温度监控软件说明书(2009-1-19)

Seite 1/8JUMO GmbH & Co. KGDelivery address:Mackenrodtstraße 14,36039 Fulda, GermanyPostal address:36035 Fulda, Germany Phone:+49 661 6003-0Fax:+49 661 6003-607e-mail:*************Internet: JUMO Instrument Co. Ltd.JUMO HouseTemple Bank, RiverwayHarlow, Essex CM 20 2TT, UK Phone:+44 1279 635533Fax:+44 1279 635262e-mail:*************.uk Internet: JUMO Process Control, Inc.8 Technology Boulevard Canastota, NY 13032, USA Phone:315-697-JUMO1-800-554-JUMOFax:315-697-5867e-mail:************Internet:JUMO safetyM TB/TW Temperature limiter, temperature monitor according DIN EN 14597with LCD for mounting on 35mm DIN railsBrief descriptionThe JUMO safety M TB/TW is a freely programmable temperature limiting device.The measurement input is freely configurable for RTD temperature probes and thermocouples,as well as for current and voltage signals.TB/TWs monitor thermal processes in systems for a set limit value. If this is exceeded, thebuilt-in relay (with internal fuse) switches the system to a safe operational state and the LED K1switches from green to red.When the system returns to the o.k. region, the reset button (on the TB) has to be released manually using an appropriate tool.The TW, on the other hand, is reset automatically without any external action.The binary output 24V/20mA produces a pre-alarm signal at an adjustable temperature before reaching the limit value, which is additionally indicated via the LED KV .TB/TWs are mounted on DIN rails and wired up by means of screw terminals with 2.5mm²max. conductor cross-section.A PC setup program is available as an accessory, which can be used to set and store probe type, range, output action and inhibits.Block diagramTyp 701160/ …Special featuresk Setup program for configuration and archive data backup k Clear, easy-to-read alphanumerical display k Digital input filter with adjustable filter time constantk adjustable as absolute value or relative to limit value k Wide supply voltage range 110 — 240V AC +10% /-15%k Configurable as TB or TW k 17 linearizations can be setk Internal and external locking options k input 2 x Pt100 for differential measure-mentApproval/approval marks (see technical data)Technical dataAnalog inputsRTD temperature probethermocouplesDC voltage, DC currentMeasuring circuit monitoringDesignation Measuring range Accuracy 1Pt 100 EN 60751-200…+850°C 0.1%KTY11-6 PTC -50...150°C 1%Pt 1000 DIN -200…+850°C 0.1%connection types 2-wire, 3-wire circuits Sampling 210msInput filter 2nd order digital filter; filter constant adjustable from 0to 100secsSpecial features2x Pt100 for differential measurement, display can also be programmed in °FDesignationMeasuring range Accuracy 1Fe-CuNi "L" DIN 43710-200to +900°C 0.4%Fe-CuNi "J" EN 60584-200to +1200°C 0.4%Cu-CuNi "U" DIN 43710-200to +600°C 0.4%Cu-CuNi "T" EN 60584-200to +400°C 0.4%NiCr-Ni "K" EN 60584-200to +1372°C 0.4%NiCrSi-NiSi "N" EN 60584-100to +1300°C 0.4%Pt10Rh-Pt "S" EN 605840to +1768°C 0.4%Pt13Rh-Pt "R" EN 605840to +1768°C 0.4%Pt30Rh-Pt6Rh "B" EN 60584300to 1820°C 0.4%W3Re-W25Re "D"0...2495°C 0.4%Cold junctionPt 100, internal Cold junction accuracy ± 1K Sampling rate 210 msInput filter 2nd order digital filter; filter constant adjustable from 0to 100secs Special featuresalso programmable in °F1. Accuracy refers to the maximum extent of the measuring range. If the measuring range is smaller, the linearisation accuracy is reduced .Measuring rangeAccuracy 0to 20mA, voltage drop < 2 V 4to 20mA, voltage drop < 2 V 0.2%0to 10V , input resistance > 100 k Ω2to 10V , input resistance > 100 kW 0.1%Scaling freely programmable within the limits Sampling rate 210 msInput filter2nd order digital filter; filter constant adjustable from 0to 100secsRTD temperature probe and KTY11-6Twin thermocouplesThermocouplesCurrent 0 to 20 mA, 4 to 20mA Voltage 0 to 10 V , 2 to 10 VOverrange and un-derrange is detected LEDs K1 and KV light up; "1999" flashes in the displayProbe and lead break is detectedLEDs K1 and KV light up; "1999" flashes in the display; relay K1 is active.is detected at 4 to 20mA and 2 to 10VLEDs K1 and KV light up;"1999" flashes in the display Relay K1 is inactiveProbe short circuitis detectedLEDs K1 and KV light up;"1999" flashes in the display Relay K1 is inactiveis not detectedBinary inputRelay- and Binary outputVoltage supplyAapproval/MarksSwitching action at limit valueconnection Function1 floating contactConfigurable unlocking, keyboard inhibit, level inhibit1 relay100000 operations at a contact rating of:AC 230/24V; 3(0,5)A; cos φ=1 (≥ 0,6); 50Hz DC 24V; 3(0,5; τ=7ms)AUL60730AC230V; 3A D300; 30kAC/DC 24V; 3A, minimum current: DC 24V, 100mAContact protection circuit:safety fuse 3.15AT, installed in the pole contact arm within the instrument 1 Binary output24 V DC / 20mA logic signal, short-circuit proofvoltage supply 20 - 30V AC/DC, 48 ...63 Hz110V/240V AC, +10% /-15%Power consumption5 VAapproval marks Inspection authority Certificate/Inspection numbers inspection basics valid forDIN DIN CERTCOTW/TB 1206 08DIN EN 14597all instrument versions c UL usUnderwriters Laboratories 20091123-E325456UL 60730-2-9all instrument versionsSwitching action inverseSwitching action directSwitching action at differential measurementTest voltages to EN 60730, Part 1Between input or output and supply- at 110-240 V AC supply +10% /-15% 3.7kV/50Hz- at 20 - 30V AC/DC supply, 48 - 63 Hz 3.7kV/50HzElectrical safetyClearances / creep pathsMains to electronic components and probe≥6 mm / ≥8 mmMains to the relay≥6 mm / ≥8 mmRelay to electronic components and probe≥6 mm / ≥8 mmElectrical safety according to DIN EN 14597 (DIN EN 60730-2-9)Overvoltage category III, pollution degree 2Protection type I with internal separation to SELV current circuits Environmental influencesAmbient temperature range0...+55°CStorage temperature range-30...+70°CTemperature error≤ ± 0.005% / K dev. from 23°C1 for resistance thermometers≤ ± 0.01% / K dev. from 23°C1 for thermocouple, current, voltage Climatic conditions85% rel. humidity, no condensation(3K3 with extended temperature range to EN 60721)EMC to EN 14597 and standards from the EN 61326 series of standards Interference emission Class BInterference immunity Test level for safety, control and regulating instruments (RS) to EN 14597 1.All details refer to the full scale valueHousingMaterial polyamide (PA 6.6)Screw terminal0.2-2.5mm2 screw terminalMounting on 35mm x7.5mm DIN rail to EN 60715mounting position verticalWeight approx. 160gProtection type IP 20 to EN 60529DimensionsType 701160/...DIN-approved probes for operation in airNote: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.2006902006/65-228-1003-1-15-500-668/000- 1 x Pt100-170 ... +700°C500902006/65-228-1003-1-15-710-668/000-710902006/65-228-1003-1-15-1000-668/000-1000902006/55-228-1003-1-15-500-254/000- 1 x Pt100-170 ... +700°C500902006/55-228-1003-1-15-710-254/000-710902006/55-228-1003-1-15-1000-254/000-1000902006/65-228-2003-1-15-500-668/00090.271-F01 2 x Pt100-170 ... +700°C500Stop flange,movable902006/65-228-2003-1-15-710-668/00090.272-F01710902006/65-228-2003-1-15-1000-668/00090.273-F011000902006/55-228-2003-1-15-500-254/000- 2 x Pt100-170 ... +700°C500movableG1/2 compression clamp 902006/55-228-2003-1-15-710-254/000-710902006/55-228-2003-1-15-1000-254/000-1000Thermocouple s Data S heet 90.1006901006/65-547-2043-15-500-668/00090.019-F01 2 x NiCr-Ni, Typ E …K“-35 ... +800°C500Stop flange,movable901006/65-547-2043-15-710-668/00090.020-F01710901006/65-547-2043-15-1000-668/00090.021-F011000901006/65-546-2042-15-500-668/00090.019-F11 2 x Fe-CuNi, Typ E …L“-35 ... +700°C500901006/65-546-2042-15-710-668/00090.020-F11710901006/65-546-2042-15-1000-668/00090.021-F111000901006/66-550-2043-6-500-668/00090.023-F01 2 x NiCr-Ni, Typ E …K“-35 ... +1000°C500901006/66-550-2043-6-355-668/00090.023-F023********/66-550-2043-6-250-668/00090.023-F03250901006/66-880-1044-6-250-668/00090.021 1 x PT10Rh-PT, Typ E …S“0 ... 1300°C250901006/66-880-1044-6-355-668/00090.022*********/66-880-1044-6-500-668/00090.023*********/66-880-2044-6-250-668/00090-D-021 2 x PT10Rh-PT, Typ E …S“0 ... 1300°C250Stop flange,movable 901006/66-880-2044-6-355-668/00090-D-022*********/66-880-2044-6-500-668/00090-D-023500901006/66-953-1046-6-250-668/00090.027 1 x PT30Rh-PT6Rh, Typ E …B“600 ... 1500°C 250901006/66-953-1046-6-355-668/00090.028*********/66-953-1046-6-500-668/00090.029500901006/66-953-2046-6-250-668/00090-D-027 2 x PT30Rh-PT6Rh, Typ E …B“600 ... 1500°C 250901006/66-953-2046-6-355-668/00090-D-028*********/66-953-2046-6-500-668/00090-D-029500DIN-approved probes for operation in water and oilDIN-approved probes for operation in water and oilDIN-approved probes for operation air, water and oilNote: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.200690.2006/10-402-1003-1-9-100-104/000 1 x Pt100-40 ... +400°C100G1/2 screw connection90.2006/10-402-2003-1-9-100-104/000 2 x Pt100100902006/54-227-2003-1-15-710-254/00090.272-F02 2 x Pt100-170 ... 550°C 65...670movableG1/2 compression clamp 902006/54-227-1003-1-15-710-254/00090.272-F03 1 x Pt10065...670902006/10-226-1003-1-9-250-104/00090.239 1 x Pt100-170 ... 480°C 250G1/2 screw connection 902006/10-226-2003-1-9-250-104/00090-D-2392 x Pt100250Thermocouple s Data S heet 90.1006901006/54-544-2043-15-710-254/00090.020-F02 2 x NiCr-Ni, Type …K“-35 ... 550°C65...670movableG1/2 compression clamp901006/54-544-1043-15-710-254/00090.020-F03 1 x NiCr-Ni, Type …K“65...670901006/54-544-2042-15-710-254/00090.020-F12 2 x FeCuNi, Type …L“65...670901006/54-544-1042-15-710-254/00090.020-F131 x FeCuNi, Type …L“65 (670)Note: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.200690.2006/10-402-1003-1-9-100-104/000 1 x Pt100-40 ... +400°C100G1/2 screw connection90.2006/10-402-2003-1-9-100-104/000 2 x Pt100100902006/54-227-2003-1-15-710-254/00090.272-F02 2 x Pt100-170 ... 550°C 65...670movableG1/2 compression clamp 902006/54-227-1003-1-15-710-254/00090.272-F03 1 x Pt10065...670902006/10-226-1003-1-9-250-104/00090.239 1 x Pt100-170 ... 480°C 250G1/2 screw connection 902006/10-226-2003-1-9-250-104/00090-D-2392 x Pt100250Thermocouple s Data S heet 90.1006901006/54-544-2043-15-710-254/00090.020-F02 2 x NiCr-Ni, Type …K“-35 ... 550°C65...670movableG1/2 compression clamp901006/54-544-1043-15-710-254/00090.020-F03 1 x NiCr-Ni, Type …K“65...670901006/54-544-2042-15-710-254/00090.020-F12 2 x FeCuNi, Type …L“65...670901006/54-544-1042-15-710-254/00090.020-F131 x FeCuNi, Type …L“65 (670)Note: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeIn s tall. length mmP roce ss connectionRTD temperature probe Data S heet 90.200690.2006/10-390-1003-1-8-250-104/00090.210-F951 x Pt100max. 300°C250Thermocouple s Data S heet 90.1006901006/45-551-2043-2-xxxx-11-xxxx2 x NiCr-Ni, Typ E …K“max. 1 50°C50 (2000)Connection diagramOrder detailsScope of delivery1 JUMO safety M TB/TW in the ordered version1 Operating Instructions 701160.0Accessories Sales No.Setup Programm, multilingual 70/00514193 PC interface with TTL/RS232 converter and adapter (socket)70/00350260 PC interface with USB/TTL converter, adapter (socket) and adapter (pins)70/00456352 External reset button RT70/97097865。

版温湿度监控系统操作说明软件操作说明：本套软件分为系统监控软件（现场温湿度采集软件）和查阅软件（办公室查阅软件）车间现场使用软件操作如下；步骤一：运行软件，弹出登录系统窗口。

系统出厂管理员用户名和密码都为；若要修改密码，进入后再另行修改。

输入正确用户名和密码，显示画面如下：在软件格子条纹框内，右键→新建设备，跳出如下设备属性输入框；注意事项：设备每个设备都不一样。

车间内如果有个探头，那么探头对应的应该为号。

每个部门的设备都是从号开始。

设备不可重复，依次新建设备。

设备类型（贵司类型均为）设备名称自行修改（对应探头地方） 显示在设备显示屏左上角第二个数字单通道设备全部设置为探头 不用输入双击设备，弹出下列属性框。

白色部分为可修改：保存间隔；设置成为，所有数据则是半个小时保存一次。

从开始采集开始算。

如果是中午：开始采集，数据就会：保存一组，：保存一组，一直到软件停止运行。

属性框设置温湿度上下限，超出范围，大屏上数值变红色，并一直显示超限设备数值。

按照各个库请自行设定好温湿度上下限。

修改好之后，请点击保存。

以上设置好之后，请点击保存配置文档，否则，下次打开软件，要重新输入设置通讯设置红色部分为，无线数据接收器接入端口，波特率为（固定为）蓝色部分为，数据备份到指定文件夹，可以选择，软件采集后，数据自动会存到文件夹中，电脑断电，数据会自动保存，不会丢失。

以上设置结束，点击开始采集。

打印数据步骤：视图→点击历史数据→选择起始时间和结束时间→刷新库区→库区选择所有库区→所有设备→点击列表→查询历史数据，点击打印，打印之前可以预览下，点数多，可以分纵向和横向打印；打印标题自行修改。

以上，如有疑问，联系说明归深圳市拓普瑞电子所有。

温湿度监控系统操作使用说明一、系统简介温湿度监控系统是一种用来实时监测和记录环境温度和相对湿度变化的系统。

该系统通过传感器检测环境温湿度，并将数据传输到监控中心进行实时显示和记录。

系统具有高精度、高稳定性、易操作等特点，适用于各种场所和环境。

二、系统组成1.传感器：用于检测环境的温度和湿度。

2.集控器：接收传感器数据并传输到监控中心。

3.监控中心：显示和记录传感器数据，提供报警功能等。

三、系统安装1.传感器安装：选择合适的位置安装传感器，注意避免阳光直射、水汽等影响温湿度测量的因素。

传感器应固定牢固，避免震动和干扰。

2.集控器安装：将集控器与传感器通过正确的接口连接起来，确保连接稳定。

集控器应安装在通风良好、温度适宜的地方。

3.监控中心安装：安装监控中心软件并按照说明进行设置，确保能够与集控器通信。

四、系统操作1.开机操作：按照监控中心软件的指引启动系统，确保传感器和集控器正常连接，并显示传感器的温湿度数据。

2.数据监测：监控中心会实时显示传感器采集到的温湿度数据，包括当前数值、最高值、最低值等信息。

可以通过图表等形式进行查看和分析。

3.数据记录：系统会将传感器数据保存到数据库中，用户可通过查看历史数据来了解温湿度变化的趋势。

可以根据需要设置保存的时间间隔和记录的数量。

4.报警功能：监控中心可以设置温湿度的报警阈值，当传感器检测到温湿度超出设定的范围时会自动报警，提醒用户进行处理。

报警方式可以通过声音、弹窗、短信等形式进行设置。

5. 数据导出：系统可以将数据导出为Excel或其他格式的文件，方便用户进行数据分析和报表制作。

6.系统设置：监控中心提供一些系统参数的设置选项，用户可以根据需要进行调整，如显示单位、报警阈值、报警方式等。

五、系统维护1.定期校准：传感器的准确度会随着时间的变化而降低，建议定期对传感器进行校准，确保温湿度的测量结果准确可靠。

2.清洁保养：定期清洁传感器和集控器，保持设备的良好状态，避免尘埃或污物的积累对测量结果的影响。

温控说明书温控说明书1. 简介温控是指通过控制系统自动调整温度，以满足特定的需求和要求。

温控系统广泛应用于各种场合，例如家庭、工业、农业等领域。

本文档将介绍温控系统的工作原理、使用方法以及常见问题解决方案。

2. 工作原理温控系统通过一系列传感器、控制器和执行器组成。

传感器用于感知环境的温度变化，控制器根据传感器的反馈信息决定是否调整温度，执行器则负责根据控制器的指令进行温度调节。

具体来说，温控系统的工作流程如下：1. 传感器感知环境的温度变化，将温度数据发送给控制器。

2. 控制器根据预设的温度范围，比较传感器反馈的温度数据与设定值，决定是否需要进行调整。

3. 若需要调整温度，控制器通过执行器发出指令，例如打开或关闭加热器、冷凝器等设备。

4. 执行器根据控制器的指令进行相应操作，调节温度至设定值。

5. 传感器不断监测环境的温度变化，循环执行上述步骤以维持恒温状态。

3. 使用方法以下是使用温控系统的步骤：1. 了解温控系统的工作原理和组成部分。

2. 将传感器安装在需要监测的位置，确保其能够准确感知温度变化。

3. 连接传感器与控制器，并确保其正常工作。

4. 配置控制器的设定值，即期望的温度范围。

5. 启动温控系统，等待系统开始自动调节温度。

6. 监测温度变化，如有需要，可以根据实际情况调整设定值。

7. 定期检查温控系统的运行状态，确保各组件正常工作。

8. 如需更改系统配置或修复故障，可参考温控系统的说明书或联系售后服务。

4. 常见问题解决方案4.1 温度不稳定可能原因及解决方案：- 传感器位置选择不当：重新选择合适的位置安装传感器，避免外部干扰或局部温度差异。

- 控制器设定值不准确：根据实际需求，重新设置设定值。

- 执行器故障：检查执行器是否正常工作，如有必要，更换故障执行器。

4.2 温度超过设定范围可能原因及解决方案：- 传感器故障：检查传感器是否正常工作，如有必要，更换故障传感器。

- 控制器故障：检查控制器是否正常工作，如有必要，更换故障控制器。

目录一、概述 (1)二、功能特点 (2)三、技术指标 (4)四、安装与接线及外形结构 (6)五、仪表运行及操作 (10)六、仪表参数设置及通讯协议 (23)七、软件使用说明 (31)八、故障分析与排除 (35)一、概述触控数据记录仪以其丰富的显示画面、灵活的操作方式以及强大的记录、运算、控制和管理功能，在各行各业中获得了极其广泛的应用。

本产品吸纳了各种国内外数据记录仪的优点，应用最新的显示技术、微电子技术、数据存储和通讯技术，是一款功能齐全、操作方便、精确可靠、高性价比的产品。

本产品在配置方面拥有蓝屏和彩色屏两种选择。

可以接收多种类型的电流、电压和电阻信号，实现温度、湿度、压力、液面、流量、成分以及力、力矩、位移等物理量的显示、记录、越限监控、报表生成、数据通讯、信号变送以及流量累计等功能。

本产品主要由触控液晶屏、按键、ARM微处理器为核心的主板、主电源、外供变送器电源、智能通道板、大容量FLASH等构成：可配备不同类型的智能通道板，根据应用要求选择。

内置大容量FLASH，可通过U盘快速将FLASH中的数据转储到计算机中。

内置的FLASH的容量为70M字节，8通道时若20秒记录一次可记录108天，最快1秒记录一次所有通道的数据。

数字显示界面、棒图显示画面、实时曲线画面、追忆曲线画面追忆曲线读数光标功能。

测量、显示基本误差：±0.2% F·S可参数设置多点报警功能。

二、功能特点本产品显示信息量大、界面友好、操作简单，下面是主要功能特点：不需要笔和纸记录，日常维护工作量非常小，运行费用低；采用高亮度触控彩色TFT液晶屏，CCFL背光、画面清晰；采用ARM微处理器，可同时实现多路（仪器内部最高64路）信号采集、记录、显示和报警；采用70MB 大容量的FLASH 闪存芯片存贮历史数据，掉电永不丢失数据；全隔离万能输入，可同时输入多种信号，无需更换模块，直接在仪器上设置即可；显示工程量数据的数值范围更宽可显示6位数值：-999，99~1999.99；可以进行参数设置、显示工程位号，工程单位，有流量累积；具有闪动报警显示，同时指示各路通道的下下限、下限、上限、上上限报警；8路继电器报警输出（订做产品）；显示精度高，基本误差为±0.2% F·S；内置GB2312汉字库，使用全拼输入法输入；支持外接微型打印机，手动打印数据、曲线，自动定时打印数据，满足用户现场打印的需求（订做产品）；配备标准USB2.0接口。

--------------------------------------------------------------------------------商业银行信息科技风险管理指引第一章总则第一条为加强商业银行信息科技风险管理，根据《中华人民共和国银行业监督管理法》、《中华人民共和国商业银行法》、《中华人民共和国外资银行管理条例》，以及国家信息安全相关要求和有关法律法规，制定本指引。

第二条本指引适用于在中华人民共和国境内依法设立的法人商业银行。

政策性银行、农村合作银行、城市信用社、农村信用社、村镇银行、贷款公司、金融资产管理公司、信托公司、财务公司、金融租赁公司、汽车金融公司、货币经纪公司等其他银行业金融机构参照执行。

第三条本指引所称信息科技是指计算机、通信、微电子和软件工程等现代信息技术，在商业银行业务交易处理、经营管理和内部控制等方面的应用，并包括进行信息科技治理，建立完整的管理组织架构，制订完善的管理制度和流程。

第四条本指引所称信息科技风险，是指信息科技在商业银行运用过程中，由于自然因素、人为因素、技术漏洞和管理缺陷产生的操作、法律和声誉等风险。

第五条信息科技风险管理的目标是通过建立有效的机制，实现对商业银行信息科技风险的识别、计量、监测和控制，促进商业银行安全、持续、稳健运行，推动业务创新，提高信息技术使用水平，增强核心竞争力和可持续发展能力。

第二章信息科技治理第六条商业银行法定代表人是本机构信息科技风险管理的第一责任人，负责组织本指引的贯彻落实。

第七条商业银行的董事会应履行以下信息科技管理职责：（一）遵守并贯彻执行国家有关信息科技管理的法律、法规和技术标准，落实中国银行业监督管理委员会（以下简称银监会）相关监管要求。

（二）审查批准信息科技战略，确保其与银行的总体业务战略和重大策略相一致。

评估信息科技及其风险管理工作的总体效果和效率。

（三）掌握a主要的信息科技风险，确定可接受的风险级别，确保相关风险能够被识别、计量、监测和控制。

Field settings table[6.8.2] = .... ID66F2*BLQ05CAV3*DLQ05CAV3*BLQ07CAV3*DLQ07CAV3(*1)*B*(*2)*D*4P405542-1A - 2017.047.4.1.1R/W [3-07]~[3-06], step: A.3.2.421°C7.4.1.2R/W [3-07]~[3-06], step: A.3.2.419°C7.4.1.3R/W [3-08]~[3-09], step: A.3.2.424°C7.4.1.4R/W[3-08]~[3-09], step: A.3.2.426°C7.4.2.1[8-09]R/W [9-01]~[9-00], step: 1°C 45°C7.4.2.2[8-0A]R/W [9-01]~[9-00], step: 1°C 40°C7.4.2.3[8-07]R/W [9-03]~[9-02], step: 1°C 18°C7.4.2.4[8-08]R/W [9-03]~[9-02], step: 1°C 20°C7.4.2.5R/W -10~10°C, step: 1°C 0°C7.4.2.6R/W -10~10°C, step: 1°C -2°C7.4.2.7R/W -10~10°C, step: 1°C 0°C7.4.2.8R/W-10~10°C, step: 1°C 2°C7.4.3.1[6-0A]R/W 30~[6-0E]°C, step: 1°C 55°C7.4.3.2[6-0B]R/W 30~min(50, [6-0E])°C, step: 1°C 45°C7.4.3.3[6-0C]R/W30~min(50, [6-0E])°C, step: 1°C 45°C 7.4.4R/W0: Level 11: Level 22: Level 37.4.5.1[C-0C][D-0C]R/W 0,00~990/kWh 0/kWh7.4.5.2[C-0D][D-0D]R/W 0,00~990/kWh 0/kWh7.4.5.3[C-0E][D-0E]R/W0,00~990/kWh 0/kWh 7.4.6R/W0,00~990/kWh 0,00~290/MBtu 8,0/kWh7.7.1.1[1-00]Set weather-dependent heating Low ambient temp. for LWT main zone heatingWD curve.R/W -40~5°C, step: 1°C-10°C7.7.1.1[1-01]Set weather-dependent heating High ambient temp. for LWT main zone heatingWD curve.R/W 10~25°C, step: 1°C 15°C7.7.1.1[1-02]Set weather-dependent heating Leaving water value for low ambient temp. forLWT main zone heating WD curve.R/W [9-01]~[9-00]°C, step: 1°C 45°C7.7.1.1[1-03]Set weather-dependent heating Leaving water value for high ambient temp. forLWT main zone heating WD curve.R/W[9-01]~min(45, [9-00])°C , step: 1°C 35°C7.7.1.2[1-06]Set weather-dependent cooling Low ambient temp. for LWT main zone coolingWD curve.R/W 10~25°C, step: 1°C 20°C7.7.1.2[1-07]Set weather-dependent cooling High ambient temp. for LWT main zone coolingWD curve.R/W 25~43°C, step: 1°C 35°C7.7.1.2[1-08]Set weather-dependent cooling Leaving water value for low ambient temp. forLWT main zone cooling WD curve.R/W [9-03]~[9-02]°C, step: 1°C 22°C7.7.1.2[1-09]Set weather-dependent cooling Leaving water value for high ambient temp. forLWT main zone cooling WD curve.R/W[9-03]~[9-02]°C, step: 1°C 18°C7.7.2.1[0-00]Set weather-dependent heating Leaving water value for high ambient temp. forLWT add zone heating WD curve.R/W [9-05]~min(45,[9-06])°C, step: 1°C 35°C7.7.2.1[0-01]Set weather-dependent heating Leaving water value for low ambient temp. forLWT add zone heating WD curve.R/W [9-05]~[9-06]°C, step: 1°C 45°C7.7.2.1[0-02]Set weather-dependent heating High ambient temp. for LWT add zone heatingWD curve.R/W 10~25°C, step: 1°C 15°C7.7.2.1[0-03]Set weather-dependent heating Low ambient temp. for LWT add zone heatingWD curve.R/W-40~5°C, step: 1°C -10°C7.7.2.2[0-04]Set weather-dependent cooling Leaving water value for high ambient temp. forLWT add zone cooling WD curve.R/W [9-07]~[9-08]°C, step: 1°C 8°C7.7.2.2[0-05]Set weather-dependent cooling Leaving water value for low ambient temp. forLWT add zone cooling WD curve.R/W [9-07]~[9-08]°C, step: 1°C 12°C7.7.2.2[0-06]Set weather-dependent cooling High ambient temp. for LWT add zone coolingWD curve.R/W 25~43°C, step: 1°C 35°C7.7.2.2[0-07]Set weather-dependent cooling Low ambient temp. for LWT add zone coolingWD curve.R/W10~25°C, step: 1°C 20°CA.2.1.1[E-00]R/O 0~52: Monobloc A.2.1.2[E-01]R/O 0~10: 8A.2.1.3[E-02]R/O 0: Type 1 (*1)1: Type 2 (*2)A.2.1.7[C-07]R/W0: LWT control 1: Ext RT control 2: RT control A.2.1.8[7-02]R/W 0: 1 LWT zone 1: 2 LWT zones A.2.1.9[F-0D]R/W0: Continuous 1: Sample 2: Request A.2.1.A [E-04]R/O0: No 1: YesIndoor software type Unit control methodNumber of LWT zones Pump operation modePower saving possible HighMedium Low Unit type Compressor type Comfort (cooling)Eco (cooling)Storage comfortStorage eco Reheat Comfort (heating)Eco (heating)Comfort (cooling)Eco (cooling)Comfort (heating)Eco (heating)Comfort (heating)Eco (heating)Comfort (cooling)Eco (cooling) 4P405542-1A - 2017.04(*1) *B*_(*2) *D*A.2.1.B R/W 0: At unit 1: In room A.2.1.C[E-0D]Glycol present R/W0: No 1: YesA.2.2.A [D-02]R/W0: No1: Secondary rtrn 2: Disinf. Shunt 3: Circul. Pump 4: CP & disinf. Sh A.2.2.B [C-08]R/W0: No1: Outdoor sensor 2: Room sensor A.2.2.E.1[E-03]R/W0: No BUH 1: 1 step 2: 2 steps A.2.2.E.2[5-0D]R/W0~51: 1P,(1/1+2)4: 3PN,(1/2)5: 3PN,(1/1+2)A.2.2.E.3[D-01]R/W0: No1: Open tariff 2: Closed tariff A.2.2.E.4[E-05]R/W 0: No 1: YesA.2.2.E.5[C-05]R/W 1: Thermo ON/OFF 2: C/H request A.2.2.E.6[C-06]R/W0~21: Thermo ON/OFF A.2.2.F.1[C-02]R/W0: No1: Bivalent 2: -3: -A.2.2.F.2[C-09]R/W 0: Normally open 1: Normally closed A.2.2.F.3[D-08]R/W0: No1: 0,1 pulse/kWh 2: 1 pulse/kWh 3: 10 pulse/kWh 4: 100 pulse/kWh 5: 1000 pulse/kWh A.2.2.F.4[D-09]R/W0: No1: 0,1 pulse/kWh 2: 1 pulse/kWh 3: 10 pulse/kWh 4: 100 pulse/kWh 5: 1000 pulse/kWh A.2.2.F.5[C-08]R/W0: No1: Outdoor sensor 2: Room sensor A.2.2.F.6[D-04]R/W0: No 1: YesA.2.3.1[6-02]R/W 0~10kW, step: 0,2kW 3kWA.2.3.2[6-03]R/W 0~10kW, step: 0,2kW 3kWA.2.3.3[6-04]R/W0~10kW, step: 0,2kW 0kWA.3.1.1.1R/W0: Fixed1: Weather dep.2: Fixed + scheduled 3: WD + scheduled A.3.1.1.2.1[9-01]Temperature range Minimum temp (heating)R/W 15~37°C, step: 1°C 25°CA.3.1.1.2.2[9-00]Temperature range Maximum temp (heating)R/W 37~55°C, step: 1°C 55°CA.3.1.1.2.3[9-03]Temperature range Minimum temp (cooling)R/W 5~18°C, step: 1°C 5°CA.3.1.1.2.4[9-02]Temperature range Maximum temp (cooling)R/W 18~22°C, step: 1°C 22°C A.3.1.1.5[8-05]R/W 0: No 1: Yes A.3.1.1.7[9-0B]R/W0: Quick 1: SlowA.3.1.2.1R/W0: Fixed1: Weather dep.2: Fixed + scheduled 3: WD + scheduled A.3.1.2.2.1[9-05]Temperature range Minimum temp (heating)R/W 15~37°C, step: 1°C 25°CA.3.1.2.2.2[9-06]Temperature range Maximum temp (heating)R/W 37~55°C, step: 1°C 55°CA.3.1.2.2.3[9-07]Temperature range Minimum temp (cooling)R/W 5~18°C, step: 1°C 5°CA.3.1.2.2.4[9-08]Temperature rangeMaximum temp (cooling)R/W18~22°C, step: 1°C 22°CA.3.1.3.1[9-09]R/W 3~10°C, step: 1°C 5°CA.3.1.3.2[9-0A]R/W3~10°C, step: 1°C 5°CA.3.2.1.1[3-07]Room temp. rangeMinimum temp (heating)R/W 12~18°C, step: A.3.2.416°CA.3.2.1.2[3-06]Room temp. range Maximum temp (heating)R/W 18~30°C, step: A.3.2.430°CA.3.2.1.3[3-09]Room temp. range Minimum temp (cooling)R/W 15~25°C, step: A.3.2.415°CA.3.2.1.4[3-08]Room temp. rangeMaximum temp (cooling)R/W25~35°C, step: A.3.2.435°CExternal kWh meter 1External kWh meter 2External sensor PCC by digital inputs Backup heater stepsBUH type Preferential kWh rate DHW operation Contact type main Contact type add.BUH: step 1BUH: step 2LWT setpoint modeModulated LWT Emitter typeLWT setpoint modeHeating CoolingUser interface location DHW pumpExternal sensor Booster heaterExt. backup heat srcAlarm output (*1) *B*_(*2) *D* 4P405542-1A - 2017.04A.3.2.2[2-0A]R/W -5~5°C, step: 0,5°C 0°CA.3.2.3[2-09]R/W -5~5°C, step: 0,5°C 0°CA.3.2.4R/W0: 0,5 °C 1: 1 °CA.3.3.1[4-02]R/W 14~35 °C, step: 1°C 25°CA.3.3.2[F-01]R/W10~35°C, step: 1°C 20°CA.4.1[6-0D]R/W0: Reheat only1: Reheat + sched.2: Scheduled only A.4.4.1[2-01]R/W 0: No 1: YesA.4.4.2[2-00]R/W0: Each day 1: Monday 2: Tuesday 3: Wednesday 4: Thursday 5: Friday 6: Saturday 7: SundayA.4.4.3[2-02]R/W 0~23 hour, step: 1 hour 23A.4.4.4[2-03]R/W 55~80°C, step: 5°C 70°CA.4.4.5[2-04]R/W5~60 min, step: 5 min 10 minA.4.5[6-0E]R/W40~80°C, step: 1°C 60°CA.4.6R/W0: Fixed1: Weather dep.A.4.7[0-0B]Weather-dependent curveLeaving water value for high ambient temp. for DHW WD curve.R/W 35~[6-0E]°C, step: 1°C 55°CA.4.7[0-0C]Weather-dependent curve Leaving water value for low ambient temp. for DHW WD curve.R/W 45~[6-0E]°C, step: 1°C 60°CA.4.7[0-0D]Weather-dependent curve High ambient temp. for DHW WD curve.R/W 10~25°C, step: 1°C 15°CA.4.7[0-0E]Weather-dependent curveLow ambient temp. for DHW WD curve.R/W-40~5°C, step: 1°C -10°CA.5.1.1[4-00]R/W0~20: Disabled 1: Enabled A.5.1.3[4-07]R/W 0: No 1: YesA.5.1.4[5-01]R/W-15~35°C, step: 1°C -4°CA.6.1[3-00]R/W0: No 1: Yes A.6.2.1[D-00]R/W0: None 1: BSH only 2: BUH only 3: All heaters A.6.2.2[D-05]R/W0: Forced off 1: As normalA.6.3.1[4-08]R/W0: No limitation 1: Continuous 2: Digital inputs A.6.3.2[4-09]R/W 0: Current 1: PowerA.6.3.3[5-05]R/W 0~50 A, step: 1 A 50 AA.6.3.4[5-09]R/W 0~20 kW, step: 0,5 kW 20 kWA.6.3.5.1[5-05]Amp. limits for DI Limit DI1R/W 0~50 A, step: 1 A 50 AA.6.3.5.2[5-06]Amp. limits for DI Limit DI2R/W 0~50 A, step: 1 A 50 AA.6.3.5.3[5-07]Amp. limits for DI Limit DI3R/W 0~50 A, step: 1 A 50 AA.6.3.5.4[5-08]Amp. limits for DI Limit DI4R/W 0~50 A, step: 1 A 50 AA.6.3.6.1[5-09]kW limits for DI Limit DI1R/W 0~20 kW, step: 0,5 kW 20 kWA.6.3.6.2[5-0A]kW limits for DI Limit DI2R/W 0~20 kW, step: 0,5 kW 20 kWA.6.3.6.3[5-0B]kW limits for DI Limit DI3R/W 0~20 kW, step: 0,5 kW 20 kWA.6.3.6.4[5-0C]kW limits for DI Limit DI4R/W 0~20 kW, step: 0,5 kW 20 kW A.6.3.7[4-01]R/W0: None 1: BSH 2: BUHA.6.4[1-0A]R/W0: No averaging 1: 12 hours 2: 24 hours 3: 48 hours 4: 72 hours A.6.5[2-0B]R/W-5~5°C, step: 0,5°C 0°CType Amp. value kW value PriorityEnable BUH step 2Equilibrium temp.Allowed heatersForced pump OFF ModeTemperature target DurationOperation mode Ext. room sensor offset Space heating OFF tempDisinfectionOperation dayStart timeRoom temp. step Space cooling On tempRoom temp. offset 4P405542-1A - 2017.04(*1) *B*_(*2) *D*A.6.A[7-05]R/W0: Very high 1: High 2: Medium 3: Low 4: Very low A.6.CR/W0: Manual 1: AutomaticA.8[0-00]R/W [9-05]~min(45,[9-06])°C, step: 1°C 35°CA.8[0-01]R/W [9-05]~[9-06]°C, step: 1°C 45°CA.8[0-02]R/W 10~25°C, step: 1°C 15°CA.8[0-03]R/W -40~5°C, step: 1°C -10°CA.8[0-04]R/W [9-07]~[9-08]°C, step: 1°C 8°CA.8[0-05]R/W [9-07]~[9-08]°C, step: 1°C 12°CA.8[0-06]R/W 25~43°C, step: 1°C 35°CA.8[0-07]R/W 10~25°C, step: 1°C 20°CA.8[0-0B]R/W 35~[6-0E]°C, step: 1°C 55°CA.8[0-0C]R/W 45~[6-0E]°C, step: 1°C 60°CA.8[0-0D]R/W 10~25°C, step: 1°C 15°CA.8[0-0E]R/W -40~5°C, step: 1°C -10°CA.8[1-00]R/W -40~5°C, step: 1°C -10°CA.8[1-01]R/W 10~25°C, step: 1°C 15°CA.8[1-02]R/W [9-01]~[9-00], step: 1°C 45°CA.8[1-03]R/W [9-01]~min(45, [9-00])°C , step: 1°C 35°CA.8[1-04]R/W 0: Disabled 1: Enabled A.8[1-05]R/W 0: Disabled 1: EnabledA.8[1-06]R/W 10~25°C, step: 1°C 20°CA.8[1-07]R/W 25~43°C, step: 1°C 35°CA.8[1-08]R/W [9-03]~[9-02]°C, step: 1°C 22°CA.8[1-09]R/W [9-03]~[9-02]°C, step: 1°C 18°CA.8[1-0A]R/W0: No averaging 1: 12 hours 2: 24 hours 3: 48 hours 4: 72 hours A.8[2-00]R/W0: Each day 1: Monday 2: Tuesday 3: Wednesday 4: Thursday 5: Friday 6: Saturday 7: Sunday A.8[2-01]R/W 0: No 1: YesA.8[2-02]R/W 0~23 hour, step: 1 hour 23A.8[2-03]R/W 55~80°C, step: 5°C 70°CA.8[2-04]R/W 5~60 min, step: 5 min 10 minA.8[2-05]R/W 4~16°C, step: 1°C 16°CA.8[2-06]R/W 0: Disabled 1: EnabledA.8[2-09]R/W -5~5°C, step: 0,5°C 0°CA.8[2-0A]R/W -5~5°C, step: 0,5°C 0°CA.8[2-0B]R/W -5~5°C, step: 0,5°C 0°C A.8[3-00]R/W0: No 1: Yes A.8[3-01]0A.8[3-02]1A.8[3-03]4A.8[3-04]2A.8[3-05]1A.8[3-06]R/W 18~30°C, step: A.3.2.430°CA.8[3-07]R/W 12~18°C, step: A.3.2.416°CA.8[3-08]R/W 25~35°C, step: A.3.2.435°CA.8[3-09]R/W 15~25°C, step: A.3.2.415°C A.8[4-00]R/W0~20: Disabled 1: Enabled A.8[4-01]R/W0: None 1: BSH 2: BUHA.8[4-02]R/W14~35°C, step: 1°C 25°CWhat is the maximum desired room temperature in cooling?What is the minimum desired room temperature in cooling?What is the BUH operation mode?Which electric heater has priority?--------What is the maximum desired room temperature in heating?What is the mimimum desired room temperature in heating?Room frost protectionAdjust the offset on the measured room temperature Adjust the offset on the measured room temperature What is the required offset on the measured outdoor temp.?Is auto restart of the unit allowed?--When should the disinfection function be executed?Should the disinfection function be executed?When should the disinfection function start?What is the disinfection target temperature?How long must the tank temperature be maintained?Room antifrost temperature Weather dependent cooling of the additional leaving water temperature zone Low ambient temp. for LWT main zone cooling WD curve.High ambient temp. for LWT main zone cooling WD curve.Leaving water value for low ambient temp. for LWT main zone cooling WD curve.Leaving water value for high ambient temp. for LWT main zone cooling WD curve.What is the averaging time for the outdoor temp?Low ambient temp. for DHW WD curve.Low ambient temp. for LWT main zone heating WD curve.High ambient temp. for LWT main zone heating WD curve.Leaving water value for low ambient temp. for LWT main zone heating WD curve.Leaving water value for high ambient temp. for LWT main zone heating WD curve.Weather dependent cooling of the main leaving water temperature zone.Leaving water value for low ambient temp. for LWT add zone cooling WD curve.High ambient temp. for LWT add zone cooling WD curve.Low ambient temp. for LWT add zone cooling WD curve.Leaving water value for high ambient temp. for DHW WD curve.Leaving water value for low ambient temp. for DHW WD curve.High ambient temp. for DHW WD curve.Leaving water value for high ambient temp. for LWT add zone heating WD curve.Leaving water value for low ambient temp. for LWT add zone heating WD curve.High ambient temp. for LWT add zone heating WD curve.Low ambient temp. for LWT add zone heating WD curve.Leaving water value for high ambient temp. for LWT add zone cooling WD curve.Below which outdoor temperature is heating allowed?(*1) *B*_(*2) *D* 4P405542-1A - 2017.04A.8[4-03]R/W0: Limited 1: No limit2: Most optimum 3: Optimum4: Only legionellaA.8[4-04]R/W0: Continuous pump operation 1: Intermittent pump operation 2: No protection A.8[4-05]0A.8[4-06]0/1A.8[4-07]R/W 0: No 1: YesA.8[4-08]R/W0: No limitation 1: Continuous 2: Digital inputs A.8[4-09]R/W0: Current 1: Power A.8[4-0A]0A.8[4-0B]R/W 1~10°C, step: 0,5°C 1°CA.8[4-0D]R/W 1~10°C, step: 0,5°C 3°C A.8[4-0E]Is the installer on site?R/W 0: No 1: Yes A.8[5-00]R/W 0: Allowed1: Not allowedA.8[5-01]R/W -15~35°C, step: 1°C -4°CA.8[5-02]R/W 0: Disabled 1: EnabledA.8[5-03]R/W -15~35°C, step: 1°C 0°CA.8[5-04]R/W 0~20°C, step: 1°C 10°CA.8[5-05]R/W 0~50 A, step: 1 A 50 AA.8[5-06]R/W 0~50 A, step: 1 A 50 AA.8[5-07]R/W 0~50 A, step: 1 A 50 AA.8[5-08]R/W 0~50 A, step: 1 A 50 AA.8[5-09]R/W 0~20 kW, step: 0,5 kW 20 kWA.8[5-0A]R/W 0~20 kW, step: 0,5 kW 20 kWA.8[5-0B]R/W 0~20 kW, step: 0,5 kW 20 kWA.8[5-0C]R/W 0~20 kW, step: 0,5 kW 20 kW A.8[5-0D]R/W0~51: 1P,(1/1+2)4: 3PN,(1/2)5: 3PN,(1/1+2)A.8[5-0E]1A.8[6-00]R/W 2~20°C, step: 1°C 2°CA.8[6-01]R/W 0~10°C, step: 1°C 2°CA.8[6-02]R/W 0~10kW, step: 0,2kW 3kWA.8[6-03]R/W 0~10kW, step: 0,2kW 3kWA.8[6-04]R/W0~10kW, step: 0,2kW 0kW A.8[6-05]0A.8[6-06]0A.8[6-07]0A.8[6-08]R/W2~20°C, step: 1°C 10°C A.8[6-09]0A.8[6-0A]R/W 30~[6-0E]°C, step: 1°C 55°CA.8[6-0B]R/W 30~min(50, [6-0E])°C, step: 1°C 45°CA.8[6-0C]R/W 30~min(50, [6-0E])°C, step: 1°C 45°CA.8[6-0D]R/W0: Reheat only1: Reheat + sched.2: Scheduled only A.8[6-0E]R/W 40~80°C, step: 1°C 60°CA.8[7-00]R/W 0~4°C, step: 1°C 0°CA.8[7-01]R/W 2~40°C, step: 1°C 2°CA.8[7-02]R/W0: 1 LWT zone 1: 2 LWT zones A.8[7-03]2,5A.8[7-04]0A.8[7-05]R/W0: Very high 1: High 2: Medium 3: Low 4: Very low A.8[8-00] 1 minA.8[8-01]R/W 5~95 min, step: 5 min 30 minA.8[8-02]R/W 0~10 hour, step: 0,5 hour 3 hourA.8[8-03]R/W 20~95 min, step: 5 min 50 minA.8[8-04]R/W 0~95 min, step: 5 min 95 min A.8[8-05]R/W 0: No 1: YesA.8[8-06]R/W0~10°C, step: 1°C 3°CAdditional running time for the maximum running time.Allow modulation of the LWT to control the room temp?Leaving water temperature maximum modulation.--Boiler efficiency--Maximum running time for domestic hot water operation.Anti-recycling time.Booster heater delay timer.What is the desired DHW production type?What is the maximum temperature setpoint?Domestic hot water booster heater overshoot temperature.Domestic hot water booster heater hysteresis.How many leaving water temperature zones are there?----What is the hysteresis to be used in reheat mode?--What is the desired comfort storage temperature?What is the desired eco storage temperature?What is the desired reheat temperature?The temperature difference determining the heat pump OFF temperature.What is the capacity of the booster heater?What is the capacity of the backup heater step 1?What is the capacity of the backup heater step 2?----What is the requested limit for DI2?What is the requested limit for DI3?What is the requested limit for DI4?What type of backup heater installation is used?--The temperature difference determining the heat pump ON temperature.Set point correction for domestic hot water temperature.What is the requested limit for DI1?What is the requested limit for DI2?What is the requested limit for DI3?What is the requested limit for DI4?What is the requested limit for DI1?Automatic cooling/heating changeover hysteresis.Automatic cooling/heating changeover offset.Is backup heater operation allowed above equilibrium temperature during space heating operation?What is the equilibrium temperature for the building?Space heating priority.Space heating priority temperature.---- (Do not change this value)Enable the second step of the backup heater?Which power limitation mode is required on the system?Which power limitation type is required?--Operation permission of the booster heater.How to protect the water pipes from freezing 4P405542-1A - 2017.04(*1) *B*_(*2) *D*A.8[8-07]R/W [9-03]~[9-02], step: 1°C 18°CA.8[8-08]R/W [9-03]~[9-02], step: 1°C 20°CA.8[8-09]R/W [9-01]~[9-00], step: 1°C 45°CA.8[8-0A]R/W[9-01]~[9-00], step: 1°C 40°C A.8[8-0B]13A.8[8-0C]10A.8[8-0D]16A.8[9-00]R/W 37~55°C, step: 1°C 55°CA.8[9-01]R/W 15~37°C, step: 1°C 25°CA.8[9-02]R/W 18~22°C, step: 1°C 22°CA.8[9-03]R/W 5~18°C, step: 1°C 5°CA.8[9-04]R/W 1~4°C, step: 1°C 1°CA.8[9-05]R/W 15~37°C, step: 1°C 25°CA.8[9-06]R/W 37~55°C, step: 1°C 55°CA.8[9-07]R/W 5~18°C, step: 1°C 5°CA.8[9-08]R/W 18~22°C, step: 1°C 22°CA.8[9-09]R/W 3~10°C, step: 1°C 5°CA.8[9-0A]R/W 3~10°C, step: 1°C 5°CA.8[9-0B]R/W 0: Quick 1: SlowA.8[9-0C]R/W 1~6°C, step: 0,5°C 1 °CA.8[9-0D]R/W0~8, step:10 : 100%1~4 : 80~50%5~8 : 80~50%6A.8[9-0E]6A.8[A-00]0A.8[A-01]0A.8[A-02]0A.8[A-03]0A.8[A-04]0A.8[B-00]0A.8[B-01]0A.8[B-02]0A.8[B-03]0A.8[B-04]0A.8[C-00]0A.8[C-01]0A.8[C-02]R/W0: No1: Bivalent 2: -3: -A.8[C-03]R/W -25~25°C, step: 1°C 0°CA.8[C-04]R/W 2~10°C, step: 1°C 3°CA.8[C-05]R/W 1: Thermo ON/OFF 2: C/H request A.8[C-06]R/W0~20: -1: Thermo ON/OFF A.8[C-07]R/W0: LWT control 1: Ext RT control 2: RT control A.8[C-08]R/W0: No1: Outdoor sensor 2: Room sensor A.8[C-09]R/W0: Normally open 1: Normally closed A.8[C-0A]0A.8[C-0C]R/W 0~70A.8[C-0D]R/W 0~70A.8[C-0E]R/W 0~70A.8[D-00]R/W0: None 1: BSH only 2: BUH only 3: All heaters A.8[D-01]R/W0~30: No1: Open tariff 2: Closed tariff A.8[D-02]R/W0: No1: Secondary rtrn 2: Disinf. Shunt 3: Circul. Pump 4: CP & disinf. Sh A.8[D-03]R/W0: Disabled1: Enabled, shift 2°C (from -2 to 2°C)2: Enabled, shift 4°C (from -2 to 2°C)3: Enabled, shift 2°C (from -4 to 4°C)4: Enabled, shift 4°C (from -4 to 4°C)A.8[D-04]R/W 0: No 1: YesA.8[D-05]R/W0: Forced off 1: As normal A.8[D-07]Forced off contact type Is the pump allowed to run if prefer. kWh rate PS is cut?--Low electricity price decimal (Do not use)Which heaters are permitted if prefer. kWh rate PS is cut?Which type of DHW pump is installed?Leaving water temperature compensation around 0°C.Is the option box used for PCC ?What is the unit control method in space operation?Which type of external sensor is installed?What is the required alarm output contact type?--High electricity price decimal (Do not use)Medium electricity price decimal (Do not use)--Is an external backup heat source connected?Bivalent activation temperature.Bivalent hysteresis temperature.What is the thermo request contact type for the main zone?What is the thermo request contact type for the add. zone?------------------------What is the maximum desired LWT for add. zone in cooling?What is the desired delta T in heating?What is the desired delta T in cooling?What emitter type is connected to the main LWT zone?Room temperature hysteresis.Pump speed limitationWhat is the maximum desired LWT for main zone in cooling?What is the mimimum desired LWT for main zone in cooling?Leaving water temperature overshoot temperature.What is the mimimum desired LWT for add. zone in heating?What is the maximum desired LWT for add. zone in heating?What is the mimimum desired LWT for add. zone in cooling?What is the desired eco main LWT in heating?------What is the maximum desired LWT for main zone in heating?What is the mimimum desired LWT for main zone in heating?What is the desired comfort main LWT in cooling?What is the desired eco main LWT in cooling?What is the desired comfort main LWT in heating?(*1) *B*_(*2) *D* 4P405542-1A - 2017.04A.8[D-08]R/W0: No1: 0,1 pulse/kWh 2: 1 pulse/kWh 3: 10 pulse/kWh 4: 100 pulse/kWh 5: 1000 pulse/kWh A.8[D-09]R/W0: No1: 0,1 pulse/kWh 2: 1 pulse/kWh 3: 10 pulse/kWh 4: 100 pulse/kWh 5: 1000 pulse/kWh A.8[D-0A]0A.8[D-0B]2A.8[D-0C]R/W 0~490A.8[D-0D]R/W 0~490A.8[D-0E]R/W 0~490A.8[E-00]R/O 0~52: Monobloc A.8[E-01]R/O 0~10: 8A.8[E-02]R/O 0: Type 1 (*1)1: Type 2 (*2)A.8[E-03]R/W0: No BUH 1: 1 step 2: 2 steps A.8[E-04]R/O 0: No 1: Yes A.8[E-05]R/W0: No 1: Yes A.8[E-06]1A.8[E-07]0A.8[E-08]R/W0: Disabled 1: Enabled A.8[E-09]0A.8[E-0A]0A.8[E-0B]0A.8[E-0C]0A.8[E-0D]Is the system filled with glycol ?R/W 0: No 1: YesA.8[F-00]R/W 0: Disabled 1: EnabledA.8[F-01]R/W10~35°C, step: 1°C 20°C A.8[F-02]3A.8[F-03]5A.8[F-04]0A.8[F-05]0A.8[F-06]0A.8[F-09]R/W0: Disabled 1: Enabled A.8[F-0A]0A.8[F-0B]0A.8[F-0C]1A.8[F-0D]R/W0: Continuous 1: Sample 2: Request--Above which outdoor temperature is cooling allowed?What is the number of backup heater steps?Is the power saving function available on the outdoor unit?Can the system prepare domestic hot water?--------Pump operation during flow abnormality.--------Pump operation allowed outside range.What is the pump operation mode?----------Power saving function for outdoor unit.What is the high electricity price (Do not use)What is the medium electricity price (Do not use)What is the low electricity price (Do not use)Which type of unit is installed?Which type of compressor is installed?What is the indoor unit software type?Is an external kWh meter used for power measurement?Is an external kWh meter used for power measurement?---- 4P405542-1A - 2017.04(*1) *B*_(*2) *D*。

无线温湿度智能监测系统软件使用说明书(V1.1)目录1系统概述 (1)1.1系统组成 (1)1.2节点概述 (1)2 软件运行环境 (2)2.1 软件环境 (2)2.2 硬件环境 (2)3 系统软件使用和操作 (3)3.1 安装QF03-A103总控端驱动驱动 (3)3.2 安装监测软件 (5)3.4卸载监测软件 (6)3.3 运行监测软件 (6)4注意事项 (10)5保管存放 (11)1系统概述1.1系统组成无线温湿度智能监测系统采用低功耗设计，具有体积小、节能、安全、安装简单、工作稳定等优点，是一个低成本、高性能、可常年不间断运行的无线传感网络系统，维护简单，使用方便。

无线温湿度采集终端能够任意安装在所需监测的地方，适合应用于需监测的军事区域、仓库、血液中心血库、厂房、机房、孵房、温室等对环境温湿度要求高的场合。

无线温湿度智能监测系统由若干无线温湿度采集终端、无线路由节点、一个总控端和监测中心监测管理软件组成。

系统总体结构如图1所示。

图1 无线温湿度智能监测系统拓扑结构1.2节点概述(1) 无线温湿度采集终端采集终端是两节1.5V普通干电池供电的低功耗的传感器节点，置于所测环境中进行温湿度数据的采集和预处理，并将数据上传给路由节点或总控端，呈星形拓扑结构排列，安装实施相对简单，可以节省费用，控制成本，具有很大的环境适应性。

用电池供电，能够工作一年以上。

任何采集终端在网络覆盖范围内可以自动加入或退出网络，且无需设置自动入网。

安装使用：安装方式，根据现场实际可以采用摆放、螺丝固定等方式。

采集终端要布置在无线路由或者总控端周围通信距离可视范围之内，采集终端周围应避免有大面积金属遮挡物。

在监测特别重要和密集的区域可以多放置几个采集终端。

(2) 路由节点路由节点负责整个网络的数据中继、覆盖延伸功能。

路由节点之间呈Mesh网状网络拓扑结构，其路由可自动建立和维护，具有强大的功能；网络可以通过“多级跳”的方式通信；组成极为复杂的网络；具备自组织、自愈功能。

温度数据记录器操作简单范本一：正式风格1. 介绍本文档旨在向详细介绍温度数据记录器的操作方法。

请您仔细阅读本文档，并按照指示正确操作温度数据记录器。

2. 主要特点温度数据记录器具有以下主要特点：- 精准记录温度数据；- 操作简单，一键启动；- 数据实时至云端；- 支持远程监控和控制。

3. 准备工作在开始操作温度数据记录器之前，请确保已完成以下准备工作：- 准备一台已经连接好电源的电脑；- 确保温度数据记录器已经安装好电池并连接至电脑。

4. 启动操作按照以下步骤正确启动温度数据记录器：1. 将温度数据记录器插入要监测的物体或环境中；2. 按下记录器上的启动按钮，等待指示灯亮起，表示启动成功。

5. 数据传输温度数据记录器支持多种数据传输方式，包括：- USB数据线传输：将数据记录器与电脑通过USB数据线连接，可以直接将数据至电脑；- Wi-Fi传输：通过Wi-Fi网络连接，可实现远程监控和数据传输。

6. 数据分析通过专门的数据分析软件，可以对温度数据进行分析和展示。

具体操作步骤如下：1. 打开数据分析软件，并将数据导入；2. 选择要分析的数据类型和时间范围；3. 进行数据分析并报告。

7. 额外功能温度数据记录器还具有以下额外功能：- 温度警报设置：可以根据需要设定温度警报上下限，并在超过范围时自动发送警报信息；- 数据存储：温度数据记录器具有大容量存储功能，可以根据需要选择不同的存储模式；- 数据分享：可以将数据分享给其他相关人员或部门。

8. 结束操作在使用温度数据记录器结束之前，请按照以下步骤正确结束操作：1. 停止数据记录，并按下停止按钮；2. 将温度数据记录器从监测物体或环境中取出。

附件：本文档不涉及附件。

法律名词及注释：- 温度数据记录器：一种用于记录温度数据的设备，广泛应用于各个行业，如医疗、食品、仓储等。

---范本二：简洁风格1. 操作简单温度数据记录器操作非常简单，只需按照以下步骤进行即可：1. 将温度数据记录器插入要监测的物体或环境中；2. 按下记录器上的启动按钮，等待指示灯亮起，表示启动成功。