小超人SM102-3微电脑温度控制器说明书

温控仪使用说明范文一、温控仪概述温控仪是一种用于控制温度的智能设备，能够实时监测温度，并通过控制其他设备来达到设定的温度值。

温控仪广泛应用于家庭、办公室、工厂等场所，可用于控制空调、取暖设备、温水器等。

二、温控仪的外观和结构温控仪外观通常为方形或圆形，大小约为手掌大小。

表面通常有一个液晶显示屏，用于显示当前温度和设定温度。

温控仪底部有一个插槽，可以插入电源适配器。

另外，温控仪上还有几个键，用于设置温度和其他参数。

三、温控仪的基本功能1.温度监测：温控仪内置温度传感器，可实时检测当前温度，并将其显示在液晶屏上。

2.温度控制：温控仪可以通过控制其他设备来调节房间温度。

用户可以通过设置温度来达到舒适的温度。

3.定时功能：温控仪也具备定时功能，用户可以设置开机和关机的时间，避免长时间浪费电能。

4.温度预警：当环境温度低于或高于设定的温度范围时，温控仪会发出声音或报警光，提醒用户调整温度。

5.节能功能：温控仪可以根据用户的使用习惯和室内外温度情况自动调整工作模式，以达到节能的目的。

四、温控仪的使用步骤1.将温控仪插入电源适配器，然后将电源适配器插入电源插座。

2.按下电源键，温控仪会自检并显示当前温度。

3.使用上下键或旋转键来设置目标温度，然后按下确认键确认设置。

4.温控仪会显示当前温度和目标温度，并自动控制其他设备来达到设定温度。

5.如果需要设置定时功能，可以按下设置定时键，然后按照屏幕提示进行操作。

6.当环境温度超出设定温度范围时，温控仪会自动发出声音或报警光，提醒用户调整温度。

7.当需要关闭温控仪时，长按电源键，温控仪将停止工作并关机。

五、常见问题解答1.温控仪为什么显示的温度和实际温度不一致？答：温控仪通常采用内部测温方法，所以会受到周围环境的影响。

建议将温控仪放置在离地面1.5米左右的位置，尽量避免阳光直射或近距离热源。

2.温控仪为什么不能控制其他设备？答：请检查温控仪和其他设备之间的连接是否正确，并确保其他设备已经接通电源。

温湿度控制器一、产品概述温湿度控制器，主要应用于需要对被测环境进行自动温湿度调节的场合，用户可通过按键分别调整温湿度的上、下限值来控制加热或排风实现自动控制，显示方式为数码管显示。

二、基本功能：2.1 温度测量范围：-25℃～+80℃±1℃；2.2 湿度测量范围：相对湿度RH: 0%～99% 精度±3%RH；2.3 控制方式：温度采用上、下限和回差控制，湿度采用上、下限控制，所有参数均可设置；2.4 输出控制类型：两组继电器触点，分别为加热和排风，每路最大负载AC250V /3A，均为有源输出。

三、技术指标：3.1电源：AC 220V±20%3.2 工作环境：温度:-25℃～+55℃，相对湿度：<95%RH3.3控制设定范围：温度：0℃～80℃，相对湿度：50%RH～99%RH3.4 本机功耗：<3W3.5自检功能：若数码管显示“–––”，则为检测到传感器故障；若加热或排风运行过程中相应指示灯熄灭，则检测到加热或排风故障。

四、工作原理：4.1 温度控制：当被测环境温度低于设定温度下限时，本仪器启动电加热设备开始加温，此时加热指示灯亮，温度升至比下限温度设定值高回差值时，即：W测≥W下限+回差，停止加温。

当被测环境温度高于设定温度上限时，本仪器启动降温设备（如风机或空调）开始降温，此时排风指示灯亮，温度降至比上限温度设定值低回差值时，即：W测≤W上限－回差，停止降温。

4.2 湿度控制：当被测环境湿度超过设定湿度上限时。

如果当前温度较高，即：W测≥W下限＋(W上限－W下限)×3÷4，采用降温（或排风，视具体地区采用不同设备）抽湿，此时排风指示灯亮；抽湿过程中，如果温度低于下限温度+2度后，自动转为加热降湿；当降湿过程中温度高于上限温度-2度后，自动转为降温抽湿，直至湿度低于设定下限值为止。

当被测环境湿度超过设定湿度上限时。

如果当前温度较低，即：W测＜W下限＋(W上限－W下限)×3÷4，采用加热降湿，此时加热指示灯亮，降湿过程中，如果温度高于上限温度-2度后，自动转为降温抽湿；当温度低于下限温度+2度后，自动转为加热降湿，直至湿度低于设定下限值为止。

说明书设计题目温控器设计姓名：张龙学号：2011071128专业：机械工程及自动化目录摘要 (3)1 设计内容与设计要求 (4)2、方案选择 (4)2.1 单片机的选择方案 (4)2.2显示器的选择方案 (4)2.3 模数转换芯片的选择 (5)3、元器件介绍 (5)3.1 AT89C51 (5)3.2 LCD1602液晶屏 (6)3.3 ADC0804 (8)3.4 NPN型三极管 (9)4.系统硬件设计 (10)4.1时钟电路 (11)4.2 复位电路 (12)4．3 ADC转换电路 (14)4.4 LCD1602液晶显示器 (14)4.5 独立按键控制电路 (15)4.6 继电器控制电路 (15)5.软件设计 (16)总结 (17)摘要温控器（Thermostat），根据工作环境的温度变化，在开关内部发生物理形变，从而产生某些特殊效应，产生导通或者断开动作的一系列自动控制元件，也叫温控开关、温度保护器、温度控制器，简称温控器。

或是通过温度保护器将温度传到温度控制器，温度控制器发出开关命令，从而控制设备的运行以达到理想的温度及节能效果，其应用范围非常广泛，根据不同种类的温控器应用在家电、电机、制冷或制热等众多产品中。

其工作原理是通过温度传感器对环境温度自动进行采样、即时监控，当环境温度高于控制设定上限值时控制电路启动，温度下降。

当环境温度低于控制设定下限值时，控制电路不工作，温度上升。

主要应用于电力部门使用的各种高低压开关柜、干式变压器、箱式变电站及其他相关的温度使用领域。

关键词：温控器温度采样上限值下限值1 设计内容与设计要求基本内容：设计一个简易温控器基本要求：①可以设定上限温度和下限温度，温度高于上限温度上，主电路不工作，温度降低，温度低于下限控制电路时，主电路继续工作，温度升高。

③设定温度时，液晶屏上显示设定状态，设定完显示正常模式，并且设定的上下限温度，在液晶屏上都有显示。

⑤采集温度信号，转换成数字信号。

时代小超人温控器SM202-3CH 说明书
1、温度设定方法：上键和下键按2下，在画面闪动的时候，按A键，就可设定希望的温度。

2、偏差温度设定（设定温度与启动温度，温差设定）上键与下键同时按3秒会显示“dF”字母，按A键可以调节温差。

3、温度矫正方法先按B键，再按电源，3秒后会显示“Cor继续”的字样，然后再按3秒会校正为℃（出厂设定为℃，设定范围为正负10℃）
4、特殊功能调节先按下键，按往不动，再按电源，会显示“ty2“继续按3秒，可设定所有的功能，每按一次电源，会显示各种菜单。

“ty2”为温感线感应温度。

5、时段供电温度调节方式按上键,会显示“stp“继续按3秒，会显示1至5时段显示，出厂1档，设定范围0至5挡。

天智星-302型温控器供给与操作说明导读：天智星-302型温控器，适用于采用冷风机作为蒸发器的冷库，数字显示温度，自动控制起停机、化霜、滴水时间等参数。

天智星-302温控器，具体操作简介如下：温控器的主要功能为：1、设置压缩机工作温度围，即上限和下限；2、设置化霜电加热的时间；3、设置化霜周期；4、设置化霜终止温度；5、设置化霜后滴水时间。

设置过程详解：一、开场设置时，按住设定键三秒钟，即左上方第一个圆点亮时，表示可以进展开机温度值设定，此值为压缩机开机温度值。

二、接着按设定键一下，第二个圆点亮时，表示可以设定停机温度值，此值为压缩机的停机温度值，…天智星-302型温控器，适用于采用冷风机作为蒸发器的冷库，数字显示温度，自动控制起停机、化霜、滴水时间等参数。

〖德基广场麻辣诱惑冻库冷冻库天智星-302微电脑温度控制器〗天智星-302温控器，具体操作简介如下：温控器的主要功能为：1、设置压缩机工作温度围，即上限和下限；2、设置化霜电加热的时间；3、设置化霜周期；4、设置化霜终止温度；5、设置化霜后滴水时间。

设置过程详解：一、开场设置时，按住设定键三秒钟，即左上方第一个圆点亮时，表示可以进展开机温度值设定，此值为压缩机开机温度值。

二、接着按设定键一下，第二个圆点亮时，表示可以设定停机温度值，此值为压缩机的停机温度值，温度值设定按上下键进展调整。

三、依次按下设定键进入下一个菜单项的设置，当显示屏显示字母P时，为化霜时间设定，1--60分钟围可调，一般设置在15分钟左右，可根据经历及风机结霜的实际情况来设定。

四、当显示屏显示字母H时，为化霜周期设置，该款温控器的化霜周期计算方式为压缩机工作累计时间，在0--12小时围可调，一般设定6小时，化霜一次，也可根据风机除霜情况调整。

当设置时间为00时，表示停顿自动化霜。

五、当显示屏显示字母C时，为化霜终止温度，当风机蒸发器铜管翅片周边的温度超过该设定值时，停顿电加热除霜，以防止加热器出现故障和作为一种平安防护措施。

多功能温控器使用说明
1.接通电源显示当前温度。

2.设置控制温度
a．按下设置按键，延迟3至5秒钟，待前面第一位显示闪烁0字样，然后放开设置按键。

b．在闪烁状态，按下设置键1次，十位数进入闪烁状态；按下设置键2次，个位数进入闪烁状态。

c．在当前数字闪烁位，按动设置键，设置需要设置的温度。

d．设置完需要设置的温度后，按动启动键，进入设置有效状态。

3.工作指示灯，指示当前加热状态，亮时在加热，不亮时加热已经
关闭。

4.本加热装置，具有双温度保护功能，在温度高于20℃是第二保护
功能自动生效。

小超人S M微电脑温度控制器说明书TPMK standardization office【 TPMK5AB- TPMK08- TPMK2C- TPMK18】小超人ＳＭ102-3微电脑温度控制器说明书主要功能：温度显示，温度控制－48℃～＋48℃，自动定时化霜，手动化霜，关闭化霜，化霜后滴水延时，压缩机开机延时保护，风机延时，温度修正，温度探头异常告警显示。

操作规程：必须按“选择”键不放5秒钟，才能设定（修改）“F1”~“F9”之间参数。

温差：设定温度下限与温度上限之间的差值；如：下限温度-15℃+温差温度+5℃“F2” -15℃=-10℃[下限温度（压缩机停止温度）-15℃，上限温度-10℃（压缩机启动温度）]。

“F1”~“F9”之间参数设置完毕后，须按“选择”键回到显示测温状态或自动复位（12秒钟）保存。

中止延时：刚通电时必须按“加”键5秒钟不放，快速进入制冷状态。

化霜说明：①手动化霜：必须按“手化”键才能启动化霜功能，按原设定化霜时间和化霜温度来结束化霜，之后控制器按原定设定的化霜间隔、时间、温度，自动循环工作。

②关闭化霜：化霜间隔“F3”设定为00，表示关闭自动化霜功能，如果需要化霜，必须按“手化”键5秒钟不放才能化霜；按原定设定的化霜间隔、时间、温度来结束化霜。

③停止化霜：必须按“减”键5秒钟不放，能快速停止化霜。

延时说明：刚上电延时2~3分钟启动压缩机。

化霜后压缩机保护3~10分钟可调故障显示：显示“FFF”先查看温度传感器线是否接好或损坏，再换温度传感器。

显示“HHH”先查看化霜传感器线是否接好或损坏，再换化霜传感器。

菜单名称设定操作及技术指标出厂设定F1 温度下限设定必须按“选择”5秒钟不放，前2位显示“F1” -15℃温度设定范围±50℃，温度控制范围±50℃（任意设定）F2 温差设定按“选择”，前2位显示“F2”（1~20℃任意设定） +5℃F3 除霜间隔按“选择”，前2位显示“F3”（0~70小时任意设定） 6小时F4 除霜时间按“选择”，前2位显示“F4”（10~60分钟任意设定） 30分钟F5 停除霜温度按“选择”，前2位显示“F5”（5~25℃任意设定） 15℃F6 上电延时按“选择”，前2位显示“F6”（10~180秒任意设定） 30秒F7 压缩机与风机延时按“选择”，前2位显示“F7”（1~10分钟任意设定） 1分钟F8 化霜后滴水延时按“选择”，前2位显示“F8”（3~10分钟任意设定） 5分钟F9 制冷温度修正按“选择”，前2位显示“F9”（-5~+25℃任意设定） 00输出触点容量：2A／240VAC（纯阻性负载）安装形式：嵌入式开孔尺寸：（长×高）113mm×45mm。

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*。