E-H压力变送器选型手册

E+H(恩德斯豪斯)智能型压力变送器cerabar M PMC 41/45 PMP 41/45
抗过载压力变送器，采用陶瓷或金属传感器。

可选：模拟式，智能式或PROFIBUS-PA电子模块
应用
Cerabar M 变送器测量各种领域中气体、蒸汽、液体和粉尘的表压和绝压。

模块化设计使得Cerabar M 能够适用于各种工业场合。

性能和优点
●测量精度高
- 非线性：设定量程的0.2%
- 长期稳定性：0.1%/每年
- 可调测量范围TD 10:1
●传感器
- 干式电容陶瓷传感器压力可达40bar(600psi)；抗过载能力强、密封性能好
- 压阻式金属传感器，测量范围打400bar（6000psi）
●电子部件
- 模拟式：低成本，响应速度快，尤其适用于快速反应过程
- 智能式：通过HART协议实现多种操作程序
- PROFIBUS-PA：数字通信
●外壳
不锈钢外壳，能满足食品及制药工业的特殊卫生要求；环氧树脂涂层铝外壳符合过程工业的要求
●过程连接
螺纹连接，卫生型连接，法兰连接
产品图片。

E,H压力变送器选型手册各位读友大家好！你有你的木棉，我有我的文章，为了你的木棉，应读我的文章！若为比翼双飞鸟，定是人间有情人！若读此篇优秀文，必成天上比翼鸟！篇一：关于E+H产品选型方法与型号说明重要内容，请看第2页1、登录德国E+H（全称：Endress+Hauser，中文：恩德斯豪斯）网站/ 2、点击“Asia”（亚洲）3、点击“China”（中国）4、点击“产品” 5、选择你需要了解或购买的产品，如我需要了解订货号10H1H-UF0A1AG4A5AA 与10H1H-1F0A1AG4A4AA的区别，则按照以下“流量——电磁流量计——Promag H——Promag 10H——产品比较（同一系列不一样型号的信息）或者产品选型（同一型号不同订货号的信息）”，详细请看下面的截图。

查询结果：综下所属，订货号10H1H-UF0A1AG4A5AA与订货号10H1H-1F0A1AG4A4AA两个传感器可以互换，但一定要把变送器里的数据模块换过来（上面是传感器工厂标定的数据），区别仅在过程连接（第1个符号所表示）与电源（第10个符号所表示）不一样。

详解如下：第1个符号表示传感器过程连接“U”代表焊接螺纹接套DIN11850, 316L/1.4404“1”代表Tri-Clamp, 316L/1.4404 关于Tri-Clamp：即TC快速接头(Tri-clamps)常用于啤酒、乳业、饮料、制药等领域接头，材质一般为不锈钢，同时Tri-Clamp 也是Alfa-Laval 集团Tri-Clover 有限公司的注册商标，也称卫生级接头，卫生级管道在食品、医药等生产中洁净要求高的场合广泛采用，生产工艺要求无死角连接，且易清洗，一般情况下压力都不高，也就是俗称的“卡箍”连接，常用的TC接头有焊接端头（２个），垫圈和快装卡箍四个零件组成．市场上很容易买到。

TC 接头详细规格可以参考DIN 32676-2001 饮食业、化工业和医药业用配件.不锈钢管夹具接头.焊接式，德国的标准，看看接头和卡箍的图片，连接好后的样子标准中给出了。

应用ＣｅｒａｂａｒＭ系列压力变送器可以测量气体、蒸气和液体的表压和绝压，适用于各个领域的过程控制。

模块化的结构设计使其使用更加灵活方便。

技术资料ＴＩ３２１Ｐ／２８／ｚｈ智能型压力变送器ｃｅｒａｂａｒＭＰＭＣ４１，ＰＭＣ４５ｃｅｒａｂａｒＭＰＭＰ４１，ＰＭＰ４５采用陶瓷或扩散硅传感器，抗过载能力强可选：模拟型，智能型或ＰＲＯＦＩＢＵＳ－ＰＡ电子模块特性和优点·精度·传感器—干式电容陶瓷传感器压力可·电子部件外壳过程连接—线性度优于设定量程的０．２％—量程范围可调，ＴＤ１０：１—长期稳定性优于０．１％达４０ｂａｒ（６００ｐｓｉ）—抗过载能力强、密封性能好、能用于真空场合，抗腐蚀，耐磨损—扩散硅式金属膜片传感器压力可达４００ｂａｒ（６０００ｐｓｉ）—模拟式：经济型，响应速度快，尤其适用于快速反应过程。

—智能式：通过ＨＡＲＴ协议实现多种操作程序。

·不锈钢外壳，能满足食品及制药工业的特殊卫生要求。

环氧树脂涂层铝外壳符合过程工业的要求。

·螺纹连接，卫生型连接，法兰连接—ＰＲＯＦＩＢＵＳ－ＰＡ：数字通信ＰＭＣ４１Ｇ１／２ＡＰＭＣ４５ＤＩＮ１１８５１ＰＭＰ４５Ｍｉｎｉｃｌａｍｐ仪表型号ＰＭＣ４１带Ｇ／螺纹１２ＰＭＣ４１带／ＮＰＴ螺纹１２ＰＭＣ４５卫生型螺纹ＰＭＣ４５法兰式ＰＭＣ４５·齐平式陶瓷传感器，（）。

·测量范围：表压或绝压：１０ｍｂａｒ．．．４０ｂａｒ（０．１５ｐｓｉ．．．６０ｐｓｉ）·过程连接：—螺纹连接—卫生型连接—法兰连接·过程温度：－４０．．．＋１２５℃（－４０．．．＋２５７°Ｆ）１５０℃（３０２可持续ｍａｘ．１小时·不锈钢（１．４４０４／ＡＩＳＩ３１６Ｌ）或铝外壳·３Ａ认证和ＥＨＥＤＧ认证采用高净度９９．９％陶瓷，适用于易磨损和粘性介质，陶瓷材料经ＦＤＡ认证，适用于卫生型场合＋＋°Ｆ）ＰＭＣ４１·陶瓷传感器·测量范围：表压或绝压：１０ｍｂａｒ．．．４０ｂａｒ（０．１５ｐｓｉ．．．６００ｐｓｉ）·过程连接：标准型，所有普通的压力表连接·过程温度：－４０．．．＋１００℃（－４０．．．＋２１２°Ｆ）·不锈钢（１．４４０４／ＡＩＳＩ３１６Ｌ）或铝外壳，适用于各种工程应用领域中的压力测量ＰＭＰ４１内螺纹适配器ＰＭＰ４１齐平式薄膜ＰＭＰ４５ＤＩＮ１１８５１，ＤＮ２５ＰＭＰ４５小型卡口ＰＭＰ４１·扩散硅金属膜片传感器，适用于各种工程应用领域中的压力测量·测量范围：表压或绝压：１００ｍｂａｒ．．．４００ｂａｒ（１．５ｐｓｉ．．．６０００ｐｓｉ）·过程连接—齐平式膜片，Ｇ１／２外螺纹—内螺纹连接头（ＤＩＮ３８５２－Ｅ－Ｇ１／２）和其他螺纹型式可选—连接头可更换：采用密封圈或气密焊接方式连接·过程温度：－４０．．．＋１００℃（－４０．．．＋２１２°Ｆ）·不锈钢（１．４４０４／ＡＩＳＩ３１６Ｌ）或铝外壳ＰＭＰ４５·齐平式金属膜片传感器，适用于卫生型应用·测量范围：表压或绝压：１００ｍｂａｒ．．．４００ｂａｒ（１．５ｐｓｉ．．．６０００ｐｓｉ）·过程连接：—卫生型—螺纹型·过程温度：－４０．．．＋１２５℃（－４０．．．＋２５７°Ｆ）＋１５（３０，小时·不锈钢或铝外壳·认证０＋２°Ｆ）ｍａｘ．１（１．４４０４／ＡＩＳＩ３１６Ｌ）３Ａ外壳电子插件ＣｅｒａｂａｒＭ外壳为不锈钢材料，抗化学腐蚀，采用卫生型设计，便于清洗－－无死区，抗冷凝，适用于食品和制药行业。

eh压力变送器参数step7输入摘要：一、引言二、eh 压力变送器参数介绍1.压力范围2.输出信号3.工作温度三、step7 输入方式1.通信协议2.接线方式3.参数设置四、实际应用案例1.应用背景2.参数设置过程3.效果评估五、总结正文：压力变送器在工业自动化领域中有着广泛的应用，其中eh 压力变送器以其优越的性能受到许多用户的青睐。

本文将详细介绍eh 压力变送器的参数以及与step7 的输入方式。

一、引言首先，我们需要了解eh 压力变送器的基本参数，这些参数将决定其在不同场景下的适用性。

此外，了解与step7 的输入方式也有助于我们更好地使用和配置eh 压力变送器。

二、eh 压力变送器参数介绍1.压力范围eh 压力变送器的压力范围是其承受压力的上限和下限，用户在选择时需要根据实际应用场景选择合适的压力范围。

2.输出信号eh 压力变送器输出的信号有多种类型，如电流信号、电压信号等。

用户需要根据控制系统的要求选择合适的输出信号类型。

3.工作温度工作温度是影响eh 压力变送器性能的重要参数，用户在选择时需要确保其在要求的温度范围内正常工作。

三、step7 输入方式1.通信协议与step7 通信需要遵循特定的通信协议，如Profibus 协议等。

了解这些协议有助于我们更顺利地实现数据传输。

2.接线方式正确的接线方式是保证eh 压力变送器与step7 正常通信的基础。

用户需要参考相关资料，确保接线正确无误。

3.参数设置为了使eh 压力变送器与step7 更好地配合，需要对一些参数进行设置。

这些参数包括输出信号类型、通信波特率等。

四、实际应用案例1.应用背景在某工业生产线上，需要对压力进行实时监测，以保证生产过程的稳定进行。

2.参数设置过程首先，根据生产线的压力范围和工作温度选择合适的eh 压力变送器。

然后，根据控制系统的要求设置输出信号类型和通信协议。

最后，按照接线图正确接线。

3.效果评估经过一段时间的运行，发现eh 压力变送器与step7 配合良好，能够实时监测压力变化，有效地保证了生产过程的稳定进行。

TI256T/02/en 71073145Technical InformationOmnigrad M TR10Modular RTD assemblyprotection tube and neck tube, threadApplication •Universal range of application•Measuring range: -200...600 °C (-328...1112 °F)•Pressure range up to 50 bar (725 psi)•Degree of protection: up to IP 68Head transmittersAll Endress+Hauser transmitters are available with enhanced accuracy, reliability and cost effectiveness compared to directly wired sensors. Easy customizing by choosing one of the following outputs and protocols:•Analog output 4...20 mA •HART ®•PROFIBUS ® PA•FOUNDATION Fieldbus™Your benefits•High flexibility due to modular assembly with standard terminal heads and customized immersion length •Highest possible compatibility with a design according to DIN 43772•Neck tube for heat protection of head transmitter •Fast response time with reduced/tapered tip form •Types of protection for use in hazardous locations:Intrinsic Safety (Ex ia)Non-Sparking (Ex nA)4 0TR102Endress+HauserFunction and system designMeasuring principleThe Resistance Temperature Detector (RTD) element has an electrical resistance with a value of 100 Ω at 0 °C (32 °F). It is commonly known as Pt100 and complies with IEC 60751. This resistance value increases at higher temperatures according to the characteristics of the resistor material (platinum). These kind of sensors are called Positive Temperature Coefficient elements (PTC).The coefficient is fixed with α = 0.00385 °C -1, calculated between 0 and 100 °C (32 and 212 °F), according to ITS90 (International Temperature Scale 1990).Wire wound platinum resistance thermometers (WW) consist of hair thin highly purified platinum wire double wound inside a ceramic carrier. This is then sealed top and bottom with a ceramic protective layer. Themeasurements achieved by these resistance thermometers are not only highly reproducible, but also show long term resistance/temperature characteristic stability within temperature ranges up to 600 °C (1112 °F). This sensor type is relatively large in its dimensions and is also not very resistant to vibration.Thin film platinum resistance thermometers (TF) consist of a precise amount of platinum which is vaporized under vacuum onto a ceramic substrate to a thickness of 1 μm. This is then protected by a glass layer. The advantages are: smaller dimensions than wire wound and greatly improved vibration resistance. Thin film resistances (TF) are flat, microscopic versions of the wire wound types (WW) with a measurement relevant difference:The temperature expansion behavior of the different layers of this structure leads to minimal mechanical stress. Temperature changes in thin film resistances (TF) cause the desired temperature relevant changes of the resistance as well as minimal tension stress related resistance changes. Through this the resistance/temperature characteristic of most thin film platinum resistance thermometers (TF) differs considerably from the standard characteristics at higher temperatures. Thin film resistances are therefore used for temperature measurement in ranges below 500 °C (932 °F).Measuring systemExample of an applicationA Built-in RTD assembly TR10 with head transmitter BRIA261 Field display–The display measures an analog measurement signal and indicates this on the display. The display is connected in a 4 to 20mA current loop and also derives its supply from the loop. The voltage drop is almost negligible (<2.5V). The dynamic internal resistance (load) makes sure that independently from the loop current, the maximum voltage drop is never exceeded. The analog signal at the input is digitalized, analyzed, and shown in the rear illuminated display. For details see Technical Information (see chapter "Documentation").CActive barrier RN221N–The RN221N active barrier (24 V DC, 30 mA) has a galvanically isolated output for supplying voltage to loop powered transmitters. The power supply has a wide-range input for mains power, 20 to 250V DC/AC,50/60Hz to be used in any electrical circuit. For details see Technical Information (see chapter "Documentation").TR10Endress+Hauser 3Equipment architectureEquipment architecture of the Omnigrad M TR10The Omnigrad M TR10 RTD assemblies are modular. The terminal head serves as a connection module for the protection armature in the process as well as for the mechanical and electrical connection of the measuring insert. The actual RTD sensor element is fitted in and mechanically protected within the insert. The insert can be exchanged and calibrated even during the process. Either ceramic terminal blocks or transmitters can be fitted to the internal base washer. Where required, threads or compression fittings can be fixed onto the protection armature.Measurement range-200 ... 600 °C (-328...1112 °F) according to IEC 60751Performance characteristicsOperating conditionsAmbient temperature12Insert (∅ 3 mm, 0.12 in) with mounted head transmitter, for exampleInsert (∅ 6 mm, 0.24 in) with mounted ceramic terminal block, for example 66a 6b Various tip shapes - detailed information see chapter ’tip shape’:Reduced or tapered for inserts with ∅ 3 mm (0.12 in)Straight or tapered for inserts with ∅ 6 mm (0.24 in)3Terminal headE Neck tube4Protection armatureL Immersion length5Threads as process connectionIL Insertion length = E + L + 10 mm (0.4 in)Terminal headTemperature in °C (°F)Without mounted head transmitter •Housing, material aluminum -40 to 100 ºC (-40 to 212 °F)•Housing, material polyamide -40 to 85 °C (-40 to 185 °F)With mounted head transmitter-40 to 85 °C (-40 to 185 °F)With mounted head transmitter and display -20 to 70 °C (-4 to 158 °F)TR10Process pressureThe pressure values to which the protection tube can be subjected at the various temperatures are illustratedby the figures below.Maximum permitted process pressure for tube diameter–Tube diameter 9 x 1 mm (0.35 in) -----------–Tube diameter 12 x 2.5 mm (0.47 in) - - - - - -A Medium water at T = 50 °C (122 °F)L Immersion lengthB Medium superheated steam at T = 400 °C (752 °F)P Process pressureMaximum flow velocityThe highest flow velocity tolerated by the protection tube diminishes with increasing immersion lengthexposed to the stream of the fluid. Detailed information may be taken from the figures below.Flow velocity depending on the immersion length–Tube diameter 9 x 1 mm (0.35 in) -----------–Tube diameter 12 x 2.5 mm (0.47 in) - - - - - -A Medium water at T = 50 °C (122 °F)L Immersion lengthB Medium superheated steam at T = 400 °C (752 °F)v Flow velocityShock and vibration resistance4g / 2 to 150 Hz as per IEC 60068-2-64Endress+HauserTR10Endress+Hauser 5AccuracyRTD corresponding to IEC 60751!Note!For measurement errors in °F, calculate using equations above in °C, then multiply the outcome by 1.8.Response timeTests in water at 0.4 m/s (1.3 ft/s), according to IEC 60751; 10 K temperature step changes:!Note!Response time for the sensor assembly without transmitter.Insulation resistanceInsulation resistance ≥100 M Ω at ambient temperature.Insulation resistance between each terminal and the sheath is tested with a voltage of 100 V DC.1)|t| = absolute value °CProtection tube DiameterResponse time Reduced tip ∅ 5.3 mm (0.2 in)Tapered tip∅ 6.6 mm (0.26 in) or ∅ 9 mm (0.35 in)Straight tip9 x 1 mm (0.35 in)t 50t 907.5 s21 s 11 s 37 s 18 s 55 s 11 x 2 mm (0.43 in)t 50t 907.5 s 21 s not available not available 18 s 55 s 12 x 2.5 mm (0.47 in)t 50t 90not available not available11 s 37 s38 s 125 sTR106Endress+HauserSelf heatingRTD elements are not self-powered and require a small current be passed through the device to provide a voltage that can be measured. Self-heating is the rise of temperature within the element itself, caused by the current flowing through the element. This self-heating appears as a measurement error and is affected by the thermal conductivity and velocity of the process being measured; it is negligible when an Endress+Hauser iTEMP ® temperature transmitter is connected.Calibration specificationsThe manufacturer provides comparison temperature calibration from -80 to +600 °C (-110 °F to 1112 °F) based on the International Temperature Scale of 1990 (ITS90). Calibrations are traceable to national and international standards. The calibration report is referenced to the serial number of the thermometer.MaterialTransmitter specificationsInsert-Ø:6 mm (0.24 in) and 3 mm (0.12 in)Minimum insertion length IL in mm (inch)Temperature rangewithout head transmitterwith head transmitter -80 °C to -40 °C (-110 °F to -40 °F)200 (7.87)-40 °C to 0 °C (-40 °F to 32 °F)160 (6.3)0 °C to 250 °C (32 °F to 480 °F)120 (4.72)150 (5.9)250 °C to 550 °C (480 °F to 1020 °F)300 (11.81)550 °C to 650 °C (1020 °F to 1202 °F)400 (15.75)Material Short description max. application temperature Features and benefits SS 316L/1.4404X2CrNiMo 17 13 2800 °C (1472 °F)•Austenitic, stainless steel •High corrosion resistance•High resistance at low temperatures•Optimal corrosion resistance in an acid, non oxydizing environment(e.g. phosphorous and sulphuric acids in low concentration and at low temperatures)•Not resistant to chloride at high temperatures SS 316Ti/1.4571X6CrNiMoTi 17 12 2800 °C (1472 °F)•Austenitic, stainless steel •High corrosion resistance•High resistance at low temperatures•Optimal corrosion resistance in an acid, non oxydizing environment (e.g. phosphorous and sulphuric acids in low concentration and at low temperatures)•Not resistant to chloride at high temperaturesHastelloy ® C276/2.4819NiMo 16 Cr 15 W 600 °C (1112 °F)•Specially high resistance against aggressive oxydizing and reducing media, even at high tempe-ratures.•Especially resistant against: sulphuric acid, high chloride contents, hot concentrated acetic acid chloride, chrome acetic acids, copper chloride, metal chloride TMT180PCP Pt100TMT181PCP Pt100, TC, Ω, mVTMT182HART ®Pt100, TC, Ω, mVTMT84 PA / TMT85 FF Pt100, TC, Ω, mVMeasurement accuracy0.2 °C (0.36 °F), optional 0.1 °C (0.18 °F) or 0.08%0.2 °C (0.36 °F) or 0.08%0.1 °C (0.18 °F)% is related to the adjusted measurement range (the larger value applies)Sensor current Ι ≤ 0.6 mAΙ ≤ 0.2 mAΙ ≤ 0.3 mAGalvanic isolation (input/output)-Û = 3.75 kV ACU = 2 kV ACTR10Endress+Hauser 7Transmitter long-term stability ≤ 0.1 °C/year (≤ 0.18 °F / year) or ≤ 0.05% / yearData under reference conditions; % relates to the set span. The larger value applies.System componentsFamily of temperature transmittersMeasurement assemblies with iTEMP ® transmitters are an installation ready solution to improve thefunctionality of temperature measurement by increasing accuracy and reliability when compared to direct wired sensors. Overall installation costs are lower than with direct wired sensors, since an inexpensive pair of signal (4 to 20 mA) wires can be run over long distances.PC programmable devices TMT180 and TMT181PC programmable head transmitters offer you extreme flexibility and help control costs with the ability to stock one device and program it for your needs. Regardless of your choice of output, all iTEMP ® transmitters can be configured quickly and easily with a PC. To help you with this task, Endress+Hauser offers free software ReadWin ® 2000 which can be downloaded from our website. Go to to download ReadWin ® 2000 today. Details see Technical Information (see chapter ’Documentation’).HART ® TMT182 head transmitterHART ® communication is all about easy, reliable data access and getting better information moreinexpensively. iTEMP ® transmitters integrate seamlessly into your existing control system and provide painless access to preventative diagnostic information.Configuration with a DXR275 or 375 hand-held or a PC with configuration program (FieldCare, ReadWin ® 2000) or configure with AMS or PDM. Details see Technical Information (see chapter ’Documentation’).PROFIBUS ® PA TMT84 head transmitterUniversally programmable head transmitter with PROFIBUS ® PA communication. Converting various input signals into a digital output signal. High accuracy over the complete ambient temperature range. Swift and easy operation, visualization and maintenance using a PC directly from the control panel, e. g. using operating software such as FieldCare, Simatic PDM or AMS. DIP switch for address setting, makes start up and maintenance safe and reliable.Benefits are: dual sensor input, highest reliability in harsh industrial environments, mathematic functions, thermometer drift monitoring, sensor back-up functionality, sensor diagnosis functions and sensor-transmitter matching using Callendar-Van Dusen coefficients. Details see Technical Information (see chapter ’Documentation’).!Note!The previous model PROFIBUS ® PA TMT184 head transmitter will be available for a transition time.FOUNDATION Fieldbus™ TMT85 head transmitterUniversally programmable head transmitter with FOUNDATION fieldbus™ communication. Converting various input signals into a digital output signal. High accuracy over the complete ambient temperature range. Swift and easy operation, visualization and maintenance using a PC directly from the control panel, e. g. using operating software such as ControlCare from Endress+Hauser or the NI Configurator from National Instruments.TR10Benefits are: dual sensor input, highest reliability in harsh industrial environments, mathematic functions,thermometer drift monitoring, sensor back-up functionality, sensor diagnosis functions and sensor-transmittermatching using Callendar-Van Dusen coefficients. Details see Technical Information (see chapter’Documentation’).Terminal heads All terminal heads have internal geometry according to DIN 43729, form B and thermometer connectionM24x1.5.All dimensions in mm (inch). All cable gland dimensions in the graphics are based on SKINTOP ST M20x1.58Endress+HauserTR10Endress+Hauser9TR1010Endress+HauserEndress+Hauser 11Protection tube All dimensions in mm (inches).Dimensions of the Omnigrad M TR10Tip shapeAvailable versions of protection tube tips (reduced, straight or tapered)AModel with terminal block mounted ∅ ID Insert diameterB Model with head transmitter mounted IL Insertion length = E + L + 10 mm (0.4 in)C Model with flying leads L Immersion lengthE Neck tube length ∅ X Protection tube diameterPos. No.Tip shape, L = Immersion length Insert Diameter M Reduced, L ≥ 70 mm (2.76 in)∅ 3 mm (0.12 in)R Reduced, L ≥ 50 mm (1.97 in)1)1)not with material Hastelloy ® C276/2.4819∅ 3 mm (0.12 in)S Straight∅ 6 mm (0.24 in)T Tapered, L≥ 90 mm (3.54 in)∅ 3 mm (0.12 in)W Tapered DIN43772-3G, L ≥ 115 mm (4.53 in)∅ 6 mm (0.24 in)12Endress+HauserWeightFrom 0.5 to 2.5 kg (1 to 5.5 lbs) for standard options.Process connectionSpare parts•A thermowell is available as spare part TW10 (see Technical Information in chapter ’Documentation’).•The RTD insert is available as spare part TPR100 (see Technical Information in chapter ’Documentation’).If spare parts are required, refer to the following equation: Insertion length IL = E + L + 10 mm (0.4 in)WiringWiring diagramsType of sensor connectionSpare partMaterial-No.Gasket M21-G½", copper 60001328Gasket M27-G¾", copper 60001344Gasket M33-G1", copper60001346Gasket set M24x1.5, aramid+NBR (10 pieces)60001329Endress+Hauser 13Installation conditionsOrientationNo restrictions.Installation instructionsInstallation examplesA - B: In pipes with a small cross section the sensor tip should reach or extend slightly past the center line of the pipe (= L).C - D:Tilted installation.The immersion length of the thermometer influences the accuracy. If the immersion length is too small then errors in the measurement are caused by heat conduction via the process connection and the container wall. If installing into a pipe then the immersion length must be at least half of the pipe diameter.•Installation possibilities: Pipes, tanks or other plant components•Minimum immersion length = 80 to 100 mm (3.15 to 3.94 in)The immersion length must be at least 8 times the protection tube diameter. Example: Protection tubediameter 12 mm (0.47 in) x 8 = 96 mm (3.8 in). Recommended standard immersion length according toDIN 43772: 120 mm (4.72 in)•ATEX certification: Always take note of the installation regulations!!Note!When operating in small nominal bore pipes it must be guaranteed that the protection tube tip is long enoughto extend past the pipe center line (see Pos. A and B). A further solution could be an angled (tilted) installation(see Pos. C and D). When determining the immersion length all thermometer parameters and the process tobe measured must be taken into account (e.g. flow velocity, process pressure).Neck tube length The neck tube is the part between the process connection and the housing. It is normally made of a tube withdimensional and physical characteristics (diameter and material) which are the same as of the tube in contactwith the medium.The connection situated in the upper part of the neck allows for orientation of the terminal head.As illustrated in the following figure, the neck tube length may influence the temperature in the terminal head.It is necessary that this temperature is kept within the limit values defined in the chapter "Operatingconditions".Heating of the terminal head consequent to the process temperature14Endress+HauserCertificates and approvalsCE Mark The device meets the legal requirements of the EC directives if applicable. Endress+Hauser confirms that thedevice has been successfully tested by applying the CE mark.Hazardous area approvals For further details on the available Ex versions (ATEX, CSA, FM, etc.), please contact your Endress+Hausersales organization. All relevant data for hazardous areas can be found in separate Ex documentation. If required,please request copies from us or your Endress+Hauser sales organization.Other standards and guidelines •IEC 60529:Degrees of protection by housing (IP-Code).•IEC 61010-1:Safety requirements for electrical measurement, control and laboratory instrumentation.•IEC 60751:Industrial platinum resistance thermometer•DIN43772:Protection tubes•EN 50014/18, DIN 47229:Terminal heads•IEC 61326-1:Electromagnetic compatibility (EMC requirements)PED approval The Pressure Equipment Directive (97/23/CE) is respected. As paragraph 2.1 of article 1 is not applicable tothese types of instruments, the CE mark is not requested for the RTD assembly destined for general use. Material certification The material certificate 3.1 (according to standard EN 10204) can be directly selected from the sales structureof the product and refers to the parts of the sensor in contact with the process fluid. Other types of certificatesrelated to materials can be requested separately. The "short form" certificate includes a simplified declarationwith no enclosures of documents related to the materials used in the construction of the single sensor andguarantees the traceability of the materials through the identification number of the thermometer. The datarelated to the origin of the materials can subsequently be requested by the client if necessary.Test on protection tube The pressure tests are carried out at ambient temperature in order to verify the resistance of the protection tubeto the specifications indicated by the norm DIN 43772. With regards to the protection tubes that do not complywith this norm (with a reduced tip, a tapered tip on a 9 mm (0.35") tube, special dimensions, ...), the pressureof the corresponding straight tube with similar dimensions is verified. The sensors certified for use in Ex Zones,are always tested to pressure according to the same criterions. Tests at different pressures can be carried outupon request. The liquid penetrant test verifies the absence of crevices on the weldings of the protection tube. Test report and calibration With regards to the tests and calibration, the "Inspection Report" consists of a compliance declaration for theessential points of the standard IEC 60751.The "Factory calibration" is carried out in an EA (European Accreditation) authorized laboratory ofEndress+Hauser according to an internal procedure. A calibration may be requested separately according to anEA accredited procedure (SIT calibration). Calibration is carried out on the thermometer insert.Endress+Hauser15Ordering informationProduct structure RTD thermometer TR10Approval:A Non-hazardous areaB ATEX II 1 GD EEx ia IICE ATEX II 1/2 GD EEx ia IICG ATEX II 1 G EEx ia IICH ATEX II 3 GD EEx nA IIK TIIS Ex ia IIC T4L TIIS Ex ia IIC T6Head; Cable Entry:B TA30A Alu, IP66/IP68; M20C TA30A Alu, IP66/IP68; NPT ½"D TA30A Alu, IP66/IP67; M12 plug PAE TA21E Alu, screw cap IP65; M12 plug PAF TA30A Alu+display, IP66/IP68; M20G TA30A Alu+display, IP66/IP68; NPT ½"H TA30A Alu+display, IP66/IP67; M12 plug PAJ TA20J 316L, IP66/IP67; M20K TA20J 316L, + display, IP66/IP67; M20M TA20J 316L, IP66/IP67; M12 plug PAN TA20R 316L, screw cap IP66/IP67; M20 silicone freeO TA30D Alu, high cover, IP66/IP68; M20P TA30D Alu, high cover, IP66/IP68; NPT ½"Q TA30D Alu, IP66/IP67; M12 plug PAR TA20R 316L screw cap IP66/IP67; M20S TA20R 316L screw cap IP66; M12 plugT TA30A Alu, IP66/IP67; 7/8" plug FFU TA30A Alu+display, IP66/IP67; 7/8" plug FFV TA30D Alu, IP66/IP67; 7/8" plug FF7TA20B PA black, IP65; M20Pipe Diameter; Material:A9 mm; 316L, DIN43772-2GB11 mm; 316L, DIN43772-2GD9 mm; 316Ti, DIN43772-2GE11 mm; 316Ti, DIN43772-2GF12 mm; 316Ti, DIN43772-2G/3GG9 mm; Alloy C276, DIN43772-2GH11 mm; Alloy C276, DIN43772-2GNeck Length E:180 mm, DIN43772-2G282 mm, DIN43772-3G3145 mm, DIN43772-2G4147 mm, DIN43772-3G8... mm9..... mm, as specifiedProcess Connection:BG Thread M20; 316TiBH Thread G ½" A; 316TiBJ Thread G 1" A; 316TiCA Thread G ½"; 316LCB Thread G ¾"; 316LCC Thread G 1"; 316LCD Thread NPT ½"; 316LCE Thread NPT ¾"; 316LHD Thread NPT ½"; Alloy C276HH Thread G ½" A; Alloy C276JA Thread R ½"; JIS B 0203, 316LJB Thread R ¾"; JIS B 0203, 316L16Endress+HauserTip Shape:M Reduced, L ≥ 70 mmR Reduced, L ≥ 50 mmS StraightT Tapered, L ≥ 90 mmW Tapered DIN43772-3G, L ≥ 115 mmImmersion Length L:A70 mmC120 mmD160 mmE220 mmF250 mmG280 mmH310 mmJ400 mmK580 mmX... mmY..... mm, as specified150 mm260 mm480 mm5100 mmHead Transmitter; Range:B TMT84 PAC Terminal blockD TMT85 FFF Flying leadsG TMT181 (PCP); temp. range to be specifiedH TMT182 (HART); temp. range to be specified2TMT180-A21 fix; 0.2 K, temp. range to be specified, Span limit -200/650 °C3TMT180-A22 fix; 0.1 K, temp. range to be specified, Span limit -50/250 °C4TMT180-A11 PCP; 0.2 K, temp. range to be specified, Span limit -200/650 °C5TMT180-A12 PCP; 0.1 K, temp. range to be specified, Span limit -50/250 °CRTD; wire; meas. range; class; validity:A1x Pt100 WW; 3; -200/600 °C; A: -200/600 °CB2x Pt100 WW; 3; -200/600 °C; A: -200/600 °CC1x Pt100 WW; 4; -200/600 °C; A: -200/600 °CF2x Pt100 WW; 3; -200/600 °C; 1/3B; 0/250 °CG1x Pt100 WW; 3; -200/600 °C; 1/3B; 0/250 °CY Special version, to be specified21x Pt100 TF; 3; -50/400 °C; A; -50/250 °C increas. vibr. resistance31x Pt100 TF; 4; -50/400 °C; A; -50/250 °C increas. vibr. resistance61x Pt100 TF; 3; -50/400 °C; 1/3B; 0/150 °C increas. vibr. resistance71x Pt100 TF; 4; -50/400 °C; 1/3B; 0/150 °C increas. vibr. resistanceMaterial Certificate:0Not needed1EN10204-3.1 Material2EN10204-3.1 Material, shortformTest Report:A Internal hydrost. pressure testB External hydrost. pressure testC Dye penetrant test, TW welding0Not neededTest/Calibration:A0, 100 °C, RTD-SignalB0, 100 °C, RTD-Signal, 4-20 mA/loopC0, 100 °C, RTD-Signal, 2 SensorsE0, 100, 150 °C, RTD-SignalF0, 100, 150 °C, RTD-Signal, 4-20 mA/loopG0, 100, 150 °C, RTD-Signal, 2 Sensors0Not neededTR10-← Order code (complete)This ordering information can give an overview about the available order options. The Endress+Hauser salesorganization can provide detailed ordering information and information on the order code.Endress+Hauser17DocumentationTechnical Information:•RTD Insert for Temperature Sensor Omniset TPR100 (TI268t/02/en)•Thermowell for temperature sensors Omnigrad M TW10 (TI261t/02/en)•Temperature head transmitter iTEMP® PCP TMT181 (TI070r/09/en)•Temperature head transmitter iTEMP® Pt TMT180 (TI088r/09/en)•Temperature head transmitter iTEMP® HART® TMT182 (TI078r/09/en)•Temperature head transmitter iTEMP® TMT84 PA (TI138r/09/en)•Temperature head transmitter iTEMP® TMT85 FF (TI134r/09/en)Hazardous area supplementary documentation:•Omnigrad TRxx RTD Thermometer ATEX II1GDor II 1/2GD (XA072r/09/a3)•Omnigrad TRxx, Omniset TPR100, TET10x, TPC100, TEC10x ATEX II 3GD EEx nA (XA044r/09/a3) Application example Technical information:•Field display RIA261 (TI083r/09/en)•Active barrier with power supply RN221N (TI073R/09/en)Instruments InternationalEndress+HauserInstruments International AGKaegenstrasse 24153 ReinachSwitzerlandTel.+41 61 715 81 00Fax+41 61 715 25 00info@TI256T/02/en/08.0871073145FM+SGML 6.0 ProMoDo。

TI00415P/28/ZH/19.15技术资料Cerabar T PMC131, PMP131, PMP135过程压力测量压力变送器，采用陶瓷传感器技术，带金属测量膜片用于绝压和表压测量，最大压力为400 bar (6000 psi)极高的稳定性、抗过载能力和可靠性应用Cerabar T 压力变送器用于气体、蒸汽、液体和粉尘的绝压和表压测量。

提供卫生型过程连接和螺纹过程连接。

优势一体式压力变送器采用工程学原理设计：•高重复性和长期稳定性•精确的多级量程，max. 400 bar (6000 psi)•Ceraphire ®陶瓷传感器：抗腐蚀、耐磨损和强抗过载能力•最高压力监控安全等级为SIL 2，符合IEC 61508/IEC 61511-1标准•传感器•干式电容式陶瓷传感器(Ceraphire ®)的最大量程为40 bar (600 psi)：–抗过载、抗真空压力、在交变负载作用下仍具有高稳定性–压阻式传感器带金属过程隔离膜片，最大量程为400 bar (6000 psi)Cerabar T2Endress+Hauser目录功能与系统设计 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3仪表选型 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3测量原理 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3测量系统 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4输入 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4测量变量 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4测量范围 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4输出 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5输出信号 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5负载 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5输出信号 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5输出电流 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5功率 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5开关频率 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5PLC 输入 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5感性负载 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5电源 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6PMC131 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6PMP131和PMP135 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7供电电压 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8残余波动电压 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8电缆入口 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8性能参数 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9参考操作条件 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9长期稳定性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9参考测量精度-模拟量输出 . . . . . . . . . . . . . . . . . . . . . . . . . . . 9开关点 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9上升时间(T90) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9零点输出和满量程输出的热变化 . . . . . . . . . . . . . . . . . . . . . . . 9较低量程值和满量程值的温度系数(TK) . . . . . . . . . . . . . . . . 10操作条件(安装) . . . . . . . . . . . . . . . . . . . . . . . . . . . .10安装方向 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10安装指南 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10安装位置的影响 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10操作条件(环境) . . . . . . . . . . . . . . . . . . . . . . . . . . . .11环境温度范围 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11储存温度范围 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11气候等级 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11防护等级 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11抗振性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11电磁兼容性(EMC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11操作条件(过程) . . . . . . . . . . . . . . . . . . . . . . . . . . . .12过程温度范围 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12抗过载压力 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12抗真空压力 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12压力规格 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12机械结构 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13PMC131的外壳 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13PMC131的过程连接 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13PMP131和PMP135的外壳 . . . . . . . . . . . . . . . . . . . . . . . . . . 14PMP131的过程连接 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14PMP135的过程连接 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15重量 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15材料(非接液部件) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16材料(接液部件) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17操作单元 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18操作单元 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18证书和认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20CE 认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20防爆认证(Ex) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20压力设备准则(PED) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20功能安全性SIL 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20卫生过程测量适用性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20TSE 适用性证书 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20标准和准则 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20注册商标 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20订购信息 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21附件 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21带锥形密封的焊接颈 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21带平面密封的焊接颈 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21插座 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21连接电缆 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22插拔式显示单元PHX20/PHX21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22文档资料 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23应用文档 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23技术资料 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23操作手册 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23功能安全手册(SIL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23安全指南 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Cerabar T功能与系统设计仪表选型测量原理PMC131在过程压力作用下，传感器内的陶瓷过程隔离膜片发生轻微形变。

Detlabar S FMD76/77/78， PMD70/75 差压变送器操作手册目录1、安全手册 (3)1.1 设计用途 (3)1.2 安装、调试和操作 (3)1.3 操作安全性 (3)1.4 安全惯例和图标的注释 (4)2、认证 (4)2.1 仪表设计 (4)2.2 供货范围 (5)2.3 CE标志 (6)2.4 注册商标 (6)3、安装 (6)3.1 接收和存储仪表 (6)3.2 安装条件 (7)3.3 安装手册 (7)3.4 安装后的检查 (12)4．接线 (12)4．1 仪表的接线 (12)4.2 电子腔室的接线 (13)4．3 等电势 (15)4．4 接线后检查 (15)5．操作 (16)5．1 现场显示模块（可选） (16)5．2 操作按钮 (17)5．3 现场操作-不带就地现场显示 (19)5．4 现场操作-带现场显示 (22)5．6 TOF TOOL操作程序 (25)5.7 通过HART手持终端操作 (25)5．8 Commuwin II操作程序 (25)5．9 锁定/解锁操作 (26)5．10 工厂设定（重置） (27)6 调试 (28)6.1 功能检测 (28)6.2 语言选择与测量模式选择 (28)6.3 位置调节 (29)6.5 液位模式 (32)6.6 差压测量 (36)7 维护 (39)7.1 表面清洁 (39)8.故障排除 (39)8.1 错误信息 (39)8.2 输出响应错误 (45)8.3 确认错误信息 (46)8.4 维修 (46)8.5 带防爆认证的仪表维修 (46)8.6 备件 (47)8.7 返修仪表 (47)8.8 存储 (48)8.9 软件 (48)9.技术数据 (49)10 附件 (49)10.1现场显示，TOF TOOL和现场手操器的操作菜单 (49)10.2 HART Commuwin II操作矩阵 (49)索引1、安全手册1.1 设计用途Detlabar S 是测量差压、流量和液位的差压变送器。

[标签:标题]篇一：E+H压力变送器操作说明书cerabar S压力变送器操作手册目录1、安全手册 (4)1.1 设计用途 (4)1.2 安装、调试和操作 (4)1.3 操作安全性 (4)1.4 安全惯例和图标的注释 (4)2、认证 (5)2.1 仪表设计 (5)2.2 供货范围 (6)2.3 CE标志 (6)2.4 注册商标 (6)3、安装 (7)3.1 接收和存储仪表 (7)3.2 安装条件 (7)3.3 安装手册 (7)3.4 安装后的检查 (10)4．接线 (10)4．1 仪表的接线 (10)4.2 电子腔室的接线 (11)4．3 等电势 (13)4．4 接线后检查 (13)5．操作 (13)5．1 现场显示模块（可选） (14)5．2 操作按钮 (15)5．3 现场操作-不带就地现场显示 (17)5．4 现场操作-带现场显示 (18)5．5 HistoROM （可选） (19)5．6 TOF TOOL操作程序 (21)5.7 通过手持终端HART手操器操作 (21)5．8 Commuwin II操作程序 (22)5．9 锁定/解锁操作 (22)5．10 工厂设定（重置） (23)6 调试 (24)6.1 功能检测 (24)6.2 语言选择与测量模式选择 (24)6.3 位置调节 (25)6.4 压力测量 (26)6.5 液位测量 (28)7 维护 (30)7.1 表面清洁 (30)8.故障排除 (30)8.1 错误信息 (30)8.2 输出响应错误 (36)8.3 确认错误信息 (37)8.4 维修 (37)8.5 带防爆认证的仪表维修 (38)8.6 备件 (38)8.7 返修仪表 (38)8.8 存储 (39)8.9 软件 (39)9.技术数据 (40)10 附件 (40)10.1现场显示，TOF TOOL和现场手操器的操作菜单 (40)10.2 HART Commuwin II操作矩阵 (40)10.3 专利 (41)索引1、安全手册1.1 设计用途Cerabar S 是一种测量压力和液位的压力变送器。

一、原理
Language 显示/操作
设置
诊断Language √中文
English
显
示
/
操
作
显示方式
√测量值外部值
全部交替
增加的显示值
√无压力电流
温度测量值%
第一参数格式
√自动X
X.X
二、参数【校准（零点和阻尼）,单位,
量程,模电】
诊断
最小测量压力-0.0092MPa
最大测量压力0.2655MPa
三、选型（超量程）
设置
测量模式√压力液位
压力工程单位√Mpa Psi
修正后压力0.1630Mpa
零位调整√取消确认设置最小量程值
0.000MPa
设置最大量程值
0.200MPa
阻尼开关√开
阻尼值2.0S
阻尼后压力
0.1672MPa
扩展设置→电流输出
电流输出
压力报警特性P
√警告报警
报警电流开关
√软件设置
故障模式输出
√最大保持最小
高报警电流
22.00mA
设置最小电流值
√3.8mA（对应紫色） 4.0mA
输出电流
16.91mA
获得最小量程值
√取消确认
设置最小量程值0.00MPa
获得最大量程值
√取消确认
设置最小量程值2.00MPa
常见故障
1.漏（无垫片或一次阀未开）或堵（污染物）。

2.最大出厂量程选型过小，导致超压报警。