CCL300DL1-ADTD中文资料

ACCESSORIESLMSHELF = Mounting Shelf 300-450W MXSHELF = Mounting Shelf 72-200WOrdering InformationSERIES DC WATTAGE HEADS HEADS OPTIONS 1CCL = 6 Volt 6 Volt6 Volt3 = Three A = Ammeter 2TCL = 12 Volt75 = 75 Watts DY = 8 Watt, Tungsten 2 = Two ACF1 = 120 VAC Fuse 100 = 100 Watts DA = 18 Watt, Tungsten 1 = OneACF2 = 277 VAC Fuse 150 = 150 Watts DL = 25 Watt, Tungsten ACP1 = 120 VAC Power Switch 225 = 225 WattsDC = 30 Watt, Tungsten ACP2 = 277 VAC Power Switch AD = ACCU-TEST Self-Diagnostics 12 Volt (Includes standard voltmeter)12 VoltADAL = ACCU-TEST with Alarm150 = 150 Watt DNY = 12 Watt, Tungsten ADTD = ACCU-TEST with Time Delay 3200 = 200 Watt DE = 28 Watt, Tungsten DCP = DC Power Switch300 = 300 Watt DK = 25 Watt, Tungsten EX = Special Input Transformer (Specify voltage and frequency)450 = 450 WattDG = 30 Watt, TungstenTD1 = 120 VAC Time Delay 3TTD2 = 277 VAC Time Delay 3(Suggested lamp heads listedV = Voltmeter 2above. Refer to the Accessories Section for W = White Housingadditional lamp head choices.)CCL15016.0”(40.6 cm)TCL300, TCL4506.0”(15.2 cm)7.6”(19.3 cm)12.0”(30.5 cm)27.0”(12.7 cm)6.0”(15.2 cm)7.6”(19.3 cm)12.0”(30.5 cm)Notes:1) Some option combinations may impact UL list-ing. consult factory for specifics.2) Not available witj AD, ADAL, or ADTD options.3) 15 minute delay.元器件交易网Housing18 gauge steel housing with a tan epoxy powder coat finish.Knockouts provided for mounting up to three lamp heads.The suggested lamp head is the “D” Series round sealed beam Par 36 tungsten. To order lamp heads other than the suggested “D” head, refer to Chloride Accessories Section..Suggested SpecificationFurnish and install Chloride Systems emergency lighting unit model ________. The unit shall be constructed to meet Underwriter’s Laboratories, Inc. Standard #924and the National Electrical Code (NEC).INSTALLATION AND OPERATION -Unit shall be easily field connected to a 120 or 277 VAC, 60 hertz, unswitched power source. Installation must comply with the NEC as well as other applicable codes. Upon utility power failure or brownout, the unit shall automatically transfer to battery power and maintain the required illumina-tion level for a minimum period of 90 minutes. Upon restoration of utility power, the charger shall restore the battery to full charge within UL 924 requirements follow-ing a rated discharge of not more than 90 minutes.CHARGER -Product shall utilize a fully automatic, voltage regulated, two-rate current limited solid-state charger. The charging system shall maintain the battery at full capacity without the need for periodic exercising or equalization. The following features shall be standard: Low voltage disconnect (LVD), brownout protection and AC lockout.BATTERY -The battery shall be a low maintenance, free electrolyte, wet cell, lead calcium battery. The lead calcium battery shall provide trouble-free operation in temperatures up to 85°F (30°C).HOUSING -The unit housing shall be constructed of 18 gauge steel with a tan epoxy powder coat finish.Chloride SystemsISO8C1063R49/02 IH272 West Stag Park Service Road •Burgaw NC 28425Telephone: (910) 259 1000 •Facsimile: (800) 258 Lamp Head Photometrics(For DL, suggested head for CCL)(For DK, suggested head for TCL)Vertical203050100Up 2010feet 010Down 20.2.1406070.31.5Horizontal203050100Left 2010feet 010Right 20.2.1406070.31.5203050100Up 2010feet 010Down 20Photometric No. 3406070801.3.2.1.5Horizontal203050100Left 3010feet 01020Right 301.3.2.120.540607080。

产品描述D -300(LG)是世界上最小型双波长二两化碳传感器模块儿。

除了长寿命和方便使用以外很好的内置温度补偿和长期稳定性受畜产农家/温室/医院客户们等的欢迎。

D-300(LG) 的波特率选择，休止模式功能合低电流消耗设计。

传感器特点• 利用非色散红外(NDIR)原理空气中存在的CO₂探测传感器模块儿。

• 优秀的温度补偿性可靠高低温度上使用。

• 以MCDL 逻辑基础 ‘0’ppm 和 ‘400’ ppm 随时手动矫正可以使用。

.• 以ACDL 逻辑基础 定期自动矫正 不合适的地方（医院, 仓库，温室 等)也可以使用。

• 输出: TTL-UART(9,600/19,200/38,400BPS), I2C,ALARM, Analog Voltage/ PWM 。

•体积: 33 x 33 x 13.1mm （L x W x H ） •重量: 10 g •ELT Sensor D-300(LG) 使用说明书版本号 1.0D-300(LG)详述主要应用可广泛应用于住宅，公寓和医院等商业用楼内暖通制冷与室内空气质量监控仓库，车间内工业过程及安全防护监控, 温室等农业及绩畜产过程监控。

工作环境工作温度: -20 ~ 50℃工作湿度: 0 ~ 95% RH (物凝结条件), 0 ~ 99% RH (物凝结条件) (1)保管温度: -30℃~70℃寿命: 0 ~ 95%湿度下10年以上 (~ 99%湿度下5年以上)(1)CO2探测探测方式: NDIR (非色散红外方式)探测范围: 0~2,000 ppm (0 ~ 3,000/5,000/10,000ppm, 2%, 3%, 5%可选)精度: ±75ppm读数值(2)(3)(4)响应时间: T90 <150秒(1/e < 90秒)探测定期: 3秒预热时间: <30秒(出力基准), 5分(精度基准)电气规格输入电压: 5V ±5%( (5)平均电流：平值：23mA, 峰值< 400mA输出连接器：2毫米沥4个脚并10个脚或者侧边 2.54豪米13个管脚当中可选TTL高低电平位置：0≤V IL≤0.8, 2.0≤V IH≤ V DD, 0≤V OL≤0.4, 2.4≤V OH≤ V DD (Volt) 附属产品和增加功能(1) ‘G’ : 0~99%湿度(物凝结条件)下寿命10年以上(2) 10年寿命内精度减< 满量程（F.S.）的5%(3) CO2 0/400ppm 标准气体或者清净空气下进行手动校正(MCDL)10分种可以支持初期精度。

Product description• Compact dimensions for luminaire installation• For up to 20 DSI or DALI devices (max. 10 per output channel)• DALI IN input• 2 DALI/DSI output channels with adjustable offset from channel 2 to channel 1• 1 relais output• Sensor input for up to 4 basicDIM DGC sensors 5DPI 14• 2 switch inputs for on/off switching and dimming• Individual adjustment of the parameters withbasicDIM DGC Programmer orsoftware masterCONFIGURATOR• 5 years guarantee (conditions at )ÈWiring diagrams and installation examples, page 10basicDIM DGC Compact control moduleTechnical dataRated supply voltage220 – 240 V Mains frequency50 / 60 Hz Power 2.5 WStand-by power0.5 WCurrent draw, input (DALI bus) 2 mAMax. number of switched drivers2Max. Inrush current of the load (peak / duration)55 A / 400μs Typ. number of switching cycles150,000Max. resistive load500 WMax. inductive / capacitive load200 VA Dimming range 1 – 100 %tc70 °C Operating temperature0 ... +60 °C Storage temperature-25 ... +70 °C Type of protection IP20 Dimensions L x W x H159 x 30 x 21 mm basicDIM DGCCompact control moduleOrdering dataType Article number Mounting Packaging carton Weight per pc. basicDIM DGC28000920Luminaire installation10 pc(s).0.06 kgSpecific technical dataType Inputs Outputs CH2 as Link LineDimming switch Max. cable length at1.5 mm²Max. basicDIMDGC sensorsMax. sensor linelength at 0.2 –1.5 mm²Digital controlline DALI/DSIControl output per physicaloutput (devices)Maximum cablelength at 1.5mm²Voltage DC Maximum cablelength at 1.5mm²Number ofcombinablemodulesbasicDIM DGC double100 m410 m210100 m13 V100 m10 1 See data sheet 8.2 Switching cycles.Product description• Light measurement and motion detection• Up to 4 basicDIM DGC sensors on one basicDIM DGC• Can be remote controlled• Light measurement and motion detection can be deactivated • Individual adjustment of the parameters with basicDIM DGC Programmer or software masterCONFIGURATOR• Power supply via basicDIM DGCTechnical dataØ of detection range, mounted at a height of 2.5 m 4.5 mSwivel design noDetection angle84°Light measurement at the sensor head 110 – 650 lxInfra-red control range 5 mMax. mounting height 5 mOperating temperature0 ... +50 °CStorage temperature-25 ... +55 °CType of protection IP20basicDIM DGC Sensor 5DPI 14f44,4Ø13,916,41,9312,8219,7Ordering dataType Article numberPackaging,Weight per pc.1The measured value at the sensor head corresponds to approx. 15 to 2,000 lux on the surface measured.Product description• Mounting frame for attaching all 5DP 14f sensor directly to the luminaire housing• Shutter for preventing movement detection in one direction•Glow wire test with 750 °C according to EN 61347-15DPI 14f Mounting KitOrdering dataProduct description• Mounting frame for wired 5DP 14f sensors allowing direct mounting to the ceiling• Easy …click in“ installation of the sensor• IP20• Casing: plastic, white• UV stabilized plastic• DALI MSensor 5DPI 14 is powered via DALI circuit, basicDIM DGC Sensor 5DPI 14f powered via control unit• Optional shutter for reduction of movement detection area allowing to decrease the movement detection area from 360° to 240°• Mounting kit with screws and decorative plugs• 0.5 mm wiring for the sensor• Two 3 x 1.5 mm² clamps with cable management (2 entry points on oppsite sides)• Glow wire test with 750 °C according to EN 61347-1ACU Sensor Housing 14rs IP20Ordering databasicDIM DGC Sensor 5DPI 14rc65,45,5Ø46,75Ø58128Ordering dataTypeArticle number Packaging, Weight per pc.Product description• Light measurement and motion detection• Up to 4 basicDIM DGC sensors on one basicDIM DGC • Can be remote controlled• Light measurement and motion detection can be deactivated • Individual adjustment of the parameters with basicDIM DGC Programmer or software masterCONFIGURATOR • Power supply via basicDIM DGC Technical dataØ of detection range, mounted at a height of 2.5 m 4.5 m Swivel design no Detection angle84°Light measurement at the sensor head 110 – 650 lx Infra-red control range 5 m Max. mounting height 5 m Operating temperature 0 ... +50 °CStorage temperature -25 ... +55 °C Type of protectionIP201The measured value at the sensor head corresponds to approx. 15 to 2,000 lux on thesurface measured.Product description• Optional infra-red programming unit for basicDIM DGC • Setting of predefined discrete parameter values • Programmable functions such as light level, time delay,P.I.R., bright-out, power upbasicDIM DGC ProgrammerOrdering dataREMOTECONTROL IR6A C C E S -S O R I E SOrdering dataProduct description• Optional infra-red remote control • Switching on and off (On/Off button)• Dimming (Up/Down button)• Activation of automatic lighting control •Setting the threshold control point (Set button)Strain-relief setOrdering dataProduct description• Strain relief for up to 3 cables suitable for cable with diameter from 2.5 up to 9 mm • A: 2.5 – 5 mm diameter • B: 5 – 9 mm diameter • C: 5 – 9 mm diameter• Optional strain-relief set for independent applications • Transforms the unit into a full Class II compatible unit (e.g. for ceiling installation)• One set includes 2 pieces strain-reliefs • 5 years guarantee1. StandardsEN 55015EN 61000-3-2EN 61347-1EN 61347-2-11EN 61547EN 62386-101EN 60598-11.1 DALI standardThe basicDIM DGC is designed to control control gear with DALI standardIEC 60929 (DALI V0) and IEC 62386 (DALI V1).1.2 Glow-wire testaccording to EN 61347-1 passed.2. CommonThe basic DIM DGC provides the basis for an easy-to-use and cost-effective lighting system with motion detection.When the sensor detects movement it triggers a individual adjustable motion detection profile in the control unit.As the amount of natural ambient light changes the illuminance from the artificial lighting system is adjusted.The connected luminaires can be switched on and off via momentary-action switch or remote control possible.The DALI IN interface allows integration of the basicDIM DGC module also into a comfortDIM system.The basicDIM DGC module has 5 preprogrammed profiles which can be selected using the basicDIM DGC Programmer.The profiles can be adjusted to your application via the masterCONFIGURATOR (≥ V2.12) software.If the basicDIM DGC module is used in the basic application, the CH2 can be used as control channel for controlling subordinate basicDIM DGC modules (basic connection), so that the controlling and the subordinate basicDIM DGC modules can be programmed and allocated to groups using the masterCONFIGURATOR software. Every single basicDIM DGC module can be allocated to a group and respond to the presence of up to 5 groups (for more detailed information please refer to the masterCONFIGURATOR documentation).3. Interfaces / communication3.1 DALI INThe DALI IN interface allows integration of the basicDIM DGC module alsointo a comfortDIM or other BMS systems.However, not all DALI commands are supported. The DALI commandssupported are listed in the operating instructions.By using the DGC in basic configuration (additional DGC‘sconnected to CH2) DALI IN interface will be deactivated.3.2 DALI/DSI output channels CH1 - CH2The output channels can be set to DSI or DALI (default) using the basicDIMDGC Programmer or the masterCONFIGURATOR software.After mains failure the basicDIM DGC will set new the followingparameters to CH1/CH2:POWER ON LEVELSYSTEM FAILURE LEVELFADE TIMEMIN LEVELMAX LEVELFor more detailed information please refer to the manual.4. Installation• basicDIM DGC can be operated without sensor.The motion detection must be disabled via masterCONFIGURATOR or with unique connecting a sensor and basicDIM DGC Programmer.• DSI/DALI is not SELV. The installation instructions for mains voltage therefore apply.• The maximum cable length between the external switch and basicDIM DGC is 100 m.• The maximum cable length between the sensor and basicDIM DGC is 10 m.• A synchronous operation of DALI and DSI ballasts at the same control gear is not possible.• The output channels (for a cable cross-section of 1.5 mm2) must not be exceeded 100 m.• If CH2 is used as link line, the maximum cable length must not exceed 100 m (at 1.5 mm²).• If a basicDIM DGC is connected to CH2, DALI IN is disabled and CH2 is used as Link-Line (neighbourhood function).No control commands are transmitted via CH2, to reactivate DALI IN see basicDIM DGC manual.• Any number of push to make switches may be connected in parallel to the inputs.• Do not connect standard switches to the input.• Please ensure that the detection range of the sensor lies in the lighting area of the controlled luminaires.• Heaters, fans, printers and copiers located in the detection zone may cause incorrect presence detection.• To avoid false readings, the sensor should be installed so there is no direct light from the lamp in the detection zone.• Sensor wires must be routed separately from the lamp wires andmains cables otherwise the lighting control system may malfunction.If separate routing is not possible (for reasons of space) shieldedlamp wires and mains cables must be used.• Avoid direct illumination of the light source on the sensor includinghousing.3.3 SwitchbasicDIM DGC has two inputs (T1 and T2) for two external switches. Any number of switches can be connected in parallel to the inputs(parallel connection of T1 and T2 possible).Short press (< 500 ms):ON/OFFLong press (> 500 ms):Dim up/downA change in the light value deactivates lighting regulation only temporarily. As soon as the luminaire has beenautomatically switched on again (motion detection) or manually switched off and on again, regulation isactivated again.2 x short press:The overwritten setpoint light value is stored (luminaire acknowledges by flashing twice)Function is lockable via the DSI programmerDifferent output channels are controlled, depending on the profile selected.4.1 Wiring diagram basicDIM DGC DALIN L DA DA* must be the same phase as for LRelais in standbyN L L’DA DAmax. 64 DGC* must be the same phase as for LWiring diagram basicDIM DGC for Inteligent LuminaireNL DA DAmax. 64 DGCNL4.2 Wiring diagram basicDIM DGC with DALI PS1(2)Use only in combination with DALI Repeater (86458401) and one of the following DALI supplies:DALI PS1 (24034323), 200 mA, max. 100 additional devices DALI PS2 (28000876), 240 mA, max. 120 additional devices This combination can be used on CH1 and CH2.SensorD1D2D1D2D1D2C0C1B0B1A1A24.3 Wiring and mounting ACU Sensor Housing 14rs IP20wire preparation:4.4 Wiring type and cross-sections for basicDIM DGC For wiring use solid wire from 0.5 to 1.5 mm².wire preparation:4.5 Wiring type and cross section for sensor rc versionFor wiring use stranded wire with ferrules or solid wire from 0.2 to 1.5 mm².���� – ��� mm² solid or 4.6 Wiring type and cross section for sensor f versionFor wiring use stranded wire with ferrules from 0.2 to 0.5 mm² or solid wire from 0.14 to 0.5 mm².4.7 Mounting variants luminaire installation sensor Size of the sheet: 0.8 – 1.8 mmø14,1+0,21,5 – 2,5Size of the sheet: 0.8 – 3.0 mmSize of the sheet: 0.6 – 0.8 mm3,2 0 -0,15ø1,8 +0,1 020 +0,1 -0,14+0,2 02,2+0,219,1-0,24.8 Mounting in luminaire housing with Mounting Kit:Size of the sheet: 0.8 – 2.0 mmDimension drawing for neededmounting opening4.9 Mounting Kit mounting4.10 Mounting Kit Shutter Area which is masked by the shutter.4.11 Mounting in class II luminaireThe Sensor provides basic insulation as required by IEC 62386-101 and defined in IEC 61347-1.If the sensor is built into a class II luminaire which has to provide double or reinforced insulation it has to be considered that the Sensor is not a class II device. Still the Sensor can be used for such projects as the front of the sensor is tested to fulfill the class II requirements for double or reinforced insulation.Class II5. basicDIM DGC sensor functions5.2 Presence / motion detection5.1 Light level recognition area* The recommended maximum room height for officeapplications is 3 m and for corridor applications for example 4 m. Up to 2 m mounting height presence is detected andover 2 m motion is detected.Calculation of the diameter (light area):x1 = tan(a x1) × h x2 = tan(a x2) × h y = tan(a y ) × hCalculation of the diameter (motion area):d = 2 × tan(0,5 × a ) × hh *x1x2y d 1.7 m1.3 m 0.7 m 1.0 m 3.0 m2.0 m 1.6 m 0.8 m 1.2 m3.6 m 2.3 m 1.8 m 0.9 m 1.3 m4.1 m 2.5 m 2.0 m 1.0 m 1.4 m 4.5 m 2.7 m 2.1 m 1.1 m 1.6 m 4.9 m 3.0 m 2.3 m 1.2 m 1.7 m5.4 m 3.5 m 2.7 m 1.4 m 2.0 m6.3 m 4.0 m3.1 m1.6 m2.3 m7.2 mExample for light and motion detection area at height of 1.7 m:6. Functions6.1 RelaisThe relay can be used in four different operating modes:• Reduction of standby losses (standby wiring example)• Independent output channel for switching non-dimmable luminaires (DALI wiring example)Depending on the profile used, the relay will respond differently. For the 5 main profiles, the two relay profiles used are Standby and OnlyOFF. The masterCONFIGURATOR software allows to enable or disable the relay profiles as well.Depending on the profile used, different operating modes arepreprogrammed for the presence detector. These can be changed using thebasicDIM DGC Programmer or the masterCONFIGURATOR software.6.2 Run-on timeRun-on time of the presence detector, run-on time starts when no presence is detected.The run-on time may vary depending on the profile used.You can choose whether you want the basicDIM DGC module to switch off the light completely or to dim it down to the absence value after the run-on time.It can also be changed using the basicDIM DGC Programmer or the masterCONFIGURATOR software.Absence valueSwitch-off delayThe absence value (light level) and the switch-off delay (the period for which the level is maintained) differ depending on the profile used; theseparameters may be changed using the basicDIM DGC Programmer or themasterCONFIGURATOR software.6.3 OffsetDepending on the profile used, a negative offset may be enabled between CH2 and CH1. Using the basicDIM DGC Programmer and themasterCONFIGURATOR software, this parameter may be changed (also positive offset possible).6.4 Manual-off delayIf the light is switched off manually via momentary-action switch or remote control, the presence detector is disabled. After a period of delay without any presence detected, the presence detector is enabled again. If the sensor detects presence during the “Manual Off” delay, the delay time will start all over again. It can only be changed by using the masterCONFIGURATOR software.6.5 Lighting controlLighting control is started via the Auto key of the basicDIM Programmer or REMOTECONTROL IR6.If the basicDIM DGC module has been switched on via the ON key, lighting control is disabled.If you want to use lighting control, you need to start the DGC module via the Auto key.Lighting control can also be disabled using the masterCONFIGURATOR software.6.6 Set target valueThe light level can be set via following options: • REMOTECONTROL IR6 (press the key for > 3 s)• basicDIM DGC Programmer (press the key for > 3 s)•masterCONFIGURATOR software • external momentary-action switch: By briefly pressing the momentary-action switch twice the currently measured light level is saved as new target value.(Depending on the profile used, this function is enabled or disabled, but it can be changed using the basicDIM DGC Programmer or the masterCONFIGURATOR software)6.7 Bright-outIf the nominal illuminance level (e.g. 500 lx) is exceeded for 10 minutes at over 150 % (e.g. 750 lx), the light is switched off, even if presence is detected.The light is switched on again as soon as the measured light level falls below the target value.Depending on the profile used, this function is either enabled or disabled and can be changed using the basicDIM DGC Programmer orthe masterCONFIGURATOR software.The bright-out status can be indicated on the sensor by a slowly flashing green status LED.By default this function is disabled, but it can be enabled using the masterCONFIGURATOR software.Light control incl. bright-out activated for CH1. CH2 is not illuminated controlled.6.8 Neighbourhood functionDepending on the profile used, the basicDIM DGC can respond to presence detected in other groups.These functions can be changed using the basicDIM DGC Programmer or the masterCONFIGURATOR software.6.9 Momentary-action switch inputs6.10 Basic functions 6.12 Behaviour after return of powerThe basicDIM DGC module features two different types of starting behaviourafter mains failure.6.11 ProfilesProfile 1: Individual room Profile 2: Classroom Profile 3: Corridor Profile 4: WCProfile 5: Free-standing luminaire (default profile)Profile Test:You may use the Profile Test to check the profile you selected.All times relevant to the profile are reduced to 15 s.The Profile Test will automatically be terminated after 1 h, or by pressing the Auto key of the basicDIM DGC Programmer.The profiles can be adjusted to your needs via the masterCONFIGURATOR software or the DGC Programmer.For more detailed information please refer to the masterCONFIGURATOR documentation at .7. Brief description of profiles7.1 Individual room profile7.2 Classroom profile7.3 Corridor profile7.4 WC profile7.5 Free-standing luminaire profile (default)8. Miscellaneous8.1 DisposalAccording to the WEEE directive return old equipment at appropriate collection facilities.8.2 Additional informationAdditional technical information at → Technical Data Guarantee conditions at → ServicesLifetime declarations are informative and represent no warranty claim.No warranty if device was opened.8.3 Switching cyclesThe number of switching cycles is directly related to the level and duration of the inrush current. To increase the number of cycles either LED drivers with lower inrush current (e.g. Tridonic Industry LED drivers) oran additional external relay can be used.。

IntroductionEZSAccessories InstallationEZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized CylindersCompact Linear Actuators Hollow Rotary ActuatorsConnection and Operation■Names and Functions of Driver Parts●Power Input ConnectorMotorConnector□2□4□5□1□3Tables of each product settings Page ➜ D-154●With the high-resolution motor, the resolution is one-half the values specified below.●With the high-resolution motor, the resolution is one-half the values specified below.Notes:The resolutions are theoretical values.●The resolution is calculated by dividing the base resolution by the number of microstep.●The numbers of microsteps that can be specified by the●"Resolution Select" signal are limited to those selected in resolution 1 or resolution 2. Do not change the●"Resolution Select" signal input or resolution select switch while the actuator is operating. It may cause malfunction.IntroductionEZSAccessories Installation EZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized Cylinders Compact Linear Actuators Hollow Rotary ActuatorsPower Supply◇Use a power supply that can supply sufficient input current.When power supply capacity is insufficient, a decrease in actuator output can cause the following malfunctions:Actuator does not move properly at high-speed (insufficient thrust). ●Slow actuator startup and stopping●C onnecting the Electromagnetic Brake to ◇Power SupplyConnect the red/white lead from the actuator to the ●+24 VDC terminal on the DC power supply and the black/white lead to the GND terminal. (The electromagnetic brake leads have polarity. The electromagnetic brake will not operate if the leads are connected in reverse polarity.)For the electromagnetic brake, use a power supply of 24 VDC ●±5%, 0.1 A or more for DRL42, or 24 VDC ±5%, 0.3 A or more for DRL60.To connect the electromagnetic brake to the DC power supply, use a ●shielded cable of AWG24 or thicker and keep the wiring distance to a minimum. Be sure to use the supplied surge suppressor to protect switch contact and suppress noise.Notes on Wiring◇Use twisted-pair wires of AWG24 to 22 and 2 m (6.6 ft.) ● or less in length for the signal lines.Note that as the length of the pulse signal line increases, the maximum ●transmission frequency decreases. Technical reference ➜ F-67Use wires of AWG22 for the power supply lines.●When assembling the connector, use the hand-operated crimp tool or the crimped driver lead wire set (sold separately). The crimp tool is not provided with the package. It must be purchased separately.Signal lines should be kept at least 2 cm (0.79 in.) away from power lines ●(power supply lines and motor lines). Do not wire the signal lines with the power lines in the same duct or bundle them together.Extension of the motor leads should be within 10 m (32.8 ft.).●If noise generated by the wiring and layout of motor cables and/or power ●cables causes a problem, try shielding the cables or insert ferrite cores.Incorrect connection of DC power input will lead to driver damage. Make ●sure that the polarity is correct before turning the power on.Connection Diagram●DriverController Input/Output Signal Connection◇Keep the input signal V ●0 between 5 VDC and 24 VDC.When V 0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.Example: When V 0 is 24 VDC R 1: 1.5 to 2.2 k Ω, 0.5 W or moreKeep the output signal voltage V ●0 between 5 VDC and 24 VDC, current 10 mA or less. When V 0 is above 10 mA, connect R 2 to keep the current 10 mA or less.Description of Input/Output Signals●Pulse (CW) and Rotation Direction (CCW) Input SignalInput Circuit and Sample Connection◇Notes:Keep the input signal voltage V ●0 between 5 VDC and 24 VDC.When V ●0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.Pulse Waveform Characteristics◇ON ON Pulse Input SignalRotation Direction Input Signal 2Pulse Duty: 50% and belowThe shaded area indicates when the photocoupler diode is ON. The actuator moves when the ✽photocoupler state changes from ON to OFF.The minimum interval time when changing rotation direction 10 ●μs is shown as a responsetime of circuit. This value varies greatly depending on the actuator type and load inertia.Pulse Input Mode ◇1-Pulse Input Mode●The 1-pulse input mode uses "Pulse" and "Rotation Direction" signals. When the "Pulse" input is switched from ON to OFF while the "Rotation Direction" input is ON, the screw shaft moves one step forward. When the "Pulse" input is switched from ON to OFF while the "Rotation Direction" input is OFF , the screw shaft moves onestep backward.ON OFFON OFFMovement of the Screw Shaft Pulse InputRotation Direction Backward DirectionForward Direction 2-Pulse Input Mode●The 2-pulse input mode uses "CW" and "CCW" pulse signals.When the "CW" input is switched from ON to OFF , the screw shaft moves one step forward. When the "CCW" input is switched from ON to OFF , the screw shaft moves one step backward.CW Input CCW InputScrew ShaftON ON All Windings Off (A.W.OFF)/Resolution Select (C/S)/Automatic Current Cutback Release (C.D.INH) Input SignalInput Circuit and Sample Connection◇Note:Keep the input signal voltage V ●0 between 5 VDC and 24 VDC. When V 0 is equal to 5 VDC, the external resistor R 1 is not necessary. When V 0 is above 5 VDC, connect R 1 to keep the current between 10 mA and 20 mA.All Windings Off (A.W.OFF) Input Signal ◇Pin No.⑤, ⑥This signal is used when moving the screw shaft for manual ●positioning.When the "All Windings Off" input is turned "ON," the motor ●current turns off and the actuator loses its holding torque.When the "All Windings Off" input is turned "OFF ," the motor ●current turns on and the actuator regains its holding torque.ON OFFAll Windings Off SignalMotor Current Motor Holding TorqueNote:When operating the actuator, this switch must be "OFF."●R esolution Select (C/S) Input Signal ◇Pin No.⑦,⑧This signal is used to switch between two resolutions set by ●resolution setting switch (DATA1, DATA2). When the "Resolution Select" input is in the "photocoupler OFF" state, the resolution set by resolution setting switch DATA1 is selected. When the "Resolution Select" input is in the "photocoupler ON" state, the resolution set by resolution setting switch DATA2 is selected.Example: C hanging the resolution from 0.0004 mm (0.000016 in.)(10 microsteps/step) to 0.004 mm (0.00016 in.) (1 microsteps/step) (DRL42P )CW PulseActuatorResolution Select Signal (DATA1)(DATA2)10 Pulses1 PulseON OFFA utomatic Current Cutback Release (C.D.INH) Input Signal ◇Pin No.⑨, ⑩Turning the "Automatic Current Cutback Release" input "ON" will ●disable the automatic current cutback function when the actuator is at standstill. Turning the "Automatic Current Cutback Release" input "OFF" will enable the automatic current cutback function. When the automatic current cutback function is enabled, the output current to the motor will be automatically reduced within approximately 0.1 second after the pulse input is stopped, thus suppressing heat generation from the motor and driver.IntroductionEZSAccessories Installation EZC EZHC EZHP Accessories Installation DRL Accessories Installation DG Accessories InstallationMotorized Linear SlidesMotorized Cylinders Compact Linear Actuators Hollow Rotary ActuatorsExcitation Timing (TIM.) Output SignalOutput Circuit and Sample Connection◇Note:Keep the output signal voltage V ●0 between 5 VDC and 24 VDC, current 10 mA or less.When V 0 is above 10 mA, connect the external resistor R 2 as shown in the figure to keep the current 10 mA or less.This signal is used for precise home detection, etc.●The "Excitation Timing" output comes on every particular amount Excitation Timing OutputON OFFMovement of the Screw Shaft Timing Chart●The shaded section indicates that the photocoupler is on.ActuatorDriver Power Input 2-Pulse Input Mode 1-Pulse Input ModeRotation Direction Input SignalPulse Input Signal CW Pulse Input SignalCCW Pulse Input SignalAll Windings Off Input Signal Resolution Select Input SignalON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFFElectromagnetic Brake Power InputONOFF ✽51 ✽ The minimum switching time to change rotation direction (1-pulse input mode), and switching time to change CW, CCW pulse (2-pulse input mode) 10 μs is shown as a response time of circuit.The actuator may need more time.2 ✽ Depends on load inertia, load torque and starting frequency.3 ✽ Never input a pulse signal immediately after switching the "All Windings Off" signal to the "photocoupler OFF" state. The actuator may not start.4 ✽ Wait at least five seconds before turning on the power again.5 ✽ Only for electromagnetic brake type。

航天益来CYA-300DC后向散射烟尘浓度连续测监仪使用说明书 2009版北京航天益来电子科技有限公司 China Yilai Aerospace Electronics Co.,Ltd以最终交付产品为准，如有改动，恕不另行通知。

注 意请在使用本产品之前，仔细阅读使用说明书。

尊敬的客户：感谢您使用本公司生产的CYA‐300DC后向散射烟尘浓度连续测监仪产品！Array您购买的CYA‐300DC后向散射烟尘浓度连续测监仪产品已经在出厂前进行了准确的调试和检验，本册使用说明书主要讲解了它的工作原理、结构特点以及安装、调试、运行、保养和维修等一些注意事项。

如果读完本手册您对CYA‐300DC后向散射烟尘浓度连续测监仪产品的使用有疑问或不清楚的地方，请与CYA联系，CYA欢迎您提出宝贵的建议、意见和关于产品使用情况的反馈信息，CYA会详细为您解答。

如果您在使用过程中遇到无法解决的问题，请给CYA打电话，CYA将竭诚为您提供服务，以便您更方便的使用CYA的产品。

航天 益来第 1 页 共 15 页目录1 概述 (2)1.1 用途 (2)1.2 工作原理 (2)1.3 主要指标 (3)2 设备安装 (4)2.1 安装准备 (4)2.1.1安装位置选择 (4)2.1.2确定仪器光程 (5)2.1.3法兰准备 (5)2.1.4控制电缆准备 (6)2.1.5吹扫系统准备 (6)2.1.6 其他配件和工具 (7)2.2 安装调试 (7)2.2.1结构安装 (7)2.2.2电气连接 (8)3 测量范围设置 (11)4 标定 (11)5 校准 (12)6 设备维护 (12)6.1 光学元件 (12)6.2 吹扫系统 (13)7 故障处理 (13)第 2 页 共 15 页1概述1.1用途CYA-300DC 烟（粉）尘浓度监测系统是新一代在线监测仪器，可以在风、雨、雷电、粉尘、高低温度等恶劣环境下长期连续不间断地监测污染源的烟尘排放情况，目前已经广泛应用以下领域：固定污染源烟气排放连续监测系统（CEMS）中颗粒物浓度测试、除尘设备效率监测、燃烧效率监测、工业制造过程中粉尘浓度的测量、工矿企业职业健康保护粉尘监测、生产车间、厂房的粉尘负荷监控、科学研究、实验现场测试等。

热解离子探测器技术参数
热解离子探测器（TID）是一种用于探测和分析气体中离子的仪器，常用于质谱分析和环境监测。

其技术参数包括但不限于以下几
个方面：
1. 离子检测范围，热解离子探测器可以检测的离子种类和范围，包括正离子和负离子。

2. 灵敏度，热解离子探测器的灵敏度指标，即能够检测到的最
小离子浓度或流量。

3. 分辨率，热解离子探测器的分辨率是指其区分不同质荷比的
能力，通常用质荷比（m/z）来表示。

4. 响应时间，热解离子探测器对离子的响应速度，即从离子进
入到信号输出的时间。

5. 工作温度范围，热解离子探测器的工作温度范围，包括环境
温度和探测器本身的工作温度。

6. 质谱范围，热解离子探测器的质谱范围，即能够检测的质荷比范围。

7. 探测器尺寸和重量，热解离子探测器的物理尺寸和重量，这些参数对于实际应用中的便携性和安装需求非常重要。

8. 能耗和电源要求，热解离子探测器的能耗情况和电源要求，包括工作电压和功耗等方面的参数。

以上是热解离子探测器的一些常见技术参数，不同型号和品牌的热解离子探测器可能会有所不同，具体的技术参数需要根据具体的产品手册或规格说明来确认。

分光测色计CM-2300d分光测色计CM-2300d是一种用于测量颜色的仪器，广泛应用于塑料、涂料、纺织、印刷、陶瓷、食品、药品、化妆品等行业的颜色检测与质量控制中。

什么是分光测色计？分光测色计是通过衍射原理仪器，能够将光线分解成多种波长的光，在物体表面反射出来的光线中，选择某一波长的光线进行测量，用来定量分析物质的颜色。

其主要技术指标包括测量范围、重复性、重现性、色差值等。

CM-2300d的特点CM-2300d是日本Konica Minolta公司生产的一款高精度分光测色计。

高精度CM-2300d具有高精度和测量精度稳定的优势。

该设备的测量范围可以覆盖从暗色到亮色的广泛需求，能够在宽波长范围内（380-780nm）实现高度准确的颜色测量。

此外，CM-2300d还使用先进的光路设计和精密的光谱反射率标准板来确保测量结果的准确性和可重现性。

易于操作和使用CM-2300d不仅具有高精度的测量功能，还非常方便操作。

该设备采用了直观的界面设计，用户可以轻松进行各种操作、设置、选择测量方式（例如，单点测量或扫描测量），并查看测量结果。

此外，CM-2300d还具有一些其他方便的功能，如自动保存测量数据、自动校准和灵活的传输选项。

强大的数据分析与处理功能CM-2300d还具有强大的测量数据分析和处理功能。

该设备可以自动生成各种数据报告，并允许用户在Excel等应用程序中轻松导出数据。

此外，CM-2300d还提供了多种可选的数据处理和分析工具，以帮助用户快速准确地分析和解释所获得的数据。

CM-2300d的应用CM-2300d被广泛应用于各种颜色测量和质量控制场合。

以下是一些典型应用领域：•塑料：测量塑料颜色并进行质量控制。

•涂料：测量涂料颜色，并进行调色和质量控制。

•纺织：测量织物颜色，并进行质量控制。

•印刷：测量印刷品颜色，并进行质量控制。

•陶瓷：测量陶瓷颜色，并进行质量控制。

•食品：测量食品的肉眼颜色特点，确定食品质量。

目录一、整机结构简介 (2)二、主要技术指标 (3)三、安装调整与试车 (4)四、操作系统 (6)五、助焊剂喷流系统 (12)六、预热器 (13)七、锡炉 (14)八、操作顺序与安全守则 (16)九、维护保养 (17)十、焊接过程部分技术问题与对策 (18)十一、附录 (18)一、整机结构简介：三、安装调试与试车3.1机器定位安装A、机器放置在指定地点后,要降下脚杯,并对整机机架打水平,使机器4个角处于水平位置.B、用水平尺检查运输导轨与锡炉,使其处于水平位置.D、机器接电气配线要求：3ΦX380V,50HZ<三相五线制>,要求容量不小于10KVA,设备外壳保护接地,接地电阻≤10Ω,接地线不小于4MM².3.2通电试机：机器上电后检查运输,预热,以与锡炉是否能正常工作.3.3化锡：以上工作完成后经全面检查各机构运行正常后,即可做化锡工作.准备材料：助焊剂,10L焊料, 180KG电炉,3KW, 1个不锈钢容器,1个熔锡：将固态料分批投入不锈钢容器内,在电炉上加热至充分熔化后〔约260℃〕,再倒入设备的锡槽中.当焊料液面距锡槽口约8mm时,停止投料.启动设备,将锡炉温度预置为288℃,待锡炉温度到,启动波峰,调整波峰高度,检查波峰是否正常.若锡面偏低,此时可将条状焊料直接投入锡炉中,调整锡面至合适.注：A、锡槽第一次投料时,严禁将固态钎料直接投入锡炉内进行熔化, 以防大量热量不能与时传递给固态焊料,而产生高温烧坏锡槽与加热线；B、在熔锡前,需将锡槽与不锈钢容器清理干净,以防杂质污染焊料.C、熔锡结束后,预热、锡炉温度到设定值后,可进行不锈钢壳体试焊.3.4附助机构A 、在传动机械的电机轴链轮上装有过载保护装置,若输送链受重载时,链轮.在扭矩限力器上打滑,输送链停止运行,保护了机器不被损坏.扭动螺母,压紧或放松碟形弹簧,即可调节传递扭矩的大小.<如下图>D、助焊剂喷流系统的喷流高度稳定是确保焊锡质量的因素之一.其装置采用循环回流式设计,流量通过调节喷流马达的转速控制.喷流箱的容量应保持在2/3以上.C、设备要安装良好的抽风系统,抽风风机功率为1HP,保持抽风畅通.喷流箱每月拆下将助焊剂倒入其他容器内,再用工业酒精清洗喷流箱内部,然后再将助焊剂倒入喷流箱内,保证运行通畅.四、操作系统4.1 本设备采用了先进的数字化仪表和高品质电器构成完善的与可靠性操作.它主要由电源总开关、操作箱、指示信号和紧急制等四大部分组成.4.2 操作系统各部功能与特点4.2.1电源总开关有用来切断与接通设备整个电气系统的供电电源,该开关具有电流过载和短路保护功能.如设备因意外而出现过载或短路时,将自动跳闸切断供电电源,使故障限制在最小范围内.4.2.2操作箱操作箱独立设置于设备的左侧,可使各控制仪表不受设备内高温与助焊剂挥发物的影响,使操作箱面板处于最佳视角范围内,操作更加灵活方便.设备的侧控仪表与主要控制钮均集中布置于操作箱面板上,由于对操作空间进行合理的割分,使得监控、操作一目了然,其面板布置如下图所示：对设备的控制主要分为定时控制〔定时自动启停设备〕、温度控制〔锡炉、预热〕、速度控制〔不锈钢壳体传送速度〕、工作/调整转换控制以与启停控制类型.a. 定时控制：定时控制采用微电脑时控开关,具有7天记忆程序.b. 温度控制：温度控制采用高性能温控仪表,对锡炉和预热器的温度进行精确地调节控制和显示.c. 速度控制：速度控制采用电子调速器来实现对齿形拨轮的无级调速,其调节方便,运行平稳可靠.d. 工作调整：该功能成功地解决了目前市场产品中锡炉欠温保护与调机之间的矛盾,弥补了原有冷车调机过程中不能对锡泵装置进行保护的缺陷,从而使工作、调机转换变得极为方便〔无须再对温控表进行反复操作〕,同时以使锡泵装置得到完善的保护.e.启停控制：启停控制以操作按钮的形式来控制助焊剂、预热、波峰等负载的启动与停止.4.2.3指示信号本机设有自动准备完毕指示、故障指示、工作指示等指示信号.分别以仪表、灯光等不同形式直观反映出设备的运行状态.4.2.4急停按钮在设备正前方左右两处各设有一红色按钮,供紧急情况下使用.4.2.5微电脑时控开关使用方1.长时间不使用本机时,若显示屏显示不清或无显示,开机上电后即可对其充电,并按小孔中的复位键重新启动2.先设定当前时间：按下"时钟"键,同时再下"星期"、"时"、"分"键,将时钟调到当前准确时间3.按一下"设定"键显示屏左下方出现"1"和"ON"字样,然后按"星期"键选择星期一至六或至星期日,再按"时"、"分"键输入每天的开机时间4.按一下"设定"键显示屏左下方出现"1"和"OFF"字样,然后按"星期"键选择星期一至六或至星期日,再按"时"、"分"键输入每天的关机时间5.继续按动"设定"键,显示屏左下方将依次显示"2ON、2OFF、3ON、3OFF、-------、10ON、10OFF "使其各组的时间显示为"--- ：---"并非"00：00"否则按下"取消"键,将多余的时间消除.6.定时设置完毕后,应按"设定"键检查各次定时设定情况是否与要求一致.检查完后再按"时钟"键,使显示屏显示当前时间.7.按"开/自动/关"键,将设备设为"AOTO"状态,如在使用达程中临时需要开关机时,则只需按"开/自动/关"键将开关符号调到相应的"ON"〔开〕或"OFF"〔关〕的位置即可.4.3 欧姆龙温控表的使用方法一、面板说明：二、操作流程图：工具孔1.当前温度〔以锡炉温控为例〕2.按一下模式键,SP灯亮,显示为设定温度.在此模式下按住隐藏保护键同时按上或下调键可对设定温度进行更改.3.按二下模式键：ALM灯亮,显示为报警值,按下隐藏保护键同时按下或下调键可对报警值进行修改4.异时,说明：1再进行设定〕.例行检查设备有无异常情况启动设备电源总开关,查看时间掣"POWER"灯亮、温控表指示是否正常〔温度显示值= 室温,输出批示灯亮锡炉开始加热〕按下"预热"待锡炉温度,预热温度正常后启动运输、波峰、助焊剂等投入正式焊接.五、助焊剂喷流系统5.1助焊剂喷流系统简述助焊剂喷流由喷流马达、喷流箱、光电开关、调速器等构成,其控制部分由日本三菱可编程控制器〔以下简称PLC〕程序自动控制,操作者只须打开面板上的"运输"、"助焊剂"按钮开关,当有不锈钢壳体经过光电开关时PLC对不锈钢壳体进行记忆,待不锈钢壳体边沿到达喷口前上方时,PLC指挥喷流马达动作将助焊剂推动从喷口喷出,在不锈钢壳体圈料焊接完后,延时1-2S,喷流马达关断,程序结束.喷流高度设定由控制面板上的喷流马达调速器来设定,在厂时已校好,无须再调,若发现喷流高度发生变化,则须对调速器作精确调整,保证喷流高度的准确性.5.2 日常维修与注意事项1、通常在30天后拆下喷流箱体；2、倒出喷流箱体中助焊剂,用工业酒精清洗箱体内部和喷流叶轮；3、定期检查助焊剂的喷流高度.六、预热器6.1预热器工作介绍6.1.1主要功能A..将助焊剂内所含的水份干燥,防止在焊接时喷溅.B.将助焊剂所含的部分水分挥发,对减少焊点穿孔与气泡有正向效果.C.提高不锈钢壳体的底温,减低焊接时热冲击与热应力.6.1.2工作原理预热器是由陶瓷发热管与箱体组成,工作时在PID方式温度控制下, 不锈钢壳体经热辐射与热对流,对不锈钢壳体进行预热处理.6.2 预热箱的构造本预热系统由5个发热管组成,发热管采用Y形接法,提高发热效果,节省电能.预热箱两边的封板与导轨通过螺丝联接,方便了线路的检查和维护.为了能强化线路板通过预热箱时的预热效果,预热箱附有反射罩.预热箱的结构见下图:6.3发热管的规格与接线热源：陶瓷加热管预热功率:3φ 380V 300<W>×5控制方式:PID温控 SSR元件驱动加热预热温度:50-70℃6.4日常维修与注意事项1．经常测试不锈钢壳体的底面的温度,应使其保证在50-70℃之间,以保证最佳的出锡效果.2．检查电路电线是否老化,以防电源中断.3．注意电压是否正常,长时间过高可致发热管过热而烧毁.4．定期检查陶瓷发热管是否良好.七、锡炉7.1锡炉的结构本机特别设计的波峰形成喷嘴,其产生的波峰完美无瑕,于简单的浸锡方式中,必须清除锡面的氧化物才可进行浸锡,此设计可免除以上的缺点,经过波峰浸锡,可使焊接更牢固,无虚、脱焊现象.下图是其结构示意图：锡炉炉体是由钛合金板烧焊而成的,发热管装于锡炉中的两侧,用以熔锡与保持锡的温度.7.2锡炉的正确使用1.在未开波峰峰情况下,正常之锡面高度应使锡面维持在距炉口1CM处.2.锡炉整体之高度与水平,可由锡炉下四个支撑镙栓来调节.3.工作时,熔化之锡浆由底部叶轮泵抽进锡炉内胆,经胆内的过滤网将锡渣过滤并稳流后,从喷口处溢出.4.焊锡温度受控于锡炉内K型的热电偶,首先将锡炉的焊锡温度设置好,通常焊锡的正常温度是285℃5.在锡炉的后面装有排锡嘴,用以放锡清炉,可用摇动锡炉丝杠,把锡炉向后面摇出,清洁维修,异常方便.6.在拆卸炉胆时,参照上图所示的结构,先把喷嘴卸下,把电机架与叶轮取出后,松开炉胆的紧固螺栓,即可把炉胆拆下.7.3日常维修与注意事项1．经常检查锡量,锡面在未开波峰时,不应低于炉口10毫米；2．用水银温度计测量工作之焊锡温度；3．经常清除锡面之过厚氧化渣,否则难以判断锡面高度与锡渣被吸入泵内,从波峰中喷中,将会影响焊接质量,不过,此项工作也勿须勤,让锡面保持一层蒲渣,有助于减少空气与锡面之氧化面积,减少锡之氧化；4．每半年检查一次锡的纯度,保护上锡的良好;5．经常检查锡炉内不锈钢网是否畅通,否则将影响锡流的平稳.6．注意耐高温线是否有破损与各部分螺丝是否松脱.7.4锡炉喷咀的定期维护锡炉喷咀在连续使用一段时间发现锡波不平时要清洁滤网,步聚如下:;1、穿戴和高温手套和其它劳保用品,保证锡温260℃以上;2、地面辅设铁板或厚纸板;3、降低锡炉;4、卸掉固定锡炉的螺丝,用大力钳或老虎钳夹持住喷咀边缘,从导轨中央斜向上拿出喷咀<注意防止喷咀中残余锡渣流出烫伤操作者>置于地面上;5、用螺丝刀铁丝等工具清洁网孔上的氧化锡渣;6、装好喷咀,固定螺丝;7、恢复锡炉导轨高度;八、操作顺序与安全守则8.1操作顺序8.1.1开机前检查1．检查锡炉面与锡渣状况；8.1.2开机1.确认电源无误后打开总电源三极开关;2.开机按"控制电源";3.第一次使用请先进行参数设置,据工艺设定各工艺参数与定时设置;4.当需进行工艺调整或定时未到时,可进行手动操作对各功能进行操作;. 8.2操作安全守则1.工作中会产生许多有害气体,如助焊剂等,因此工作时应有相应排气措施；2.避免皮肤直接接触溶剂；3.助焊剂为易燃品,故作业工区与附近严禁烟火；4.作业时,请避免著宽松衣服、领带与长发,以防被齿形拨轮与电机卷进；5.作业时,尽量将后门盖与玻璃窗关好；6.保养锡炉时,应衣穿戴好必要之保护衣具,以避烫伤；7.电气维护须由合格之电气技术人员为之,维护前必须关总电源；8.确认全机是否有接地线.十一.附录：焊接工艺参数的选择。

1、仪器用途紫外/可见分光光度计是能测量液体透射比T、吸光度A和浓度C 的仪器。

2、主要技术参数波长范围：200nm~800nm波长准确度：±0.5nm波长重复性：0~95%0.3nm测光准确性：≤±0.5%τ测光重复性：0.5%τ杂散光：＜0.6%τ(220nm处NaI)光谱带宽：0.5nm、1nm、2nm三当稳定性：100%τ：＜0.5%(3分)0%：＜0.2%(10分钟) T/A转换显示精度：±0.5%τ3、规格工作方式：T：0~110% (透射比)A：-0.041~3.000 (吸光度)C：0.000~9999 (浓度)C(A)：1~20点(用最小二乘法建立回归工作曲线) 光源：氘灯(H) 200nm~350nm钨灯(W) 350nm~800nm检测器：光电倍增管调零方式：ABSO (或100%T) 自动调整显示方式：5位LED显示器用户数据记忆：100个样品值数据输出方式：打印机(标配为微型打印机，可选配大打印机)尺寸：(580×210×410)mm (长×宽×高)电源：220V，50Hz功率：200瓦重量：25公斤4、操作步骤及使用方法准备工作：1.将以装好的仪器接入220V的市电，开机，同时开启所需光源（钨灯和氘灯，不需要用氘灯时请不要打开氘灯开关）。

开机后仪器显示800-3，表示主机进入预热十分钟。

2.预热完毕后，显示器将显示HELLO，表示仪器可以进入工作状态。

（在预热过程中，如果想直接进入工作状态，可以按STOP键进入HELLO 工作状态。

仪器要求开机后预热十分钟以使仪器工作更稳定。

）3.仪器进入工作状态后，首先根据实际测量的需求调节好光源、波长、狭缝、滤色片。

选择后即可准备好样品进行各种测量。

根据所需的测量进入相应的测量功能（T、A、C）。

测量工作1.测量样品透射比（T）：将参比、样品放入样品池，拉动样品池拉杆使参比的比色皿对准光线通道，按100%T键（调百），待显示ｔ100.0，然后打开样品池盖，按Clear键（调零），待显示ｔ0000 ，盖上样品池盖再次按100%T 键，待显示ｔ100.0，拉动样品池拉杆使样品的比色皿对准光线通道，按Enter键后等待显示结果。

XD系列多晶X射线衍射仪技术说明书北京普析通用仪器有限责任公司注意安全防护，当心射线伤害！X射线能对人体造成伤害，因此在使用X射线设备时必须十分注意安全，避免受到X射线的照射。

本机的设计虽然考虑到较周全的防护。

但若操作处置不当，仍然可能受到X射线照射。

此外，X射线发生器是一种高压设备，在检修时也必须十分注意安全，避免受到高电压的伤害。

1. 衍射仪X射光路的屏蔽部件不可随意移去。

2. 当需要推开防护罩门进行操作时，应十分注意不要受到X射线的照射。

注意不要受到X射线的直接照射，也要注意不要受到散射线的照射。

更换样品时必需关窗。

3. 当维修X射线发生器的高压部分时，必须切断电源并使高压电容完全放电。

前言 (6)第一章X射线发生器使用说明 (7)1. 概述 (7)1.1 用途与特点 (7)1.2 对使用环境的要求 (7)1.3 安装条件 (7)2. 主要技术指标 (8)2.1 直流高压发生器 (8)2.2 控制系统的X射线管工作高压、管工作电流调节与稳定电路 (8)2.3 保护电路 (8)2.4 高压电缆 (9)3. X射线管 (9)4. 控制系统的结构及工作原理 (9)4.1 结构特征 (9)4.2 工作原理 (10)5. 使用方法及操作说明 (14)5.1 安装前的准备工作 (14)5.2 安装 (16)5.3 操作顺序及简单调校 (16)5.4 X射线窗口开闭 (17)5.5 使用注意事项 (17)5.6 日常例行检查项目 (17)6. 故障排除与维修 (18)6.1 开机步骤和可能出现的故障 (18)6.2 故障的排除 (20)6.3 附图 (22)第二章单道脉冲幅度分析器 (36)1. 引言 (36)2. 使用环境 (36)3. 工作原理及其技术指标的性能 (36)3.1 直流低压电源： (36)3.2 高压电源 (37)3.3 放大–单道分析器 (37)3.4 定标计数单元 (38)4. 操作说明 (39)第三章直流高压发生器 (40)1. 安全 (40)1.1 和配套装置的联用 (40)1.2 发生器的空载试验 (40)1.3 发生器的检修 (40)2. 发生器的技术规格 (41)2.1 负载工作参数 (41)2.2 工作制式 (41)2.3 测量点特性 (41)3. 产品的维护 (41)3.1 高压插座和高压电缆的插头的维护 (41)3.2 检查辉光放电管 (42)3.3 检查注油孔上的密封塑料管套 (42)3.4 检查冷却水管的接头 (42)4. 发生器线路原理图 (43)第四章测角仪 (44)1. 概述 (44)2. 组成 (44)3. 主要技术特性 (44)4. 结构描述 (45)5. 安装 (45)6. 测角仪的校直（对零） (46)6.1 测角仪校正的具体要求 (46)6.2 测角仪校正的具体步骤 (47)6.3 测角仪的衍射角测量准确度和衍射角分辨率的检查 (47)7. 测角仪的维护保养及使用注意事项 (49)第五章操作与分析软件 (50)1. 概述 (50)2. PDP衍射分析系统的运行环境与硬件配置 (50)3. 软件安装 (50)4.版权信息 (50)5. 正确安装后的文件目录结构 (51)6. 关于系统参数设置文件PDP.INI (51)7. PDP程序的使用 (51)7.1 寻峰 (52)7.2 “求峰面积、峰高、重心、积分宽度”和“背景扣除” (56)7.3 减背景 (57)7.4 图谱对比 (57)7.5 关于Pdp应用软件所使用与支持的文件格式 (58)第六章石墨弯晶单色器 (59)1. 概述 (59)2. 技术数据 (60)3. 结构 (60)4. 调整 (61)5. 使用的工作条件选择 (61)6. 注意事项 (61)第七章XD-2/3多晶X射线衍射仪操作规程 (62)1. 衍射仪（XD-2/3）对环境的要求 (62)2. 开机过程 (62)3. 关机顺序 (63)前言首先，感谢您购买北京普析通用仪器有限责任公司的产品！为了您更好的使用本仪器，请在使用前详细阅读本说明书，按照操作规程使用仪器。

CCL⽣产线解析1．适⽤范围本操作标准适⽤CCL⽣产线。

其中对CCL⽣产线的设备，各个操作岗位（设备）的具体操作要求及职责作了相关的规定。

2．⽬的本操作标准的⽬的是为了使#1CCL能安全，品质保证并⾼效地进⾏⽣产，同时明确操作的条件及⽅法。

3．常⽤语整理1 顺涂⽅式和逆涂⽅式是为了区分涂棍的涂布⽅式，粘料棍的旋转⽅向与钢板⽅向相同时叫顺涂⽅式，反之叫做逆涂⽅式。

2 PMT指的是钢带通过加热后表⾯达到的最⾼温度。

彩涂板⽣产时，需对经涂布后的钢带进⾏烘⼲的处理，在烘箱内钢板要求的PMT温度因涂料的⽣产⼚家和性质的不同⽽不同。

3 Extra smooth是指钢板表⾯没有凹凸现象的平坦表⾯。

（即、⽆锌花或⼏乎⽆锌花状态）4 RUST是指钢板氧化锈、冷轧板的红锈、热镀锌板的⽩锈、镀铝锌的⿊锈，可⽤⾁眼判断。

5 划痕是指钢板表⾯的划痕或深度凹痕。

6 粘度是液体物质（流体）的粘稠程度，⽤粘度计测量以秒（Sec. ）表⽰。

宗承⽤来确认粘度的⼯具。

7⾯漆在钢板表⾯涂布中，⽤于完成或⾯部涂层的涂料。

8 底漆是指为了提⾼钢板表⾯与涂料的附着性和耐蚀性⽽在钢板表⾯涂布的涂料。

9 背⾯漆是指在钢板背⾯涂布的涂料。

10 MEKMethyl ethyl ketone（甲⼄酮），⽤于测定涂膜硬化度的化学药剂。

11涂膜是指涂布在钢板表⾯的涂料⽪膜层，在烤箱前后分为湿膜与⼲膜。

12 烘⼲是指在烤箱内把涂料溶剂挥发形成⼲燥涂膜的热硬化现象。

13 O.P操作员的缩写。

14 HMI意为Human machine interface，⼈机界⾯。

⼈机界⾯为⼈与机器设备的⼀个控制平台，通过⼈机界⾯控制/监控相关的设备。

15 ⾊差指的是颜⾊间的差异。

对于彩钢产品，需要确认⽣产产品的颜⾊与标准板之间的差异。

16光泽度表⾯受到光线照射，由于平滑程度等因素影响，彩涂板表的反光能⼒有所不同，因此感觉到的光泽度也不同。

表⾯光滑时，以镜⾯反射为主，光泽度⾼；反之，漫反射为主，光泽度差。

CDS系列光敏电阻
专业生产φ3、φ4、φ5、φ7、φ9、φ12、φ20
性能及特点
◎环氧树脂封装◎可靠性好
◎体积小◎灵敏度高
◎反映速度快◎光谱特性好
应用范围
◎照相机自动测光◎光电控制
◎室内光线控制◎报警器
◎工业控制◎光控开关
◎光控灯◎电子玩具光谱与特性
照度-电阻特性
测试条件
◎亮电阻
　用400~600Lux光照射24小时后，在标准光源A（色温2856K）下，用10Lux 光测量。

◎暗电阻
　关闭10Lux光照后第10秒的电阻值。

◎γ值是指10Lux照度和100Lux照度下的标准值。

　γ=lg(R10/R100)/lg(100/10)=lg(R10/R100)
◎最大功率损耗
　环境温度为25摄氏度时的最大功率。

◎最大外加电压
　在黑暗中可连续施加给元件的最大电压。

规格与型号。