50mA 工作气压86kpa-106kpa安装方式7脚拔插式质保期1年输出接口7pIN 外壳材质铝合金使用寿命2年外型尺寸(引脚除外)33.5X3121.5X31测量范围详见选型表输出信号TTL(标配)0.4-2.0VDC(常规)/4-20mA数字信号格式数据位:8;停止位:1;校验位:无;传感器PIN脚定义图:传感器应用场所：医药科研、学校科研、制药生产车间、烟草公司、环境检测、楼宇建设、消防报警、污水处理、石油石化、化工厂、冶炼厂、钢铁厂、煤炭厂、热电厂、锅炉房、加气站、垃圾处理厂、隧道施工、输油管道、工业气体过程控制、室内空气质量检测、地下燃气管道检修、危险场所安全防护、设备检测等。

氨气和氨气传感器氨气(NH3)是一种非常有用但又十分危险的气体。

当我们接触到氨气时，它会腐蚀我们的皮肤、眼睛和肺。

吸入氨气是非常危险的，因为它会刺激喉咙、鼻子和肺。

虽然氨气有害，但它是一个常用的化工原料，有许多工业应用。

氨气大量用于化肥、塑料、染料和纺织品的生产中，并大量用作制冷剂。

氨能被闻到吗?是的，人类可以闻到氨气。

然而，气味阈值因人而异。

一般来说，依靠你的嗅觉来确定是否存在氨气是不可靠的，这是因为当你习惯了这种气味后，你的鼻子就不那么敏感了，这种现象被称为嗅觉疲劳。

何时需要检测氨气?氨气在制造和工业过程中被大量使用。

在环境中，氨气是氮循环的一部分，由土壤中的细菌在分解有机物质的过程中产生。

包括植物、动物和动物粪便在内的有机物分解都会产生氨气。

环境中高浓度的氨气是危险的，所以在许多应用中，政府有各种各样的监管措施来控制氨气的暴露限度。

•由于其低成本和高能效，以及对环境的影响较小，氨气被广泛使用于大型制冷设备中，因此需要对设备进行泄漏检测以防人员中毒。

•氨气检测的最大应用之一是家禽养殖和生猪养殖场，控制氨气浓度能显著改善牲畜健康和有效提高产量。

•农业肥料硝酸铵的生产通常使用无水氨气和浓硝酸为原料。

监测氨气的浓度是一项必要的安全措施。

什么是安全的氨气浓度水平?各种政府机构和协会推荐了氨气暴露限值如表1所示。

氨气检测器如何工作?氨气检测器通常由电子电路和氨气传感器组成。

氨气传感器将检测到的气体浓度转换为电子信号，由机载微处理器分析。

接收信号后，处理器显示读数。

当测量值超过指定的报警值时，触发警报。

表1 -推荐氨气暴漏限值为您的应用选择合适的NH3传感器是很重要的，以下问题帮助您缩小氨气传感器的选择范围，更快地匹配您的应用:•快速响应时间对我的测试很重要吗?对于某些应用和某些法规，对响应时间(T90)有特定的要求，以满足安全标准。

盛密科技SemeaTech 生产的如下快速响应氨气传感器非常适合这类场合的应用：T90 < 40秒4NH3 - 500s、4NH3-1000ST90 < 45秒4NH3 - 100s、7NH3-100S、7NH3-200S、7NH3-1000S、7NH3-200S•是用于个人防护还是连续监测?如果响应时间不是很重要，并且是连续监测的情况下，最好选择使用盛密科技SemeaTech的非消耗型NH3传感器。

RAE Systems 4NH 3-100 传感器 (Rev.1)RAE Systems Inc. RAE Systems (Shanghai) Inc.3775 North First Street, San Jose, CA 95134 USA 788 Zhao Xian Road, Jiading District, Shanghai 201821 P.R.China Web: Tel: +86-21-6952-2616 • Fax: +86-21-5990-0268Email: raesensor@Page 1 of 2 Web : 4R 0 ~100 ppm 氨气电化学传感器产品编号: CSE - 1012 - 400特性指标正常检测范围 0-100ppm 最大检测浓度 200ppm灵敏度 0.10 ± 0.02μA/ppm 底电流（20 ℃） <±1.0 μA基线漂移(-20 ~ 40 ℃) 相当于<15 ppm NH 3 分辨率 <0.5 ppm 响应时间(T 90) ≤80 Sec 线性度 线性长期稳定性 <2% 信号值/月工作条件工作温度 -20℃ ~ 40℃工作湿度 15 ~ 90%RH （无冷凝） 工作压力 91 ~ 111 kPa 偏压 +300 mV储存时间 6 个月（RAE 专用包装盒中） 储存温度 0℃ ~20℃ 使用寿命 2年质保期 交货后12个月物理指标重量 约5克 方位要求 无RAE Systems 4NH 3-100 传感器(Rev.1)RAE Systems Inc. RAE Systems (Shanghai) Inc.3775 North First Street, San Jose, CA 95134 USA 788 Zhao Xian Road, Jiading District, Shanghai 201821 P.R.China Web: Tel: +86-21-6952-2616 • Fax: +86-21-5990-0268Email: raesensor@Page 2 of 2 Web : 温度影响交叉灵敏度气体种类 浓度 (ppm)输出信号（相当于NH 3 浓度，ppm)一氧化碳 100 <3 硫化氢 20 <50 二氧化硫 10 <3 氢气 1000 <8 二氧化氮10 <3。

智能型氨气NH 3传感器4NE /NH3-5004NE /NH 3-500智能传感器是专门针对气体探测器生产企业推出的新型智能传感器，主要为解决气体探测种类繁多、各品种传感器互不兼容、生产标定复杂、核心器件更换限制等问题。

采用我司生产的智能型气体传感器则只需开发一款产品，即可快速响应客户对不同气体种类探测的需求，且生产过程简化，无需重新标定，大幅度降低企业的研发成本、生产成本，产品品质也立即提升到国际一流水准。

该传感器操作方便、测量准确、工作可靠，适用于工业现场或实验室测量等不同的要求。

传感器具有电压和串口同时输出特点，方便客户调试及使用。

■ 本安电路设计，可带电热拔插操作； ■ 专业精选、原装进口，兼容红外、电化学、催化、半导体等多种传感器； ■自带温度补偿，出厂精准标定，使用时无需再标定； ■ 电压和串口同时输出特点，方便客户调试及使用； ■ 最简化的外围电路，生产简单、操作方便。

1）工作电压：； ≤50mA (催化≤100mA )；； 4 500ppm 6）检测原理：电化学；11）重复性； 12）长期零漂≤； 13）工作； 14）工作； 15）存贮； 15）工作；17）外壳材质； 18）输出接口 ； 19）使用寿命； 20）质保期 ； 21）数字信号格式； 22）波特率； 23）输出电压； 24）外型尺寸：4NE Φ21.5*31mm (引脚除外)；DC5V ±1% 2）工作电流： 3）测量气体：氨气NH3）安装方式：7脚拔插式；）测量范围：5； 7）分辨率: 3ppm ； 8）响应时间：<30s ； 9）采样精度：±2%FS ； 10 ）预热时间：30s ； ：±1%FS ：1%FS /年 温度：-20～70℃湿度：10～95%RH(无凝露)温度：-40～70℃气压：86kPa ～106kPa ：铝合金： 7PIN ：2年以上(以传感器使用寿命为准)： 1年：数据位：8；停止位：2；校验位：无： 9600：0.4-2.0VDC(常规)、0-1.6VDC 、0-4VDC 、0-5VDC可选31m m引脚名称说 明1234567定位VCC GND VOUT RXD TXD RDE 定位针脚(不允许接地,请悬空)+5V 电源输入地电压输出串口脚(传感器串口接收脚)串口脚(传感器串口发送脚)串口输出控制脚(接485置低发送)4NE 系列智能传感器数字通讯协议1、异步串行通信参数：始位： 1 数据位： 8 停止位： 2 校验： 无 波特率： 96002、帧格式：（每一通信帧的格式如下）H -数据头，为连续2 至4 个字节的FFH 。

氨气浓度传感器氨气NH3浓度传感器氨气NH3泄露检测探测器产品适用于各种环境和特殊环境中的氨气NH3气体浓度和泄露，在线检测及现场声光报警，对危险现场的作业安全起到了预警作用，此仪器采用进口的电化学传感器和微控制器技术，具有信号稳定，精度高，重复性好等优点，防爆接线方式适用于各种危险场所，并兼容各种控制器，PLC,DCS 等控制系统，可以同时实现现场报警和远程监控，报警功能，4-20mA 标准信号输出，继电器开关量输出。

氨气浓度传感器氨气NH3浓度传感器产品特性：气体传感器参数工作电压DC5V±1%/DC24±1%波特率9600测量气体氨气NH3气体检测原理电化学采样精度±2%F.S 响应时间<30S重复性±1%F.S 工作湿度10-95%RH，(无冷凝)工作温度-30～50℃长期漂移≤±1%（F.S/年）存储温度-40～70℃预热时间30S 工作电流≤50mA 工作气压86kpa-106kpa安装方式7脚拔插式质保期1年输出接口7pIN 外壳材质铝合金使用寿命2年外型尺寸(引脚除外)33.5X3121.5X31测量范围详见选型表输出信号TTL(标配)0.4-2.0VDC(常规)/4-20mA数字信号格式数据位:8;停止位:1;校验位:无;①进口电化学传感器具有良好的抗干扰性能，适用寿命8年。

②采用先进微处理技术，响应速度快，测量精度高，稳定性和重复性好。

③检测现场具有具有现场声光报警功能，气体浓度超标即时报警，是危险场所作业的安全保障。

4现场带背光大屏幕LCD显示，直观显示气体浓度，类型，单位，工作状态等。

5独立气室，更换传感器无须现场标定，传感器关键参数自动识别。

6全量程范围温度数字自动跟踪补偿，保证测量准确性。

氨气浓度传感器氨气NH3浓度传感器技术参数：检测气体：空气中的氨气NH3气体检测范围：0~50ppm,0~500ppm,0~1000ppm可选。

fp 6601工作原理
FP6601是一种传感器芯片，它采用荧光光谱法来测量氨气（NH3）的浓度。

其工作原理如下：
1. 芯片内部有一个荧光材料，通常是以一种化学物质涂覆在传感器表面。

当氨气与传感器接触时，它会与荧光材料反应。

2. 反应中，氨气会使荧光材料发生化学变化，导致荧光材料的发光强度发生变化。

这种变化与氨气的浓度成正比。

3. 芯片内部有一个光源，通常是一个LED，用于照射荧光材料。

荧光材料吸收光源发出的激发光，并发出荧光。

4. 通过检测荧光的强度变化，芯片可以确定氨气浓度的变化。

测量出的荧光强度将被转换为相应的电信号，供后续处理和显示。

总的来说，FP6601通过测量荧光材料的发光强度变化，实现对氨气浓度的检测。

7NE系列-红外NH3气体传感器
Shenzhen NE Sensor Electronic Technology Co., LT
1概述
7NE系列高精度红外气体传感器采用非色
散红外(NDIR)检测技术，其外形尺寸小，具用设
计的独特的结构特点，还可能按客户现场的要求
设计，模块可以测检爆炸性气体和腐蚀性气体,
传感器采用镀金引脚拔插结构，方便安装更换，
可实现即插即用。

可根据不同气体及量程对气路
进行调整，气路采用气电隔离技术及防水防尘工艺，保证模块信号输出长期稳定性，其产品具有抗干扰性好，寿命长、精度高等特点，内置温度传感器，自带温度补偿。

用户可进行零点标定及满量程标定。

也可使用恢复出厂设定恢复数据。

该产品具有寿命长、成本低、智能型、微型等特点。

传感器使用方便，具备有完整的气体探测、串口通信功能；
3产品选型表
2技术参数
4传感器结构
31m m
5引脚定义。

电化学传感器ME2-C0 一氧化碳CO 0-1000ppmME3-CO 一氧化碳CO 0-500ppm，0-1000ppm，0-2000ppm ME4-CO 一氧化碳CO 0-500ppm，0-1000ppm，0-2000ppm ME3-H2S 硫化氢H2S 0-200ppmME4-H2S 硫化氢H2S 0-200ppmME3-H2 氢气H2 0-200ppmME4-H2 氢气H2 0-1000ppmME3-NH3 氨气NH3 0-1000ppmME4-NH3 氨气NH3 0-50ppmME3-CL2 氯气CL2 0-50ppmME4-CL2 氯气CL2 0-20ppmME3-PH3 磷化氢PH3 0-20ppmME4-PH3 磷化氢PH3 0-20ppmME3-O2 氧气O2 0-25% max:30%ME2-O2 氧气O2 0-25% max;30%ME3-C2H5OH 酒精C2H5OH 0-1000ppmME4-C2H5OH 酒精C2H5OH 0-1000ppm催化燃烧式可燃气体MC101 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC102 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC105 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC106 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC108 氢气、可燃气体 0-100%LELMC112 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC112D 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC113 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC114 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MJC4/3.OL 甲烷、瓦斯 0-4%VOLMJC4/3.OJ 甲烷、瓦斯 0-4%VOLMJC4/2.8J 甲烷、瓦斯 0-4%VOLMJC4/2.5L 甲烷、瓦斯 0-4%VOLMC201 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC115 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC116 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC117 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC118 甲烷、液化气、丙烷等可燃性气体 0-100%LEL MC202 甲烷、液化气、丙烷等可燃性气体 0-100%LEL半导体式传感器MQ-2 可燃气体、烟雾 300 to 10000ppmMQ-4 天然气、甲烷 300 to 10000ppmMQ-5 液化气、甲烷、煤制气 300 to 5000ppmMQ-6 液化气、异丁烷、丙烷 100 to 10000ppmMQ-8 氢气、煤制气 50 to 10000ppmMQ306A 液化气、甲烷、煤制气 300 to 5000ppmMQ214 甲烷 300 to 5000ppmMQ216 液化气、甲烷、煤制气 100 to 10000ppmMQ-7 一氧化碳CO 10 to 1000ppmMQ307A 一氧化碳CO 10 to 500ppmMQ217 一氧化碳CO 10-1000ppmMQ-9 一氧化碳、可燃气体 10 to 1000ppm CO、100 to 10000ppm可燃气体MQ309A 一氧化碳、可燃气体 10 to 500ppm CO、300 to 5000ppm可燃气体臭氧O3 0.01-2ppmO3/10-500ppmO3氨气、苯、酒精、烟雾 10-300ppmNH3、10-1000ppm苯、10-600ppm酒精、1%/-10%/m3烟雾MQ136 硫化氢 1-200ppmMQ137 氨气 10-300ppmMQ138 醇类、苯类、醛类、酮类、酯类等有机挥发物 5-5000ppm酒精（乙醇） 10 to 1000ppmMQ303A 酒精（乙醇） 20 to 1000ppmMQ213 酒精 10-1000ppmMP-4 天然气 300 to 10000ppmMP-6 液化气 300 to 5000ppmMP-7 一氧化碳 10 to 1000ppmMP-8 氢气 50 to 10000ppmMP135 氢气、酒精、CO一氧化碳 10-100ppmH2、10-500ppm CO、10-1000ppm酒精离子烟雾传感器 HIS-07二氧化碳气体敏感元件 MG811 0 to 10000ppm热传导气体敏感元件 MD61 天然气、液化气、煤气、烷类等可燃气体及汽油、醇、酮、苯、四氟化碳、氟里昂 0-100%VOL热传导气体敏感元件 MD62 二氧化碳CO2 0-100%VOL热线型酒精气体敏感元件 MR513 酒精（乙醇） 0 to 1000ppm热线型可燃气体敏感元件 MR511 甲烷、丁烷 0 to 10000ppmQMZC型系列载体催化元件专用于检测甲烷、丁烷、氢气的传感元件MQ-KY型半导体气敏元件用于液石油气、气体浓度的检测、检漏、临控等设备中NQ--KR型半导体气敏元件用于天然气（甲烷）气体浓度的的检测检漏、监控等NQ--KR型半导体气敏元件用于天然气（甲烷）气体浓度的的检测检漏、监控等MQ-KT型半导体气敏元件用于天然气（甲烷）气体浓度的的检测检漏、监控等MQ-J1型半导体气敏元件用于对乙醇气体检漏、监控等MQ-K1型半导体气敏元件可燃性气体及可燃性液体蒸汽的检测NQ-Y型一氧化碳气敏元件是对一氧化碳气体具有较好选择性的气-电转CO 气体检测、报警检漏等设备MQ-KC型低功耗气敏元件用于天然气、煤气、液化石油气、烟雾等检漏、监控、报警装置TP-3A常温型酒敏传感器测量气体:酒精TP-3B常温型酒敏传感器测量气体:酒精TP-2常温低功耗CO传感器 COTP-5催化甲烷传感器甲烷紫外线传感器 UV-A/UV-BTP-3D口气传感器传感器对空气中的低浓度口气有极高的灵敏度TP-1.1A 非加热低功耗甲烷气体传感器TP-3C直热式酒敏传感器酒精TP-4空气污染物传感器混合气体GHS-20 湿敏电阻HU-10S 温湿度传感器模块HSM-40 温湿度传感器模块HM1500 / HM1520 高精度湿度传感器TH485 网络型温湿度变送器DS-10 凝露传感器UV-A S10 紫外线传感器。

NH3Sensor DatasheetModule:S-NH3-01Version:V1.1Directory1.Introduction (3)2.Technical parameters (5)3.RS-485Protocol (7)3.1Introduction to Modbus-RTU RS-485 (7)3.2Modbus register (8)3.3Description of Modbus register parameters (9)3.3.1CRC validation algorithms and examples (10)3.4Use Modbus to debug software communications (12)3.5Calibration Instructions (14)4.Precautions (15)5.Document version (17)1.IntroductionKey Features:●Electrochemical detection of solid polymers●Robust design for long-term exposure to environments with high ammonia concentration●A wide temperature range of-40to50℃●High-precision measurements even in the most demanding environments●Measures temperature and humidity●Easy to install and mount●Factory calibration also supports user self-calibration.Scenarios:●Livestock industry●Smart public toilet ammonia and odor monitoring●Ammonia monitoring in landfills and sewage treatment plants●Leak detection●Environmental monitoring●Other sensor applicationsS-NH3-01can measure the ammonia concentration,air temperature and humidity,and output the data through the RS485Modbus-RTU protocol.The sensor responds quickly,has anti-interference technology,and can be calibrated to ensure measurement accuracy.The equipment is powered by5V DC,can be used with other equipment without complicated installation,and can easily be integrated into larger systems.Solid polymer electrochemical technology is a revolutionary innovation in the field of electrochemical detection.This technology is based on the principle of electrochemical catalytic reaction caused by the target gas leading to a electrical signal that is direct proportional to the gas concentrationThe sensor module is composed of three catalytic electrodes,a solid electrolyte,and gas diffusion holes. The gas reaches the working electrode of the sensor through the diffusion holes,an electrochemical redox reaction occurs on the porous micro-surface of the electrode,the solid electrolyte conducts electron transfer,and generate a current signal as an output.The current signal can characterize the gas concentration.2.Technical parameters[1]The time from when the sensor is powered on to when the data is read.Note the parameter when the sensor is powered on.[2]If started in an environment with clean air it requires less time.[3]The measurement data update interval,after the power-up warm-up time,if the power supply continues,the sensor periodically updates the reading at this interval.[4]T90＜30s3.RS-485Protocol3.1Introduction to Modbus-RTU RS-485Modbus protocol is a common protocol used in electronic devices.Through this protocol,the devices communicate with each other.It has become a common industry standard,widely used in data logger, sensor equipment and so on.Based on this protocol,devices from different vendors can communicate with each other for system integration.Modbus protocol is a master-slave architecture protocol.One node is the Master and the other nodes that use Modbus protocol to participate in the communication are Slaves.Each slave device has a unique address.The Sensor has RS485interface and supports Modbus-RTU.Modbus commands can be used to obtain sensor data or modify communication parameters.Note:Default communication parameters:Baud rate9600bps,one start bit,8data bits,no verification,one stop bit.3.2Modbus register●Modify the address Default address:0x0F (hex).Use special instructions to modify the address,range 0x01to 0XF7,out of range automatically reverts to 0x01The instruction header Modify the address 807265706F 6C 65766544xExample:The address needs to be changed to 0x02.Send command:807265706F 6C 6576654402Note:When modifying the Modbus address,a singlerefresh is required (there is one device on the bus).●Error codeAccording to the Modbus protocol,an error response is returned if an error occurs after a request for a feature code is initiated.3.3Description of Modbus register parameters3.3.1CRC validation algorithms and examplesstatic const unsigned char aucCRCHi[]={0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40,0x01,0xC0,0x80,0x41,0x01,0xC0,0x80,0x41,0x00,0xC1,0x81,0x40};static const unsigned char aucCRCLo[]={0x00,0xC0,0xC1,0x01,0xC3,0x03,0x02,0xC2,0xC6,0x06,0x07,0xC7, 0x05,0xC5,0xC4,0x04,0xCC,0x0C,0x0D,0xCD,0x0F,0xCF,0xCE,0x0E, 0x0A,0xCA,0xCB,0x0B,0xC9,0x09,0x08,0xC8,0xD8,0x18,0x19,0xD9, 0x1B,0xDB,0xDA,0x1A,0x1E,0xDE,0xDF,0x1F,0xDD,0x1D,0x1C,0xDC, 0x14,0xD4,0xD5,0x15,0xD7,0x17,0x16,0xD6,0xD2,0x12,0x13,0xD3, 0x11,0xD1,0xD0,0x10,0xF0,0x30,0x31,0xF1,0x33,0xF3,0xF2,0x32,0x36,0xF6,0xF7,0x37,0xF5,0x35,0x34,0xF4,0x3C,0xFC,0xFD,0x3D, 0xFF,0x3F,0x3E,0xFE,0xFA,0x3A,0x3B,0xFB,0x39,0xF9,0xF8,0x38, 0x28,0xE8,0xE9,0x29,0xEB,0x2B,0x2A,0xEA,0xEE,0x2E,0x2F,0xEF, 0x2D,0xED,0xEC,0x2C,0xE4,0x24,0x25,0xE5,0x27,0xE7,0xE6,0x26, 0x22,0xE2,0xE3,0x23,0xE1,0x21,0x20,0xE0,0xA0,0x60,0x61,0xA1,0x63,0xA3,0xA2,0x62,0x66,0xA6,0xA7,0x67,0xA5,0x65,0x64,0xA4,0x6C,0xAC,0xAD,0x6D,0xAF,0x6F,0x6E,0xAE,0xAA,0x6A,0x6B,0xAB, 0x69,0xA9,0xA8,0x68,0x78,0xB8,0xB9,0x79,0xBB,0x7B,0x7A,0xBA,0xBE,0x7E,0x7F,0xBF,0x7D,0xBD,0xBC,0x7C,0xB4,0x74,0x75,0xB5,0x77,0xB7,0xB6,0x76,0x72,0xB2,0xB3,0x73,0xB1,0x71,0x70,0xB0,0x50,0x90,0x91,0x51,0x93,0x53,0x52,0x92,0x96,0x56,0x57,0x97,0x55,0x95,0x94,0x54,0x9C,0x5C,0x5D,0x9D,0x5F,0x9F,0x9E,0x5E,0x5A,0x9A,0x9B,0x5B,0x99,0x59,0x58,0x98,0x88,0x48,0x49,0x89,0x4B,0x8B,0x8A,0x4A,0x4E,0x8E,0x8F,0x4F,0x8D,0x4D,0x4C,0x8C,0x44,0x84,0x85,0x45,0x87,0x47,0x46,0x86,0x82,0x42,0x43,0x83,0x41,0x81,0x80,0x40};unsigned short usCRC16(unsigned char*pucFrame,unsigned short usLen){unsigned char ucCRCHi=0xFF;unsigned char ucCRCLo=0xFF;int iIndex;while(usLen--){iIndex=ucCRCLo^*(pucFrame++);ucCRCLo=(UCHAR)(ucCRCHi^aucCRCHi[iIndex]);ucCRCHi=aucCRCLo[iIndex];}return(unsigned short)(ucCRCHi<<8|ucCRCLo);}The CRC generated by this function has exchanged the high and low bytes,and can be directly placed in the message for transmission.Example:The CRC16of a certain frame is calculated by this function to be equal to0x4112,then the message is placed as follows:Address FuntionCode DataCountData Data Data Data CRC low CRChigh0x410x123.4Use Modbus to debug software communicationsHere's an example of the Modbus Poll tooldownload address:https:///download.html.Configure connection parameters:Baud rate9600bps,one start bit,8data bits,no verification,one stop bit.Configure the parameters of the read register0x00:the default slave address is1,the function code is 03,the starting address is0,and the number is13.5Calibration Instructions4.Precautions(1)The main function of the gas sensor is to detect the gas composition and content,please do notlet any part of the sensor come into contact with liquids.(2)The sensor wire sequence cannot be reversed.Once reversed,it will cause permanent damageto the sensor and make it unusable.(3)Different gas sensors have different concentration measurement ing the sensor inenvironments with concentrations above the maximum range for a long period of time can damage the device.(4)The white or yellow sheet on the sensor is a waterproof and breathable membrane,please becareful not to scratch or cut it;(5)The ventilation surface of the sensor should not be blocked or polluted.Sometimes the cloggingof the hole can cause sensitivity reductions and slow response time.(6)To measure the gas sensitivity,avoid blowing the gas directly into the equipment,use standardgas caps.One side is the air intake,one side of the air outlet(under normal circumstances the small hole is the intake and the large hole lets the gas out);(7)Avoid excessive shocks or vibration.If the shell is damaged,please ensure that the sensor is notdamaged.If the shell is broken and the internal structure is exposed,the output will no longer be reliable(the signal may be too large,too small or no output).(8)It takes some time to return to the initial state after long-term exposure to high gasconcentrations.(9)When using a low-range sensor avoid exposing the sensor to air with high concentrations over along period of time.Long-term exposure to high concentrations of the gas can damage the sensor and decrease the performance.(10)Please do not disassemble the sensor,doing so might damage the sensor.(11)Please avoid instantaneous high voltages,which can seriously damage the sensor.(12)Calibration and detection,the electrochemical gas sensor's reaction activity with the target gaswill change with time,temperature,and humidity changes.Because the sensor outputs the relative changes in current it is necessary to calibrate it to accurately calculate the absolute concentration.First use a zero gas and a gas with a standard concentration.Calibrate the linear change of the gas to obtain a standard curve.When measuring,compare the electrical signal generated by the concentration of the gas to be measured with the electrical signal of the standard concentration to calculate the accurate gas concentration value.Therefore,zero-calibration and regular recalibration of the equipment are all necessary to ensure the accuracy of the measurement.(13)Cross interference of sensors.Generally speaking,each sensor corresponds to a specificdetection gas,but any gas sensor cannot be absolutely specific.Therefore,when using a gas sensor,try to avoid interference from other gases with the sensor to ensure its accurate detection of specific gases.(14)Measuring range and accuracy:select a gas sensor that matches the range and accuracy foryour application scenario,otherwise it may not be able to detect the gas and determine theaccurate data or the sensor may get damaged.(15)Storage environment:temperature(-5~+30℃),relative humidity50%RH(non-condensing);the storage environment should have clean air,no pollution,no acetone,no high-concentration organic gas,no dust,no Smoke;avoid storing with alcohol(ethanol),perfume,sodium silicate and polyurethane liquid or solid;avoid storing in high temperature and low humidity environment.(16)Transportation:For long-distance transportation,the temperature in the sensor package shouldbe kept within40°C,and the maximum temperature should not exceed55°C.The humidity should not be lower than15%RH.(17)Maintenance:The maintenance of the sensor mainly involves the calibration.Generally,thesolid polymer sensor does not consume chemical electrolyte,but due to the influence of temperature,humidity,dust,and other polluting gases,the sensitivity of the sensor will be affected.When an offset occurs,the hydrogen sulfide sensor needs to be recalibrated.The better the environment,the longer the sensor can go without requiring maintenance.The user should follow the precautions mentioned above.If improper use caused damage to the sensor, it is not covered under the warranty and we will not replace the device.5.Document version。

如何检测气体传感器的运用寿命导读气体传感器的运用寿命取决于多方面的要素，其在不同的气体环境中运行，均匀运用寿命皆不相同。

那，如何检测气体传感器的运用寿命呢？气体传感器的运用寿命取决于多方面的要素，其在不同的气体环境中运行，均匀运用寿命皆不相同。

那，如何检测气体传感器的运用寿命呢？一、如何检测气体传感器的运用寿命根据要检测的不同气体对象，气体传感器的运用寿命也不相同。

1、用于检测可燃气体浓度的传感器大多是催化燃烧传感器，它的运用寿命在理想环境下3～5年。

另外气体勘探器（包括固定式气体报警器和便携式气体报警器）传感器的寿命同它所露出的浓度有很有大的联系。

比如说某个氨气检测仪的传感器假如连续露出于2ppm氨气之中，它的寿命大约是一年（或许称为2ppm.年寿命）假如露出于4ppm的氨气水平，则只有六个月的寿命。

这样氨气传感器就不适合使用于化肥厂，因为此刻氨的浓度一般都在20~30ppm左右。

所以影响传感器寿命的主要要素还在于它所处于的环境越差寿命越短。

其次是传感器的机构，传感器直接影响气体检测仪的运用，所以重视传感器的运用和状况也便是重视咱们自己的安全。

2、用于检测有毒气体浓度的传感器大多是电化学传感器，它是基于电化学原理作业的传感器，影响其寿命的主要是电解液，一般的传感器在理想环境下2～3年之后，电解液就消耗的不能再正常作业了，所以电化学传感器的运用寿命是2～3年。

气体传感器的运用寿命取决于多方面的要素，而运用传感器最好也需要相应的维护保养。

气体传感器在不同的气体环境中运行，其均匀运用寿命也是不相同的！二、气体传感器的使用使用于建造环境物联网。

气体传感器在有毒、可燃、易爆、二氧化碳等气体勘探范畴有着广泛的使用，环境问题一直是全国甚至全世界最关怀的论题之一，人类赖以生存的环境一直在遭受着损坏，怎么保护环境就需要一个环境监管机制，建造物联网成为必要，而气体传感器作为环境检测的必备传感器将有助于建造环境物联网。

氨传感器原理
氨传感器原理是基于化学反应的原理。

氨气分子与传感器表面的活性位点发生化学吸附反应，使传感器表面发生电子转移，从而导致电气信号的变化。

具体原理如下：
1. 氨传感器通常采用金属氧化物（如二氧化锡、二氧化钨等）作为传感器材料。

这些材料具有高度活性的表面位点，能够吸附氨气分子。

2. 当氨气与传感器表面发生吸附反应时，氨气分子中的氮原子与金属氧化物表面的氧原子形成键合，形成氨分子的吸附产物。

3. 吸附产物的形成导致材料表面电子转移，从而引起传感器表面电荷分布的变化。

4. 传感器通过测量表面电荷分布变化导致的电位差或电流变化，来获取氨气浓度的信息。

需要注意的是，氨传感器的灵敏度和选择性可以通过传感器材料的选择和表面修饰来调控。

此外，传感器还需要经过校准和补偿等处理，以提高其准确性和稳定性。

NH3氨气传感器的原理及其应用1.应用背景基于氧化锆的陶瓷NH3传感器技术可用于车辆尾气后处理应用。

该传感器基于非平衡电化学原理。

它感应NH3并输出emf信号，该信号与发动机排气中NH3浓度的对数成线性比例。

目前只有尔福氨传感器在柴油发动机上有成熟应用，德在预期环境中表现良好，具有合理的耐用性。

氨气传感器技术在满足NOx还原和系统OBD要求方面，可应用于SCR系统可选方案。

目前SCR系统普遍采用的还是NOX传感器作为SCR尿素喷射控制的关键测量反馈器件。

目前国内主要基于氨气传感器进行二次开发，武汉汉谦达智能科技有限公司开发了成熟的的氨气传感器以及控制器，具体可参考官网技术文章。

图1 基于NH3传感器的尾气后处理系统图2 基于NH3传感器的测试仪2.结构原理特点在许多不同的NH3传感原理中，非平衡电化学原理是最适合车用柴油机排气应用的原理。

它满足应用程序的所有要求：的潜力经济成本、大规模可制造性、耐用性和恶劣的高温排气环境。

该传感器装置具有简单的结构。

氨气传感器由信号处理控制器和传感器探头组成，如图2所示，核心陶瓷感应元件封装于探头众。

它具有NH3感测电极和以掺钇氧化锆为固体电解质的参比电极。

两个电极都暴露在相同的废气中。

不需要空气参考通道或氧气泵。

探头陶瓷芯片众集成有铂加热器，以保持传感器温度400--500℃，如图3所示。

在两个电极上分别发生式（1）和式（2）的反应。

图3 传感器感应芯片结构图3.信号输出特性氨气传感器感应NH3输出的电动势信号和氨气浓度成对数关系，实际应用通过测量输出电压信号换算得到具体的氨气浓度值图4 氨气传感器输出特性曲线。