温度校准仪说明书

红外线测温仪校准操作说明书操作说明书一、引言感谢您购买我们的红外线测温仪。

为了确保您能正确操作和使用该测温仪，我们特别为您提供本操作说明书。

请您详细阅读本说明书并按照指引进行操作。

二、产品介绍1. 外观和组成部分红外线测温仪外观美观、结构紧凑。

它主要由外壳、显示屏、按键、红外线接收器等部分组成。

2. 技术参数红外线测温仪的主要技术参数如下：- 测温范围：-50°C至800°C- 测温距离比例：12：1- 分辨率：0.1°C- 工作波长：8-14μm- 功率供应：9V电池请确保在操作测温仪之前，您已熟悉并了解该设备的技术参数。

三、校准准备在开始校准之前，请确保以下准备工作已完成：1. 充电：如果您的测温仪使用电池，请确保电池充满电。

2. 温度要求：确保待测温物体的温度在合适的测量范围内，以避免影响校准结果。

3. 校准环境：选择一个稳定的环境，避免温度突变、强光照射等情况，以确保准确的校准结果。

四、校准步骤请按照以下步骤进行红外线测温仪的校准：1. 打开测温仪：按下开关按钮，将测温仪打开。

2. 设置校准模式：在测温仪的菜单界面中选择校准模式。

3. 输入环境温度：在显示屏中输入当前环境温度。

您可以通过其他温度计获得准确的环境温度数值。

4. 对准校准源：将测温仪对准校准源，确保测温仪与校准源的间距符合要求。

5. 校准：按下校准按钮，测温仪将自动校准。

请耐心等待校准过程完成。

6. 校准结果：校准完成后，测温仪将显示校准结果，包括偏差值和准确度等信息。

7. 确认校准：如果校准结果符合您的预期，按下确认按钮保存校准结果；如果不符合，请重复校准步骤。

五、注意事项在使用红外线测温仪进行校准时，请注意以下事项：1. 安全操作：请勿将红外线测温仪对准人眼，避免直接照射人体、动物或高温物体。

2. 清洁保养：保持测温仪的镜头清洁，避免灰尘或污渍影响测温准确度。

3. 存储环境：将测温仪存放在干燥、通风的地方，避免高温、湿度等影响设备性能。

标准文件1、目的Objective：建立数字温度指示调节仪校准规程，确保校准工作规范、顺利进行。

2、范围Scope：适用于本公司与热电阻配用的数字温度指示调节仪的检验。

3、职责Responsibilities：3.1 工程项目部负责制定本规程，工程项目部经理、QA负责监督本规程的实施，技术监督局、委托有相关资质单位或经培训合格的计量人员对本规程的实施负责。

4、定义Definition：4.1 指示调节仪——仪表配热电阻用以测量温度，由感应器、传感器和显示器组成。

包括台式、盘装式和便携式的仪表。

5、程序Procedures：5.1技术要求5.1.1外观5.1.1.1仪表的外形结构应完好。

仪表的名称、型号、规格、分度号、制造厂名或商标、出厂编号等均应有明确的标记。

5.1.1.2仪表外露部件（端钮、面板、开关等）不应松动、破损；数字指示面板不应有影响读数的缺陷。

5.1.1.3各开关、旋钮在规定的状态时，应具有相应的功能和一定的调节范围。

5.1.1.4仪表显示值应清晰、无叠字、亮度应均匀，不应有不亮、缺笔画等现象；小数点和极性、过载的状态显示应正确。

5.1.2基本误差5.1.2.1用含有准确度等级的表示方式Δ＝±a％FS式中：Δ——允许基本误差（℃）（应化整到末位数与分辨力相一致）；a——准确度等级。

选取数为0.1，0.2，（0.3），0.5，1.0；FS——仪表的量程，即测量范围上、下限之差。

5.1.2.2本公司与数字温度指示调节仪配用的热电阻为Pt100，其a=0.2，FS=850℃，所以Δ=±1.7℃。

5.2校准条件5.2.1校准设备直流电阻箱(准确度0.01级); 三根连接导线; 绝缘电阻表; 综合校验仪(51/2位)。

5.2.2校准环境5.2.2.1环境温度:(20±2)℃[0.5、1.0级的仪表环境温度为(20±5)℃]。

5.2.2.2相对湿度:45%RH～75%RH。

JJF ××××─201×基因扩增仪（PCR仪）测温系统校准规范1 范围本规范适用于48孔或96孔孔板结构的测量范围为（0～120）℃的多通道基因扩增仪（PCR仪）测温系统或者单通道基因扩增仪（PCR仪）测温仪的的校准，其他孔板结构和温度范围的基因扩增仪（PCR仪）测温系统的温度校准可以参考本规范。

2引用文件本规范引用下列文件：JJF 1071-2000 《国家计量校准规范编写规则》JJF 1007-2007 《温度计量名词术语及定义》JJF 1527-2015 《聚合酶链反应分析仪校准规范》YY/T 1173-2010《聚合酶链反应分析仪》ITS-90 1990年国际温标凡是注日期的引用文件，仅注日期的版本适用于本规范；凡是不注日期的引用文件，其最新版本（包括所有的修改单）适用于本规范。

3术语3.1 基因扩增仪（PCR仪），即聚合酶链反应分析仪polymerase chain reaction analyzer基于PCR（聚合酶链反应）技术原理，模拟DNA或RNA的复制过程，在模板、引物、校验和没等存在的条件下，特异扩增已知序列，对其进行检测分析的仪器设备。

[YY/T 1173-2010 3.2]3.2 基因扩增仪（PCR仪）测温系统temperature measuring system for Polymerasechain reaction analyzer用于基因扩增仪（PCR仪）的专用温度校准装置。

3.3 温度校准专用等温块与配件isothermal block and accessory for temperaturecalibration与标准恒温槽配套使用并提供基因扩增仪测（PCR仪）温系统温度校准的洁净温场的辅助装置。

3.4 温度校准专用等温块测试孔testing hole for temperature calibration模拟基因扩增仪控温块内的结构，提供基因扩增仪（PCR仪）测温系统探头布放插孔的专用等温块。

测量仪器校准说明书一、引言测量仪器校准是确保仪器准确度和可靠性的重要步骤。

本说明书将详细介绍测量仪器校准的过程和要点，以帮助用户正确进行校准操作。

请用户在使用之前仔细阅读本说明书，并按照指导进行操作，以确保获得准确可靠的测量结果。

二、仪器概述本章将对所涉及的测量仪器进行简要介绍，包括仪器的类型、主要结构和工作原理等内容。

用户应对所使用的测量仪器有一定的了解，以便更好地理解校准过程和相关要点。

三、校准准备在进行测量仪器校准之前，用户需要做一些准备工作，以确保校准过程的顺利进行。

本章将介绍校准准备的具体步骤和注意事项，包括校准环境的要求、校准设备的选择和校准标准的准备等内容。

四、校准过程本章将详细介绍测量仪器校准的具体过程和步骤，以及每个步骤的操作要点和注意事项。

校准过程应按照严格的操作规范进行，以确保校准结果的准确性和可靠性。

5.1 校准环境确认在进行测量仪器校准之前，用户需要确认校准环境是否符合要求。

校准环境应具备稳定的温度和湿度条件，并排除任何可能对校准结果产生干扰的因素。

5.2 校准设备准备校准过程中所使用的校准设备需要事先进行准备，包括仪器的选择、检查和校准设备的校准等内容。

用户应确保所使用的校准设备符合相关要求，并具备可追溯性。

5.3 校准标准准备校准标准是进行测量仪器校准时的依据，用户需要根据实际情况选择合适的校准标准，并确保其准确度和可靠性。

校准标准的选择和使用应符合相关的国家标准和规范要求。

5.4 校准操作步骤校准过程应按照一定的操作步骤进行，用户需要仔细阅读校准操作步骤，并按照要求进行操作。

校准操作的顺序和方法应按照实际情况和仪器的特性确定。

五、校准结果分析和记录校准过程完成后，用户需要对校准结果进行分析和记录。

本章将介绍校准结果分析和记录的要点和方法，以便用户能够正确理解和使用校准结果。

6.1 校准结果分析用户应根据校准结果进行分析，包括结果的准确度、可重复性和稳定性等方面。

用户还需要判断校准结果是否满足所需的测量要求，以便后续的应用和使用。

热电偶测温仪校准步骤说明书第一部分：校准前准备工作在进行热电偶测温仪的校准前，请确保以下准备工作已完成：1. 确认校准仪器：确保所使用的校准仪器满足精确度和准确性要求，并经过定期维护和校准。

2. 校准环境准备：选择一个温度稳定、无风的环境进行校准，确保环境温度不受外界干扰。

3. 校准标准：准备一组准确可靠的标准温度源作为参照，以确保校准过程的准确性。

第二部分：校准步骤根据热电偶测温仪的型号和仪器说明书，本文将会以一般的热电偶测温仪为例，介绍校准步骤。

1. 确认测试点：选择适当的测试点来进行校准。

可以选择标准温度源的一组已知温度作为测试点，以覆盖整个测量范围。

2. 连接热电偶测温仪：将热电偶测温仪与校准仪器连接。

确保连接牢固，并检查连接头的清洁度和完整性。

3. 启动校准仪器：按照校准仪器的操作说明启动设备，确保设备正常运行。

4. 记录校准仪器读数：在待测温度点稳定后，记录校准仪器显示的温度读数。

5. 测量热电偶测温仪读数：将热电偶测温仪放置在待测温度点，等待温度稳定后，记录热电偶测温仪的温度读数。

6. 对比读数结果：将校准仪器的读数与热电偶测温仪的读数进行对比。

如果两者相差超过预设误差范围，需要进行进一步调整。

7. 调整热电偶测温仪：根据校准仪器的读数和热电偶测温仪的读数差异，按照热电偶测温仪的调整方法进行调整，以提高其精确度。

8. 重复校准过程：对于其他测试点，请重复步骤4至步骤7，以确保热电偶测温仪在整个测量范围内的准确性。

第三部分：校准结果记录完成热电偶测温仪的校准后，应将校准结果进行记录和报告，以备参考和追溯。

1. 记录校准数据：将每个测试点的校准数据记录下来，包括校准仪器的读数、热电偶测温仪的读数以及它们之间的差异。

2. 分析校准结果：对于校准数据进行分析，检查是否符合预设的误差范围。

如果有超出范围的数据，需要进一步调查原因并采取相应措施。

3. 编制校准报告：根据校准数据和分析结果，编制校准报告。

Technical Data Fluke 712B and714B TemperatureCalibratorsAccuracy and SimplicityProduct Highlights•The 712B can measure andsimulate (13) different RTDtypes and resistance•The 714B can measureand simulate (17) differentthermocouple types andmillivolts•Measure 4 to 20 mA signalswhile simultaneously sourcinga temperature signal•Hanging tool designed in andincluded with every unit•Configurable 0% and 100%source settings for quick 25%linearity checks•Linear ramp and 25% step autoramp based on 0% and 100%settings•Dual inputs and backlit displayfor easy interpretation ofmeasurements•Power down settingsremembered at power up foreasy restart of tests•1-year and 2-year specificationsand traceable certificate ofcalibrationFor the temperature calibration professional that wants ahighly accurate, easy-to-use, single function temperaturecalibrator the 712B and 714B are ideal test tools.2 Fluke Corporation Fluke 71XB Temperature CalibratorsGeneral specificationsSpecificationsSpecifications are based on a one year calibration cycle and apply from +18 °C to +28 °C unless stated otherwise. All specifications assume a 5-minute warmup period.3 Fluke Corporation Fluke 71XB Temperature Calibrators4 Fluke Corporation Fluke 71XB Temperature Calibrators5 Fluke Corporation Fluke 71XB Temperature CalibratorsFluke CorporationPO Box 9090, Everett, WA 98206 U.S.A.Fluke Europe B.V.PO Box 1186, 5602 BD Eindhoven, The NetherlandsFor more information call:In the U.S.A. (800) 443-5853 or Fax (425) 446-5116In Europe/M-East/Africa +31 (0) 40 2675 200 or Fax +31 (0) 40 2675 222In Canada (800)-36-FLUKE or Fax (905) 890-6866From other countries +1 (425) 446-5500 or Fax +1 (425) 446-5116Web access: ©2014 Fluke Corporation. Specifications subject to change without notice. Printed in U.S.A. 1/2014 6001702C_EN Modification of this document is not permitted without written permission from Fluke Corporation.Fluke. The Most Trusted Toolsin the World.6 Fluke Corporation Fluke 71XB Temperature CalibratorsFLUKE-712B T emperature Calibrator FLUKE-714B T emperature CalibratorIncluded equipmentMagnetic hanging tool, batteries,manual, traceable calibration certificate, and test leadsOrdering information••••••。

温度指示调节仪校准方法1．1项目名称数字温度指示调节仪的校准1．2适用范围1．2．1适用于新制造、使用中和修理后的与热电偶、热电阻配合使用，并具有模拟－数字转换器的数字温度指示及指示调节仪的校准。

也适用于以直流电流、电压和电阻作为模拟电信号输入的数字指示及指示调节仪的校准；1．2．2适用于与热电偶、热电阻配合使用的新制造、使用中和修理后的磁电系动圈式温度指示、指示位式调节仪表的校准。

也适用于其他物理参数转换成电压或电阻量等电信号的动圈式仪表的校准；1．2．3适用于配热电偶或热电阻以测量温度，以及以直流电压、电流和电阻作为模拟电信号输入，反映其他物理、化学的工业过程测量记录仪的首次、后续和使用中的校准；11．4环境条件1．4．1 温度20℃±2℃（0.1级～0.2级仪表）；20℃±5℃（0.5级～1.0级仪表）；1．4．2 湿度45%RH~75%RH；1．4．3 除地磁场外，无影响仪表正常校准的外磁场。

1．5校准及操作依据：1．5．1JJG617—96 数字温度指示调节仪1、校准前准备2．1 标准仪器设备的核查检查校准装置是否在有效期内及是否处在良好的工作状态。

2．2 被校仪器的外观检查2．2．1 仪表标尺上应注明规格、温控范围、制造商、出厂编号、生产日期和准确度等级；2．2．2 仪表不应有影响计量性能和使内部零件易受损害的缺陷；2．2．3 仪表的标尺、接线端子铭牌上的文字、数字与符号应鲜明、清晰、不应玷污和残缺。

数字指示的仪表不应有缺笔画的现象。

2．3校准前准备2．3．1仪表由收发室取来校准或去现场校准，都应做好登记、编号、注明证书号。

还应根据生产对时间或其它能满足的要求，做出工作安排；2．3．2通电预热和调整。

预热时间按制造厂说明书中规定进行，如无要求，应预热5min，最长不超过30min。

具有外部调零及调满度的仪表，在检定/校准前先进行预调。

3、校准过程3．1 外观检查3．2 绝缘电阻检定3．3 绝缘强度的鉴定3．4 基本误差的检定3．4．1 按规定接线3．4．2 通电预热和调整3．4．3 检定点的选择3．4．4 基本误差的计算3．4．5 分辨力的检定3．4．6 稳定度的检定3．4．7 短时间示值漂移3．5 校准过程中的注意事项3．5．1 温度仪表外接电阻连接正常，倾斜度在要求范围内，绝缘电阻应满足要求；3．5．2 校准过程中应注意被测仪表的温度范围，避免输入值大于被测仪表的量程而损害仪表。

The Micromite T Series T emperatureIndicator Calibrator offers accuracy and performance capabilities that areunparalleled in any other portablehandheld instrument.High Accuracy Precision on the Bench or in the PlantSimulate or Indicate J, K, T, E, N,W5/W26, Platinel II, R, S & B Thermocouples Types; and MillivoltsThree output memories, Ramping on all outputs°F/°C selector button Two year warrantyT oday’s industry is demanding ever higher standards of quality.This is being reflected in the requirement for increased accuracy and certainty in process control systems. TheMicromite T portable calibrator offers levels of accuracy previously only found in large bench-type equipment,and comes in a package designed to withstand the rigorous demands of field use.Operator ConvenienceThe Micromite T could not be easier to use. Through a combination of operator prompts via the two line alphanumeric display and keypad command entry, all functions of the Micromite are available to the operator.The menu system takes youstep by step through sensor selection,input or output operation mode, output and ramp level setting and error recognition.Operating ModeSimply choose the operating mode and the Micromite T becomes a highly accurate simulator/indicator of temperature or millivolts.Three Output MemoriesThree output memories are available,permitting you to set and select any temperature or millivolt value for later recall.RampingThe ramping feature allows you to select the ramp step increment and ramp up or down from any value set in the output memories. This makes calibrating and checking alarm trip points, deadbands, proportional bandsand other adjustments a snap.MICROMITE™ T SeriesMulti-Function Calibration StandardRugged Membrane Keypad3 Output MemoriesEasy Selection of Parameters and ModesTactile Feedback pushbuttonsMicromite T Accuracy 1±0.7°F ±0.4°C ±0.9°F ±0.5°C ±0.8°F ±0.4°C 1At 75°F ±5°F within 6 months after calibration2Conformity based on Hoskins Manufacturing Co.,W5/W26 T/CSpecificationsAmbient Operating Temperature: 0 to 55°C (32 to 131°F)Storage Temperature:-20 to 70°C (-4 to 158°F)Normal Mode Rejection: >50 db @ 60HzCommon Mode Rejection: >125 db 230VRMS 60 HzTemperature Stability: 15 ppm of reading/degree (max)Input/Output resolution: See Range and Accuracy TableInput Impedance: 100 MΩInput Error Due to Source Resistance:1µV/100ΩRJC Error: @ 25°C ±0.1°F (max)RJC Compensation Error: J, K, T, E, N, Platinel II 0.02 deg/deg* (max); R, S, B, W5/W26 0.05deg/deg* (max)ADC Error: ± 0-4 µVLinearization Error: <0.1°F on all ranges Power: 6AA batteries; AC adapter 115 or 230Vac, 50/60 HzPower Consumption: 0.5 Watts AC (max)Battery life: Continuous use 50 hours (min) @ 75°F, normal use >70 hours @ 75°F (alkaline batteries)Case Material: Polycarbonate (G.E. Lexan™,Grade 141)Weight: 0.8 kg (28 oz), with batteriesExternal Dimensions: 21.8 x 9.5 x 6 cm (8.6" x 3.75" x 2.38") (HWD)Display: 2 lines of 16 alphanumeric characters, 5 x 7 dot matrix LCDDisplay Update Rate: 2 updates/secondOutput Impedance: ≤0.005Ω; output into a fixed loadMicromite Tportable laboratory includes Micromite T calibrator, Vac adapter, carrying case, cord test leads J/K/T/E, 2 & 4-wire copper, screwdriver, wire stripper, quick connect handle and probes (air/gas, general purpose, surface, HDneedle tip). See ordering box for specific model number.。

一、用途、特点 (1)二、主要功能 (1)三、技术参数 (2)四、工作原理及框图 (5)五、使用方法 (5)六、校准与维修 (17)七：注意事项 (19)八、应用举例 (20)九、成套性 (23)一、用途、特点DO30-IIB型多功能校准仪（以下简称校准仪）是具有五位半LCD 液晶屏数字显示输出值，并可同屏显示被检表误差、误差修正值、输出量百分比、被检表满度值、步进值、频率等参数的交直流电压、电流校准源。

另设有22档标准电阻器组，方便校准万用表电阻档。

备有RS232接口实现数据自动处理功能。

校准仪采用先进的稳幅、功放、保护新技术，使其稳定性好、精度高、量程宽、分档细、安全可靠；幅值调节选择数字键式控制和编码器调节组合，使其控制灵活，反应迅速，实现定值输出和连续调节的不同需求，使用更加方便快捷。

适用于检定、校验四位半数字三用表、各种0.2级以下电流、电压表头及相应精度等级的多用表。

亦可作为高稳定度测试电源使用，配合高等级标准表，校对0.2级以上电流、电压表。

广泛应用于工矿企业、科研院所、铁路、电力等单位的质检、计量及仪表维修等。

二、主要功能2.1 5位半LCD数字显示输出量，同屏显示档位、量程、被检表示值误差r A和引用误差r m、误差修正值、输出量百分比、被检表满度值、频率、步进值，按实际值和百分比两种方式同时显示输出量，即时读出被检仪表的误差，省时省力。

2.2采用调节器键盘控制输出量的增减。

调节器上有键盘和编码器两种配置，光标初始位置在最后一位，按左右箭头可移动至除第一位数字外的各位数下方。

编码器依光标位置增减数值。

键盘控制量分为100%/N、10%/N、1%/N、0. 1%/N、0.01%/N（N为4、5、6、10、15）。

2.3交、直流电压输出范围:0～250mV～1V～2.5V～5V～10V～25V～50V～100V～250V～500V～1000V,电压最大输出1100V。

2.4交、直流电流输出范围:0～100uA～500uA～2mA～5mA～20mA～50mA～200mA～500mA～2A～5A～20A,电流最大输出22A。

数显温度计使用说明书一、引言数显温度计是一种用来测量温度的仪器，它采用数字显示温度数值，具有精度高、可靠性强等特点。

本使用说明书将详细介绍数显温度计的使用方法，帮助用户正确操作并获取准确的温度数据。

二、外观及组成部分1. 外观描述数显温度计外观简洁大方，通常由显示屏、控制按键、电源开关等组成。

外壳采用耐高温材料制成，具有较好的防护性能。

2. 显示屏显示屏通常由液晶屏构成，能够清晰显示温度数值和其他相关信息。

用户可以根据需要调整显示模式，如摄氏度（°C）或华氏度（°F）。

3. 控制按键数显温度计的控制按键一般位于仪器的侧面或底部，通过按键可以实现温度单位切换、数据保存、报警设置等功能。

4. 电源开关数显温度计通常使用电池供电，电源开关位于仪器的侧面或底部，用户可以通过开关控制仪器的开关机状态。

三、使用方法1. 电池安装首次使用前，请先将电池安装到数显温度计中。

注意正负极的正确安装，避免短路或电池损坏。

2. 开机与关机按下电源开关，数显温度计即可开机。

在使用完毕后，长按电源开关可将仪器关机。

3. 温度测量将数显温度计的探头置于待测物体或环境中，等待数秒钟，显示屏上即可显示出当前温度数值。

确保探头与测量物体充分接触，以获得准确的测量结果。

4. 温度单位切换通过按键切换温度单位，数显温度计支持摄氏度（°C）和华氏度（°F）两种单位的显示。

用户可根据需要选择相应的温度单位。

5. 数据保存数显温度计通常具备数据保存功能，用户可以通过按键将测量结果保存到仪器内部的存储器中。

这样可以方便用户随时查看之前的测量数据。

6. 报警设置某些数显温度计还具备报警功能，用户可以通过按键设置上下限温度值，当温度超过设定范围时，仪器会发出警报提醒用户。

7. 温度校准为了保证测量结果的准确性，建议定期对数显温度计进行校准。

具体的校准方法请参考仪器附带的校准指南。

四、注意事项1. 避免水浸数显温度计不具备防水功能，因此请避免将仪器浸入水中或接触大量水汽。

SCW-98系列智能测温仪唐山拓新电器有限公司警告：以下容请特别注意!●本仪表使用时不得置于日晒、雨淋、潮湿及有易燃、易爆、有腐蚀性气体的环境。

否则将导致仪表损坏或引起安全事故。

●不得安装在正对热辐射源及有强电磁干扰的地方，否则将导致仪表损坏或导致仪表工作不稳定及测量不准确。

●仪表安装的位置应远离动力电缆（距离不得小于5米），有强电磁干扰的场合（特别是大功率中频感应炉），于仪表连接的信号输入线应加装金属软管或使用带屏蔽层的信号线，否则将导致仪表工作不稳定及测量不准确。

应特别注意的是测温时测枪一定不要接触炉壁，否则将导致仪表无能工作。

●中频炉使用时，仪表安装要注意与现场的钢梁及墙壁绝缘（仪表背后衬一块绝缘材料板）。

●在大功率中频感应炉的应用场合，采取上述措施仍无效时，建议采用在测量时电炉暂时停电的方法，保证生产正常进行。

●仪表的供电电源应使用仪表专用电源，现场没有仪表专用电源的，应配备UPS不间断电源装置。

否则将可能导致仪表工作不稳定。

提示：以下容请随时注意！●随时检查测温系统的各组成部分间的连接是否紧固（仪表与补偿导线，补偿导线与测温枪，枪与热电偶），任何环节有松动都将导致仪表工作不稳定及测量不准确。

●补偿导线不得有铜导线裸露的现象。

●热电偶应确保干燥，如若潮湿应烘干后再使用。

●测温过程中操作人员必须双手紧握测温枪，使测温枪不抖动，保证测成率及准确性。

●因炉钢水温度分布的不均匀，所以要求侧量位置要定点定深度，保证所测温度的代表性和一致性，才能正确的指导生产过程。

●测量时插枪的垂直深度，一般不要小于30mm（钢水液面以下），热电偶头部应尽可能的插入熔池的中部。

测量示意图如下：注意：测温前必需将渣层扒开，测量时要将测枪一次、迅速插到液面下的一定深度（特别注意渣层厚度不包括在），等到仪表红灯点亮、电铃响时在提枪。

测温前不能将热电偶头部置于炉口处过长时间，或靠近炉口处烘烤，否则将导致测量不准，或造成测量失败。

7526A热工多产品校准器一台仪器就可校准温度、压力及各种过程仪表和热工仪表7526A 热工多产品校准器可校准各类温度压力仪表、变送器以及过程仪表校准器精度更高配套更全方案更多校准更全集多用途、高精度、高价值于一身的台式热工多产品校准器7526A热工多产品校准器是性价比最高的台式校准器，用于校准各类压力和温度过程仪表。

7526A的隔离测量通道，可同时输出并测量电压、电流或电阻，从而更加简单方便地校准温度和压力变送器、热电阻及热电偶测温仪、压力表、数字过程仿真器、面板表、数据记录仪以及其他更多的热工仪表。

•输出和测量直流电压、电流、电阻、热电阻及热电偶•使用福禄克700系列或P系列压力模块测量压力•测量4-20mA环路电流•提供24V环路电压•利用自动开关测试功能测试压力和温度开关•热敏电阻测量至4 kΩ•每个输入/输出参数最多可储存9个可编程设置点•符合ITS-90温标的精密温度测量•兼容MET/CAL® Plus计量校准管理软件7526A 集多种功能于一身，可校准各类热工仪表。

其功能包括：•模拟和测量9种类型的热电阻及13种类型的热电偶•配合福禄克700系列或P系列压力模块，可测量压力至70 MPa•直流电压输出和测量准确度为读数的30ppm/ 50ppm •可输出和测量直流电阻至4 kΩ•直流电流输出0~100mA•测量直流电流0~50mA•提供24V直流环路电压7526A热工多产品校准器 3最符合过程仪表的需求当今，每一个过程仪表生产厂家都希望提高校准工作效率。

为保证产品质量，降低损耗，提高效率以及满足相关标准，测量过程控制参数的仪器，例如温度和压力仪器必须定期进行校准。

然而，选择一个既经济准确又可靠的校准器用于校准工作，不是一件容易的事。

现在7526A热工多产品校准器就提供了一种既准确、又经济、且功能多样的解决方案。

5Ω~4kΩ，准确度：±0.05℃*，支持Pt-100 (385，3926，3916)，Pt-200，Pt-500，Pt-1000，Ni-120，Cu-427，SPRT热电偶测量/输出端子准确度：±0.1℃*，用户可选择内部/外部温度补偿支持热电偶类型B，C，E，J，K，L，N，R，S，T，U，XK，BP压力模块连接接口支持700系列和P系列压力模块，自动检测压力模块类型及量程四线RTD/Ω输入端子准确度：±0.02℃*隔离输入控制HART键启动250Ω环路电阻，使HART仪器读取7526A 热工多产品校准器 5温度传感器的计量校准校准温度变送器的电学部分只是全面校准的一部分。

OMEGA constantly strives for new By maintaining these standards in-house, we can ensure fast turnaround.Our calibrations are always done by experienced technicians. Call OMEGA’s Customer Service department today to discuss your calibration needs:FAST AND DONE RIGHTT h e I n d u s tr y ’s B e s t -E q u i p p e d L a b s/omegacal for detailsCAL-1documents that the products you buy comply with the specifications printed in OMEGA’s handbooks. This calibrationCAL-2documents not only that theequipment you buy meets the published specification, but also that calibration CAL-3provides the same documentation as CAL-1/CAL-2 along with discrete test points of data and NIST-traceable testTemperature Calibration ServicesߜNIST TraceableߜAlways Meet or ExceedISO10012-1, ANSI/NCSLZ540-1-1994 StandardsߜFast Yet Preciseߜ5 Levels of Superior-Quality CalibrationߜOMEGA Will Calibratean Instrument or anEntire System (ProbeConnected to Instrument)For each of the calibration certificates OMEGA issues,we use different standards over varied temperatureranges to attain the highest quality and reliability.The standards we use for temperature calibrations arelisted in the table below; the standards that we selectfor a customer depend on the probe being calibrated.OMEGA meticulously maintains its in-house standardsso that our customers get the quickest, most convenient,and highest-quality calibrations available. For thosecustomers wishing to do their own calibrations, someof our standards are available for purchase. Visit/omegacal to learn more.For Calibration Services Call:OMEGA’s benchtop hot point®dry block probe calibrator modelCL900A ($3295) can be used to calibrate a handheld generalpurpose thermocouple probe and meter.Probe furnaces in OMEGA’s calibration laboratory are usedalong with NIST-traceable precision instrumentation to performtemperature calibrations renowned for their accuracy.Visit /temp-calfor details on ourcomplete line ofcalibration instruments.Calibration Block† Probe must meet requirements of calibration standards shown in table on previous page.* Prices are for new instruments and subject to change without notice. For recalibration, call Customer Service for price. Charges vary depending on the instrument being calibrated.Note: Because of the large selection of temperature probes, thermocouple wire andinstrumentation that OMEGA ®offers, the pricing and calibration data points shown above are examples only and do not apply to every probe or system calibration. Contact OMEGA Customer Service for advice before returning any instrument for calibration service.Ordering Example:CAL-3 (designate this calibration level when NIST traceability is required on the thermocouple probe or probe/instrument system you are purchasing new or when you are returning previously purchased equipment for calibration), $95 (probe only); $125 (probe with instrument).OMEGA can calibrate a probe by itself, an instrument by itself,or a probe connected to an instrument (system calibration). The pricing and temperature ranges listed below apply to most types of equipment; however, our product offering is so broad that you need to check with us for current pricing on a particular calibration. Be aware that there may be inherent limitations in a particular instrument that can restrict the temperature range over which it can be calibrated.Note:CAL-3 and CAL-4 also available on thermocouple wire. Upper temperature value may be limited by wire insulation.Note:CAL-3 calibration data is given in °C and °F.Visit /thermocouple for the complete selection of thermocouple probes available.Infrared Temperature Calibration ServicesߜAll Calibration Standards Used by OMEGA are NIST Traceable ߜChoose System orSensor-Only Calibrations—No Job is Too Small ߜ4 Calibration LevelsߜWide Temperature Ranges Covered—to 1648°C (3000°F) and Higher—When RequiredߜThe Industry’s Fastest,Most Reliable Blackbody CalibrationsNote: Because of the large selection of infrared pyrometers and blackbody calibration services that OMEGA offers, the pricing and calibration data points shown above are examples only and do not apply to every pyrometer or blackbody calibration. Contact OMEGA Customer Service before returning any instrument for calibration service.Ordering Example:CAL-3-IR (designate this calibration level when NIST traceability is required on the infrared pyrometer you are purchasing new or when you are returning previously purchased equipment for calibration), $125.BB-4A benchtop blackbody calibration source, $3595, below, shown calibrating as a system the OS1551-A infrared 4-wire transmitter, $690, and the DP41-B meter, $595.For Calibration Services Call:OMEGASCOPE $1195, with sighting scope,shown being calibrated using the OMEGA temperature blackbody calibration source, $9995.Visit to see our complete line of blackbody calibrators.OMEGA offers a complete range of infrared calibration services,performed by professionals with years of experience. As a company,our testing and calibration experience spans decades.OMEGA is an industry leader in temperature measurement and laser sighting technologies, with numerous patents and a global presence. Let our knowledge and technology work for you. Wemaintain an extensive line of high-temperature and low-temperatureblackbody calibration standards—all NIST traceable. Call our Customer Service department to arrange yournext infrared calibration.Relative HumidityCalibration ServicesCTXL-TRH, microprocessor-based,portable, temperature and relative humidity circular chart recorder,$795. See page S-38 for complete details.OMEGA’s highly accurate, temperature-compensated relative humidity calibration standards result in fast, stable, NIST-traceable calibrations. All work is performed by highly trained in-house technicians dedicated to superior-quality, economically priced service. We calibrate most of the relative humidity sensors, meters, controllers, recorders, data loggers, and data acquisition systems that we sell. Contact our Customer Service department to arrange calibration of your equipment.Note:Because of the large selection of relative humidity instrumentation OMEGA offers, the pricing and calibration data points shown above are examples only and do not apply to every relative humidity calibration. Contact OMEGA Customer Service before returning any instrument for calibration service.Ordering Example:CAL-3-HU (designate this calibration level when NIST traceability is required on the relative humidity instrument you are purchasing new or when you are returning previously purchased equipment for calibration), $125.NIST-traceable temperature/humidity chamber calibrates thermo-hygrometers and temperature and humidity products.ߜAccurate, Stable,Temperature-Compensated StandardsߜTraceable to NIST ߜExpert Technical Staff ߜFast, Economical ServicePressure Calibration ServicesNote:Because of the large selection of load cells and pressure instrumentation OMEGA/OMEGADYNE offers, the pricing and calibration data points shown above are only an example anddo not apply to every pressure calibration. Contact OMEGADYNE (1-800-USA-DYNE) or OMEGACustomer Service (1-800-622-BEST) before returning any instrument for calibration service.Ordering Example: EI-CAL-3-PRESSURE(designate this calibration level when NISTtraceability is required on the pressure transducer or when you are returning previouslypurchased equipment for calibration), $150.(Specify Calibration Level)Price Description$0Statement of conformance(must be requested at time of purchase)0Statement of traceability, no data points(must be requested at time of purchase) ߜNIST-Traceable StandardsߜSensor Calibration, Meter Calibration,and System Calibrations AvailableߜFast, Accurate Service by HighlyExperienced Engineering andTechnical StaffOMEGA/OMEGADYNE maintains highly accurateprimary deadweight standards that are NIST traceable.These standards are used directly or throughsecondary transfer standards for pressure calibrationsfrom vacuum to 75,000 psi. OMEGA/OMEGADYNEalso offers a wide selection of pressure sensors.Please consult your sales representative.NIST-traceablelow-pressure andForce/Load Calibration ServicesProvided by OMEGADYNEOMEGADYNE, located in Columbus, Ohio, maintainsin-house state-of-the-art NIST-traceable calibration standards for all your load cell calibration needs. Pictured above is ahigh-capacity deadweight tester (left) and hydraulic tester (right).“S” type load cell shown with DP41-S pressure indicator, $545.ߜNIST -Traceable Calibrations: 5, 11, and 21-Point Available ߜReliable, Accurate Certificates ߜSensor, Meter, and System Calibration Available: Tension,Compression, or BothߜHigh-Capacity Deadweight and Hydraulic Testers to 300,000 lbFor Calibration Services Call:orNote:Because of the large selection of load cells and pressure instrumentation OMEGADYNE and OMEGA offer, the pricing and calibration data points shown above are only an example and do notapply to every calibration. Contact OMEGADYNE (1-800-USA-DYNE)or OMEGA Customer Service (1-800-622-BEST) before returning anyinstrument for calibration service.Ordering Example:EI-CAL-3-FORCE(designate this calibrationlevel when NIST traceability is required on the load cell or when you are returning previously purchased equipment for calibration),$150.ߜFast Turnaround TimesNote: Because of the large selection of flow sensors, meters and instrumentation OMEGA offers, the pricing and calibration data points shown above are only an example and do not apply to every flow calibration. Contact OMEGA Customer Service before returning any instrument for calibration service.Ordering Example:CAL-3-FLOW (designate this calibration level when NIST traceability is required on the flow sensor or instrumentation when you are returning previously purchased equipment for recalibration), $225. Note: To request NIST-traceable calibration on new flow products, add suffix “-NIST”to the model number at time of purchase.OMEGA maintains a full line of standards for calibrating hot-wire anemometers and large vane-style handheld units. Pictured at the top right is our large wind tunnel,which is fully equipped with chillers,pumps, and condensers to keep therecirculating air at a constant temperature and flow ratewhile achieving flow rates from 25 to 9000 AFPM. This largewind tunnel is used for anemometer and vane-type sensor calibration.HHF141A microprocessor-based handheld air velocity meter, comes complete with 25 mm (1") dia. vane probe, flexible,straight and handle extension rods,1.5 m (5') cable, 3 “AA” alkaline batteries,hard carrying case and operator’s manual,$795. Visit /hhf141for details.with 25 mm (1") dia.vane (included).WTM-1000, OMEGA’s benchtop mini wind tunnel, $2995, shown with Flow Calibration Services。

Dry Block Calibrators, Micro Bath Calibrators and Multi-Function CalibratorsA temperature calibrator todayneeds to be versatile and meeta wide range of requirements. Itshould be an easily portable deviceto cope with frequently changingoperation locations, as in multipletest bays or in production locations.A calibrator should also be equallysuitable for stationary use in themeasurement lab or in testing andinspection. To meet these demands,these calibrators are lightweightand easy-to-use at each site. Fivetemperature calibrators are availableto cover the range from -35 to 650°C(-31 to 1202°F) and wet or drycalibration requirements.• D ry Block Calibrator:TCL-650S-D, ambient to650°C (1202°F)• D ry Block Calibrator:TCL-165S-D, -35 to 165°C(-31 to 329°F)• M icro Bath Calibrator:TCL-M165S-B, -35 to 165°C(-31 to 329°F)• M icro Bath Calibrator:TCL-M255S-B, ambient to255°C (491°F)• M ulti-function Calibrator:TCL-3M165E, Dry Bath, MicroBath, Infrared Blackbody, andSurface TemperatureWhy calibrate? Temperature sensors are subject to mechanical, thermal and chemical stresses. This results in a drift the longer the sensors are in use. Only the regular calibration of the sensors provides information on the difference between the actual temperature and the measured temperature and makes the specific drift visible. This data can be critical to maintaining a stabile process operation.OMEGA TM Dry block calibrators and micro bath calibrators are one of the best means to check and calibrate a wide range of temperature measuring instruments and temperature sensors. Mechanical, electro-mechanical or electronic measurement equipment can be checked with ease. These compact and durable calibrators are easy toTCL-M255S-Bshown smallerthan actual size.TCL-M165S-B shownsmaller than actual size.TCL-650S-D shownsmaller than actual size.Black body functionSurface Temperature FunctionSurface temperature sensors are calibrated using special sleeves that are fitted vertically with the required contact force. Switching calibration control to the external reference sensor creates the best possible temperature reference point on the surface of the sleeve. The reference sensor is located directly beneath the abutting face of the sleeve. The sleeve is designed in such a way that the best temperature homogeneity is achieved in the center of the abutting face. The special design of the abutting face enables good thermal contact. There is no need to use a thermally conductive paste or other thermalconduction aids.Dry Block FunctionThe optimum thermal coupling from the block to test item is achieved with the correct adaptor sleeve. Ideally, the internal diameter of the sleeve is 0.5 mm larger than the outer diameter of the test item. With the aid of the adaptor sleeve, straight temperature sensors of virtually any length and diameter can be calibrated. The dry block covers the entire temperature range without the need to change the calibration medium. Viscosity, flash points or outgassing are of no concern.Micro Bath FunctionThe use of calibration liquids offers certain advantages if temperature sensors with an unusual shape and size are to be tested. The test item is immersed directly into the liquid without an insulating air gap. This results in direct temperature contact between the calibrator and the test item. The liquid, usually silicone oil, is chosen depending on the calibration temperature required. The continuous adjustment of the magnetic stirrer together with the removable sensor basket agitates the calibration liquid to create a large measuring zone. Furthermore, the sensor basket guarantees unhindered stirring and helps protect the tank floor.Black Body FunctionA infrared calibration sleeve is used to calibrate IR pyrometers or thermal imaging cameras. The special surface structure and the asymmetrical shapes create a “cavity radiator” with an emission factor of 0.9994, prevent the reflection of interference radiation and emit the required temperature in an ideal form. The pyrometer is simply held at the specified distance above the measurement opening, thereby forming the desired measurement area on the bottom for the calibration to be performed. A support base can befitted directly on the unit.Dry block functionFour Methods of CalibrationCalibration and Testing SoftwareThe in-house calibration software application is used for temperature calibrators that are equipped with an external interface for programming and evaluating the calibration values. It can be operated easily from an external PC. The following calibration tasks can be performed:• Programmable ramp functions • Programmable temperature cycles• Series tests (e.g. for incoming goods inspection) • P reparing the test data in graphical and intabular form• Incorporating customer data in the certificates • Programmable temperature gradientsTub Insert for Micro BathsThe tub insert is the ideal solution for applications in which a variety of liquids are used. It eliminates the time-consuming task of exchanging the liquids and cleaning the bath. The separate tub insert is just as leak-proof as the bath itself.The tub insert also provides quick switch - over from micro bath to dry block function - when utilizing a multi-function calibrator.Demineralized Silicone Silicone Water Oil 10 CS Oil 50 CS Limits 2 to 95°C -35 to 155°C 50 to 270°C Flash point 165°C 280°CAccessories for TCL Series CalibratorsAdaptor SleevesDry-block calibrators are designed to simplify temperature calibration in the lab and in the field.With the help of adaptor sleeves, straight temperature sensors with almost any length and diameter can be calibrated. The dry block covers the entire temperature range of the calibrator with no need for changing the calibration medium. Viscosity, flash point and outgassing are of no concern.Every adaptor sleeve can be equipped with a single or several multi bores. Bores with diameters ranging from 0.60 to 1" can be realized in 0.20" steps. Ideally, the internal diameter of the sleeve is 0.2" larger than the outer diameter of the test item.Calibration LiquidsUsing a liquid calibration medium is advantageous for checking temperature sensors with unusual shapes or dimensions. The test item is immersed in theliquid without an insulating air gap, resulting in direct contact between the calibrator and the test item. The calibration liquid is chosen according to the desired calibration temperature. The sensor lid with 5 silicone plugs and/or a support base ensures the stable positioning of the test items in the bath:Precision Dry Block Temperature CalibratorHigh Temperature Dry Block Calibrator to 650°C (1202°F)TCL-650S-DU R ange: Ambient to 650°C (1202°F)TCL-650S-D shownsmaller than actual size.Omega dry block calibrators use the most advanced thermal designs to ensure precision, accuracy and repeatability. The internal sensor is tested and cycled until it is virtually drift free. Digital electronics and control algorithms assure long term accuracy. The dual display is °C/°F switchable shows you the set point and the actual temperature so you are always aware of the conditions in the calibrator.SpecificationsControl Sensor: InternalTemperature Range: Ambient to 650°C (1202°F)Tolerance: ±0.4°C (±0.72°F)Stability: ±0.05°C (±0.09°F)Measurement Zone: 110 to 150 mm (4.33 to 5.91")Block: 28 mm (1.1"), diameter, 150 mm (5.9") depthDisplay: 2-line, 4-digit display, red/green, unit °C/°F switchable Display Range: 0 to 650°C (32 to 1202°F)Resolution: 0.01°C/0.02°F in ambient range to 99.99°C/ambient to 211.98°F else 0.1°C (0.18°F)Dimensions:Width: 150 mm (5.91")Height: 330 + 70 mm (12.99 + 2.76") Depth: 270 mm (10.63")Weight: Approximately 7.5 kg (16.5 lb)Power Supply: 100 to 240 Vac, ±10%,AccessoryPrecision Dry Block Temperature CalibratorHot/Cold Dry Block Calibrator, -35 to 165°C (-31 to 329°F)TCL-165S-DU R ange: -35 to 165°C(-31 to 329°F)The Omega hot/cold dry blockcalibrator model TCL-165S-D has allthe features of the TCL-650S-D plusa cooling cycle that allows stabletemperature calibration down to -35°C(-31°F) and up to 165° (329°F). Theinternal sensor is burned speciallyaged until it is virtually drift free. Digitalelectronics and control algorithmsassure long term accuracy so you arealways aware of the conditions in thecalibrator.SpecificationsControl Sensor: InternalTemperature Range: -35 to 165°C(-31 to 329°F)Tolerance: ±0.2°C (±0.36°F)Stability: ±0.05°C (±0.09°F)Measurement Zone: 110 to 150 mm (4.33 to 5.91")Block: 28 mm (1.1"), diameter,150 mm (5.9") depthDisplay: 2-line, 4-digit display, red/ green, unit °C/°F switchableDisplay Range: -50 to 165°C(-58 to 329°F)Resolution: 0.01°C/0.02°F in range of -9.99 to 99.99°C/4.02 to 211.98°Felse 0.1°C (0.18°F)Dimensions:Width: 210 mm (8.27")Height: 330 + 50 mm (14.96 + 1.97") Depth: 300 mm (10.63")Weight: Approximately 10 kg (22 lb)Power Supply: 100 to 240 Vac,AccessoryTCL-165S-D shownsmaller than actual size.Precision Micro Bath Temperature Calibrator Micro Bath Calibrator with -35 to 165°C (-31 to 329°F) RangeTCL-M165S-BU -35 to 165°C (-31 to 329°F)The TCL-M165S-B Micro Bath usesa calibration liquid to immerse theunit being calibrated and has bothheating and cooling to offer a rangeof -35 to 165°C (-31 to 329°F).This offers certain advantages iftemperature sensors with an unusualshape and size are to be tested. Thetest item is immersed directly into theliquid without an insulating air gap.This results in direct temperaturecontact between the calibrator andthe test item. The liquid, usuallysilicone oil, is chosen depending onthe calibration temperature required.The continuous adjustment of themagnetic stirrer together with theremovable sensor basket agitatesthe calibration liquid to create alarge measuring zone. Furthermore,the sensor basket guaranteesunhindered stirring and helps protectthe tank floor.SpecificationsControl Sensor: InternalTemperature Range: -35 to 165°C(-31 to 329°F)Tolerance: ±0.1°C (±0.18°F)Stability: ±0.05°C (±0.09°F)Measurement Zone: 110 to 150 mm(4.33 to 5.91")Block: 60 mm (2.36") diameter,170 mm (6.69") depthDisplay: 2-line, 4-digit display, red/ green, unit °C/°F switchableDisplay Range: -50 to 165°C(-58 to 329°F)Resolution: 0.01°C/0.02°F in range of -9.99 to 99.99°C/14.02 to 211.98°F else 0.1°C (0.18°F)Dimensions:Width: 210 mm (8.27")Height: 380 + 50 mm (14.96 + 1.97") Depth: 300 mm (11.81")Weight: Approximately 12.5 kg (27.6 lb)TCL-M165S-B shownsmaller than actual size.Silicon plugs included.Precision Temperature CalibratorsHigh Temperature Micro Bath Calibrator, Ambient to 255°C (491°F) RangeTCL-M255S-BU R ange: Ambient to255°C (491°F)The TCL-M255S-B is a hightemperature Micro Bath and hasa range of ambient to 255°C(491°F). The TCL-M255S-B usesa calibration liquid to immerse theunit being calibrated and offerscertain advantages if temperaturesensors with an unusual shape andsize are to be tested. The test itemis immersed directly into the liquidwithout an insulating air gap. Thisresults in direct temperature contactbetween the calibrator and the testitem. The liquid, usually siliconeoil, is chosen depending on thecalibration temperature required.The continuous adjustment of themagnetic stirrer together with theremovable sensor basket agitatesthe calibration liquid to create alarge measuring zone. Furthermore,the sensor basket guaranteesunhindered stirring and helpsprotect the tank floor.SpecificationsControl Sensor: InternalTemperature Range: Ambient to255°C (491°F)Tolerance: ±0.2°C (±0.36°F)Stability: ±0.05°C (±0.09°F)Measurement Zone: 110 to 150 mm(4.33 to 5.91")Block: 60 mm (2.36") diameter,170 mm (6.69") depthDisplay: 2-line, 4-digit display, red/ green, unit °C/°F switchableDisplay Range: 0 to 255°C(32 to 491°F)Resolution: 0.01°C/0.02°F in rangeof RT to 99.99°C (211.98°F), else0.1°C (0.18°F)Dimensions:Width: 150 mm (5.91")Height: 330 + 70 mm (12.99 + 2.76") Depth: 270 mm (10.63")AccessoryTCL-M255S-B shownsmaller than actual size.Precision Temperature CalibratorsMulti-Function Calibrator, -35 to 165°C (-31 to 329°F)TCL-3M165EU R ange: -35 to 165°C (-31 to 329°F)U 4-Function Temperature Calibrator • Dry Block • Micro Bath • Black Body• Surface TemperatureTCL-3M165E shown smaller than actual size.Micro Bath FunctionThe use of calibration liquids offer certain advantages if temperature sensors with an unusual shape and size are to be tested. The test item is immersed directly into the liquid without an insulating air gap, resulting in direct temperaturecontact between the calibrator and the test item. The liquid, such as silicone oil, is chosen depending on the calibration temperature required. The continuousadjustment of the magnetic stirrer together with the removable sensor basket agitates thecalibration liquid to create a large measuring zone. Furthermore, the sensor basket guarantees unhindered stirring and helps protect the tank floor.Dry-Block FunctionThe optimum thermal coupling from the block to test item isachieved with the correct adaptor sleeve. Ideally, the internaldiameter of the sleeve is 0.5 mm larger than the outer diameter of the test item. With the aid of the adaptor sleeve, straight temperature sensors of virtually any length and diameter can be calibrated. The dry block covers the entire temperature range without the need to change the Black Body FunctionA infrared calibration sleeve is used to calibrate IR pyrometers or thermal imaging cameras. The special surface structure and the asymmetrical shapes create a “cavity radiator” with an emission factor of 0.9994, prevent thereflection of interference radiation and emit the required temperature in an ideal form. The pyrometer is simply held at the specified distance above the measurement opening, thereby forming thedesired measurement area on the Surface Temperature FunctionSurface temperature sensors are calibrated using special sleeves that are fitted vertically with the required contact force. Switching calibration control to the external reference sensor creates the best possible temperature reference point on the surface of the sleeve. The reference sensor is located directly beneath the abutting face of the sleeve. The sleeve is designed in such a way that the best temperature homogeneity is achieved in the center of the abutting face. The special design of the abutting face enables good thermal contact. There is no needSpecificationsControl Sensor: Switchable internal/ externalMICRO BATHTemperature Range: -35 to 165°C (-31 to 329°F)Tolerance: ±0.1°C (±0.18°F) Stability: ±0.05°C (±0.09°F) Measurement Zone: 110 to 150 mm (4.33 to 5.91")DRY BLOCKTemperature Range: -35 to 165°C (-31 to 329°F)Tolerance: ±0.3°C (±0.54°F) Stability: ±0.05°C (±0.09°F) Measurement Zone: 123 to 163 mm (4.84 to 6.42")INFRAREDTemperature Range: -35 to 165°C (-31 to 329°F)Tolerance: ±0.5°C (±0.9°F) Stability: ±0.05°C (±0.09°F) Measurement Zone: 110 mm (4.33") SURFACETemperature Range: -25 to 150°C (-13 to 302°F)Tolerance: ±1°C (±1.8°F) Stability: ±0.2°C (±0.36°F)Block: 60 mm (2.36") diameter,170 mm (6.69") depthDisplay: 178 mm (7") bright color touch screen, 120 to 140° viewing angleUnits: C°/F° switchableDisplay Range: -50 to 165°C(-58 to 329°F)Resolution: 0.1/0.01/0.001°C(0.18/0.02/0.002°F)Dimensions:Width: 210 mm (8.27")Height: 380 + 50 mm(14.96 + 1.97")Depth: 300 mm (11.81") Weight: Approximately 13 kg (28.7 lb) Power Supply: 100 to 240 Vac,50/60 HzPower Consumption: Approximately400 VAthe tub in the calibration.To order a calibrator with multiple functions contact our sales team.To orderTCL-3M165E-D, dry block function adder, TCL-3M165E-B, microbath function adder, and TCL-3M165E-I, infrared black body function adder.。

ESCORT21温度校准仪操作手册程序输出对热电偶和电压输出，校准仪提供专门的功能，扫描输出和斜波输出。

在扫描功能中，它有12个步骤，每个步骤的幅度和时间间隔是可以单独设定的。

斜波输出有2个线性斜波输出，它的分辨力和时间间隔也可以被设定。

扫描输出1、操作步骤1）按<TC/mv>键，选择所要的热电偶和电压的类型2）按< SCAN/RAMP>键进入SCAN模式（待输出状态），SCAN符号被点亮且输出值停留在第一个步骤。

在这种模式下，<SETUP>功能将无效。

3）按 键选择输出模式，连续模式，步进模式，单循环模式，且上显示屏有CONT（连续），CYCLE（循环）和STEP（步骤）字符4）按<OUT>键激活扫描输出功能且“SCAN”符号会闪烁。

这时，除了<℃/℉>键，其他键将无法操作，除非再按<OUT>键退出此功能5）当激活扫描输出功能时，如果每步的时间间隔是00秒或每步的输出值超过范围或当前类型时，校准仪会发出三声蜂鸣声2、初始状态3、自动输出本校准仪有三种扫描输出方式：连续模式（Cont）步进模式（Step ）单个循环模式（Cycle）。

我们可以通过 键选择其中的任一种扫描方式，并上显示会显示相应的符号。

1）CONT：校准仪将输出准仪原先保存的步阶和输出值，且输出是连续循环的。

2）CYCLE：校准仪将输出校准仪原先保存的步阶和输出值，但输出只是从第1步到第12步的单个循环。

3）在CONT和CYCLE模式中，一般都从第1步到第12步输出的，除非每步所需的时间间隔为00秒。

如果下一步的输出值超过当前类型的，校准仪将跳到再下一步。

4）STEP：校准仪进入步进状态在此模式中，按 键可进入下一步或回到上一步，当任何一步的输出值超过当前类型时，校准仪将会跳到这一步，直到某一步的输出值在当前类型范围内。

5）在步进扫描功能中，第一步的输出值超过当前类型，校准仪步进扫描功能将不能被激活且输出也会出错。

温度记录仪校准安全操作及保养规程背景温度记录仪是用来记录环境温度的一种设备，因此它的准确性对于各个行业来说都是非常重要的。

为了确保温度记录仪的准确性，需要进行定期的校准。

此外，对温度记录仪进行安全操作和保养也是非常必要的，这样可以延长设备的使用寿命并确保设备的安全可靠性。

本文将介绍温度记录仪的校准、安全操作和保养规程，帮助读者更好地使用温度记录仪。

校准校准温度记录仪的目的是确保设备准确读取环境温度。

下面是校准温度记录仪的步骤：1.首先需要确定校准器的温度范围，一般为-20℃～100℃。

2.将温度记录仪和校准器放在同一环境中，让它们稳定在环境温度下5分钟以上。

确保它们的温度都相同。

3.连接校准器和温度记录仪，在校准器面板上设置温度记录仪应该读取的温度。

一些校准器会自动记录读数，而其他校准器需要手动记录读数。

4.根据设备的使用说明书，让温度记录仪工作一段时间。

在这段时间内，校准器应该继续保持在同一温度下。

5.把温度记录仪读数和校准器的温度读数进行比较，如果两者相差大于设备使用说明书所规定的值，则需要进行调整。

6.如果需要调整，按照设备使用说明书中的指导进行调整。

如果设备不能调整，就需要更换为新的温度记录仪。

安全操作在使用温度记录仪时，需要注意以下事项以确保设备的安全性：1.在使用温度记录仪时，确保其处于稳定的表面上，避免设备的掉落或移动。

2.工作期间，必须使用经过测试的电池作为电源，以确保设备正常工作。

3.保证设备干燥透气，避免设备受潮或被液体覆盖。

4.在使用设备时，遵守设备的使用说明书中的安全警示，并且了解当设备出现故障时，应该采取哪些措施。

保养定期的保养可以提高设备的使用寿命和可靠性。

下面是保养温度记录仪的几点要求：1.保持设备表面的清洁。

使用柔软的布擦拭温度记录仪的表面，以确保干燥和无尘。

2.避免直接晒太阳和暴露在高温环境下。

这样会造成设备的过热。

3.定期更换电池，并确保电池周围的区域干燥。

4.定期检查设备的传感器、电缆和端口，确保它们正常工作。