罗斯蒙特644温度变送器

Rosemount™储罐计量系统一切挑战，尽在掌控散装液体存储解决方案目录艾默生帮您应对当下和未来的各种挑战为推动业务绩效，制造商面临规模不断增长的生产力和资源优化的需求。

通过罗斯蒙特储罐计量系统，您可以一直满足效率、安全、精度、可靠性和数据安全性需求。

您将获得精确的净体积库存计算，符合当前和未来最新的防溢罐保护标准。

无论您面临什么样的储罐计量库存测量挑战，我们的解决方案可帮助取得业务优质绩效：• 确保高效运营• 提升安全水平• 确保精确测量系统特性 4–7雷达液位测量 8-10温度测量 11库存管理软件与功能 12-13安全性：防溢罐、证明试验、浮顶监测14-18升级/扩展项目：模拟和无线通讯 19-23液化气全容储罐完整存储解决方案 24-25雷达储罐计量发明者的解决方案26-27运营数据，着手可得。

效率安全精度可扩展性实时访问精确数据促进工厂运营效率防溢罐保护解决方案满足 API 2350 和 IEC 61511 要求可靠的净体积计算，基于 API和 ISO 标准开放通讯标准使设备添加与更换更方便让您的罐区运营尽在掌控之中储罐计量的精度、可靠性和安全性根据 API 行业标准组织所规定，储罐计量系统应能够提供高精度的净体积和质量库存计算。

OIML 标准 R 85:2008 定义了贸易交接应用储罐液位计的最高精度要求。

损耗控制和质量平衡还要求高精度的库存测量。

此外，储罐计量装置为罐区提供基本的过程控制层。

独立的高液位指示器或液位开关则形成另一层保护。

这两个保护层中如果有未检测到的故障，可能会导致灾难性事故发生。

请相信，艾默生提供的可扩展的储罐计量系统解决方案可以满足此需求。

控制库存并准确了解储罐中产品存储量。

库存控制是一种关键的管理工具，涉及大型资产。

精确测量船只、口岸和管道输送系统之间的批次和贸易交接量。

石油动向和运营功能用于日常运作、调度和混合方案。

追踪泄漏并防止溢出，从而降低由于油品损耗造成的环境影响和财务损失。

产品数据表00813-0306-4728, Rev AA2021 年 12 月Rosemount™ 644 导轨安装温度变送器带 RK 选项和 HART® 7 协议2021 年 12 月功能与优点采用可定制的变送器设计，在一个型号产品系列内满足您的需求■导轨安装型外形■4–20mA/HART®第 7 修订版■公认的第三方机构对在达到 SIL 3 要求的仪表安全系统中的使用进行了 IEC 61508 认证。

■用于 RTD、热电偶、mV 和欧姆的单或双传感器输入■诊断套件■变送器-传感器匹配（卡伦德-范·杜森常数）标准变送器设计在过程环境中提供灵活、可靠的性能■通过将传感器直接连接到数字控制系统，可以提供更高的测量准确度和可靠性，同时降低总体安装成本■一年稳定性保证，可节省维护费用■开路/短路传感器诊断功能有助于检测传感器回路的问题■环境温度补偿能力提高变送器的性能内容功能与优点 (2)订购信息 (4)技术规格 (7)产品认证 (22)尺寸图 (34)/Rosemount研究整套罗斯蒙特温度测量解决方案的优点■通过“组装到传感器”选项，艾默生提供全套温度测量点方案，提供可直接安装的变送器和传感器组件。

■艾默生提供一系列热电阻、热电偶和热套管，为温度感知领域带来了优异的耐用性和罗斯蒙特的可靠性，形成完整的罗斯蒙特变送器产品组合。

通过资产位号在需要时访问信息新发运设备包含一个唯一的二维码资产位号，您可以通过它直接从设备访问序列化信息。

通过此功能，您可以：■在您的 MyEmerson 账号上访问设备图纸、图表、技术文档和故障排除信息■优化维修和保持效率的平均时间■确保您定位了正确的设备■省去耗时的先定位和抄录铭牌再查看资产信息的工作HART设备版本表 1: 更改摘要：Rosemount 644 导轨安装型 HART 设备版本(1)NAMUR 软件版本位于设备的硬件标牌上。

使用 HART 通讯工具可读取 HART 软件版本。

快速安装指南00825-0206-4728, Rev LB2022 年 5 月Rosemount™ 644 温度变送器采用 4-20 mA HART®协议（第 5 和第 7 版）快速安装指南2022 年 5 月内容关于本指南 (3)系统准备 (5)变送器安装 (6)安全仪表系统 (25)产品认证 (26)符合性声明 (44)中国 RoHS (52)2Rosemount 6442022 年 5 月快速安装指南1关于本指南本指南提供 Rosemount 644 温度变送器的基本安装指导。

但不提供组态、诊断、维护、检修、故障排除或安装的详细说明。

更多说明，请参阅Rosemount 644 参考手册。

手册和本指南的电子版本也可以从/Rosemount获得。

安全信息警告本文档描述的产品不是专为核工业级应用而设计的。

在需要核工业级硬件或产品的应用场合，若使用非核工业级产品会导致读数不精确。

有关罗斯蒙特核工业级产品的信息，请与本地艾默生销售代表联系。

遵照说明不遵守这些安装准则可能导致死亡或严重受伤。

确保仅由具备资质的人员进行安装。

物理接触未经授权的人员可能会对最终用户的设备造成明显受损和/或误组态。

这可能是有意或无意的，需要采取相应的防护措施。

物理安全措施是任何安全计划的重要部分，是保护您的系统的基础。

限制未经授权人员进行物理接触，以保护最终用户的资产。

这对于设施中使用的所有系统均是如此。

爆炸爆炸可能会导致死亡或严重受伤。

在危险环境中安装这些变送器时，请务必遵守适用的当地、国家和国际标准、规范和规程。

请核对产品认证一节中是否有与安全安装相关的任何限制。

电路带电时，请不要在易爆环境中拆除连接头护盖。

在易爆气体环境中，连接手持通讯器之前，请确保按照本质安全或非易燃现场接线实践安装仪表。

应验证变送器的工作环境是否与相应的危险场所认证一致。

所有连接头护盖必须完全盖好，以满足防爆要求。

快速安装指南3快速安装指南2022 年 5 月警告过程泄漏过程泄漏可能导致死亡或严重受伤。

¢00825-0100-482利用基金会TM 现场总线的罗斯蒙特 644H 温度变送器开始结束© 2006 罗斯蒙特股份有限公司版权所有。

保留所有权利。

商标所有人享有商标的一切财产权利。

该安装指南为罗斯蒙特 644 提供基本指导原则，但并不提供详细的组态、诊断、维护、维修、故障检修或安装指南。

欲了解更多指南，请参阅 644 参考手册（文件编号 00809-0106-4728）。

欲浏览电子版参考手册和快速安装指南(QIG)，请访问网站： 。

爆炸可导致死亡或重伤：在易爆环境中安装本变送器必须符合当地、国内和国际适用的标准、规范与规程。

与安全安装相关的限制条件，请参阅该手册的认证章节。

在隔爆/防燃环境安装时，在装置通电情况下严禁拆除变送器的封盖。

过程泄漏可引起受伤甚至导致死亡•在施加压力前安装并拧紧热电偶套管或传感器。

•在运行过程中严禁拆除热电偶套管。

电击可导致死亡或重伤•应尽量避免与引线和端子接触。

引线上可能存在的高压可导致电击事故。

Rosemount Division8200 Market Boulevard Chanhassen, MN USA 55317T (US) (800) 999-9307T (Intnl) (952) 906-8888Fax (952) 949-7001RosemountTemperature GmbHFrankenstrasse 2163791 Karlstein GermanyT 49 (6188) 992 0F 49 (6188) 992 112Emerson Process Management Asia Pacific Private Limited1 Pandan Crescent Singapore 128461T (65) 6777 8211F (65) 6777 0947第一步：固定变送器将变送器安装于配管管段内的较高点，以防止水分进入变送器外壳。

罗斯蒙特-EHSMALL—MRO工业品LAB实验室设备M我司为（美国ROSEMOUNT罗斯蒙特）代理,价格优惠,欢迎来电咨询。

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罗斯蒙特压力变送器(工控仪表) 3051TG4A2B21AB4M5S1罗斯蒙特压力变送器(工控仪表) 3051CD3A22A2BS5B4E8M6罗斯蒙特压力变送器(工控仪表) 3051L3AA0TD21ACM5罗斯蒙特测长传感器(传感器) 3051CD2A22A1AB4罗斯蒙特压力变送器(工控仪表) 0054PH/ORP 罗斯蒙特压力变送器(工控仪表) 3051CG5A52A1AB4I5M5 0~4mpa罗斯蒙特压力变送器(工控仪表) 3051CD2A22A2BS5B4E8罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1AM5B4DFI5 0~0.6mpa罗斯蒙特压力变送器(工控仪表) 3051L2AA2TD21ACL4Q4罗斯蒙特测长传感器(传感器) 3051TG3A2B21K罗斯蒙特压力变送器(工控仪表)罗斯蒙特压力变送器(工控仪表) 1151DP4S22B1DFM1罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1AB4E5M5 0~1.6MPA罗斯蒙特压力变送器(工控仪表) 3051CD2A22A1AS2M5B4E5罗斯蒙特液位变送器(工控仪表) RTG3940/THE罗斯蒙特测长传感器(传感器) 3051CG5A22A1AB4E5M5 0~6MPA罗斯蒙特压力变送器(工控仪表) 3051TA1A2B21BB4M5罗斯蒙特测长传感器(传感器) 3051S2LD3AA1A1020DFF71DC00M5罗斯蒙特接近开关(传感器) 3051CG4A22A1AM5B4DFI5 0~1.0mpa罗斯蒙特塑壳断路器(低压断路器) NS100/3P/80A 29631罗斯蒙特压力变送器(工控仪表) 3051CD3A22A1AB4罗斯蒙特测长传感器(传感器)3051TG3A2B21CB4M5罗斯蒙特压力变送器(工控仪表) 3051CG3A22A1AB4DF 0-100KPA罗斯蒙特压力变送器(工控仪表) 644HAE5J6M5罗斯蒙特压力变送器(工控仪表) 3051CG3A22A1AB4E5M5 0~0.2MPA罗斯蒙特压力变送器(工控仪表) 3051TG5A2B31AB4M5 0-60MPA罗斯蒙特测长传感器(传感器) 3051TG2A2A21KE5罗斯蒙特压力变送器(工控仪表) 3051TG4A2B21CB4M5罗斯蒙特测长传感器(传感器) 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3051CD2A02A1AB4M5S5 0305RC22B11罗斯蒙特压力变送器(工控仪表) 2088G2S22A2 0-0.8MPA罗斯蒙特便携式硫化氢检测仪(工控仪表) GASMAN-III 0-50PPM罗斯蒙特数据采集卡(工控机) DAU\2100罗斯蒙特行程开关(传感器) LX510-12-380V 10A罗斯蒙特时间继电器(继电器) \JQX\10F罗斯蒙特压力变送器(工控仪表) 2090PA2S22A3E5罗斯蒙特转换开关(低压配电开关) LW5-16B0020/1罗斯蒙特压力变送器(工控仪表) 3051CG3A02A1AS5M5 0305RT22A11B1罗斯蒙特压力变送器(工控仪表) 305CD3A22B1KS5B4M6罗斯蒙特压力变送器(工控仪表)罗斯蒙特压力变送器(工控仪表) 3051CD4A02A1AS5E5M5 0301RC32B11B罗斯蒙特压力变送器(工控仪表) 3051CD3A22A1AS2B4E8Q41199WDB54DRFWDGDAA5 1199MDC6罗斯蒙特落地式配电柜(机柜系列) RITTAL罗斯蒙特压力变送器(工控仪表) 3051CD2A22A1AS2B4E8Q4-1199WDB58DRF WDGAA5罗斯蒙特压力变送器(工控仪表) 3051TG1A2B21A罗斯蒙特压力变送器(工控仪表) 3051TG3A2B21AB4 0-1.6MPA罗斯蒙特压力变送器(工控仪表) 3051TG3A2B21AS5B4M5 0306RT22AA11罗斯蒙特压力变送器(工控仪表) ROSEMOUNT罗斯蒙特压力变送器(工控仪表) 3051CG4A2B21AB4K5DF 0-1.6MPA罗斯蒙特压力变送器(工控仪表)3051TG4A2B21AB4 0-6MPA罗斯蒙特压力变送器(工控仪表) 3051CD3A22A1BM5B4DF罗斯蒙特压力变送器(工控仪表) 1151DP6S22B3D2AY1 0-0.25MPA罗斯蒙特熔芯(熔断器) RSF-AC500/750A-BCK100KA罗斯蒙特测长传感器(传感器) 3051CD2A02A1AM5S5罗斯蒙特压力变送器(工控仪表) 3051CD3A02A1AS5B4M5 0301RC32B11罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21AS5B4E5M5 0306RT22BA罗斯蒙特压力变送器(工控仪表) 3051L2AAOTD21ACL4M5罗斯蒙特压力变送器(工控仪表) 3051TG1A2B21AS5B4M5 0306RT22BA11罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1A罗斯蒙特压力变送器(工控仪表) 3051L4AA4TD11ACL5罗斯蒙特压力变送器(工控仪表)罗斯蒙特压力变送器(工控仪表) 3051CD3A22A1AS2B4E8Q4-1199WDB54DRFWDGDAA5罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1BB4DF罗斯蒙特压力变送器(工控仪表) 3051CD2A23A1BM5B4DF罗斯蒙特压力变送器(工控仪表) 1151DP4S22B1D1AY1 0-10KPA罗斯蒙特便携式氢气检测仪(工控仪表) GASMAN-III 0-100%LEL罗斯蒙特压力变送器(工控仪表) 1151DP4S22B1D1AY1 0-30KPA罗斯蒙特压力变送器(工控仪表) 3051CG4A02A1CH2L4M5罗斯蒙特压力变送器(工控仪表) 3051CD3A02A1CH2L4M5罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1A 0-20KPA罗斯蒙特压力变送器(工控仪表)罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21AB4 0-1MPA罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21AB4 0-0.6MPA罗斯蒙特压力变送器(工控仪表) 3051CD0A02A1AB3DFH2L4 -50PA-50PA罗斯蒙特压力变送器(工控仪表) 3051TG4A2B21AB4 0-10MPA罗斯蒙特压力变送器(工控仪表) 3051TG4A2B21AB4 0-16MPA罗斯蒙特压力变送器(工控仪表) 1151DP5S22B1D1AY1 0-100KPA罗斯蒙特稳压电源(工业电源) WYJ-12V2A罗斯蒙特压力变送器(工控仪表) 3051TG4A2B21AB4罗斯蒙特压力变送器(工控仪表) 3051TG1A2B21AB4 0-0.1MPA罗斯蒙特压力变送器(工控仪表) 3051TG2A2B31BB4M5罗斯蒙特压力变送器(工控仪表) 1151DP7S22B2罗斯蒙特压力变送器(工控仪表) 1151DP4S22B3D1AY1 0-30KPA罗斯蒙特压力变送器(工控仪表) 1151DP6S22B1D1AY1 0-625KPA罗斯蒙特压力变送器(工控仪表) 1151DP5S22B1D2AY1 0-100KPA罗斯蒙特限位开关(传感器) 73-1356N-B2罗斯蒙特调压阀(阀) 0305RC32B11罗斯蒙特压力变送器(工控仪表) 3051CG5A22A1AM5B4DFE5罗斯蒙特压力变送器(工控仪表) 3051CG3A22A1AE54Q罗斯蒙特直流电压表(电压表) PMAC600B-Z-CS罗斯蒙特压力变送器(工控仪表) 1151DP4S22B1D1AY1 -18-0KPA罗斯蒙特压力变送器(工控仪表) 1151DP4S22B1D1AY1 0-18KPA罗斯蒙特流量开关(阀) 456-060-181 480V AC 5A罗斯蒙特熔断器底座(熔断器) 10×38罗斯蒙特压力变送器(工控仪表)3051CD2A22A1BB4E5M5S2（配2个1199DDC64APFWG2DA00）罗斯蒙特压力变送器(工控仪表) 3051CD4A07A1BS5E5M5膜片：镀金（配0301RC32B11B4L40）罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1BB4E5M5S1（配1199WDC59APCWG2DA00）罗斯蒙特压力变送器(工控仪表) 3051CD2A02A1DS5I5M5(配0301RC32B11B4L4）罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1BB4E5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CG3A22A1DB4I5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CD4A02A1BS5E5M5（配0301RC32B11B4L4）罗斯蒙特压力变送器(工控仪表)3051CD2A22A1BB4E5M5S2(配2个1199DDC66APFWG2DA00)罗斯蒙特压力变送器(工控仪表) 3051CG5A22A1DB4I5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CG3A22A1BB4E5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CD2A22A1BB4E5M5S2(配2个1199DDC69APFWG2DA00）罗斯蒙特压力变送器(工控仪表) 3051CD3A02A1BS5E5M5罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1DB4I5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CG5A22A1BB4E5L4M5DF罗斯蒙特压力变送器(工控仪表) 3051CG5A27A1BB4E5L4M5DF膜片：镀金罗斯蒙特压力变送器(工控仪表) 3051CG5A22A1BB4E5M5S1（配1个1199WDC59APCWG4DA00）罗斯蒙特压力变送器(工控仪表) 3051CD2A02A1BS5E5M5（0301RC32B11B4L4）罗斯蒙特直流电压表(电压表) JSGW-0.5 380/100V罗斯蒙特直流电压表(电压表) DTSD720罗斯蒙特压力变送器(工控仪表) 3051CD1A22A1AB4DF罗斯蒙特压力变送器(工控仪表) 3051CD4A22A1AB4DF罗斯蒙特压力变送器(工控仪表) 3051CD2A22A1AB4DF罗斯蒙特压力变送器(工控仪表) 3051GP3A2B21AB4M5罗斯蒙特压力变送器(工控仪表) 3051TG3A2B21A罗斯蒙特压力变送器(工控仪表) 3051CD2A22A1AB4 0-5KPA罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1AB4 -6~0KPA罗斯蒙特压力变送器(工控仪表) 3051TG1A2B21C 0-20KPA罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21C 0-1MPA罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1CB4 0-12KPA罗斯蒙特压力变送器(工控仪表) 3051CG2A22A1CB4 -4~0KPA罗斯蒙特压力变送器(工控仪表) 3051TG1A2B21C 0-80KPA罗斯蒙特电子变压器(变压器) 3051CG2A22A1AM5B4DF罗斯蒙特压力变送器(工控仪表) 3051GP2A2B21AB4M5D1罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21A罗斯蒙特断路器附件(低压断路器) 375FRIEKLU罗斯蒙特压力变送器(工控仪表) 3051TG2A2B21BB4罗斯蒙特压力变送器(工控仪表) 3051L2AG0MD11AA罗斯蒙特压力变送器(工控仪表) 2088G1S22A1 罗斯蒙特压力变送器(工控仪表)1199WDAB3AFFWG1CA000罗斯蒙特压力变送器(工控仪表) 3051CG4A22A1AM5B4DF。

罗斯蒙特差压变送器修改输入全文共四篇示例，供读者参考第一篇示例：罗斯蒙特差压变送器是一种用于测量流体流速和流量的重要装置。

差压变送器的输入参数对于其性能和准确度起着至关重要的作用。

在一些特定的情况下，用户可能需要修改差压变送器的输入参数，以满足特定的监测要求。

本文将讨论如何修改罗斯蒙特差压变送器的输入参数。

我们需要了解差压变送器的输入参数是如何影响其性能的。

差压变送器是通过测量管道中流体的压力差来计算流速和流量的。

其输入参数通常包括静压头和动压头。

静压头是流体的静态压力，动压头是由于流体流动产生的动态压力。

通过测量这两个参数，差压变送器可以计算出管道内流体的流速和流量。

在某些情况下，用户可能需要修改差压变送器的输入参数。

在某些流速较低的情况下，动压头的值可能过小，导致测量不准确。

此时，可以考虑增加一个静压头孔来增大动压头的值，从而提高测量的准确度。

在一些高温或高压的环境下，原有的输入参数可能无法满足监测要求，需要进行相应的调整。

进行差压变送器输入参数的修改需要一定的专业知识和技术。

首先需要了解差压变送器的工作原理和结构，找出需要修改的输入参数。

接下来需要使用相应的工具和设备对变送器进行调整。

调整过程中需要注意保护好变送器的敏感部件，避免损坏。

完成调整后，需要进行严格的测试和校准，确保修改后的输入参数符合监测要求。

在修改差压变送器的输入参数时，务必谨慎小心。

不正确的调整可能导致测量不准确，甚至损坏变送器。

如果不确定如何进行参数修改，建议请专业技术人员进行操作。

同时需要注意，修改输入参数可能会影响差压变送器的性能和准确度，需进行充分的测试和验证。

对罗斯蒙特差压变送器的输入参数进行修改是一项需要谨慎对待的工作。

在确保了解了变送器的工作原理和结构，以及修改的必要性之后，才能进行相应的调整。

通过合理的参数修改，可以提高差压变送器的性能和准确度，满足特定的监测要求。

【2000字】第二篇示例：我们需要明确为什么需要修改差压变送器的输入参数。

罗斯蒙特644温度变送器罗斯蒙特644温度变送器使用4 -20mA / HART 或基金会（FOUNDATION）现场息线协议可轻松进行通讯．符合MNAUR NE21标准，确保用于HART顶部接线盒安装产品的变送器性能可靠．与不匹配的装配件相比，变送器-传感器匹配特性将温度测量精度提高了75 % 。

一、产品特点．一体化LCD 显示器可便捷地显示主传感器输入信息和变送器诊断信息．安装准备解决方案提供了多种安装选项、变送器组态和传感器／热电偶1、针对控制应用领域的高精度和可靠性罗斯蒙特644 温度变送器是一种用于关键应用领域的理想产品（适用于多种过程环境）。

它为各种设备提供高精度测量，充分展示了Rosemount产品的可靠性。

罗斯蒙特644 可以与4-20mA /HART或全数字式基金会现场总线协议同时订购。

可对每个单元进行配置，以适应各类传感器的输入：热电阻、热电偶、毫伏表或欧姆表。

2、数字式现场设备提供动力采用HART或者现场总线通讯装置可确保高性能和先进诊断技术的良好发挥。

由此，这些变送器将信息传递给准备管理系统（AMS ）。

性能。

此外，644 日AR 丁变送器还符合NAMUR NE 43 和NE 89 推荐标准。

3、可靠的变送器性能644HART变送器符合NAMUR NE21 推荐标准，它确保即使是在极为苛刻的电磁兼容性环境下也能保持一流的变送器。

此外，644HART变送器还符合NAMUR NE 43 和NE 89 推荐标准。

4、变送器与传感器匹配对于本质安全装置，只需一只安全栅就可为数台848 T型变将指定RTD 传感器的温度阻抗曲线图输入644 变送器后，变送器与传感器可获得完美的匹配。

这就避免了传感器的互换性错误，可将精度提高75 ％。

5、安装灵活性DINA 型顶部接线盒安装变送器适用于各种远程变送器安装外壳，可以一体化或远程安装到一台传感器上。

紧凑导轨安装型极其适用于在密集型控制室内狭小空间中的DIN 导轨安装。

Quick Start Guide00825-0200-4728, Rev HCMay 2019 Rosemount™ 644 Temperature Transmitterwith 4–20 mA HART® Protocol (Revision 5 and 7)Quick Start Guide May 2019 Safety messagesThis guide provides basic guidelines for installing the Rosemount™ 644 Temperature Transmitter. Itdoes not provide instructions for detailed configuration, diagnostics, maintenance, service,troubleshooting, or installation. Refer to the Rosemount 644 Reference Manual for more instruction.The manual and this guide are also available electronically on /Rosemount.ImportantRead this manual before working with the product. For personal and system safety, and for optimum product performance, make sure to thoroughly understand the contents before installing, using, ormaintaining this product. The United States has two toll-free assistance numbers and one international number.Customer Central: 1-800-999-9307 (7:00 a.m. to 7:00 p.m. Central Standard Time)National Response Center: 1-800-654-7768 (24 hours a day). Equipment service needsInternational: 1-(952)-906-8888WARNINGPhysical accessUnauthorized personnel may potentially cause significant damage to and/or misconfiguration ofend users’ equipment. This could be intentional or unintentional and needs to be protected against.Physical security is an important part of any security program and fundamental to protecting yoursystem. Restrict physical access by unauthorized personnel to protect end users’ assets. This is truefor all systems used within the facility.WARNINGFollow instructionsFailure to follow these installation guidelines could result in death or serious injury.Ensure only qualified personnel perform the installation.WARNINGExplosionsExplosions could result in death or serious injury.Installation of the transmitters in a hazardous environment must be in accordance with theappropriate local, national, and international standards, codes, and practices. Please review theProduct Certifications section for any restrictions associated with a safe installation.Do not remove the connection head cover in explosive atmospheres when the circuit is live.Before connecting a handheld communicator in an explosive atmosphere, ensure theinstruments are installed in accordance with intrinsically safe or non-incendive field wiringpractices.Verify the operating atmosphere of the transmitter is consistent with the appropriatehazardous locations certifications.All connection head covers must be fully engaged to meet explosion-proof requirements./RosemountMay 2019Quick Start Guide WARNINGProcess leaksProcess leaks could result in death or serious injury.Do not remove the thermowell while in operation.Install and tighten thermowells and sensors before applying pressure.WARNINGElectrical shockElectrical shock could cause death or serious injury.Avoid contact with the leads and terminals. High voltage that may be present on leads can causeelectrical shock.ContentsSystem readiness (5)Transmitter installation (6)Safety instrumented systems (24)Product certifications (25)Quick Start Guide3Quick Start Guide May 2019 /RosemountMay 2019Quick Start Guide 1System readiness1.1Confirm HART® revision capability•If using HART based control or asset management systems, confirm the HART capability of those systems prior to transmitter installation. Not allsystems are capable of communicating with HART Revision 7 Protocol.You can configure thie transmitter for either HART Revision 5 or 7.1.2Confirm correct device driverProcedure1.Verify the latest Device Driver files are loaded on your systems toensure proper communications.2.Download the latest Device Driver at /Device-Install-Kits/Device-Install-Kit-SearchTable 1-1 provides the information necessary to ensure the correctDevice Driver files and documentation are being used.Table 1-1: Device Revisions and Files(1)NAMUR software revision is located on the hardware tag of the device. HART softwarerevision can be read using a HART communication tool.(2)Device Driver file names use Device and DD Revision, e.g. 10_01. HART Protocol is designedto enable legacy device driver revisions to continue to communicate with new HART devices.To access new functionality, download the new Device Driver. Emerson recommendsdownloading new Device Driver files to ensure full functionality.(3)HART Revision 5 and 7 Selectable, Dual Sensor support, Safety Certified, AdvancedDiagnostics (if ordered), Enhanced Accuracy and Stability (if ordered).Quick Start Guide5Quick Start Guide May 2019 2Transmitter installation2.1Set the alarm switchSet the alarm switch before putting the device into operation.Procedure1.Set the loop to manual (if applicable) and disconnect the power2.Remove the LCD display by detaching from the transmitter (ifapplicable).3.Set the switch to the desired position.H indicates High; L indicates Low.4.Reattach the LCD display to the transmitter (if applicable).5.Reattach the housing cover. Ensure covers must be fully engaged tomeet explosion-proof requirements.6.Apply power and set the loop to automatic control (if applicable).ExampleFigure 2-1: Alarm Switch PlacementAA. Alarm switchNoteIf using an LCD display, remove the display by detaching it from the top ofthe device, set the switch to the desired position, reattach the LCD display,and reattach the housing cover. Enclosure covers must be fully engaged tomeet explosion-proof requirements./RosemountMay 2019Quick Start Guide2.2Verify configurationUpon receiving your transmitter, verify its configuration using any HART®-compliant configuration tool. See the Rosemount™ 644 Reference Manualfor configuration instructions using AMS Device Manager.The transmitter communicates using the Field Communicator(communication requires a loop resistance between 250 and 1100 ohms).Do not operate when power is below 12 Vdc at the transmitter terminal. Seethe Field Communicator Reference Manual for more information.2.2.1Verify configuration with a Field CommunicatorTo verify configuration, you must install a Rosemount™ 644 DD (DeviceDescriptor) on the Field Communicator.Fast Key sequences for the latest DD are shown in Table 2-1. For Fast Keysequences using legacy DD's, contact your local Emerson representative.Perform the following steps to determine if an upgrade is required.Procedure1.Connect the sensor.See the wiring diagram located on the device’s top label.2.Connect the bench power supply to the power terminals (“+” or “–”).3.Connect a Field Communicator to the loop across a loop resistor or atthe power/signal terminals on the transmitter.The following message will appear if the communicator has a previousversion of the DDs:Device Description Not Installed…The DeviceDescription for manufacturer 0x26 model 0x2618 devrev 8/9 is not installed on the System Card…seeProgramming Utility for details on DeviceDescription updates…Do you wish to proceed inforward compatibility mode?If this notice does not appear, the latest DD is installed. If the latest version isnot available, the communicator will communicate properly; however, whenthe transmitter is configured to utilize advanced transmitter features, therewill be trouble communicating and a prompt to turn off the communicatorwill display. To prevent this from happening, upgrade to the latest DD oranswer NO to the question and default to the generic transmitterfunctionality.Quick Start Guide7Quick Start Guide May 2019 NoteEmerson recommends installing the latest DD to access the completefunctionality. Visit /Field-Communicator for information onupdating the DD Library.2.2.2Field Communicator user interfaceTwo user interfaces are available to configure this device.Figure 2-2 may be used for transmitter configuration and startup.Figure 2-2: Device Dashboard Field Communicator InterfaceTable 2-1: Device Revision 8 and 9 (HART® 5 and 7), DD Revision 1 FastKey Sequence/RosemountMay 2019Quick Start GuideQuick Start Guide9Quick Start Guide May 20192.2.3Input or verify Callendar Van-Dusen constantsIf using sensor matching with this combination of a transmitter and sensor,verify the constants input.Procedure1.From the HOME screen, select2 Configure→2 Manual Setup→1Sensor.2.Set the control loop to manual and select OK.3.At the ENTER SENSOR TYPE prompt, select Cal VanDusen.4.At the ENTER SENSOR CONNECTION prompt, select theappropriate number of wires.5.Enter the Ro, Alpha, Delta, and Beta values from the stainless steeltag attached to the special-order sensor when prompted.6.Return the control loop to automatic control and select OK.7.To disable the transmitter-sensor matching feature from the HOMEscreen select 2 Configure→2 Manual Setup→1 Sensor→10Sensor Matching-CVD.8.Choose the appropriate sensor type from the ENTER SENSORTYPE prompt./Rosemount2.2.4Verify configuration with local operator interface (LOI)The optional LOI can be used for commissioning the device. The LOI is a two-button design. To activate the LOI, push any button.LOI button functionality is shown on the bottom corners of the display. SeeTable 2-2 and Figure 2-4 for button operation and menu information.Figure 2-3: Local Operator InterfaceTable 2-2: LOI Button OperationFigure 2-4: LOI Menu2.2.5Switch HART® Revision modeNot all systems are capable of communicating with HART Revision 7Protocol. You can configure this transmitter for either HART Revision 5 or 7using a HART capable configuration tool.Updated configuration menus include a HART Universal Revision parameterthat can be configured to 5 or 7 if accessible by your system. See Table 2-1for the Fast Key sequence.If the HART configuration tool is not capable of communicating with HARTRevision 7, the configuration menus in Table 2-1 will not be available. Toswitch the HART Universal Revision parameter from generic mode, followthe instructions below.ProcedureGo to Configure→Manual Setup→Device Information→Identification→Message.a)To change your device to HART Revision 7, enter HART7 in theMessage field.b)To change your device to HART Revision 5, enter HART5 in theMessage field.NoteSee Table 2-1 to change HART Revision when the correct Device Driver isloaded.2.3Mount the transmitterMount the transmitter at a high point in the conduit run to prevent moisturefrom draining into the transmitter housing.2.3.1Head mount transmitter with DIN plate style sensor installationProcedure1.Attach the thermowell to the pipe or process container wall.2.Install and tighten the thermowell before applying process pressure.3.Verify the transmitter failure mode switch position.4.Assemble the transmitter to the sensor. Push the transmittermounting screws through the sensor mounting plate.5.Wire the sensor to the transmitter.6.Insert the transmitter-sensor assembly into the connection head.a)Thread the transmitter mounting screw into the connectionhead mounting holes.b)Assemble the extension to the connection head.c)Insert the assembly into the thermowell.7.If using a cable gland, properly attach the cable gland to a housingconduit entry.8.Insert the shielded cable leads into the connection head through thecable entry.9.Connect the shielded power cable leads to the transmitter powerterminals.Avoid contact with sensor leads and sensor connections.10.Connect and tighten the cable gland.11.Install and tighten the connection head cover.Enclosure covers must be fully engaged to meet explosion-proofrequirements.A.Connection head coverB.Connection headC.ThermowellD.Transmitter mounting screwsE.Integral mount sensor with flying leadsF.Extension2.3.2Head mount transmitter with threaded sensor installation (two orthree conduit entries)Procedure1.Attach the thermowell to the pipe or process container wall.2.Install and tighten thermowells before applying process pressure.3.Attach necessary extension nipples and adapters to the thermowell.4.Seal the nipple and adapter threads with silicone tape.5.Screw the sensor into the thermowell. Install drain seals if requiredfor severe environments or to satisfy code requirements.6.Verify the transmitter failure mode switch is in the desired position.7.Verify the correct installation of Integral Transient Protection (optioncode T1).a)Ensure the transient protector unit is firmly connected to thetransmitter puck assembly.b)Ensure the transient protector power leads are adequatelysecured under the transmitter power terminal screws.c)Verify the transient protector’s ground wire is secured to theinternal ground screw found within the universal head.NoteThe transient protector requires the use of an enclosure of at least3.5-in. (89 mm) in diameter.8.Pull the sensor wiring leads through the universal head andtransmitter center hole.9.Mount the transmitter in the universal head by threading thetransmitter mounting screws into the universal head mountingholes.10.Mount the transmitter-sensor assembly into the thermowell, orremote mount if desired.11.Seal adapter threads with silicone tape.12.Pull the field wiring leads through the conduit into the universalhead. Attach the sensor and power leads to the transmitter.Avoid contact with other terminals.13.Install and tighten the universal head cover.Enclosure covers must be fully engaged to meet explosion-proofrequirements.ExampleA.Threaded thermowellB.Threaded style sensorC.Standard extensionD.Universal head (transmitter inside)E.Conduit entry2.3.3Field mount transmitter with threaded sensor installationProcedure1.Attach the thermowell to the pipe or process container wall. Installand tighten thermowells before applying process pressure.2.Attach necessary extension nipples and adapters to the thermowell.3.Seal the nipple and adapter threads with silicone tape.4.Screw the sensor into the thermowell. Install drain seals if requiredfor severe environments or to satisfy code requirements.5.Verify the transmitter failure mode switch is in the desired position.6.Mount the transmitter-sensor assembly into the thermowell orremote mount if desired.7.Seal adapter threads with silicone tape.8.Pull the field wiring leads through the conduit into the field mounthousing. Wire the sensor and power leads to the transmitter.Avoid contact with other terminals.9.Install and tighten the covers of two compartments.Enclosure covers must be fully engaged to meet explosion-proofrequirements.ExampleAC BDEA.Threaded thermowellB.Threaded style sensorC.Standard extensionD.Field mount housing (transmitter inside)E.Conduit entry2.4Wire and apply power2.4.1Wire the sensor to the transmitterThe wiring diagram is located on the device’s top label below the terminalscrews.Figure 2-5: Rosemount™644 Head Mount TransmitterFigure 2-6: Rosemount 644 Head Mount - Single and Dual Input Wiring Diagrams•The transmitter must be configured for at least a three-wire RTD in order to recognize an RTD with a compensation loop.•Emerson provides a four-wire sensors for all single element RTDs. Use these RTDs in three-wire configurations by leaving the unneeded leads disconnected and insulated with electrical tape.Figure 2-7: Rosemount 644 Field Mount TransmitterFigure 2-8: Rosemount 644 Field Mount - Single and Dual Input Wiring Diagrams2.4.2Power the transmitterAn external power supply is required to operate the transmitter.Procedure1.Remove the housing cover (if applicable).2.Connect the positive power lead to the “+” terminal. Connect thenegative power lead to the “–” terminal.If a transient protector is being used, the power leads will now beconnected to the top of the transient protector unit. See thetransient label for indication of “+” and “–“terminal connections.3.Tighten the terminal screws. When tightening the sensor and powerwires, the max torque is 6 in-lb (0.7 N-m).4.Reattach and tighten the cover (if applicable).Enclosure covers must be fully engaged to meet explosion-proofrequirements.5.Apply power (12–42 Vdc).2.4.3Load limitationThe power required across the transmitter power terminals is 12 to 42.4Vdc; the power terminals are rated to 42.4 Vdc. To prevent damaging thetransmitter, do not allow terminal voltage to drop below 12.0 Vdc whenchanging the configuration parameters.2.4.4Ground the transmitterTo ensure proper grounding, it is important the instrument cable shield be:•Trimmed close and insulated from touching the transmitter housing.•Connected to the next shield if cable is routed through a junction box.•Connected to a good earth ground at the power supply end.NoteShielded twisted pair cable should be used for best results. Use 24 AWG orlarger wire and do not exceed 5,000 ft. (1500 m).2.4.5Ungrounded thermocouple, mV, and RTD/Ohm inputsEach process installation has different requirements for grounding. Use thegrounding options recommended by the facility for the specific sensor typeor begin with grounding option 1 (the most common).Ground the transmitter: option 1Procedure1.Connect sensor wiring shield to the transmitter housing.2.Ensure the sensor shield is electrically isolated from surroundingfixtures that may be grounded.3.Ground signal wiring shield at the power supply end.ExampleBACDCSDA.Sensor wiresB.TransmitterC.Shield ground pointD.4–20 mA loopGround the transmitter: option 2Procedure1.Connect signal wiring shield to the sensor wiring shield.2.Ensure the two shields are tied together and electrically isolated fromthe transmitter housing.3.Ground shield at the power supply end only.4.Ensure the sensor shield is electrically isolated from the surroundinggrounded fixtures.BACDCSDA.Sensor wiresB.TransmitterC.Shield ground pointD.4–20 mA loop5.Connect shields together, electrically isolated from the transmitter. Ground the transmitter: option 3Procedure1.Ground sensor wiring shield at the sensor, if possible.2.Ensure the sensor wiring and signal wiring shields are electricallyisolated from the transmitter housing.3.Do not connect the signal wiring shield to the sensor wiring shield.4.Ground signal wiring shield at the power supply end.BACDCSDA.Sensor wiresB.TransmitterC.Shield ground pointD.4–20 mA loop2.4.6Grounded thermocouple inputsGround the transmitter: option 4Procedure1.Ground sensor wiring shield at the sensor.2.Ensure the sensor wiring and signal wiring shields are electricallyisolated from the transmitter housing.3.Do not connect the signal wiring shield to the sensor wiring shield.4.Ground signal wiring shield at the power supply end.DCSACDA.Sensor wires B.Transmitter C.Shield ground point D.4–20 mA loop2.5Perform a loop testThe loop test command verifies transmitter output, loop integrity, andoperation of any recorders or similar devices installed in the loop.2.5.1Perform a loop test using a Field CommunicatorProcedure1.Connect an external ampere meter in series with the transmitter loop(so the power to the transmitter goes through the meter at somepoint in the loop).2.From theHome screen, enter the Fast Key sequence.3.In the test loop, verify the transmitter’s actual mA output and theHART ® mA reading are the same value.If the readings do not match, either the transmitter requires anoutput trim or the meter is malfunctioning.After completing the test, the display returns to the loop test screenand allows the user to choose another output value.4.To end the loop test, select End and Enter.2.5.2Perform a loop test using Device ManagerProcedure1.Right click on the device and select Service Tools.2.In the left navigation pane select Simulate.3.On the Simulate tab in the Analog Output Verification group box,select the Perform Loop Test button.4.Follow the guided instructions and select Apply when complete.2.5.3Perform a loop test using the LOIReference the figure below to find the path to the Loop Test in the LOImenu.Figure 2-9: Configuring the Tag with LOI3Safety instrumented systemsFor Safety Certified installations, refer to the Rosemount™ 644 ReferenceManual. The manual is available electronically at /Rosemountor by contacting an Emerson representative.4Product certificationsRev: 0.14.1European Directive InformationA copy of the EU Declaration of Conformity can be found at the end of theQuick Start Guide. The most recent revision of the EU Declaration ofConformity can be found at /Rosemount.4.2Ordinary Location CertificationAs standard, the transmitter has been examined and tested to determinethat the design meets the basic electrical, mechanical, and fire protectionrequirements by a nationally recognized test laboratory (NRTL) as accreditedby the Federal Occupational Safety and Health Administration (OSHA). 4.3North AmericaThe US National Electrical Code® (NEC) and the Canadian Electrical Code(CEC) permit the use of Division marked equipment in Zones and Zonemarked equipment in Divisions. The markings must be suitable for the areaclassification, gas, and temperature class. This information is clearly definedin the respective codes.4.4USA4.4.1E5 USA Explosionproof, Non-Incendive, Dust-IgnitionproofCertificate:[XP & DIP]: 3006278; [NI]: 3008880 & 3044581Standards:FM Class 3600: 2011, FM Class 3615: 2006, FM Class 3616:2011, FM Class 3810: 2005, ANSI/NEMA® 250: 2003,ANSI/IEC 60529: 2004Markings:XP CL I, DIV 1, GP B, C, D; DIP CL II / III, DIV 1, GP E, F, G; T5(–50 °C ≤ T a ≤ +85 °C); Type 4X; IP66; See I5 description for Non-Incendive markingsCertificate:1091070Standards:FM Class 3600: 2011, FM Class 3615: 2006, FM Class 3616:2011, UL Std. No. 61010-1-12, UL Std. No. 50E, CAN/CSAC22.2 No. 60529-05Markings:XP CL I, DIV 1, GP B, C, D; DIP CL II / III, DIV 1, GP E, F, G; T5 (–50 °C ≤ T a ≤ +85 °C); Type 4X; IP66;4.4.2I5 USA Intrinsic Safety and Non-IncendiveCertificate:3008880 [Headmount Fieldbus/PROFIBUS®, RailmountHART® ]Standards:FM Class 3600: 2011, FM Class 3610: 2010, FM Class 3611:2004, FM Class 3810: 2005, NEMA – 250: 1991Markings:IS CL I/II/III, DIV I, GP A, B, C, D, E, F, G; NI CL I, DIV 2, GP A, B,C, DSpecial Conditions for Safe Use (X):1.When no enclosure option is selected, the Rosemount 644Temperature Transmitter shall be installed in an enclosure meetingthe requirements of ANSI/ISA S82.01 and S82.03 or other applicableordinary location standards.2.Option code K5 is only applicable with a Rosemount enclosure.However, K5 is not valid with enclosure option S1, S2, S3, or S4.3.An enclosure option must be selected to maintain a Type 4X rating.Certificate:3044581 [Headmount HART]Standards:FM Class 3600: 2011, FM Class 3610: 2010, FM Class 3611:2004, FM Class 3810: 2005, ANSI/NEMA – 250: 1991,ANSI/IEC 60529: 2004; ANSI/ISA 60079-0: 2009; ANSI/ISA60079-11: 2009Markings:[No Enclosure]: IS CL I, DIV I, GP A, B, C, D T4; CL I ZONE 0 AExia IIC T4 Ga; NI CL I, DIV 2, GP A, B, C, D T5 [With Enclosure]: ISCL I/II/III, DIV 1, GP A, B, C, D, E, F, G; NI CL I, DIV 2, GP A, B, C,D; Type 4X; IP68Special Conditions for Safe Use (X):1.When no enclosure option is selected, the Rosemount 644Temperature Transmitter shall be installed in a final enclosuremeeting type of protection IP20 and meeting the requirements ofANSI/ISA 61010-1 and ANSI/ISA 60079-0.2.The Rosemount 644 optional housings may contain aluminum and isconsidered a potential risk of ignition by impact or friction. Care mustbe taken during installation and use to prevent impact and friction.Certificate:1091070Standards:FM Class 3600: 2011, FM Class 3610: 2010, FM Class 3611:2004, UL Std. No. 61010-1-12, UL Std. No. 50E, CAN/CSAC22.2 No. 60529-05, UL Std. No. 60079-11: Ed. 6Markings:IS CL I/ II/ III, DIV 1, GP A, B, C, D, E, F, G; CL I ZONE 0 AEx ia IIC;NI CL I, DIV 2, GP A, B, C, DSpecial Conditions for Safe Use (X):1.When no enclosure option is selected, the Rosemount 644Temperature Transmitter shall be installed in a final enclosuremeeting type of protection IP20 and meeting the requirements ofANSI/ISA 61010-1 and ANSI/ISA 60079-0.2.Option code K5 is only applicable with a Rosemount enclosure.However, K5 is not valid with enclosure options S1, S2, S3, or S4.3.An enclosure option must be selected to maintain a Type 4X rating4.The Rosemount 644 optional housings may contain aluminum and isconsidered a potential risk of ignition by impact or friction. Care mustbe taken during installation and use to prevent impact and friction.4.5Canada4.5.1I6 Canada Intrinsic Safety and Division 2Certificate:1091070Standards:CAN/CSA C22.2 No. 0-10, CSA Std C22.2 No. 25-1966, CAN/CSA-C22.2 No. 94-M91, CSA Std C22.2 No. 142-M1987, CAN/CSA-C22.2 No. 157-92, CSA Std C22.2 No. 213-M1987, C22.2No 60529-05, CAN/CSA C22.2 No. 60079-11:14, CAN/CSAStd. No. 61010-1-12Markings:[HART] IS CL I GP A, B, C, D T4/T6; CL I, ZONE 0 IIC; CL I, DIV 2,GP A, B, C, D[Fieldbus/PROFIBUS] IS CL I GP A, B, C, D T4; CL I, ZONE 0 IIC;CL I, DIV 2, GP A, B, C, D4.5.2K6 Canada Explosionproof, Dust-Ignitionproof, Intrinsic Safety andDivision 2Certificate:1091070Standards:CAN/CSA C22.2 No. 0-10, CSA Std C22.2 No. 25-1966, CSAStd. C22.2 No. 30-M1986, CAN/CSA-C22.2 No. 94-M91, CSAStd C22.2 No. 142-M1987, CAN/CSA-C22.2 No. 157-92, CSAStd C22.2 No. 213-M1987, C22.2 No 60529-05, CAN/CSAC22.2 No. 60079-11:14, CAN/CSA Std. No. 61010-1-12 Markings:CL I/II/III, DIV 1, GP B, C, D, E, F, GSee I6 description for Intrinsic Safety and Division 2 markings4.6Europe4.6.1E1 ATEX FlameproofCertificate:FM12ATEX0065XStandards:EN 60079-0: 2012+A11: 2013, EN 60079-1: 2014, EN60529:1991 +A1:2000+A2:2013Markings:II 2 G Ex db IIC T6…T1 Gb, T6(–50 °C ≤ T a ≤ +40 °C), T5…T1(–50 °C ≤ T a ≤ +60 °C)See Table 4-1 for process temperatures.Special Conditions for Safe Use (X):1.See certificate for ambient temperature range.2.The non-metallic label may store an electrostatic charge and becomea source of ignition in Group III environments.3.Guard the LCD display cover against impact energies greater than 4joules.4.Flameproof joints are not intended for repair.5. A suitable certified Ex d or Ex tb enclosure is required to be connectedto temperature probes with Enclosure option “N”.6.Care shall be taken by the end user to ensure that the externalsurface temperature on the equipment and the neck of DIN StyleSensor probe does not exceed 130 °C.7.Non-Standard Paint options may cause risk from electrostaticdischarge. Avoid installations that cause electrostatic build-up onpainted surfaces, and only clean the painted surfaces with a dampcloth. If paint is ordered through a special option code, contact themanufacturer for more information.4.6.2I1 ATEX Intrinsic SafetyCertificate:[Headmount HART]: Baseefa12ATEX0101X[Headmount Fieldbus/PROFIBUS]: Baseefa03ATEX0499X[Railmount HART]: BAS00ATEX1033XStandards:EN IEC 60079-0: 2018, EN 60079-11: 2012Markings:[HART]: II 1 G Ex ia IIC T6…T4 Ga; [Fieldbus/PROFIBUS]:II 1 G Ex ia IIC T4 GaSee Table 4-5 for Entity Parameters and Temperature Classifications.。

罗斯蒙特644温度变送器和0065温度传感器在LNG储罐项
目管道上的应用
关键点
双支输入?
一体化防雷?
套管强度计算
全通焊行业:
LNG 应用: LNG 管道提供的产品:644
温度变送器，0065温度传感器
罗斯蒙特644温度变送器和0065温度传感器-客户某LNG，测点主要分布在汽化系统、汽车装车区、码头接卸区及高压泵系统的LNG/NG管道
罗斯蒙特644温度变送器和0065温度传感器-挑战l
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高压，高流速l 多雷雨天气罗斯蒙特644温度变送器和0065温度传感器-应用解决方案
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644温度变送器，双支输入，一体化防雷l 0065温度传感器，双支，套管强度计算，法兰全通焊罗斯蒙特644温度变送器和0065温度传感器-结果不像表面温度测量只是为了检测开车时LNG是否入管以及管道是否满管，这里提到的温度测量要参与过程控制，因此必须选择精度高的插入式测量方案。

罗斯蒙特644高性能温度变送器提供精确可靠的温度测量，一体化防雷有效保护电子线路板免受雷击等瞬变电流的破坏。

0065温度传感器带棒材保护套管，对于高压高流速的介质，罗斯蒙特按照ASME PTC19.3-2010最新标准进行套管强度计算，采取缩短插深、加粗套管等方式加强套管，确保其满足过程的需要，900#以上的法兰采用全通焊工艺提高套管的强度。

套管轻度计算全通焊。

罗斯蒙特644温度变送器接线罗斯蒙特644温度变送器分为单输入644H和双输入644S两种，本文介绍温度变送器644接线，及温度变送器接线的注意事项。

问题1：下图①位置这四个端子是干什么的？问题2：下图②位置这三个端子是干什么的？问题3：下图③位置这三个端子是干什么的？问题4：下图④位置这个插针是干什么的？问题5：下图⑤位置拨盘L和H位置代表什么？问题6：上图⑥位置这两个端子是干什么的？结合上图，不难看出644各个位置的作用：问题1答案：图中①位置这四个端子是单输入644H温度变送器的输入信号端子；问题2和3答案：图中②和③位置这几个端子是双输入644S温度变送器的两路输入信号端子；问题4答案：图中④位置插针是连接显示屏用的，在现场中，有的测点中配置了显示屏，有的测点中没有配置显示屏，大家在现场中了可以打开仪表盖看看。

问题5答案：图中⑤位置H和L是表示故障模式位置，即将物理硬件报警开关设置到所需的位置。

H表示高，L表示低。

问题6答案：644温度变送器的电源端子记好这个644温度变送器接线图，温度变送器644接线接线不用愁：温度变送器644接线需要注意的问题温度变送器变送器可接受多种热电阻组态，包括2线、3线或4线组态。

若变送器安装在远离3线或4线热电阻的位置，如果每条引线的电阻最高为60欧姆，那么变送器能够按规范工作，无需重新校准。

在此情况中，热电阻和变送器之间的引线应有屏蔽层。

若仅使用两条引线，并且两条热电阻引线与传感器元件串联，则当引线长度超过三英尺[20AWG线，注：AWG美国线规，AWG前面的数值(如20AWG、24AWG)表示导线形成最后直径前所要经过的孔的数量，数值越大，导线经过的孔就越多，导线的直径也就越小]时，可能出现明显误差。

对于2线和3线热电阻，当环境温度发生变化时，会产生额外的引线电阻误差。

产品数据表00813-0106-4825, Rev PA2022 年 6 月Rosemount™ 248 温度变送器■基础型温度变送器为温度监测点提供可靠的解决方案。

■标准变送器设计在过程环境中提供灵活、可靠的性能。

■相比直接连接传感器，减少了昂贵加长电线和多工器的需要，因此降低了总体安装成本。

■研究罗斯蒙特温度测量 Complete Point Solution™的优点。

特性和优点■RTD、TC、电位计、线性电阻和两极 mV 输入■环境工作温度范围广：-50 至 +85 °C■ 2.5 kVAC 电流隔离基础型温度变送器为温度监测点提供具有成本效益的解决方案■DIN B 型头安装架变送器■有多种 DIN B 外壳选项■HART®/4–20 mA 协议■具有支持通用传感器输入（RTD、T/C、mV、ohms）的单传感器的能力■变送器-传感器匹配（Callendar Van Dusen 常数）■符合 SIL2：公认的第三方机构对在达到 SIL 2 要求的仪表安全系统中的使用进行了IEC 61508 认证。

标准变送器设计在过程环境中提供灵活、可靠的性能■通过将传感器直接连接到数字控制系统，可以提供更高的测量准确度和可靠性，同时降低总体安装成本■一年稳定性保证，可节省维护费用■开路/短路传感器诊断功能有助于检测传感器回路的问题■环境温度补偿能力提高变送器的性能内容特性和优点 (2)订购信息 (5)变送器技术规格 (11)产品认证 (20)尺寸图 (28)组态界面技术规格 (29)Rosemount 2482022 年 6 月研究整套罗斯蒙特温度测量解决方案的优点■通过“组装到传感器”选项，艾默生提供全套温度测量点方案，提供可直接安装的变送器和传感器组件。

■艾默生提供一系列热电阻、热电偶和热套管，为温度感知领域带来了优异的耐用性和罗斯蒙特的可靠性，形成完整的罗斯蒙特变送器产品组合。

体验全球一致性以及由众多的全球罗斯蒙特温度测量产品制造点提供的本地支持■经验丰富的仪表顾问可帮助您为任何温度应用选择正确的产品，并提供最佳安装做法的建议■广泛的全球艾默生服务与支持人员网络能够在任何时间、任何地点提供现场服务■凭借全球制造，从各家工厂提供全球一致的产品以及满足任何规模的工程需求的能力2022 年 6 月Rosemount 248Rosemount 2482022 年 6 月通过资产位号在需要时访问信息新发运设备包含一个唯一的二维码资产位号，您可以通过它直接从设备访问序列化信息。

众所周知，罗斯蒙特是以温度起家的，基本温度变送器为温度测量点提供可靠的解决方案，尤其是推出的248、644和3144系列温度，深受广大客户的喜爱。

下面就给大家介绍这三款温度变送器的接线方式。

一、248可分为248H顶部安装型及248R导轨安装型变送器1、248H顶部安装型变送器由上图可看到248带外壳的变送器，模块中分为二个区域，电源区及接线区，＊电源区外接24V电源；＊传感器接线区接线方式具体如下（看连接图）：红线接正极，白线接负级→2线制：红线接2（1、2串联），白线接3（3、4串联）；→3线制：红线接2（1、2串联），白线接3、4；→4线制：红线接1、2，白线接3、4注意：串联情况仅为变送器未设置线制的情况，若客户所需线制与变送器线制一致，则无需串联。

2、248R导轨安装型变送器248R导轨型接线方式和248H顶部安装型一样，248温度变送器均为单传感器输入类型，此系列均不带显示。

二、644可分为单传感器输入（644H和644R）和双传感器输入类型644S1、单传感器输入644H由上图可看到644带外壳的变送器，模块中分为三个区域，电源区、报警开关及传感器接线区；＊电源区外接24V电源；＊报警开关：H和L表示故障模式，H表示高，L表示低；＊单传感器接线区接线方式具体如下（看连接图）：红线接正极，白线接负级→2线制：红接3（3、4串联），白接2（1、2串联）；→3线制：红接3（3、4串联），白接1、2；→4线制：红接3、4，白接1、2注意：串联情况仅为变送器未设置线制的情况，若客户所需线制与变送器线制一致，则无需串联。

2、双传感器输入644S，双热电偶要特别注意正负极接线要正确，接线图如下：3、644R导轨式：接线图如下：三、3144P温度变送器可分为单传感器输入和双传感器输入1、3144P温度变送器单传感器输入2、3144P温度变送器双传感器输入注意事项：1、串联情况仅为变送器未设置线制的情况，若客户所需线制与变送器线制一致，则无需串联。