西门子DSIII压力传感器安装尺寸

SITRANS P , DS III PA 系列7MF4*34-...12/2003版本操作说明压力，压差和流量变送器，填充高度来自压差序列的绝对压力和来自压力序列的绝对压力PROFIBUS-PA 的DS III 系列操作手册版本 固件ID 牌照系统集成安装路径 PDM 02 FW: 300.01.03FW: 300.01.04 FW: 300.01.05 FW: 300.01.06PDM V.5.02 + SP1 Dev. R.1/2 SITRANS P DSIII 03 FW: 300.01.07 PDM V.5.02 + SP1 Dev. R.1/2SITRANS P DSIII 04 FW: 300.01.07 PDM V.5.02 + SP1 Dev. R.1/2 SITRANS P DSIII表1 说明手册历史目录目录安全相关事项的分级常规事项1技术说明.................................................................................................................................................1-11.1应用范围........................................................................................................................................1-11.2产品特性........................................................................................................................................1-11.3测量类型........................................................................................................................................1-21.3.1压力.................................................................................................................................1-21.3.2压差和流量......................................................................................................................1-21.3.3填充高度..........................................................................................................................1-21.3.4绝对压力..........................................................................................................................1-21.4设计和实用准则.............................................................................................................................1-31.4.1设计.................................................................................................................................1-31.4.2运行模式..........................................................................................................................1-51.4.2.1电子元件的运行模式.......................................................................................1-51.4.2.2压力................................................................................................................1-71.4.2.3压差和流量......................................................................................................1-71.4.2.4填充高度.........................................................................................................1-81.4.2.5来自压差序列的绝对压力................................................................................1-81.4.2.6来自压力序列的绝对压力................................................................................1-92PROFIBUS PA的通信结构 ...................................................................................................................2-12.1记录和处理测量值的块模型...........................................................................................................2-12.1.1压力测量模块..................................................................................................................2-22.1.2电子温度测量模块...........................................................................................................2-22.1.3模拟输入功能块...............................................................................................................2-22.1.4计数器功能块..................................................................................................................2-22.1.5本地操作和显示...............................................................................................................2-22.1.6使用参数连接模块...........................................................................................................2-32.1.7测量值显示参数...............................................................................................................2-32.2个别模块说明.................................................................................................................................2-42.2.1压力测量模块（变换模块1）..........................................................................................2-42.2.1.1线性化功能组的类型.......................................................................................2-52.2.1.2压力测量模块的单位.......................................................................................2-82.2.2电子温度测量模块...........................................................................................................2-82.2.3模拟输入功能块...............................................................................................................2-92.2.4计数器功能块................................................................................................................2-103系统集成.................................................................................................................................................3-13.1循环数据传输.................................................................................................................................3-13.1.1设置PROFIBUS地址......................................................................................................3-13.1.2组态.................................................................................................................................3-1目录3.1.2.1组态用户数据..................................................................................................3-23.1.2.2通过PROFIBUS传输用户数据.......................................................................3-33.1.2.3状态................................................................................................................3-43.1.2.4诊断................................................................................................................3-73.2非循环数据传输.............................................................................................................................3-94 本地操作和显示......................................................................................................................................4-14.1 通用操作指令.................................................................................................................................4-14.1.1 数字显示..........................................................................................................................4-14.1.2 测量值显示......................................................................................................................4-24.1.3 单位显示..........................................................................................................................4-24.1.4 误差信号..........................................................................................................................4-24.1.5 模式显示..........................................................................................................................4-34.2 键盘操作........................................................................................................................................4-34.2.1 测量值显示......................................................................................................................4-54.2.2 错误显示..........................................................................................................................4-54.2.3 模式4：电子灯...............................................................................................................4-64.2.4 模式7：零点调整(位置误差校正)....................................................................................4-64.2.5 模式10：键盘锁.............................................................................................................4-74.2.6 模式13：测量值显示源...................................................................................................4-74.2.7 模式14：物理单位..........................................................................................................4-94.2.8 模式15：PROFIBUS地址............................................................................................4-124.2.9 模式16：设备运行模式.................................................................................................4-124.2.10 模式17：小数点位置....................................................................................................4-134.2.11 模式18：零点调整显示.................................................................................................4-134.2.12 模式19：LO调整.........................................................................................................4-144.2.13 模式20：HI调整...........................................................................................................4-155 通过PROFIBUS-PA的功能/操作...........................................................................................................5-15.1 测量操作........................................................................................................................................5-15.2 设置...............................................................................................................................................5-15.2.1 压力测量..........................................................................................................................5-25.2.2 "填充高度(高度，容积和质量)测量".................................................................................5-25.2.2.1 高度测量.........................................................................................................5-25.2.2.2 容积测量.........................................................................................................5-3measurement.......................................................................................5-45.2.2.3 Mass5.2.3 流量测量..........................................................................................................................5-55.2.3.1 用于根函数的应用点，蠕变量抑制.................................................................5-65.2.3.2 流量测量校正..................................................................................................5-75.2.4 调整期望的过程变量.......................................................................................................5-75.2.5 电子阻尼..........................................................................................................................5-95.2.6 警告限与报警限...............................................................................................................5-95.2.7 故障行为........................................................................................................................5-115.2.7.1 输出..............................................................................................................5-11目录5.2.7.2 计数器输出....................................................................................................5-115.2.8 仿真...............................................................................................................................5-125.2.8.1 输出仿真.......................................................................................................5-125.2.8.2 输入仿真.......................................................................................................5-125.2.8.3 压力传感器仿真............................................................................................5-135.2.8.4 传感器和电子温度仿真.................................................................................5-145.2.9 校度间隔与服务间隔.....................................................................................................5-145.2.9.1 警告..............................................................................................................5-155.2.9.2 报警..............................................................................................................5-155.2.10 从站指针........................................................................................................................5-155.2.11 操作小时计数器.............................................................................................................5-165.2.12 传感器调节....................................................................................................................5-175.2.13 位置错误调节................................................................................................................5-185.2.14 复位...............................................................................................................................5-185.2.14.1 复位到出厂状态............................................................................................5-185.2.14.2 重启动(暖启动)..............................................................................................5-185.2.14.3 将PROFIBUS地址复位到126.....................................................................5-195.2.15 操作员输入约束.............................................................................................................5-196模块化设计..............................................................................................................................................6-17安装 .......................................................................................................................................................7-17.1 安装（液位除外）........................................................................................................................7-27.1.1 无支架安装......................................................................................................................7-37.1.2 带支架安装......................................................................................................................7-37.2 安装液位变送器............................................................................................................................7-57.2.1 安装.................................................................................................................................7-57.2.2 连接低压管道..................................................................................................................7-67.3 相对于壳体旋转测量单元..............................................................................................................7-77.4 电气连接.......................................................................................................................................7-97.4.1 连接螺丝端子................................................................................................................7-107.4.2 用插头 M12 进行连接..................................................................................................7-117.5 转动数字显示部分......................................................................................................................7-138调试.........................................................................................................................................................8-18.1 差压系列中的压力、绝对压力变送器和压力系列中的绝对压力变送器.........................................8-28.1.1 测量气体..........................................................................................................................8-38.1.2 测量水蒸气和液体...........................................................................................................8-48.2 差压和流量...................................................................................................................................8-58.2.1 测量气体..........................................................................................................................8-58.2.2 测量液体..........................................................................................................................8-68.2.3 测量水蒸气......................................................................................................................8-89技术数据 ...............................................................................................................................................9-19.1 标称测量范围和负载限制..............................................................................................................9-6目录9.1.1 压力.................................................................................................................................9-69.1.2 差压和流量......................................................................................................................9-69.1.3 压力系列中的绝对压力....................................................................................................9-79.1.4 差压系列中的绝对压力....................................................................................................9-79.1.5 液位.................................................................................................................................9-89.2 外形尺寸........................................................................................................................................9-810维护和保养 ..........................................................................................................................................10-1 11PROFIBUS ..........................................................................................................................................11-111.1传输方法......................................................................................................................................11-111.2拓扑结构......................................................................................................................................11-111.3PROFIBUS PA的属性.................................................................................................................11-311.3.1协议集...........................................................................................................................11-311.3.2接口技术........................................................................................................................11-412订货数据 .............................................................................................................................................12-112.1基本设备的订货数据....................................................................................................................12-212.2备件的订货数据...........................................................................................................................12-912.3附件的订货数据.........................................................................................................................12-13 13合格证...................................................................................................................................................13-1 14索引.......................................................................................................................................................14-115附录.......................................................................................................................................................15-115.1文献和目录..................................................................................................................................15-115.2出错消息和状态代码一览表.........................................................................................................15-215.3合格证..........................................................................................................................................15-6安全相关事项的等级安全相关事项的分级应当遵守本手册讲述的注意事项，以保证自身安全，并保护产品及所连接的设备。

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Easy Plus /download/docMessage.aspx?Id=1479963042926常问问题/自动化系统/WinCC（脚本、图形、归档、选件）如何在 WinCCComfort 和 WinCCAdvanced中安全地拷贝或移动归档数据？/download/docMessage.aspx?Id=1479875226762软件/自动化系统/SIMATIC S7-300/通讯在 S7-300/400(Step 7 V5.5)分布式外设中使用ET 200MP/ET200SP 的 PtP 指令/download/docMessage.aspx?Id=147972048宣传册/工业控制产品/开关控制器件/软启动器3RW51 软起动器/download/docMessage.aspx?Id=147968601宣传册/其他西门子化工行业解决方案/ download/docMessage.aspx?Id =14795782宣传册/其他矿井提升机电控系统的全面技术解决方案/ download/docMessage.aspx?Id =14794781宣传册/其他矿井提升机-最高安全性成就最高生产率/ download/docMessage.aspx?Id =14793109755863应用与工具/自动化系统/LOGO!, SITOP, SIYOUNG 楼宇管理系统中的LOGO! -基本照明电路/download/docMessage.aspx?Id=14792109749187应用与工具/自动化系统/工业软件/STEP 7 (TIAPortal)使用 TIA Portal实现数字化：使用SIMATIC 和Simulink进行虚拟调试/download/docMessage.aspx?Id=14791109754823应用与工具/自动化系统/工业软件/STEP 7 (TIAPortal)使用 TIA Portal实现数字化：通过基于 SIMATIC S7-PLCSIM Advanced的基本行为建模进行虚拟调试/download/docMessage.aspx?Id=1479082203451应用与工具/自动化系统/SIMATIC S7-1200/CPU 适用于 SIMATICS7 CPU 中的SNTP服务器功能的库(LSNTP)/download/docMessage.aspx?Id=14789109483251应用与工具/自动化系统/SIMATIC S7-1200/通讯使用 S7-1200进行用户程序诊断/download/docMessage.aspx?Id=1478898210758应用与工具/自动化系统/SIMATIC S7-1500/通讯使用 S7-1500进行用户程序诊断/download/docMessage.aspx?Id=14787109748872应用与工具/自动化系统/SIMATIC S7-1500/通讯SIMATIC CPUMQTT 发布服务器/download/docMessage.aspx?Id=14786109742322应用与工具/自动化系统/工业软件/STEP 7 (TIAPortal)简化 TIA PortalOpenness接口使用的工具(OpennessScripter)/download/docMessage.aspx?Id=14785108716692应用与工具/自动化系统/工业软件/STEP 7 (TIAPortal)TIA PortalOpenness：简介和演示应用/download/docMessage.aspx?Id=14784109751076应用与工具/通信/网络/工业以太网/网络转换SIMATIC PN/CANLINK - SDO 通信/download/docMessage.aspx?Id=14783F1420常问问题/驱动技术/SINAMICSV系列变频器/SINAMICS V90S7-1200/1500通过TO控制V90时MC_Power的使用要求/download/docMessage.aspx?Id=14782A1229操作指南/通信/网络/PROFIBUS/PROFIBUS通信TIA中1500的DP接口模块和315-2DP之间的S7单边通信/download/docMessage.aspx?Id=147800027宣传册/其他全集成数字化套装Flyer / download/docMessage.aspx?Id =14778zip_0112宣传册/其他西门子全集成数字化应用论坛/ download/docMessage.aspx?Id =14777780宣传册/其他/行业应用/船舶应用矿产自动化标准解决方案/download/docMessage.aspx?Id=1477632469496软件/自动化系统/SIMATIC S7-1200/通讯用于 IO-LinkMaster 的 S7-PCTV3.5/download/docMessage.aspx?Id=1477568202723应用与工具/自动化系统/SIMATIC S7-1500/通讯基于 Modbus RTU协议，通过 CM PtP进行主从站通信/download/docMessage.aspx?Id=14773109750451应用与工具/自动化系统/ET200/ET 200L 带有 IO-link 的SIMATIC ET200AL 的工程组态/download/docMessage.aspx?Id=1477225209605应用与工具/自动化系统/SIMATIC S7-1500/通讯性能数据概览/download/docMessage.aspx?Id=1477082255083应用与工具/工业识别/RFID测定典型RFID设置和S7站点及应答器之间的传输时间/ download/docMessage.aspx?Id =14769zip_0111宣传册/其他西门子光伏中低压配电解决方案/ download/docMessage.aspx?Id =14768zip_0110宣传册/其他西门子储能系统解决方案/ download/docMessage.aspx?Id =14767zip_0109宣传册/其他西门子运动控制产品家族/ download/docMessage.aspx?Id =14766779宣传册/驱动技术/工程软件西门子工业模块化储能PCS 系统/ download/docMessage.aspx?Id =14765zip_0108宣传册/其他CIBF2018/download/docMessage.aspx?Id=14764zip_0107宣传册/其他CICEE 2018/download/docMessage.aspx?Id=147638037样本/过程仪表及分析仪器/流量测量仪表/超声波流量计SITRANSF外夹式超声波流量计样本/download/docMessage.aspx?Id=14762A1228操作指南/自动化系统/SIMATIC S7-1500/CPU S7-1500T连接S210实现运动控制的项目示例/download/docMessage.aspx?Id=14761A1227操作指南/通信/网络/PROFINET TIA中1500PLC做控制器和作为Idevice的CP343-1之间的ProfinetIO通信/download/docMessage.aspx?Id=147608132宣传册/通信/网络/工业以太网非网管型工业以太网交换机/download/docMessage.aspx?Id=14759F1419常问问题/自动化系统/WinCC（脚本、图形、归档、选件）/SIMATIC WinCC 选件在Energy ManagerPROV7.0的Web页面中不能删除已经加载的Widget,应该如何解决？/download/docMessage.aspx?Id=147583141宣传册/其他VersiCharge乐享系列交流充电桩/ download/docMessage.aspx?Id =14757F1418常问问题/通信/网络/PROFIBUS/PROFIBUS网络部件使用DP/DPCoupler时，如何确认本方DP系统设置无错/download/docMessage.aspx?Id=147568133宣传册/通信/网络/工业以太网SCALANCE X-200网管型工业以太网交换机/download/docMessage.aspx?Id=14755109753874常问问题/工业控制产品/马达保护装置SIMOCODE ES2007参数化和软件的替换及将项目移植到SIMOCODE ES TIA/download/docMessage.aspx?Id=14754109753967常问问题/工业控制产品/马达保护装置SIMOCODE pro基本单元和V2版本的电流/电压测量模块与软件SIMOCODE ES 2007的兼容性/download/docMessage.aspx?Id=14753109753966常问问题/工业控制产品/马达保护装置将项目从SIMOCODE ES2007移植到SIMOCODE ES (TIAPortal)需要注意些什么？/download/docMessage.aspx?Id=14752109475773常问问题/自动化系统/Panel/WinCCflexible/Protool/操作员控制及监视设备当使用Comfort面板或者WinCC (TIAPortal) AdvancedRuntime连接AB控制器"SLC 5/05"或者"SLC5/05"或者"MicroLogix" 系列时，如何实现最优化的访问？/download/docMessage.aspx?Id=14751109750878常问问题/自动化系统/WinCC（脚本、图形、归档、选件）/SIMATIC WinCC Basic 为什么会得到一个错误提示说明SmartServer授权不可用？/download/docMessage.aspx?Id=14750。

西门子流量计安装、调试方法简介一、西门子流量计安装：1、首先是接线常用:电源线——L1 / N (220VAC） PE(接地）或者1 / 2 （24VDC） PE（接地）模拟量输出——31+ / 32—（流量反馈：电流输出，可选择输出0-20mA或者4—20mA，接PLC模拟量输入模块）不常用:数字量输出--56+ / 57- （流量信号累计：脉冲开关量输出，接PLC输入模块）57+ / 58— (流量信号累计：脉冲开关量输出，接PLC输入模块或计数器）注意：需将传感器出来的85 / 86、82 / 0 / 83号线接到转换器接线板上对应的端子处（出厂时传感器的这些线接在自己的接线端子上，并未连接至转换器的接线板上)如下图所示：传感器接线柱如果是一体式安装（即流量计的传感器与转换器安装在一起),可直接将85 / 86、82 / 0 / 83号接线柱接至上面的转换器接线板:接至转换器接线板可参看《西门子电磁流量计手册》54页如果是分体式安装（即流量计的传感器与转换器没有安装在一起，是分开安装的）,则需要从传感器接线端子上引线，连接至转换器接线板，且必须采用屏蔽电缆线，以防止电磁干扰对传感器输出信号（mA级的电流信号,很微弱)造成影响:传感器引出线转换器接线板接入线可参看《西门子电磁流量计手册》54页2、需注意保管好西门子流量计的SENSORPROM芯片，每个流量计都有唯一的集成芯片SENSORPROM®存储器单元，出厂标定数据以及用户设定的参数都存储在该芯片内，是很重要的存储芯片,丢失会有诸多麻烦。

如果是一体式安装，该芯片安装方法如下（直接插接,注意不要损坏插针，并且确保插接紧实）：整体图现场图如果是分体式安装,安装方法如下（将针脚接入端子）：分体式安装3、内部接线完成后，还需注意进行良好接地，以确保流量计传感器外壳两端电势为零,不受外界电磁干扰。

絮凝剂流量计必须进行接地,因其管道可能采用PVC管,本身对地无连接，且旁边有220V交流稀释电磁阀，干扰较强。

过程仪表、过程分析、称重技术产品简介 • 2010目 录全系列现场仪表和过程分析仪表压力变送器、温度变送器、流量计和物位计智能电气阀门定位器用于直行程和角行程的执行机构过程调节器和过程记录仪气相色谱仪和气体分析仪称重系统、皮带秤、配料秤和固体流量计过程保护仪表通讯和控制、维护及诊断软件现场仪表的整体设计和标准化以及过程分析的全面解决方案。

过程仪表现在，在过程控制工业中是否具有竞争优势，主要取决于是否能够使过程控制更迅速、更灵活、更有效、更经济。

从生产管理一直到办公管理，从局部一直到全局，所有业务过程都需要有效同步、最佳协同和优化，以此来显著改进设备效率、设备适用性、设备利用率以及设备的质量。

通过全新系统的集成，创造更多商业机会。

西门子公司作为您的专业合作伙伴，将倾心满足您的要求。

几十年的工业过程测量、过程分析和过程控制经验，将西门子公司造就成为过程控制领域的卓越专家。

无论是过程气相色谱分析仪、物位测量，还是阀门定位器领域以及其它诸多产品，无论是市场占有率，还是在技术方面，西门子公司都一直保持着领先地位。

通过不断的技术创新和产品改进，西门子公司为各种过程自动化系统提供可靠、经济的解决方案。

不管是需要单独订购产品的应用场合，还是整个系统的全面解决方案，久经现场考验的“全集成自动化”平台理念均可实现数据管理、通讯、组态和编程的全面集成。

您的工业过程能从我们多功能的完整解决方案中获益。

标准PROFIBUS ，FF 或HART 通讯接口，使得系统更开放，现有系统和将来组件的集成将轻而易举。

再加上体贴入简介使用最佳的过程仪表和分析仪表，实现最优的完整解决方案微的西门子服务，从设计和专业的技术咨询，到认证阶段的调试和技术支持，一直到维护和专业培训，无一不彰显西门子品质。

总之：对于过程自动化系统中的所有现场仪表和分析仪表，西门子公司都将是为您提供“一站式解决方案”的合作伙伴。

过程分析称重技术简介西门子过程仪表、分析仪器及称重技术广泛应用于下列行业化工 制药 供水／水处理矿山、混凝土、水泥石油和天然气／石化纸浆、造纸食品饮料造船西门子提供全系列的压力、温度、流量和物位测量仪表；电气阀门定位器，过程调节器、记录仪和过程保护仪表。

A6V10432494_en--_dPressure SensorsQBE2003-P… QBE2103-P…for neutral and slightly aggressive liquids and gases• High-precision measuring• Measuring range 0 to 60 bar relative• Supply voltage AC 24 V / DC 12...33 V o r DC 7…33 V • DC 0 ...10 V or DC 4…20 mA output signal• Measurement unaffected by changes in temperature • High temperature stability• Connection: external thread G ½", inside thread M5• Maintenance free thanks to outstanding long-term stability • High overload resistance•Robust and compact construction1909P 012/6 UseThe pressure sensors are suitable for the measurement of relative pressure in HVAC plant, particularly in hydraulic and pneumatic systems using liquid or gaseous media (steam applications).Type summary*) These types do not have M5 inside threads.Ordering and deliveryWhen ordering a pressure sensor, please provide quantity, type reference, order number and product name.Any accessories required must be ordered separately.Accessories**) Cannot be used with types QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25. These types do not have M5 inside threads.Example3/6Mode of operationThe pressure sensors operate on the piezo-resistive measuring principle. The ceramic or stainless steel diaphram*) (thick-film hybrid technology) acquires the pressurethrough direct contact with the medium. The measurement is converted electronically into a linear output signal of DC 0...10 V or DC 4…20 mA.*) Applies to QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25Mechanical designThe pressure sensor consists of: • Sensor hood with DIN EN 175301-803-A plug-in connection • Piezo-resistive measuring element integrated in the stainless steel case • Pressure connection external thread G ½" and inside thread M5*) for use withaccessory AQB2001**)• Plug DIN EN 175301-803-A (plugged in) No changes or adjustments are possible.*) The following types do not have M5 inside threads:QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25 **) Cannot be used on types QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25. A solution on the construction side using the ½" threaded connection is possible.Mounting notesMounting Instructions are enclosed with the sensor. For further information aboutmounting location and mounting position refer to the sensor mounting user's manual at the BT download center: /bt/download .Appropriate measures must be taken to ensure a leak-proof fitting.To provide for test measurements without leakage of the medium, it is strongly recommended that an appropriate test adapter and shutoff device be fitted.The tapping point should be at the side, near the bottom of the pipe. Do not measure the pressure from the top of the pipe (where it may be affected by airlocks) or the bottom (where it may be affected by dirt).Always purge the system. 1909Z 03The tapping point should be at the top so that no condensate reaches the sensor.1909Z 04Ensure suitable constructions measures are undertaken to avoid pressure shocks in the plant; pressure shocks may damage the pressure sensor's diaphragm.In the event that pressure shocks are unavoidable, a panel screw (M5) may be able to weaken the effect. Contact in this case your nearest Siemens branch office.DisposalThe device is considered electrical and electronic equipment for disposal in terms of the applicable European Directive and may not be disposed of as domestic garbage.• Dispose of the device via the channels provided for this purpose. • Comply with all local and currently applicable laws and regulations.Pressure measurement with liquidsPressure measurement with condensing gasesImportant noteTechnical dataElectrical interface Power supplySupply voltage (QBE2003…)Current consumptionSupply voltage (QBE2103…)Current consumption Protection by extra low voltage (SELV, PELV) AC 24 V ±15%, 50...60 Hz or DC 12...33 V <7 mA, < 0.5 VADC 7…33 V<23 mA, < 0.7 VAExternal supply line protection Fuse slow max. 10 AorCircuit breaker max. 13 ACharacteristic B, C, D according to EN 60898orPower source with current limitation of max. 10 AOutput signal QBE2003…Output sig nal QBE2103…DC 0 ...10 V, load >10 kΩ, < 100 nF, 3-wireDC 4…20 mA, R Load ≤ Ohm 2-wireInsulation voltage 500VShort circuit proof, protected against reversepolarityAny connection Functional data Application range Refer to "Type summary"Measuring accuracy FS = Full scale Characteristic curve 1)ResolutionTemperature responseLong-term stability (as per IEC EN60770-1)±0.3 % FS0.1 % FS<±0.2 % FS/10 °C (-15…85°C)<±0.25 % FS1) typical; max. 0.5 % FS (including zero point, end value, linearity, hysteresis, and reproducibility)Dynamic response Response time: <2 ms, typical 1 msLoad change: < 100 HzNominal pressure Relative pressure as in "Type summary"(measurement of difference from ambient pressure) Max. admissible pressure/ Rupture pressure 3 x scale end value of measuring range0…1 to 0…4 bar2.5 x scale end value of measuring range0...6 to 0...60 barMediaAdmissible temperature of mediumNeutral and slightly corrosive liquids and gases(suited for use with oil-contacting media)−15...+125 °CMaintenance Maintenance-freeMounting position OptionalProtection Protection standard IP 65 to EN 60529Protection class III according to EN 60730Connections Electric connection Plug DIN EN 175301-803-A,Cable diameter 6-8 mmScrewed fitting External thread G ½", inside thread M5*)Environmental conditionsTemperatureHumidity O p e r a t i o n−30...+85 °CInsensitive to CondensationStorage−50...+100 °CInsensitive toCondensationOperating voltage – 7 V0,02 A4/65/6Directives and standardsProduct standardEN 61326-1Electrical equipment for measurement, control and laboratory use. EMC requirements. General requirementsMaterials Pressure connection Stainless steel 1.4404 / AISI 316L Plug housingPolyarylamide 50 % GF VOMaterials and media contact Press.connection Stainless steel 1.4404 / AISI 316LMeas.elem.**) Ceramics Al2O3 (96 %) Stainless steelSealantFPMle Conformity EU Conformity (CE)8000078214 ***) RCM ConformityCE1T1909en_C1 ***) Weight Including packaging0,171 kg*) The following types do not have M5 inside threads.QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25 **) Stainless steel for types QBE2003-P10, QBE2003-P16, QBE2003-P25, QBE2103-P10, QBE2103-P16, and QBE2103-P25***) The documents can be downloaded from /bt/download .Internal diagramQBE2003…QBE2103…6/6 DimensionsQBE2003-P… QBE2103-P…*) The following types do not have M5 interior threads: QBE2003-P10 QBE2003-P16 QBE2003-P25 QBE2103-P10 QBE2103-P16 QBE2103-P25。

Siemens Process Instrumentation Pressure, Temperature, Flow and Valve Instrumention User Manual ArchivesPressure Transmitters•Mycro XTC Models 340A and 340G Absolute and Gauge Pressure Transmitter-Controllers (SD340A/G, Issue 1, 3/92) - PDF 4.4 MB •Mycro XTC Differential Pressure Transmitter-Controller (SD340D, Issue 3, 2/93) - PDF 4.4 MB•Mycro XTC Models 340E and 340F Flanged Pressure Transmitter-Controller (SD340E/F -1, Issue 1, 10/92) - PDF 4.3 MB•XTC Transmitters Series 341 Pressure Transmitters (UM341, Rev 2, July 1998) - PDF 890K•User's Manual for XTC Transmitters, Series 340 Pressure Transmitter-Controllers (UM340-1, Rev. 5; April 2000) - PDF 1.9MB•ITT Conoflow Seals for XTC Transmitters (PI34-6, Rev 1, July 1995) - PDF 1.5 MB•SITRANS P, Pressure Transmitters, DS Series (precedes DSIII) 7MF4032 Operating Instructions (C73000-B5676-C82-1) - PDF 1.5 MB •SITRANS P, Absolute pressure transmitter, DS Series (precedes DSIII) 7MF4232 Operating Instructions (C79000-B5676-C92-01, 1999) - PDF 1.3 MB•SITRANS P, Absolute pressure transmitter, DS Series (precedes DSIII) 7MF4332 Operating Instructions (C73000-B5676-C84-1, 1994) - PDF 2.7 MB•SITRANS P, Differential pressure and flow transmitter, DS series (precedes DSIII) 7MF4432 and 7MF4532 Operating Instructions (C73000-B5676-C86-1, 1994) - PDF 3.1 MB•SITRANS P, Level transmitter, DS Series (precedes DSIII) 7MF4632 Operating Instructions (C73000-B5676-C88-1, 1994) - PDF 2.0 MB •TUV approved - Critical Pressure Transmitters, Model 345 User Manual (UM345-1, Rev. 3; April 2005) - PDF 3 MBTemperature•User's Manual for XTC Series 343 Temperature Transmitters (UM343-1, Rev. 2; March 1999) - PDF 3.3 MB•User's Manual for XTC Transmitter Series 344 (UM344-2, Issue 1, August 1995) - PDF 954KFlow•Model 140 MX Meter Body, SSPH Fluidic Flowmeter (SD140-1, Issue 4, 9/93) - PDF 700 KB•Model 140 MX Parts Drawing (No. 15344-78, 12/92) - PDF 69 KB•Model 14 Meter Body for Thermal or Deflection Sensor SSPH Fluidic Flowmeter (SD14-1, Issue 1, 4/83) - PDF 1.1 MB•Model Series 141 and 142 Fluidic Flowmeters (SD141, Issue 2, 12/92) - PDF 1.2 MB•Model 14 Q/I Converter For Fluidic Flowmeter with Thermal Sensor (SD14-2, Issue 3, 8/91) - PDF 3.4 MB•Model 14 Signal Converter for Meter Body with Deflection Sensor (SD14-3, Issue 1, 7/83) - PDF 1.6 MB•Model 14CNB SSPH Fluidic Flowmeter, Signal Converter Noise Compensation Kit Instructions (15900-1, Issue 1, 7/84) - PDF 199 KB •Analog 2-Wire Flow Transmitter (SD15973-10, Issue 2, 10/94) - PDF 991 KB•XTC Transmitters Model 340S SteaMeter (UM340S-1, Rev 2, 7/97) - PDF 970 KB•XTC Transmitters Model 340W Venturi Flow Transmitter (UM340W-1, Issue 1, 10/96) - PDF 658 KBValve Instrumentation•Model 70 Motion Transmitter Valve Positioner (SD70-6, 7/73) - PDF 415 KB•Model 71 Valve Positioners (SD71, 9/82) - PDF 392 KB•Series 71, 72, Side-Mounted Valve Positioners (SD72, Issue 8, 4/90) - PDF 1.9 KB•Series 711, 721 Valve Positioners (SD721-1, 6/74) - PDF 378 KB•Model Series 750E I/P Electronic Valve Positioner (SD750E, Rev 3; Jan.1992) - PDF 907KB•Model Series 750P Pneumatic Valve Positioner (SD750P, Issue 4, 7/94) - PDF 2.4 MB•User's Manual, Series 760D ValvePAC™ Digital Valve Controller (UM760D-1, Rev. 1; October 1998) PDF 1.5 MB•Model 760D ValvePAC Easy Start Instructions (Issue 1, 12/99) - PDF 199 KB•Model 772R Current-To-Pneumatic Transducing System (SD772R, Issue 1, 11/89) - PDF 934 KB•Model 773D I/PAC Current-To-Pneumatic Transducer (SD773D-1, Issue 3, 7/97) - PDF 1.2 MB•Model 773F I/PAC Current-To-Pneumatic Transducer (SD773F-1, Issue 2, 7/97) - PDF 1.2 MB•Model Series 781 Pneumatic to Electric Transducer (SD781, Issue 5, 6/82) - PDF 1.6 MB•Series 785 Multi-Point P/I Transducer (SD785, Issue 1, 12/86) - PDF 1.1 MB。

SICAM P20SICAM P21SICAM P22电流型三相电力智能仪表使用说明书V1.7概述1技术指标2功能介绍3操作与显示4安装与接线 5 通信 6 使用与维护7 产品型号和订货号8 售后服务91概述1.1 产品简介SICAM P20、P21 和P22 型三相电子式电流监测仪表用于测量电网三相电流值，它采用LCD 显示，可选择通过RS485进行数据采集，RS-485通信支持MODBUS-RTU和DL/T-645双通信规约。

本仪表广泛适用于变配电自动化系统、工业控制和工业自动化系统、能源管理系统和小区电力监控等场合。

本三相电子式多功能电能表符合以下标准：GB/T17215.301-2007 多功能电能表特殊要求DL/T614-2007 多功能电能表DL/T645-2007 多功能电能表通信规约Modbus-RTU1.2 产品特点本仪表采用了高精度采样计量单元和高速MCU数据处理单元，可实现高精度宽范围准确计量和快速数据分析；采用段码式多行宽视角液晶显示屏，显示内容很丰富；液晶配备白色背光，可满足黑暗环境下查阅数据的要求；采用非易失存储器存储各类数据，可长时间保存数据且掉电不丢失；支持RS485通信端口和工业标准通信规约，组网便捷灵活。

2技术指标项目技术指标产品标准GBT18216.12-2010 IEC61557-12:2007接线形式三相三线、三相四线、单相测量电流额定电流I n：1A、5A 测量范围：0.015~6A 最大测量范围：9A功耗：<0.3V A @5A 精度：RMS 0.2 % 分辨率：0.001A数字信号开关量输出（选配）1路电磁继电器输出常开型触点容量：AC 250V /3A；DC 30V /3A 开关量输入2路干接点输入（选配）光耦隔离，4000V RMS通信RS-485通信口接口类型：两线半双工通信速率：600bps~38400bps规约：Modbus-RTU 和DL/T-645环境工作温度-25℃~+60℃极限工作温度-35℃~+70℃相对湿度≤95%（无凝露）其它工作电源交流或直流电源输入最大范围：40V~420V功耗：≤ 2W，2.5V A @ 220V 尺寸外形尺寸(mm)：72×72×85开孔尺寸(mm)：67×67重量约300g防护等级IP513 功能介绍3.1参数测量功能本仪表可测量各相电流值、平均电流值以及零线电流值。

LMI series – digital low differential pressure sensorsFeatures–Ultra-low pressure ranges from 25 to 5000 Pa(0.1 to 20 inH2O)–Pressure sensor based on thermal micro- flow measurement–High flow impedance–very low flow-through leakage–high immunity to dust and humidity–no loss in sensitivity using long tubing–Outstanding long-term stability and precision with patented real-time offset compensation and linearization techniques–Total accuracy better than 0.5% FS typical –On-chip temperature sensor–Two user-driven modes of operation–low power mode (400 µA standby current)–continuous mode (5 ms sampling time)–Ideal for battery-operated applications–Linearized digital I²C output with 16 bit sigma-delta A/D conversion–Small footprint, low profile, only 9 mm in height, and robust package–Pressure ports for direct manifold assemblies –Highly versatile to fit to application-specific mounting adaptors and manifolds–Minimized internal volume and manifold mount option allow for fast gas purge time Certificates–Quality Management System according toEN ISO 13485 and EN ISO 9001–RoHS and REACH compliantMedia compatibilityAir and other non-corrosive gasesApplicationsMedical–Ventilators–Spirometers–CPAP–Sleep diagnostic equipment–Nebulizers–Oxygen conservers/concentrators–Insufflators/endoscopyIndustrial–HVAC–VAV–Filter monitoring–Burner control–Fuel cells–Gas leak detection–Fume hood–Instrumentation–Security systemsThe LMI differential low pressure sensors are based on thermal flow measurement of gas through a micro-flow channel integrated within the sensor chip. The innovative LMI technology features superior sensitivity especially for ultra low pressures. The extremely low gas flow through the sensor ensures high immunity to dust contamination, humidity and long tubing compared to other flow-basedpressure sensors.LMI series – digital low differential pressure sensorsPart no.Operating pressureProof pressure (5)Burst pressure (5)LMIS025U...0...25 Pa / 0...0.25 mbar (0.1 inH 2O) 2 bar (30 psi) 5 bar (75 psi)LMIS050U...0...50 Pa / 0...0.5 mbar (0.2 inH 2O)LMIS100U...0...100 Pa / 0...1 mbar (0.4 inH 2O)LMIS250U...0...250 Pa / 0...2.5 mbar (1 inH 2O)LMIS500U...0...500 Pa / 0...5 mbar (1 inH 2O)LMIM012U...0...1250 Pa / 0...12.5 mbar (5 inH 2O)LMIM025U...0...2500 Pa / 0...25 mbar (10 inH 2O)LMIM050U...0...5000 Pa / 0...50 mbar (20 inH 2O)LMIS025B...0...±25 Pa / 0...±0.25 mbar (0.1 inH 2O)LMIS050B...0...±50 Pa / 0...±0.5 mbar (0.2 inH 2O)LMIS100B...0...±100 Pa / 0...±1 mbar (0.4 inH 2O)LMIS250B...0...±250 Pa / 0...±2.5 mbar (1 inH 2O)LMIS500B...0...±500 Pa / 0...±5 mbar (2 inH 2O)LMIM012B...0...±1250 Pa / 0...±12.5 mbar (5 inH 2O)LMIM025B...0...±2500 Pa / 0...±25 mbar (10 inH 2O)LMIM050B...0...±5000 Pa / 0...±50 mbar (20 inH 2O)Specification notes(1) Recommendations only. Actually reflow settings depend on many factors, for example, number of oven heating and cooling zones, type of solder paste/flux used, board and component size, as well as component density. It is the responsibility of the customer to fine tune their processes for optimal results.(2) Handling instruction: Products are packaged in vacuum sealed moisture barrier bag with a floor life of 168hours (<30C, 60% R.H.). If floor life or environmental conditions have been exceeded prior to reflow assembly, baking (4) 5 shocks, 3 axes, MIL-STD-883E, Method 2002.4.(5) The max. common mode pressure is 5 bar.(6) For example with a LMIS500... sensor measuring CO 2 gas, at full-scale output the actual pressure will be:ΔP eff = ΔP Sensor x gas correction factor = 500 Pa x 0.56 = 280 PaΔP eff = True differential pressurePressure sensor characteristicsParameterSupply voltage V S 2.73.6V DC Output current1mASoldering recommendations Reflow soldering (1, 2)Average preheating temperature gradient 1.5K/s Time above 217 °C 74s Time above 240 °C 30Peak temperature245°C Cooling temperature gradient -1.4K/s Wave soldering, pot temperature 260°CHand soldering, tip temperature 370Temperature ranges Compensated 0+70°C Operating -20+80Storage-40+80Humidity limits (non-condensing)97 %RH Vibration (3)20gMechanical shock (4)500Maximum ratingsGas type Correction factor Dry air1.0Oxygen (O 2) 1.07Nitrogen (N 2)0.97Argon (Ar)0.98Carbon dioxide (CO 2)0.56Gas correction factors (6)LMI series – digital low differential pressure sensorsPerformance characteristics (7)(V S =3.3 V DC , T A =20 °C, P Abs =1 bara, calibrated in air, output signal is non-ratiometric to V S )ParameterMin.Typ.Max.Unit Current consumptionLow-power mode active 3.5 4.5mA (default)sleep0.40.75Continuous mode3.54.5Response time (t 63)5msPower-on time25ParameterMin.Typ.Max.Unit Scale factor (9)0...25/0...±25 Pa1200counts/Pa Noise level (RMS)±0.01PaOffset warm-up shiftless than noiseOffset long term stability (8)±0.02Pa/year Offset repeatability ±0.01PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±0.04±0.1PaSpan accuracy (10, 11)±0.75±1.5% of reading Thermal effects (-20...85 °C)Offset ±0.1PaSpan±0.2±0.5% of reading per 10 °C25 Pa devicesParameterMin.Typ.Max.Unit Scale factor(9)0...50/0...±50 Pa600counts/Pa Noise level (RMS)±0.01PaOffset warm-up shiftless than noiseOffset long term stability (8)±0.02Pa/year Offset repeatability ±0.01PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±0.04±0.1PaSpan accuracy (10, 11)±0.75±1.5% of reading Thermal effects (-20...85 °C)Offset ±0.2PaSpan±0.2±0.5% of reading per 10 °C50 Pa devicesSpecification notes (cont.)(7) The sensor is calibrated with a common mode pressure of 1 bar absolute. Due to the mass flow based measuring principle, variations in absolute common mode pressure need to be compensated according to the following formula: ΔP eff = ΔP Sensor x 1 bara/P abs ΔP eff = True differential pressureΔP Sensor = Differential pressure as indicated by output voltage P = Current absolute common mode pressure(8) Figure based on accelerated lifetime test of 1000 hours at 85 °C biased burn-in.(9) The digital output signal is a signed, two complement integer. Negative pressures will result in a negative output(10) Zero pressure offset accuracy and span accuracy are uncorrelated uncertainties. They can be added according to the principles of error propagation.(11) Span accuracy below 10% of full scale is limited by the intrinsic noise of the sensor.LMI series – digital low differential pressure sensorsPerformance characteristics (cont.) (7)(V S =3.3 V DC , T A =20 °C, P Abs =1 bara, calibrated in air, output signal is non-ratiometric to V S )ParameterMin.Typ.Max.Unit Scale factor(9)0...100/0...±100 Pa300counts/Pa Noise level (RMS)±0.01%FSSOffset warm-up shiftless than noiseOffset long term stability (8)±0.02%FSS/year Offset repeatability ±0.01PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±0.04±0.1PaSpan accuracy (10, 11)±0.75±1.5% of reading Thermal effects (-20...85 °C)Offset ±0.2PaSpan±0.3±0.5% of reading per 10 °C 100 Pa devicesParameterMin.Typ.Max.Unit Scale factor (9)0...250/0...±250 Pa120counts/Pa Noise level (RMS)±0.01%FSSOffset warm-up shiftless than noiseOffset long term stability (8)±0.02%FSS/year Offset repeatability ±0.02PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±0.08±0.25PaSpan accuracy (10, 11)±0.75±1.5% of reading Thermal effects (-20...85 °C)Offset ±0.5PaSpan±0.3±0.5% of reading per 10 °C 250 Pa devicesParameterMin.Typ.Max.Unit Scale factor (9)0...500/0...±500 Pa60counts/Pa Noise level (RMS)±0.01%FSSOffset warm-up shiftless than noiseOffset long term stability (8)±0.02%FSS/year Offset repeatability ±0.05PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±0.15±0.5PaSpan accuracy (10, 11)±0.75±1.5% of reading Thermal effects (-20...85 °C)Offset ±1PaSpan±0.3±0.5% of reading per 10 °C 500 Pa devicesSpecification notes (cont.)(7) The sensor is calibrated with a common mode pressure of 1 bar absolute. Due to the mass flow based measuring principle, variations in absolute common mode pressure need to be compensated according to the following formula: ΔP eff = ΔP Sensor x 1 bara/P abs ΔP eff = True differential pressureΔP Sensor = Differential pressure as indicated by output voltage P = Current absolute common mode pressure(8) Figure based on accelerated lifetime test of 1000 hours at 85 °C biased burn-in.(9) The digital output signal is a signed, two complement integer. Negative pressures will result in a negative output(10) Zero pressure offset accuracy and span accuracy are uncorrelated uncertainties. They can be added according to the principles of error propagation.(11) Span accuracy below 10% of full scale is limited by the intrinsic noise of the sensor.LMI series – digital low differential pressure sensorsPerformance characteristics (cont.) (7, 12)(V S =3.3 V DC , T A =20 °C, P Abs =1 bara, calibrated in air, output signal is non-ratiometric to V S )ParameterMin.Typ.Max.Unit Scale factor(9)0...1250/0...±1250 Pa24counts/Pa Noise level (RMS)±0.5PaOffset warm-up shiftless than noiseOffset long term stability (8)±0.5Pa/year Offset repeatability ±0.5PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±1±2.5PaSpan accuracy (10, 11)±1.5±3% of reading Thermal effects (-20...85 °C)Offset ±2.5PaSpan±0.3±0.5% of reading per 10 °C 1250 Pa devicesSpecification notes (cont.)(7) The sensor is calibrated with a common mode pressure of 1 bar absolute. Due to the mass flow based measuring principle, variations in absolute common mode pressure need to be compensated according to the following formula: ΔP eff = ΔP Sensor x 1 bara/P abs ΔP eff = True differential pressureΔP Sensor = Differential pressure as indicated by output voltage P = Current absolute common mode pressure(9) The digital output signal is a signed, two complement integer. Negative pressures will result in a negative output(10) Zero pressure offset accuracy and span accuracy are uncorrelated uncertainties. They can be added according to the principles of error propagation.(11) Span accuracy below 10% of full scale is limited by the intrinsic noise of the sensor.(12) For pressure ranges 1250 Pa and 2500 Pa, more accurate absolute pressure correction procedures than in (6) might be needed. See Application Note ParameterMin.Typ.Max.Unit Scale factor (9)0...2500/0...±2500 Pa12counts/Pa Noise level (RMS)±0.5PaOffset warm-up shiftless than noiseOffset long term stability (8)±0.5Pa/year Offset repeatability ±0.5PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±1±2.5PaSpan accuracy (10, 11)±1.5±3% of reading Thermal effects (-20...85 °C)Offset ±5PaSpan±0.3±0.5% of reading per 10 °C 2500 Pa devicesParameterMin.Typ.Max.Unit Scale factor (9)0...5000/0...±5000 Pa6counts/Pa Noise level (RMS)±1PaOffset warm-up shiftless than noiseOffset long term stability (8)±1Pa/year Offset repeatability ±1PaSpan repeatability (10, 11)±0.25% of reading Zero pressure offset accuracy (10)±2±5PaSpan accuracy (10, 11)±1.5±3% of reading Thermal effectsOffset (-20...85 °C)±10PaSpan (-5...85 °C)±0.3±0.75% of reading per 10 °C (-20...-5 °C)±0.75±1.5% of reading per 10 °C 5000 Pa devicesLMI series – digital low differential pressure sensorsPerformance characteristics (cont.)Specification notes (cont.)(13) Total accuracy is the combined error from offset and span calibration, Fig. 1: Typical total accuracy plot of 16 LMI 50 Pa sensors @ 25 °C (typical total accuracy better than 0.5 %FS)Fig. 2: Maximum total error band of 100/250/500Pa LMI sensorsT o t a l e r r o r b a n d [%]% of full scaleTotal accuracy(13)T o t a l e r r o r [%F S ]Pressure [Pa]Temperature sensorParameterMin.Typ.Max.Unit Scale factor (digital output)72counts/°CLMI series – digital low differential pressure sensors Noise plotFig. 3: Typical noise plot of a 100 Pa LMI sensorLMI series – digital low differential pressure sensors I²C bus interface specificationsIntroductionThe LMI serial interface operates using a standard 2-wire I²C bus. For detailed specifications of the I²C protocol, see UM10204 - I²C Bus Specification and User Manual from NXP.Care should be taken to ensure that the sensor is properly connected to the master microcontroller. Refer to the manufacturer's datasheet for more information regarding physical connections.Signal controlBus not busy: During idle periods, both data line (SDA) andclock line (SCL) remain HIGH.START condition (S): A HIGH to LOW transition of SDA while SCL is HIGH is interpreted as START condition. START conditions are always generated by the master. Each initial request for a pressure value has to begin with a START condition.STOP condition (P): A LOW to HIGH transition of SDA while SCL is HIGH defines a STOP condition. STOP conditions are always generated by the master. More than one request for the current pressure value can be transmitted without generation of intermediate STOP conditions. DATA valid (D): The state of SDA represents valid data when, after a START condition, SDA is stable for the duration of a HIGH period of SCL. SDA should only change during a LOW period of SCL. There is one SCL pulse per bit of data.Acknowledge (A): Data are transferred as bytes (i.e., 8 bits) on the serial bus, most-significant-bit (MSB) first. After each byte, the receiving device – master or slave – is obliged to pull SDA LOW to acknowledge the reception of data. The master device must generate an extraclock pulse for this purpose. When acknowledge is missed, the slave transmitter becomes inactive. The master device must either re-send the last command, or generate a STOP condition in this case.Slave address: The I²C-bus master-slave concept requires a unique address for each device. The LMI device’s address is modifiable based on the connection of the ADR0 and ADR1 pins. ADRx connected to GND represents logic-0, whereas a connection to VS represents logic-1. This allows for four unique assignable addresses:Base address(binary)ADR1ADR07-bit I²C address(binary)7-bit I²C address(hexadecimal) 101110010111000x5C0110111010x5D1010111100x5E1110111110x5FAfter generating a START condition, the master sends the address byte containing the 7-bit address, followed by a data direction bit (R/W). A "0" indicates a transmission from master to slave (WRITE), a "1" indicates adata request (READ).DATA operation: The sensor starts to send 2 data bytes containing the current pressure value (shown in Fig. 4 as “Readout of result”).LMI series – digital low differential pressure sensorsI²C bus interface specifications (cont.)Start pressure conversionWriting this command to the LMI device starts a conversion of pressure data. When the conversion is complete, the LMI device returns the pressure data in two bytes. The 15-bit conversion result is clocked outleast-significant byte first:Data are delivered in two’s complement format.Ensure that the bytes are re-ordered and the R bit is kept, padding the value to 16 bits, such that converting output to Pascals via scale factoris correct:This command wakes the device from sleep and starts a conversion. This conversion-start command only needs to be sent once;consecutive I²C read commands commands (i.e., the sensor address with the R/W bit set to "1" may be sent to continuously acquire new data from the device.From the digital sensor output the actual pressure value can be calculated as follows:I ²C command setThe LMI device implements the following commands:Command DescriptionType Bytes to read from LMI 0x11Reset firmwareW N/A 0x20Start pressure conversion W/R 20x23Retrieve electronic signatureW/R54Reset firmwareWriting this command to the LMI device resets the firmware’s program counter. The LMI device does not return any data to be read.Pressure [Pa] = Digital output [counts] Scale factor[ counts ]PaLMI series – digital low differential pressure sensors I²C bus interface specifications (cont.)LMI series – digital low differential pressure sensorsI²C bus interface specifications (cont.)Electronic signatureWriting this command to the LMI devices retrieves the sensor’selectronic signature. A sequence of 54 bytes should be read, providingthe following information:Sequence Parameter Size Data type Comment0-1Firmware version 2 bytes byte[2] array byte[1] -> major version number, byte[0] -> minor version number 2-12Part number (11 characters)11 bytes char[12] array13-19Lot number (7 characters)7 bytes char[7] array e.g. CV7T00120-21Pressure range 2 bytes unsigned int0 to 65535, MSB-first22Output type 1 byte char e.g. U or B23-24Scale factor 2 bytes unsigned int0 to 65535, MSB-first25-26Calibration ID 2 bytes 2 x char e.g. AA27Week number 1 byte short int0 to 25528Year number 1 byte short int0 to 25529-30Sequence number 2 bytes unsigned int0 to 65535, MSB-first31-53Reserved23 bytes0xFF Reserved for future useSample output string as CSV:1,2,76,77,73,83,49,48,48,85,66,51,83,67,86,55,84,48,48,54,0,100,85,1,44,65,67,7,17,0,1,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255;Bytes 25-30 comprise the sensor’s serial number.The above string would translate to:–Firmware version 1.2–Part # LMIS100UB3S–Lot # CV7T006–Pressure range 100–Output type U–Scale factor 300–Serial number AC0717-0001LMI series – digital low differential pressure sensors I²C bus interface specifications (cont.)2 ms200 μsLCSADSFig. 4: Continuous mode operationLMI series – digital low differential pressure sensorsI²C bus interface specifications (cont.)6420C u r r e n t c o n s u m p t i o n [m A ]SCLSDAFig. 5: Low-power modeTime [ms]102030405060708090100Continuous vs low-power mode operationLMI offers two modes of operation: Continuous mode, which provides a near-continuous stream of pressure data, and low-power mode, which wakes the device from sleep to serve pressure data “on-demand”. The first measurement in either mode is available after a warm-up and conversion sequence, which takes approximately 25 ms. The device holds the SCL line low during warm-up and conversion, effectively blocking the I²C bus during this time.Continuous mode and low-power mode differ only in how quickly subsequent I 2C read commands (i.e., the sensor address with the R/W bit set to 1) are sent to the device. Specifically, if the time between the sensor starting to clock out a pressure result (marked as “readout of result” in Figure 4) and the time it fully receives the next I 2C read command (marked as “read received” in Figure 4) is 1.5 ms or less, the device enters Continuous mode, which prevents the device from sleeping between conversions. Fresh data are available every 5 ms in this mode of operation.Conversely, if the time between the sensor starting to clock out apressure result and the time it fully receives the next I 2C read command is greater than 1.5 ms, the device enters low-power mode and returns to sleep until the next I 2C read command is fully clocked in. So long as power remains available, the start-conversion command (0x20) does not need to be re-sent. Note that in this mode, the shortest possible refresh rate for data is once every 15-16 ms.LMI series – digital low differential pressure sensorsI²C bus interface specifications (cont.)Extended data readoutLMI devices will read out extended sensor data if the user desires. Instead of reading out only two bytes of pressure data, the user maychoose to read out four bytes of data, corresponding to:From the digital sensor output, the actual temperature can be calculated as follows:Temperature [°C] = TS - TS 0 [counts]+ T 0 [°C]Scale factor TS[counts ]°C where TS is the actual sensor readout;TS 0 is the sensor readout at known temperature T 0 (14);Scale factor TS = 72 counts/°CSpecification notes (cont.)(14) To be defined by user. The results show deviation (in °C) from the offsetcalibrated temperature.LMI series – digital low differential pressure sensorsDimensional drawingElectrical connectionSensor PCB footprintSuggested PCB land patternØ 1.65No exposed electrical contacts allowed beneath the sensorunless otherwise notedLMI series – digital low differential pressure sensorsManifold diagram for two side-by-side mounted sensorsManifold diagram for multiple side-by-side mounted sensorsRecommended O-rings: Part number: 90025K119dimensions in mm, all tolerances ±0.1 mm unless otherwise notedLMI series – digital low differential pressure sensorsCustom adaptorThe LMI series pressure sensors can optionally be equipped with a custom adaptor for your application-specific mounting requirements. It is designed for applications where wider port spacing and diameter are needed. Please contact First Sensor for more information.3D views of a custom adaptor for the LMI pressure sensorDimensional drawing ZA009102 plug-in adaptordimensions in mmRecommended O-rings:Part number: 90025K119LMI series – digital low differential pressure sensorsGas mixture change (purge time)The LMI series pressure sensors feature minimized internal volume, which allows for fast response to gas mixture change and high pneumatic impedance at the same time. Purge time (T P ) can be estimated by the following equation:T P = Purge time [s]V INT = Internal volume of the LMI sensor [ml]F Nom = Nominal flow [ml/s] P Nom = Nominal pressure [Pa]Z P =Pneumatic impedance [kPa/(ml/s)]The typical internal volume of the LMI sensor (V INT ) is 0.04 ml. With a pneumatic impedance (Z P ) of 15 kPa/(ml/s) and a nominal pressure (P Nom ) of 250 Pa, the estimated purge time (T P ) is 2.4 seconds.T P= V INT = V INT F Norm P Norm /ZPOrdering informationOrder code example: LMIS025UB3S。

SmartLineIntroductionPart of the SmartLine® family of products, the STA700 and STA70L are suitable for monitoring, control and dataacquisition featuring piezoresistive sensor technologycombining pressure sensing with on chip temperaturecompensation capabilities providing high accuracy, stability and performance over a wide range of applicationpressures and temperatures. The SmartLine family is also fully tested and compliant with Experion ® PKS providing the highest level of compatibility assurance and integration capabilities. SmartLine easily meets the most demanding application needs for pressure measurement applications.Best in Class Features:•Accuracies up to 0.065% of span•Stability up to 0.020% of URL per year for 10 years•Automatic temperature compensation•Rangeability up to 100:1•Response times as fast as 100ms•Easy to use and intuitive display capabilities •Intuitive external zero, span, & configuration capability •Comprehensive on-board diagnostic capabilities •Integral Dual Seal design for safety based on ANSI/NFPA 70-202 and ANSI/ISA 12.27.0•Full compliance to SIL 2/3 requirements•Modular design characters•Available with additional 4–year warrantyCommunications/Output Options:•HART ® (version 7.0) Figure 1 – STA700 InLine and Dual Head Absolute Pressure Transmitters feature field-proven piezoresistive sensor technology2 STD700 Smart Pressure TransmitterDescriptionThe SmartLine family pressure transmitters are designed around a high performance piezo-resistive sensor. This one sensor actually integrates multiple sensors linking process pressure measurement with on-board static pressure (DP Models) and temperature compensation measurements.Unique Indication/Display OptionStandard LCD Display Features•Modular (may be added or removed in the field).•Supports HART protocol variant.•0, 90,180, & 270 degree position adjustments.•Four configurable screens.•Standard and custom measurement units available. •Display calculated flow (square root) value in addition to analog output signal.• 2 Lines 6 digits PV (9.95H x 4.20W mm) 8 Characters. •Write protect Indication.•Built-in Basic Device Configuration through Internal or External Buttons – Range/Engineering Unit/Loop Test/Loop Calibration/Zero /Span Setting.•Multiple language capabilities (EN, RU).DiagnosticsSmartLine transmitters all offer digitally accessible diagnostics which aid in providing advanced warning of possible failure events minimizing unplanned shutdowns, providing lower overall operational costs.System Integration•SmartLine communications protocols all meet the most current published standards for HART.•All ST 700 units are Experion tested to provide the highest level of compatibility assurance Configuration ToolsIntegral Three Button Configuration OptionSuitable for all electrical and environmental requirements, SmartLine offers the ability to configure the transmitter and display via three externally accessible buttons when either display option is selected. Zero/span capabilities are also optionally available via these buttons with or without selection of a display option.Handheld ConfigurationSmartLine transmitters feature two-way communication and configuration capability between the operator and the transmitter. All Honeywell transmitters are designed and tested for compliance with the offered communication protocols and are designed to operate with any standards compliant handheld configuration device, such as Honeywell Versatilis Configurator.Personal Computer ConfigurationOn a personal computer or laptop, Honeywell Field Device Manager (FDM) Software and FDM Express can be used for managing HART device configurations.Modular DesignTo help contain maintenance & inventory costs, all ST 700 transmitters are modular in design supporting the user’s ability to replace meter bodies, standard displays or electronic modules without affecting overall performance. Each meter body is uniquely characterized to provide in-tolerance performance over a wide range of application variations in temperature and pressure.Modular Features•Meter body replacement•Add or remove standard displays•Add or remove lightning protection (terminalconnection)With no performance effects, Honeywell’s unique modularity results in lower inventory needs and lower overall operating costs.Performance SpecificationsReference Accuracy: (conformance to +/-3 Sigma)Table 1Accuracy at Specified Span and Temperature: (Conformance to +/-3 Sigma)Table 2Total Performance (% of Span):Total Performance Calculation: = +/- √(Accuracy)2 + (Temperature Effect)2Total Performance Examples (for comparison): (standard accuracy, 5:1 Turndown, +/-50 o F (28o C) shift) STA725 @ 156 mmHgA: 0.381% of span STA72S @ 156 mmHgA: 0.679% of spanSTA745 @ 100 psia: 0.163% of span STA74S @ 100 psia: 0.187% of spanSTA77S @ 600 psia: 0.163% of spanTypical Calibration Frequency:Calibration verification is recommended every two (2) yearsNotes:1. Terminal Based Accuracy - Includes combined effects of linearity, hysteresis, and repeatability. Analog output adds 0 .006% of span.2. For zero based spans and reference conditions of: 25o C (77o F), 10 to 55% RH, and 316 Stainless Steel barrier diaphragm.2Short term equals 2 hours at 70︒C (158︒F). 3Units can withstand overpressure of 1.5 x MAWP without damage. 4Consult factory for MAWP of ST 700 transmitters with CRN approval. 5Silicone minimum temperature rating is -40︒C (-40︒F). CTFE minimum temperature rating is -40︒C (-40︒F).Figure 2 - Measured pressure versus meter body temperature chart for ST 700 Dual Head and Inline modelsFigure 3 - Supply voltage and loop resistance chart & calculations2 Hastelloy® C-276 or UNS N102764 Supplied as 316 SS or as Grade CF8M, the casting equivalent of 316 SS.5 Carbon Steel heads are zinc-plated and not recommended for water service due to hydrogen migration. For that service, use 316 stainless steel wetted Process Heads.6 Hastelloy® C-276 or UNS N10276. Supplied as indicated or as Grade CW12MW, the casting equivalent of Hastelloy® C-276Communications Protocols & DiagnosticsHART ProtocolVersion: HART 7Standard DiagnosticsST 700 top level diagnostics are reported as either critical or non-critical and readable via the DD/DTM/FDI tools or Standard integral display. Some of the diagnostics are listed below:Critical Diagnostics•Electronics Module Fault.•Meter body Memory Corruption.•Config Data Corruption.•Electronics Module Diagnostics Failure.•Meter body Critical Failure.•Sensor Communication Timeout.Non-Critical Diagnostics•Electronics Module Fault.•Display Failure.•Electronics Module Comm Failure.•Meter body Excess Correct.•Sensor Over Temperature.•Fixed Current Mode.•PV Out of Range.•No DAC Compensation.Refer to the product user manual for comprehensive list of diagnostics and details.Flameproof: SIRA 12ATEX2233XII 2 D Ex tb IIIC T95II 2 D Ex ia IIIIC T125Zone 2, Intrinsically Safe: SIRA12ATEX4234XEnclosure:II 2 D Ex tb IIIC T95 Intrinsically Safe: CSAE 22UKEX1021XII 2 D Ex ia IIIIC T125Zone 2, Increase Safety: CSAE22UKEX1008XZone 2, Intrinsically Safe: CSAE22UKEX1008XEnclosure:Notes:1.Operating Parameters:Voltage = 11 to 42 VDC Current = 4-20 mA Normal2.Intrinsically Safe Entity Parametersa. Analog/ HART Entity Values:Vmax = Ui = 30V Imax = Ii = 105mA Ci = 4.2nF Li = 984 uH Pi = 0.9WTransmitter with Terminal Block Revision E or LaterVmax = Ui = 30V Imax= Ii = 225mA Ci = 4.2nF Li = 0 Pi = 0.9WNote : Transmitter with Terminal Block Revision E or laterThe revision is on the label that is on the module. There will be two lines of text on the label:•First is the Module Part #: 50049839-001 or 50049839-002•Second line has the supplier information, along with the REVISION:XXXXXXX-EXXXX, THE “X” is production related, THE POSITION of the “E” IS THE REVISION.Other Certification OptionsMaterials•NACE MRO175, MRO103, ISO15156Mounting & Dimensional DrawingsReference Dimensions: millimetersinchesMounting Configurations (Dual head design)Dimensions (Dual head design)Figure 4 - – Typical mounting dimensions of STA725 & STA745 for referenceReference Dimensions: millimetersinchesMounting Configurations (Inline Designs)Dimension (Inline Design)Figure 5 – Typical mounting dimensions of STA72S, STA74S, & STA77S for referenceModel Selection GuideModel Selection Guides are subject to change and are inserted into the specifications as guidance only.Model STA700Absolute Pressure TransmittersModel Selection Guide1aSTA725,745 supplied via 1/2" flange adapter same material as process head except carbon steel shall use 316 SS 1bReference head available only with Dual head models. In-line models supplied with process head only 1cWhen selected for In-Line Gage models the Process Head / Bonnet is supplied in Dual Certified SS316/316LHH H3NAMUR Output Limits 3.8 - 20.5mAdc can be configured by the custom 4Process Connections will vary on In -Line modelsSELECTION 15The PM option is available on all Smartline Pressure Transmitter process wetted parts such as process heads, flanges, bushings and vent plugs except plated carbon steel process heads and flanges. PM option information is also available on diaphragms except STG and STA in-line construction pressure transmitters.For more informationTo learn more about SmartLine Transmitters, visit Or contact your Honeywell Account ManagerProcess Solutions Honeywell1250 W Sam Houston Pkwy S Houston, TX 77042Honeywell Control Systems LtdHoneywell House, Skimped Hill Lane Bracknell, England, RG12 1EB34-ST-03-120 October 2023©2023 Honeywell International Inc.Shanghai City Centre, 100 Jungi Road Shanghai, China 20061Sales and ServiceFor application assistance, current specifications, ordering, pricing, and name of the nearest Authorized Distributor, contact one of the offices below.ASIA PACIFICHoneywell Process Solutions, Phone: + 800 12026455 or +44 (0) 1202645583 (TAC) hfs-tac-*********************AustraliaHoneywell LimitedPhone: +(61) 7-3846 1255 FAX: +(61) 7-3840 6481 Toll Free 1300-36-39-36 Toll Free Fax: 1300-36-04-70China – PRC - Shanghai Honeywell China Inc.Phone: (86-21) 5257-4568 Fax: (86-21) 6237-2826SingaporeHoneywell Pte Ltd.Phone: +(65) 6580 3278 Fax: +(65) 6445-3033South KoreaHoneywell Korea Co Ltd Phone: +(822) 799 6114 Fax: +(822) 792 9015EMEAHoneywell Process Solutions, Phone: + 800 12026455 or +44 (0) 1202645583Email: (Sales)*************************** or (TAC)*****************************WebKnowledge Base search engine http://bit.ly/2N5VldiAMERICASHoneywell Process Solutions, Phone: (TAC) (800) 423-9883 or (215) 641-3610(Sales) 1-800-343-0228Email: (Sales)*************************** or (TAC)*****************************WebKnowledge Base search engine http://bit.ly/2N5VldiSpecifications are subject to change without notice.。

Installation & Maintenance ManualDigital Pressure SwitchSeries ZSE40A/ZSE40AF/ISE40AThese safety instructions are intended to prevent hazardous situations and/or equipment damage.These instructions indicate the level of potential hazard with the labels of "Caution", "Warning" or "Danger". They are all important notes for safety and must be followed in addition to International standards (ISO/IEC), Japan Industrial Standards (JIS) and other safety regulations.To ensure safety of personnel and equipment the safety instructions in this manual and the product catalogue must be observed, along with other relevant safety practices.•Do not touch the terminals and connectors while the power is on. Otherwise electric shock, malfunction or damage to the product can result.•After maintenance is complete, perform appropriate functional inspections and leak tests.Stop operation if the equipment does not function properly or there is a leakage of fluid.When leakage occurs from parts other than the piping, the product might be faulty.Disconnect the power supply and stop the fluid supply.Do not apply fluid under leaking conditions.Safety cannot be assured in the case of unexpected malfunction.NOTE•The direct current power supply to be used should be UL approved as follows:Circuit (of class 2) which is of maximum 30Vrms (42.4V peak) or less, with UL 1310 class 2 power supply unit or UL 1585 class 2 transformer.•The Pressure switch is a approved product only if it has a mark on the body.CautionInternal Circuit and Wiring•Internal circuit and wiring examplePressure SettingMaintenanceSettingDefault settingAt the time of shipment, the following settings are provided.If the setting is acceptable, keep it for use.To change setting, enter function selection mode .Other Functions•Peak/Bottom hold value indication•Zero clear•Key lockTo set each function in detail, refer to the operation manual on thewebsite.How to reset the product after power cut or forcible de-energizingThe setting of the product will be retained as it was before a power cut orde-energizing. The output condition is also basically recovered to thatbefore a power cut or de-energizing, but may change depending on theoperating environment.Therefore, check the safety of the whole facility before operating theproduct. If the facility is using accurate control, wait until the pressureswitch has warmed up. (About 10 to 15 minutes)To set each function in detail, refer to the operation manual on the website.Set ON point and OFF point of the Pressure switch.OperationWhen the pressure exceeds a set value, the Pressure switch will beturned on.When the pressure falls below the set value by the amount of hysteresisor more, the Pressure switch will be turned off.The default setting of the output set value is the central value betweenthe atmospheric pressure and the upper limit of the rated pressurerange. If the operation shown below does not cause any problem, keepthis operation setting.The Pressure switch turns on within a set pressure range (from P1L to P1H)during window comparator mode.Set P1L (switch lower limit) and P1H (switch upper limit) using the settingprocedure above.•[F 2] Setting of OUT2Same setting as [F 1] OUT1.At the output mode, Error detection mode can be selected.Display colour is linked to the setting of OUT1, and can not be selected.Measurement modeThe measurement mode is the condition where the pressure is detected andindicated, and the switch function is operating.This is the basic mode, and other modes should be selected for settingchange and other function setting changes.•Window comparator modeZISE##-TFM112GBSpecificationRefer to the operation manual on the website and catalogue for this product.Outline with Dimensions (in mm)Refer to the operation manual on the website and catalogue for this product.ContactAUSTRIA (43) 2262 62280 NETHERLANDS (31) 20 531 8888 BELGIUM (32) 3 355 1464 NORWAY (47) 67 12 90 20 CZECH REP.(420) 541 424 611 POLAND (48) 22 211 9600 DENMARK (45) 7025 2900 PORTUGAL (351) 21 471 1880FINLAND (358) 207 513513 SLOVAKIA (421) 2 444 56725 FRANCE (33) 1 6476 1000 SLOVENIA (386) 73 885 412GERMANY (49) 6103 4020 SPAIN (34) 945 184 100 GREECE (30) 210 271 7265 SWEDEN(46) 8 603 1200 HUNGARY (36) 23 511 390 SWITZERLAND (41) 52 396 3131 IRELAND (353) 1 403 9000 UNITED KINGDOM(44) 1908 563888ITALY(39) 02 92711URL (Global) (Europe)Specifications are subject to change without prior notice from the manufacturer. © 2009 SMC Corporation All Rights Reserved.Refer to the operation manual on the website for this product.If the error can not be reset after the above measures are taken, then please contact SMC.。

SmartLine简介作为SmartLine®产品系列的成员，STF700是一种采用先进传感器技术的高性能单法兰变送器。

STF700变送器可以直接安装到设备法兰上，并有多种平法兰和凸法兰可供选择。

STF700可在多种差压测量中提供极高的测量精确度和稳定性。

SmartLine系列还经过了充分测试，符合Experion® PKS标准，可提供最高水平的兼容性保证和集成能力。

SmartLine产品可轻松满足差压测量应用的最苛刻的要求。

同类最佳的特性：●校验量程的精度高达0.065%，0.04%可选●每年的稳定性高达0.020%/满量程，保持10年●自动静压和温度补偿●高达100:1的量程比●响应时间快达90ms●易于使用和直观的显示功能●完善的自诊断功能●基于ANSI/NFPA 70-202和ANSI/ISA 12.27.0集成双重密封设计，可确保最高安全性●世界一流的过压保护●标准配置完全符合SIL2/3要求量程和范围限制：型号量程上限URLkPa 量程下限LRLkPa最大量程kPa最小量程kPaSTF725 100-1001001 STF72P 100-1001001 STF735 700-7007007 STF73P700-7007007图1 STF700单法兰变送器有丰富现场业绩的传感器技术700说明SmartLine 系列压力变送器均基于高性能的传感器设计。

这一个传感器实际集成了多个传感器，将过程压力测量与静态压力(DP 型号)及用于温度补偿的温度测量相结合，从而实现了最佳的总体性能。

显示表头选项标准LCD 显示表头● 模块化(可以在现场增加或拆除)● 支持HART 协议● 0、90、180 和 270 度位置调整●测量单位包括：Pa 、kPa 、MPa 、KGcm2、T orr 、ATM 、 i4H 2O 、mH 2O 、bar 、mbar 、inH 2O 、inHG 、FTH 2O 、 mmH 2O 、mmHG 和psi 等测量单位● 大屏幕显示（高9.95mm x 宽4.20mm ）2行，8个字符● 平方根输出指示和写保护提示●显示模块带有内部组态按钮，可通过内部或外部按键对变送器进行设置、调校自诊断功能SmartLine 变送器全部提供能以数字方式访问的诊断，这有助于提供可能的故障事件高级报警，从而最大限度缩减计划外停车，实现更低的整体工作成本。

西门子压力变送器DSIII系列一.SITRANS DSIII 表压测量系列概述表压变送器测量变量：腐蚀性和非腐蚀性气体、蒸汽和液体的表压压力。

量程（连续可调）DSIII HART系列：0.01…400bar g公称测量范围DSIII PA 和FF系列：1…400bar g精度：满量程的0.075%过程温度：-40…100摄氏度环境温度：-30…+85摄氏度防护等级：IP65防爆类型：可选本安防爆/隔爆通讯协议：HART/PROFIBUS/FF总线协议，可选典型型号：7MF4033-*****-**** HART协议7MF4034-*****-**** PROFIBUS PA 协议7MF4035-*****-**** FF总线协议7MF4133-*****-**** HART系列，带有冲洗面隔膜7MF4134-*****-**** PROFIBUS PA 协议，带有PMC连接7MF4135-*****-**** FF系列，带有PMC连接二.SITRANS DSIII 绝压系列概述绝压变送器测量变量：腐蚀性和非腐蚀性气体、蒸汽和液体的绝对压力。

量程（连续可调）DSIII HART 系列：8.3mbar a…100bar a公称测量范围DSIII PA 和FF系列：250mbar a…100bar a从测量原理上分为表压系列和差压系列典型型号：7MF4233-*****-**** DSIII HART 系列（表压系列原理）7MF4234-*****-**** DSIII PROFIBUS PA 系列（表压系列原理）7MF4235-*****-**** DSIII FF 系列（表压系列原理）7MF4333-*****-**** DSIII HART 系列（差压系列原理）7MF4334-*****-**** DSIII PROFIBUS PA 系列（差压系列原理）7MF4335-*****-**** DSIII FF 系列（差压系列原理）三.SITRANS P DSIII差压测量系列概述差压和流量变送器测量变量：差压，小的正或负压，流量（与孔板等节流引压装置配套）量程（连续可调）DSIII HART系列：1mbar…30bar公称测量范围DSIII PA和FF系列：20mbar…30bar精度：满量程的0.075%过程温度：-40…100摄氏度环境温度：-30…+85摄氏度防护等级：IP65防爆类型：可选本安防爆/隔爆通讯协议：HART/PROFIBUS/FF总线协议，可选典型型号7MF4433-*****-**** DSIII HART系列PN32/160用于测量差压和流量7MF4434-*****-**** DSIII PROFIBUS PA 系列 PN32/160用于测量差压和流量7MF4435-*****-**** DSIII FF 系列 PN32/160用于测量差压和流量7MF4533-*****-**** DSIII HART系列 PN4007MF4534-*****-**** DSIII PROFIBUS PA 系列 PN4007MF4535-*****-**** DSIII FF系列 PN400四.SITRANS DSIII P 液位测量系列概述液位变送器测量变量：开口或封闭容器的腐蚀和非腐蚀液体的液位量程（连续可调）DSIII HART系列：20mbar…5bar公称测量范围DSIII PA和FF系列：250mbar…5bar安装法兰的公称直径DN80或DN1003inch或4inch在开口容器内测量液位时，测量元件的低压侧通大气（相对于大气压进行测量）在封闭容器内测量时，低压侧必须连接到容器上方，以便补偿静压变送器的与被测介质接触部分可选用不同的材质以满足不同防腐等级的要求精度：满量程的0.075%过程温度：-40…100摄氏度环境温度：-30…+85摄氏度防护等级：IP65防爆类型：可选本安防爆/隔爆通讯协议：HART/PROFIBUS/FF总线协议，可选典型型号7MF4633-**Y**-**** DSIII HART系列用于测量液位7MF4634-**Y**-**** DSIII PA系列（PROFIBUS PA协议）7MF4635-**Y**-**** DSIII FF系列安装法兰7MF4912-3****。