1红外分析软件用户手册标准版

第一章系统概述红外线测温系统是现代化焦炉温度管理的重要组成部分。

在这套系统中，红外线测温仪是保证系统实现的必要物质条件，其稳定性和准确性是先决条件，是使用温度输入及管理软件使系统得以实现的最终手段，是提高炉温控制管理质量和现代化管理水平的重要保证。

有了好的炉温管理系统，才能真正实现炉温的宏观调控，制定合理优化的加热控制方案。

“焦炉温度管理系统”软件，是我公司开发，与CIT系列手持式红外线测温仪配套的专业焦炉温度管理软件。

该软件适用于多种型号的焦炉，软件结构设计独特，具有很高的灵活性与适应性，对焦炉的直行温度、横排温度、炉头温度、蓄热室顶部温度以及焦饼表面、焦饼中心、炭化室墙面等其它直接测量的温度进行管理，可用于测温仪数据输入、查看和打印等操作。

软件具有界面清晰友好、操作直观方便、数据真实可靠、管理细致全面等特点，是焦炉温度现代化管理的理想软件。

软件在开发过程中，特别邀请焦化厂的工艺专家对软件作专门的指导，确保软件对焦炉加热管理具有指导作用，各种温度输入及数据的统计准确有效。

在软件的实际应用过程中，用户提出了软件中存在的问题以及许多建设性的意见，使软件不断得到改进和完善。

从一九九八年十月推出该软件至今，软件版本已多次升级，以不断满足用户的需求。

本说明书是根据最新版制定的，若功能方面与本说明书不符，请确认所使用的软件版本号。

台式机系统便携机系统 §1-1 系统的组成及功能 §1-1-1 系统组成这套焦炉的温度管理系统分为软件与硬件两部分，软件包括“焦炉温度管理系统软件（单炉版或多炉版）”一套（三张软盘）、软件狗一个及软件说明书一本，硬件包括CIT-H 型手持式便携红外线测温仪、RS232C 串口连线，以及计算机一台（台式机或笔记本电脑），打印机一台。

系统的组成请参看图1-1-1。

§1-1-2 系统的功能与特点焦炉温度管理系统软件具有以下功能及特点：1） 用于直行、炉头、横排、蓄顶、焦饼及直接温度的测量输入、保存、查看、打印及统计管理等功能，对数据进行分析和备份； 2） 适合不同型号的焦炉，多炉版可以管理多达99座焦炉，对于管理多座焦炉而言，更加方便和实惠；3） 操作简便快捷，只要轻敲一键，就可以输入、保存、查看和打印直行温度；4） 直观的数据、曲线查看，全部温度数据都可以曲线方式显示到屏幕上或打印出来；5） 完整的炉温管理系统，提供直行温度全天、历史查看，任意两次直行温度曲线对照，横排区域曲线及每排火道的全年历史查看等功能；6） 提供完善的帮助系统，软件还提供了操作向导功能，可以引导操作者一步步完成全部主要的操作过程，使操作者很快地学会软件的操作；7） 采用资源管理的操作方式，使操作更加直观、方便和快捷； 8） 软件采用拖拉的方式对数据进行备份及还原，只用鼠标操作就可以完成，过程简便；数据采用压缩格式存储，一张1.44M 的软盘可以存放长达一年的数据，也可将数据保存为纯文本(.txt)或网页图1-1-1、系统组成(.hmt)格式；9）为保证系统安全，软件设有密码保护功能，并对输入的温度进行保护，确保数据的真实性；10）独立的页面设置，对于不同的温度曲线及报表，软件提供了各自独立的打印页面控制设置，打印时，自动设置相应的纸张及页边距，不必对打印机及页面做任何改动，就可以打印两种不同纸张及格式的报表；11）可使用一台测温仪测量两座以上焦炉的各种温度，并可实现多种温度混合输入，配合软件一次输入到计算机中；12）系统采用新型日期记录方式，使软件系统可以顺利通过2000年，为以后的生产管理解除隐患。

Quick Reference Guide1st updated edition, April 2007© 2007 BRUKER OPTIK GmbH, Rudolf-Plank-Straße 27, D-76275 Ettlingen, All rights reserved. No part of this manual may be reproduced or transmitted in any form or by any means including printing, photocopying, microfilm, electronic systems etc. without our prior written permission. Brand names, registered trademarks etc. used in this manual, even if not explicitly marked as such, are not to be considered unprotected by trademarks law. They are the property of their respective owner.The following publication has been worked out with utmost care. However, Bruker Optik GmbH does not accept any liability for the correctness of the information. Bruker Optik GmbH reserves the right to make changes to the products described in this manual without notice.This manual is the original documentation for the OPUS spectroscopic software.Table of Contents1Starting OPUS . . . . . . . . . . . . . . . . . . . 11.1OPUS Access Control . . . . . . . . . . . . . . . . . . . .51.2Register OPUS . . . . . . . . . . . . . . . . . . . . . . . . . .62Working with OPUS . . . . . . . . . . . . . . 92.1Acquiring a Spectrum . . . . . . . . . . . . . . . . . . . .92.1.1Using OPUS-OS/2 Configuration Files . . . . . . . . . . . .92.1.2Setting up the Spectrometer Components . . . . . . . . . .92.1.3Setting up the Measurement Parameters . . . . . . . . . .102.1.4Calibrating the Interferogram Peak . . . . . . . . . . . . . .122.1.5Advanced Settings . . . . . . . . . . . . . . . . . . . . . . . . . . .142.1.6Background Measurement . . . . . . . . . . . . . . . . . . . . .162.1.7Sample Measurement . . . . . . . . . . . . . . . . . . . . . . . . .172.2Baseline Correction . . . . . . . . . . . . . . . . . . . . .192.3Data File History . . . . . . . . . . . . . . . . . . . . . . .242.4Saving Spectra . . . . . . . . . . . . . . . . . . . . . . . . .252.5Loading a Spectrum . . . . . . . . . . . . . . . . . . . . .272.6Printing the Spectrum . . . . . . . . . . . . . . . . . . .293Plot Layout Editor (PLE) . . . . . . . . . 313.1Starting PLE . . . . . . . . . . . . . . . . . . . . . . . . . .313.2Installing a Printer for Windows . . . . . . . . . . .323.3Defining the Print Area . . . . . . . . . . . . . . . . . .323.4Loading and Displaying a Spectrum . . . . . . . .333.5Attaching a Logo or Bitmap . . . . . . . . . . . . . .373.6Attaching Graphic Elements and Text . . . . . .383.7Saving Plot Layouts . . . . . . . . . . . . . . . . . . . . .39Bruker Optik GmbH OPUS Quick Reference Guide 11Starting OPUSBefore starting the OPUS installation, read the attached documentation.To install OPUS, insert the OPUS installation CD into your CD drive. Normally, the installation starts automatically. If the Windows Autostart option is disabled, you have to start the installation manually by running the Setup program from your CD.The installation program will guide you step by step. You only need to follow the on-screen installation instructions shown in the different dialog boxes.At the end of the installation procedure you will be asked to restart the computer.Note that you need to restart your computer in order to complete the OPUS instal-lation. You may also be prompted to restart your computer when you install differ-ent program components. In such a case do not restart until the OPUS setup has been completed!When the installation has been finished, an OPUS program icon is displayed in the Windows Start menu. Click on this icon to start OPUS.The Login dialog box opens. Select your User ID from the drop-down list. OPUS provides an independent user account system which regulates the access. If you use OPUS for the first time, the User ID drop-down list includes the two pre-defined user records Default and Administrator. Select either one of them.Enter OPUS in the Password entry field. The password is case sensitive. Once you have assigned yourself a user record in OPUS, it is possible to determine your own User ID and Password.Figure 1: Windows Start MenuStarting OPUSFigure 2: OPUS LoginOPUS includes different accounts for operator and administrator rights. Users de-fined as Operator have limited access rights compared to users defined as Adminis-trator. The rights depend on the User ID selected.The Assigned Workspaces identify the user interface and access right. You can al-ways select those workspaces from the drop-down list which have been defined for your User ID. When you use OPUS for the first time, we recommend not to change the standard Default.ows workspace.Click on the Login button and the About OPUS window opens.This window shows the serial number of your OPUS copy and the name of the lic-ensee. Available OPUS packages can be selected from the drop-down list. The basic OPUS package integrates these additional licensed packages as an all-in-one appli-cation.2OPUS Quick Reference Guide Bruker Optik GmbHFigure 3: About OPUSClick on OK to open the OPUS user interface. The interface appearance depends on the screen settings and operating system used. Thus, the screen display of the fol-lowing dialog boxes may not show exactly the screen contents displayed on your screen.BRUKER recommends a minimum graphic resolution of 800x600 pixel and true color.Bruker Optik GmbH OPUS Quick Reference Guide 3Starting OPUS4OPUS Quick Reference Guide Bruker Optik GmbHThe OPUS user interface header shows the type and status of the operator currently logged in.A)Menu bar: the pull-down menus can be used to access all OPUS com-mands.B)Icon bar: can be configured to quickly access frequently-used com-mands.C)Browser window: files are displayed similar to the Windows Explorer.D)Spectrum window: for full views and zoom operations.E)Overview window: always displays the full frequency range of the se-lected data files.F)Online help: context sensitive.G)Status bar: indicates tasks which performs in the background.H)Instrument status:Gray: No spectrometer connectedGreen: Spectrometer connectedYellow: WarningRed: ErrorAll settings (menus or icons) are individually configurable and will be reloadedwhen you start OPUS next time.ABCDEF GHFigure 4: OPUS User InterfaceOPUS Access Control 1.1OPUS Access ControlOPUS has an access control mechanism which is shown in the graph below.Figure 5: OPUS Access Control DiagramThe OPUS User Database includes all User Records. The User Records comprise:•User ID•Password•Operator Name•User Group (Administrator, Operator)•Accessible WorkspacesThe Workspaces comprise:•Menu Contents•Toolbar Contents•Access Rights within OPUS•Other Settings (e.g. file increment mode, display limits)Details about the User Management functions to add, modify or remove users from the User Database are described in the OPUS Reference Manual.Bruker Optik GmbH OPUS Quick Reference Guide 5Starting OPUS6OPUS Quick Reference Guide Bruker Optik GmbH 1.2Register OPUSYou can test OPUS for 30 days without registering. After this trial period you have to register the OPUS copy used. Libraries and additional OPUS packages can only be used if you have registered the copy you use. You will find the personal registra-tion data on the OPUS CD. The registration has to be performed only once and is valid for all users.To register OPUS, select the Register OPUS command in the OPUS Setup menu .Fill in the entry fields by using the data which are written on the OPUS CD for the OPUS registration.Note: You only have to fill in those fields which you received reg-istration data for.The OPUS serial, package and library number consist of figures only, whereas the key consists of both figures and capital letters. When entering the key for the first time it is displayed in plain text, later it is hidden by "*".Activate the correct option button for your registration data in the Dialog mode group field. If you have registration data for OPUS 5.5 (or previous versions), acti-vate the corresponding option button. In this case a message pops up requiring to define the respective additional software packages from the drop-down list. These additional packages are defined as Extended packagesin your registration data.Figure 6: Registration DialogRegister OPUS To check whether the registration data are correct click on the Check Registration Data button. If they are correct, the selection field lists all available OPUS packages and libraries.The Select packages.... option button allows to deactivate single software packages and libraries. If you activate this option button, you can remove the check mark in front of the respective package or library. If you close the dialog, these packages or libraries will not be registered until you restart OPUS.Click on the OK button to have the data permanently registered.Starting OPUSAcquiring a Spectrum 2Working with OPUS2.1Acquiring a SpectrumDuring normal daily work you may frequently measure a single-channel reference spectrum (open beam spectrum without any sample in the optical path). This spec-trum is also called background spectra. In case of routine measurements you just have to change the samples, start measurement and evaluate the results. If you turn on the spectrometer for the first time, or if you have changed the hardware (e.g. beamsplitter or detector), you have to check the instrument settings before starting the measurement.All settings described in this section refer to the operation of a mid-infrared spec-trometer. Depending on the current configuration of your spectrometer, the follow-ing dialog boxes may be slightly different from the ones displayed on your screen.2.1.1Using OPUS-OS/2 Configuration FilesIf you already have a spectrometer and this OPUS version is an update of OPUS-OS/2, you can use your OPUS-OS/2 experiment files without having to convert them. You can leave out the setup procedure and continue with section2.1.6.2.1.2Setting up the Spectrometer ComponentsOpen the Measure menu and select Optic Setup and Service or use the icon in the icon bar to open the Optic Setup and Service dialog box. The Optics Setup parame-ters specify spectrometer components and parameters. Click on the Optical Bench tab and select the spectrometer connected. Define the setup of your instrument using the remaining tabs.Working with OPUSNormally, a BRUKER service engineer specifies and saves the initial settings. As these settings very much depend on the optics installed, they will not be further dis-cussed in this manual.Any changes made in these settings may impede the correct use of the instrument.Do not change the default device parameters before having read the appropriate sec-tion in the OPUS Reference Manual.2.1.3Setting up the Measurement ParametersBefore starting a measurement, you have to define certain parameters. Open theMeasurement dialog box by clicking on theMeasure menu or the icon. A dialog box will open, including the following tabs:Figure 7: Optic Setup and Service - Optical Bench tabFigure 8: Measurement menu tabsAcquiring a SpectrumIf you open theMeasure menu for the first time, some of the tabs may have error symbols (e.g.) attached.If the errorsymbol (A) appears on one or more tabs or if the symbol is displayed,you have to correct the erroneous settings first before being able to continue. In caseof General Warning it is still possible to save the configuration. If an entry field is marked red (C), the current value for that parameter is beyond its specified range or the value is missing. If you point the cursor to a red entry field, a suggestion box opens and provides an explanation.ABCFigure 9: Measurement menu tabs with error symbolFigure 10: Error suggestion boxWorking with OPUSIf a wrong value is selected from the drop-down list (B), the field is marked red. The requested parameter does not fit to the hardware used. For example, if an experi-ment requires an MCT detector, but according to the optics configuration a DTGS detector has been installed. In such a case the advice suggestion box will display the setting(s) allowed. Make sure that you correct potential errors before saving the set-tings.If properly configured, the Measurement dialog box is displayed without any warn-ings:2.1.4Calibrating the Interferogram PeakThe exact interferogram peak position MUST be determined and stored before the first measurement. You only have to repeat the peak position determination if there have been any changes in the hardware. Select the Check Signal tab in the Measure-ment dialog box. Make sure that you have checked the Interferogramoption button.Figure 11: Measurement menu tabs without warning symbolAcquiring a SpectrumIf no interferogram peak is displayed, you can move the scan region to the left or right using the arrow buttons to find the peak.Once the interferogram peak has been found, its position MUST be stored by click-ing on the Save Peak Position button. Later the peak position will be used to performFourier Transformation.Figure 12: Check Signal tab - Select interferogramFigure 13: Measurement - Interferogram calibrationWorking with OPUS2.1.5Advanced SettingsThe Advanced option allows to store all parameter settings into an experiment file. Click on the Advanced tab. You can define the number of scans in the entry fields Scan Time.In figure14 the number of scans has been set to 32 for sample and background. You can also select minutes instead of scans to exactly define the duration of your exper-iment. It is also possible to enter the data path defined for the automatic storing of the measurement. If you change this path, make sure that it does exist. You can browse the desired path by clicking on the button.Figure 14: Measurement - Advanced tabIt is recommended to select Absorbance as a common result spectrum.Figure 15: Measurement - Select result spectrum typeAcquiring a SpectrumIf you later want to work with a different kind of data type for the result spectrum,you can change the type of result spectrum at any time.In the Data blocks to be saved group field, you can select the kind of measurement data you want to save together with the spectrum. Each option selected will produce an additional data block. If you click on the Exit button, all options selected will be saved.It is highly recommended to repeatedly use the experiment files. They are indispens-able if you work with macros.Using the Acquisition tab you can define the data acquisition mode. The acquisition mode selected in the following window collects data on both the forward and re-verse mirror movement (Double Sided, Forward-Backward ). This acquisition mode yields the best signal-to-noise ratio. These values are normally set by default and do not have to be changed.Finally, you need to set the parameters for Fourier Transformation. Click on the FT tab. Normally, you can leave the default settings unchanged. For details on Phase Resolution and Zerofilling Factor,see the OPUS Reference Manual.Figure 16: Measurement - Acquisition tabWorking with OPUS2.1.6Background MeasurementExcept for emission, Raman, and single-channel measurements, it is always neces-sary to acquire a background spectrum before measuring the sample. This spectrum allows to take into account the effects that the spectrometer itself has on measured spectra, e.g. if the power of the light source varies at some frequencies, or the optics absorbs light stronger at a certain wavelength.To measure a background spectrum select the Optic tab and make sure that the ap-erture is set to the same value which you want to use to acquire a sample spectrum.To start the background measurement select the Basic tab and click on the Back-ground Single Channelbutton.Figure 17: Measurement - FT tabAcquiring a SpectrumFigure 18: Measurement - Background measurementThe status bar below the OPUS spectrum window indicates the measurement progress, the number of scans performed by the optical bench and the OPUS appli-cation which is currently running:Right click on the status bar to interrupt measurement. If the data acquisition has been finished, the status bar indicates that No Active Task is performed. Usually, the background spectrum data remains in the Acquisition Processor Unit. However, the spectrum can also be saved on hard disk. Check the appropriate data block option in the Advanced tab.2.1.7Sample MeasurementHaving measured the background spectrum, place the sample into the optical path. This procedure depends on your specific hardware setup. Enter the Sample Name and define the Sample Form in the Basic tab. This information will be stored togeth-er with your spectrum. Click on the Sample Single Channel button to start measure-ment. The Measurement Dialog Box is closed and the spectrum window displayed.Working with OPUSOnce again, you can monitor the progress of your measurement on the status bar at the bottom of the OPUS window. Having finished the measurement, the measured spectrum will be displayed in the spectrum window.Figure 19: Spectrum Window - Showing the spectrum measuredStrictly speaking, the spectrometer measures an interferogram rather than a spec-trum. Using Fourier Transformation this interferogram is transferred into a single-channel spectrum. On the basis of this single-channel spectrum and the background spectrum measured a resulting transmission spectrum will be calculated. This is done automatically and apart from short descriptions in the status line you will not notice any of these steps.Figure20 shows the single-channel spectrum, background spectrum and the calcu-lated transmission spectrum. Each data block is displayed by different icons. For further details on the icons, refer to the OPUS Reference Manual.Baseline Correction2.2Baseline CorrectionIf the baseline of your spectrum is sloped, curved or significantly below 100% trans-mission, the sample preparation might have been insufficient. Instead of preparing a new sample, try to correct the baseline automatically. In many cases, this willsolve the problem. The baseline correction can be started either from the Manipulate menu or by clicking on the icon. The following dialog box opens:TransmissionSpectrumSample Spectrum(single channel)Background Spectrum(single channel)Figure 20: Spectrum Window - Showing different types of spectraWorking with OPUSSelect the spectrum block in the browser window. Either by double clicking or drag-ging it from the OPUS browser to the File(s) to correct selection field while press-ing the left mouse button. Moving files in this way is called drag-and-drop . If you release the left mouse button, the file selected will be displayed in the File(s) to Cor-rectselection field:Figure 21: Baseline Correction - Select Files tabFigure 22: Baseline Correction with file selectedBaseline Correction The blue document symbol indicates that the file has not yet been manipulated. The spectrum block is displayed as a small icon next to the name and path of the file. To start the baseline correction click on the Correct button. If you want to define a par-ticular baseline correction method, click on the Select Method tab.A list of commonly used settings is displayed. Any changes you make will over-write the default settings. The Select Method field includes the Scattering correc-tion,Rubberband correction and Concave rubberband correction option buttons. Check either one of these options which will be explained in more detail in the OPUS Reference Manual.Figure 23: Baseline Correction - Select Method tabYou can also set the Number of Baseline Points. Click on the corresponding entry field and change the number. A value of 64 is generally recommended.It is also possible to exclude the CO2 range during baseline correction. Activate the Exclude CO2Bands check box.Click on the Correct button to immediately start the correction. Now, the OPUS browser window shows a red document symbol which indicates that the file has been manipulated. The red symbol is on top of the blue one (raw data).Working with OPUSAlternatively, double click onto the icon to correct the baseline of the active spectrum. A baseline correction for the currently selected spectrum will be per-formed using the standard settings. If you have finished the baseline correction, the spectrum has not yet been saved to disk and exists only as a temporary file. Store the file on the disk as a separate file to prevent the original from being overwritten.To undo baseline correction, use the right mouse button and click on the red docu-ment symbol. A menu pops up.Select the Undo all Manipulations command to open the following dialog box: Figure 24: File processed indicatorFigure 25: Pop-up menu used to undo functionBaseline CorrectionFigure 26: Undo all changes - Select Files tabClick on the Undo button and the red document symbol disappears in the OPUS browser window while the original blue symbol remains.The baseline correction is useful to manipulate spectra which could not have been measured very well due to the sample material. However, you should always try to obtain good spectra from your sample, instead of correcting them later.Figure27 shows an example of a baseline correction: the second spectrum is the original, whereas the first one is baseline corrected.Working with OPUS2.3Data File HistoryAny spectrum manipulations and measurement parameter changes are recorded in a non-editable, non-deletable history data file. Figure 28 shows a data file history with several spectrum manipulations performed:Figure 27: Spectrum Window - Baseline correction resultsFigure 28: Report window showing the data file historySaving SpectraThe first part of the data file history indicates the operator as well as the OPUS ver-sion and the spectrum name. All manipulations and their parameters are listed in the order of performance. Data information is always stored in a data block () together with the processed spectrum in one single spectrum file. This ensures that all data manipulations are re-corded, e.g. manipulation method, time and operator.2.4Saving Spectra The original spectrum is automatically saved in the path which you have defined insection 2.1.5. To save any spectra modifications, right-click on the red document symbol in the OPUS browser window. Select the Save File command from the pop-up menu. Alternatively, click on the Save icon or select Save File from the File menu.If you have selected a file to be stored, the spectrum will automatically be listed in the File(s) to save selection field. You can also drag and drop the file from the OPUS browser window to the File(s) to save field . If you click on the Save button ,the original file will be replaced and cannot be restored anymore.Figure 29: Save File - Select Files tabWorking with OPUSIf you want to save a file using a different file name, or in a different directory, usethe icon or select the Save File Ascommand from the File menu. The Save File As dialog pops up and OPUS automatically suggests a file name which you can modify, of course. If you want to save the file in a different directory, enter the path directly into the Path field. Alternatively, you can browse the directories by clicking on the Change Path button. If you want to overwrite a previous file, activate the Overwrite check box . Otherwise, an increment will be added to the file name. The Overwrite option is not available in validation mode. The increment extension is de-fined by the User Settings command in the Setup menu.The file is normally saved in OPUS format. However, the Mode and Data Point Ta-ble tabs allow to save the file in JCAMP-DX format, as a plain X-Y data table, in Pirouette (DAT) or in GALACTIC format (SPC).Figure 30: Save Spectrum - Select File tabLoading a Spectrum2.5Loading a SpectrumAn OPUS file can be loaded by either using the Load File option from the Filemenu or clicking on the icon in the icon bar. The following dialog box opens. As the appearance depends very much on the contents of each directory, your dialog box may look different..Figure 31: Save Spectrum - Mode tabFigure 32: Load Spectrum - No file selectedABWorking with OPUSThe title bar (A) shows the directory in which the file is located. Three parameters(B) of the OPUS file selected are shown by default. You can select the specific pa-rameters you want to have defined from the drop-down lists. Since no file has been selected yet in figure 32, the parameter abbreviations are shown.If you select a file, the Load Spectrum dialog will change as follows:A preview of the spectrum without the axes is displayed. The absorption data block () on the top left corner is displayed as a small icon. The spectrum parameters are now defined. As normally not all parameters have been specified for each file some of the parameters may be missing. Click on the Open button to load the spec-trum into the OPUS spectrum window.Figure 33: Load Spectrum - Active previewPrinting the SpectrumThe overview window (E in figure 34) shows the entire frequency range. As the spectrum is not displayed in full size within the spectrum window, you can scale the spectrum using the Scale icon (D).In the OPUS browser window a blue document symbol (A) is shown in front of the file name (B), indicating that the file has not yet been manipulated. A typical exam-ple of data manipulation is the so-called baseline correction which has already been described. Spectrum data blocks (C) are displayed as small icons.2.6Printing the SpectrumThere are two options to quickly and easily print your recorded spectra. If you click on the Quick Print icon in the icon bar, OPUS automatically selects an appropriate layout depending on the window type you are using at the moment.If you work in the normal display window, the spectrum will be printed within a frame. If you search a spectrum library, the results as well as a hit list, spectral in-formation and the structure of the product will be printed. For details on default set-tings available, refer to the OPUS Reference Manual.Another possibility to print spectral information is to use the Print Spectra com-mand in the Print menu. Using this command, enables you to define further basicprintout options, e.g. frames and frequency range.Figure 34: OPUS spectrum and browser windowAB CDEWorking with OPUSFigure 35: Print Spectra - Select Files tabFor details on printing data using the Plot Layout Editor (PLE), refer to chapter3.Starting PLE 3Plot Layout Editor (PLE)The Plot Layout Editor (PLE) tool allows to print customized pages which include spectra and additional information, e.g. measurement parameters. You can add de-scriptions as well as simple graphic elements (e.g. logos or bitmaps) to the plots. If you want to print a spectrum only, you can either use the Quick Print icon in the icon bar or the Print Spectra command from the Print menu. Using the Quick Print icon immediately sends data to the default printer, while the Print Spectra dialog al-lows you to define specific print parameters. For further information, see the OPUS Reference Manual.3.1Starting PLETo start PLE, select the New Layout option in the Print menu. The pull-down menus displayed in the menu bar have changed and the following icons which have previ-ously been hidden are now activated in the icon bar.The PLE layout window opens within the OPUS spectrum window.Figure 36: Plot Layout Editor (PLE) window。

D o c k i n g M o d u l e50104991-166 E N -B 4©2018 H o n e y w e l l . A l l r i g h t s r e s e r v e d.Q u i c k R e f e r e n c e G u i d eI n t e l l i D o X ™S u i t e 110 4411-6 S t r e e t S EC a l g a r y , A l b e r t a C a n a d a , T 2G 4E 8T o l l -f r e e : 1-888-749-8878 w w w .h o n e y w e l l a n a l y t i c s .c o mA b o u t t h i s P u b l i c a t i o nT h i s p u b l i c a t i o n i s a q u i c k -s t a r t r e f e r e n c e g u i d e t o a s s e m b l i n g t h e I n t e l l i D o X D o c k i n g M o d u l e , a n d p r e p a r i n g i t f o r fi r s t u s e . E n s u r e t h a t y o u a r e f a m i l i a r w i t h t h e u s e o f p e r s o n a l g a s d e t e c t i o n d e v i c e s a n d a c c e s s o r i e s , a n d t a k e a p p r o p r i a t e a c t i o n i n t h e e v e n to f a n a l a r m c o n d i t i o n .F o r a d d i t i o n a l i n f o r m a t i o n r e g a r d i n g I n t e l l i D o X i n s t a l l a t i o n , c o n fi g u r a t i o n , o p e r a t i o n a n d m a i n t e n a n c e , r e f e r t o t h e I n t e l l i D o X U s e r M a n u a l a t h t t p s ://w w w .h o n e y w e l l a n a l y t i c s .c o m /e n /p r o d u c t s /I n t e l l i D o x A b o u t t h e I n t e l l i D o X D o c k i n g M o d u l eT h e I n t e l l i D o X D o c k i n g M o d u l e (‘I n t e l l i D o X ’ o r ‘I n t e l l i D o X m o d u l e ’)i s a n a u t o m a t i c b u m p t e s t a n d c a l i b r a t i o n d o c k i n g s t a t i o n f o r u s e w i t h p o r t a b l e g a s d e t e c t o r s m a n u f a c t u r e d b y H o n e y w e l l . T h e I n t e l l i D o X a u t o m a t i c a l l y p e r f o r m s e s s e n t i a l p r o c e d u r e s i n c l u d i n g s e n s o r i d e n t i fi c a t i o n , b u m p t e s t s , c a l i b r a t i o n s , a l a r m t e s t s a n d d a t a t r a n s f e r s . I t a l s o r e t a i n s a c u m u l a t i v e r e c o r d o f d e t e c t o r d a t al o g s t h a t a r e t r a n s f e r r e d t o i t s o n b o a r d m e m o r y .T h e I n t e l l i D o X c a n b e u s e d o n a t a b l e t o p o r o t h e r fl a t s u r f a c e . A b u i l t -i n r e t r a c t a b l e s t a n d c a n b e d e p l o y e d t o h o l d t h e I n t e l l i D o X u p r i g h t a t a n a n g l e t h a t i s s u i t a b l e f o r r o u t i n e u s e . I n t e l l i D o X m o d u l e s c a n a l s o b e m o u n t e d o n a w a l l o r o t h e r fl a t s u r f a c e .F o r a d d i t i o n a l i n f o r m a t i o n , r e f e r t o t h e U s e r M a n u a l .I n t e n d e d U s eU n l e s s o t h e r w i s e s p e c i fi e d a t t i m e o f p u r c h a s e , I n t e l l i D o Xm o d u l e s s h i p p e d f r o m H o n e y w e l l .• A r e f a c t o r y c o n fi g u r e d f o r u s e w i t h p o r t a b l e g a s d e t e c t o r s .• O p e r a t e a s s t a n d -a l o n e b u m p t e s t a n d c a l i b r a t i o n s t a t i o n s .• M a y b e c o n n e c t e d t o a n e t w o r k v i a E t h e r n e t c a b l e f o r e n h a n c e d a c c e s s t o a n d c o n t r o l o f a d m i n i s t r a t i v e a n dm a i n t e n a n c e t a s k s .• A r e c o m p a t i b l e w i t h P C C o n fi g u r a t i o n s o f t w a r e .• I f t h e I n t e l l i D o X m o d u l e o r a n y o f i t s p a r t s a r e d a m a g e d o r m i s s i n g , c o n t a c t H o n e y w e l l o r a n a u t h o r i z e d d i s t r i b u t o ri m m e d i a t e l y .N o r m a l O p e r a t i n g C o n d i t i o n sT h e I n t e l l i D o X i s d e s i g n e d t o b e s a f e u n d e r t h e f o l l o w i n g c o n d i t i o n s :• I n d o o r u s e o n l y• N o r m a l a t m o s p h e r e (20.9% O 2) t h a t i s f r e e o f h a z a r d o u s g a s• T e m p e r a t u r e r a n g e o f +10°C t o +35°C• R e l a t i v e h u m i d i t y o f 0% t o 50%I f t h e i n t e n d e d o p e r a t i n g e n v i r o n m e n t d o e s n o t m a t c h t h e s e c r i t e r i a , H o n e y w e l l r e c o m m e n d s t h a t y o u c o n s u l t a q u a l i fi e d p r o f e s s i o n a ls p e c i a l i s t p r i o r t o i n s t a l l i n g a n d u s i n g a n y I n t e l l i D o X m o d u l e s .T h i s e q u i p m e n t u s e s p o t e n t i a l l y h a r m f u l g a s f o r c a l i b r a t i o n s . T h e I n t e l l i D o Xm u s t b e a t t a c h e d t o a v e n t i n g s y s t e m o r b e u s e di n a w e l l-v en t i l a t e d a r e a .What’s in the BoxIntelliDoX Docking ModuleEach IntelliDoX Docking Module package contains one IntelliDoX module with a factory-installed nest. The power adapter, power cord, calibration gas tubing and exhaust tubing, are packaged separately as the IntelliDoX Enabler Kit. One Enabler Kit is required for each stand-alone IntelliDoX module.If the IntelliDoX module is damaged or if parts are missing, contact Honeywell or an authorized distributor immediately.IntelliDoX Enabler KitOne IntelliDoX Enabler Kit is required for each stand-alone IntelliDoX module. Each Enabler Kit contains:• Power supply and AC power cord appropriate to shipping destination.• Ethernet cable.• Calibration gas and purge gas tubing, cut to 1 meter (3.3 feet).• Quick connect fittings.• Exhaust tubing, cut to 4.57 meters (15 feet).• Inlet (purge) filter assembly.• IntelliDoX end plate.• Download PC Configuration software that supports your product from the Honeywell Analytics website. https:///en/products/IntelliDox If Enabler Kit parts are damaged or missing, or if additional Enabler Kits are required, contact Honeywell or an authorized distributor immediately.Copyright, Notices, TrademarksWhile this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with and for its customers.In no event is Honeywell liable to anyone for any indirect, special or consequential damages. The information and specifications in this document are subject to change without notice.IntelliDoX is a trademark of Honeywell. Other brand or product names are trademarks of their respective owners.Configuration SoftwarePlease download PC configuration software on the IntelliDoX product page under the software tab on the Honeywell Analytics website. Symbol DefinitionsThis manual uses the following signal words, as defined by ANSI Z535.4-1998.Hazardous situation which, if not avoided, will result in death or serious injury. This symbol identifies the most extreme hazardous situations.Important Safety Information: Read First• To ensure personal safety, read Safety Information and Warnings before using the IntelliDoX.• Use the IntelliDoX only as specified by the manufacturer. Failure to do so may impair protection provided by the IntelliDoX.• The safety and security of any system or networkincorporating the IntelliDoX and its accessory components is the responsibility of the assembler of the system.• Follow all required National Electric Codes (NEC) and safety standards.Prepare for First UseTo ensure that the IntelliDoX module is ready for safe operation, you must attach the endplate, attach the purge inlet filter assembly, and connect the exhaust tubing before you connect power or attach a gas cylinder.Attach the EndplateEach IntelliDoX Enabler Kit contains one endplate. To prevent gas leaks, the end plate must be attached and locked with the lock latch arm before connecting power supply or connecting gas cylinders. The end plate must remain securely latched at all times during operation. If the end plate is detached during operation, disconnect power and replace the end plate immediately.• Unhook and lift latch arm.• Attach end plate.• Lower and lock latch arm.This symbol indicates that the product must not bedisposed of as general industrial or domestic waste. This product should be disposed of through suitable WEEE disposal facilities. For more information about disposal of this product, contact your local authority, distributor or the manufacturer.Product Configuration Software IntelliDoX BWClip Fleet Manager/SafetySuite DC IntelliDoX BW MicroClip Fleet Manager/SafetySuite DC IntelliDoX BW Clip4Fleet Manager/SafetySuite DC IntelliDoX BW Ultra Fleet Manager/SafetySuite DCIntelliDoX BW SoloSafetySuite DCAt a Glance Top viewBottomLeft RightTouchpad and buttonsLCD BacklightConnect the Purge Inlet Filter AssemblyEach IntelliDoX Enabler Kit contains one purge inlet filter assembly. Unless otherwise specified, the purge inlet is configured to use ambient air in a fresh air environment with a normal atmosphere of 20.9% O 2 that is free of hazardous gas . Ensure that the purge inlet filter assem-bly is attached before using the IntelliDoX module. You may attach an extension tubing to the filter assembly to draw ambient air from an adjacent fresh air environment.1. Ensure that the filter assembly is free of obstructions and defects.2. Connect the filter assembly to the purge inlet.3. If necessary, attach an extension tubing to the filterassembly to draw ambient air from an adjacent fresh air environment.Connect the Exhaust TubingEach IntelliDoX Enabler Kit includes one exhaust tubing that is 4.57 meters (15 feet) long.1. Inspect the exhaust tubing to ensure that it is free ofobstructions and defects.2. Connect the exhaust tubing to the exhaust outlet.3. Ensure that the exhaust tubing is not connected to anegative pressure system, or obstructed in any way.Connect the PowerEach IntelliDoX Enabler Kit contains one power supply and AC power cord. Use only the power supply provided in the Enabler Kit to connect the IntelliDoX Docking Module to an appropriate electrical power outlet. When the power is connected, the IntelliDoX activates and a self-test is performed.1. Connect the AC power cord to the power supply2. Connect the power supply to the IntelliDoX power port.3. Plug the AC power cord into a suitable wall outlet.4.When the power is connected, the IntelliDoX LCD activates and a self-test is performed.NOTICETo prevent the corruption or loss of data and/or software and/orfirmware, do not deactivate the equipment while performing datalog transfers, bump tests, calibrations or other operations.Charge a DetectorUse the IntelliDoX to charge detectors fitted with rechargeable batteries. For more information on battery maintenance, refer to the detector manual.1. Charge only in a normal environment that is 20.9% O2 andfree of hazardous gas. Do not operate the docking module in a hazardous area. Failure to adhere to this guideline can result in possible personal injury and/or property damage.2. Deactivate the detector.3. Insert the detector into the IntelliDoX module.4. Battery charging begins immediately. Battery charging isdisabled during bump test and calibration procedures.Once tests and other routines are completed, you may leave the detector in the module for charging. If the detector is activated, the module will deactivate it after 10 minutes of inactivity. When charging is complete, remove the detector. Do not store the detector in the module.Prepare for Bump Tests and CalibrationsThe IntelliDoX module is factory-configured for use with portable gas detectors. Gas inlets are configured at the factory. Inlet con-figurations cannot be altered. The IntelliDoX Enabler Kit includes quick connect fittings and calibration tubing cut to the minimum recommended length of 1 meter (39 inches). Use only tubing that is between 1 meter (39 inches) and 10 meters (33 feet) in length when you connect gas cylinders to an IntelliDoX module.Connect Calibration Gas1. Connect a demand flow regulator to the calibration gascylinder.2. Use the quick connect fittings and calibration gas tubingto connect the calibration gas cylinder to the gas.Bump TestBump test is a procedure that confirms a detector’s ability to respond to target gases by exposing the detector to gas concentrations that exceed its alarm setpoints.If AutoBump on Insertion is set using PC configuration software, then bump test starts automatically when IntelliDoX recognizes the detector. If AutoCal onOverdue Sensors is enabled and if a calibration is also due, then no bump test is performed. Instead, calibration starts automatically when the detector is recognized.1. Insert a detector.2. Press and on the keypad to move to Bump test mydetector on the IntelliDoX user menu.3. Press to select Bump Test. The LCD screen backgroundchanges to yellow and the bump test progress screen is displayed.4. The bump test begins. Test sequence progress screens aredisplayed while the tests are performed.5. If AutoDownload Datalog is set using PC configurationsoftware, detector datalogs are automatically transferred to IntelliDoX.Bump Test PassWhen the bump test is successful, LCD screen background changes to green and Bump test passed message is displayed. Alarm response and sensor response test items are checked.Press to return to IntelliDoX usermenu.Bump Test FailWhen the bump test fails, LCD screen background changes to red and Bump test failed message is displayed. Failed alarm response and/or sensor response test items are marked with .If the AutoCal on Failed Bump is set using PC configuration software, calibration automatically begins.CalibrationCalibration is a two-step procedure that determines the measurement scale for the detector’s response to gas. In the first step, a baseline reading is taken in a clean, uncontaminated environment. In the second step, the sensors are exposed to known concentrations of gas. The detector uses the baseline and known gas concentrations to determine the measurement scale.Calibration Guidelines1. Calibrate only in a normal environment that is 20.9% O 2and free of hazardous gas. Do not operate the docking module in a hazardous area. Failure to adhere to this guideline can result in possible personal injury and/or property damage.2. Use only premium grade calibration gases and cylindersthat are approved by Honeywell, and supplied byHoneywell or an authorized distributor. The calibration gases must meet the accuracy of the detector. For more information, refer to the User Manual.3. Do not use a gas cylinder beyond its expiration date.4. All calibration cylinders must be used with a demand flowregulator and must meet these maximum inlet pressure specifications. Disposable cylinders: 000 psig/70 bar, refillable cylinders: 03000 psig/207 bar5. Do not calibrate the detector during charging orimmediately after charging.6. Calibrate the sensor if ambient gas readings vary duringstartup.7. Calibrate a new sensor before use. Allow the sensor tostabilize before starting calibration.8. Used sensor: wait 60 seconds 9. New sensor: wait 5 minutes10. When calibrating the same gas detector multiple times,wait 10 minutes between calibrations to allow the sensor to stabilize.11. If a certified calibration is required, contact Honeywellor an authorized distributor.Calibrate a DetectorIf AutoCal on Overdue Sensors is set using PC configuration software and sensors are overdue, then calibration starts automatically once IntelliDoX recognizes the detector.1. Insert a detector.2. Use and to move to Calibrate my detector on the IntelliDoX user menu.3. Press to select Calibrate my detector. The LCD screen background changes to yellow and the calibration progress screen is displayed.4. Calibration begins. Progress screens are displayed while the tests are performed.5. If AutoDownload Datalog is set using PC configuration soft ware, detector datalogs are automatically transferred to IntelliDoX.Calibration PassWhen the calibration is successful, LCD screen background changes to green and Calibration passed is displayed. Alarm response and sensor response test items are checked. Press to return to IntelliDoX user menu.Calibration FailWhen the calibration fails, LCD screen background changes to red and Calibration failed is displayed. Failed alarm response and/or sensor response test items are marked with.What do you need to do?Bump test my detectorSerial Number:CNXAAWhat do you need to do?Calibrate my detector Serial Number:CNXAABump test failedAlarm response:Sensor response:Acoustic Visual Vibrator COSerial Number:CNXAABump test passedAlarm response:Acoustic Visual Vibrator COSerial Number:CNXAASensor response:Calibration passedAlarm response:Acoustic Visual Vibrator COSerial Number:CNXAASensor response:54321。

第一章概述中心管理软件是基于Windows7 64位系统上运行旳多顾客多任务系统。

支持TCP/IP协议，实现局域网和互联网之间旳数据服务，全面实现网络应用。

1.提供了美观友善旳顾客界面：(1).本系统采用了下拉式菜单，使每一步操作都很简朴、清晰。

(2).提供万能通用查询，能根据输入旳条件查询所需旳信息。

(3).提供了智能化旳输入界面。

(4).在使用中对所有也许想到旳操作错误进行警告和提醒，以防止误操作。

(5).窗口可缩放，为顾客提供最佳浏览效果。

2.报警信息接受和发送处理1.支持USB串口连接2.支持接受GPRS网络信息（配合GPRS报警主机使用）3.支持对GPRS报警主机远程编程和平常操作控制。

3.电子地图及防区图1.使用在线百度地图，顾客位置可以精确定位。

2.报警顾客闪烁指示，报警位置一目了然。

3.多级防区图，可以有里面添加多种顾客并可对其标出防区位置。

支持顾客分组管理。

5.视频联动顾客发生报警时，可通过顾客添加到软件里旳视频设备旳网络地址，实时查看报警现场并对现场进行录象。

（目前只支持海康跟大华网络摄像机）第二章系统架构第三章客户端使用阐明3.1插上USB加密狗USB加密狗第一次插上时会自动找驱动3.2运行服务端:双击“”图标，进入登录系统。

3.3客户端登录软件界面显示：登陆时需要输入顾客名和口令，点击：“登录”按扭。

在第一次登录时，还需点属性设置一下，显示界面如下：登录方式：选择本机登陆使用在线地图：不选中电子地图：点选择，可以加载新旳防区设备图快捷方式：默认3.4客户端软件主界面3.4.1顾客资料建立与管理点击顾客“资料管理”，点“新建”按扭，开始录入新旳顾客。

1、设备ID：输入6位数旳顾客编号。

2、协议编号：可根据需要填或不填。

3、客户名称：可认为人名或企业名称，以便查找。

4、客户地址：4、参照物：顾客附近明显标志物，以便出警人员找到顾客地址。

5、SIM卡号：串口连接不填6、联络人：填可联络旳顾客，以便报警后可直接联络顾客。

JLAC_1 安装使用说明书2009年11月概述红外收发控制模块 JLAC_1 是用于学习红外遥控器发出的红外编码命令，并将学习到的红外命令保存，当红外收发控制模块接收到来自总线或无线发送的控制指令时，发出与控制指令相应的被保存的红外编码，模仿原有红外遥控器的命令，从而实现红外控制功能。

红外收发模块是一个有 32 组红外指令输入和32 组红外指令输出通道的控制模块。

JLAC_1 是在原有的功能上增加了模拟量和开关量检测，配合信号采集模块可以实现温度和电源开关状态采集功能。

通过后台管理软件组态后，可实现空调等红外受控电器的远程自动控制。

产品特点1、最大可学习32组以上的红外编码命令；2、可以通过手动和上位机通讯控制2种方式发射红外命令；3、120°发射有效角度，最大10m的有效距离；4、RS485总线接口和 RS232总线接口可选；5、模拟量可用作温度检测、开关量可用作电源开关检测。

6、自动控制、手动控制、后台管理、实时监控温度和空调状态。

主要技术参数模块工作电源：输入电压：10V~14V DC最大输入电流：70mA通讯接口：RS232 接口电气端口标准：RS232 总线接入设备总数允许：1台电缆最大长度：20m传输速率：9600bpsRS485 接口电气端口标准：485 总线接入设备总数允许：32台电缆最大长度：1500m传输速率：9600bps信息采集端口输出电压：+5VDC模拟量采集 DQ开关量采集 DI性能特征1、高度自适应性：可以学习市场上的绝大部分电器的红外遥控器；2、高耐久性：学习后保存下来的命令在掉电的情况下保存40 年；3、操作简单：通过一组拨码开关就可以控制模块的学习或发射，以及当前的命令序号，还可以通过上面的轻触按键手动发射指定命令。

4、集信号采集与自动控制为一体：通过后台管理软件，将采集到的模拟量及开关量，按一定的条件设置后，实现远程自动控制。

5、高精度控制：温度检测精准度为0.0625。

FTIR SPECTROMETER 用户培训教材2000年十二月FTIR 原理（略）Spectrum 3.0红外应用软件主菜单常用功能简介本简介是为了帮助记忆主菜单常用功能而写的，菜单功能的详细使用说明请参照使用说明书和在线帮助一、FILE 文件菜单Status…状态。

显示软件自动记录的光谱状态参数，包括时间、仪器和校正情况等。

Copy to Report 拷贝光谱到报告模板。

二、EDIT 编辑菜单。

剪切、复制和粘贴光谱到其他窗口或其他Windows应用软件三、VIEW 视图菜单Optima 优化显示Format View…显示格式，设定显示光谱纵、横坐标范围、颜色、字体等。

Overlay/Split Display 叠合/分列方式显示光谱Cursor 光标Vertical-Continuous 连续垂直光标Vertical-Peak 峰值垂直光标Horizontal 水平光标Radar Display 雷达光谱，窗口显示的光谱全图Previous Range 恢复前一显示范围Autorange X 自动优化X轴显示范围Autorange Y 自动优化Y轴显示范围Autoscale Y 自动优化Y轴标尺Cancer Autoscale 取消自动优化Y轴标尺Cancer Offset 取消重置标尺Full Scale 自动全范围优化标尺显示Label Cursor 标记光标，在当前光标所在处标示纵、横坐标值。

Label peaks 标记峰值，标记吸收峰的纵、横坐标值。

Clear All Peak Labels 清除峰值标记Add/Edit Text 加入/编辑文字四、PROCESS 光谱处理菜单UndoDate turn-up 专家系统光谱处理，可包括基线校正、平滑处理和扣空白。

Absorbance 转换为吸光度Transmittance 转换为透过率Kubelka-Munk K-M漫反射校正转换Convert X…X轴坐标转换Difference 差谱Baseline Correction 基线校正。