This will display the script with some functions (to sum, divide, convert Celsius to Kelvin or to Fahrenheit, etc.). The user will be able to edit the 'Parameters' script by clicking on the 'Script' button. The 'Apply' button is used to view the effect of any changes directly on the parameters table without needing to close the 'Customize Parameters' dialog box. Clicking on 'OK' will save the template in the registry and Mnova will remember it for futures uses. To load a template, just click on the 'Open Template' button. The user will be able to save his/her own template by clicking on the 'Save Template' icon. The 'Restore' button is used to recover the default template. The user can also delete any parameters from the table by highlighting each of them and clicking on the 'Delete' button. The parameters will be hidden in the table display if the user removes the corresponding tick mark on the 'Visible' Column. In this way the user will obtain the 'Time Delay' value in seconds in the Parameters Table, as you can see in the picture below: So, the user will need to type '=div(acqus($DE),1000)' in the 'Parameters Template' to get the division. Firstly, we need to double click on the desired parameter in the 'Current Spectrum Parameters' list to add it to the 'Parameters Template':īy default the Time Delay is showed in milliseconds, so we need to divide the value by 1000 to obtain it in seconds. The following example shows the procedure to show the 'Time Delay' in seconds. The user will also be able to introduce formulas (available in the script) by typing an equal symbol followed by the desired formula (numbers or parameters), for example: =sum(a, b), or =div(acqus($TD), 2). In the picture below, we have added manually the text "Sunday, December, 30th, 2007" in the field: 'Original Name' and 'Date' as the 'Visible Name' The user will also be able to add his/her own parameters by double clicking on the table and typing the corresponding parameter name (between "quotation marks") and value. This will add the chosen parameter to the template. Once this has been selected, double click on the desired parameter (from the 'Current Spectrum Parameters' box). Start by selecting the location of the parameter in the Experimental or Dimensional Parameters Template by clicking on the relevant cell of the 'Template' column on the table. You can easily add any existing parameter from the raw data. Both sections have blank rows in their last position to allow for addition of further parameters. In the 'Customize Parameters' dialog box, the user will see an 'Experimental Parameters Template' (pink square in the picture above) which will be common for 1D and 2D (with information about: Title, Origin, Owner, Solvent, Temperature, etc.) and the 'Dimensional Parameters Template' (green square in the picture above) with information about the 'Spectrometer Frequency', ''Acquired Size', 'Spectral Width', etc.). The user will be able to obtain any parameter from any raw data file (procs, acqus, title, etc.) by selecting the desired file on the 'File/Block' box (red square in the picture below): Customization of the parameters table is Mnova is very intuitive, just follow the menu: View/Tables/Parameters and click on the 'Customize' icon to display the 'Customize Parameters' dialog box.Ĭlicking on the 'More>' button will display the 'Current Spectrum Parameters' window, as you can see in the picture below. The user will easily be able to add, create, remove or modify any spectrum parameter or even to create templates in order to obtain the same parameters in any processed spectra. Before this feature was implemented, only standard spectrum parameters could be included in the corresponding table. In addition, the users will be able to create 'Parameters Templates' in order to obtain the same parameters in all of their processed spectra. The 'Importing Spectrum Parameters' feature will allow Mnova users to include any variable into the Parameters Table from the raw data file.