2.8模块 GMO280 Series SPEC

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MD280说明书

MD280说明书
第一章 安全及注意事项
安全定义: 在本手册中,安全注意事项分以下两类:
危险
3、配线时: 危险
由于没有按要求操作造成的危险,可能导 致重伤,甚至死亡的情况
注意
由于没有按要求操作造成的危险,可能导 致中度伤害或轻伤,及设备损坏的情况
1.1 安全事项
1.应由专业电气工程人员施工。否则有触电危 险! 2.变频器和电源之间必须有断路器隔开。否则 可能发生火警! 3.接线前请确认电源处于关断状态。否则有触 电的危险! 4、接地端子必须可靠接地,否则有触电危险。
5、上电后:
7、保养时
危险
1.上电后不要打开盖板。否则有触电的危险! 2.不要用湿手触摸变频器及周边电路。否则 有触电危险! 3.不要触摸变频器端子(含控制端子)。否 则有触电危险! 4.上电初,变频器自动对外部强电回路进行 安全检测,此时,请不要触摸变频器U、V、W 接线端子或电机接线端子,否则有触电危险!
第五章 功能参数表 .................... 35 第六章 参数说明 ..................... 50 F0 组 基本功能组 .......................50 F1 组 电机参数、v/f 控制参数 ...........52 F2 组 输入端子 .........................55 F3 组 输出端子 .........................59 F4 组 启停控制 .........................61 F5 组 辅助功能 .........................63 F6 组 过程控制 PID 功能参数 .............66 F7 组 摆频、定长和计数 .................68 F8 组 多段速功能及简易 PLC 功能 .........71 F9 组 保留 .............................73 FA 组 通讯参数 .........................73 FB 组 过载与保护 .......................73 FF 组 厂家参数(保留) .................77 FP 组 用户密码 .........................77 第七章 EMC(电磁兼容性) ............. 78 7.1 定义 .............................78 7.2 EMC 标准介绍 ......................78 7.3 EMC 指导 ..........................78 第八章 故障诊断及对策 ................ 80 8.1 故障报警及对策 ...................80 8.2 常见故障及其处理方法 .............90

SICK GMS800系列I O模块补充操作说明说明书

SICK GMS800系列I O模块补充操作说明说明书

S U P P L E M E N T A R Y O P E R A T I N G I N S T R U C T I O N SConnectionsFunctionsTechnical DataDocument InformationDescribed ProductProduct name:I/O ModuleBasic device:GMS800 Series gas analyzersDocument IDTitle:Supplementary Operating InstructionsI/O ModulePart No.:8015917Version: 2.0Release:2012-12ManufacturerSICK AGErwin-Sick-Str. 1·79183 Waldkirch·GermanyPhone:+49 7641 469-0Fax:+49 7641 469-1149E-mail:***************TrademarksProduct names used in this document may be trademarks and are only used for identification purposes.Original documentsThe English edition 8015917 of this document is an original docu-ment of the manufacturer.SICK AG assumes no liability for the correctness of an unauthor-ized translation.Please contact the manufacturer in case of doubt.Legal informationSubject to change without notice©SICK AG. All rights reserved.GlossaryWarning SymbolsWarning Levels / Signal WordsCAUTIONHazard or unsafe practice which could result in personal injury or property damage.NOTICEHazard which could result in property damage. Information SymbolsAC Alternating CurrentCAN Field bus (Control Area Network) with high datasecurity; especially suitable for safety-relevantapplications.CANopen Communication protocol for the CAN bus. Stan-dardized as European standard EN 50325-4.()CSA Canadian Standards Association (www.csa.ca) DC Direct CurrentEthernet Cable-based network technology for data net-works. Basis for network protocols (e.g. TCP/IP). PC Personal Computer.SOPAS SICK Open Portal for Applications and Systems:Family of computer programs to set parameters,capture and calculate data.SOPAS ET SOPAS Engineering Tool: PC application programto configure modular system components.Hazard (general)Important technical information for this productImportant information on electric or electronic func-tionsNice to knowSupplementary informationLink to information at another place2I/O Module·Supplementary Operating Instructions·8015917V2.0·©SICK AGContents1Important Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51.1Main safety information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61.2Important operating information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61.3Additional documentation/information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62Product Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72.1Function. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82.2Versions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93.1Signal connection layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103.2Suitable signal cables. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103.3Signal connections description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .113.3.1Analog inputs (plug connector X7) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .113.3.2Analog outputs (plug connector X7). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123.3.3Digital inputs (plug connector X3). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .133.3.4Digital outputs (plug connectors X4, X5). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .174.1Setting options. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .184.2Automation with formulas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .185Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .195.1Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .205.2Electronic data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .215.3Signal connections – overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .225.4Signal connections – list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23I/O Module·Supplementary Operating Instructions·8015917V2.0·©SICK AG3Contents4I/O Module·Supplementary Operating Instructions·8015917V2.0·©SICK AGImportant InformationI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 5S u b j e c t t o c h a n g e w i t h o u t n o t i c eI/O Module1Important InformationProduct description Main information Additional information6I/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AGImportant InformationS u b j e c t t o c h a n g e w i t h o u t n o t i c e1.1Main safety information1.2Important operating informationIf an »Alarm« message is displayed▸Check the current measured values. Consider the situation.▸Perform the measures planned at your site for the particular situation.▸When necessary: Switch the alarm message off (»acknowledge«).In hazardous situations:▸Switch off the emergency switch or mains disconnector switch of the host system.1.3Additional documentation/informationThis document supplements the Operating Instructions for GMS800 gas analyzers. It extends the “GMS800“ Operating Instructions with technical information on the I/O Mod-ule.▸Observe the Operating Instructions delivered with the “GMS800”.NOTICE: Sensitive electronics▸Before signal connections are established (also with plug connections): Disconnect the I/O Module and all connected devices from the mains (switch off).Otherwise electronic components could be damaged.The “GMS800” Operating Instructions also specify all further documents belonging to the individual device.NOTICE:▸Pay primary attention to any individual information provided.Product DescriptionI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 7S u b j e c t t o c h a n g e w i t h o u t n o t i c eI/O Module2Product DescriptionFunction Versions8I/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AGProduct DescriptionS u b j e c t t o c h a n g e w i t h o u t n o t i c e2.1FunctionThe I/O Module is an electronic module for GMS800 Series series gas analyzers. It pro-vides the GMS800 signal connections (electronic inputs and outputs).Connection with the other device components is performed with a CAN bus.The logical function of the signal connections can be configured individually (→p.18, §4.2).2.2Versions●Open module for integration in enclosure (→Fig.1)●Closed module with top hat rail adapter (→p.20, §5.1)Fig.1Open I/O ModuleInstallationI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 9S u b j e c t t o c h a n g e w i t h o u t n o t i c eI/O Module3InstallationConnections Electric functionsSettings10I/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AGInstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c e3.1Signal connection layoutDesign●The signal connections have 12-pole plug connectors.●The plug connector counterparts delivered have screw terminals.●Each plug connector housing delivered accommodates two plug connector counter-parts.Mechanical coding (if required)▸Block a recess in the plug connection with a plastic insert.▸Remove the corresponding burr on the counterpart (→Fig.2).Fig.2I/O Module plug connector3.2Suitable signal cables▸Use shielded cables for all of the signal connections with a low high-frequency imped-ance of the shield.▸Only connect the earth on one cable end with GND/enclosure. Whenever possible, ensure a short connection with broad contact.▸Observe the shielding concept of the host system (if existing).NOTICE:▸Install the plug connector counterparts in the delivered metallic plug con-nector housings after connection of the signal cables.▸Secure the plug connection with the screws of the plug connectors so that the plug connector housing is pressed against the enclosure (EMC sealing tape).Otherwise the specified electromagnetic compatibility (EMC) will probably not be attained.Position of signal connections →Supplementary Operating Instructions forEnclosureDesignCodingNOTICE:▸Use suitable cables only. Install all cables properly.Otherwise the specified electromagnetic compatibility (EMC) will probably not be attained and functional problems might occur.InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c e3.3Signal connections description3.3.1Analog inputs (plug connector X7)Fig.3Plug connector X7 (analog inputs)FunctionAnalog input (AI1, AI2) must only be connected when the GMS800 considers these inputs;this requires an appropriate configuration of the analog inputs. The appropriate informa-tion is delivered separately when the analog inputs are configured at the factory or system manufacturer.▸Check whether the information on the analog inputs has been delivered.▸When required, connect the specified signals to the analog inputs.Application examples–Display an external measured value on GMS800–Mathematical link of an external measured value to internal measured values, e.g. for cross-sensitivity compensation or physical conversion Electric function●The input signal is an analog current signal (0…20mA).●The signal current must originate from an external current source.●Load (internal resistance) of an analog input: 10ΩIdentification in Formula editor Identification for I/O assignmentAI1N3M07AI01 (AI02)AI2N3M07AI02 (AI02)●Configuration options →p.18, §4.1●Electronic data →p.21, §5.2●Suitable signal cables →p.10, §3.2InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c e3.3.2Analog outputs (plug connector X7)Fig.4Plug connector X7 (analog outputs)FunctionEach analog output (AO1…AO4) can be assigned to one of the available sources (→p.18,§4.1). The current value of the source is output as a potential-free current signal.When the current measured value of an Analyzer module is selected as source, the measured value can be output in two different measuring ranges when allowed by the Ana-lyzer module configuration.Electric functionThe analog outputs are potential-free and deliver a load-independent current signal.▸Maintain the allowable load (standard: 500Ω).▸For device versions for potentially explosive atmospheres and fitted with Zener barri-ers: Observe the separate specification for the allowable load (Data Sheet).Identification in Formula editorIdentification for I/O assignmentAO1N3M05AO01 (AO02)AO3N3M05AO02 (AO02)AO4N3M06AO01 (AO02)AO5N3M06AO02 (AO02)New measured values are created approximately every 0.5…20seconds (depending on the type and number of Analyzer modules).●Configuration options →p.18, §4.1●Electronic data →p.21, §5.2●Suitable signal cables →p.10, §3.2InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c e3.3.3Digital inputs (plug connector X3)Fig.5Plug connector X3 (digital inputs)FunctionEach digital input (control input) can be assigned to one of the available logical functions (→p.18, §4.1).Electric function●The digital inputs (DI1…DI8) are potential-free optical coupler inputs with common ref-erence potential (DIC).●The signal voltage must originate from an external voltage source (14…42V DC).●The digital inputs can be run with either positive or negative voltage (reference potential optionally “-” or “+”).●With inverted switching logic, the logical function of the control input is activated when no current flows through the control input.Identification in Formula editorIdentification for I/O assignmentDI1N3M01DI01 (DI04)DI2N3M01DI02 (DI04)DI3N3M01DI03 (DI04)DI4N3M01DI04 (DI04)DI5N3M02DI01 (DI04)DI6N3M02DI02 (DI04)DI7N3M02DI03 (DI04)DI8N3M02DI04 (DI04)NOTICE:▸Keep voltages above 50 V DC away from the signal connections.Higher voltages could severely damage components. In addition, the safe sep-aration of functional voltages would no longer be guaranteed.●Configuration options →p.18, §4.1●Electronic data →p.21, §5.2●Suitable signal cables →p.10, §3.2InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c e3.3.4Digital outputs (plug connectors X4, X5)Fig.6Plug connectors X4 and X5 (digital outputs)Identification in Formula editorIdentification for I/O assignmentDO1N3M03DO01 (DO04)DO2N3M03DO02 (DO04)DO3N3M03DO03 (DO04)DO4N3M03DO04 (DO04)DO5N3M04DO01 (DO04)DO6N3M04DO02 (DO04)DO7N3M04DO03 (DO04)DO8N3M04DO04 (DO04)NOTICE:▸Keep voltages above 50 V DC away from the signal connections.▸Observe the maximum contact load (→p.21, §5.2).▸Only connect inductive loads (e.g. relays, solenoid valves) using discharging diodes.Unallowed loads could severely damage components and the safe separation of functional voltages would no longer be guaranteed.●Configuration options →p.18, §4.1●Electronic data →p.21, §5.2●Suitable signal cables→p.10, §3.2InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c eFunctionThe digital outputs are potential-free relay switching contacts (switching outputs). Each dig-ital output (DO1 ... DO8) can be assigned to one of the available logical functions (→p.18,§4.1).Switching logica)Normal (open-circuit principle): When the assigned switching function is activated logi-cally, the switching output is also activated electronically (relay is energized).b)Inverted (closed-circuit principle): The switching output is activated electronically as long as the logical switching function is not activated. The switching output is deacti-vated electronically in logically activated state (relay deactivated).Check this variant carefully when the switching output is used for a warning message (→p.15 ”Safety criteria”). Safety criteriaCAUTION:Risks for connected devices/systems▸Before using the switching outputs, clarify the safety-relevant consequences for the following operational malfunctions:–Power failure (for example, local power failure or accidental switching-off or defective fuse)–Defect in the I/O Module (for example, electronic defect of a switching out-put)–Interruption of the electrical connection ▸Observe the switching method:–Switching outputs with normal switching logic signal the switching function as not activated after a power failure–Switching outputs with inverted switching logic signal the associated switching function as triggered immediately after a power failure.▸Carefully review the consequences. Make sure that no dangerous situation can arise when a failure or defect occurs.InstallationS u b j e c t t o c h a n g e w i t h o u t n o t i c eConfigurationS u b j e c t t o c h a n g e w i t h o u t n o t i c eI/O Module4ConfigurationOptions ProgrammingConfigurationS u b j e c t t o c h a n g e w i t h o u t n o t i c e4.1Setting optionsEach signal connection can be individually configured with the functions of the control unit (→Table 1). A defined standard configuration or the ordered configuration are set at the fac-tory. If the GMS800 is part of a measuring system, the signal connections are programmed to match the system.4.2Automation with formulasThe “SOPAS ET” application program can be used to program logical and mathematical function links (“formulas”). This allows digital output actions controlled by logic and time to automate external processes.Table 1I/O configuration optionsFunctional group Variables (examples)Analog inputs●Electronic zero point (0/2/4mA)●Unit of the signal fed●Physical start and end values of the signal span Analog outputs●Electronic zero point (0/2/4mA)●Source of the value output●Physical start and end values of the signal span Digital outputs ●Source that controls the switching state ●Normal or inverted activation logic Digital inputs●Name (designation)●Normal or inverted activation logicInstructions for programming formulas →Technical Information “Basic Control Unit (BCU) with SOPAS ET”Technical DataS u b j e c t t o c h a n g e w i t h o u t n o t i c eI/O Module5Technical DataElectronic dataList (overview) of the signal connectionsTechnical DataS u b j e c t t o c h a n g e w i t h o u t n o t i c e5.1DimensionsTechnical DataI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 21S u b j e c t t o c h a n g e w i t h o u t n o t i c e5.2Electronic dataAnalog outputs Number:4Reference potential:Potential-free (electrically isolated)Signal range:0…24mA Residual ripple:0.02 mAResolution/precision: 0.1% (20μA)Precision:0.25% of measuring range end value Maximum load:500ΩMaximum output voltage:15V Start or error state:Adjustable Analog inputs Number:2Reference potential:GNDInput signal:0…20mA Highest allowable input signal:30 mA Overload protection:±1000 mA Input load50ΩTransducer precision:0.5%Digital inputs (control inputs)Type of construction:Optical coupler Number:8Switching range:18…42V Highest allowable voltage:±50V DCTable 2Maximum load per relay switching contact [1][1]All voltages relative to GND/enclosure Application area AC voltage [2] [2]Effective valueDC voltage Current [2]Standard:max. 30 V AC max. 48 V DC Max. 500 mA CSA [3][3]Possible voltage/current combinations in CSA Standard range or within the framework of a CSA certificationEither:max. 30 V AC max. 48 V DC Max. 50 mA Or:max. 15 V AC max. 24 V DC Max. 200 mA Or:max. 12 V ACmax. 18 V DCMax. 500 mADigital outputs (switching outputs)Number of relays:8Contact type:1-pole changeover switch, 3 connections Contact load:→Table 2Highest allowable voltage:±50V DCNOTICE:Only use discharging diodes to connect inductive loads (e.g. relays, solenoid valves) to the switching outputs.▸For inductive loads: Check whether the discharging diodes are fitted.▸If not: Install external discharging diodes.22I/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AGTechnical DataS u b j e c t t o c h a n g e w i t h o u t n o t i c e5.3Signal connections – overviewTechnical DataI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 23S u b j e c t t o c h a n g e w i t h o u t n o t i c e5.4Signal connections – listTerminal Pin Function Name NotesX31GroundGND 23Control input commonDIC 45Control input 0DI1N3M01DI01 (DI04)6Control input 1DI2N3M01DI02 (DI04)7Control input 2DI3N3M01DI03 (DI04)8Control input 3DI4N3M01DI04 (DI04)9Control input 4DI5N3M02DI01 (DI04)10Control input 5DI6N3M02DI02 (DI04)11Control input 6DI7N3M02DI03 (DI04)12Control input 7DI8N3M02DI04 (DI04)X41Relay contact 1 – normally open DO1N3M03DO01 (DO04)2Relay contact 1 – common3Relay contact 1 – normally closed 4Relay contact 2 – normally open DO2N3M03DO02 (DO04)5Relay contact 2 – common6Relay contact 2 – normally closed 7Relay contact 3 – normally open DO3N3M03DO03 (DO04)8Relay contact 3 – common9Relay contact 3 – normally closed 10Relay contact 4 – normally open DO4N3M03DO04 (DO04)11Relay contact 4 – common12Relay contact 4 – normally closed X51Relay contact 5 – normally open DO5N3M04DO01 (DO04)2Relay contact 5 – common3Relay contact 5 – normally closed 4Relay contact 6 – normally open DO6N3M04DO02 (DO04)5Relay contact 6 – common6Relay contact 6 – normally closed 7Relay contact 7 – normally open DO7N3M04DO03 (DO04)8Relay contact 7 – common9Relay contact 7 – normally closed 10Relay contact 8 – normally open DO8N3M04DO04 (DO04)11Relay contact 8 – common12Relay contact 8 – normally closed X71GroundGND23(+) Analog input 1 (0…20mA)AI1N3M07AI01 (AI02)4(+) Analog input 2 (0…20mA)AI2N3M07AI02 (AI02)5(–) Analog output 1AO1N3M05AO01 (AO02)6(+) Analog output 1 (0/2/4…20mA)7(–) Analog output 2AO2N3M05AO02 (AO02)8(+) Analog output 2 (0/2/4…20mA)9(–) Analog output 3AO3N3M06AO01 (AO02)10(+) Analog output 3 (0/2/4…20mA)11(–) Analog output 4AO4N3M06AO02 (AO02)12(+) Analog output 4 (0/2/4…20mA)24I/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AGTechnical DataS u b j e c t t o c h a n g e w i t h o u t n o t i c e···Empty page ···IndexI/O Module ·Supplementary Operating Instructions ·8015917V2.0·©SICK AG 25A Additional documentation (information) . . . . . . . . . . 6Analog inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Analog outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12CClosed-circuit principle . . . . . . . . . . . . . . . . . . . . . . . 15Configuration (setting options) . . . . . . . . . . . . . . . . 18Connection terminals . . . .see »Terminal assignment«Control inputs. . . . . . . . . . . . . . . . . see »Digital inputs«DDigital inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Digital outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-Control logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-Open/closed-circuit principle . . . . . . . . . . . . . . . . 15-Safety criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-Switching functions . . . . . . . . . . . . . . . . . . . . . . . . 15Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20E EMC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10FFunction of the module . . . . . . . . . . . . . . . . . . . . . . . 8G Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2IInformation symbols . . . . . . . . . . . . . . . . . . . . . . . . . . 2Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9MMeasured value outputs. . . . . . .see »Analog outputs«Module versions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8O Open-circuit principle . . . . . . . . . . . . . . . . . . . . . . . . 15PPin assignment . . . . . . see »Terminal assignment« 10Plug connector-Mechanical coding . . . . . . . . . . . . . . . . . . . . . . . . 10-Version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-X3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-X4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-X5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-X7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-12Plug connector housing . . . . . . . . . . . . . . . . . . . . . . 10Product description . . . . . . . . . . . . . . . . . . . . . . . . . . 7Programming (information) . . . . . . . . . . . . . . . . . . . 18R Relay contacts . . . . . . . . . . . . . .siehe “Digital outputs”SSafety information . . . . . . . . . . . . . . . . . . . . . . . .6, 15Setting options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Shield (signal cable) . . . . . . . . . . . . . . . . . . . . . . . . . 10Shielding (signal cable) . . . . . . . . . . . . . . . . . . . . . . 10Signal cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Signal connections-Analog inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-Analog outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-Digital inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-Digital outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-List (Table) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23-Overview (graph) . . . . . . . . . . . . . . . . . . . . . . . . . . 22-Programming (information) . . . . . . . . . . . . . . . . . 18-Safety criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15-Setting options . . . . . . . . . . . . . . . . . . . . . . . . . . . 18-Suitable signal cable . . . . . . . . . . . . . . . . . . . . . . . 10-Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21-Version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Signal words . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Switching outputs . . . . . . . . . . .siehe “Digital outputs”Symbols (explanation) . . . . . . . . . . . . . . . . . . . . . . . . 2TTechnical Data . . . . . . . . . . . . . . . . . . . . . . . . . .19, 21-Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20-Electronic data . . . . . . . . . . . . . . . . . . . . . . . . . . . 21Terminal assignment-Analog inputs (X7) . . . . . . . . . . . . . . . . . . . . . . . . . 11-Analog outputs (X7) . . . . . . . . . . . . . . . . . . . . . . . . 12-Digital inputs (X3) . . . . . . . . . . . . . . . . . . . . . . . . . 13-Digital outputs (X4, X5) . . . . . . . . . . . . . . . . . . . . . 14W Warning symbols, warning levels . . . . . . . . . . . . . . . 2XX3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13X4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14X5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14X7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-12SICK AG |Waldkirch |Germany |8015917/V 2.0/2012-12 |S u b j e c t t o c h a n g e w i t h o u t n o t i c eSICK worldwideYou will find our local subsidiary or agency at:Your local sales and service partner。

Modicon M580处理器模块数据表说明书

Modicon M580处理器模块数据表说明书

i s c la i me r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t ef o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i ng s u i t a b i l i t y o r r e l i a b i l i t y o f th e s e p r o d u c t s f o r s p e ci f i c u s e r a p p l i c a t i o n sProduct data sheetCharacteristicsBMEP582040processor module M580 - Level 2 - RemoteMainRange of productModicon M580Product or component type Processor moduleSupplyInternal power supply via rackComplementaryNumber of racks4Discrete I/O processor capacity 2048 I/O Analogue I/O processor capacity 512 I/O Number of application specific channel 72Application specific I/OHARTMotion control CounterAccurate time stamping Serial link SSI encoder ChecksProcess control Control channelsProgrammable loopsIntegrated connection typeUSB type mini B1 Ethernet TCP/IP service port2 Ethernet TCP/IP device network Number of remote I/O station 8 - 2 rack(s) per remote drop Number of distributed equipment 64Communication module processor 2 Ethernet communication module 8 AS-Interface module Communication service RIO scanner DIO scannerMemory descriptionExpandable flash 4 GB data storage Integrated RAM 10 kB system memory Integrated RAM 8 MB program Integrated RAM 768 kB data Application structure1 periodic fast task 64 event tasks2 auxiliary tasks1 cyclic/periodic master taskNumber of instructions per ms 7.5 Kinst/ms 65 % Boolean + 35 % fixed arithmetic 10 Kinst/ms 100 % Boolean Current consumption 270 mA 24 V DC MTBF reliability 600000 H Marking CEStatus LED1 LED green download in progress (DL)1 LED red memory card or CPU flash fault (BACKUP)1 LED green/red ETH MS (Ethernet port configuration status)1 LED green/red Eth NS (Ethernet network status)1 LED green processor running (RUN)1 LED red I/O module fault (I/O)1 LED red processor or system fault (ERR)Product weight0.849 kgEnvironmentAmbient air temperature for operation 0...60 °C Ambient air temperature for storage -40...85 °C Operating altitude 0...2000 m Relative humidity 5...95 %IP degree of protection IP20StandardsEN/IEC 60079-31CSA C22.2 No 142CSA C22.2 No 213 Class I Division 2EN/IEC 60079-0EN/IEC 60079-15EMC 2004/108/EC EN/IEC 61131-2LWD 2006/95/EC UL 508Product certificationsGOSTREACH directive 1907/2006/EC RCMWEEE directive 2002/96/EC Merchant NavyATEX II 3 Gas & Dust zone 2/22EACRoHS directive 2011/65/EUOffer SustainabilitySustainable offer status Green Premium productRoHS (date code: YYWW)Compliant - since 1623 - Schneider Electric declaration of conformity Schneider Electric declaration of conformity REAChReference not containing SVHC above the threshold Reference not containing SVHC above the threshold Product environmental profileAvailableProduct environmental Product end of life instructionsAvailableEnd of life manualCPU MODULE ONLYModules Mounted on Racksa:additional space below the rack to accommodate the height of the CPU. For an X Bus rack, the value is 30.9 mm (1.217 in.); for an Ethernet rack, the value b:the height of the rack. For an X Bus rack, the height is 103.7 mm (4.083 in.); for an Ethernet rack, the height is 105.11 mm (4.138 in.).c:the height of the main local rack, 134.6 mm (5.299 in.)Modules and Cables Mounted in an Enclosurea:enclosure depth: 135 mm (5.315 in.)b:wiring + module depth: > 146 mm (5.748 in.)c:wiring + module + DIN rail depth: > 156 mm (6.142 in.)d:rack height: for an X Bus rack 103.7 mm (4.083 in.); for an Ethernet rack, 105.11 mm (4.138 in.)e:module height: 134.6 mm (5.299 in.)。

亿佰特E28-2G4M27S 产品规格书说明书

亿佰特E28-2G4M27S 产品规格书说明书

E28-2G4M27S产品规格书SX1280 2.4GHz 500mW SPI 高速LoRa模块目录第一章产品概述 (2)1.1 产品简介 (2)1.2 特点功能 (2)1.3 应用场景 (2)第二章规格参数 (3)2.1 极限参数 (3)2.2 工作参数 (3)第三章机械尺寸与引脚定义 (4)第四章基本操作 (5)4.1硬件设计 (5)4.2软件编写 (5)第五章基本应用 (6)5.1 基本电路 (6)第六章常见问题 (7)6.1 传输距离不理想 (7)6.2 模块易损坏 (7)6.3 误码率太高 (7)第七章焊接作业指导 (8)7.1 回流焊温度 (8)7.2 回流焊曲线图 (8)第八章相关型号 (9)第九章天线指南 (9)9.1 天线推荐 (9)9.2天线选择 (9)修订历史 (10)关于我们 (11)第一章产品概述1.1 产品简介E28-2G4M27S是亿佰特公司设计生产的2.4GHz射频收发模块,发射功率500mW,SPI接口,具有极低的低功耗模式流耗;该模块为小体积贴片型(引脚间距1.27mm),自带高性能PCB板载天线,采用52MHz工业级高精度低温漂晶振,保证其工业特性和其稳定性能。

采用Semtech公司的SX1280射频芯片,此芯片包含多样的物理层以及多种调制方式,如LoRa、FLRC、GFSK,并可兼容蓝牙协议;特殊的调制和处理方式使得LoRa和FLRC调制的传输距离有显著提升,在原有基础上内置了功率放大器(PA)与低噪声放大器(LNA),使得最大发射功率达到500mW的同时接收灵敏度也获得进一步的提升,在整体的通信稳定性上较没有功率放大器与低噪声放大器的产品大幅度提升;出色的低功耗性能、片上DC-DC和Time-of-flight使得此芯片功功能强大,可用于智能家居、安全系统、定位追踪、无线测距、穿戴设备、智能手环与健康管理等等。

SX1280支持RSSI,用户可以根据需要实现深度的二次开发,亦集成飞行时间(Time of flight),适用于测距功能。

2.4G芯片 升级版LT8920 数据手册

2.4G芯片 升级版LT8920 数据手册
11.8. MCU/应用决定包长度 ................................ .................. 35 11.8.1. FW_TERM_TX= 1 ................................ ................... 36 11.8.2. FW_TERM_TX= 0 (发射状态) ................................ .......... 38 11.8.3. FW_TERM_TX= 0 (RX) ................................ ............... 40
LT8920 中文手册 1.0 LT8900 Datasheet Revision 1.2
LT8920
2.4G 可变数据率射频芯片
芯片特点
芯片简介
包括射频前端和数字基带的单芯片解决方案。 支持跳频 支持 SP I 和 I2C 接口 内置 auto_ack 功能 数据率 1Mbps,250K bps,125K bps,62.5K bps 1Mbps 时同步位为 64bits,48bits ,32bits, 16bits;250K bps ,125Kbps,62.5Kbps 时同步位 为 32bits,16bits。推荐使用 32bits,容错 1bits。 极低功耗 支持信号能量检测 单芯片传输距离 200 米 支持 SOP 16 和 TSSOP 16 的封装
Page 2
2013 年 6 月
LT8920 中文手册 1.0
9.22. Register 42................................ ........................ 25

模块化仪器的广泛选择

模块化仪器的广泛选择
24 ±0.1 V, ±1 V, ±10 V
√ 4-10
2
DAQ
3
PXI
4
模块仪器
5
GPIB及 总线扩展
6
PAC
7
运动控制
8
实时 分布式I/O
9
远程I/O
10
串行通信
型号 模拟输出 DAC分辨率 更新率 输出范围 输出阻抗 偏移范围
标准波形
任意波形存储 采样时钟调制
SYNC/Marker 10MHz基准频率输入 正弦输出 页码
PXI-7921 两线多路
切换器 24(两线) 48(单线)
DPDT(2路C类) 2 A@30 VDC
220VDC,125VAC 50VA,60W 2A
10μA@10mVDC 最大100mΩ 1024步 125次/秒 √ √ 4-19
PXI-7931 4组2x4 两线制矩阵模
块 32(两线) DPDT(2路C类) 2A@30 VDC 220VDC,125VAC 50 VA, 60 W
BNC, SMB 512 MB
±5 V, ±1 V 50 Ω, 1.5 MΩ
30 MHz
<-80 dB, DC to 1MHz BNC, SMB
512 MB, 128 MB
-
2通道(PXI-9820)








√I-9812(A)/PCI-9810 PCI
4通道 20 MS/s
PXI-9816/9826/9846
简介
凌华科技PXI/PCI-9816/9826/9846是4通道16位10MS/s,20MS/s,40MS/s采样数字化仪,专为输入信号频率高 达20MHz的高频和高动态范围的信号而设计。模拟输入范围可以通过编程设置为±1V/±0.2V或±5V/±0.4V。 配备了容量高达512MB的板载内存的PXI/PCI-9816/9826/9846,摆脱了PCI总线的约束,使之能储存更长时间 的波形。

西门子 NXGPro+ 控制系统手册_操作手册说明书

西门子 NXGPro+ 控制系统手册_操作手册说明书

3.4
单元通讯的协议 ............................................................................................................ 36
3.5
NXGpro+ 高级安全 .......................................................................................................37
3.2
功率拓扑 ......................................................................................................................34
3.3
控制系统概述 ...............................................................................................................35
NXGPro+ 控制系统手册
NXGPro+ 控制系统手册
操作手册
AC
A5E50491925J
安全性信息
1
安全注意事项
2
控制系统简介
3
NXGPro+ 控制系统简介
4
硬件用户界面说明
5
参数配置/地址
6
运行控制系统
7
高级的操作功能
8
软件用户界面
9
运行软件
10
故障和报警检修
11

ME2805型号高精度电压检测器说明书

ME2805型号高精度电压检测器说明书

ME2805Ultra-small package High-precision Voltage Detector with delaycircuit, ME2805 SeriesGeneral Description FeaturesME2805 Series is a series of high-precision voltage detectors with a built-in delay time generator of fixed time developed using CMOS process. Internal oscillator and counter timer can delay the release signal without external parts. Detect voltage is extremely accurate with minimal temperature drift. CMOS output configurations are available. ● Highly accuracy : ±1%● Low power consumption :TYP 0.9uA (V DD =3V) ● Detect voltage range :1.0V~6.5V in 0.1Vincrements● Operating voltage range :0.7V~7V● Detect voltage temperature characteristics :TYP±100ppm/℃● Output configuration : CMOSTypical Application● Power monitor for portable equipment such as notebook computers, digital still cameras, PDA, and cellular phones● Constant voltage power monitor for cameras, videoequipmentandcommunicationdevices.● Power monitor for microcomputers and resetfor CPUs.● System battery life and charge voltagemonitorsTypical Application CircuitPackage● 3-pin SOT23-3、SOT23Selection GuideME 2805X X GEnvironment markPackage:X Function Product Type Product Series MicroneX X Output Voltage X-SOT23M3-SOT23-3NOTE: If you need other voltage and package, please contact our sales staff.product series product descriptionME2805A263M3G V OUT =2.63V ;Rising edge detection ;Package :SOT23-3 ME2805A263XG V OUT =2.63V ;Rising edge detection ;Package :SOT23 ME2805A293M3G V OUT =2.93V ;Rising edge detection ;Package :SOT23-3 ME2805A293XG V OUT =2.93V ;Rising edge detection ;Package :SOT23 ME2805A308XGV OUT =3.08V ;Rising edge detection ;Package :SOT23 ME2805A463XG V OUT =4.63V ;Rising edge detection ;Package :SOT23Pin Configuration123123SOT-23SOT-23-3Pin AssignmentPIN Number Pin Name Function SOT-23-3/SOT-231 VSS Ground2 VOUT Output Voltage 3VDDInput VoltageBlock DiagramAbsolute Maximum RatingsPARAMETER SYMBAL RATINGSUNITS V IN Input Voltage V IN 8 V Output CurrentI OUT 50mA Output Voltage CMOS V OUT GND-0.3~V IN +0.3V Continuous Total PowerDissipationSOT-23-3 Pd 300 mW SOT-23250 Operating Ambient TemperatureT Opr -40~+85 ℃ Storage Temperature T stg -40~+125 ℃ Soldering temperature and timeT solder 260℃, 10sESDMM 400 V HBM4000VElectrical Characteristics(-V DET(S)=1.0V to 6.5V±2% ,Ta=25O C , unless otherwise noted)Parameter Symbol Conditions Min. Typ Max.UnitsTest circuitDetect Voltage (Output Voltage)-VDET --VDET(S)×0.99-VDET(S)-VDET(S)×1.01V1 HysteresisRangeVHYS - 0.03 0.06 0.1 VSupply Current ISSVDD=3V (below 2.5V) - 0.9 1.5uA2VDD=5V (2.5V-4.5V) - 1.4 2.8VDD=7V (4.5V-6.5V) - 1.8 3.6Output CurrentIoutN-chVDS=0.5V VDD=0.7V 0.01 0.19 --mA3IoutP-ch VDS=0.5V VDD=7V 1.7 3.4 --mA4OperatingvoltageVDD - 0.7 - 7 V 1 Delay timeTd1 VDD=-VDET+1V DS low 130 200 290 ms 1Td2 VDD=-VDET+1V DS high 110 220 330 us 5 Temperaturecharacteristics VDETTaVDET-∙∆-∆Ta∆=-40℃~ 85℃- ±100 ±350 ppm/℃ 1 Note:1、-VDET(S) :Specified Detection Voltage value2、-VDET :Actual Detection Voltage value3、Release Voltage:+VDET=-VDET+VHYSTest Circuits:1. 2.3. 4.5.Functional Description :1. Basic Operation: CMOS Output (Active Low)1-1. When the power supply voltage (VDD) is higher than the release voltage (+VDET), the Nch transistor is OFF andthe Pch transistor is ON to provide VDD (high) at the output. Since the Nch transistor N1 in Figure 1 is OFF, thecomparator input voltage isC B A C B R R R VDD R R ++∙+)(.1-2. When the VDD goes below +VDET, the output provides the VDD level, as long as VDD remains above thedetection voltage (–VDET). When the VDD falls below –VDET (point A in Figure 2), the Nch transistor becomes ON, the Pch transistor becomes OFF, and the VSS level appears at the output. At this time the Nchtransistor N1 in Figure 1 becomes ON, the comparator input voltage is changed to B AB R R VDD R +∙.1-3. When the VDD falls below the minimum operating voltage, the output becomes undefined, or goes to VDD whenthe output is pulled up to VDD.1-4. The VSS level appears when VDD rises above the minimum operating voltage. The VSS level still appearseven when VDD surpasses the –VDET, as long as it does not exceed the release voltage +VDET.1-5. When VDD rises above +VDET (point B in Figure 2), the Nch transistor becomes OFF and the Pch transistorbecomes ON to provide VDD at the output. The VDD at the OUT pin is delayed for Td due to the delay circuit.2. Delay Circuit2-1. Delay TimeThe delay circuit delays the output signal from the time at which the power voltage (VDD) exceeds the release voltage (+VDET) when VDD is turned on. The output signal is not delayed when the VDD goes below the detection voltage (–VDET). (Refer to Figure 2.) The delay time (t D) is a fixed value that is determined by a built-in oscillation circuit and counter.2-2. DS Pin (ON/OFF Switch Pin for Delay Time)The DS pin should be connected to Low or High. When the DS pin is High, the output delay time becomes short since the output signal is taken from the middle of counter circuit (Refer to Figure 3).Directions for use:1、Please use this IC within the stated maximum ratings. Operation beyond these limits may cause degrading orpermanent damage to the device.2、When a resistor is connected between the V DD pin and the input with CMOS output configurations, oscillation mayoccur as a result of voltage drops at R IN if load current(I OUT) exists.(refer to the Oscillation Description(1) below)3、When a resistor is connected between the V DD pin and the input with CMOS output configurations, oscillation mayoccur as a result of through current at the time of voltage release even if load current(I OUT) does not exist. (refer to the Oscillation Description(2) below)4、With a resistor connected between the V DD and the input, detect and release voltage will rise as a result of the IC’ssupply current flowing through the V DD pin.5、In order to stabilize the IC’s operations, please ensure that V DD pin’s input frequency’s rise and fall times are morethan several u Sec/V.Oscillation Description:1、 Output current oscillation with the CMOS output configurationWhen the voltage applied at IN rises, release operations commence and the detector’s output voltage increase.Load current(I OUT) will flow at R L. Because a voltage drop(R IN*I OUT) is produces at the R IN resistor, located between the input(IN) and the V DD pin. The load current will flow via the IC’s pin. The voltage drop will also lead toa fall in the voltage level at the V DD pin. When the V DD pin voltage level falls below the detect voltage level, detectoperations will commence. Fllowing detect operations, load current flow will cease and since voltage drop at R IN will disapper, the voltage level at the V DD pin will rise and release operations will begin over again. Oscillation may occur with this “release-detect-release” repetition. Further, this condition will also appear via means of a similar mechanism during detect operations.2、 Oscillation as a result of through currentSince the ME2805 series are CMOS IC’s, through current will flow when the IC’s internal circuit switching operates(during release and detect operations). Consequently, oscillation is liable to occur as a result of drops in voltage at the through current’s resistor(R IN) during release voltage operations.(refer to diagram 2) since hysteresis exists during detect operations, oscillation is unlikely to occur.Type Characteristics1、SUPPLY CURRENT VS. AMBIENT TEMPERATUREVDD=5V,-VDET=2.63V VDD=2.5V,-VDET=2.63VIss VS.TEMP0.30.60.91.21.51.82.12.42.7-16102030405060708090100110120TEMP(℃)I s s (u A )Iss VS.TEMP0.20.40.60.811.2-16102030405060708090100110120TEMP(℃)I s s (u A )2、SUPPLY CURRENT VS. INPUT VOLTAGE3、DETECT,RELEASE VOLTAGE VS. AMBIENTTEMPERATURE-VDET=2.63V (T=25℃) -VDET=2.63VIss VS VDD0.511.522.500.511.52 2.53 3.54 4.55 5.566.577.5VDD(V)I s s (u A )VDET VS TEMP2.542.562.582.62.622.642.662.682.72.72-16102030405060708090100110120TEMP(℃)V D E T (V )-VDET +VDE T4、 OUTPUT CURRENT VS. INPUT VOLTAGEN-ch VDS=0.5V,-VDET=2.63V P-ch VDS=0.5V,-VDET=2.63VIout(N) VS. VDD0246810120.20.50.71 1.2 1.7 2.2 2.5VDD(V)I o u t (m A )T=85℃T=-15℃T=23℃I o u t (P ) V S. V00.511.522.533.542.73.2 3.544.555.56V D D (V )I o u t (mT =-15℃T =23℃T =85℃Packaging Information● SOT23DIMMillimetersInchesMinMax Min Max A 0.9 1.2 0.0354 0.0472 A1 0 0.14 0.0000 0.0055 A2 0.9 1.05 0.0354 0.0413 b 0.28 0.52 0.0110 0.0205 c 0.07 0.23 0.0028 0.0091 D 2.8 3.0 0.1102 0.1181 e1 1.8 2.0 0.0709 0.0787 E 1.2 1.4 0.0472 0.0551 E1 2.22.60.08660.1024e 0.95(TYP) 0.0374(TYP) L 0.55(TYP)0.0217(TYP)L1 0.25 0.55 0.0098 0.0217θ 08° 0.00008°c10.25(TYP)0.0098(TYP)● SOT23-3DIMMillimetersInchesMinMax Min Max A 0.9 1.2 0.0354 0.0472 A1 0 0.14 0.0000 0.0055 A2 0.9 1.05 0.0354 0.0413 b 0.28 0.52 0.0110 0.0205 c 0.07 0.23 0.0028 0.0091 D 2.8 3.0 0.1102 0.1181 e1 1.8 2.0 0.0709 0.0787 E 1.2 1.4 0.0472 0.0551 E1 2.22.60.08660.1024e 0.95(TYP) 0.0374(TYP) L 0.55(TYP)0.0217(TYP)L1 0.25 0.55 0.0098 0.0217 θ 08° 0.00008°c1 0.25(TYP)0.0098(TYP)V04 Page 11 of 11 ME2805● The information described herein is subject to change without notice.● Nanjing Micro One Electronics Inc is not responsible for any problems caused by circuits or diagrams described herein whose related industrial properties, patents, or other rights belong to third parties. The application circuit examples explain typical applications of the products, and do not guarantee the success of any specific mass-production design.● Use of the information described herein for other purposes and/or reproduction or copying without the express permission of Nanjing Micro One Electronics Inc is strictly prohibited.● The products described herein cannot be used as part of any device or equipment affecting the human body, such as exercise equipment, medical equipment, security systems, gas equipment, or any apparatus installed in airplanes and other vehicles, without prior written permission of Nanjing Micro One Electronics Inc.● Although Nanjing Micro One Electronics Inc exerts the greatest possible effort to ensure high quality and reliability, the failure or malfunction of semiconductor products may occur. The user of these products should therefore give thorough consideration to safety design, including redundancy, fire-prevention measures, and malfunction prevention, to prevent any accidents, fires, or community damage that may ensue.。

Modicon M238 8输入模块 TM2AMI8HT 产品数据手册说明书

Modicon M238 8输入模块 TM2AMI8HT 产品数据手册说明书

TM2AMI8HTi s c l a i me r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t ef o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i ng s u i t a b i l i t y o r r e l i a b i l i t y o f th e s e p r o d u c t s f o r s p e ci f i c u s e r a p p l i c a t i o n sProduct datasheetCharacteristicsTM2AMI8HTanalog input module M238 - 8 inputs voltage/current - non differentialMainRange of productModicon M238 logic controller Product or component type Analog input module Analogue input number 8Analogue input type Current 4...20 mA non differential Voltage 0...10 V non differential Cross talk<= 1 LSBComplementaryRange compatibility TwidoAdvantys OTB Analogue input resolution 10 bits LSB value19.5 µA current 9.7 mV voltage Permissible continuous overload 13 V voltage 40 mA current Input impedance >= 10 kOhm voltage 470 Ohm current Sampling duration <= 160 msAcquisition period 160 ms per channel + 1 controller cycle time Measurement error +/- 0.2 % of full scale 25 °C Temperature coefficient +/-0.01 %FS/°C Repeat accuracy +/- 0.4 %FS Non-linearity +/- 0.002 %FS Total error +/-1 %FS Type of cableShielded cable Insulation between channel and internal logic Photocoupler SupplyExternal supply [Us] rated supply voltage24 V DCSupply voltage limits 20.4...28.8 VElectrical connection 1 removable screw terminal block power supply 1 removable screw terminal block sensors Current consumption 45 mA 24 V DC external 60 mA 5 V DC internal Product weight0.085 kgEnvironmentDielectric strength 2500 V between the I/O and internal logic Width 23.5 mm Depth 70 mm Height90 mmOffer SustainabilitySustainable offer status Green Premium productRoHS (date code: YYWW)Compliant - since 1039 - Schneider Electric declaration of conformity Schneider Electric declaration of conformity REAChReference not containing SVHC above the threshold Reference not containing SVHC above the threshold Product environmental profileAvailableProduct environmental Product end of life instructionsAvailableEnd of life manualContractual warrantyWarranty period18 monthsProduct datasheetDimensions DrawingsTM2AMI8HTAnalog Input Module (8-channel, Voltage/Current)DimensionsNOTE: * 8.5 mm (0.33 in) when the clip-on lock is pulled out.Product datasheetMounting and ClearanceTM2AMI8HTDIN Rail MountingProduct datasheetTM2AMI8HT Mounting and ClearanceModule Mounting on a Panel SurfaceMounting Hole LayoutProduct datasheetTM2AMI8HT Connections and SchemaWiring RequirementsCable Types and Wire Sizes for Removable Screw Terminal BlockProduct datasheetTM2AMI8HT Connections and SchemaAnalog Input Module (8-channel, Voltage/Current)Wiring DiagramTM2AMI8HT。

80X01和80X02电气采样模块扩展器说明书

80X01和80X02电气采样模块扩展器说明书

80X01and80X02Electrical Sampling Module Extender InstructionsWarrantyWarranty Tektronix warrants that the parts and modules(“parts”)that it manufactures andsells will be free from defects in materials and workmanship for a period of three(3)months from the date of shipment.If any such part proves defective duringthis warranty period,Tektronix,at its option,either will repair the defective partwithout charge,or will provide a replacement in exchange for the defectivepart.Parts and modules used by Tektronix for warranty work may be new orreconditioned to like new performance.All replaced parts and modules becomethe property of Tektronix.In order to obtain service under this warranty,Customer must notify Tektronixof the defect before the expiration of the warranty period and make suitablearrangements for the performance of service.Customer shall be responsible forpackaging and shipping the defective part to the service center designated byTektronix,with shipping charges prepaid.Tektronix shall pay for the return ofthe part to Customer if the shipment is to a location within the country in whichthe Tektronix service center is located.Customer shall be responsible for payingall shipping charges,duties,taxes,and any other charges for parts returned toany other locations.This warranty shall not apply to any defect,failure or damage caused by improperuse or improper or inadequate maintenance and care.Tektronix shall not beobligated to furnish service under this warranty a)to repair damage resulting fromattempts by personnel other than Tektronix representatives to install,repair orservice the part;b)to repair damage resulting from improper use or connection toincompatible equipment;c)to repair any damage or malfunction caused by theuse of non-Tektronix supplies;or d)to service a part that has been modified orintegrated with other products or parts when the effect of such modification orintegration increases the time or difficulty of servicing the part.THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECTTO THE PART IN LIEU OF ANY OTHER WARRANTIES,EXPRESSOR IMPLIED.TEKTRONIX AND ITS VENDORS DISCLAIM ANYIMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR APARTICULAR PURPOSE.TEKTRONIX'RESPONSIBILITY TO REPAIR ORREPLACE DEFECTIVE PARTS IS THE SOLE AND EXCLUSIVE REMEDYPROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANYINDIRECT,SPECIAL,INCIDENTAL,OR CONSEQUENTIAL DAMAGESIRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HASADV ANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.Copyright©Tektronix*P071320600*Important safety informationImportant safety informationThis manual contains information and warnings that must be followed by the userfor safe operation and to keep the product in a safe condition.To safely perform service on this product,additional information is provided atthe end of this section.(See page2,Service safety summary.)General safety summaryUse the product only as specified.Review the following safety precautions toavoid injury and prevent damage to this product or any products connected to it.Carefully read all instructions.Retain these instructions for future reference.To avoidfire or personalinjury Do not operate without covers.Do not operate this product with covers or panels removed,or with the case open.Hazardous voltage exposure is possible.Do not operate with suspected failures.If you suspect that there is damage to this product,have it inspected by qualified service personnel.Disable the product if it is damaged.Do not use the product if it is damagedor operates incorrectly.If in doubt about safety of the product,turn it off and disconnect the power cord.Clearly mark the product to prevent its further operation.Examine the exterior of the product before you use it.Look for cracks or missing pieces.Do not operate in wet/damp conditions.Be aware that condensation may occur if a unit is moved from a cold to a warm environment.Do not operate in an explosive atmosphere.Keep product surfaces clean and dry.Remove the input signals before you clean the product.Service safety summaryThe Service safety summary section contains additional information required tosafely perform service on the product.Only qualified personnel should performservice procedures.Read this Service safety summary and the General safetysummary before performing any service procedures.Do not service alone.Do not perform internal service or adjustments of thisproduct unless another person capable of renderingfirst aid and resuscitation ispresent.Important safety informationDisconnect power.To avoid electric shock,switch off the product power anddisconnect the power cord from the mains power before removing any covers orpanels,or opening the case for servicing.Terms in this manualThese terms may appear in this manual:WARNING.Warning statements identify conditions or practices that could resultin injury or loss of life.CAUTION.Caution statements identify conditions or practices that could result indamage to this product or other property.Symbols and terms on the productThese terms may appear on the product:DANGER indicates an injury hazard immediately accessible as you readthe marking.WARNING indicates an injury hazard not immediately accessible as youread the marking.CAUTION indicates a hazard to property including the product.When this symbol is marked on the product,be sure to consult the manualtofind out the nature of the potential hazards and any actions which have tobe taken to avoid them.(This symbol may also be used to refer the user toratings in the manual.)The following symbol(s)may appear on the product:Product descriptionEnvironmental considerationsThis section provides information about the environmental impact of the product.Product end-of-lifehandling Observe the following guidelines when recycling an instrument or component: Equipment recycling.Production of this equipment required the extraction and use of natural resources.The equipment may contain substances that could be harmful to the environment or human health if improperly handled at the product’s end of life.To avoid release of such substances into the environment and to reduce the use of natural resources,we encourage you to recycle this product in an appropriate system that will ensure that most of the materials are reused or recycled appropriately.This symbol indicates that this product complies with the applicable EuropeanUnion requirements according to Directives2002/96/EC and2006/66/ECon waste electrical and electronic equipment(WEEE)and batteries.Forinformation about recycling options,check the Support/Service section of theTektronix Web site().Restriction of hazardoussubstances This product is classified as an industrial monitoring and control instrument accessory,and is not required to comply with the substance restrictions of the recast RoHS Directive2011/65/EU until July22,2017.Product descriptionThe80X01(one-meter)and80X02(two-meter)electrical sampling moduleextender cables(referred to as the extender cable or the extender in this document)are for use with supported electrical sampling modules.(See page5,Supportedmodules.).Use the extender to move the sampling module from its instrument compartment,closer to the device under test,so that you can use shorter signal ing theextender avoids input-signal degradation that can occur when using long-lengthsignal cables between the sampling module and the device under test.Product descriptionSupported sampling oscilloscopesThe extender cable is for use with the following sampling oscilloscopeinstruments:DSA8300Digital Serial AnalyzerLegacy sampling oscilloscope instruments:DSA8200Digital Serial AnalyzerCSA8000,CSA8000B,and CSA8200Communications Signal AnalyzersTDS8000,TDS8000B,and TDS8200Digital Sampling OscilloscopesSupported modules80E01,80E02,80E03,80E04,80E06,80E11,and80E11X1Electrical samplingmodulesOther modules82A04BGuidelinesObserve the following guidelines to avoid damaging your sampling modules orinstruments:The extender cannot be used with any large-compartment modules.Some small modules are mechanically blocked from use with the extender.When connecting an80X02extender to an80X01extender,connect theextenders in the following order:Instrument-80X02-80X01-samplingmodule.Always wear a grounded wrist strap,grounded foot strap,and static resistantapparel while installing module extenders and modules.Observe standard anti-static handling precautions when connecting signalcables to sampling modules.Change to instrument operating temperature range when using80X01or80X02When you install one or more of the extenders in an instrument,the upper end ofthe instrument operating temperature range changes as follows:No extender cable(s)installed:+10°C to+40°CWith extender cable(s)installed:+10°C–+35°CInstallation instructionsChange to minimum horizontal position when using80X01or80X02Installing the80X01or80X01extender cable increases the minimum horizontalposition setting as follows:80X01:+5ns80X02:+10nsThis affects waveforms acquired from all modules,extended or not.Horizontalposition is a global setting.Installation instructionsCAUTION.For the DSA8300with TekScope software version6.1.X or greater,follow proper module exchange procedures to remove,install,or exchangemodules or module extenders with the instrument powered on(View/ChangeModule Config tool).Refer to the product documentation for instructions.For all legacy instruments(DSA8200Digital Serial Analyzer,CSA8000,CSA8000B,and CSA8200Communications Signal Analyzer,TDS8000,TDS8000B,and TDS8200Digital Sampling Oscilloscopes),andDSA8300instruments with TekScope software version6.0.X,power off theinstrument before removing,installing,or exchanging modules or moduleextenders.Removing or installing modules in these instruments while powered onmay result in damage to the module and/or mainframe instrument.Always wear a grounded wrist strap,grounded foot strap,and static resistantapparel while installing this module extender and any modules.Observe standard anti-static handling precautions when connecting signal cablesto sampling modules.NOTE.DSA8300Digital Serial Analyzer instruments with TekScope softwareversion6.1.X or greater have a View/Change Module Config function that allowsremoving,installing,or exchanging modules or module extenders while the maininstrument is powered on.All earlier instruments,and earlier TekScope softwareversions,require that you power off the main instrument before removing,installing,or exchanging modules or extenders.NOTE.The80X02sampling module extender is keyed to prevent connecting todevices not intended to be extended and to prevent two or more80X02extendersfrom being connected in series.To connect an80X02extender to an80X01extender,connect the cables in thefollowing order:Instrument-80X02-80X01-sampling module.Installation instructions Do the following steps to install the extender between the instrument and the electrical sampling module:1.Connect an antistatic wrist strap to the instrument front-panel groundconnection.Place the strap on your wrist.2.Remove power:DSA8300(with TekScope software version6.1or later):Run theUtilities>View/Change Module Config tool;follow on-screeninstructions to remove a module and/or install the“To Instrument”end ofthe extender in a small module slot.Then go to step4.DSA8300with TekScope software version6.0X,and all Legacyinstruments:Push the On/Standby button on the front panel to poweroff the instrument.If there is a module in the slot where you are installing the extender,remove the module after the instrument has powered off. 3.Install the extender connector labeled To Instrument into a suitable slot inthe instrument.See the sampling module user manual if you require more information.4.Attach the connector marked To Sampling Module to a supported samplingmodule.(See page5.)5.Apply power to the module:DSA8300(with TekScope software version6.1or later):Click theFinish button in the View/Change Module Config tool.This appliespower to the module slot.DSA8300with TekScope software version6.0X,and all Legacyinstruments:Push the On/Standby button on the front panel to poweron the instrument.Wait for the boot-up cycle to complete.Installation instructions6.Run a compensation on each channel of all newly installed modules or moduleextenders(select Utilities>Compensation).You must run compensation,even if module(s)and/or extenders were moved from one slot to another.Seethe instrument documentation or TekScope application help for instructionson how to run compensation.7.You can now use the instrument to take measurements.NOTE.Check the module compensation status for thefirst20minutes byviewing the compensation status icon on the instrument user interface,or byquerying the compensation status from the programmatic interface.It may takeup to20minutes for the sampling module on the extender cable to reach astable temperature.If the compensation status indicates that a module requirescompensation,rerun compensation on the module to be sure that the instrumentand module are within measurement accuracy specifications.。

科远设备级驱动和自定义模块说明(新)

科远设备级驱动和自定义模块说明(新)

设备级驱动和自定义模块说明编制:黄轶青审核:曹瑞峰梅建华批准:刘国耀南京科远控制工程有限公司NANJING KEYUAN CONTROL ENGNEERING CO., LTD2003年11月目录1.不可调电动门(ACT15A3W:TVL_BT): (6)1.1模块原理 (6)1.2主要特性有: (6)1.3工作模式:(优先权由高到低) (8)1.4模块参数: (8)1.5不可调电动门在逻辑图中的表达方法如下例: (11)1.6如何组态参照组态演示文件. (11)2.点动门(ACT15A3W:TVL_DD): (13)2.1模块原理 (13)2.2主要特性有: (13)2.3工作模式:(优先权由高到低) (15)2.4模块参数: (15)2.5点动门在逻辑图中的表达方法如下例: (16)2.6如何组态参照组态演示文件. (16)3. 全开全关执行机构(ACT15A3W:TVL_AN): (17)3.1模块原理 (17)3.2模块参数: (17)3.3全开全关执行机构在逻辑图中的表达方法如下例: (18)3.4如何组态参照组态演示文件. (18)4.单位式设备(ACT15A3W:TVL_RS): (19)4.1模块功能 (19)4.2模块参数: (20)4.3单位式设备在逻辑图中的表达方法如下例: (20)4.4如何组态参照组态演示文件. (21)5.标准电机(ACT15A3W:TMT_ST): (21)5.1模块功能 (21)5.2主要特性有: (21)5.3工作模式:(优先权由高到低) (23)5.4模块参数: (23)5.5标准电机在逻辑图中的表达方法如下例: (24)5.6如何组态参照组态演示文件. (25)6.一带八设备模块(DIGACT:TCKGF8A): (26)6.1模块功能: (26)6.2主要特性有: (26)6.3模块参数: (26)6.4一带八设备模块在逻辑图中的表达方法 (27)6.5如何组态参照组态演示文件. (28)7.多功能软伺放(ACT15A3W:ANMMF): (29)7.1模块功能 (29)7.4模块参数: (31)7.5模块选型: (35)7.6如何组态参照组态演示文件. (35)8.四回路多输出T2500软伺放(ACTION:AMF): (36)8.1模块功能 (36)8.2主要特性有: (36)8.3工作模式: (37)8.4模块参数: (38)8.5模块选型: (39)8.6四回路多输出T2500软伺放在逻辑图中的表达方法 (40)8.7如何组态参照组态演示文件. (40)9.模拟量手操模块(ACTION:MANS): (42)9.1模块功能 (42)9.2主要特性有: (42)9.3工作模式: (43)9.4模块参数: (44)9.5模拟量手操站在逻辑图中的表达方法 (46)9.6如何组态参照组态演示文件. (46)10.二值优选模块(ACTION:OF2VOTE(FILENAME和ACTNAME)): (48)10.1模块功能 (48)10.2参数 (48)10.3二值优选模块在逻辑图中的表达方法如下例: (49)10.4如何组态参照组态演示文件. (49)11.自动冗余切换、故障集合及负荷率运算模块(ACTION:DIAG(FILENAME和ACTNAME)): 5011.1模块功能 (50)11.2模块参数 (50)11.3如何组态参照组态演示文件. (50)12.十一回路首出原因模块(ACT15A3W:ETSST(FILENAME和ACTNAME)): (51)12.1模块功能 (51)12.2模块参数 (51)12.3在逻辑图中的表达方法 (51)12.4如何组态参照组态演示文件. (51)13.串级回路抗积分饱和模块(ACTION:SERCO (FILENAME和ACTNAME)): (52)13.1块功能说明 (52)13.2参数 (52)13.3在逻辑图中的表达方法 (52)13.4如何组态参照组态演示文件. (52)14.两前馈协调模块(ACTION:NODISTB(FILENAME和ACTNAME)): (53)14.1模块原理该 (53)14.4如何组态参照组态演示文件. (53)15.过热蒸汽流量补偿(ACTION:MATH(FILENAME)FL_OVER(ACTNAME)): (54)15.1模块原理 (54)15.2参数 (54)15.3如何组态参照组态演示文件. (54)16.汽包水位补偿模块(ACTION:MATH(FILENAME)DLEL(ACTNAME)): (55)16.1模块原理 (55)16.2参数 (55)16.3如何组态参照组态演示文件. (55)17.积分处理模块(ACTION:INTGDW32(FILENAME和ACTNAME)): (56)17.1模块功能 (56)17.2参数 (56)17.3在逻辑图中的表达方法 (56)17.4如何组态参照组态演示文件. (56)18.一带八同操处理模块(ACTION:TCON(FILENAME和ACTNAME) (57)18.1模块功能 (57)18.2参数 (57)18.3在逻辑图中的表达方法 (58)18.4如何组态参照组态演示文件. (58)19.一带十二同操+一带四同操处理(ACT15A3W:TCON3W(FILENAME和ACTNAME)) (59)19.1模块功能 (59)19.2参数 (59)19.3在逻辑图中的表达方法 (60)19.4如何组态参照组态演示文件. (60)20.八路电量脉冲累积模块(ACTION:PLSTAT(FILENAME) STAT8(ACTNAME)) (61)20.1模块功能 (61)20.2参数 (61)20.3在逻辑图中的表达方法 (61)20.4如何组态参照组态演示文件. (61)21.机炉协调控制模块(ACT15A3W:LMCC(FILENAME和ACTNAME)): (62)21.1模块功能 (62)21.2模块参数 (62)21.3如何组态参照组态演示文件. (63)22.单元机组煤粉炉燃料控制模块 (64)22.1模块功能 (64)22.2模块参数 (64)22.3如何组态参照组态演示文件. (65)23.2参数 (66)23.3在逻辑图中的表达方法 (67)23.4如何组态参照组态演示文件. (67)24.MFT控制模块(DIGACT:ACT15A3W(FILENAME) MFT(ACTNAME)) (68)24.1模块功能 (68)24.2参数 (68)24.3在逻辑图中的表达方法 (69)24.4如何组态参照组态演示文件. (69)25.数字量三取二模块(ACTION:ACTION(FILENAME) LOGIC2_3(ACTNAME)) (70)25.1模块功能 (70)25.2参数 (70)25.3在逻辑图中的表达方法 (70)25.4如何组态参照组态演示文件. (70)26.数字量四取二模块(ACTION:ACTION(FILENAME) LOGIC2_4(ACTNAME)) (71)26.1模块功能 (71)26.2参数 (71)26.3在逻辑图中的表达方法 (71)26.4如何组态参照组态演示文件. (71)27.数字量四取三模块(ACTION:ACTION(FILENAME) LOGIC3_4(ACTNAME)) (72)27.1模块功能 (72)27.2参数 (72)27.3在逻辑图中的表达方法 (72)27.4如何组态参照组态演示文件. (72)28.数字量六取四模块(ACT15A3W:LOGMUL(FILENAME) LOGIC4_6(ACTNAME)) (73)28.1模块功能 (73)28.2参数 (73)28.3在逻辑图中的表达方法 (73)28.4如何组态参照组态演示文件. (73)29.数字量八取六模块(ACTION:LOGMUL(FILENAME) LOGIC6_8(ACTNAME)) (74)29.1模块功能 (74)29.2参数 (74)29.3在逻辑图中的表达方法 (74)29.4如何组态参照组态演示文件. (74)30.脉冲发生模块(DIGACT:PULSE(FILENAME) PULSE(ACTNAME)) (75)30.1模块功能 (75)30.2参数 (75)30.3在逻辑图中的表达方法 (75)30.4如何组态参照组态演示文件. (75)31.1.1开关型集成设备级模块的分类 (76)31.1.2.模拟量集成设备级模块的分类 (76)31.2MMI设备级连接 (78)31.2.1可调电动门(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTVL_BT) (78)31.2.2点动式电动门(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTVL_DD) (82)31.2.3全开全关执行机构(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTVL_AN) (83)31.2.4电动机与泵(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTMT_ST) (84)31.2.5断路器(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTMT_DL) (85)31.2.6单位式设备(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTVL_RS) (86)31.2.7双线圈电磁阀(图标Dynamos名:NKTKGICO,面板Dynamos名:NKTVL_RS) (87)31.2.8调整门1:单PID调节,并且现场设备的接口为AO (88)31.2.9调整门2:单PID调节,并且现场设备的接口为PO (90)31.2.10调整门3:串级PID调节,并且与现场设备的接口为AO (91)31.2.11调整门4:无PID调节,纯手动操作设备,与现场设备的接口为AO (91)32.附录 (93)1.不可调电动门(ACT15A3W:TVL_BT):1.1模块原理Fig. 1.1 不可调电动门模块的逻辑图请参看图1.1,该设备模块用于驱动一个不可调整型电动门,接收从现场设备来的“已开和已关信号”,根据逻辑判断发出DO信号控制现场电动门全开或全关。

KS0108控制器系列液晶模块中文说明书(一)128

KS0108控制器系列液晶模块中文说明书(一)128

KS0108控制器系列液晶模块使用说明书(一)感谢您关注和使用我们的液晶产品。

如果您在使用中有任何疑问,请拨打我们的客户服务热线020--87571530寻求技术支持和获取相关资料,我们竭诚为您服务。

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第一章KS0108控制器系列产品介绍一、 KS0108控制器系列产品主要特性z8位并行数据接口,适配M6800系列时序。

z拥有64×64位(512字节)的显示存储器,其数据直接作为显示驱动信号。

z简单的操作指令。

z低功耗(具体参数见各款产品外形文件)二、 产品列表人和电子有限公司生产的128×32点阵系列和128×64系列产品型号如下: 12832-1 12832-312864-1 12864-2 12864-3 12864-7 12864-1112864-16 12864-17 12864-18三、 主要产品外形图1) 12832-111810.0±0.31.6MAX14.565.0±0.342.0±0.225.0(V .A )18.19(A .A )10.061.020.9@2.54x17=43.180.520.520.050.054-?2.5?1.02.09.017.5106.097.0±0.276.0(V.A)72.91(A.A)110.0±0.32) 12832-318.19(A .A )72.91(A.A)@2.54*17=43.1818165.0±0.361.042.0±0.225.0(V .A )76.0(V.A)97.0±0.2105.0110.0±0.310.0?1.04-?2.5MAX14.5 1.6010.0±0.30.520.520.050.052.09.117.621.011208.3±0.31.6MAX13.033.24(A .A )38.8(V .A )55.0±0.265.0±0.366.52(A.A)73.4(V.A)105.0113.0±0.397.0±0.257.0?1.0@2.54x19=48.2625.44.05.013.115.94-?3.00.040.040.480.484) 12864-28.7±0.3MAX13.50.040.040.480.4812033.24(A .A )128x64 dots@2.54*19=48.261.61013.034-?3?0.866.52(A.A)86.6±0.381.670.7(V.A)61.2±0.356.250.3±0.238.8(V .A )2.54.510.255) 12864-312864-3产品有12864-3C 和12864-3D 两个升级型号,其中12864-3C 是片选高电平有效,12864-3D 是片选低电平有效。

HSMS-2802中文资料

HSMS-2802中文资料

2825
C5
5 Unconnected
Pair
2827
C7
7 Ring Quad[6]
2828
C8
8 Bridge Quad[6]
2829
C9
9 Cross-over Quad
2860
T0
0 Single
None
4
350
0.6 30

0.35
10
2862
T1
2 Series Pair
2863
T3
3 Common Anode
pF
EG
eV
IBV
A
IS
A
N
RS

PB
V
PT
M
HSMS-280X
75 1.6 0.69 10E-5 3 x 10E - 8 1.08 30 0.65 2 0.5
HSMS-281X
25 1.1 0.69 10E-5 4.8 x 10E - 9 1.08 10 0.65 2 0.5
HSMS-282X
15 0.7 0.69 10E-4 2.2 x 10E -8 1.08 6.0 0.65 2 0.5
Minimum Breakdown Voltage VBR (V)
Maximum Forward Voltage VF (mV)
Maximum Forward Voltage VF (V) @ IF (mA)
Maximum Reverse Leakage IR (nA) @ VR (V)
Maximum Capacitance CT (pF)
In a quad, the diagonal capacitance is the capacitance between points A and B as shown in the figure below. The diagonal capacitance is calculated using the following formula

广州致远电子股份有限公司 8 通道继电器输出模块产品用户手册说明书

广州致远电子股份有限公司 8 通道继电器输出模块产品用户手册说明书

广州致远电子股份有限公司NDAM-28088通道继电器输出模块修订历史目录1. NDAM-2808简介 (1)1.1主要技术指标 (2)1.1.1继电器输出参数 (2)1.1.2系统参数 (2)1.2原理框图 (3)1.3端子信息 (4)1.3.1端子排列 (4)1.3.2端子描述 (4)1.4ID地址设定 (5)1.5信号指示灯 (6)1.6机械规格 (6)1.6.1机械尺寸 (6)1.6.2安装方法 (7)2. 继电器输出功能 (9)2.1继电器结构 (9)2.2继电器输出原理与接线 (9)2.3通道锁定与安全值输出 (10)3. NDAM-2808应用实例 (11)3.1安装设备 (11)3.2操作设备 (11)3.3NDAM-2808固件升级 (15)3.3.1软件方式升级 (15)3.3.2硬件方式升级 (16)4. NDAM-2808应用注意事项 (17)5. 免责声明 (18)1. NDAM-2808简介NDAM-2808具有8路继电器输出,输出光电和继电器双重隔离,所有的继电器都提供常开、常闭接口,能同时控制工业现场8路开关设备。

隔离耐压高达3000V DC。

适用于工业现场环境中对远程开关设备的智能与集中控制。

NDAM-2808模块的外观如图1.1所示。

图1.1 NDAM-2808模块外观1.1 主要技术指标1.1.1 继电器输出参数◆输出路数:8路◆继电器类型:单刀双掷◆输出接口:提供公共端COM、常开NO、常闭NC接口◆输出负载:125V AC@0.5A30V DC@1A◆接触电阻:初始值小于50mΩ◆绝缘强度:触点与线圈之间1000Vrms(1分钟)触点与触点之间750 Vrms(1分钟)◆机械寿命:100,000,000次◆电气寿命:200,000次@1A 30V DC◆最大操作时间:3ms◆最大释放时间:3ms1.1.2 系统参数◆CPU:32位RISC ARM◆操作系统:实时操作系统◆隔离耐压:3000 V DC◆内部总线供电,无需外接电源◆工作温度范围:-20℃~+85℃◆工业级塑料外壳,标准DIN导轨安装◆ESD保护1.2 原理框图8通道继电器输出模块NDAM-2808采用32位ARM处理器,使用实时操作系统实现软件控制,具有非常快速的数据响应能力,能够实时的响应主站或者上位机的操作命令,与系统主站进行可靠的数据通讯,准确的快速的控制工业现场的开关设备。

Mk8 控制模块安装与调试指南说明书

Mk8 控制模块安装与调试指南说明书

Mk8 M.M.Installation and Commissioning Guide Mk8控制模块安装与调试指南Mk8 M.M.Installation and Commissioning GuideMk8控制模块安装与调试指南Issued by: 发布公司AUTOFLAMEAUTOFLAME工程有限公司ENGINEERING LTD Unit 1-2,Concorde Business C entreAirport Industrial Estate, Wireless RoadBiggin Hill, Kent TN16 3YNTel电话: +44 (0)845 872 2000Fax传真: +44 (0)845 872 2010Email电子邮件:***********************Website网站:/Registered Holder注册持有人:Company公司:Department部门:This manual and all the information contained herein is copyright of Autoflame Engineering Ltd. It may not be copied in the whole or part withoutthe consent of the Managing Director.Autoflame工程有限公司拥有本手册的所有版权。

在未经Autoflame公司常务董事同意的情况下,本手册内容不得被整体或部分引用。

Autoflame Engineering Ltd’s policy is one of continuous improvement in both design and manufacture. We therefore reserve the right to a m end specifications and/or data without prior notice. All details contained in this manual are correct at the time of going to print.Important Notes重要说明A knowledge of combustion related procedures and commissioning is essential before embarking work on any of the M.M./E.G.A. systems. This is for safety reasons and effective use of the M.M./ E.G.A. system. Hands on training is required. For details on schedules and fees relating to group training courses and individual instruction, please contact the Autoflame Engineering Ltd. offices at the address listed on the front.为了安全有效地使用控制模块/EGA系统,控制模块/EGA系统的操作员必须具有与燃烧相关的流程知识和调试知识。

RC52810A BlueTooth 5.3 低功耗蓝牙透传模块说明书

RC52810A BlueTooth 5.3 低功耗蓝牙透传模块说明书

RC52810A蓝牙5.3(BLE)透传模块说明手册摘要此技术规格文档主要介绍RC52810A Bluetooth®低功耗蓝牙串口通信说明及使用规范。

如需自主开发固件,您可以使用SDK集成开发环境(IDE)将自己的应用嵌入到集成的低功耗蓝牙协议栈之上。

文档信息版本更新注:本文档将会不定期优化更新,在使用此文档前,请确保为最新版本。

文档中的信息仅供智汉RF Crazy®的授权用户或许可人使用。

没有智汉RF Crazy®的书面授权,请勿将本文档或其部分内容印制或作为电子文档副本传播目录1.产品概述 (5)主要特点 (5)设备模式说明 (6)设备状态 (7)2.封装尺寸及脚位定义 (7)3.串口透传协议说明 (10)4.BLE协议说明(APP接口) (10)Service UUID (10)BLE数据接收UUID (10)BLE数据发送UUID (10)AT指令操作UUID (11)5.串口AT指令 (12)AT命令表 (12)进入AT指令模式 (13)退出AT指令模式 (13)设备名称 (13)MAC地址 (14)串口回显 (14)显示设备状态 (15)设备角色 (15)从角色广播参数 (16)连接间隔 (17)从角色Service (18)断开连接 (18)Beacon参数 (19)发射功率 (19)休眠模式 (20)串口波特率 (21)用户鉴权 (21)设备重启 (22)恢复出厂设置 (22)固件版本 (23)6.用APP测试透传功能 (24)7.PC端测试工具 (27)使用前准备 (27)连接步骤说明 (27)8.IOS APP编程参考 (30)9.主机(MCU)参考代码(透传) (32)联系我们 (33)附录A:BLE模块应用方案提示 (34)附录B:BLE模块硬件规格说明 (35)1.产品概述智汉科技RF Crazy®RC52810A是基于Nordic的nRF52810SoC设计开发的高性能、高灵敏、超低功耗的蓝牙5.3(BLE)模块。

TMS320F2802或2808的DSP开发板原理图(密)

TMS320F2802或2808的DSP开发板原理图(密)
U7 74LVXC3245 SISSO24
24 23 22 21 20 19 18 17 16 15 14 13
+5V FO_IN U_IN V_IN W_IN A_IN B_IN Z_IN
SR0805 SR0805 SR0805 SR0805 SR0805 SR0805 SR0805 SR0805
Байду номын сангаас
56 58 60 61 64 70 1 95 8 9 50 52 54 57 63 67 71 72 83 91 99 79 92 4 6 7 100 5 43
R49 SR08052K
R50 SR08052K
R51 SR08052K
R52 SR08052K
R53 SR08052K
1
SR0805
SR0805
OUTA OUTB OUTC OUTD
3 13 5 11
A_IN B_IN Z_IN U_IN_75175
3
2
JP3 JUMPER3Pin JUMPER3P
A/CCTRL B/DCTRL VCC GND 8
14 25 13 39
VSSA2 VSSAIO VSS1AGND VSS2AGND TRST EMU0 EMU1 TMS TCK TDI TDO XRS XCLKOUT XCLKIN X2 X1 TEST1 TEST2
PWM1A PWM1B PWM2A PWM2B PWM3A PWM3B
SR0805 SR0805 SR0805 SR0805 SR0805 SR0805
3 2
20MHz/3.3V
R64 62 SR0805
1
C52 100pF SC0805
GPIO6 ECAP2/GPIO7 ADCSOCAO/GPIO8 GPIO9 ADCSOCBO/GPIO10 GPIO11 TZ1/SPISIMOB/GPIO12 TZ2/SPISOMIB/GPIO13 TZ3/SPICLKB/GPIO14 TZ4/SPISTEB/GPIO15 TZ5/SPISIMOA/GPIO16 TZ6/SPISOMIA/GPIO17 SPICLKA/GPIO18 SPISTEA/GPIO19 QEP1/GPIO20 QEP2/GPIO21 EQPE1S/GPIO22 EQPE1I/GPIO23 ECAP1/SPISIMOB/GPIO24 ECAP2/SPISOMIB/GPIO25 SPICLKB/GPIO26 SPISTEB/GPIO27 TZ5/SCIRXDA/GPIO28 TZ6/SCITXDA/GPIO29 CANRXA/GPIO30 CANTXA/GPIO31 SDA/GPIO32 SCL/GPIO33 GPIO34

FOTRIC 280 系列 专家级科研热像仪 操作手册说明书

FOTRIC 280 系列 专家级科研热像仪 操作手册说明书

FOTRIC 280系列专家级科研热像仪操作手册目录法律免责声明 (5)操作手册概述 (6)如何与FOTRIC(热像科技)联系 (7)安全信息 (8)1.产品配置 (9)1.1 标准配置 (9)1.2 可选镜头 (9)2.热像仪简介 (10)2.1 热像仪部件介绍 (10)2.2 热像仪配置接口 (13)2.3 热像仪按键介绍 (14)2.3.1 (1)电源按键 (14)2.3.2 (2)OK按键 (14)2.3.3 (3)四方向按键 (14)2.3.4 (4)自动调焦按键 (15)2.3.5 (5)拍照/保存按键 (15)2.4 180°可上下旋转镜头 (16)3.快速入门 (17)4.操作指南 (18)4.1热像仪主界面概述 (18)4.1.1 屏幕OSD信息 (18)4.1.2 屏幕按键信息 (19)4.1.3 OSD按键 (19)4.1.4 非均匀性校正按键 (20)4.1.5 测量工具快捷键 (21)4.1.6 系统设置快捷键 (21)4.1.7 切换自动温宽和手动温宽的快捷键 (22)4.1.8 激光开启/关闭按键 (25)4.1.9 调色板设置按键 (26)4.1.10 颜色报警(等温线) (28)4.1.11 热像图库按键 (29)4.1.11 系统菜单按键 (36)4.1.12 热像图数字缩放 (36)4.2系统菜单功能设置 (38)4.2.1 系统菜单概述 (38)4.2.2 选择拍摄模式 (39)4.2.3 修正测量参数 (40)4.2.4 选择图像模式 (48)4.2.5 使用测量工具 (52)4.2.6 设置声音报警 (61)4.2.7 录制非辐射视频 (63)4.2.8 系统设置按键 (65)4.3 更改热像仪系统设置 (66)4.3.1 更改语言和时间 (66)4.3.2 更改温度单位和距离单位 (68)4.3.3 更改图像显示 (70)4.3.4 更改辅助功能 (72)4.3.5 设置Wifi连接 (73)4.3.6 设置蓝牙连接 (73)4.3.7 更改测温量程 (74)4.3.8 更改存储和保存选项 (75)4.3.9 重置热像仪 (76)4.3.10 查询热像仪版本信息 (77)4.3.11 热像仪系统默认设置 (78)4.4 图像冻结界面的操作 (79)4.4.1 热像模式下的图像冻结界面的操作 (79)4.4.2 画中画模式下的图像冻结界面的操作 (80)4.4.3 T-DEF模式下的图像冻结界面的操作 (82)4.4.4 全辐射热像小视频模式下的图像冻结界面的操作 (84)4.5 为热像文件添加注释 (85)4.5.1 语音注释 (86)4.5.2 文本注释 (87)4.5.3 标签注释 (88)4.6 为热像文件扫码自动命名 (89)4.7 使用TFcous复合调色聚焦成像技术 (90)4.8 使用区域智能温宽调节功能 (91)4.9 使用TWB高温差均衡成像技术 (92)4.10本机分析界面的操作 (94)4.10.1 热像模式下的本机分析界面的操作 (94)4.10.2 画中画模式下的本机分析界面的操作 (97)4.10.3 T-DEF模式下的本机分析界面的操作 (100)4.10.4全辐射热像小视频模式下的本机分析界面的操作 (102)4.11 AnalyzIR专业分析软件使用说明 (104)4.11.1 软件下载 (104)4.11.2 软件安装 (104)4.11.3 软件使用 (104)4.11.4 如何传输全辐射热像视频流 (104)4.11.5如何将热像仪中的数据传输至PC软件 (104)5.更换选配镜头 (107)6.热像仪维护 (108)6.1清洁热像仪外壳/线缆及其他部件 (108)6.1.1液体 (108)6.1.2设备 (108)6.1.3清洁步骤 (108)6.2清洁红外镜头 (108)6.2.1 液体 (108)6.2.2 清洁步骤 (108)6.3清洁非制冷红外焦平面探测器 (109)6.3.1清洁步骤 (109)6.4锂电池保养 (109)6.4.1锂电池充电 (109)7.技术参数 (111)7.1 FOTRIC 280系列参数 (111)7.1.1 可选镜头 (114)8.应用案例 (116)8.1 设备维护的热像应用 (116)8.1.1 电容补偿柜电气接头接触不良 (116)8.1.2 电机联轴器过热 (116)8.1.3 钢包耐材缺损 (116)8.2 产品研发的热像应用 (117)8.2.1 贴片保险丝熔断过程优化研究 (117)8.2.2 肿瘤的光热治疗与材料研究 (117)9.词汇表 (119)10.红外热像发展史 (123)11.热像仪的原理 (125)11.1 概述 (125)11.2 电磁波谱 (125)11.3 红外光 (125)11.4 大气窗口 (126)11.5 黑体辐射 (127)11.6 普朗克定律 (128)11.7 史蒂芬-玻尔兹曼定律 (129)12.材料发射率表 (130)13.热像仪如何设置发射率 (131)13.1 发射率 (132)13.2 发射率设置 (132)13.3 第一种应用场景的设置步骤 (133)13.4 第二种应用场景的设置步骤 (133)13.5 第三种应用场景的设置步骤 (134)14.关于FOTRIC(热像科技) (135)法律免责声明由FOTRIC(热像科技)制造的FOTRIC 280系列非制冷便携式红外热像仪,从最初购买的交付之日起,都享有FOTRIC(热像科技)提供的主机2年质保、电池5年质保、核心探测器10年质保的安心售后保障服务。

TI PGA280 高精度仪表放大器数据手册说明书

TI PGA280 高精度仪表放大器数据手册说明书

ProductFolderOrderNowTechnicalDocumentsTools &SoftwareSupport &CommunityPGA280ZHCSL30B–JUNE2009–REVISED MARCH2020 PGA280零漂移、高电压、可编程增益仪表放大器1特性•宽输入电压范围:在±18V电源下,为±15.5V•二进制增益步长:128V/V至1/8V/V•额外比例缩放因子:1V/V和1⅜V/V•低失调电压:在G=128时为3μV•失调电压的近零长期漂移•近零增益温漂:0.5ppm/°C•出色的线性度:1.5ppm•出色的共模抑制比(CMRR):140dB•高输入阻抗•超低的1/f噪声•差分信号输出•过载检测•输入配置开关矩阵•断线测试电流•可扩展SPI™(具有校验和)•通用I/O端口•TSSOP-24封装2应用•模拟输入模块•数据采集(DAQ)•飞机发动机控制•电池测试3说明PGA280是一款高精度仪表放大器,具有数字控制增益和信号完整性测试功能。

该器件具有低失调电压,且失调电压、增益温漂和1/f噪声近乎为零,还具有出色的线性度、共模抑制比和电源抑制比,可支持高分辨率的精密测量。

36V电源电压和宽、高阻抗输入范围符合通用信号测量的要求。

特殊电路可防止多路复用器(MUX)开关产生浪涌电流。

另外,输入开关矩阵可实现在过载条件下轻松进行重新配置和系统级诊断。

可配置的通用输入/输出(GPIO)提供数种控制和通信功能。

SPI经扩展可与更多器件通信,仅需四个ISO耦合器即可实现隔离。

PGA280采用TSSOP-24封装,额定工作温度范围为–40°C至+105°C。

如需了解所有可用封装,请参阅数据表末尾的封装选项附录。

器件比较特性产品23位分辨率Δ-Σ模数转换器ADS1259斩波稳定仪表放大器,RR I/O,5V单电源INA333高精度PGA,G=1、10、100、1000PGA204高精度PGA,JFET输入,G=1、2、4、8PGA206典型应用PGA280ZHCSL30B–JUNE2009–REVISED 目录1特性 (1)2应用 (1)3说明 (1)4修订历史记录 (2)5Pin Configuration and Functions (3)6Specifications (4)6.1Absolute Maximum Ratings (4)6.2Electrical Characteristics (4)6.3Timing Requirements:Serial Interface (7)6.4Typical Characteristics (8)7Detailed Description (15)7.1Overview (15)7.2Functional Block Diagram (15)7.3Feature Description (16)7.4Device Functional Modes (24)7.5Programming (26)7.6Register Map (31)8Application and Implementation (38)8.1Application Information (38)9Power Supply Recommendations (39)10器件和文档支持 (41)10.1接收文档更新通知 (41)10.2支持资源 (41)10.3商标 (41)10.4静电放电警告 (41)10.5Glossary (41)11机械、封装和可订购信息 (41)4修订历史记录注:之前版本的页码可能与当前版本有所不同。

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Function 电源地 电源正极 空 数据线/串口时钟线 数据线/串口数据线 数据线 数据线 数据线 数据线 数据线 数据线 使能/读 读/写 数据/命令 复位 片选
GMO280 系列
版本: V1.0
6
6. 光学&电气特性
6.1 Optics Characteristics 光学特性
Cቤተ መጻሕፍቲ ባይዱaracteristics Brightness
C3 0.1uF
R3 13.3K
版本: V1.0
5
Active Area 2.80'' 256x64 Pixels
2.80"OLED为0.5MMR的30PIN FPC接口
VCC_IN
C14 1uF
U4 2
VOUT 3
VIN 1
VSS U3 662K
2 VOUT 3 VIN
1 VSS 662K
VCC
J1
- >2000:1 -
View Angle
>160 - - degree
* Optical measurement taken at VCI = 2.8V, VCC = 12V. Software configuration follows Section 4.4 Initialization.
6.2 DC Characteristics 直流电气特性
1.65 1.8 VCI V
Supply Voltage for Display VCC
Note 3
深圳市金逸晨电子有限公司
OLED MODULE
MODULE NO. :
GMO280 系列
Customer:
核准:
深圳市金逸晨电子有限公司
核准:
审核:
编写:
GMO280 系列
产品型号 GMO280
版本: V1.0
版本记录
版本 V1.0
修订内容
第一次发行
2
修订日期 2019-03-07
GMO280 系列
6.1 光学特性 _______________________6 6.2 直流电气特性_____________________6 6.3 交流电气特性_____________________7 6.3.1. 68xx系列MPU并行接口时序特性____7 6.3.2. 80xx系列MPU并行接口时序特性____8 6.3.3. 串行接口时序特性(4线SPI)_______9 6.3.4. 串行接口时序特性(3线SPI)_______10 7. 指令表__________________________11~14
16
CS#
15
RES#
14
D/C#
13
R/W#
12
E/RD#
11
D7
10
D6
9
D5
8
D4
7
D3
6
D2
5
D1/DIN
4
D0/CLK
3 NC
2
VCC_IN
1
CON16
注意:电路及元件值仅作参考
SSD1322U
1 2 NC_1 3 VSS 4 VCC_1 5 VCOMH 6 VLSS_1 7 D7 8 D6 9 D5 10 D4 11 D3 12 D2 13 D1 14 D0 15 E/RD# 16 R/W# 17 BS0 18 BS1 19 DC# 20 CS# 21 RES# 22 FR 23 IREF 24 NC_2 25 VDDIO 26 VDD 27 VCI 28 VSL 29 VLSS-2 30 VCC_2
版本: V1.0
3
CONTENTS
1. 外形图______________________________4 2. 功能&特性___________________________4 3. 机械规格____________________________4 4. 原理图______________________________5 5. 引脚说明____________________________5 6. 光学&电气特性_______________________6
C.I.E. (White) Dark Room Contrast
Symbol
Lbr
(x) (y) CR
Conditions With Polarizer
(Note 3)
Without Polarizer
Min Typ Max Unit
60 80 - cd/m2
0.28 0.32 0.36 0.29 0.33 0.37
C17
C9
47uF/25V
1uF
R6
50
C10 4.7uF
C11 0.1uF
D2 IN4148
C12 4.7uF
C13 0.1uF
5. 引脚说明:
Pin No. Symbol 1 VSS 2 VCC_IN 3 NC 4 D0/CLK 5 D1/DIN 6 D2 7 D3 8 D4 9 D5
10 D6 11 D7 12 E/RD# 13 R/W# 14 D/C# 15 RES# 16 CS#
INTERFACE BS0 BS1 3-wire SPI 1 0 4-WIRE SPI 0 0 8-bit 68XX 1 1 8-bit 80XX 0 1
D7 D6 D5 D4 D3 D2 D1/DIN D0/CLK E/RD# R/W# BS0 BS1 D/C# CS# RES#
R5 910K
VCC VCC
NC_3
+14V
+14V C16
47uF/25V
C15 47uF/25V
VCC R15
4.7k
R16 4.7k
VCC R17
4.7k
R18 4.7k
3-WIRE SPI 4-WIRE SPI 8-bit 68XX Parallel 8-bit 80XX Paralle
R15,R18 R16,R18 R15,R17 R16,R17
Characteristics
Symbol Conditions Min Typ Max Unit
Supply Voltage for Operation VCI
2.4 2.8 3.5 V
Supply Voltage for Logic VDD
2.4 2.5 2.6 V
Supply Voltage for I/O Pins VDDIO
GMO280 系列
版本: V1.0
4
金逸晨电子有限公司
GMO280 系列
4. 原理图:
U1
2.80'' 256*64单色OLED驱动板
VCC
C2 4.7uF
L1 10uh
U5 5
VIN
4 SHDN
1 SW
3 FB
2 GND
TPS61040DBV
D1 +14V
IN4148
C4 220pF
R1 138K
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