TAGYE数字机芯D702说明书

１西铁城光动能手表使用指南机芯型号：G62※、G67※1．产品特点这是一只利用光作为能源的光动能手表，在表盘下有一个太阳能感光板，它可将光能转换为电能并储存在手表内的二次充电电池中，本表还具备以下功能： ● 充电不足警告功能：当剩余电量不足以支持手表运行8天时，此功能启动（分针每一分钟跳动一次，每次跳动一分钟刻度）。

●指针调校警告功能：停止的手表经过充电再启动之后，此功能启动，提示用户需要重新调整校正指针（分针）。

● 防止过度充电功能：当充电电池的电量已经充足时，该功能将启动，这是为了避免过度为电池充电，以防止电池的性能劣化 。

2．手表各部位名称（见右图）3．时间的调整方法将柄头拉出到(1)位置，转动，把时分针调整到当前时刻，推回柄头，手表调整完毕。

说明：在正常情况下，分针以每分钟跳动四次（每隔15秒跳动）方式运行。

当电压下降，蓄电量不足时，手表的电量不足警告功能启动，分针以每分针跳动一次，每次跳动一分钟幅度的方式运行，当遇到此现象请立即给予充电，否则将运行约8日后电量耗尽而停止。

当重新为手表充电之后，手表指针会重新启动，但是指针会在每分钟以不规则的方式跳动一次，每次一分钟幅度，此现象为指针调整警告功能，提示用户手表时间尚不准确，在未经过调整之前，指针始终按此方式运行，直到调整指针之后为止。

4、手表的充电时间建议用户每天为手表充电，当长期不用时也要每月为手表充电一次以免二次充电电池亏电导致性能下降。

手表的充电时间因表盘的颜色不同而异，下列表格仅供参考供一天使用：补充手表正常运行一天消耗的电量，所需要的充电时间。

由空白到充满：将电池的电量从空白一直到充足所需要的时间。

从停止到分针能正常运行：分针从每分钟跳动一次到恢复正常运行，所需要的充电时间。

5、手表使用维护注意事项一、防水问题：为了保证手表在设计的限度内使用，请先查对你手表表面和表壳上标示的防水等级并参考下表。

•3气压防水：（表盘或表底盖标有：WATER RESIST）这类表可抵抗轻微沾水。

全自动机械腕表使用说明书朋友们好！由于很多朋友不大明白全自动机械手表得使用！(以下全就是机械手表得说明，石英类电子式手表就请不要瞧了)。

必定中国人对奢侈品没有外国人熟!国内除了少有得几个大城市外,很多地方对手表得保养、爱护、使用、流通得认识度及场所太少了.为了您心爱得腕表能长命百岁，故障率极少得运行故请各位买家耐心瞧完本文。

谢谢！!虽然您手表在您手中可以任意所为（如调节及按钮等）表面上瞧起来没什么事,也能正常调表,表也能常运行，但就是这样很可能对您得手表进行了慢性或隐性得伤害！至少就是使用就是违反操作规则得！很多不负责任得卖家也就不说或就是她们也不大懂，因为她们只知道售表对表得内部结构不大了解,同时也瞧不懂或根本瞧不到机芯厂得外文说明书。

因为她们处在销售链得下游得零售。

故以后请大家不要这么随便调节！无论就是瑞士机芯还就是日本机芯,四针(四针，六针等称呼就是指这只手表表镜内大针小针得总数就是多少支)以下得手表相对简单，大家了解一下下文中表得动力及防水问题，故障问答就就是了,其她得文字可不瞧了！下面1—2就是介绍4针以上得多针机械表调节及使用方法！.4针以上得多针机芯手表相对要注意一下了！目前市场上得全自动机械表不管您得手表用得就是日本机芯还就是瑞士机芯！她们都自有自己得调节点,当然各厂得不一样得，要瞧官方得资料及白皮书了.日本机芯大多在8点4０（左右误差5分钟都行)!白天与晚上得都可以，但最佳点就是白天得8点4０。

瑞士机7点5０左右.德国机芯8点45左右(以上调节点都就是多针机芯需要按钮得调节点）3针表没有调节点不用瞧1-2条1。

下而就以出货量最大得日本机为例（其她国机芯原理大多一样可借鉴)、当您要调整日期，星期,月份等功能时。

请先把当前时间调到8点4０分左右(一定要顺时针调节，不能反时针调)左右再进行按钮调节(日期,星期，月份等，调完后再把表时间调回正常时间.（换句话说只要您想按钮就先得把时间调到8点40)。

数码手表使用说明书（录音、摄像、拍照手表）一、界面功能定义：图片仅供参考，请以实物为准二、指示灯状态说明：1、手表时钟的2点位置为绿灯指示；4点位置为红灯指示。

2、绿灯长亮：表示录像待机状态；红灯长亮：表示录音待机状态；红绿灯二灯同时长亮：表示拍照待机状态。

3、绿灯慢闪烁3下后熄灭：表示录像工作状态；红灯慢闪烁3下熄灭：表示录音工作状态；红绿灯同时慢闪烁一下：表示拍照一张照片。

4、开机后红绿灯二灯同时慢闪烁三下后关机：表示没有检测到内存卡。

5、录像；录音；拍照待机状态下准备工作开始时，快闪一下后回来待机状态：表示内存空间不足。

6、开机后待机状态下红灯快闪烁三下后关机：表示电量不足。

7、数据线充电或连机时红灯长亮：表示正在充电状态；如果红灯灭绿灯长亮：表示电池已充满状态。

8、连接数据线红灯快速闪烁：表示设备正在读取或者传输文件，请误中断数据连接，以免损坏文件。

三、操作步骤使用说明：第一步安装记忆卡: （TF卡）按指示旋转打开手表底盖，正确拆卸本机电池后打开记忆卡槽盖，将通用的TF卡安装在卡槽内盖好，然后将卸下的电池正确安装好旋紧手表底盖即可使用。

第二步开机：首先按2点位置和4点位置的螺母按键旋到底部，（注意：不使用按键时请将这二个按键螺母旋出顶部，可防止按键误操作且能延长按键的使用寿命），长按2点位按键二秒以上，指示灯亮起即可松开按键，绿灯长亮时表示录像准备状态。

第三步切换功能准备状态：在绿灯准备状态时短按一下4点位置按键，切换到红灯长亮表示录音准备状态；再短按一下4点位置按键切换到红绿灯长亮表示拍照状态，三者间循环切换。

第四步各功能工作状态：在录像准备状态短按一下2点位按键，此时绿灯慢闪烁三下后熄灭表示正在录像；同样在录音准备状态短按一下2点位按键后，此时红灯慢闪烁三下后熄灭表示正在录音，同样拍照准备状态短按一下2点位按键后，此时红绿灯同时慢闪烁一下：表示拍照一张照片，连续按开机键，可以连续拍几张照片。

Haofa TourbillonHaofa Tourbillon since 1996---37---38---38Precautions For Use User Guide Special Recommendation Introduction ---41---42---43---49---40---51---59Common Clasps Instruction For Use Customer Service Guarantee Letter Warranty Card ---19---19---20前言(繁體）維護保養知識 功能解釋特別建議---22---23---24---29標準機械表日歷機械表具備計時秒表功能的款式GMT兩地時間自動機械腕表操作指示---21常見表帶扣---31客戶服務保證書维护保养知识 功能解释特别建议前言(简体）标准机械表日历机械表具备计时秒表功能的款式GMT两地时间自动机械腕表 ---04---05---06---11---01---01---02---03操作指示---13客户服务保证书常见表带扣---59保修卡---59保修卡Classic Mechanical Watch Calendar Mechanical Watch Chronograph Watch GMT/ Dual time zone automatic watch 目录Contents Haofa Tourbillon since 1996前言磁场避免将手表接近收音机、电视机等产生强烈磁场的物体，以免手表被磁化。

撞击应避免手表摔落或与坚硬物体撞击。

温度避免暴露于温度过高过低及温度极端变化的环境。

化学品避免直接接触化学溶剂，会腐蚀外观件。

防水手表仅适合洗手洗脸等日常生活使用，不适合热水、游泳及蒸汽环境。

a.维护保养知识清洁金属表壳与表带使用牙刷沾肥皂水清洗，然后以软布擦拭。

真皮带保养避免真皮表带接触水和潮湿的环境，每一、二个月用少量皮革保护剂对表带进行全面擦拭。

2470 Wizard 2Research Use Only (RUO)Automatic Gamma CountersDescriptionThe 2470 Wizard 2® gamma counters present the next generation instrumentation for gamma counting. Wizard 2 unites the flexibility, robustness and accuracy for applications requiring gamma radiation analysis. One, two, five or ten independent well-type detectors, automatic or manualcounting mode, multi-user capability and multitasking operationenvironment provide flexible and efficient sample processing.The instrument can be used as a stand-alone system or it can be easily networked. Wizard 2 is available in either 550-sample or 1000-sample conveyor versions.Standard Features• Detector system consists of detectors made of thalli-um activated, sodium iodide crystals. The crystal height is 50 mm (2.0 in) and diameter is 32 mm (1.26 in). 4π counting geometry ensures optimal counting efficiency of the sample.• Radiation shielding is present for the detectorassembly and the conveyor. The detector assembly is surrounded by a minimum of 12 mm (0.48 in) of lead shielding above and below. The shielding against the conveyor is 30 mm (1.25 in) of solid lead. The shielding between the detectors is 7 mm (0.28 in) of solid lead.• Sample changer has a storage capacity of 55 racks (550 samples) or 100 racks (1000 samples).• Linear multichannel analyzer with 2048 channels. Dead time is 2.5 µs. • Radionuclide library consists of 45 nuclides: • Energy range is 15-1000 keV.• Maximum count rate is 6 million DPM (app. 5 million CPM) for 125I.Radiometric Detection2Quality Control and Regulations• Instrument Performance Assessment (IPA ™) allows follow up of variable instrument parameters for quality control purposes. IPA automatically monitors data, evaluates monitored data for quality assurance and provides out-of-control warnings for nine detector parameters including: – isotope main peak channel number – background CPM in counting window – relative detector efficiency – detector resolution – absolute detector efficiency – window coverage– detector stability probability – measured CPM in counting window – measured total CPM in whole spectrum • Wizard 2 is manufactured according to ISO 9001.Optional MyAssays ® Desktop Data AnalysisComprehensive data analysis is performed by optional MyAssays ® Desktop Pro from DAZDAQ (MAD). MAD is acomprehensive software specifically designed for RIA/IRMA and custom data reduction in a regulated environment.• Data analyses provide quantifiable accuracy for assaysthrough sophisticated weighting, many curve fit algorithms including 4PL and 5PL, plus curve fit metrics. • QC provides a range of inter-assay and intra-assay analysis features for continuous monitoring and automatic validation of assays.• Report Templates use the full power of Microsoft (MS) Word to define a report template to apply to MyAssays ® Desktop outputs. Including content created in MS Word, such as headers, footers, custom images, fonts, macros, signature lines, etc.• Upload worklists and download results easily with or without a LIM system.Rack and Sample Vial Specifications• Sample tube specifications are shown in the table below. In Automatic In ManualOperation Operation Maximum 13 mm (0.5 in) 15 mm (0.6 in) Diameter: (17 mm, 0.7 inwithout tray) Maximum cap diameter: 14 mm (0.6 in) 22 mm (0.9 in) Minimum diameter: No limit No limit Minimum height: No limit No limitMaximum 90 mm (3.5 in) 120 mm (4.7 in) height: (including cap) (including cap) Typical volume:~ 3 mL~ 3 mL• Tube shape Microcentrifuge tubes can be used without adapters. Eppendorf ® tubes can be measured at odd positions in sample racks.• Plastic sample racks can hold 10 samples/rack. Racks have barcodes for protocol and rack number identification. Supported barcode languages are code 128, interleaved 2/5, code 39 and codabar. Sample racks can have protocol barcodes 1-999. Sample racks are compatible with most centrifuges. Maximum centrifugation force 2500 x G.• Contamination guards are inherent in rack construction, protecting the detectors from contamination. Samples are separated from the detectors by liquid-tight, disposable sample holders.Operational Features• Built-in LCD touch screen for routine usage.• Built-in computer controlling the system is an industry standard computer with Microsoft ® Windows ® 10 operating system. The computer contains a USB connection for a memory stick, an external hard drive, a printer and an Ethernet connection for networking. • Alphanumeric keyboard and mouse for advanced usage on a pullout shelf.• Live spectrum display of counts, CPM or CPS values can be displayed on the screen. Counting spectrum can be displayed or plotted on the printer.• MultiSTAT interrupt counting enables a series of stat samples to be processed in manual mode while the assay in process is not affected. This allows the user to analyze urgent samples in the middle of long run.• Automatic normalization is carried out using a normalization cassette for each defined nuclide.• Datalogger enables all assay results to be automatically stored in a text file. Format is compatible with Microsoft ® Excel ®.For a complete listing of our global offices, visit /ContactUsCopyright ©2020, PerkinElmer, Inc. All rights reserved. PerkinElmer ® is a registered trademark of PerkinElmer, Inc. All other trademarks are the property of their respective owners.84900 RUO PKIPerkinElmer, Inc. 940 Winter StreetWaltham, MA 02451 USA P: (800) 762-4000 or (+1) 203-925-4602OptionsNew Instrument Orders:• 7005463 MyAssays ®Desktop Pro for Wizard2• 7005464 MyAssays ® Desktop Pro ES Wizard 2• 7005469 Wizard Data viewer utility for post run data and spectral data viewing • 7005457 Wizard Sample Vial Bar code Option Field Upgrade Only:• 7005465 MAD Pro for Wizard 2 - Field Upgrade • 7005466 MAD Pro ES for Wizard 2- Field Upgrade• 7005467 WorkOutPlus to MAD Pro - Field Upgrade • 7005468 WorkOutPlus ES to MAD Pro ES - Field UpgradeTypical Performance DataAll background values are typical values at PerkinElmer's facility in Singapore. Background may vary due to local conditions.Background:125I 12 CPM 129I6 CPM 57Co90 CPM15-1000 keV 452 CPM Efficiency:125I 78%129I 58%51Cr 3%137Cs 26%58Co 3.5%Efficiency = CPM/DPM x 100%, window 15 keV–1000 keV Energy Resolution:125I < 30%129I< 30%51Cr < 14%137Cs< 12%58Co< 8%Spilldown :57Co into 125I < 3% (uncorrected) preset regions< 1% (corrected)Detector to detector crosstalk:125I Negligible57Co Negligible 51Cr < 0.5%137Cs < 4%58Co< 5%Conveyor to detector crosstalk:125I Negligible57Co Negligible 51Cr Negligible 137Cs< 0.12%58Co< 0.2%Physical DataDimensions:Height: 550/1000-sample model: 729 mm (28.7 in)Width: 550-sample model: 650 mm (25.6 in) 1000-sample model: 1190 mm (46.9 in)Depth: 550-sample model: 770 mm (30.3 in) 1000-sample model: 650 mm (25.6 in)Weight: 150 – 165 kg (330 – 365 lb)depending on the model Transport weight: 168 – 180 kg (370 – 400 lb)depending on the model Electrical 100 – 240 V at 50 – 60 Hz, requirements: 150 VA maximum Environmental Temperature range requirements:from +15 °C to +35 °CMaximum humidity 85%Electrical Safety RequirementsThe design of the instrument is based on the following electrical safety requirements:EN 61010-1 Safety requirements for electrical equipment for measurement, control and laboratory use EN 61326-1 Electrical equipment for measurement, control and laboratory use – EMC requirements EN 61010-2-101 Safety requirements for electricalequipment for measurement, control and laboratory use。

D2 印表機 使用手冊D2-250 / D2-350版次：1.5[ 安裝影片 ][ 紙捲 ]專屬聲明本手冊包含立象科技股份有限公司擁有之專屬資訊。

這些資訊僅供負責操作及維護手冊中所述之設備的相關人士參考及使用。

未經過立象科技股份有限公司書面同意，不論任何情況下均不得對此類專屬資訊進行使用、再製，或揭露給任何第三方。

產品改良持續改良產品是立象科技股份有限公司奉行的原則之一。

所有的規格及符號得隨時變更，恕不事先通知。

賠償聲明立象科技股份有限公司已採取必要步驟，確保本公司所發行之設計規格及手冊的正確性；但這些出版品仍可能存在錯誤。

立象科技股份有限公司將保留修改任何此類錯誤之權利，並聲明免除任何相關的賠償責任。

不論任何情況下，立象科技股份有限公司或與隨附產品(包含軟硬體) 的製作、生產或運送程序相關之人士，均不對因使用本產品，或因無法使用本產品所導致的任何損害(包括但不限於商機損失、業務中斷、商業資訊損失或，其他金錢損失所造成的任何損害) 負賠償責任，不論立象科技股份有限公司是否已被告知此等情事。

注意：未經相容性主管機關明確許可的情況下，對設備進行的任何變更或修改都可能導致使用者喪失操作本設備之權利。

警告使用者:這是甲類的資訊產品，在居住的環境中使用時，可能會造成射頻干擾，在這種情況下，使用者會被要求採取某些適當的對策。

版權所有©2023 Argox Information Co., Ltd立象科技目錄專屬聲明.............................................................................................................. i i 產品改良.............................................................................................................. i i 賠償聲明.............................................................................................................. i i 1 介紹 .. (1)1.1 特色 (1)1.2 包裝內容物 (2)1.3 印表機概述 (3)1.3.1 前視圖 (3)1.3.2 後視圖 (4)1.3.3 內部檢視 (5)1.4 印表機燈號 (6)1.4.1 狀態指示燈 (6)1.4.2 系統模式 (8)2 開始使用印表機 (9)2.1 連接電源 (9)2.2 開啟/關閉印表機 (10)2.2.1 開啟印表機 (10)2.2.2 關閉印表機 (10)2.3 裝紙 (11)2.3.1 準備紙卷 (11)2.3.2 裝入紙卷 (12)2.3.3 送紙測試 (15)2.4 紙張類型 (16)2.5 紙張感應 (18)2.5.1 穿透式感應器 (18)2.5.2 反射式感應器 (19)3 印表機操作 (20)3.1 紙張感應器校正 (20)3.2 列印自我測試頁 (21)選配元件顯示 (26)3.3 重設為原廠預設值 (30)3.4 通訊 (31)3.4.1 介面介紹 (31)3.5 驅動程式安裝 (32)3.5.1 安裝隨插即用驅動程式(僅適用於USB) (33)3.5.2 安裝印表機驅動程式(適用於USB以外的其他介面) (38)4 保養印表機 (44)4.1 清潔 (44)4.1.1 印字頭 (44)4.1.2 壓紙滾輪 (45)4.1.3 感應器 (45)4.1.4 滾軸 (46)5 疑難排解 (47)5.1 印表機問題 (47)5.2 紙張問題 (48)5.3 其他問題 (49)6 規格 (50)6.1 印表機 (50)6.2 紙張 (51)6.3 電力與操作環境 (51)6.4 機器大小 (51)6.5 字型、條碼和圖形規格 (52)6.6 網路(選配) (55)6.7 連接埠 (56)6.7.1 USB (56)6.7.2 乙太網路(選配) (57)6.7.3 RS-232C(選配) (58)1 介紹特色1介紹恭喜您選擇購買D2印表機系列，本產品是由身為全球條碼產業領導者的立象科技所生產。

KHigh Precision Digital Thermometer/Data LoggerFor Thermocouple and RTD Sensors with USB PortDP9602 Seriesdigital thermometer particularly suitable for use with thermal calibration baths as a reference standard.The DP9602 is fully characterised for Pt100 sensors and all major thermocouples J, K, N, T, E, R, S and B. Exceptionally stable automatic cold junctioncompensation with a rejection of 100:1 is incorporated for thermocouple ranges. Alternatively, external or manual referencing can be selected as required.Applications include medical, pharmaceutical, food, environmental testing, R&D and educational establishments.Displayed values and user information are indicated on a bright clear LED screen with diffused backlighting. Data can be displayed in °C, °F , K, Ω as required; nine front panel push keys, the only user controls, are used in conjunction with the display screen. It is this arrangement which makes for very simple and“friendly” operation. There are four input ports, two for thermocouples and two for 3- or 4-wire Pt100 sensors; the instrument automatically recognises 3- or 4-wire configurations. The DP9602 can accept two Pt100 sensors and/or two thermocouples of similar or different types. The measured temperature can be displayed directly from one of the inputs or differentially between similar or different inputs.Differential temperature and the two individual channel temperatures are displayed simultaneously.All four inputs can be scanned and values logged according to parameters set up by the user in the PC software; the instrument incorporates a real-time clock and on-board memory. A flash drive USB port is provided to allow data to be stored and/or exported. PC software running in Windows ® is provided asstandard; it allows programming of custom calibration, remote control and measure and logging functions.U R eference Standard Thermometer for Pt100 and Thermocouple Sensors U H igh Accuracy ±0.01ºC Pt100, ±0.18ºC Thermocouple U ±0.025ºC System Accuracy with Pt100 (Based on DP9600-SYS-CAL)U Alpha Numeric Display U U ser Selectable Resolution, 0.001/0.01ºC for Pt100 Inputs U Data Logging U M easures Pt100 and Thermocouples J, K, T, E, R, S, B and N U R eadout Directly in ºC, ºF, K, Ω or mV U C hannel A, B or A-B Reading Including Dissimilar Sensor Types U U SB Serial Communications U USB Flash Drive Port U S upplied with PC Software U P rogrammable Analog Retransmission Output U R echargeable Lithium Ion Battery/Mains PoweredThe DP9602 provides precise platinum resistance thermometer temperature measurement and logging for exacting applications in both laboratory and site locations. It is an exceptionally accurate and stableDP9602 shown smallerthan actual size.SpecificationsInputs/Ranges/SensorsType: Pt100 to IEC 751 (ITS 90 refers) -200 to 850ºC (-328 to 1562ºF) Ro = 100Ω 3- or 4-wire connectionwith automatic recognition (with manual override) thermocouples to IEC 584 No isolation existsbetween inputsTypes:S: -50 to 1768ºC (-58 to 3214ºF)R: -42 to 1766ºC (-43.6 to 3211ºF)B: 254 to 1818ºC (489 to 3304ºF)J: -200 to 1200ºC (-328 to 2192ºF)K: -195 to 1370ºC (-319 to 2498ºF)E: -190 to 995ºC (-310 to 1823ºF)N: -160 to 1300ºC (-256 to 2372ºF)T: -193 to 399ºC (-315 to 750ºF)Overall: Pt100Accuracy: ±0.01ºC ±0.0005% of spanThermocouples J, K, T, E, N: ±0.2ºC from -50 to 700ºC (-58 to 1292ºF), ±0.4ºC from -200 to -50ºC (-328 to -58ºF),±0.4ºC from 700ºC (1292ºF) to full scale Thermocouples R, S, B: ± 0.3ºC from 850ºC (1562ºF) to full scale, ±0.4ºC below 850ºC (1562ºF), ±0.7ºC below0ºC (32ºF)Note: Type B not characterized below 200ºC (392ºF). Linearisation Conformity:Pt100: Better than ±0.01ºCThermocouples: ±0.05ºC base metal (-200ºC to span) ±0.1ºC noble metal above 200ºCNote: Performance of ADC (0.5μV resolution ) is superior to published thermocouple table best resolution of 1μV.Stability (vs Ambient Temperature):P t100: Better than 0.0025ºC per 1ºC ambient change Thermocouples:Zero: Negligible drift excluding CJC effectScale: < ±0.1ºC in 15ºCWarm-Up: Negligible under normal ambient conditions; allow 5 to 10 minutes for full stability unless stored at low temperature, then 30 minutes minimumCold Junction Compensation: Automatic on all thermocouple ranges; better than ±1ºC maximum shift for ±10ºC ambient variation (100:1) or external via Pt100 on channel A or B or manual input of CJ temperature valuePt100 Sensor Current: 0.5 mAResolution of Data Display: Pt100 0.01/0.001 user select for ºC, K and ΩVariable Filter: Sampling rate selectable between4 and 64 (measurements averaged per reading) Thermocouples: 0.1ºC all rangesMeasurement Units: ºC, ºF, K, Ω or mV as applicableto sensorMeasurement Modes: A, B or A-B; any combination of sensor typesCustom Calibration: Up to 10 calibration values can be allocated to Pt100 input A & B and to thermocouples input A & B; values are retained in non-volatile memory until replaced by user; alternatively, for Pt100 inputs ITS 90 or IPTS 68 coefficients can be used for custom calibration Smart Sensor Connection: Pt100 inputs only; correction values stored in connectorNull Function: Corrects differential temperature readout between two sensors to zeroSensor Lead:P t100: Resistance 5 Ω each lead maximum Thermocouples: 300 Ω loop totalLogging: 8000 readings Supply: Internal lithium Ion rechargeable batteries; mains90 to 260V 50/60 Hz universal adaptor included; battery charge life up to 12 hours with full chargeSeries Mode Rejection: 60 dB @ 50 Hz(50 mV RMS applied)Common Mode Rejection: 30V RMS applied between input and earth produces no measurable effectDisplay: 128 x 64 pixel OLED with diffused backlighting; wide viewing angle, high contrast (adjustable)Front Panel Controls: 9 membrane push-keys to controlall instrument functionsMechanical/Case: Metal benchtop case/adjustable tilt Dimensions Overall: 190 W x 70 H x 250 mm D(7.5 x 2.75 x 9.85")Weight: 3 kg (6.61 lb) approxInput Connections: 2 x Pt100 via D type connectors2 x thermocouple via standard socketsUSB Serial Communications: Isolated, 38400 Baud, 8 data, no parity, 1 stop bit; remote control and measurePC Software (Standard): Supplied as standard on CD ROM; remote control and measure; log readings to file/download to PC/programming correctionsAnalog Output (Standard): User programmable, 0 to 1 Vdc Precision Pt100 Probes: 304 stainless steel probes,6 mm Dia. with 2 m (6.6') screened PTFE lead and Pt100 probes and connectorDP9600-L250: 250 mm (9.85") L, -50 to 250°C (-58 to 482°F) DP9600-H450: 350 mm (13.75") L, -50 to 450°C (-58 to 842°F)OMEGACARE SM extendedwarranty program is availablefor models shown on thispage. Ask your salesrepresentative for full detailswhen placing an order.OMEGACARE SM covers parts,labor and equivalent loaners.operator’s manual.Ordering Example: DP9602, high precision digital RTD/ thermocouple thermometer, DP9600-SYS-CAL, UKAS system calibration, and DP9600-H450 probe.OCW-2, OMEGACARE SM extends standard 1-year warranty to a total of 3 years.。

Order formValid from June 2016Orderer Order no.GM70 Hand-held Carbon Dioxide Meter Vaisala CARBOCAP® Hand-held CO2 Meter GM70APRICE Indicator type no indicator (1A rechargeable with Euro AC-adapter Brechargeable with UK AC-adapter Crechargeable with US AC-adapter Drechargeable with AUS AC-adapter Erechargeable with all AC-adapters FIndicator accessories no indicator accessories 0MI70LINK software with RS232 cable 1analog output-signal cable (27168ZZ)2MI70LINK and analog output-signal cable 3MI70LINK software with USB cable 4no indicator cables A adapter cable for transmitters (GMA70)B Sampling method diffusion (handle GMH70)1pump (GM70PUMP)20…2000 ppm CO 2 C0...3000 ppm CO 2D 0...5000 ppm CO 2E0…7000 ppm CO 2 F0…10000 ppm CO 2 G0…2 % CO 2 H0...3 % CO 2 J0...5 % CO 2K0...10 % CO 2 L0...20 % CO 2 MProbe accessories no accessories 0field check adapter (26150GM)1--ACarrying case no carrying case0weatherproof carrying case (MI70CASE3)2soft carrying case for GM70 diffusion handle (MI70SOFTCASE)3Manual no manual AEnglish BGerman CJapanese JRussian KTOTAL(1select item A, if only handle or pump with probe is orderedQTY TOTAL VALUESelections in bold are included in the prices of the basic versionsSelections in italic are available at extra priceExample of order code:GM70B 4A 1E 1A 2BAccessories and spare partOrder code:Connection cable for fixed CO2 instrumentsGMA70MI70 Link software with USB cable219687MI70 Link software with serial port cableMI70LINK Analog output cable27168ZZ Calibration adapter for GMP220 series probes26150GM Weatherproof carrying caseMI70CASE3Soft carrying case for GM70 diffusion handleMI70SOFTCASE Battery, NiMH 4.8 V26755Nafion Membrane tubing212807GM included in configuration, if GM70PUMP is ordered Flat cable for GMP220 probes, M12/8-pin 238651Measurement range of interchangeable probe:Accessories fortransmitter checking。

Single Point CalibrationFisher ™ FIELDVUE ™ DVC6200 HW2 Digital Valve ControllerThe Single Point Calibration procedure allows you to replace an existing positioner with a DVC6200 HW2, onsliding-stem applications, without performing a travel calibration. This procedure should only be used in emergency situations where a positioner must be completely replaced and is part of a valve assembly that does not have a process bypass or the process cannot be shut down. For other procedures, refer to the DVC6200 Quick Start Guide and the DVC6200 HW2 Instruction Manual.Related DocumentsD Fisher FIELDVUE DVC6200 Series Digital Valve Controllers Quick Start Guide (D103566X012)D Fisher FIELDVUE DVC6200 HW2 Digital Valve Controller Instruction Manual (D103605X012)These documents are available from your Emerson sales office or at . WARNINGPersonal injury or property damage, caused by unexpected valve movement and an uncontrolled process, could result if this procedure is attempted when the valve is not locked at its present position. If you cannot safely lock the valve in position until this procedure is complete, do not proceed with this procedure.NotesThis procedure should only be used in emergency situations where a positioner must be completely replaced and is part of a valve assembly that does not have a process bypass or the process cannot be shut down. Do not proceed if the valve has a bypass or the process can be shut down.The valve will need to be locked at its present position. This can be accomplished by using a handwheel or other mechanism. If the valve assembly or valve application will not allow you to safely lock the valve in position until this procedure is complete, do not proceed with this procedure.This procedure can be used to replace a positioner with a DVC6200. The DVC6200 used to replace the existing positioner must have firmware 2, 3, 4, 5, 6, or 7, hardware 2 and HC, AD, or PD diagnostic tiering. Do not proceed with this procedure if the digital valve controller does not meet the tiering and firmware requirements mentioned above.This procedure can only be performed on sliding-stem valve assemblies and only supports feedback connections using the linear sliding-stem arrays. This procedure cannot be performed with a long stroke roller array. Do not proceed if you have something other than a sliding-stem valve assembly with a linear sliding-stem array.The Single Point Calibration procedure cannot be completed with Pressure Control. Do not proceed with this procedure if the Travel/Pressure Control Mode is Pressure.This procedure is not recommended for a valve assembly with a double-acting actuator that uses a DVC6200 with a Relay A that was previously configured for a valve assembly with a single-acting actuator.This procedure requires the use of ValveLink ™software 13.5 or newer.Instruction Manual Supplement D104490X012DVC6200 Digital Valve ControllerJanuary 20202Installation WARNINGAvoid personal injury or property damage from sudden release of process pressure or bursting of parts. Before proceeding with any procedures:D Always wear protective clothing, gloves, and eyewear to prevent personal injury or property damage.D Do not remove or uncouple the actuator from the valve while the valve is still pressurized.D The valve will need to be locked at its present position. If you cannot safely lock the valve in position until this procedure is complete, do not proceed with this procedure.D After the valve has been safely locked in position, disconnect any operating lines providing air pressure, electric power,or a control signal to the actuator. Be sure the actuator cannot suddenly open or close the valve.D Use lock‐out procedures to be sure that the above measures stay in effect while you work on the equipment.D Check with your process or safety engineer for any additional measures that must be taken to protect against process media.1. Lock Valve in Place1.1 Ensure the mounting kit for the replacement DVC6200 is compatible with the valve assembly. Do not proceedwith this procedure until you have obtained a mounting kit compatible with the replacement DVC6200 and the control valve assembly.1.2 Block the valve into position either with a handwheel or other mechanism. If you cannot safely lock the valve inposition until this procedure is complete, do not proceed with this procedure.1.3 Disconnect the operating lines that provide air pressure to the actuator. Bleed any extra air that may be built up inthe instrument. Please note which air connections go to the actuator and which come from supply for future reassembly.1.4 Determine and record the following parameters:D Feedback Connection: The magnetic array type that will be used with the replacement digital valve controller .NoteThis procedure only supports feedback connections using linear sliding-stem arrays. Do not proceed if you are not using a linear sliding-stem array.D Travel Sensor Motion: States whether increasing drive signal causes the magnetic assembly to move toward the top of the instrument or away from the top of the instrument .D Air (Closes/Opens): States whether adding air opens or closes the valve.D Actual Travel: The measured distance from the closed position to the fully open position of the valve .2. Configure Replacement Digital Valve Controller Prior to Installation2.1 Open ValveLink software and connect to the replacement digital valve controller .Instruction Manual SupplementD104490X012DVC6200 Digital Valve Controller January 20202.2 Open the tag for your replacement digital valve controller and run Setup Wizard .2.2a Initiate the Setup Wizard from either the Instrument Setup menu or Setup Wizard Iconon the toolbar.2.2b Select the appropriate Travel/Pressure Control Mode and the Relay Type.D Travel/Pressure Control: This defines the operating mode of the instrument as well as the behavior of the instrument should the travel sensor fail. There are four choices:d Travel Control- The instrument is controlling to a target travel. Fallback is not enabled.d Pressure Control - The instrument is controlling to a target pressure. Fallback is not enabled.d Fallback- Sensor Failure- The instrument will fallback to pressure control if the travel sensor failure is detected.d Fallback-Sensor / Tvl Deviation - The instrument will fallback to pressure control if the travel sensor failure is detected, or if the Tvl Dev Press Fallback setting is exceeded for more than the Tvl DevPress Fallback Time.D Relay Type: The relay type is printed on the label affixed to the relay body.d A = double-acting or single-actingd B = single-acting, reversed C = single-acting, directNoteThe Single Point Calibration procedure cannot be completed with Pressure Control . Do not proceed with this procedure if the Travel/Pressure Control Mode is Pressure .Travel/Pressure Control Mode must be set to Travel for double-acting actuators.2.2c Set the desired Pressure Units and the Max Supply Pressure for the application.2.2d Select the required Actuator Information including: Actuator Make, Actuator Model, Actuator Size, anddesignate if a Volume Booster or Quick Release Valve is present.2.2e If prompted, fill out any additional screens (eg: Zero Power Condition, Actuator Style, and TuningInformation).2.2f Select Yes when prompted to Use Factory Default Settings.NoteIt is not necessary to run an Auto Travel Calibration since the digital valve controller will be calibrated with the Single Point Calibrationfeature in future steps and is not currently mounted to a valve assembly.Instruction Manual Supplement D104490X012DVC6200 Digital Valve ControllerJanuary 202042.2g When prompted to run an Auto Travel Calibration select No .2.3 Place the instrument In Service and close the tag. Then disconnect the digital valve controller.3. Manually Replace Positioner WARNING Refer to the Installation Warning on page 2.3.1 Disconnect any operating lines that provide air pressure, electric power, or a control signal to the actuator. Be surethe actuator cannot suddenly open or close the valve. Remember to note where each line goes for reassembly.3.2 Confirm the valve assembly is safely locked in position. Do not proceed if the valve assembly has not been safelylocked in position.3.3 Carefully remove the existing positioner without disturbing the mechanism locking the valve in position .3.4 Mount the replacement digital valve controller by following the mounting instructions for sliding-stem valveassemblies in the DVC6200 Quick Start Guide (D103566X012).Valve movement may occur if air is supplied to the digital valve controller during calibration. The Single Point Calibration process cannot be started if air is supplied to the instrument.3.5 Attach pneumatic and electrical operating lines to the replacement digital valve controller but Do Not Turn On AirSupply .D Measure and record the valve assembly’s Observed Travel (%). Observed Travel is the current position of the valve as a percentage of the actual travel.4. Run Single Point Calibration4.1 In ValveLink software, connect to the replacement digital valve controller. Open the tag for your replacementdigital valve controller.4.2 Initiate Single Point from the Calibration menu. Set the device Out of Service if prompted.4.3 Read the Start Screen and confirm you have completed the required initial steps for Single Point Calibration. ClickNext if you have completed the required steps listed.4.4 Review the travel configuration information pre-populated by Setup Wizard and/or enter the correct values in theblanks on the Configuration Screen . Click Next when all the values are entered correctly.4.5 Review the tuning information pre-populated by Setup Wizard and/or enter the correct values in the blanks on theTuning Screen . Click Next when all the values are entered correctly.4.6 Read the Warning Screen (figure 1) that describes how to adjust the travel sensor. Click OK when finished readingthe screen.Instruction Manual Supplement D104490X012DVC6200 Digital Valve ControllerJanuary 2020Figure 1. Warning Screen4.7 On the Travel Screen, enter the Actual Travel (in) and Observed Travel (%). Then click Next.4.7a Read the alignment recommendations in the bottom left hand corner of the screen. Follow the alignmentrecommendations, to move the feedback assembly up or down, until the alignment is indicated with thegood status symbol (Figure 2). Then click Nex t to put your digital valve controller back In Service.Figure 2. Good Status Symbol4.8 Review the travel setpoint and measured travel on the Control Signal Screen. Adjust the travel setpoint to matchtravel. This will minimize valve movement when air is resupplied. Once the travel setpoint matches travel, click Next.4.9 Reintroduce instrument air pressure to the digital valve controller. The air pressure supplied will be shown on thedial graphic on the Air Screen. Once you’ve confirmed instrument air has been supplied, click Next .WARNINGRefer to the Installation Warning on page 2.4.10 On the resulting Finish Screen adjust the Travel Setpoint to remove force on the valve locking mechanism. Thencarefully remove the valve locking mechanism.NoteThe lack of a full travel calibration can impact the accuracy of the position feedback. While this does not impact the instrument’s ability to control the process, it can influence the results of diagnostic tests.This calibration is approximate and accuracy is limited. To ensure optimal accuracy and operation, perform an auto travel calibration on the digital valve controller as soon as conditions allow.Instruction Manual Supplement D104490X012DVC6200 Digital Valve ControllerJanuary 2020Emerson Automation SolutionsMarshalltown, Iowa 50158 USASorocaba, 18087 BrazilCernay, 68700 FranceDubai, United Arab EmiratesSingapore 128461 SingaporeThe contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such products at any time without notice.Fisher, FIELDVUE, and ValveLink are marks owned by one of the companies in the Emerson Automation Solutions business unit of Emerson Electric Co.Emerson Automation Solutions, Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. All other marks are the property of their respective owners.Neither Emerson, Emerson Automation Solutions, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.。

FP7002/FP7002AFlow/Temperature Transmitter e-mail:**************For latest product manuals:Shop online at ®User’s Guide®®It is the policy of OMEGA Engineering, Inc. to comply with all worldwide safety and EMC/EMI regulations that apply. OMEGA is constantly pursuing certification of its products to the European New Approach Directives. OMEGA will add the CE mark to every appropriate device upon certification.The information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.WARNING: These products are not designed for use in, and should not be used for, human applications.FP7002/FP7002A FLOW/TEMPERATURE TRANSMITTERSECTION PAGE SECTION 1 GENERAL DESCRIPTION . . . . . . . . . . . . . . . . . 1 SECTION 2 INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2.1 Unpacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12.2 Important Considerations Before Installation . . . . . . . . . . . . . . . . . 1 2.3 Flowmeter Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 2.4 Electrical Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4SECTION 3 MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . 5 SECTION 4 CALIBRATION . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4.1 Flow Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4.2 Temperature Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64.3 Calibration Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7SECTION 5 SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . 9iIntroduction/SafetyYour FP7002/FP7002A has been designed for ease of use and flexibility.It is important that you read this user’s manual completely and followall safety precautions before operating your unit.Precautions1. FOLLOW ALL SAFETY PRECAUTIONS AND OPERATINGINSTRUCTIONS OUTLINED IN THIS MANUAL.3. ADD ADDITIONAL SAFEGUARDS TO YOUR SYSTEM INCRITICAL APPLICATIONS WHERE DAMAGE OR INJURYMAY RESULT FROM SENSOR FAILURE.5. DO NOT OPERATE IN FLAMMABLE OR EXPLOSIVEENVIRONMENTS.6. DO NOT USE IN HUMAN MEDICAL OR NUCLEARAPPLICATIONS.7. NEVER OPERATE WITH A POWER SOURCE OTHER THANWHAT IS SPECIFIED IN THIS MANUAL.8. REMOVE AND/OR DISCONNECT POWER SOURCE BEFOREATTEMPTING INSTALLATION OR MAINTENANCE.9. ALWAYS OPERATE YOUR UNIT WITH THE SHIELD WIRECONNECTED TO EARTH GROUND.10. INSTALLATION AND WIRING SHOULD BE DONE BYThere are no user serviceable parts inside your unit.Attempting to open, repair or service your unit may voidyour warranty.Statement on CE MarkingIt is the policy of OMEGA to comply with all worldwide safety andEMI/EMC regulations that apply. OMEGA is constantly pursuingcertification of its products to the European New Approach Directives.OMEGA will add the CE marking to every appropriate device uponverification of compliance.iiSECTION 1 GENERAL DESCRIPTIONThe FP7002 flow/temperature transmitter is ideal for monitoring oftypical industrial water flows and temperature, from hard-to-handlecorrosive aqueous solutions to high purity fluids. The FP7002 uses apaddlewheel-like rotor whose motion is converted into a pulse output.This pulse output is converted to a 4 - 20 mA (or 1 - 5 Vdc) analogoutput by the built-in signal conditioner. A solid state temperaturesensor built into the sensor body provides a separate 4 - 20 mA (or 1 - 5Vdc) analog output directly proportional to changes in fluidtemperature. These independent analog outputs can be run longdistances to a panel meter, controller or computer.A complete flow measurement system consists of the flowsensor/transmitter, the installation fitting and a readout device. TheFP7002 has polypropylene, 316SS, and Viton wetted parts. Theschedule 40 PVC tee fittings are supplied with a PVC locking nut, andthe galvanized iron tee fittings are supplied with a brass locking nut toprovide a secure metal to-metal mounting to the threaded brass insert.SECTION 2 INSTALLATION2.1UNPACKINGRemove the Packing List and verify that you have received allequipment. If you have any questions about the shipment, please callthe OMEGA Customer Service Department.When you receive the shipment, inspect the container and equipmentfor any signs of damage. Note any evidence of rough handling inThe carrier will not honor any claims unless all shippingmaterial is saved for their examination. After examiningand removing contents, save packing material and cartonin the event that reshipment is necessary.2.2THE FP7002 PADDLEWHEEL FLOW TRANSMITTER IS NOTEXPLOSION-PROOF, NOR IS IT INTRINSICALLY SAFE. IT ISNOT TO BE USED FOR FLAMMABLE OR HAZARDOUSLIQUIDS, NOR CAN IT BE USED IN HAZARDOUS AREAS.The FP7002 is intended for use with water and other low viscosityliquids ONLY; it can NOT be used with oils and other viscous1materials. It can be used with non-flammable, non-hazardous liquidsup to 5 centipoise viscosity, but field calibration is recommended foraccurate measurements.It is important to note that most process water contains dissolvedminerals. If the flowsensor is repeatedly exposed to process water andthen the line is allowed to dry, these dissolved minerals will depositonto the FP7002 and will inhibit the low flowrate operation of thesensor. If this occurs, cleaning of the sensor is recommended.WATER HAMMER AND SURGES CAN BE DAMAGINGTO ANY FLOWMETER AND MUST ALWAYS BEAVOIDED.WATER HAMMER OCCURS WHEN A LIQUID FLOW ISSUDDENLY STOPPED AS WITH QUICK CLOSING ANDSOLENOID OPERATED VALVES. SURGES OCCUR WHENFLOW IS SUDDENLY BEGUN, AS WHEN A PUMP IS TURNEDON AT FULL POWER OR A VALVE IS QUICKLY OPENED.LIQUID SURGES ARE PARTICULARLY DAMAGING TOFLOWMETERS IF THE PIPE IS ORIGINALLY EMPTY. TOAVOID DAMAGING SURGES, FLUID LINES SHOULDREMAIN FULL (IF POSSIBLE) AND PUMPS SHOULD BEBROUGHT UP TO POWER AND VALVES OPENEDSLOWLY. IN ADDITION, TO AVOID BOTH WATERHAMMER AND SURGES, A SURGE CHAMBER SHOULDBE INSTALLED.2.3FLOWMETER INSTALLATIONThe FP7002 can be mounted in vertical or horizontal pipe runs;however, the pipe must be full of liquid for proper readings. Thus, thesensor should not be mounted in vertical pipe where the liquid flowsdown, since the pipe may not always be full in this situation. Refer toFigures 2-1 and 2-2.23FLOW Figure 2-1 Horizontal Mounting Position FLOWFigure 2-2 Vertical Mounting Position4The FP7002 should not be mounted at the bottom of the pipe (the 6o’clock position) because this is where sediment in the liquid will tend to accumulate. The best mounting location is at or near the 12 o’clock position, so long as bubbles are not present in the liquid. The 3 o’clock and 9 o’clock positions are also acceptable. In an upward flowing vertical pipe, the flowsensor can be mounted anywhere around the pipe.As with many flowmeters, the FP7002 requires a fully developed flow profile in order to provide accurate readings. To insure this, a length of straight pipe run before and after the flowmeter is required. The amount of upstream straight pipe run that is required depends upon the type of obstruction which is immediately upstream of the flowsensor. See Table 2-1 for specific requirements. Downstream of the flowsensor, in all situations, only 5 diameters of straight pipe run is required, regardless of the downstream obstruction.*Oscillating or reciprocating pumps, which produce flow and pressure pulses in the flowstream, are not recommended for use with the FP7002 If you do not have the proper amount of straight pipe runavailable at your desired installation location, it isrecommended to use flow straighteners to decrease therequired straight run.The paddlewheel must be aligned with the fluid flow; the installation fitting is supplied with an alignment tab which mates with a flat on the base of the paddlewheel sensor to insure proper sensor alignment. When using the PVC installation fitting, it is critical that the cap of the sensor is threaded onto the mating fitting HAND TIGHT ONLY; use of pipe wrenches, etc. on the plastic cap can lead to damage to the cap and/or the installation fitting.The FP7002 has magnets installed in the rotating paddles; thesemagnets will tend to attract rust from the flowing fluid. Thus, it is NOT recommended to install the FP7002 in pipes which under typicalconditions contain rust, such as in cast iron, black iron, carbon steel and other iron pipes (galvanized pipe has been treated to resist rust). Insituations where rust can not be avoided, it is recommended to install a fine magnetic filter at least 50 pipe diameters upstream from the FP7002 and to periodically shut down the line and remove the sensor from the installation fitting for cleaning.2.4All electrical connections and wiring should be performedby suitably trained personnel only.To insure proper hook-up to your indicating device, thepaddles of the FP7002 can be spun in the open air byblowing onto them before the sensor is installed into theinstallation fitting.This is particularly important where the pipeline can not beconveniently shut down and the sensor removed afterinstallation.Basic Wiring DiagramSECTION 3 MAINTENANCEExcept for intermittent removal of the sensor from the flow line forcleaning, there is no routine maintenance for the FP7002.SECTION 4 CALIBRATION4.1 Flow CalibrationEquipment Required:12-18 Vdc Regulated Power SupplyFrequency Generator/Calibrator (such as OMEGA Model: CL123)Multimeter (such as OMEGA Model: HHM290)Small jeweler’s type common blade screwdriverCalibration Procedure:1. Unscrew and remove the protection head cover.2. Make wiring connections to the transmitter as shown on page 7.3. Apply power and allow the unit to warm up for 10 minutes.4. Determine the maximum volumetric flow rate expected by theapplication.For our example we will use “GPM”. This will be “GPM Max”5. From the table on page 8, determine the proper “K-Factor” for themodel fitting you will be using.6. Determine your full scale calibration frequency using this formula.This will be “F Max”.F Max = K-Factor x GPM Max60Example:Using a Model FP7015 Tee Fitting with a K-Factor of 29.46and a GPM Max of 125.29.46 x 125 GPM = 61.38 for your F Max607. Set your frequency generator for an output of 0 Hz. Adjust the zeropotentiometer (P1) for a 4.00 mA output.8. Set your frequency generator for the “F Max” you calculated above.Adjust the span potentiometer (P2) for a 20.00 mA output.9. Set your frequency generator for one half the “F Max” you calculatedabove. You should have an output reading of 12.00 mA +/- 0.16 mA.If not, repeat steps 7 & 8.10. Re-install 10 k resistor across terminals 5 and 6 and re-install whitewire to terminal 5.11. Calibration complete.6SECTION 4 CALIBRATION Cont.4.2 Temperature CalibrationEquipment Required:12-18 Vdc Regulated Power SupplyType-K Thermocouple Probe (such as OMEGA Model: KTSS-HH)Multimeter (such as OMEGA Model: HHM290)Small potentiometer adjustment toolCalibration Procedure:1. Unscrew and remove the protection head cover.2. Make wiring connections to the transmitter as shown on page 7.3. Apply power and allow the unit to warm up for 10 minutes.4. Place a reference temperature probe next to the body of thepaddlewheel flow sensor with the unit removed from the flow lineand lying on a work bench.5. Connect the reference probe to a thermometer and allow the readingto stabilize for a few minutes. Record the reference probe reading as“Rtemp”6. Calculate the correct current output that the transmitter should havefor the ambient temperature your flow sensor and reference probeare exposed to using this formula.0.16 x Rtemp + 4 = output settingExample:If your reference probe is reading 23.4°C0.16 x 23.4 + 4 = 7.74 mA7. Adjust potentiometer P3 for the correct current output you calculatedabove.8. Calibration complete.78SECTION 4 CALIBRATION Cont.4.3 Calibration Setup4.3.1 Flow Calibration Setup4.3.2 Temperature Calibration SetupP3THERMOMETERSENSOR/TRANSMITTERFP7002 Polypropylene body/316SS shaftINSTALLATION FITTINGS (includes locking nut)CALIBRATION K-FACTORSVISCOSITY and SURFACE TENSION of VARIOUS LIQUIDS at 293 KSECTION 5 SPECIFICATIONSFLOW TRANSMITTERAccuracy:± 2% of full scaleRepeatability:± 1% of full scalePower:Regulated 9 to 18 Vdc @ 50 mA maxInput:DC Pulse from PaddlewheelOutput:3-Wire 4 to 20 mA or 1 to 5 VdcMax Loop Resistance:Ohms = (V supply - 9 V)/0.02 ATEMPERATURE TRANSMITTERAccuracy:± 1.7°C (3°F)Repeatability:± 0.2°C (0.4°F)Range:0 to 100°C (32 to 212°F)Power:Regulated 9 to 18 Vdc @ 30 mA maxOutput:2-Wire 4 to 20 mA or 1 to 5 VdcMax Loop Resistance:Ohms = (V supply - 9 V)/0.02 AGENERALNON-WETTED MATERIALS:Transmitter Housing:NEMA Rated - Painted Cast AluminumWETTED MATERIALS:Sensor Body:Polypropylene body (PVDF optional),PVDF paddle, Viton O-ring, 316SS shaft.Model FP7002A includes brass lockingnut. Model FP7002 includes PVC lockingnut.MAX, RECOMMENDEDFLUID VISCOSITY: 5 centipoiseFLUID TEMPERATURE/Do not exceed the maximum ratings ofPRESSURE RANGE:your piping. Depending on the materialof the fitting, the operating temperature/pressure may be limited by your piping,and not by the sensor. For all PVC teefittings, do not exceed 150 psig @ 27°C(80°F), 100 psig @ 38°C (100°F), 60 psig @49°C (120°F), 30 psig @ 60°C (140°F), dueto the insert in the tee. FP7000 sensor: 0°to 26°C (32° to 80°F) up to 150 psig; maxpressure decreases 1.1 psig per each 1°Fabout 80°F for a max. temperature of200°F at 18 psig max.10WARRANTY/DISCLAIMEROMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 13 months from date of purchase. OMEGA’s WARRANTY adds an additional one (1) month grace period to the normal one (1) year product warranty to cover handling and shipping time. This ensures that OMEGA’s customers receive maximum coverage on each product.If the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an Authorized Return (AR) number immediately upon phone or written request. U pon examination by OMEGA, if the unit is found to be defective, it will be repaired or replaced at no charge. OMEGA’s WARRANTY does not apply to defects resulting from any action of the purchaser, including but not limited to mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification.This WARRANTY is VOID if the unit shows evidence of having been tampered with or shows evidence of having been damaged as a result of excessive corrosion; or current, heat, moisture or vibration; improper specification; misapplication; misuse or other operating conditions outside of OMEGA’s control. Components in which wear is not warranted, include but are not limited to contact points, fuses, and triacs.OMEGA is pleased to offer suggestions on the use of its various products. However, OMEGA neither assumes responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its products in accordance with information provided by OMEGA, either verbal or written. OMEGA warrants only that the parts manufactured by the company will be as specified and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR REPRESENTATIONS OF ANY KIND W HATSOEVER, EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED W ARRANTIES INCLUDING ANY W ARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive, and the total liability of OMEGA with respect to this order, whether based on contract, warranty,negligence, indemnification, strict liability or otherwise, shall not exceed the purchase price of the component upon which liability is based. In no event shall OMEGA be liable for consequential, incidental or special damages.CONDITIONS: Equipment sold by OMEGA is not intended to be used, nor shall it be used: (1)as a “Basic Component” under 10 CFR 21 (NRC), used in or with any nuclear installation or activity; or (2) in medical applications or used on humans. Should any Product(s) be used in or with any nuclear installation or activity, medical application, used on humans, or misused in any way, OMEGA assumes no responsibility as set forth in our basic WARRANTY/ DISCLAIMER language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damage whatsoever arising out of the use of the Product(s) in such a manner.RETURN REQUESTS/INQUIRIESDirect all warranty and repair requests/inquiries to the OMEGA Customer Service Department.BEFORE RETU RNING ANY PRODU CT(S) TO OMEGA, PU RCHASER MU ST OBTAIN AN AU THORIZED RETU RN (AR) NU MBER FROM OMEGA’S CU STOMER SERVICE DEPARTMENT (IN ORDER TO AVOID PROCESSING DELAYS). The assigned AR number should then be marked on the outside of the return package and on any correspondence.The purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in transit.FOR WARRANTY RETURNS, please have the following information available BEFORE contacting OMEGA:1.Purchase Order number under which the product was PURCHASED,2.Model and serial number of the product under warranty, and3.Repair instructions and/or specific problems relative to the product.FOR NON-WARRANTY REPAIRS,consult OMEGA for current repair charges. Have the following information available BEFORE contacting OMEGA:1. Purchase Order number to cover the COST of the repair,2.Model and serial number of theproduct, and3.Repair instructions and/or specific problems relative to the product.OMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. This affords our customers the latest in technology and engineering.OMEGA is a registered trademark of OMEGA ENGINEERING, INC.© Copyright 2012 OMEGA ENGINEERING, INC. All rights reserved. This document may not be copied, photocopied,reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, withoutthe prior written consent of OMEGA ENGINEERING, INC.Where Do I Find Everything I Need for Process Measurement and Control?OMEGA…Of Course!Shop online at SMTEMPERATUREⅪߜThermocouple, RTD & Thermistor Probes, Connectors, Panels & AssembliesⅪߜWire: Thermocouple, RTD & ThermistorⅪߜCalibrators & Ice Point ReferencesⅪߜRecorders, Controllers & Process MonitorsⅪߜInfrared PyrometersPRESSURE, STRAIN AND FORCEⅪߜTransducers & Strain GagesⅪߜLoad Cells & Pressure GagesⅪߜDisplacement TransducersⅪߜInstrumentation & AccessoriesFLOW/LEVELⅪߜRotameters, Gas Mass Flowmeters & Flow ComputersⅪߜAir Velocity IndicatorsⅪߜTurbine/Paddlewheel SystemsⅪߜTotalizers & Batch ControllerspH/CONDUCTIVITYⅪߜpH Electrodes, Testers & AccessoriesⅪߜBenchtop/Laboratory MetersⅪߜControllers, Calibrators, Simulators & PumpsⅪߜIndustrial pH & Conductivity EquipmentDATA ACQUISITIONⅪߜData Acquisition & Engineering SoftwareⅪߜCommunications-Based Acquisition SystemsⅪߜPlug-in Cards for Apple, IBM & CompatiblesⅪߜData Logging SystemsⅪߜRecorders, Printers & PlottersHEATERSⅪߜHeating CableⅪߜCartridge & Strip HeatersⅪߜImmersion & Band HeatersⅪߜFlexible HeatersⅪߜLaboratory HeatersENVIRONMENTALMONITORING AND CONTROLⅪߜMetering & Control InstrumentationⅪߜRefractometersⅪߜPumps & TubingⅪߜAir, Soil & Water MonitorsⅪߜIndustrial Water & Wastewater TreatmentⅪߜpH, Conductivity & Dissolved Oxygen InstrumentsM4054/0112。