FM420104质量记录一览表

部分参数：1、复位为工厂的缺省设置值为了把所有的参数都复位为工厂的缺省设置值，应按下列数据对参数进行设置：设定P0010=30。

设定P0970=1。

说明：大约需要10 秒钟才能完成复位的全部过程，将变频器的参数复位为工厂的缺省设置值。

P0003 用户访问级可能的设定值：1 标准级：可以访问最经常使用的一些参数。

2 扩展级：允许扩展访问参数的范围，例如变频器的I/O功能。

3 专家级：只供专家使用。

4 维修级：只供授权的维修人员使用-具有密码保护。

P0004 参数过滤器可能的设定值：0 全部参数2 变频器参数3 电动机参数7 命令，二进制I/O8 ADC（模- 数转换）和DAC（数- 模转换）10 设定值通道/ RFG（斜坡函数发生器）12 驱动装置的特征13 电动机的控制20 通讯21 报警/ 警告/ 监控22 工艺参量控制器（例如PID）P0010 调试参数过滤器可能的设定值：0 准备1 快速调试30 工厂的缺省设定值P0100 使用地区：欧洲/ 北美可能的设定值：0 欧洲－[kW]，频率缺省值50 Hz1 北美－[hp]，频率缺省值60 Hz2 北美－[kW]，频率缺省值60 Hz P0300 选择电动机的类型可能的设定值：1 异步电动机2 同步电动机P0304 电动机的额定电压P0305 电动机额定电流P0307 电动机额定功率P0308 电动机的额定功率因数P0309 电动机的额定效率P0310 电动机的额定频率P0311 电动机的额定速度P0335 电动机的冷却可能的设定值：0 自冷：采用安装在电动机轴上的风机进行冷却1 强制冷却：采用单独供电的冷却风机进行冷却P0700 选择命令源可能的设定值：0 工厂的缺省设置1 BOP（键盘）设置2 由端子排输入4 通过BOP 链路的USS 设置5 通过链路的USS 设置6 通过链路的通讯板（CB）设置P0701 数字输入1 的功能可能的设定值：0 禁止数字输入1 ON/OFF1（接通正转/ 停车命令1）2 ON reverse /OFF1（接通反转/ 停车命令1）3 OFF2（停车命令2）- 按惯性自由停车4 OFF3（停车命令3）- 按斜坡函数曲线快速降速停车9 故障确认10 正向点动11 反向点动12 反转13 MOP（电动电位计）升速（增加频率）14 MOP 降速（减少频率）15 固定频率设定值（直接选择）16 固定频率设定值（直接选择+ ON命令）17 固定频率设定值（二进制编码的十进制数（BCD 码）选择+ ON 命令）21 机旁/远程控制25 直流注入制动29 由外部信号触发跳闸33 禁止附加频率设定值99 使能BICO 参数化P0702 数字输入2 的功能（设定值与P0701相同）P0703 数字输入3 的功能（设定值与P0701相同）P0704 数字输入4 的功能（设定值与P0701相同）P0756 ADC 的类型可能的设定值：0 单极性电压输入（0 至+10 V）1 带监控的单极性电压输入（0 至+10 V）P0970 工厂复位可能的设定值：0 禁止复位1 参数复位P1000 频率设定值的选择可能的设定值：0 无主设定值1 MOP 设定值2 模拟设定值3 固定频率4 通过BOP 链路的USS 设定5 通过链路的USS 设定6 通过链路的CB 设定10 无主设定值+ MOP设定值11 MOP 设定值+ MOP设定值12 模拟设定值+ MOP设定值13 固定频率+ MOP设定值14 通过BOP 链路的USS 设定+ MOP设定值15 通过链路的USS 设定+ MOP设定值16 通过链路的CB 设定+ MOP设定值20 无主设定值+ 模拟设定值21 MOP 设定值+ 模拟设定值22 模拟设定值+ 模拟设定值23 固定频率+ 模拟设定值24 通过BOP 链路的USS 设定+ 模拟设定值25 通过链路的USS 设定+ 模拟设定值26 通过链路的CB 设定+ 模拟设定值30 无主设定值+ 固定频率31 MOP 设定值+ 固定频率32 模拟设定值+ 固定频率33 固定频率+ 固定频率34 通过BOP 链路的USS 设定+ 固定频率35 通过链路的USS 设定+ 固定频率36 通过链路的CB 设定+ 固定频率40 无主设定值+ BOP链路的USS设定值41 MOP 设定值+ BOP链路的USS 设定值42 模拟设定值+ BOP链路的USS 设定值43 固定频率+ BOP链路的USS 设定值44 通过BOP 链路的USS 设定+ BOP链路的USS 设定值45 通过链路的USS 设定+ BOP链路的USS 设定值46 通过链路的CB 设定+ BOP链路的USS 设定值50 无主设定值+ 链路的USS 设定值51 MOP 设定值+ 链路的USS 设定值52 模拟设定值+ 链路的USS 设定值53 固定频率+ 链路的USS 设定值54 通过BOP 链路的USS 设定+ 链路的USS 设定值55 通过链路的USS 设定+ 链路的USS 设定值60 无主设定值+ 链路的CB 设定值61 MOP 设定值+ 链路的CB 设定值62 模拟设定值+ 链路的CB 设定值63 固定频率+ 链路的CB 设定值64 通过BOP 链路的USS 设定+ 链路的CB 设定值66 通过链路的CB 设定+ 链路的CB 设定值P1001 固定频率1定义固定频率1 的设定值。

默纳克电梯功能参数表功能码名称设定范围缺省值单位操作F0 组基本参数F0-00 控制方式0：开环矢量1：闭环矢量2：V/F 方式1 －★F0—01 命令源选择0：操作面板控制1:距离控制1 －★F0-02 面板运行速度0.050 ～F0-04 0。

050 m/s ☆F0—03 运行速度0.250 ～F0—04 1。

600 m/s ★F0-04 额定速度0。

250 ～4。

000 1。

600 m/s ★F0—05 额定载重300 ～9999 1000 kg★F0—06 最大频率20.00 ～99。

00 50.00 Hz ★F0-07 载波频率0。

5 ～16.0 6.0 kHz ★F1 组电机参数F1—00 编码器类型选择0：SIN/COS、绝对值型编码器1:UVW 型编码器2：ABZ 型编码器0 －★F1—01 额定功率0。

7 ～75。

0 机型确定kW ★F1-02 额定电压0 ~600 机型确定V ★F1—03 额定电流0。

00 ~655.00 机型确定A ★F1-04 额定频率0。

00 ～99。

00 机型确定Hz ★F1-05 额定转速0 ～3000 机型确定rpm ★F1-06 同步机初始角度0．0 ～359。

9 0 度★F1-07 同步机断电角度0．0 ～359.9 0 度★F1—08 同步机接线方式0 ～15 0 －★F1—09 同步机电流滤波系数0 ～3 0 －★F1-10 编码器校验选择0 ～65535 0 －★F1—11带载、空载调谐、井道自学习0:无操作1：带负载调谐2:无负载调谐3：井道自学习0 －★F1-12 编码器脉冲数0 ～10000 2048 PPR ★F1-13 断线检测时间0 ~10。

0 1.0 s ★F1—14 异步机定子电阻0.000 ~30.000 机型确定Ω★F1-15 异步机转子电阻0.000 ～30.000 机型确定Ω★F1—16 异步机漏感抗0.00 ~300。

序号表单名称表单编号版次保留限期备注1、文件目录FM420101长久2、文件散发记录FM420102长久3、文件改正申请单FM420103长久4、质量记录一览表FM420104长久5、岗位描绘书FM420105长久6、内部联系单FM553001 2 年7、会议通知单FM553003 2 年8、管理评审输入表FM560101 2 年9、会议记录FM560102 2 年10、年度培训计划表FM620101 2 年11、签到表FM620102 2 年12、职工培训简历表FM620103辞职后1 年13、招聘申请表FM620104 2 年14、面试记录表FM620105辞职后1 年15、职工登记表FM620106辞职后1 年16、新进人员试用查核表FM620107辞职后1 年17、特别人员资格查核登记表FM620108 2 年18、设施一览表FM630101 2 年19、设施简历表FM630102报废后1 年20、设施平时养护记录表FM630103 1 年21、设施维修单FM630104 2 年22、设施报废申请单FM630105 2 年23、质量计划FM710101 1 年24、订单 / 合同汇总表FM720201 2 年25、订单 / 合同评审记录表FM720202 2 年26、工矿产品购销合同FM720203 2 年27、合同改正通知单FM720204 2 年28、顾客财富登记表FM720205 2 年29、发货单（代合同）FM720206 2 年30、供给商检查评审表FM740101 1 年31、合格供给商名册FM740102长久32、采买订单FM740104长久33、供给商交货质量记录FM740105 2 年序号表单名称表单编号版次保留限期备注34、外加工出库记录单FM740106 2 年35、月份生产计划表FM750101 2 年36、月份物料需求计划表FM750102 2 年37、月份外包加工计划表FM750103 1 年38、派工单FM750104 1 年39、生产日报表FM750105 1 年40、生产进度表FM750106 1 年41、生产改正通知单FM750107 1 年42、生产交接记录FM750201 1 年43、工艺流程卡FM750202 1 年44、进料报验单FM755001 1 年45、库存物质日报表FM755002 1 年46、原辅资料生产投料清单FM755003 1 年47、检测仪器一览表FM760101 1 年48、检测设施校验计划表FM760102 1 年49、检测设施校验报告FM760103 2 年50、顾客满意度检查表FM820101 2 年51、满意度检查汇总报告FM820102 2 年52、内部质量审查年度计划FM820201 3 年53、内部质量审查安排表FM820202 3 年54、内部质量审查检查表FM820203 3 年55、内部质量审查不切合项报告FM820204 2 年56、进料查验记录表FM824001 2 年57、制程查验日报表FM824002 2 年58、成品查验报告FM824003 2 年59、不合格记录单FM830101 2 年60、不合格评审报告FM830102 2 年61、异样 / 纠正预防举措报告FM850101 2 年编写审查同意。

我们的品质要求：不接受不良品，不制造不良品，不流出不良品。

品味人生1、不管鸟的翅膀多么完美，如果不凭借空气，鸟就永远飞不到高空。

想象力是翅膀，客观实际是空气，只有两方面紧密结合，才能取得显着成绩。

2、想停下来深情地沉湎一番，怎奈行驶的船却没有铁锚;想回过头去重温旧梦，怎奈身后早已没有了归途。

因为时间的钟摆一刻也不曾停顿过，所以生命便赋予我们将在汹涌的大潮之中不停地颠簸。

3、真正痛苦的人，却在笑脸的背后，流着别人无法知道的眼泪，生活中我们笑得比谁都开心，可是当所有的人潮散去的时候，我们比谁都落寂。

4、温暖是飘飘洒洒的春雨;温暖是写在脸上的笑影;温暖是义无反顾的响应;温暖是一丝不苟的配合。

5、幸福，是一种人生的感悟，一种个人的体验。

也许，幸福是你风尘仆仆走进家门时亲切的笑脸;也许，幸福是你卧病床上百无聊赖时温馨的问候;也许，幸福是你屡遭挫折心灰意冷时劝慰的话语;也许，幸福是你历经艰辛获得成功时赞赏的掌声。

关键的是，你要有一副热爱生活的心肠，要有一个积极奋进的目标，要有一种矢志不渝的追求。

这样，你才能感受到幸福。

6、母爱是迷惘时苦口婆心的规劝;母爱是远行时一声殷切的叮咛;母爱是孤苦无助时慈祥的微笑。

7、淡淡素笺，浓浓墨韵，典雅的文字，浸染尘世情怀;悠悠岁月，袅袅茶香，别致的杯盏，盛满诗样芳华;云淡风轻，捧茗品文，灵动的音符，吟唱温馨暖语;春花秋月，红尘阡陌，放飞的思绪，漫过四季如歌。

读一段美文，品一盏香茗，听一曲琴音，拾一抹心情。

8、尘缘飞花，人去楼空，梦里花落为谁痛?顾眸流盼，几许痴缠。

把自己揉入了轮回里，忆起，在曾相逢的梦里;别离，在泪眼迷朦的花落间;心碎，在指尖的苍白中;淡落，在亘古的残梦中。

在夜莺凄凉的叹息里，让片片细腻的柔情，哽咽失语在暗夜的诗句里。

9、用不朽的“人”字支撑起来的美好风景，既有“虽体解吾犹未变兮”的执着吟哦，也有“我辈岂是蓬蒿人”的跌宕胸怀;既有“我以我血荐轩辕”的崇高追求，也有“敢教日月换新天”的豪放气魄。

Parameters MICROMASTER 420This Parameter List must only be used together with the Operating Instructions or theReference Manual of the MICROMASTER 420. Especially pay attention to all thewarnings and Notices and Notes contaned in that manual.Table of Contents1Introduction to MICROMASTER System Parameters (2)2Parameter overview in functional groups (4)3Parameter Description (11)6SE6400-5BA00-0BP0Introduction to MICROMASTER System ParametersParameters MICROMASTER 42026SE6400-5BA00-0BP01Introduction to MICROMASTER System ParametersThe layout of the parameter description is as follows.1 Par number2 Parameter name9 Min:3 CStat : 5 Datatype 7 Unit:10 Def:4 P-Group:6 active:8 Quick Comm:11 Max:13Description:1. Parameter numberIndicates the relevant parameter number. The numbers used are 4-digit numbers in the range 0000 to 9999. Numbers prefixed with an “r” indicate that theparameter is a “read-only” parameter, which displays a particular value but cannot be changed directly by specifying a different value via this parameter number (in such cases, dashes “-“ are entered at the points “Unit”, “Min”, “Def” and “Max” in the header of the parameter description.All other parameters are prefixed with a “P”. The values of these parameters can be changed directly in the range indicated by the “Min” and “Max” settings in the header and “Possible settings” section (see item 10 below).2. Parameter nameIndicates the name of the relevant parameterCertain parameter names include the following abbreviated prefixes: BI, BO, CI,and CO followed by a colon.These abbreviations have the following meanings:BI =Binector input, i.e. parameter selects the source of a binarysignalBO =Binector output, i.e. parameter connects as a binary signal CI =Connector input, i.e. parameter selects the source of an analogsignalCO =Connector output, i.e. parameter connects as an analog signal CO/BO =Connector/Binector output, i.e. parameter connects as ananalog signal and/or as a binary signal NoteA separate description on how to interpret and use the BICO technology is given in the MICROMASTER MM420 Reference Manual.3. CStatCommissioning status of the parameter. Three states are possible CommissioningCReady to run U “Run TThis indicates when the parameter can be changed. One, two or all three states may be specified. If all three states are specified, this means that it is possible to change this parameter setting in all three inverter states 4. P-GroupIndicates the functional group of the particular parameter (see Section entitled “Functional grouping of parameters” in this “Introduction to MICROMASTER System Parameters”).Section A.7 below provides a table showing the parameters arranged according to their functional grouping.NoteParameter P0004 (parameter filter) acts as a filter and focuses access to parameters according to the functional group selected.5. DatatypeThe data types available are shown in the table below. The notation used in the12 Level:2Introduction to MICROMASTER System ParametersParameters MICROMASTER 4206SE6400-5BA00-0BP03MICROMASTER MM4 Inverter Series is listed in Column 1, while thecorresponding notation applicable to the MASTERDRIVES Series is listed in Column 2. Column 3provides the meaning, which is identical in each case.NotationMeaningU1616-bit unsigned U3232-bit unsigned I1616-bit integer I3232-bit integer FloatFloating point6. ActiveIndicates whether ♦ Immediately changes to the parameter values take effective immediatelyafter they have been entered, or ♦ Cornfirm the “P” button on the operator panel (BOP or AOP) must bepressed before the changes take effect.7. UnitIndicates the unit of measure applicable to the settable values 8. QuickCommIndicates whether or not (Yes or No) a parameter can only be changed during quick commissioning, i.e. when P0010 (parameter groups for commissioning) is set to 1 (quick commissioning).9. MinIndicates the minimum value to which the parameter can be set.10. DefIndicates the default value, i.e. the value which applies if the user does not specify a particular value for the parameter.11. MaxIndicates the maximum value to which the parameter can be set.12. LevelIndicates the level of user access. There are four access levels: Standard,Extended, Expert and Service. The number of parameters that appear in each functional group depends on the access level set in P0003 (user access level).13. DescriptionThe parameter description ma yconsist of the following sections and contents:Description :Brief explanation of the parameter function.Diagram:Where applicable, diagram to illustrate the effects of parameters on a characteristic curve, for example Possible settingsListing of possible settingsCommon settings:Listing of most common settings, if the complete listing would contain toomuchitems Example :Optional example of the effects of a particular parameter setting.Dependency :Any conditions that must be satisfied in connection with this parameter. Also any particular effects, which this parameter has on other parameter(s) or .Warning / Caution / Notice / NoteImportant information which must be heeded to prevent personal injury or damage to equipment/specific information which should be heed in order to avoid problems or may helpful to the userMore details:Any sources of more detailed information concerning the particular parameter.Parameter overview in functional groups2 Parameter overview in functional groupsThe tables below provide an overview of the parameters available for theMICROMASTER 420 arranged according to functional groups.Quick commissioning (P0010=1)No Name Access level CstatP0100Europe / North America1CP0300Select motor type2CP0304Motor voltage rating1CP0305Motor current rating1CP0307Motor power rating1CP0308Motor cosPhi rating2CP0309Motor efficiency rating2CP0310Motor frequency rating1CP0311Motor speed rating1CP0320Motor magnetizing current3CTP0335Motor cooling2CTP0640Motor overload factor [%]2CUTP0700Selection of command source1CTP1000Selection of frequency setpoint1CTP1080Min. speed1CUTP1082Max. speed1CTP1120Ramp-up time1CUTP1121Ramp-down time1CUTP1135OFF3 ramp-down time2CUTP1300Control mode2CTP1910Select motor data identification2CTP3900End of quick commissioning1CWhen P0010=1 is chosen, P0003 (user access level) can be used to select theparameters to be accessed. This parameter also allows selection of a user-definedparameter list for quick commissioning.At the end of the quick commissioning sequence, set P3900 = 1 to carry out thenecessary motor calculations and clear all other parameters (not included in P0010=1)to their default settings.NoteThis applies only in Quick Commissioning mode.Reset to Factory defaultTo reset all parameters to the factory default settings; the following parameters shouldbe set as follows:Set P0010=30.Set P0970=1.NoteThe reset process takes approximately 10 seconds to complete. Reset to FactorydefaultParameters MICROMASTER 420 46SE6400-5BA00-0BP0Parameter overview in functional groupsParameters MICROMASTER 4206SE6400-5BA00-0BP05Functional groupsNoNameAccess levelC-StatADC and DACr0750Number of ADCs3-r0752Act. input of ADC [V] or 2-P0753Smooth time ADC3CUT r0754Act. ADC value after scaling [%]2-r0755CO: Act. ADC after scal. [4000h]2-P0756Type of ADC2CT P0757Value x1 of ADC-scaling 2CUT P0758Value y1 of ADC-scaling 2CUT P0759Value x2 of ADC-scaling 2CUT P0760Value y2 of ADC-scaling 2CUT P0761Width of ADC deadband2CUT P0762Delay for loss of signal action 3CUT P0770Number of DACs 3-P0771CI: DAC2CUT P0773Smooth time DAC 3CUT r0774Act. DAC value [V] or 2-P0776Type of DAC3CT P0777Value x1 of DAC-scaling 2CUT P0778Value y1 of DAC-scaling 2CUT P0779Value x2 of DAC-scaling 2CUT P0780Value y2 of DAC-scaling 2CUT P0781Width of DAC deadband2CUTAlarms / warnings / monitoringr0947Last fault code2-r0948Fault time3-P0952Total number of faults3CT P2100Alarm number stop reaction 3CT P2101Stop reaction value 3CT r2110Warning number2-P2111Total number of warnings 3CT r2114Run time counter 3-P2115AOP real time clock 3CT P2150Hysteresis speed n_hys 3CUT P2155Threshold speed n_13CUT P2156Delay time f13CUT P2164Hysteresis speed.-deviation 3CUT P2167Switch-off speed n_off3CUT P2168Delay Toff (inverter switch-off)3CUT P2170Threshold current I,thresh 3CUT P2171Delay time current3CUT P2172Threshold voltage Vdc,thresh 3CUT P2173Delay time Vdc3CUT P2179Current limit for no load ident.3CUT P2180Delay time for no load ident.3CUT r2197CO/BO: Status word 1 of monitor 2-CommunicationP0918CB address2CT P0927Parameter changeable via 2CUT r0964Firmware version data 3-r0967Control word 13-r0968Status word 13-P0971Transfer data from RAM to EEPROM 3CUT P2000Reference frequency 2CT P2001Reference voltage3CTParameter overview in functional groupsParameters MICROMASTER 42066SE6400-5BA00-0BP0NoNameAccess levelC-StatP2002Reference current 3CT P2003Reference torque 3CT P2009USS normalization 3CT P2010USS baudrate 2CUT P2011USS address 2CUT P2012USS PZD length 3CUT P2013USS PKW length3CUT P2014USS telegram off time3CT r2015CO: PZD from BOP-Link (USS)3-P2016CI: PZD to BOP-Link (USS)3CT P2018CO: PZD from COM-Link (USS)3-P2019CI: PZD to COM-Link (USS)3CT r2024USS error-free telegrams 3-r2025USS rejected telegrams 3-r2026USS character frame error 3-r2027USS overrun error 3-r2028USS parity error3-r2029USS start not identified 3-r2030USS BCC error 3-r2031USS length error3-r2032BO: CtrlWrd1 from BOP-Link (USS)3-r2033BO: CtrlWrd2 from BOP-Link (USS)3-r2036BO: CtrlWrd1 from COM-Link (USS)3-r2037BO: CtrlWrd2 from COM-Link (USS)3-P2040CB telegram off time 3CT P2041CB parameter 3CT r2050CO: PZD from CB 3-r2051CI: PZD to CB 3CT r2053CB identification 3-r2054CB diagnosis3-r2090BO: Control word 1 from CB 3-r2091BO: Control word 2 from CB 3-Commands / binary I/Or0000Drive display 1r0002Drive stater0019CO/BO: BOP control word 3-r0052CO/BO: Status word 12-r0053CO/BO: Status word 22-r0054CO/BO: Control word 13-r0055CO/BO: Control word 23-P0700Selection of command source 1CT P0701Function of digital input12CT P0702Function of digital input22CT P0703Function of digital input32CT P0704Function of digital input42CT P0719Selection of cmd. & freq. setp.3CT r0720Number of digital inputs 3-r0722CO/BO: Binary input values 2-P0724Debounce time for digital inputs 3CT P0725PNP / NPN digital inputs 3CT r0730Number of digital outputs 3-P0731BI: Function of digital output 2CUT r0747CO/BO: State of digital outputs 3-P0748Invert digital outputs3CUT P0800BI: Download parameter set 03CT P0801BI: Download parameter set 13CT P0840BI: ON/OFF13CT P0842BI: ON/OFF1 reverse3CTParameter overview in functional groupsParameters MICROMASTER 4206SE6400-5BA00-0BP07NoNameAccess levelC-StatP0844BI: 1. OFF23CT P0845BI: 2. OFF23CT P0848BI: 1. OFF33CT P0849BI: 2. OFF33CT P0852BI: Pulse enable3CT P1020BI: Fixed freq. selection Bit 03CT P1021BI: Fixed freq. selection Bit 13CT P1022BI: Fixed freq. selection Bit 23CT P1035BI: Enable MOP (UP-command)3CT P1036BI: Enable MOP (DOWN-command)3CT P1055BI: Enable JOG right 3CT P1056BI: Enable JOG left3CT P1074BI: Disable additional setpoint 3CUT P1110BI: Inhibit neg. freq. setpoint 3CT P1113BI: Reverse3CT P1124BI: Enable JOG ramp times 3CT P1230BI: Enable DC braking3CUT P2103BI: 1. Faults acknowledgement 3CT P2104BI: 2. Faults acknowledgement 3CT P2106BI: External fault3CT P2220BI: Fixed PID setp. select Bit 03CT P2221BI: Fixed PID setp. select Bit 13CT P2222BI: Fixed PID setp. select Bit 23CT P2235BI: Enable PID-MOP (UP-cmd)3CT P2236BI: Enable PID-MOP (DOWN-cmd)3CT Motor controlr0020CO: Act. speed setpoint 3-r0021CO: Act. speed 2-r0022Act. rotor speed3-r0024CO: Act. output frequency 3-r0025CO: Act. output voltage 2-r0027CO: Act. output current2-r0056CO/BO: Status of motor control 2-r0067CO: Act. drive current limit 3-r0071CO: Max. output voltage 3-r0086CO: Act. active current 3-P1300Control mode 2CT P1310Continuous boost 2CUT P1311Acceleration boost 2CUT P1312Starting boost2CUT P1316Boost end frequency3CUT P1320Programmable V/F freq. coord. 13CT P1321Programmable V/F volt. coord. 13CUT P1322Programmable V/F freq. coord. 23CT P1323Programmable V/F volt. coord. 23CUT P1324Programmable V/F freq. coord. 33CT P1325Programmable V/F volt. coord. 33CUT P1333Start frequency for FCC 3CUT P1335Slip compensation 2CUT P1336Slip limit2CUT r1337CO: Slip frequency3-P1338Resonance damping gain V/F 3CUT P1340Imax controller prop. gain 3CUT P1341Imax controller integral time 3CUT r1343CO: Imax controller freq. output 3-r1344CO: Imax controller volt. output 3-P1350Voltage soft start3CUTDrive featuresParameter overview in functional groupsParameters MICROMASTER 42086SE6400-5BA00-0BP0NoNameAccess levelC-StatP0005Display selection 2CUT P0006Display mode3CUT P0007Backlight delay time3CUT P0011Lock for user defined parameter 3CUT P0012Key for user defined parameter 3CUT P0013User defined parameter 3CUT P1200Flying restart2CUT P1202Motor-current: Flying start 3CUT P1203Search rate: Flying start 3CUT P1210Automatic restart2CUT P1211Number of restart attempts 3CUT P1215Holding brake enable2T P1216Holding brake release delay 2T P1217Holding time after ramp down 2T P1232DC braking current 2CUT P1233Duration of DC braking 2CUT P1236Compound braking current 2CUT P1237Dynamic braking duty cycle 2CUT P1240Configuration of Vdc controller 3CT r1242CO: Switch-on level of Vdc-max 3-P1243Dynamic factor of Vdc-max 3CUT P1253Vdc-controller output limitation 3CUT P1254Auto detect Vdc switch-on levels 3CT Inverterr0018Firmware version1-r0026CO: Act. DC-link voltage2-r0034Motor thermal protection (I2t)2-r0037CO: Drive temperature3-r0039CO: Energy consumpt. meter [kWh]2-P0040Reset energy consumption meter 2CT r0200Act. power stack code number 3-P0201Power stack code number 3C r0203Act. power stack type 3-r0204Power stack features 3-r0206Rated drive power or 2-r0207Rated drive current 2-r0208Rated drive voltage 2-P0210Supply voltage 3CT r0231Max. cable length3-P0290Drive overload reaction3CT P0291Config. of inverter protection 3CT P0292Drive overload warning 3CUT P1800Pulse frequency2CUT r1801CO: Act. switching frequency 3-P1802Modulator mode3CUT P1820Reverse output phase sequence 2CT MotorP0300Select motor type 2C P0304Motor voltage rating 1C P0305Motor current rating 1C P0307Motor power rating 1C P0308Motor cosPhi rating 2C P0309Motor efficiency rating 2C P0310Motor frequency rating 1C P0311Motor speed rating 1C r0313Motor pole pairs3-P0320Motor magnetizing current 3CT r0330Rated motor slip3-Parameter overview in functional groupsParameters MICROMASTER 4206SE6400-5BA00-0BP09NoNameAccess levelC-Statr0331Rated magnetisation current 3-r0332Rated power factor 3-P0335Motor cooling2CT P0340Calculation of motor parameters 2CT P0344Motor weight3CUT P0346Magnetization time 3CUT P0347Demagnetization time3CUT P0350Stator resistance (line-to-line)2CUT r0384Rotor time constant3-r0395Total stator resistance [%]3-P0610Motor I2t temperature reaction 3CT P0611Motor I2t time constant3CT P0614Motor I2t overload warning time 3CT P0640Motor overload factor [%]2CUT P1910Select motor data identification 2CT r1912Identified stator resistance 2CUT Setpoint channel / RFGP1000Selection of frequency setpoint 1CT P1001Fixed frequency 12CUT P1002Fixed frequency 22CUT P1003Fixed frequency 32CUT P1004Fixed frequency 42CUT P1005Fixed frequency 52CUT P1006Fixed frequency 62CUT P1007Fixed frequency 72CUT P1016Fixed frequency mode - Bit 03CT P1017Fixed frequency mode - Bit 13CT P1018Fixed frequency mode - Bit 23CT r1024CO: Act. fixed frequency3-P1031Setpoint memory of the MOP 2CUT P1032Inhibit reverse direction of MOP 2CT P1040Setpoint of the MOP2CUT r1050CO: Act. Output freq. of the MOP 3-P1058JOG frequency right 2CUT P1059JOG frequency left 2CUT P1060JOG ramp-up time 2CUT P1061JOG ramp-down time 2CUT P1070CI: Main setpoint3CT P1071CI: Main setpoint scaling 3CT P1075CI: Additional setpoint3CT P1076CI: Additional setpoint scaling 3CT r1078CO: Total frequency setpoint 3-r1079CO: Selected frequency setpoint 3-P1080Min. speed 1CUT P1082Max. speed1CT P1091Skip frequency 13CUT P1092Skip frequency 23CUT P1093Skip frequency 33CUT P1094Skip frequency 43CUT P1101Skip frequency bandwidth 3CUT r1114CO: Freq. setp. after dir. ctrl.3-r1119CO: Freq. setp. before RFG input 3-P1120Ramp-up time 1CUT P1121Ramp-down time1CUT P1130Ramp-up initial rounding time 2CUT P1131Ramp-up final rounding time 2CUT P1132Ramp-down initial rounding time 2CUT P1133Ramp-down final rounding time2CUTParameter overview in functional groupsParameters MICROMASTER 420106SE6400-5BA00-0BP0NoNameAccess levelC-StatP1134Rounding type2CUT P1135OFF3 ramp-down time 2CUT r1170CO: Speed setpoint3-Technology controllerP2200BI: Enable PID controller 2CT P2201Fixed PID setpoint 12CUT P2202Fixed PID setpoint 22CUT P2203Fixed PID setpoint 32CUT P2204Fixed PID setpoint 42CUT P2205Fixed PID setpoint 52CUT P2206Fixed PID setpoint 62CUT P2207Fixed PID setpoint 72CUT P2216Fixed PID setpoint mode - Bit 03CT P2217Fixed PID setpoint mode - Bit 13CT P2218Fixed PID setpoint mode - Bit 23CT r2224CO: Act. fixed PID setpoint 2-P2231Setpoint memory of PID-MOP 2CUT P2232Inhibit rev. direct. of PID-MOP 2CT P2240Setpoint of PID-MOP2CUT P2250CO: Output setpoint of PID-MOP 2-P2253CI: PID setpoint 2CUT P2254CI: PID trim source 3CUT P2255PID setpoint gain factor 3CUT P2256PID trim gain factor3CUT P2257Ramp-up time for PID setpoint 2CUT P2258Ramp-down time for PID setpoint 2CUT r2260CO: Act. PID setpoint2-P2261PID setpoint filter timeconstant 3CUT P2262CO: Act. PID filtered setpoint 3-P2264CI: PID feedback2CUT P2265PID feedback filter timeconstant 2CUT r2266CO: PID filtered feedback 2-P2267Max. value for PID feedback 3CUT P2268Min. value for PID feedback 3CUT P2269Gain applied to PID feedback 3CUT P2270PID feedback function selector 3CUT P2271PID tranducer type2CUT r2272CO: PID scaled feedback 2-r2273CO: PID error2-P2280PID proportional gain 2CUT P2285PID integral time2CUT P2291PID output upper limit 2CUT P2292PID output lower limit2CUT P2293Ramp-up /-down time of PID limit 3CUT r2294CO: Act. PID output2-3 Parameter Descriptionr0000Drive displayMin:-CStat:-Datatype: U16Unit: -Def:-P-Group:-active: -QuickComm. -Max:-Displays the user selected output as defined in P0005.Note:Pressing the "Fn" button for 2 seconds allows the user to view the values of DC linkvoltage, output current, output frequency, and chosen r0000 setting (defined in P0005).r0002Drive stateMin:-CStat:-Datatype: U16Unit: -Def:-P-Group:COMMANDS active: -QuickComm. -Max:-Displays actual drive state.Dependency:State 3 visible only while precharging DC link, and when externally powered communications board is fitted.Possible Settings:0 Commissioning mode (P0010 != 0)1 Ready to run 2 Fault 3 Starting (DC-link precharging)4 Running 5 Stopping (ramping down)P0003User access level Min:0CStat:CUT Datatype: U16Unit: -Def:1P-Group:ALWAYS active: Immediately QuickComm. -Max:4Defines user access level to parameter sets. The default setting (standard) is sufficient for most simple applications.Possible Settings:0 User defined parameter list - see P0013 for details on use 1 Standard: Allows access into most frequently used parameters.2 Extended: Allows extended access e.g. to inverter I/O functions.3 Expert: For expert use only.4 Service: Only for use by authorized service personal - password protected.P0004Parameter filter Min:0CStat:CUT Datatype: U16Unit: -Def:0P-Group:ALWAYS active: Immediately QuickComm. -Max:22Filters available parameters according to functionality to enable a more focussed approach to commissioning.Example:P0004 = 22 specifies that only PID parameters will be visible.Dependency:Parameters marked "Quick Comm: Yes" in the parameter header can only be set when P0010 = 1 (Quick Commissioning).Possible Settings:0 All parameters 2 Inverter 3 Motor 7 Commands, binary I/O 8 ADC and DAC 10 Setpoint channel / RFG 12 Drive features 13 Motor control 20 Communication 21 Alarms / warnings / monitoring 22 Technology controller (e.g. PID)Note:The inverter will start with any setting of P0004.P0005Display selection Min:0CStat:CUT Datatype: U16Unit: -Def:21P-Group:FUNC active: Immediately QuickComm. -Max:4000Selects display for parameter r0000 (drive display).21Actual frequency 25Output voltage 26DC link voltage 27Output currentLevel:1Level:2Level:1Level:1Level:2Notice:These settings refer to read only parameter numbers ("rxxxx").P0006Display modeMin:0CStat:CUT Datatype: U16Unit: -Def:2P-Group:FUNC active: Immediately QuickComm. -Max:4Defines mode of display for r0000 (drive display).Possible Settings:0 In Ready state alternate between setpoint and output freq. In run display output freq.1 In Ready state display setpoint. In run display output freq.2 In Ready state alternate between P0004 value and output freq. In run display P0004 value 3 In Ready state alternate between r0002 value and output freq. In run display P0002 value 4 In all states just display P0004Note:When inverter is not running, the display alternates between the values for "Not Running" and "Running".Per default, the setpoint and actual frequency values are displayed alternately.P0007Backlight delay time Min:0CStat:CUT Datatype: U16Unit: -Def:0P-Group:FUNC active: Immediately QuickComm. -Max:2000Defines time period after which the backlight display turns off if no operator keys have been pressed.Value:P0007 = 0 : Backlight always on (default state)P0007 = 1-2000 : Number of seconds after which the backlight will turn offP0010Commissioning parameter filterMin:0CStat:CT Datatype: U16Unit: -Def:0P-Group:ALWAYS active: Immediately QuickComm. -Max:30Filters parameters so that only those related to a particular functional group are selected.Dependency:Reset to 0 for inverter to run.P0003 (user access level) also determines access to parameters.Possible Settings:0 Ready 1 Quick commissioning 2 Inverter 29 Download30 Factory settingNote:If P3900 is not 0 (0 is the default value), this parameter is automatically reset to 0.P0011Lock for user defined parameterMin:0CStat:CUT Datatype: U16Unit: -Def:0P-Group:FUNC active: ImmediatelyQuickComm. -Max:65535Details:See parameter P0013 (user defined parameter)P0012Key for user defined parameterMin:0CStat:CUT Datatype: U16Unit: -Def:0P-Group:FUNC active: ImmediatelyQuickComm. -Max:65535See parameter P0013 (user defined parameter).P0013[20]User defined parameterMin:0CStat:CUT Datatype: U16Unit: -Def:0P-Group:FUNC active: Immediately QuickComm. -Max:65535Instructions for use: Step 1: Set P0003 = 3 (expert user) Step 2: Go to P0013 indices 0 to 16 (user list) Step 3: Enter into P0013 index 0 to 16 the parameters required to be visible in the user-defined list. The following values are fixed and cannot be changed: - P0013 index 19 = 12 (key for user defined parameter) - P0013index 18 = 10 (commissioning parameter filter) - P0013 index 17 = 3 (user access level) Step 4: Set P0003= 0 to activate the user defined parameter.Dependency:First, set P0011 ("lock") to a different value than P0012 ("key") to prevent changes to user-defined parameter. Then, set P0003 to 0 to activate the user-defined list.When locked and the user-defined parameter is activated, the only way to exit the user-defined parameter (and view other parameters) is to set P0012 ("key") to the value in P0011 ("lock").Note:Alternatively, set P0010 = 30 (commissioning parameter filter = factory setting) and P0970 = 1 (factory reset) to perform a complete factory reset.The default values of P0011 ("lock") and P0012 ("key") are the same.r0018Firmware version Min:-CStat:-Datatype: Float Unit: -Def:-P-Group:INVERTER active: -QuickComm. -Max:-Displays version number of installed firmware.Level:3Level:3Level:1Level:3Level:3Level:3Level:1r0019CO/BO: BOP control wordMin:-CStat:-Datatype: U16Unit: -Def:-P-Group:COMMANDS active: -QuickComm. -Max:-Displays status of operator panel commands.The settings below are used as the "source" codes for keypad control when connecting to BICO input parameters.Bitfields:Bit00ON/OFF10NO1YESBit01OFF2:Electrical stop 0YES1NOBit02OFF3:Fast stop 0YES1NOBit08JOG right 0NO1YESBit09JOG left 0NO1YESBit11Reverse (setpoint inversion)0NO1YESBit13Motorpoti (MOP)up 0NO1YESBit14Motorpoti (MOP)down 0NO1YESNote:When BICO technology is used to allocate functions to panel buttons, this parameter displays the actual status of the relevant command.The following functions can be "connected" to individual buttons:ON/OFF1, OFF2, JOG, REVERSE, INCREASE, DECREASEr0020CO: Act. frequency setpoint Min:-CStat:-Datatype: Float Unit: Hz Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays actual frequency setpoint (input from ramp function generator).r0021CO: Act. frequency Min:-CStat:-Datatype: Float Unit: Hz Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays actual inverter output frequency (r0024) excluding slip compensation, resonancedamping and frequency limitation.r0022Act. rotor speed Min:-CStat:-Datatype: Float Unit: 1/min Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays calculated rotor speed based on inverter output frequency [Hz] x 120 / number of poles.This calculation makes no allowance for load-dependent slip.r0024CO: Act. output frequency Min:-CStat:-Datatype: Float Unit: Hz Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays actual output frequency. Slip compensation, resonance damping and frequency limitationare included.r0025CO: Act. output voltage Min:-CStat:-Datatype: Float Unit: V Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays [rms] voltage applied to motor.r0026CO: Act. DC-link voltage Min:-CStat:-Datatype: Float Unit: V Def:-P-Group:INVERTER active: -QuickComm. -Max:-Displays DC-link voltage.r0027CO: Act. output current Min:-CStat:-Datatype: Float Unit: A Def:-P-Group:CONTROL active: -QuickComm. -Max:-Displays [rms] value of motor current [A].r0034CO: Motor temperature (i2t)Min:-CStat:-Datatype: Float Unit: %Def:-P-Group:MOTOR active: -QuickComm. -Max:-Displays calculated motor temperature (i2t model) as [%] of the maximum permissible value.A value of 100 % means that the motor has reached its maximum permissible operating temperature. In this case, the motor will attempt to reduce the motor loading as defined in P0610 (motor I2t temperature reaction).r0037CO: Drive temperature [°C]Min:-CStat:-Datatype: Float Unit: °C Def:-P-Group:INVERTER active: -QuickComm. -Max:-Level:3Level:3Level:2Level:3Level:3Level:2Level:2Level:2Level:2Level:3。

silometer FMC 420Level measurementOperating InstructionsS E A F I N UML D S O R E C M ER 420ES T S E +R H 13121110987BA 179F/00/en/09.98017326-1000Hauser+Endress The Power of Know HowShort InstructionsF 00 (10V)Ri>5kΩ+–1. Basic settings0Va)b)0%2. Calibration with anempty vessel10V 100%display fallsdisplay risesdisplayrises3. Calibration with a full vesselShort Instructions Silometer FMC420Silometer FMC420Table of Contents Table of Contents1Notes on Safety41.1Special notes on safety41.2General notes on safety52Application62.1The Measuring System62.2Function63Mounting74Electrical Connection85Calibration115.1Preparing for calibration115.2Calibration with an empty vessel(0%)125.3Calibration with a full vessel136Technical Data147Supplementary documentation158Replacing an instrument151Notes on Safety1.1Special notes on safetyApproved usage The Silometer FMC 420 is designed for continuous level measurement in liquids andis to be installed in non-explosion hazardous areas.See Technical Data for limit values.Installation, commissioning, operation The device has been designed to operate safely in accordance with current technical, safety and EU standards.If installed incorrectly or used for applications for which it is not intended,however,it is possible that application-related dangers may arise,e.g. product overflow or explosion in an ignition-hazardous atmosphere.For this reason,the instrument must be installed, connected,operated and maintained by personnel that are authorised by the user of the facility and who are suitably qualified.The manual must have been read and understood, and the instructions followed. Modifications and repairs to the device are permissible only when they are expressly approved in the manual.1 Notes on Safety Silometer FMC420 4Endress+HauserSilometer FMC420 1 Notes on Safety1.2General notes on safetyIn order to highlight safety-relevant or alternative operating procedures in the manual,the following conventions have been used,each indicated by a corresponding icon inthe margin.Endress+Hauser52ApplicationThe Silometer FMC 420 is used for continuous level measurement in liquid tanks.The complete programme of capacitance and hydrostatic probes (pressure sensors)enables measurement to be carried out:•in aggressive media•at high pressures and in vacuum •at high and low temperatures •in high and low viscous liquids •in media tending to form build-up etc.2.1The Measuring SystemComponents of the measuring system:•Transmitter:Silometer FMC 420•Sensor:– capacitive probe with electronic insert (transmitter)EC 11 Z or EC 72Z or– hydrostatic probe (pressure sensor) Deltapilot S with transmitter FEB 11 or FEB 11 P2.2FunctionThe Silometer FMC 420 supplies the sensor with its integrated transmitter with direct current and receives from it a level-proportional signal of approx. 0…4 mA.The standardised signals 0…10 V and 0…20 mA (or 4…20 mA)are available at the Silometer output for remote display of the level.A green LED indicates stand-by.0/4…20mA 0…10V Silometer FMC 420Levelorcapacitive probewith EC 11 Z or EC 72Z B A 179Y 01hydrostatic probeDeltapilot S with FEB 11or FEB 11PFig.1The measurement systemLevel-proportionalanalogue output signal for current and voltage2 Application Silometer FMC 4206Endress+Hauser3MountingSilometer FMC 420•Compare the product designation on the nameplate of your instrument with that of the product structure (see below)to ensure that the correct instrument is being mounted.•Install the Silometer in a control cabinet or in a protective housing (accessory).•Observe the permissible ambient temperature (see technical data) and the minimum distance between instruments (Fig. 2)ProbesNote the mounting recommendations in the Technical Information brochures for the probes.113min.25mm1117537,52DINtop-hat railremovable terminal block for mains connectionmount hereB A 179Y 02pull out eye forunlockingsnap in hereremovable terminal block for signal cablesFig.2left:Dimensions in mm of the Silometer in Minipac version Housing width:50mmMounting on a DIN top-hat rail 35x 7.5or 35x 15Observe minimum interval to the next row of instruments above and below.right:Silometer FMC 420Mounting, removal100mm =3.94inFMC 420SilometerCertificates,Approvals R Standard (not certified)CCSA versionVersion0Minipac housing,50 mm, with terminal strip 9OtherPower Supply J AC 240V , 50/60HzA AC 220…230 V , 50/60 Hz F AC 115V , 50/60HzB AC 110V , 50/60HzD AC 24V , 50/60Hz YOtherAnalogue Outputs10/4…20mA,0…10V 9OtherFMC 420-Product designationProduct structureSilometer FMC 420 3 MountingEndress+Hauser 74Electrical ConnectionThe Silometer may only be connected by trained personnel.Connect the probe with the electronic insertUse screened three-core cable,cable resistance max. 25Ω.Note!For general installation instructions with strong interference sources,see Technical Information TI 241F/00/en.If grounding the cable screening at both ends is not possible then ground the screening preferably at the probe housing (vessel potential).After connecting, screw down the cover of the probe securely and seal the cable entry tightly.Connecting the signal outputsYou may connect as many peripheral instruments as required to the 0…10 V voltage output,such as voltmeters, plotters, limit signal switches, etc. in parallel provided the total load resistance is larger than 5 k Ω.The voltage output is resistant to short-circuiting.You may connect as many peripheral instruments as required in series to the0…20 mA or 4…20mA current output, such as ammeters, plotters, controllers, etc.provided the total load resistance is smaller than 500Ω.Note!The current and voltage outputs are galvanically connected,i.e. only one of the two outputs may be grounded (current or voltage output).The signal outputs are galvanically isolated from the vessel by a capacitor and are potential-free. They are also galvanically isolated from the power supply.Changing the power supplyEnsure that the power voltage agrees with that stated on the nameplate on top the housing and check the power voltage at the mounting point.The power voltage in the instrument can be altered as required depending on the version delivered.Remove the terminal blocks (Points a and b) Open the front panel (Points c and d)Remove the instrument from the housing:hold by the lower and upper black plastic part and pull forward with sufficient force.Note!Note!cdabopen the front panelB A 179Y 03loosen terminal blocksremove instrument body from the housingscrewdriverFig.3Opening the instrument4 Electrical Connection Silometer FMC 4208Endress+HauserResolder jumper for power supply•Assemble the instrument•Change the power supply specifications on the nameplateConnect the powersupplyEnsure a mains switch and fine-wire fuse are connected near to the instrument.Recommended fine-wire fuse:Voltage Fuse24V…48V 500mA,slow-blow 110V…240V 100mA,slow-blowFig.4Changing the power voltage by soldering a jumper onto the circuit board.Versions ("Power supply")see Product Structure on Page 7.Versions J, A,F , Bcan be set to an AC voltage between 110V and 240V ,Version D to an AC voltage between 24V and 48V .Fig.5Electrical connection FMC 420Silometer FMC 420 4 Electrical ConnectionEndress+Hauser 92722811717383939494845566S +S +S –+FMC 420FMC 420FMC 420Capacitive probe with EC 11Z Capacitive probe with EC 72Z Hydrostatic probe Deltapilot S with FEB 11or FEB 11P B A 179Y 06Fig.6Connecting probes to the Silometer (input)4 Electrical Connection Silometer FMC 42010Endress+Hauser5Calibration5.1Preparing for calibrationSwitch on the power supply to the Silometer.Note!Turn off any regulation and control devices until the Silometer is calibrated in order to avoid unchecked processes.The calibration elements (see Fig. 7) are easily accessible by opening the front panel.Selecting the output currentCheck whether the switch for the output current is in the right position (Fig. 7).Switch closed:0…20 mA Switch open:4…20 mAAdjustable measuring rangesThe test current is adjusted which the Silometer FMC 420 receives from a transmitter built into a capacitive or hydrostatic probe.With capacitive probes a test current of 1µA is equivalent to approx.1 pF probe capacitance.With hydrostatic probes a test current of 1.5 mA is equivalent to approx. the nominal pressure (max.measuring range).The zero point can be set with an input current between 40µA and 360µA.The measuring range can be set for full calibration with a change in current between 20µA and approx. 4 mA.Zero point and measuring range calibration have no effect on one another.Connecting an instrumentFor calibration connect an accurate voltmeter with a range 0…10 V ,R i >5k Ωto the solder pins behind the front panel.Caution!Calibrate the instrument first with an empty and then with a full vessel or if this is not possible,with a partially filled vessel.Note!Caution!13121110987321456screwdriverAdjustment elementsOpening the front panelswitch blockfor full calibration hook switch for selectingthe output current *switch for empty calibrationgreen LED forstand-by adjuster for full calibration (fine)adjuster for empty calibration (fine)connection for display unit 0 (10V)*hook switch closed*hook switch openoutput current 0…20mAoutput current 4…20mAB A 179Y 07Fig.7Adjusting elementsSilometer FMC 420 5 CalibrationEndress+Hauser 11Basic settings•Turn both (fine)adjusters for empty and full calibration anticlockwise to the left stop.•On the upper switch block,switch the three lower switches to the right and the three upper switches to the left (mid amplification)•Turn the lower switch to "F".5.2Calibration with an empty vessel (0%)a) Turn the lower switch by steps anticlockwise until the display is below 0.b)Turn the (fine)adjuster for empty calibration clockwise until the display is exactly at 0.•In level measurement with capacitance probes, you can raise the amplification to check the settings by switching the three upper switches on the upper switch block to the right. If necessary,make a minor correction of the zero point with the (fine)adjuster.•Until the vessel is filled and full adjustment carried out,you can set the measuring range (amplification)as required:– Switch all switches on the upper switch block to the right (maximum amplification,display exceeds 100%on filling)– Switch all switches on the upper switch block to the left (smallest amplification,only slight change on the display on filling)– Set in the middle according to experience met in practiceFig.8Basic settingsFig.9Calibration with an empty vessel (zero point calibration)5 Calibration Silometer FMC 42012Endress+HauserSilometer FMC420 5 Calibration5.3Calibration with a full vessel•Fill the vessel as much as possible and measure the level accurately.•By means of the switches on the upper switch block for full adjustment and the (fine)adjuster for full calibration move the display to the reading corresponding to the level,e.g.:100%full:10V85% full:8.5 VIf,starting from the top,you switch the switches one after the other to the left,the display will fall.If,starting from the bottom,you switch the switches one after another to the right,the display will rise.Intermediate values can be set with the (fine) adjuster for full adjustment.Fig.10Calibration with a full vessel(span calibration)Endress+Hauser136 Technical Data Silometer FMC4206Technical DataConstruction Housing:Row housing (Minipac design)in light grey plastic, front panel blueMounting:On DIN top-hat rail according to EN50022-35 x 7.5or EN50022-35 x 15Dimensions:See Page 7,Fig.2Housing width:50mmWeight:0.3 kgType of protection to DIN40050:Housing IP40, Terminals IP 20Permissibleambient temperature:–20..+60 °C (0..140 °F) for single mounting–20..+50°C(0..120°F)for row mounting without interval–20..+85 °C (0..185 °F) for storageElectrical connection Terminals:Removable terminal blocks,non-interchangeable, black;1 x 6-pole,1 x 7-poleMax.cross section:(fine-wire) 1 x0.5 mm² to 1 x2.5 mm²or2 x0.5 mm² to 2 x1.5 mm²Without terminals:Flat plug0.8 x 6.3 to DIN 46244Power supply connection,AC:220V, –10% …230V,+10%,50/60HzVersions,AC:240V, 115 V,110V,24V,each+15%,–10%, 50/60HzPower consumption:max. 3.3 W(4.4 VA)Probes:See Measuring SystemConnection cableto sensor:3-core, screened, max. 25Ωper corePower supply for sensor:approx. 20 V(from Silometer FMC 420)Adjustable input signalsfor zero point:approx.40…360µA(approx. 30…350pF for capacitive measurement)for measuring range:approx.20…4000µA(equiv. to pF)to EN 61326-1Class B deviceElectromagneticcompatibilitySignal outputs Analogue level signalVoltage:0…10V,R L min.5 kΩCurrent:0…20mA,can be switched to 4…20 mA,RL max.500ΩSetting time:0.5 s typical for an inputsignal step of1 mALinearity error,effects of power supply and load:<0.5% (voltage output)14Endress+HauserSilometer FMC4207 Supplementary Documentation /8 Replacing an instrument7Supplementary Documentationu System components MinipacTechnical Information TI 009F/00/enu Electronic inserts EC 11 Z,EC 72 ZTechnical Information TI 270F/00/enu Electronic inserts FEB 11/11 PTechnical Information TI 257F/00/en8Replacing an instrumentThe Silometer FMC 420can be easily replaced without loosening the individual wires:•Switch off power supply•Remove terminal blocks, see Fig.3 on Page 8.•Pull eye on the housing of the instrument downwards for unlocking witha screwdriver and remove the Silometer from the DIN top hat rail.See Fig. 3 on Page 8•Clip the new instrument onto the DIN top hat rail•Insert terminal blocks and snap in•Carry out settings as for the old instrument•A calibration must always be carried out after replacing a Silometeror electronic insert due to the tolerances of the new module.Endress+Hauser15EuropeAustriau Endress+Hauser Ges.m.b.H.WienT el.(01)88056-0,Fax (01)88056-35Belarus Belorgsintez MinskT el.(0172)263166,Fax (0172)263111Belgium /Luxembourgu Endress+Hauser S.A./N.V .BrusselsT el.(02)2480600,Fax (02)2480553BulgariaINTERTECH-AUTOMA TION SofiaT el.(02)652809,Fax (02)652809Croatiau Endress+Hauser GmbH+Co.ZagrebT el.(01)6601418,Fax (01)6601418CyprusI+G Electrical Services Co.Ltd.NicosiaT el.(02)484788,Fax (02)484690Czech Republicu Endress+Hauser GmbH+Co.PrahaT el.(026)6784200,Fax (026)6784179Denmarku Endress+Hauser A/S SøborgT el.(31)673122,Fax (31)673045Estonia Elvi-Aqua T artuT el.(7)422726,Fax (7)422727Finlandu Endress+Hauser Oy EspooT el.(90)8596155,Fax (90)8596055Franceu Endress+Hauser HuningueT el.89696768,Fax 89694802Germanyu Endress+Hauser Meßtechnik GmbH+Co.Weil am RheinT el.(07621)975-01,Fax (07621)975-555Great Britainu Endress+Hauser Ltd.ManchesterT el.(0161)2865000,Fax (0161)9981841GreeceI & G Building Services Automation S.A.AthensT el.(01)9241500,Fax (01)9221714HungaryMile Ipari-Elektro BudapestT el.(01)2615535,Fax (01)2615535IcelandVatnshreinsun HF ReykjavikT el.(05)889616,Fax (05)889613IrelandFlomeaco Company Ltd.KildareT el.(045)868615,Fax (045)868182Italyu Endress+Hauser Italia S.p.A.Cernusco s/N MilanoT el.(02)92106421,Fax (02)92107153Jugoslavia Meris d.o.o.BeogradT el.(11)4442966,Fax (11)430043Latvia Raita Ltd.RigaT el.(02)254795,Fax (02)7258933Lithuania Agava Ltd.KaunasT el.(07)202410,Fax (07)207414Netherlandu Endress+Hauser B.V .NaardenT el.(035)6958611,Fax (035)6958825Norwayu Endress+Hauser A/S T ranbyT el.(032)851085,Fax (032)851112Polandu Endress+Hauser Polska Sp.z o.o.WarszawyT el.(022)7201090,Fax (022)7201085PortugalT ecnisis -T ecnica de Sistemas Industriais Linda-a-VelhaT el.(01)4172637,Fax (01)4185278RomaniaRomconseng SRL BucharestT el.(01)4101634,Fax (01)4101634Russiau Endress+Hauser Moscow Office MoscowT el.,Fax:see Endress+Hauser GmbH+Co.Instruments InternationalSlovak RepublicT ranscom T echnik s.r.o.BratislavaT el.(7)5213161,Fax (7)5213181Sloveniau Endress+Hauser D.O.O.LjubljanaT el.(061)1592217,Fax (061)1592298Spainu Endress+Hauser S.A.BarcelonaT el.(93)4803366,Fax (93)4733839Swedenu Endress+Hauser AB SollentunaT el.(08)6261600,Fax (08)6269477Switzerlandu Endress+Hauser AG Reinach/BL 1T el.(061)7156222,Fax (061)7111650TurkeyIntek Endüstriyel Ölcüve Kontrol Sistemleri IstanbulT el.(0212)2751355,Fax (0212)2662775UkraineIndustria Ukraïna KievT el.(44)2685213,Fax (44)2685213AfricaEgypt AnasiaHeliopolis/CairoT el.(02)4179007,Fax (02)4179008MoroccoOussama S.A.CasablancaT el.(02)241338,Fax (02)402657NigeriaJ F T echnical gosT el.(1)62234546,Fax (1)62234548South Africau Endress+Hauser Pty .Ltd.SandtonT el.(011)4441386,Fax (011)4441977TunisiaControle,Maintenance et Regulation T unisT el.(01)793077,Fax (01)788595AmericaArgentinau Endress+Hauser Argentina S.A.Buenos AiresT el.(01)5238008,Fax (01)5220546BoliviaT ritec S.R.L.CochabambaT el.(042)56993,Fax (042)50981Brazilu Samson Endress+Hauser Ltda.Sao PauloT el.(011)5363455,Fax (011)5363067Canadau Endress+Hauser Ltd.Burlington,OntarioT el.(905)6819292,Fax (905)6819444ChileDIN Instrumentos Ltda.SantiagoT el.(02)2050100,Fax (02)2258139Colombia Colsein Ltd.Bogota D.C.T el.(01)2367659,Fax (01)6107868Costa RicaEURO-TEC S.A.San JoseT el.2961542,Fax 2961542EcuadorInsetec Cia.Ltda.QuitoT el.(02)251242,Fax (02)461833GuatemalaACISA Automatizacion Y Control Industrial S.A.Ciudad de Guatemala,C.A.T el.(02)345985,Fax (02)327431Mexicou Endress+Hauser I.I.Mexico CityT el.(5)5689658,Fax (5)5684183Paraguay Incoel S.R.L.AsuncionT el.(021)213989,Fax (021)26583Uruguay Circular S.A.MontevideoT el.(02)925785,Fax (02)929151USAu Endress+Hauser Inc.Greenwood,IndianaT el.(317)535-7138,Fax (317)535-1489VenezuelaH.Z.Instrumentos C.A.CaracasT el.(02)9798813,Fax (02)9799608AsiaChinau Endress+Hauser Shanghai Instrumentation Co.Ltd.ShanghaiT el.(021)64646700,Fax (021)64747860u Endress+Hauser Beijing Office BeijingT el.(010)68344058,Fax:(010)68344068Hong Kongu Endress+Hauser (H.K.)Ltd.Hong KongT el.25283120,Fax 28654171Indiau Endress+Hauser India Branch Office MumbaiT el.(022)6045578,Fax (022)6040211IndonesiaPT Grama Bazita JakartaT el.(21)7975083,Fax (21)7975089Japanu Sakura Endress Co.,Ltd.T okyoT el.(0422)540611,Fax (0422)550275Malaysiau Endress+Hauser (M)Sdn.Bhd.Petaling Jaya,Selangor Darul Ehsan T el.(03)7334848,Fax (03)7338800PakistanSpeedy Automation KarachiT el.(021)7722953,Fax (021)7736884Papua-NeuguineaSBS Electrical Pty Limited Port MoresbyT el.53251188,Fax 53259556PhilippinesBrenton Industries Inc.Makati Metro ManilaT el.(2)8430661-5,Fax (2)8175739Singaporeu Endress+Hauser (S.E.A.)Pte.,Ltd.SingaporeT el.4688222,Fax 4666848South Koreau Endress+Hauser (Korea)Co.,Ltd.SeoulT el.(02)6587200,Fax (02)6592838TaiwanKingjarl Corporation T aipei R.O.C.T el.(02)7183938,Fax (02)7134190Thailandu Endress+Hauser Ltd.BangkokT el.(2)9967811-20,Fax (2)9967810VietnamT an Viet Bao Co.Ltd.Ho Chi Minh CityT el.(08)8335225,Fax (08)8335227IranT elephone T echnical Services Co.Ltd.T ehranT el.(021)8746750,Fax(021)8737295IsraelInstrumetrics Industrial Control Ltd.T el-AvivT el.(03)6480205,Fax (03)6471992Jordan A.P .Parpas Engineering S.A.AmmanT el.(06)5539283,Fax (06)5539205Kingdom of Saudi Arabia Anasia JeddahT el.(02)6710014,Fax (02)6725929KuwaitKuwait Maritime &Mercantile Co.K.S.C.SafatT el.2434752,Fax 2441486Lebanon Nabil Ibrahim JbeilT el.(3)254051,Fax (9)944080Sultanate of OmanMustafa &Jawad Sience &Industry Co.L.L.C.RuwiT el.602009,Fax 607066United Arab Emirates Descon T rading EST .DubaiT el.(04)359522,Fax (04)359617YemenY emen Company for Ghee and Soap Industry T aizT el.(04)230664,Fax (04)212338Australia + New ZealandAustraliaGEC Alsthom L TD.SydneyT el.(02)96450777,Fax (02)97437035New ZealandEMC Industrial Instrumentation AucklandT el.(09)4449229,Fax (09)4441145All other countriesu Endress+Hauser GmbH+Co.Instruments International D-Weil am Rhein GermanyT el.(07621)975-02,Fax (07621)97534510.97/MTMBA 179F/00/en/09.98017326-1000HD/CV5u Members of the Endress+Hauser groupHauser+Endress The Power of Know How017326-1000。

420变频器参数调试变频器是一种可以调整交流电的频率和电压的电子设备，广泛应用于工业生产中，用于调节电机的转速和运行状态。

为了实现正常的运行和优化性能，变频器的参数调试非常重要。

以下将详细介绍420变频器参数调试的方法和步骤。

第一步：设置基本参数首先，应确保变频器的输入电压和输出电压等基本参数正确设置。

输入电压通常为交流220V或380V，根据实际电压情况进行设置。

输出电压可以根据具体应用需求进行设置，通常为三相交流220V或380V。

第二步：设置额定转速和电流根据所驱动的电机型号和额定电压、电流等参数，将变频器的额定转速和额定电流进行设置。

额定转速是指电机的标称转速，额定电流是指电机运行时所需的电流。

这些参数的设置对于变频器的正常工作非常重要。

第三步：设置加速和减速时间加速和减速时间指的是变频器从启动到达额定转速和从额定转速停止所需的时间。

加速时间通常设置为0.5-1秒，减速时间通常设置为1-2秒。

根据具体应用情况和电机特性进行调整，确保电机的平稳启停。

第四步：设置运行频率范围运行频率范围是指变频器的输出频率范围，通常为0-50Hz或0-60Hz。

该参数的设置要考虑到所驱动的电机的额定频率和实际工作需求，以充分发挥电机的性能。

第五步：设置过载保护参数过载保护参数是为了保护电机在超过额定负载时不受损坏。

通常有过载电流、过载时间等参数可调。

应根据电机的额定负载和实际工作情况进行设置，以确保电机的安全运行。

第六步：设置故障保护参数变频器具有多种故障保护功能，如过流、过压、过热等。

应根据具体需求和工作环境，设置相关的故障保护参数，以及相应的报警和保护动作，确保设备的可靠性和安全性。

第七步：进行实验和调试完成所有参数设置后，应进行实验和调试，检查变频器的工作状态和电机的性能。

可以通过观察电机的转速、负载情况，检测电机的振动和噪音等指标来评估调试效果。

如果发现问题，应及时调整相应参数进行优化。

总结：420变频器参数调试是确保设备正常运行和性能优化的重要环节。

用户文件MICROMASTER 420 0.12 kw-11kw使用大全用户手册合法出版物出版日期：12/03 变频器型号经校核的版本MICROMASTER 420 V1.1版本 12/03 概况 1 安装 2 调试 3 MICROMASTER 420的使用 4 系统参数 5 排障 6 MICROMASTER 420的技术规格7 可选件8 电磁兼容性（EMC）9 MICROMASTER 420变频器的参数表10功能框图11二进制互联连接（BiCo）功能12通讯13高级操作板（AOP）14选件安装图15附录ABCDEFG更多的信息可在互联网上查阅，网址：http：///products/sd核准的西门子软件和培训标准是：DIN ISO 9001，注册登记号：2160-01未经书面许可，不得翻印、传播、或使用本手册及其相关内容。

违者将对所造成的损害负法律责任。

西门子公司保留一切权利，包括由专利许可、实用样机注册、或工程设计等所产生的所有权利。

© Siemens AG 2001。

保留一切权利。

MICROMASTER® 是西门子公司已注册的商标。

本手册中对某些有效的功能可能未加说明。

但是，在新的控制装置中或进行服务时，并不因为西门子公司提供了这些功能而要承担任何责任。

编审过程中，我们对本手册的内容与所述的硬件和软件的一致性进行了审核。

但是，仍然可能存在矛盾和谬误的地方，不可能保证它们完全一致。

我们将定期检查本手册中涵盖的内容，并在以后修订的版本中予以必要的修正。

欢迎提出改进的建议。

西门子公司的手册都是用无氯纸张印刷的，这种纸张的生产原料来源于可持续生长的森林。

打印和装订的过程中未使用化学溶剂。

保留不预先通知而修改本手册的权利。

Order Number：6SE6400-5AA00-0BP0Siemens-Aktiengesellschaft前言前言用户文件警告在安装和调试变频器之前，请您务必阅读以下安全规则和警告，以及设备上粘贴的所有警示标志。

美文欣赏1、走过春的田野，趟过夏的激流，来到秋天就是安静祥和的世界。

秋天，虽没有玫瑰的芳香，却有秋菊的淡雅，没有繁花似锦，却有硕果累累。

秋天，没有夏日的激情，却有浪漫的温情，没有春的奔放，却有收获的喜悦。

清风落叶舞秋韵，枝头硕果醉秋容。

秋天是甘美的酒，秋天是壮丽的诗，秋天是动人的歌。

2、人的一生就是一个储蓄的过程，在奋斗的时候储存了希望；在耕耘的时候储存了一粒种子；在旅行的时候储存了风景；在微笑的时候储存了快乐。

聪明的人善于储蓄，在漫长而短暂的人生旅途中，学会储蓄每一个闪光的瞬间，然后用它们酿成一杯美好的回忆，在四季的变幻与交替之间，散发浓香，珍藏一生！3、春天来了，我要把心灵放回萦绕柔肠的远方。

让心灵长出北归大雁的翅膀，乘着吹动彩云的熏风，捧着湿润江南的霡霂，唱着荡漾晨舟的渔歌，沾着充盈夜窗的芬芳，回到久别的家乡。

我翻开解冻的泥土，挖出埋藏在这里的梦，让她沐浴灿烂的阳光，期待她慢慢长出枝蔓，结下向往已久的真爱的果实。

4、好好享受生活吧，每个人都是幸福的。

人生山一程，水一程，轻握一份懂得，将牵挂折叠，将幸福尽收，带着明媚，温暖前行，只要心是温润的，再遥远的路也会走的安然，回眸处，愿阳光时时明媚，愿生活处处晴好。

5、漂然月色，时光随风远逝，悄然又到雨季，花，依旧美；心，依旧静。

月的柔情，夜懂；心的清澈，雨懂；你的深情，我懂。

人生没有绝美，曾经习惯漂浮的你我，曾几何时，向往一种平实的安定，风雨共度，淡然在心，凡尘远路，彼此守护着心的旅程。

沧桑不是自然，而是经历；幸福不是状态，而是感受。

6、疏疏篱落，酒意消，惆怅多。

阑珊灯火，映照旧阁。

红粉朱唇，腔板欲与谁歌？画脸粉色，凝眸着世间因果；未央歌舞，轮回着缘起缘落。

舞袖舒广青衣薄，何似院落寂寞。

风起，谁人轻叩我柴扉小门，执我之手，听我戏说？7、经年，未染流殇漠漠清殇。

流年为祭。

琴瑟曲中倦红妆，霓裳舞中残娇靥。

冗长红尘中，一曲浅吟轻诵描绘半世薄凉寂寞，清殇如水。

车辆轴重参数参考表单后轴货车（车型大类编码01）—---——---—---———-—-——————----—----——————-—----—-———---——--—-—-—--—-----—--—-———-车型序号车型名称前轴重（kN) 后轴重(kN）后轴数后轴轮组数后轴距(m)---—-——--——-——-———---—-—-——-—-—-—-———-———————-—-——-—----—————————--——-——-——--—--01 标准轴载BZZ—100 00。

00 100.00 1 2 002 北京BJ130 13。

55 27.20 1 2 003 成都CD130 13.60 27.20 1 2 004 金杯SY132 12。

80 27。

60 1 2 005 金杯SY450 11。

80 28。

00 1 2 006 菲亚特50NC—A 21.80 35.00 1 2 007 跃进NJ131 20.20 38。

20 1 2 008 江淮HF140A 18.90 41。

80 1 2 009 跃进NJ134A 13.30 43.10 1 2 010 奔驰LPK709 22.00 44.00 1 2 011 五十铃NPR595G 23。

50 44。

00 1 2 012 切贝尔D350 24。

00 48.00 1 2 013 三菱T653B 29.30 48。

00 1 2 014喀什布阡131 18。

00 50。

25 1 2 015 三菱FR415 30.00 51。

00 1 2 016 切贝尔D420 28。

20 54。

80 1 2 017 交通SH141 25.55 55.10 1 2 018 五十铃FSR113N 36。

00 55.50 1 2 019 依维柯7913 29.00 56。

50 1 2 020 解放CA340 22。

10 56。

60 1 2 021 雷诺JN75 30。

50 58.50 1 2 022 吉尔130 25。

u Combination of optical, thermal and chemicalsensors with intelligent evaluation electronics.u Earliest detection of lightest smoke (TF1 & TF9)with the double-optical smoke detectors featuringDual-Ray technologyu Detector properties adapted to cater for room usageu Drift compensation in optical and gas measurementsectionu Maintains LSN loop functions in the event of wireinterruption or short-circuit thanks to two integratedisolatorsThe 420 Series Automatic Fire Detectors offer asuperb accuracy as well as detection speed andprecision.The versions with dual-optical sensor (DO-detectors:FAP-DO420, FAP-DOT420, FAP-DOTC420) are able todetect lightest smoke (TF1 and TF9).These detectors provide all advantages of LSNimproved version. The addressing of the detectors canbe configured with the integrated turning switches.System overviewFunctionsSensor technology and signal processingThe individual sensors can be configured manually or timer-based via the LSN network.All sensor signals are analyzed continually by the internal evaluation electronics (Intelligent Signal Processing – ISP) and are linked with each other via an inbuilt microprocessor. The link between the sensors means that the combined detectors can also be used where light smoke, steam or dust must be expected during the course of normal operation.Only if the signal combination corresponds to that for the programming of the selected usage site field code will the alarm be triggered automatically. This results in a higher level of security against false alarms.In addition, the time of the sensor signals on fire and fault detection is analyzed, resulting in an increased detection reliability for each individual sensor.In the case of the optical and chemical sensor, the response threshold (drift compensation) is actively adjusted. Manual or time-controlled switch-off of individual sensors is required for adjustment to extreme interference factors.Optical sensor (smoke sensor)The optical sensor uses the scattered-light method. An LED transmits light to the measuring chamber, where it is absorbed by the labyrinth structure. In the event of a fire, smoke enters the measuring chamber and the smoke particles scatter the light from the LED. The amount of light hitting the photo diode is converted into a proportional electrical signal.The DO detectors use two optical sensors with different wavelength. The Dual Ray Technology works with an infrared and a blue LED, so that light smoke can be detected reliably (TF1 and TF9 detection). Thermal sensor (temperature sensor)A thermistor in a resistance network is used as a thermal sensor, from which an analog-digital converter measures the temperature-dependent voltage at regular intervals.Depending on the specified detector class, the temperature sensor triggers the alarm status when the maximum temperature of 54 °C or 69 °C is exceeded (thermal maximum), or if the temperature rises by a defined amount within a specified time (thermal differential).Chemical sensor (CO gas sensor)The main function of the gas sensor is to detect carbon monoxide (CO) generated as a result of a fire, but it will also detect hydrogen (H) and nitrous monoxide (NO). The sensor signal value is proportional to the concentration of gas. The gas sensor delivers additional information to effectively suppress deceptive values.Since the service life of the gas sensor is limited, the C sensor of the FAP‑DOTC420 detector shuts down automatically after 6 years of operation, and the C sensor of the FAP‑OTC 420 detector after 5 years of operation. The FAP‑DOTC420 detector will then still operate as a DOT detector and the FAP‑OTC 420 detector as an OT detector. The detectors should be exchanged immediately in order to keep the higher detection reliability of the DOTC/OTC versions. Improved LSN featuresThe 420 Series Fire Detectors offer all the features of the improved LSN technology:•Flexible network structures, including "T‑tapping"without additional elements•Up to 254 LSN improved elements per loop or stubline•Automatic or manual detector addressing selectablevia rotary switch, in each case with or without auto-detection•Power supply for connected elements via LSN bus •Unscreened fire detection cable can be used •Cable length up to 3000 m (with LSN 1500 A)•Downwards compatibility to existing LSN systemsand central unitsLSN featuresOperating data displayIn addition, the FAP/FAH-420 detectors offer all the established benefits of LSN technology. The RPS programming software can be used to change the detection characteristics of the respective room utilization. In addition, each configured detector, with the exception of the KKW, can provide the following data:•Serial number,•Contamination level of the optical section,•Operating hours,•Current analog values.Analog values:•Optical system values: current measured value of the scattered light sensor; the measuring range is linearand covers from 170 (new) to 700 (dirty).•Contamination: the contamination value shows howmuch the current contamination value has increased relative to the original condition.•CO value: display of the current measured value(max. 550).Self-monitoring of sensor technologyThe sensor is self-monitoring. The following errors are indicated on the fire panel:•Fault indication in the event of the failure of thedetector electronics•Continuous display of contamination level duringservice•Fault indication if heavy contamination is detected (in place of false alarms)In the event of wire interruption or short-circuit, integrated dividing elements maintain the functional security of the LSN loop.In the event of an alarm, individual detector identification is transmitted to the fire panel. Further performance characteristicsThe detector alarm indication takes the form of a red flashing LED that is easily visible 360°.It is possible to activate a remote external detector alarm display. The detector base no longer has to be directed due to the centralized position of the individual display.The integrated strain relief for interfloor cables prevents the removal of cables from the terminal after installation. The terminals for cable cross-sections up to 2.5 mm2 are very easily accessible.The detector bases have a mechanical removal lock (can be activated/deactivated).The detectors have a dust-repellent labyrinth and cap construction.The detectors comply with:•EN 54-7: 2000/A2 (2006)•EN 54-5: 03/2001 only detectors with thermal sensor •EN 54-17:2005•prEN 54-29: 2008 only FAP-DOT420, FAP-DOTC420•CEA 4021:07:2003Installation/configuration notes•Connectable to the fire panels FPA‑5000 andFPA‑1200 with the improved LSN system parameters •You can use the DO detectors only with the PanelController MPC version B and higher. The PanelController MPC‑xxxx‑A cannot be used.•In "Classic Mode" connectable to the LSN fire panels BZ 500 LSN, UEZ 2000 LSN, UGM 2020 and to other panels or their receiver modules with identicalconnection conditions, although with the previousLSN system parameters•During planning works, it is essential to adhere tonational standards and guidelines.•The detector can be painted (cap and base) andthereby adapted to the surrounding colour scheme.Note the information in the Painting Instructions(Document Number F.01U.089.231).Installation/configuration notes in accordance with VdS/VDE•The FAP‑DOTC420, FAP‑DOT420, FAP‑OTC 420, and FAP‑OT 420 types are planned in accordance with the guidelines for optical detectors if operated as optical detectors or as combined optical/thermal detectors (see DIN VDE 0833 Part 2 and VDS 2095)•If occasional disconnection of the optical unit(scattered light sensor) is required, planning must be based on the guidelines for heat detectors (see DIN VDE 0833 Part 2 and VDS 2095)•When planning fire barriers according to DIBt, note that the FAH‑T 420 (KKW) must be configured in accordance with class A1R.Technical specifications ElectricalMechanicsEnvironmental conditionsFurther characteristicsPlanningOrdering informationFAP‑O 420 Optical Smoke Detectoranalog addressable detector with optical sensor Order number FAP-O 420FAP‑OT 420 Multisensor Detector Optical/Thermal analog addressable detector with optical and thermal sensorOrder number FAP-OT 420FAP‑OTC 420 Multisensor Detector Optical/Thermal/ Chemicalanalog addressable detector with optical, thermal and chemical sensorOrder number FAP-OTC 420FAH‑T 420 Heat Detectoranalog addressable heat detector with thermal sensor (differential/thermal maximum)Order number FAH-T 420FAP‑O 420 KKW Optical Smoke Detectoranalog addressable detector with optical sensor for use in areas with increased radioactive radiation Order number FAP-O420-KKWFAH‑T420 KKW Heat Detectoranalog addressable heat detector (thermal differential and maximum) for use in areas with increased radioactive radiationOrder number FAH-T420-KKWFAP-DO420 Dual-Optical Smoke Detectoranalog addressable detector with two optical sensors Order number FAP-DO420FAP-DOT420 Multisensor Detector Dual-Optical, Ther-malanalog addressable detector with two optical and one thermal sensorOrder number FAP-DOT420FAP-DOTC420 Multisensor Detector Dual-Optical, Ther-mal, Chemicalanalog addressable detector with two optical, one thermal and one chemical sensorOrder number FAP-DOTC420AccessoriesMS 400 B Detector BaseBosch-branded detector base for surface mounted and flush-mounted cable feedOrder number MS 400 BMS 400 Detector BaseDetector base for surface mounted and flush-mounted cable feed, not branded.Order number MS 400MSC 420 Additional Base with Damp Room Sealfor surface-mounted cable feedOrder number MSC 420FAA-420-SEAL Damp Room Seal1 package = 10 piecesOrder number FAA-420-SEALFAA‑MSR 420 Detector Base with Relaywith a change-over relay (Form C)Order number FAA-MSR 420MS 420 LSN Detector Base with SpringWith integrated jumper elements that preserve the loop function if the detector is removedOrder number MS 420FNM-420-A-BS-WH Base Sounder Indoor, whiteanalog addressable base sounder for indoor use, white Order number FNM-420-A-BS-WHMSS 401 LSN Detector Base Sounder Whitefor direct connection to the LSN with direct separate power supplyOrder number MSS 401SSK 400 Protective Dust Cover(packing unit = 10 units)Order number SSK 400TP4 400 Support Plate for Detector Identification (packing unit = 50 units)Order number TP4 400TP8 400 Support Plate for Detector Identification (packing unit = 50 units)Order number TP8 400SK 400 Protective Basketprevents damageOrder number SK 400MH 400 Detector Heating Elementusable at locations where the functional safety of the detector might be impaired by condensationOrder number MH 400WA400 Detector ConsoleConsole for DIBt compliant mounting of detectors above doors etc., including detector baseOrder number WA400Mounting Bracket for Fire Detectors on False Floor StiltsOrder number FMX-DET-MBDual-optical/thermal/ chemical Dual-optical/thermal Dual-optical optical/thermal/chemicaloptical/thermal15 V DC . . . 33 V DC15 V DC . . . 33 V DC15 V DC . . . 33 V DC15 V DC . . . 33 V DC15 V DC . . . 33 V DC < 0.55 mA< 0.55 mA< 0.55 mA< 0.55 mA< 0.55 mAIP 40, IP 43 with MSF 400IP 40, IP 43 withMSF 400IP 40, IP 43 withMSF 400IP 40, IP 43 withMSF 400IP 40, IP 43 withMSF 400-10 °C . . . +50 °C-20 °C . . . +50 °C-20 °C . . . +65 °C-10 °C . . . +50 °C-20 °C . . . +50 °Cmax. 120 m²max. 120 m²max. 120 m²max. 120 m²max. 120 m²16 m16 m16 m16 m16 myellow loop black loopFAH‑T420 KKW HeatDetectoroptical thermal differential/thermal maximum optical thermal differential/thermal maximum15 V DC . . . 33 V DC15 V DC . . . 33 V DC15 V DC . . . 33 V DC15 V DC . . . 33 V DC < 0.55 mA< 0.55 mA< 0.55 mA< 0.55 mAIP 40, IP 43 with MSF 400IP 40, IP 43 withMSF 400IP 40, IP 43 withMSF 400IP 40, IP 43 withMSF 400-20 °C . . . +65 °C-20 °C . . . +50 °C-20 °C . . . +65 °C-20 °C . . . +50 °Cmax. 120 m²max. 40 m²max. 120 m²max. 40 m²16 m7.5 m16 m7.5 mRepresented by:Europe, Middle East, Africa:Germany:North America:Asia-Pacific:Bosch Security Systems B.V.P.O. Box 800025600 JB Eindhoven, The Netherlands Phone: + 31 40 2577 284****************************** Bosch Sicherheitssysteme GmbHRobert-Bosch-Ring 585630 GrasbrunnGermanyBosch Security Systems, Inc.130 Perinton ParkwayFairport, New York, 14450, USAPhone: +1 800 289 0096Fax: +1 585 223 9180*******************.comRobert Bosch (SEA) Pte Ltd, Security Systems11 Bishan Street 21Singapore 573943Phone: +65 6571 2808Fax: +65 6571 2699*****************************© Bosch Security Systems 2016 | Data subject to change without notice 1255703563 | en, V19, 09. Aug 2016。