博朗9340说明书

博朗料理机4199说明书
将清水倒入博朗料理机杯中，然后盖上盖子，点击“冲洗”键，再点击“开始”，将博朗料理机杯子洗一遍。

洗好后，将水倒掉，把你准备的食材倒入博朗料理机杯中，如果你想打果汁，就点击“果蔬汁”功能键，想打豆浆就点“豆浆”功能键，然后点击“开始”就可以了。

如果你是打豆浆或者煮粥，煮好后想保温，那就点击“保温”键。

将食材放入博朗料理机杯中后，不想立即煮，可以点击“预约”功能键，预约时间，到点了博朗料理机自动开始工作，非常方便。

博朗料理机可以用来打米糊、绞肉、煮粥、煮豆浆、打果汁、蔬菜汁、玉米汁、各种汤、米昔、沙冰等，功能很强大。

9395cc 9394cc 9390cc 9385cc 9384cc 9381cc 9380cc 9376cc 9375cc 9370cc 9365cc 9360cc 9355s9350s9345s9340s9335s9330s9325s9399sType 5793 99161149517Series 910a* 15a15bEnglishOur products are designed to meet the highest standards of quality, functionality and design. We hope you enjoy your new Braun product.Read these instructions completely, they contain safety information. Keep them for future reference.ImportantYour appliance is provided with a power supply, which has an inte-grated transformer (Safety Extra Low Voltage). Do not exchange or tamper with any part of it, otherwise there is risk of an electric shock. Only use the power supply provided with your appliance. If the appliance is marked 492, you can use it with any Braun power supply 492-XXXX.This appliance is suitable for cleaning under running water and use in a bathtub or shower. For safety reasons, it can only be operated cordless. Detach the shaver from the power supply before using it with water.Do not use if the appliance, the foil or the power supply are dam-aged.This appliance can be used by children aged from 8 years and above and persons with reduced physical, sensory or mental capabilities or lack of experience and knowledge if they have been given supervision or instruction concerning the safe use of the appliance and understand the hazards involved. Children shall not play with the appliance. Cleaning and user maintenance shall not be made by children unless they are older than 8 years and super-vised.WarningKeep power supply, charging stand* and Clean & Charge Station* dry.Clean&Charge Station*To prevent the cleaning fluid from leaking, ensure that the Clean & Charge Station is placed on a flat surface. When a cleaning cartridge is installed, do not tip, move suddenly or transport the station in any way as cleaning fluid might spill out of the cartridge. Do not place the station inside a mirror cabinet, nor place it on a polished or lacquered surface.The cleaning cartridge contains a highly flammable liquid so keep it away from sources of ignition. Do not expose to direct sunlight and cigarette smoking nor store it over a radiator.Do not refill the cartridge and use only original Braun refill cartridges.*not with all models1 Foil & Cutter cassette2 Cassette release buttons3 Multi Head Lock switch4 On / off buttondisplay**5 Shaver5a Travel lock5b Replacement indicator for Foil & Cutter cassette5c Status segments5d Minutes left display5e Cleaning indicator*5f Plug reminder5g Battery icon*trimmer6 Precisioncontacts7 Shaver-to-station8 Release button for precision trimmer9 Shaver power socket10 Power supply**10a Charging stand*/**11 Travel case* not with all models (see display box)** design can differFor electric specifications, see printing on the power supply.•A full charge takes 1 hour and provides up to 60 minutes of cordless shaving time. This may vary depending on your beard growth and ambient temperature.•Recommended ambient temperature for charging is 5 °C to 35 °C, for storage and shaving it is 15 °C to 35 °C. The battery may not charge properly or at all under extremely low or high temperatures.•Do not expose the appliance to temperatures higher than 50 °C for extended periods of time.•When the shaver is connected to an electrical outlet, it may take some minutes until the display illuminates.•Connect the shaver to an electrical outlet by snapping the power supply (10) into the power socket of the shaver (9) / the charging stand (10a). For cc models plug into the station power socket (see chapter «Clean & Charge Station»).•For first-time charge, charge continuously for at least 1 hour.•The actual charge status is shown on the display.•The display information is dependent on the model.•Some models only show icons during charging or operation. On other modelsa series of icons is also shown after the shaver has been turned off.UsageMake sure that the shaver is disconnected from the power supply. Press the on / off button (4) to operate the shaver.Tips for a perfect shave1. Position the shaver at the right angle (90°) to your skin.2. Stretch your skin slightly with your hand.3. Shave against the direction of your beard growth.Multi Head Lock switch (head lock)The shaver head can be locked in five positions to shave hard-to-reach areas (e.g.•Slide the Multi Head Lock switch (3) down to lock the shaver head.•Move the shaver head manually to your desired position.•For automatic cleaning in the Clean & Charge Station the head lock needs to be released.Precision trimmerThe trimmer can be used to trim sideburns, moustache or beard.•Press the release button (8) and slide the trimmer (6) upwards.Travel lockThe shaver can be locked to avoid unintended starting of the motor (e.g. for storing in a suitcase).•Press the on / off button (4) for 5 seconds to lock / unlock the shaver. This is confirmed by a beep sound and the lock icon appearing / disappearing on the display.Foil replacementTo maintain 100% shaving performance, replace the Foil & Cutter cassette (1), when the foil replacement indicator lights up (and no status segments are visible).•To remove the Foil & Cutter cassette press the release buttons (2).•Press the on / off button for 10 seconds to reset the counter.•Afterwards you need to unlock the shaver (see chapter «Travel lock»).•On some shaver models the replacement indicator will reset automatically after7 shaves.Cleaning under running waterEspecially important after foam or gel usage•Switch on the shaver cordless and rinse the shaver head under hot running water until all residues have been removed. You may use liquid soap without abrasive substances. Rinse off all foam and let the shaver run for a few more seconds.•Next, switch off the shaver, press the release buttons (2) to remove the Foil & Cutter cassette (1) and let it dry.•If you regularly clean the shaver under water, apply a drop of light machine oil on top of the Foil & Cutter cassette once a week.The shaver needs to be cleaned under running water after each foam or gel usage!Cleaning with a brush•Switch off the shaver. Remove the Foil & Cutter cassette (1) and tap it out on a flat surface. Using the brush, clean the inner area of the pivoting head. Do not clean the cassette with the brush as this may damage it!The Clean & Charge Station has been developed for cleaning, charging, lubricating,12 Station power socket13 Lift button for cartridge exchange14 Station-to-shaver contacts15 Clean & Charge Station display15a L evel indicator15b Status light15c Cleaning program indicators*16 Start button17 Cleaning cartridge* not with all models (see display box)•Remove the protection foil from the C & C display.•Press the lift button (13) at the rear side of the C & C to lift the housing.•Hold the cleaning cartridge (17) down on a flat, stable surface (e.g. table).•Carefully remove the lid from the cartridge.•Slide the cartridge from the rear side into the base of the station until it snaps in.•Slowly close the housing by pushing it down until it locks.•Using the power supply (10), connect the station power socket (12) to an electrical outlet.Important: The shaver needs to be dry and free from any foam, gel or soap residue!•Insert the shaver in the C & C upside down, with the front showing and head lock (3) released.•The contacts (7) on the back of the shaver need to align with the contacts (14) in the C & C. Push the shaver backwards in the correct position. A beep sound confirms that the shaver sits properly in the C & C.•Only C & C with cleaning program selection: The C & C analyses the hygiene status. The status is shown by the cleaning program indicators (15c) in the C & C display (15). Charging the shaver in the C & CCharging will start automatically when the shaver has been inserted properly. Cleaning the shaver in the C & CWhen the cleaning indicator lights up on the shaver display, insert the shaver into the C & C, as described above.Cleaning programs (not with all models)short / economical cleaningnormal level of cleaningcleaningEach cleaning program consists of several cycles, where cleaning fluid is flushedAutomatic cleaningStart the cleaning process by pressing the start button (16). If status light (15b) does not shine (C & C switches to stand-by after ca. 10 minutes), press start button twice. Otherwise, cleaning will not start.Depending on your model and/or program selected, the cleaning time takes up to3 minutes and afterwards a fan runs. During this time the status light (15b) blinks. After cleaning, drying and charging is completed, all indicators turn off.Hold the C & C with one hand and tilt the shaver slightly to the front to release it. When the level indicator (15a) lights up permanently red, the remaining fluid in the cartridge is sufficient for about 3 more cycles. When the level indicator blinks red, the cartridge needs to be replaced – about every 4 weeks when used daily.After having pressed the lift button (13) to open the housing, wait for a few seconds before removing the used cartridge to avoid any dripping. Before discarding the used cartridge, make sure to close the openings using the lid of the new cartridge, since the used cartridge will contain contaminated cleaning solution.The hygienic cleaning cartridge contains ethanol or isopropanol (specification see cartridge), which once opened will naturally evaporate slowly. Therefore, each cartridge, if not used daily, should be replaced after approximately 8 weeks. The cleaning cartridge also contains lubricants for the shaving system, which may leave residual marks on the outer foil frame and the cleaning chamber of the C & C. These marks can be removed easily by wiping gently with a damp cloth and do not impact the shaver and its performance in any way.Braun recommends changing your shaver’s Foil & Cutter cassette every 18 months to maintain your shaver’s maximum performance.Available at your dealer or Braun Service Centres:•Foil & Cutter cassette: 92S/92M•Cleaning Cartridge: CCR•Braun Shaver cleaner sprayProduct contains batteries and/or recyclable electric waste. For environment protection, do not dispose of in household waste, but for recycling take toelectric waste collection points provided in your country.The cleaning cartridge can be disposed of with regular household waste.。

篇一：博朗产品说明书全系列buran博朗系列超细干粉自动灭火装置南京燕苑博朗消防设备有限公司目录第一部分第二部分第三部分第四部分第五部分第六部分悬挂式超细干粉灭火装置1 适用范围2 技术性能3 结构和工作原理4 运输、保管注意事项5 安装注意事项6 维护注意事项7 装箱单8 售后服务悬挂式超细干粉灭火装置1 适用范围2 技术性能3 结构和工作原理4 运输、保管注意事项5 安装注意事项6 维护注意事项7 装箱单8 售后服务悬挂式超细干粉灭火装置1 适用范围2 技术性能3 结构和工作原理4 运输、保管注意事项5 安装注意事项6 维护注意事项7 装箱单8 售后服务自动温感启动器手动启动功能模块1 概述2 探测器性能特点3 主要技术指标4 安装方法5 使用方法6 维护安装注意事项备注 fzxa2.5-buran fzxa5-buran fzxa8-buran第一部分 fzxa2.5-buran悬挂式超细干粉灭火装置1 适用范围1.1 能迅速扑灭a、b、c类火灾和带电电气火灾。

如生产车间、办公室、小型仓库、商店、配电房等层高比较小的相对封闭空间及火车、船舶等交通工具消防使用。

1.2 防爆标志exibiibt32 技术性能2.1 外形尺寸（含固定架；mm）直径 ??????????????200±5高度??????????????375±52.2 灭火装置重量（kg）?????????????????????6.0±0.5 2.3 灭火超细干粉重量（kg）???????????????????2.5±0.125 2.4保护面积、体积（不密闭程度5%）2.5自动温感启动器启动温度（℃）???????????????? ≥70 2.6启动电流（a）????????????????????????≥1 2.7 检查电启动的安全电流（ma）????????????????≤150 2.8 喷射时间（秒）????????????????????????≤5 2.9 灭火时间（秒）???????????????????????≤1 2.10 使用环境温度（℃）?????????????????? －40～＋50 2.11 装置启动有效期（年）?????????????????????10 2.12 可人控电启动或与火灾自动报警系统配套使用。

博朗听书机使用手册EV960 V2.0目录一. 本机概况-------------------------------------------------------------------21.1功能特点-----------------------------------------------------------------21.2示意图-------------------------------------------------------------------21.3按键介绍-----------------------------------------------------------------31.4开/关机、开机密码及背光--------------------------------------------------31.5充电---------------------------------------------------------------------41.6磁盘选择-----------------------------------------------------------------41.7界面图标说明-------------------------------------------------------------4二. 操作过程-------------------------------------------------------------------42.1阅读电子书---------------------------------------------------------------42.2 朗读---------------------------------------------------------------------42.3听音乐-------------------------------------------------------------------52.4录音及录音回放-----------------------------------------------------------52.5系统功能设置-------------------------------------------------------------5三. 规格参数、注意事项及简单故障处理-------------------------------------------5四. 电脑驱动程序安装说明-------------------------------------------------------6五. 电脑驱动程序使用说明-------------------------------------------------------65.1电脑驱动程序功能介绍-----------------------------------------------------65.2 DOC格式文件转为TXT格式-------------------------------------------------75.3听书机程序烧录-----------------------------------------------------------7前言感谢您使用广州博朗电子产品有限公司的产品。

Post Office Box 29, Mount Holly, N.C. 28120 USA Phone (704) 822-2993 Fax (704) 822-1292E-mail: BRAUNINST @ Post O Ph E-ffice Box 1106, D71301 Waiblingenone (+49) 07151/956230 Fax (+49) 07151/956250 mail: info @ braun-tacho.de ernet: www.braun-tacho.deIntManualE16A323 (with RS232-Interface, Board Mounting) E16E323 (with RS232-Interface, 19" Rack)E16A324 (with Profibus-Interface, Board Mounting) E16E324 (with Profibus-Interface, 19" Rack)Turbine Overspeed Protection Systemwith SIL3/IEC61508 ApprovalGenerator E1696.31 Monitor E1655.41Monitor E1655.41 Monitor E1655.41Note: Shown is model E16E323Contents page Characteristics (3)FunctionStructure (3)SystemSpeed Sensors (3)Electronics (3)SystemMonitor E1655 (4)Test Generator E1696 (4)Alarms provided by the system (4)Alarms (4)TripOverspeedWarning Alarms (4)ChannelSystem Failure Alarms (4)Modules (5)E1655Overspeed Setpoint (SP1) (5)Sensor Failure Monitor (5)Sensor Pulse Train Comparison (5)Low Speed Check (SP2) (5)External Trip Input (6)Input (6)SignalSensorSensor Signal Repeater (6)Testing (7)E1696 Generator (7)Automatic test routine (7)function (8)WatchdogFailure signals (8)Display and Keys of E1696 (9)Error-Messages of E1696 (10)Display and Keys of E1655 (11)Error-Messages of E1655 (11)Programming of the modules (12)parameters (12)toAccessListing of E1655 (13)ParameterParameters of E1655 (14)Listing of E1696 (19)ParameterParameters of E1696 (19)Function Diagram (24)Diagram (25)WiringRear View of 19"Rack (E-Version) (26)ElectricalSpecifications (27)Dimensions of E-Version (19" Rack) (28)A-Version (Board Mounting) (30)DimensionsofSummary of Versions and Spare Part Recommendation (31)Function CharacteristicsTurbine Speed Monitoring against overspeed with redundancy by 3 independent channels with trip relay outputs 1 each per channel.Function Test Facility with discrete selection by external signals, or automatic test routine with watchdog and system failure warning. 3 channel structure with independent monitoring modulesoptions for externally controlled test or automatic test routineEach channel has its own comprehensive measurement and alarm section,realized by a Monitor Module in each channel. Measurement is based on thefast responding digital pulse interval principle with automatic floating numberof periods. Inputs include sensor monitoring. Each of the three MonitorModules ends up to an alarm outputs (breaking overspeed trip circuit). Anyfailure of sensor or measuring function detected also sets the trip output of themonitor to overspeed position. Further, each channel releases its own failurewarning signal, free available to the periphery as N/O contact.The overall response to an overspeed condition is shorter than 15 millisec(plus 1 pulse interval of the input pulse train).fast response to overspeedEach module within the system has its own data port at the front, usable forthe configuration of the module, and also for data calling. Available as RS232(standard) or as PROFIBUS DP Interface.Data interface facilitySystem Structure(see also function diagram)Speed Sensors3 Hall-Effect based speed sensors series A5S... are placed at the turbine shaftfor a non-contact sensing of its rotational speed. Milled slots in the shaft, or apole wheel, form a profile to generate a pulse frequency corresponding to thespeed. The sensors have an incorporated signal amplifier providing anadequate signal level for the transmission to the E16 Electronics.Non-contact speed sensingSystem ElectronicsThe E16 Electronics includes 3 Monitor Modules E1655, one each for each channel A, B, C. Further, 1 Test Generator Module E1696.They are plugged into a card file, which is ready wired to perform the monitoring function. Terminal strips connect to the periphery. The System and its ModulesMonitor E1655This module provides:Sensor circuit monitoring and sensor signal lead monitoring, sensors pulse train comparison.Sensor signal repeating output.Digital speed measurement with display in RPM terms.Overspeed trip setpoint (SP1) 2 alarm signal outputs,also offering the facility of an external alarm control.Low end setpoint (SP2) to perform the plausibility check,with starter facility.“channel warning alarm” relay output"sensor failure alarm" relay output.All functions are digital, with 5 digits resolution and accuracy of+ 0.01% + 1 in the last digit.Parameters are programmable from the front keys (with access lock), or via data interface.Functions included into the Monitor module E1655. Detailed description on following pagesTest Generator E1696This module provides:Adjustable frequency generator to substitute the sensor signal under test condition, with display in RPM terms.Channel test selection by external control, or automatic test cycle with “System Failure” outputs. Functions included into the Test Module E1696Detailed Description on following pagesAlarms provided by the System Overspeed Trip AlarmsThe trip alarm of the monitor module E1655 within each channel will be released under one or more of these conditions:1.overspeed setpoint (SP1) exceeded,2.sensor failure detected (supply and signal lead monitor),3.sensor signal voltage failure detected (only at zero speed)4.sensor pulse train discrepancy detected,5.low end setpoint (SP2) not exceeded after starter phase,6.external alarm control actuated7.self test failure conditions for channel trip alarmChannel warning alarmThis signal contact, available from each channel to the periphery, breaks under one or more of these conditions:1.overspeed setpoint (SP1) exceeded (if programmed).2.external trip control actuated,3.low end setpoint (SP2) not exceeded after starter phase4.sensor pulse train discrepancy detected5.self test failure of a neighbor channel. conditions for channel warning alarmSensor failure alarmThis signal contact, available from each channel to the periphery, breaks under one or more of these conditions:1.sensor failure detected (supply and signal lead monitor),2.sensor signal level failure detected. conditions for sensor failure alarmSystem Failure warningsThe System Failure Alarms 1 and 2 , available as (N/O) contact will be signalized if one of the channels does not duly respond to the test procedure. see section Automatic Test Cycle for details of System failure warningsThe E1655 ModulesAlarms and Checks performedOverspeed Setpoint (SP1)The overspeed setpoint SP1 can be programmed to any speed level, in terms of RPM. Its setting can be called to display. Further programmable are the hysteresis width, and the event memory. If not memorized, the signal returns to “no excess” with the measurement decreasing below setpoint (minus hysteresis), otherwise it must be cancelled by an external acknowledge signal.details of the overspeed alarm (SP1)Sensor Failure MonitorThis function includes 2 sections, the sensor supply monitor and the sensor signal lead monitor. Both have certain preconditions, as explained below. They are met by all BRAUN sensors of series A5S... with push/pull output stage, possibly not by others. Check the sensor data sheet for validity. If not applicable, disengage the function.The supply monitor checks the current drain, and the voltage of the sensor supply lead. Thereby it detects a break as well as a short circuit in the sensor connection. Obviously, this requires a sensor with adequate power consumption (>7ma).The sensor signal lead monitor checks the level of this input to be either definitely on high or on low level, as a push/pull output is, if not broken. As primarily intended to monitor the signal lead in standstill state, the function automatically disengages when the sensor supplies a signal frequency. A failure thus detected will be memorized or not, as programmed.Sensor Failure Monitor Sensor Pulse Train ComparisonThis function checks for proper sensor signals during run of the machine. Each monitor Module E1655 compares the pulse train delivered from its own sensor to those of its both neighbor channels. If they differ, the monitor finds its own sensor to be faulty. This checks performs at any frequency, and does not depend on a speed measurement.Active sensor signal checkLow Speed Check (SP2)If the speed measurement drops below the (programmable) setpoint SP2 of the Monitor Module during operation, from whatever reason, a failure will be signalized. A very comprehensive check, including sensor and measurement function.The level SP2 will be set at the low speed end, to 30 % for instance. For start-up, it will be overrun by the starter function of the E1655 module, activated by an auxiliary contact from the machine control, and held for a programmable period of time (0...999 sec) after its end.This alarm is programmable to be memorized or not, or to be disengaged.Low speed alarm checks for full performanceDisplayThe numerical display of the E1655 module serves as a programming aid (if not programmed by the data interface), indicating the program group number, the step number, and the parameter addressed.When not in the programming phase, the display reads the actually measured speed, in terms of RPM or any other desired unit (also during the test phase). By pushbuttons, the setpoints SP1 and SP2 can be called (but not modified that way).By red and green LEDs, the module indicates its alarm conditions for SP1 and SP2.External Trip InputIn addition to the alarm and failure conditions as described before, the trip alarm may also be released by an external binary signal. This feature allows to include a condition from outside the speed monitor into the trip release, maybe a temperature signal, or a pressure contact. The high/low level for the response of this control input is adjustable. Trip release by external signalSensor Signal InputThe input accepts and feeds preferably 3-leads sensors, as BRAUN sensorseries A5S.. with p/p output. Others may give restrictions, in frequency range,transmission distance, and the safety checks that can be performed.By a control signal from the Test Generator Module, the monitor input isswitched to a second input, which receives the test frequency as emitted fromthe Test Generator.Sensor signal inputSensor Signal RepeaterThis isolated output repeats the signal as received from the sensor to the periphery. Feeds for instance a speed controller, or external display. The output is firmly tied to the sensor signal of the specific channel, not affected when the monitor is switched to the test frequency. Isolated sensor signal repetitionTesting with E1696 Test Generator Module Externally controlled test procedureThe E1696 provides a test frequency to be switched to the channels A, B, C of the system, one after the other, by means of external (DC) control signals. This frequency can be set (in terms of RPM) at the test generator, and then tuned up and down by pushbutton. The front display reads the actual frequency.3 control inputs to the system are assigned to the 3 channels A,B,C. The one input held high switches its channel to test, substituting the sensor signal by the frequency of the test generator. Note: the repeater output of the module remains with the sensor input, not affected by the test procedure. The control inputs are locked against each other, to prevent of inadvertently switching 2 or 3 channel to test at the same time (this protection can be disengaged by program).The channel under test reads the test frequency as received and measured at its numerical display (by RPM). If it exceeds its setpoint, it will signalize o-verspeed by its alarm relay and LED display.A contact set of an external voter must signalize the correct response to the test generator. externally controlled test proceduresystem reaction to externally controlled testAutomatic Test RoutineThe Test Module repeats the automatic test routine with an adjustable time interval (1 ... 9 999 min).The test routine itself is performed in three steps. With each step, the three monitors are tested subsequently.Step one:Simulated test speed 1 (n >SP1, feedback of tested channel must be trip), Step two:Simulated test speed 2 (n <SP1, feedback of tested channel must be no trip), Step three:Forced trip (n <SP1, feedback of tested channel must be trip).During step three, the monitor receives test speed 2.If measurement and alarming serve duly, the Monitor Module under test must release its trip alarm with step 1 at simulated test speed 1, but must not with step 2 at simulated test speed 2.With step 3 the forced trip input of the monitor is tested. At step 3 each monitor is switched to simulated test speed 2 (below overspeed) but the tested channel must feed back the trip signal.The Test Module checks for a corresponding response. It is returned from a contact set of an external device (magnetic valve).With an incorrect response from a channel, the routine immediately interrupts (to prevent the entire system of an unfounded overspeed trip alarm to the machine) and a system failure signal is released.The Test Module throws the faulty channel into its overspeed condition (by means of the forced trip input). Thus, the overspeed safety is maintained – the system now responds with a 1 of 2 characteristics, in other words, if just one other channel detects overspeed or an internal fault, the turbine will be shut down. regularly performed automatic test routine: checking the response of all channels to 2 test frequencies safety maintained after failure in one channelWatchdog FunctionThe watchdog section on the E1696 module performs an identical test step sequence, independent from the above but in close synchronism. If both, test routine and watchdog are not at the same step at the same moment, system failure is signalized. But more, the above mentioned measure of forcing a faulty channel to its overspeed condition also requires the said coincidence between routine cycle and watch dog. In other words, the measure is taken only if the stepping sequence up to this moment was correct. This prevents the system from an unfounded overspeed alarming, and thus further increases the reliability, and the availability of the machine.Incorrect stepping however generates a warning, by the System Failure alarm output, which should immediately be observed. watchdog checks for correct stepping sequenceand crosschecks trip signalsFailure signals to the peripheryThe Test Generator Module E1696 provides failure signals (1) and (2), as N/O relay contacts, de-energized to announce a failure, also with power supply missing.Both respond to an alarm from one or more of the channels A, B, C, and to a failure detected in the testing sequence, or to an incorrect performance of one of the Monitor Modules during test. system failure signals from test and watchdog sectionDisplay and Keys of E1696During auto test sequenceGenerator E1696LED2: flashing = channel B is testedOn = channel B signalizes tripLED3: flashing = channel C is testedchannel C signalizes tripLED4: On = Auto-Test-Mode activeOff = Manual-Test-Mode activeIn normal operation the display reads:With key the value of test speed 1,with key the value of test speed 2.With keys and depressed : the remaining time (XXXX.X minutes) until the next auto test sequence is started Start of an auto test sequenceAn auto test sequence can be manually started by depressing keys and .Reset of latched alarms with key .Display (error) messages refer to next page.Error-messages of test generator E1696During normal operation:C0-E1 : channel A signalizes trip, B and C notC0-E2 : channel B signalizes trip, A and C notC0-E3 : channel A and B signalize trip, C notC0-E4 : channel C signalizes trip, A and B notC0-E5 : channel A and C signalize trip, B notC0-E6 : channel B and C signalize trip, A notDuring an auto-test-sequence:C1-E1 : incorrect feedback of channel A at simulated test speed 1 C2-E1 : incorrect feedback of channel B at simulated test speed 1 C3-E1 : incorrect feedback of channel C at simulated test speed 1 C1-E2 : incorrect feedback of channel A at simulated test speed 2 C2-E2 : incorrect feedback of channel B at simulated test speed 2 C3-E2 : incorrect feedback of channel C at simulated test speed 2 C1-E3 : incorrect feedback of channel A at test of forced tripC2-E3 : incorrect feedback of channel B at test of forced tripC3-E3 : incorrect feedback of channel C at test of forced tripC9-E1 : channel A not ready for testC9-E2 : channel B not ready for testC9-E3 : channel A and B not ready for testC9-E4 : channel C not ready for testC9-E5 : channel A and C not ready for testC9-E6 : channel B and C not ready for testC9-E7 : channel A, B and C not ready for test Error-Messages from E1696 (C = Check, E = Error)Other display-messagesFC-1 : test of forced tripSELF : E1696 performs a self test routine (subsequent to each auto testsequence)FC = Function CheckDisplay and keys of E1655Monitor E1655In normal operation the display readsWith key the value of SP1,with key the value of SP2.Error messages(SE = Selftest-Error, CE = Check-Error)SE-01: sensor supply failure or sensor lead failure,SE-02: pulse train difference,SE-03: SE-01 and SE-02 simultaneously,SE-04: low end failure,SE-05: SE-01 and SE-04 simultaneously,SE-06: SE-02 and SE-04 simultaneously,SE-07: SE-01, SE-02 and SE-04 simultaneously.SE-10 : test speed of generator = zero (= failure of test generator)ortest time exceeds 10 minutes (= failure of test generator)orneighbourchannelsignalizes permanent self test (= failure of neighbor channel)SE-20 : neighbour channel fails to produce self test within 5 hours time of operation (= failure of neighbor channel) CE-1 : monitor switched to forced trip by E1696Reset of latched alarms with keys and .Other display-messages :(FC = Function Check)FC-1 : test of forced trip by E1696FC-2 : external trip control actuatedSELF : self test of monitor (periodically repeated after each 2 hours)Programming of the modulesAccess to parametersPrinciple: Select a Parameter by it's "Name" Pgg.ss,where gg = Parameter- Group-No. andss = Step-No. within Group,then verify the value and change it according the application Programming:To enter the programming phase, press both keys and simultaneously; insteadof normal display, P00.00 will be shown.Select group- or. step-no. with keys , .Toggle between group- and step-range with key .Show parameter's value with key .Select (move ) active digit with key .Adjust figure in active digit with keys , .Acknowledge with key , Cancel (old value still valid) with key .Return to normal operation with keyExample: change value of parameter P01.01 from 2386 to 2387 or 2385:Enter = new, changed value is validParameter listing of Monitors E1655:Summary of programming steps and their initial parameters (default values) as set on deliveryprogram- data set on delivery Step No. parameter function (initial data)P00 .00 access code request 0000 .01 new code figure 0000.02 lock status (1 = unlocked, 0 = locked) 1 = unlockedP01 .00 input: scaling decimals of input signal frequency 0 = none .01 value of nominal input frequency (Hz) 10000.02 decimals of corresponding speed 0 = none.03 corresponding speed (unit as desired) 10000.04 low end of speed range 00001P02 .00 zeroed LSDs in display 0 = none .01 display updating sequence (X.X sec) 0.3 (sec).02 time elapse of starter phase (XXX sec) 000 (sec).03 truth-level of external trip signal (0 = low, 1 = high) 1 = high.04 sensor monitoring (0=off,1=on,2=on,latched) 1 = on.05 mode of sensor monitoring (0=none,1=current,2=voltage,3=both) 1 = current.06 lowspeed monitoring (0=off,1=on,2=on,latched) 1 = on.07 sensor signal deviation monitoring (0=off,1=on) 0 = off.08 reset interval of deviation counters (1....9999 pulses) 1000.09 allowable deviation between counters (0...99 pulses) 50.10 limit of error counter (1...99 deviation detections) 5.11 warning alarm at overspeed (0=no,1=yes,2=yes and at test overspeed) 1 = yesP03 .00 setpoint (SP1) in unit as programmed for display 10000 .01 hysteresis bandwidth SP1 (XX.X % of SP1) 05.0 (%).02 alarm to be latched (0=no, 1=yes) 0 = noP04 .00 setpoint (SP2) in unit as programmed for display 00100 .01 hysteresis bandwidth SP2 (XX.X % of SP2) 05.0 (%).02 alarm to be latched (0=no, 1=yes) 0 = noP05 .00 hardware address added to device address (0=no,1=yes) 0 = no .01 device address (range 1...125) 001Parameter Group P00.xx of E1655:Data Access, PasswordKey figure to accessProgramming access to all parameters can be locked by a password number.If not properly served, the parameters may be called to display but not varied. If not properly served, the display reads -E1-,and any programming in a later program step will be rejected.Note:If the knowledge of the password number went lost it may be recalled to display by a procedure, as described in a separate sheet K0-095 (not included into these instructions). The code figure then appears by 4 digits.In a subsequent program step, a new code may be established, substituting the one previously valid.The key function may be disengaged by a next program step. With authorized access, set parameter to 1 in step No .02, to generally unlock the key. This may prove practical during the installation phase to facilitate the adjustments. Once installed, the key function should be reactivated, by programming parameter 0 in this step. Step P00.00:Code figure to access Step P00.01:new code figure Step P00.02: unlock access keyParameter Group P01.xx of E1655: Measurement Configuration, Scaling I nputScaling defines the relation between the input signal frequency (in terms of Hz), and the corresponding display (in terms of RPM). Both values are freely programmable by their decimals and numerical amount. Of course, they must refer to the same operation level. This reference point is recommended close to the high end of the intended operation range. In later operation however, it may be overrun without error.Scaling ExampleThe speed is measured by a contactless probe scanning a gear wheel on the turbine shaft with 90 teeth.Thus, a speed of 3000 rpm results in a signal frequency of 3000x90:60 (Hz) = 4500 (Hz). With this as the reference level, the following parameters are to be set:Step P01.00 parameter 0 (= no decimals)P01.01 parameter 04500P01.02 parameter 0 (= no decimals)P01.03 parameter 03000 scaling inputsignal frequency (Hz):Step P01.00 =number of decimals,Step P01.01= value. corresponding value of rpm: Step P01.02 =number of decimals,Step P01.03 = valueLow end for shut-offIf the speed falls lower than this level, the measurement will be cancelled to zero.The low end is programmed by the same terms, as defined for the speed by steps P01.02 and P01.03. Step P01.04 low end of operating rangeParameter Group P02.xx of E1655: Display, Starter time, Failure Monitoring LSDs on zeroIf the display of the speed uses 4 or more digits, for application reasons, the lesser significant digits (LSD) may appear fluctuating. To avoid irritations by not significant digits, a number of them may be permanently kept at zero. Set the parameter to the number of LSDs to be kept on zero. Step P02.00: zeroing LSDsDisplay updating sequenceIndependent from the response time used for other functions, the display may have its own up-dating sequence - again in the interest of stabilized and well legible readings. Set the parameter to the time in steps of 0.1 sec.A recommended value is 0.3 sec. Step P02.01: display updatingStarter time periodThis step sets the starter time period (elapse). Starter phase state for SP2 lasts from the beginning of the external starter signal plus the programmed time elapse following its end. Range 000...999 sec. StepP02.02:starter time elapseTruth level of External Trip SignalTo match the control source, and specific safety aspects, the parameter of this step defines either high or low signal level to make the condition true. StepP02.03:Truth level ofExternal Trip Signalparameter0 : high = control true1 : low = control trueEnable/Disable of sensor failure detectionSensors without power supply (for example inductive sensors) cannot be monitored against failure.If the sensor is monitored, it is possible to latch a failure alarm until it is reset. StepP02.04:Monitoring of sensorparameter0 : off1 : on, alarm not latched2 : on, alarm latchedMode of sensor monitoringThe sensor can be monitored versus current drain (alarm if current drops below 7 mamps or exceeds 150 mamps) and/or signal voltage level during zerospeed of the turbine.Note:Signal voltage level monitoring only possible with BRAUN sensors with incorporated push/pull output (series A5S...). StepP02.05:Mode of sensor monitoringparameter0 : no monitoring1 : current monitoring2 : voltage monitoring3 : current and voltageLowspeed monitoring (n < SP2)The lowspeed monitoring can be switched off. If the lowspeed monitoring is enabled, the speed of the turbine must exceed SP2 (after starter time has elapsed). StepP02.06:lowspeed monitoringparameter0 : off1 : on, alarm not latched2 : on, alarm latchedSensor Pulse Train ComparisonPurpose of this function:•Detection of a faulty position of the sensor (cleareance to big or wrong angular position) during starter phase of the turbine (n<SP2). •Deviation detection of the sensor signals during normal operation of the turbine (n>SP2).Function principle:The pulses of all three sensors are counted in each monitor. The main sensor of the monitor is detected as faulty if the main counter deviates from both neighbour counters. The allowable deviation between the counters is adjustable.The counters are periodically reset after an adjustable number of pulses or if a fault is detected.Subsequent counter evaluations that indicate a faulty sensor increase an error counter. This counter is reset by an evaluation that indicates a proper working sensor. If the error counter exceeds an adjustable limit, the alarm is released.Programming steps for deviation monitoring:Step P02.07 : monitoring on/offStep P02.08 : number of pulses for periodically reset of counters(range from 1 to 9999 pulses)Step P02.09 : allowable deviation between counters (range 1 to 99 pulses) Step P02.10 : limit of error counter(range from 1 to 99)Example:P02.07 set to 1 (monitoring on)P02.08 set to 1000 (counters will be reset after 1000 pulses, of any sensor)P02.09 set to 50 (allowable deviation of 50 pulses within 1000 pulses)P02.10 set to 5 (5 subsequent error detections until alarm is released)With above settings a non operational main sensor will be detected after 250 pulses of the other two sensors (5 error detections after 50 pulses). StepP02.07:sensor pulse train comparisonon/offparameter0 : off1 : onStep P02.08:number of pulses for reset ofpulse countersrange 0001 to 9999 pulsesStep P02.09:allowable deviation betweencounters until error counter isincreasedrange 01 to 99 pulsesStep P02.10:limit of error counter until alarmis releasedrange 01 to 99Warning alarm at overspeed conditionIt can be programmed whether the warning alarm will be released at a real overspeed condition or additionally at a test overspeed condition. StepP02.11:warning alarm at overspeedparameter0 : no1 : yes, only at real overspeed2 : yes, at real and test over-speed。

使用说明书(基本功能)！注意使用本产品时，请您先仔细阅读使用说明书，再正确操作。

版本 0SCHN为了创造更加美好的环境请您协作首先对您使用 Brother 产品表示衷心的感谢！Brother 公司致力于关爱地球环境，制定了“从产品开发到废弃，关爱地球环境”的基本方针。

当地的公民在环境保护活动中也应该对当地社会、环境两方面尽每个人的微薄之力。

因此，希望您能配合这个计划，作为环境保护活动的一环，在平时处理废弃物的时候能多加注意。

1不用的包装材料，为了能再次回收利用，请交付给当地相关回收公司进行处理。

2废弃耗材的处理，应遵守相关的法律和规定。

请根据相关法律和规定妥当处理。

3产品保养或修理需要更换零部件时，有不需要的电路板和电子零件，以及产品废弃时，请作为电子废弃物处理。

4关闭本产品电源开关后，在拨下电源插头的情况下耗电量是零。

5本产品中的部分零部件可以用于同一工厂生产的同系列机型上。

注：零部件的更换请联系 Brother 特约维修站。

中国环境标志声明1为了避免噪声干扰，建议将噪声大于 63dB 的设备放置于相对独立的区域。

2本设备可使用再生纸。

3确保在通风良好的地方使用本设备。

4Brother 提供设备和耗材回收服务。

关于回收方案的详细信息，请浏览网页/company/info/declaration/20090304.html。

©2012 Brother Industries, Ltd. 版权所有。

使用说明书及提供方式说明书名称说明书描述提供方式产品安全手册设置本设备前，请先阅读此手册。

请参见此手册了解商标和法规限制的信息。

中文版：印刷品/包装箱内英文版：PDF 文件/随机光盘/包装箱内快速安装指南遵循其中的说明设置本设备和安装适用于所用操作系统与连接类型的驱动程序和软件。

中文版：印刷品/包装箱内英文版：PDF 文件/随机光盘/包装箱内使用说明书(基本功能)了解传真、复印、扫描和直接打印的基本操作方法以及耗材的更换方法，并获取故障排除提示。