维萨拉MAWS201M中文版说明书

导读：SPAC201M电流型智能电动机控制器，6.6装置控制操作...............................，9.3安装尺寸.................................，3.保护整定参数................................，SPAC201M电流型智能电动机控制器是一款在低压配电系统中应用广泛的低压电动机，它集保护、测量、控制、显示、Guangzhou Zhiguang Electric Co. LtdSPAC201M电流型智能电动机控制器使用说明书目录1 产品简介.................................................................2 2 功能特点.................................................................2 3 技术指标.................................................................2 4 基本功能.................................................................3 5 基本操作.................................................................4 6菜单介绍.. (5)6.1监视菜单 (5)6.2事件信息 (9)6.3参数设置 (11)6.4保护设置 (16)6.5启停设置 (18)6.6装置控制操作 (19)6.7通道测试 (20)6.8其他..................................................................................................................................21 7端子排图................................................................22 8 自定义.. (234)8.1 开入自定义 (234)8.2 开出自定义 (23)8.3 对时功能......................................................................................................................245 9 安装环境与结构 (235)9.1 电气环境 (235)9.2 使用环境 (235)9.3 安装尺寸......................................................................................................................246 10 典型应用.............................................................227 附录1 SPAC201M电流型智能电动机控制器定值整定..........278 附录2 各参数设置默认值一览表 (289)1.装置参数 (289)2.启动参数 (289)3.保护整定参数 (2930)SPAC200M智能电动机继电器使用说明书11 产品简介SPAC201M电流型智能电动机控制器是一款在低压配电系统中应用广泛的低压电动机保护装置。

应用说明www.vaisala.c nVaiNet AP10 网络接入点成熟的无线环境监测技术维萨拉 viewLinc 监测系统利用基于射频技术的维萨拉 VaiNet 无线设备对环境条件进行无线跟踪。

通过线性调频扩频 (CSS)* 信号调制，VaiNet 提供稳定的通信，在长距离范围内以及严酷、复杂和闭塞的条件下依旧可靠。

长距离无线通信避免了使用中继器来提高信号强度。

VaiNet 的无线数据记录仪以及接入点已经进行了预编程，以便于可以相互定位并建立通信。

更少的设备和配置让安装更加简单，因此，即使是之前缺乏或者没有设置联网监测系统经验的用户也能部署它。

VaiNet RFL100 无线电频率数据记录仪维萨拉 VaiNet 无线技术使用 sub-GHz 频率在环境监测应用中实现更好的信号传播。

大多数配备无线设备的工业监测系统都采用某种冗余方式防止数据记录仪网络中出现单点故障。

VaiNet 通过在多个网络接入点之间分配信号负载形成冗余。

接入点和数据记录仪之间的无线信号强度决定了最佳数据传输路径。

接入点利用以太网供电 (PoE)，从而减少布线，并且可以轻松连接到 UPS*。

如果没有 PoE，则安装时提供单独的电源。

此外，大多数RFL100 型号都是完全无线的，由电池供电，可确保系统在停电期间继续监测。

如果无线网络掉线，每个记录仪可以保留长达 30 天的数据，并且，如果以太网局域网出现故障，接入点将进行额外的数据存储。

一旦网络恢复，数据记录仪和接入点就会自动将历史数据回填到监测系统软件，以确保历史记录不间断。

由于其他频率已得到广泛使用，sub-GHz 无线技术有很多优点。

VaiNet 在繁重的 2.4 GHz 频段外部进行通信，信号不易受到干扰。

sub-GHz 无线通信的另一个优点是低频信号，这意味着信号传播距离更长，穿透力更好。

工业环境和仓库环境中典型的障碍（水泥砌块墙、金属货架、重型设备、液体产品、铝箔包装）更容易被低频信号穿透。

维萨拉工业测量竭诚服务于数据中心2观测让世界更美好维萨拉的工业测量业务领域产品能够帮助客户了解工艺过程。

我们的产品为客户提供准确可靠的测量数据，帮助客户做出优化工业过程的决策，从而提高过程效率、产品质量、生产力和产量，同时减少能源消耗、浪费和排放。

我们的监测系统还能帮助客户在受监管的环境中运营，以履行监管合规性。

维萨拉工业测量服务于多种类型的运营环境，从半导体工厂和高层建筑，到发电厂和生命科学实验室，对环境条件的可靠监测是实现成功运营的先决条件。

维萨拉的测量产品和系统广泛应用于监测温度、湿度、露点、气压、二氧化碳、汽化过氧化氢、甲烷、油中水、变压器油中溶解气体和液体浓度等参数。

我们的生命周期服务可在测量仪表的整个使用寿命内提供维护。

作为值得信赖的合作伙伴，我们通过在产品和系统生命周期中保证准确的测量数据来支持客户做出可持续的决策。

本产品目录对我们的产品进行整体的介绍，以帮助您选择适合您需求的产品。

如需更多信息，请通过以下方式联系我们：销售热线：400 810 0126电子邮箱：**********************公司网址：扫描二维码，关注维萨拉企业微信目 录Indigo及智能探头Indigo520数据处理单元 (4)Indigo510数据处理单元 (7)Indigo300数据处理单元 (10)Indigo200系列数据处理单元 (13)HMP7相对湿度和温度探头 (15)HMP3一般用途湿度和温度探头 (18)手持式仪表Indigo80手持式显示表头 (21)HMP80系列手持式湿度和温度探头 (24)DMP80系列手持式露点和温度探头 (26)空调系统HUMICAP® 温湿度探头HMP110 (29)HMD110/112和HMW110/112湿度和温度变送器 (32)TMI110温度变送器 (35)HMDW80系列温湿度变送器 (37)HMD60系列湿度和温度变送器 (41)HUMICAP® 温湿度变送器HMT120和HMT130 (45)CO2测量适用于苛刻环境的维萨拉 CARBOCAP® 测量传感器 (48)GMD110管道安装式二氧化碳变送器 (50)适用于智能控制通风系统 (DCV) 的GMW80系列二氧化碳、湿度和温度一体变送器 (52)适用于苛刻通风要求应用的GMW90系列二氧化碳及温湿度变送器 (55)室外测量气象变送器WXT530系列 (58)适用于楼宇自动化应用室外测量的HMS80系列温湿度变送器 (60)适用于楼宇自动化高精度室外测量的HMS110系列温湿度变送器 (62)34Indigo520 数据处理单元适用于维萨拉 Indigo兼容探头功能•通用型数据处理单元，可兼容维萨拉 Indigo 系列中的多种探头•同时支持 2 个可插拔探头•IP66 和 NEMA 4 防护等级金属外壳•4 个可配置的电流隔离型模拟输出•2 个继电器•具有用于远程访问并带有 Web 界面的以太网连接•现场显示测量值，也可以通过模拟信号、继电器或 ModbusTCP/IP 协议将测量值传输到自动化系统。

Versatile automated weather observation forDemanding T actical Militaryilitary forces have a universal need for rapid-deployment,automated weatherstations that can be used in di-verse field operations.Furthermore, they are increas-ingly using commercial-off-the-shelf (COTS) equipment. The challenge is to provide COTS systems that can be easily shipped, installed and field-up-graded with a variety of sensors to give full aviation support ca-pabilities in the METAR for-mat, for example.Vaisala’s new generation MAWS201M T actical Meteorol-ogical (TACMET) Observation System offers all these capabili-ties, and is a genuine COTS product.Field-deployable weather station for tactical situationsThe MAWS201M TACMET System is a field-deployable,compact weather station, capa-ble of monitoring two general types of environmental para-meters – meteorological para-meters (wind, air temperature,humidity, pressure, precipita-tion) and aviation support pa-rameters (cloud height and cover, visibility/precipitation type, thunderstorms/light-ning). The system is designedMilitary forces have a universal need for automated weather stations that can be rapidly deployed and used in diverse field operations. They have also tended increasingly to use commercial-off-the-shelf (COTS) products.Vaisala’s new generation MAWS201M Tactical MeteorologicalObservation System meets the versatile requirements of military forces,and is a genuine COTS product.Hannu Kokko, B.Sc. (Eng.) Product ManagerSurface W eather Division Vaisala Helsinki Finlandperature and relative humidityand precipitation. In addition to the basic functions of pow-ering and taking measurements from the sensors, the MAWS201M also processes the statistical calculations, per-forms data quality control, logs data into a secure Flash memo-ry, and formats the data for output in application-specific formats.The MAWS201M uses a 32-bit Motorola CPU, a 16-bit A/D conversion, and advanced software to ensure the continu-ous accuracy of the measured data. The built-in quality con-trol software validates the sensor data against the climatological limits set by the user, and the step changes between successive measurements. The modular de-sign and efficient Built-In-T est (BIT) diagnostics allow quick identification, removal and re-placement of defective LRUs (Lowest Replaceable Units) in the field.The MAWS201M has 5 seri-al I/O ports for interfacing with intelligent sensors such as those used in enhancement configuration, and for trans-mitting data to users via land-line cable and/or VHF or UHF radio modem.The data can be presented on either a handheld display unit or a Windows NT-basedto be portable, capable of quick deployment worldwide, and operational in tactical situa-tions in a variety of environ-ments.Two systems can be con-nected to a Windows NT-based workstation via hardwire or radio modems. The work-station displays the data nu-merically and graphically, codes aviation weather reports in METAR/SPECI, and archives and transmits the data for fur-ther processing. A handheld display is also available for viewing all measured and cal-culated data while still in the field.High-performance Basic SystemThe MAWS201M Basic System is a high-performance system fitted into a very compact equipment package built around a stable tripod design.The system can be powered by mains power (AC) or by an in-tegrated solar panel when mains power is not available.Back-up batteries, which can be used for a minimum seven days without charging, are also in-cluded.The MAWS201M interfaces with a basic set of sensors for wind speed and direction,barometric pressure, air tem-Mpensate for uneven terrain. Its installation is easier and faster,if no exact leveling is required.The cloud cover algorithm used in the CT25KAM is a fur-ther development of the algo-rithm specified by FAA. The cloud cover (amount) is report-ed in 0 to 8 octals, according to the WMO (W orld Meteorol-ogical Organization) regula-tions. The cloud height/vertical visibility accuracy is within 50feet in a range of up to 25,000feet. In addition to reporting the standard four layers of cloud, the system reports fifth layers in the remark fields of the METAR report.Visibility and present weatherThe PWD11A visibility and present weather sensor evalu-ates the Meteorological Optical Range (MOR) by measuring the intensity of infrared light scattered at an angle of 45°.The scatter measurement is converted to visibility after a careful analysis of the signal properties. Special processing is used in the case of precipita-tion. The MOR range (visibili-ty) of the PWD11A is from 10m…20,000 m.The PWD11A is a lightweight instrument designed to operate continuously with minimumworkstation, both of which are described in more detail below.Versatile enhancementsThe Basic System can be en-hanced with sensors for cloud height and cover, visibility, pre-sent weather and lightning de-tection, all of which are needed for aviation support. The en-hancement sensors are all pow-ered by mains power, but have a back-up battery supply with an in-built charger to support operation in the limited mode for 24 hours.Cloud height and coverCloud height and cover is de-tected by the CT25KAM,which is a portable model of Vaisala’s FAA-approved (ap-proved by the US Federal Aviation Administration)ceilometer known as the CT25K. The CT25KAM has a unique single lens design, mak-ing it lighter, more reliable and easier to maintain. The heater/blower window condi-tioner ensures performance in all specified environmental conditions, and under all pre-cipitation types. It also signifi-cantly reduces the need for op-erator maintenance in the field.A special tilt sensor is pro-vided to automatically com-NeedsLaptop PC with Software in Windows NTBasic MAWS201M Enhancements (optional)Basic MAWS201M Enhancements (optional)•Real-time data display•METAR/SPECI coding and editing •Data and message storage •System diagnosticsSYSTEM 1Communications via land-line cable or VHF/UHF radio modemMETAR/SPECI message out to the Forecast System via serial line or LAN (FTP)SYSTEM 2 (OPTIONAL)Figure 1. The complete MAWS201M System with enhancements and options.Figure 2. The MAWS201M Basic System.optical intensity is proportional to the volume of the reflecting particles.Lightning detectionThe SA20 StrikeAlert Thunder-storm sensor is designed to de-tect and locate lightning activi-ty within a 50 nautical mile range of the sensor. The SA20is also an FAA-approved sen-sor.The SA20M detects lightning occurring within clouds, be-tween clouds and between the clouds and the ground. The abili-ty to detect inter-cloud activity allows the SA20M to detect lightning during the buildup stages of a thunderstorm, before sufficient charge buildup has oc-curred to generate a ground strike. Consequently, the SA20M provides early warning of poten-tially fatal, single-event, ground strikes.The primary functional com-ponents of the SA20M are the antenna, strike processor board and main processor board. The antenna is mounted on top of a ground plane with the proces-maintenance. Condensation is avoided by lens heating, result-ing in better performance in all conditions and reduced opera-tor maintenance. The PWD11A is quickly installed on the tripod of the Basic System. No tools are required.The present weather is also measured with the same instru-ment. The PWD11A present weather detector uses the same sensing technology as the FD12P present weather sensor,which is FAA-approved and has been found to be one of the best sensors in an extended comparison organized by the WMO.The PWD11A software de-tects precipitation droplets from rapid changes in the scatter sig-nal. The droplet data is used to estimate precipitation intensity and precipitation amount. In addition to the optical signal, a capacitive rain detector is used to estimate precipitation intensi-ty and the precipitation type.The output of the capacitive rain detector is proportional to the water amount on the capaci-tive sensing surfaces, while thetervals for display on the opera-tor terminal or the handheld test set. The data includes the distance and direction of the closest lightning and the total count of the lighting activity during the last 15 minutes.Portable systemThe TACMET system is de-signed for maximum portabili-ty and ease of use. The me-chanical parts are made of lightweight, but robust, an-odized aluminum and durable plastic. All cables, made of polyurethane, are fitted with quick release connectors mak-ing installation and unpacking quick and easy, even under the most difficult conditions.System configuration and site-specific parameters can be set with the handheld terminal,or remotely with the PC work-station.The carrying cases are made of cellular polypropylene (EPP), which is lightweight but very rugged material. It pro-vides excellent cushioning and,after a shock or push, will re-turn to its initial form by itself.sor boards mounted below, re-sulting in a compact, single sensor lightning detection sys-tem.The antenna is a set of crossed loop antennas and a vertical electrical field antenna.Circuitry to simulate a light-ning strike at a predetermined range and bearing is integrated into the antenna for continu-ous BIT purposes.T o ensure proper function-ing of all components, BIT is performed every four seconds.The main processor initiates a ‘test strike’ through the strike processor board and the anten-na. This provides a complete analog test of the antenna and the strike processor. If the cor-rect test result is not returned,an error condition is set and is not cleared until a valid test re-sult is obtained.The display/output messages generated by the SA20M in the current TACMET configura-tion use the standard METAR reporting format. Output con-sists of a 15-minute ‘moving window’ of all reported light-ning activity. Output messages are generated at five-second in-Figure 3. The complete MAWS201M T ACMET system with enhancements.Figure 4. The complete system can become operational in less than 30 minutes.Vaisala T echnology for the U.S.Air Forceaisala has received a major production order from the American company Raytheon Inc., to supply the U.S. Air Force (USAF) with Tactical Meteorological (TACMET) Observation Sys-tems. The order was obtained as a result of international competitive bidding and successful completion of USAF qualification tests. Deliveries started in August 2000.“The importance of weather conditions and their moni-toring is rapidly growing worldwide. This order serves as an excellent international reference for Vaisala. W e won the international bidding because of our technological ex-pertise,” says Pekka Ketonen, President and CEO of Vaisala.The system to be delivered is designed to measure and collect meteorological data and to observe aviation weather. The weather stations monitor air temperature,wind direction and speed, relative humidity, air pressure,precipitation amount and type, soil moisture and tem-perature, lighting conditions, cloud height and cover, visi-bility and lightning. The system is designed to be capable of quick deployment and to operate in the most de-manding conditions.The TACMET systems are part of Vaisala’s range of surface weather observation products. The technology of the weather stations is based on the company’s standard products, which have been delivered to meteorological institutes and aviation authorities in various countries.V aisala’s T actical Meteorological (T ACMET) Observation System is a field-deployable, compact weather station for various operations. Pictured the production facilities.The cases are equipped with handles, hinges and latches where padlocks can be used.The two carrying cases of the Basic System weigh only 46 kg.Data displaysThere are two different types of display unit available. Both provide timely, real-time, in-theater weather information for users at the installation site or remotely at a command center.Handheld displayThe QMD101M is a light-weight, rugged, easy-to-read,handheld display device. It has a 160 x 160 graphic LCD with backlight for night-time opera-tion. The backlight setup allows the user to adjust the number of seconds before the backlight automatically turns off.It provides paged screens for measurement and calculation results, an alarm screen that shows active alarms and a setup screen for setting environmen-tal variables such as time, date,station name, altitude, etc.The display is a low-power de-vice. It is powered directly from the MAWS201M in the field, or from mains power in indoor use.The handheld terminal can be connected to the Basic System directly via cable or by VHF/UHF radio modems.PC workstation softwareThe Windows NT software col-lects the measured and calcu-lated data from the Maws201M systems, automatically gener-ates METAR/SPECI reports (aviation routine weather re-ports) and interfaces with an operator. The data is archived for 30 days on hard disk and also distributed further to other systems via the serial port or as an FTP transfer.The workstation software al-lows the user to edit the METAR reports with easy-to-use templates. The aviation special weather reports (SPECI)are automatically generated whenever the relevant criteria is observed, or if initiated by the operator.In addition, this software provides real-time graphical data displays in multiple win-dows. The stored data can be viewed in the ASCII format.The Event Monitor allows the operator to monitor system per-formance and sensor alarms.In any configuration, up to two MAWS201M systems can be connected to the Laptop PC workstation using landline ca-bles, VFH/UHF radio modems or any combination of these.Figure 5. Real-time data display of basic parameters.ssV。

Weather Radar WRK200Features•250 kW klystron transmitter withlow-maintenance solid-statemodulator•Vaisala lightweight, semi-yokestyle pedestal•1° beamwidth low side lobeantenna•Feed forward control loop toallow extremely fast and preciseantenna movement•Built around RVP900™ and IRIS™software•Remote control and monitoring•Image rejection > 80 dB (> 100 dBwith Vaisala waveguide filters)•Dynamic range > 99 dB (2 μspulse)•Optional built-in automaticdual‑channel calibrationVaisala Weather Radar WRK200 is a dual-polarization C-band radar that uses a coherent klystron transmitter.Dual-polarization•Precision horizontal and verticalbeam matching•> 35 dB integrated cross-polarization isolation•Dual-channel digital IF receiver Dual-polarization radars send vertically and horizontally polarized microwaves to measure the parameters needed for analyzing the target shape and improving data quality.Targets are identified as, for example, rain, hail, or snow, using sophisticated data processing techniques.Enhanced reflectivityEnhanced reflectivity is a signalprocessing technique that improves thedetection capabilities of adual‑polarization radar.The technique uses echo powerestimation to improve the detectivity ofweak signals over a long range.Enhanced reflectivity is exclusive toVaisala dual-polarization radars andRVP900™.HydroClass™Vaisala Hydrometeor Classification(HydroClass) software makes optimaluse of dual-channel measurements todetect the types of scatterers present inthe atmosphere, such as rain, hail, snow,graupel, and even non-meteorologicaltargets such as insects, chaff, and seaclutter.The benefit is improved data quality andmore accurate warnings for hazardousweather such as hail.Attenuation CorrectionAttenuation by intervening heavyprecipitation has been a long-standingconcern with weather radars, especiallyin tropical environments where heavyrain is common.Dual-polarization radars meet thischallenge by performing accurate,real‑time attenuation corrections.T echnical DataTransmitterTransmitter tube Klystron VKC8387Frequency range 5.6 ... 5.65 GHz Peak power 250 kW Average power max. 550 W Duty cycle 0.0022Pulse widthsTypical 0.5, 0.8, 1.0, 2.0, max. 5.0 μs Pulse repetition frequency 250 ... 2125 Hz Modulator Solid state Phase stability<0.1 degrmsAntenna and PedestalTotal weight (4.5 m antenna and pedestal)1530 kgAntennaTypeCenter-fed parabolic reflector Reflector diameter 4.5 m Gain (typical)45 dB Beam width< 1.0°Difference between H and V beam widths< 0.1° (<0.2 dB difference in gain)Peak sidelobes at main polarization planes< -29 dBIntegrated cross-pol isolation< -35 dBCross-pol isolation at main polarization planes< -36 dB H/V alignment (squint angle)< 0.1°Weight (reflector with counterweight plate)620 kgPedestalTypeSemi-yoke elevation over azimuth Angle span software limits -2 ... 108°Maximum scan rate (azimuth and elevation)40 degrees/second (6.67 rpm)Acceleration 20 degrees/second 2Position accuracy < 0.1°Motors Brushless AC servo Weight910 kgSignal processingSignal processor Vaisala RVP900Azimuth averaging 2 ... 1024 pulsesClutter filters IIR, fixed, and adaptive width GMAP > 55 dB rejection Data outputs (8 and 16 bit)Ah/v , Azdr , CCOR , CSP , CSR , dBT , dBZ , dBZt , KDP ,LDR , LOG , PHIH/V , PHIDP , PMI , R , RHOHV , SNR , SQI ,T , V , VC , W , Z , ZC , ZDR ,ZDRC ,Zh , Zv , Zhv Dual PRF velocity de ‑aliasing 2:3, 3:4, or 4:5 for 2X, 3X, or 4X de-aliasing High sensitivity Zhv STAR mode processing > 3 dB improvement detection gainIF digitizing16 bits, 100 MHz in 5 channels Number of range bins Up to 8168 per channel Optional data outputs HCLASS, I/QProcessing modesPPP, FFT/DFT, Random Phase 2nd trip filtering/recovery Range resolutionN*22 mRange de-aliasing by random phaseSystem specificationsInput powerVoltage: 3-phase 230/400 VAC ±10 % 50- 60 Hz ± 5%Site mains supply fuses: min 25 A Pedestal1050 W (max.) / 200 W (typical)Radar cabinet Max. 8720 W with UPS Max. 7850 without UPS Phase stability < 0.1° rms Maximum RhoHV> 0.99OptionsRadomeTypical 6.7 m, foam core sandwich, random panelAutomatic calibrationForward and reverse transmitted power monitoring Wide dynamic range receiver > 115 dBRadar receiverType Dual-stage, dual-channel IFdownconverter and digitizer Noise figure< 2 dBDynamic range> 99 dB (2 μs pulse)(option > 115 dB)Image rejection> 80 dB> 100 dB with waveguide filters Tuning range 5.5 ... 5.7 GHz1st intermediate frequency442 MHz2nd intermediate frequency60 MHzRadar ControllerType Vaisala RCP8 with IRIS Radar Scan modes PPI, RHI, Volume, Sector, Manual,Rapid ScanLocal display Real time, Ascope, BITE, products Radar cabinetDimensions (w × h × d)1400 × 1800 × 1300 mmTotal height1890 mm1)Weight977 kgCooling Equipment rack: air-conditionedTransmitter: forced air Operating temperature+5 ... +40 °C+15 ... +25 °C recommended Operating humidity0 ... 95 %RH, non-condensing Storage temperature−50...+50 °C without oil−10 ... +50 °C with oil Operating altitude/ AmbientpressureUp to 3000 mUp to 700 hPA1)The total height includes the cabinet protection unit and cabinet legs.Published by Vaisala | B210811EN-H © Vaisala Oy 2021All rights reserved. Any logos and/or product names are trademarks of Vaisala or its individual partners.Any reproduction, transfer, distribution or storage of information contained in this document is strictlyprohibited. All specifications — technical included — are subject to change without notice.。

Order form DOC216225 rev AAValid from: 2022-10-05Order no.HMP155 Humidity and Temperature Probe123456789101112131415Vaisala HUMICAP ®Humidity and Temperature ProbeHMP155Price1.Probe type 2 x voltage output (RS485 for service use) AVoltage output for RH, 4-wire Pt100 output for Temperature (RS485 for service use)D RS485 serial output E2.Signal output selection RS485 serial output (only for probe type E)10...1 V output 20...5 V output 30...10 V output 43.Analog output signal for CH1None (RS485 or 4-wire PT100 output used)A RH (0... 100%RH)B- Choose option A, if no Td (-60...60°C)(-76...+140 °F)C T output is desired, Tdf (-60...60°C)(-76...+140 °F)D 4-wire measurement is used Tw (0...60°C)(+32...+140°F)E or output is RS485x (0...200g/kg d.a)(0...1400gr/lb)FT (-40...+60 °C)(-40...+140 °F)G T (-80...+60 °C)(-112...+140 °F)J Special Define scale and quantity Ch1:_______________ X 4.Analog output signal for CH2None (RS485 or 4-wire PT100 output used)A RH (0... 100%RH)B- Choose option A, if no Td (-60...60°C)(-76...+140 °F)C T output is desired, Tdf (-60...60°C)(-76...+140 °F)D 4-wire measurement is used Tw (0...60°C)(+32...+140°F)E or output is RS485x (0...200g/kg d.a)(0...1400gr/lb)FT (-40...+60 °C)(-40...+140 °F)G T (-80...+60 °C)(-112...+140 °F)J Special Define scale and quantity Ch2:_______________ X5.Units Metric 1Non-metric 2AW20 AWOS settings 36.Humidity sensor type General purpose HumiCap 180R1Composite sensor HumiCap 180RC 2General purpose InterCap 3Composite sensor InterCapC 4General purpose HumiCap R25Composite sensor HumiCap R2C 6General purpose HumiCap 180R+YSI77.Heating options None A - See note (*) below!Warmed probe (only with composite sensor)RH&T outputs only with Additional Temperature probeB Warmed probe with Xheat (only with composite sensor)RH&T outputs only with Additional Temperature probeC8.Chemical purge None0Periodical (only with composite sensor)1Start-up (only with composite sensor)2Both periodical & start-up (only with composite sensor)3Manual purge with MI70 (only with composite sensor)49.Sensor protection Sintered Teflon filterA Membrane filter Item: 230727B10.Probe cable length No cable (no counter connector)03.5 m (with 8 pin M12 female connector)Item: 220496110 m (with 8 pin M12 female connector)Item: 220497230 m (with 8 pin M12 female connector)Item: 22049835 m (with 8 pin M12 female connector)Item: 22328340.6m MAWS cable (8-pin, M12 at both ends)Item: 23029353 m MAWS cable (8-pin, M12 at both ends)Item: 21549460.8 m (with 8 pin M12 female connector)Item: 2722267MAWS201M Cable H AWS520 CableJ11.Additional Temperature probe None (if probe type D selected, please select option A)A Additional T-probe with 2m cableB No additional T for MAWS use (If Probe Type D Selected, Please Select Option A)C Additional T-probe with 2m cable for MAWS useD No Additional T-probe & data format for Vaisala AWS/RWS Use (HMP155-CFG08)E Additional T-Probe with 2m Cable & data format for Vaisala AWS/RWS Use (HMP155-CFG09)F Additional T-Probe with 2m Cable, Purge & data format or Vaisala AWS/RWS Use (HMP155-CFG10)G12.Calibration At room temperature1Accredited Calibration for New Instruments (HELACCRCAL)313.PC-Accessories NoneA PC connection cable (USB)Item: 221040B MI70 connection cable Item: 221801C PC connection cable (USB) & MI70 connection cableD14.Installation accessories None0Installation kit to Stevenson screen Item: 2213211Additional T-probe installation part to DTR502Item: 2210722Additional T-probe installation part to DTR13Item: 2210693PTB330TS415.(For production use only)ATotal (*) Note! If warmed probe is chosen and additional temperature sensor is not usedQTYoutput signal for Ch1 must be 'None' and for Ch2 only Td, Tdf or x output can be selected.Total valueAccessories and spares FiltersSintered Teflon filter 219452SP Membrane filter 230727SP CablesCable 0.8 m 8-pin M12 272226Cable 3.5 m 8-pin M12 220496Cable 5 m 8-pin M12223283Cable 10 m 8-pin M12 220497Cable 30 m 8-pin M12 220498USB-M12 service cable221040Radiation shieldDTR13Compact shield (suitable for HMP155)DTR503DTR502Probe mounting accessoriesAdditional T-probe installation adapter for DTR13221069Additional T-probe installation adapter for DTR502221072Large shield (suitable for HMP155 with additional T-probe)Small shield (suitable for additional T-probe)221321Calibration accessoryMI70 measurement indicator MI70MI70 connection cable221801HMK15 humidity calibrator (saturated salt solutions)HMK15HMK15 adapter fitting for 12-mm probes218377SP OthersHMP155 connector cover for protection in wet environment DRW236638221318HMP155 and additional T-probe installation adapter for Stevenson screenProtection set for calibration buttons: protective cover, 2 O-rings and protective plug。