Zeltex Calibration Software for Windows
Contents
1. Points 1 2 amp 3 After all the constituent specific settings have been entered enter the product specific information From the drop down list select the following settings Point1 Point2 Point3 GRAIN products 998 1037 950 For other products examine the curves in the optical data file Point 1 should be the point that is always one of the two highest points on the curve Point 3 should be the point that is always one of the two lowest points on the curve Point 2 should be a point that always lies between Point 1 and Point 3 Hi and Lo Temperatures FoodTech Calibration Software 15 The Hi and Lo Ambient Temperatures should be 38 0 and 7 0 respectively To print the Instrument Settings information select Print from the File menu After the file prints staple it into the Calibration Numbering Setup Manual To upload the Instrument Settings data to the instrument Connect the instrument to the computer with the RS232 cable Select Comm Options from the Instrument Edit menu and make sure the correct port is selected Put the instrument in DATA LINK mode From the Instrument Edit menu select Upload to Instrument Select Save As Enter file name The backup file will be stored with a ZBK extension FoodTech Calibration Software 16 Step 8 Check Accuracy To check the accuracy of the instrument after entering the final K values take readings on ten lab analyzed samples Read each sample twice and enter the readings ona2. 10 9 6 amp 6 A0420 4 12 n 9 8 amp 8 5 A0420 5 8 7 6 5 SSY The combination of these windows in cup frame A0612 produces a cup for liquid and slurries _ Window A0612 1 A0612 2 A0612 3 A0612 4 Aob i aoa s 40 98 t oo See next page for products that require the indicated cup size FoodTech Calibration Software 7 ee ee Wheat Barley 2670 Standard Black molded cup 16mm Corn Soybean A0562 Black molded cup w windows on outside 24mm Milo Sorghum Use the chart on previous page to make a 13mm cup with the sliding windows Flax Mustard Use the chart on previous page to Soymeal make a 10mm cup with the sliding windows Canola Rapeseed Use the chart on previous page to make an 8mm cup with the sliding windows Clamshell A0581 Multipurpose cup Uses slurry liquid samples Step 1 Create an Optical Data File and Collect Data from the Analyzer To collect data on calibration samples from the FoodTech analyzer you will need to e create a new optical data file File New Optical Data or e open an existing optical data file to which you wish to add additional samples select Collect from the Data menu Answer no to the questions then the Collect screen will appear 0 samples in the file Last U samples collected Options Cancel Select the Options button Connect the RS232 cable to one of the computer s com ports and to the instrument s RS232 port b
3. photocopy of the following chart For instructions on taking readings consult your User s Manual Con 1 Con 1 Con 2 Con 2 Con 3 Con 3 Lab Unit Lab Unit Lab Unit VEUT Reading VEUT Reading VEUT Reading Average each column at the bottom of the table Compare the Lab Value Average and the Unit Reading Average for each constituent If there is a difference a bias and or slope adjustment may help FoodTech Calibration Software 17 To determine whether a bias or slope adjustment would correct the problem select New from the File menu Under Document Type select Statistics The following screen will appear Documents Press TAB D Lab to move to Samples Used PMS 000 the next Standard Error ATT information is updated as each sample is added graphed in this area Using the completed accuracy chart from the previous page enter the ten Lab Values enter each one twice in the Lab column and twenty Unit Readings in the FoodTech for one constituent The computer will calculate the regression information as each sample is entered If a particular sample is an outlier select Exclude from the Data menu to exclude it When all the sample readings have been entered save the file and select Print from the File menu The printout will include the graph along with the following information SEP After Bias 0 139 Only Adjustment SEP After Slope amp 0 130 Bias Adjustment Recommendation It is a g
4. file name of up to 8 characters that will remind you of the product values stored in the file The software will automatically assign a con ending to the file and place it in the C DATA directory To edit an existing constituent data file select Open from the File menu or use the shortcut key on the toolbar Under List Files of Type select Constituent Data con Select or type the correct file name To navigate within the constituent data file use the cursor keys or the mouse Also the Search option under the Edit menu and on the toolbar allows you to move quickly to a particular sample ID number After adding or changing the appropriate information be sure to save your changes before closing the file FoodTech Calibration Software 11 Step 5 Merge Constituent Data File to Optical Data File With the optical data file open on the screen from the Data menu select Merge Constituents Select the appropriate constituent data file con for the product you are calibrating the instrument to analyze Wait while the computer merges the two files When an optical data file is merged with a constituent data file the computer adds the constituent data to the optical file For later regressions the files should not have to be re merged unless changes have been made to the constituent data file Step 6 FoodTech Regression Analysis After merging the files select Reduce from the Data menu The Regression Parameters screen will ap
5. Food Tech Calibration Software for Windows 98 and up Version 1 5 COLE PARMER INSTRUMENT CoO 625 East Bunker Court Vernon Hills IL 60061 Phone 800 323 4340 Fax 847 247 2929 E mail info coleparmer com Website http www coleparmer com This manual provides you with all the information to operate the Cole Parmer FoodTech CP 50 FoodTech Calibration Software 2 Table of Contents SECTION 1 GENERAL INFORMATION sessooosccesssssssssssssocsooococcesessssesssssoooococcecceesesssssssssooosoeceesessss 3 SYSTEM REQUIREMENTS sanii 3 INSTALLING THE PROGRA Moores r EA 3 RUNNING THE PROGRAM cee a a a a a N 3 SECTION 2 CALIBRATING A FOODTECH INSTRUMENT eessssssssssssososcocccccessssssssssssooosscesecseess 5 BEFORE BEGINNING oaro rere a AA a NO 6 STEP 1 CREATE AN OPTICAL DATA FILE AND COLLECT DATA FROM THE ANALYZER 7 SIEP 2 al OY eG A Sc en ee ee em eee ere ne ern ET en ee Tee eer et eee 9 STEP 3 OBTAIN LAB ANALYSIS FOR ALL CALIBRATION SAMPLEG ccccccceeeeeeeeeceeeees 10 STEP 4 CREATE OR EDIT A CONSTITUENT DATA FILE seseeeeeeeecececcccccccceceeseeteeeeees 10 STEP 5 MERGE CONSTITUENT DATA FILE TO OPTICAL DATA FILE o on 11 STEP 6 FOODTECH REGRESSION ANALYSIS cccccceccccccccccccccsssseeeccecceccccccccceceeecesssssees 11 STEP ENT INA RCS sales acts vie ce elec s dens cts cn veo eene ln aaa leant ca sestecieseneicnts 13 STEP CO GHEGK ACCURACY mainier aaa ee ac oS eh S
6. added to this same file The instrument will need a set of K values or constants for each constituent within each product A set of K s consists of a total of 17 K s KO through K16 For example if you are calibrating the instrument to measure Wheat for Protein and Moisture you will need to enter two sets of K s into the instrument settings file Create a new instrument settings file File New Instrument Settings In a cell under Name type the name of the product you are calibrating for Document oO Fa Click on these gray buttons under each constituent to reach the following screen Click on the button under Con 1 to enter the data for the first constituent in that product The following screen will appear Product 0 Constituent 1 EJ K Yalues ieme 000 Slope E Bias 0 000000 Variance Level fo o00000 Too High Yalue Jo o00000 Too Low Value fo o00000 Standard Value o conoca Adjust Standard Load Ks FoodTech Calibration Software 14 Name Type the constituent name Slope amp Bias The slope should be 1 0 and the bias 0 0 for exceptions see Bias and Slope Adjustments in Step 8 Variance The Variance should be set to 10 0 Too High Value Find the Lab Maximum for the constituent on the FoodTech Regression Analysis printout Round it up to the nearest whole number Enter this value Too Low Value Find the Lab Minimum for the constituent on the FoodTech Regression Analysis printout Rou
7. e 16 Please read this entire manual before beginning a calibration Examples are given in this manual for some of the FoodTech analyzers most common applications If you have questions about the recommended settings for a product that is not mentioned contact Cole Parmer Phone 800 323 4340 Fax 847 247 2929 E mail info coleparmer com A note on the text Throughout this manual the Enter Return key on the computer keyboard is referred to as Return to distinguish it from the Enter button on the FoodTech analyzers keypad FoodTech Calibration Software 3 Section 1 General Information System Requirements Windows 98 or above VGA Color monitor 1 com port 3 1 2 inch disk drive 15 megabytes of hard drive space printer Installing the Program Before installing the program make sure you have closed all open Windows applications From the Start menu select Run Insert Disk 1 of the Calibration Software Program into your 3 1 2 inch disk drive On the Command Line type a or b as appropriate setup exe Press Return or select OK The computer will walk you through the setup process which requires little more than waiting patiently to insert Disk 2 After installing the program store the disks in a safe place in case of hard drive failure or accidental erasure Running the Program Select FoodTech Calibration Software from the Programs menu The following screen will appear Food ech Calibration Soft
8. eside the AC adapter port Select the OK button on the Communication Options screen FoodTech Calibration Software 8 Ensure that the instrument is ready to communicate with the PC Press SELECT down arrow Data Link Enter Enter the FoodTech sample ID number from the Calibration Numbering Setup Manual and select Collect or press Return The computer screen will display Attempting to Connect until it is successful in doing so The screen will then prompt you to read a sample For more information on each of these steps see the User s Manual that came with your instrument After the instrument has read the first sample in the new file the Save As screen will appear Enter a file name and click OK The Collect screen will reappear Enter the next sample number and repeat the above steps The Save As screen will not reappear each time as the computer automatically saves additional data to the same file name If you make a mistake while running a sample or if the curve of the sample appears questionable see examples of good and bad curves under Step 2 Plot Curves highlight the sample ID number under Last ___ samples collected and select Cut Keep in mind The samples do not all have to be run the same day the file can be saved and additional samples added later Temperature Variation during a Calibration Because of temperature variations in the field it is important to vary the instrument temperature during
9. he process of calibrating a FoodTech instrument you will be able to alter the order in which you perform the following tasks but beginners should follow this basic flowchart The additional information you will need to perform each step is given later in this section 1 Create an optical data file and collect data from the instrument 2 Plot the curves of the samples 4 Create a constituent data file 5 Merge constituent data file to optical data file 6 Run a FoodTech Regression Analysis to 3 Obtain laboratory analyses for the calibration samples determine calibration constants K values 7 Enter the final K s into the instrument 8 Check the accuracy If there is a problem adjust the bias or slope FoodTech Calibration Software Before Beginning Before beginning a calibration you should have 100 to 300 samples of the product for which you will be calibrating Label these samples with FoodTech sample ID numbers from the Calibration Numbering Setup Manual CUPS AVAILABLE for the FoodTech The sliding window cup for the FoodTech includes the following ltem Stock Quantity Cup Frame 2672 Window A0420 1 The combination of these windows in cup frame 2672 produces a cup with a sample thickness as indicated in the following table rounded to nearest mm Shaded boxes indicate preferred window combinations A0420 1 15 14 3 132 8 A0420 2 14 133 2 n 7 A0420 3 13 12
10. his could take awhile It s best to do this only if you have a good reason for doing so From the File menu select Print or click on the Print button on the shortcut toolbar Step 3 Obtain Lab Analysis for all Calibration Samples Either immediately before or after collecting optical data on the calibration samples obtain laboratory analysis for the samples This analysis should be from a lab you trust as the calibration can never be more accurate than the lab values Enter the lab analysis information into the FoodTech Calibration Numbering Setup Manual that came with your instrument Step 4 Create or Edit a Constituent Data File The computer stores the laboratory values of constituent content for the calibration samples in a constituent data file The same constituent data file can be used over and over for calibrations of the same product and sample set To create a constituent data file select New from the File menu or use the shortcut key on the toolbar Under Document Type select Constituent Data A spreadsheet screen will appear To enter values select Insert from the Data menu or press the Insert key on the computer keyboard An empty row of cells will appear Type the FoodTech sample ID number and press Return Use the cursor keys or the mouse to move to the next cell and enter the constituent data To add the next sample press Insert When you are finished entering the information select Save As from the File menu Assign a
11. mentation
12. mple graphs at once Use the method that works best for you The reason for viewing the curves is to search for any whose basic shape is radically different from the other curves in the calibration Sample curves should curve gradually rather than peaking sharply see the following examples Such curves are usually a result of operator error and should be deleted from the calibration To delete the sample highlighted in red select Delete trom the Edit menu press Delete on the keyboard or use the Cut button on the toolbar EXAMPLE D GAS CAL1 DT1 lof x Optical Data 1 038 0 538 EE 0 233 E 0 162 1 C D D N rT M mM oo Oo J O oy Pe Wn T aT in w F mo CJ Oo F oo mm M amp oy mm mM Oo Oo om Wavelength nim Example A In this example all the curves shown are similar in shape oample 1 of10 ID s01 Temperature 24 67 26 56 and are acceptable EXAMPLE DT1 OF x Optical Data 1 149 0 271 0 951 E D D H ot M y p m a G2 oOo oy Pe bya ar MH OF tT Wa D F D D e C Co 0 7D OOo wm moo os 56 Example B In this second example Wavelength nm the highlighted curve on the bottom is clearly due to operator error probably failure to close the light shield properly sample 11 ott ID 21 Temperature 24 087 26 45 or to insert the sample FoodTech Calibration Software 10 You may wish to print the optical data gathered from the instrument but be forewarned if you are printing the data in Grid View t
13. nd it down to the nearest whole number Enter this value Click on Load K s From the FoodTech Regression Analysis printout select the recommended set of K values for this constituent Enter the file name for the selected set of K s The file name is listed on the printout The computer will access the file and automatically enter the K s Click OK Repeat the above for each constituent in the product When selecting K s for the instrument you may want to predict the instrument s accuracy with several sets of K s to help you decide which set to use To predict the accuracy of a given set of K values open the optical data file From the Data menu select Predict Enter the appropriate constituent number Enter the file name for the K s you are considering Exclude any specific samples which may be outliers affecting the calibration Click on OK Select Print You can select to print the plot residuals or both The plot provides most of the necessary information the residuals list all the samples with their lab values predicted readings on the instrument and the difference between the two The printed plot gives information on the standard error with a bias adjustment and with bias and slope adjustments Select the standard error with the preferred degree of accuracy and use the associated K values Staple the printouts of the selected K values into your Calibration Numbering Setup Manual Back in the Instrument Settings file
14. on Percentage of Constituent Bias Slope X where X is the summation of the optical data multiplied by the constants constituent the component in the sample for whose content the instrument is measuring diffuse transmittance light energy is transmitted and distributed evenly through the sample being tested diodes near infrared light sources K s or K values see constants lab analysis the chemical or physical analysis of constituent s in a product linear regression a graphical representation of a statistical analysis of the relationship between two or more measured variables light absorption the amount of light energy absorbed by various constituents in the product being measured NIR abbreviation for near infrared near infrared the range of light energy near the visible spectrum OD optical data expressed in terms of voltage values for each wavelength used in a FoodTech analyzer regression also called reduction mathematical process to fit the optical data to the lab data sensor a device used in FoodTech analyzers that converts light energy to electrical signals for processing optical data sigma one standard deviation spectrum the range of OD energy measured in wavelength increments transmittance the ease with which light or other forms of energy can pass through a sample being tested wavelengths specific band widths of light energy usually expressed in nanometers in near infrared instru
15. ood idea to follow the FoodTech recommendation Correlation 0 989 Slope Bias This value is entered as the FoodTech recommends that only bias only when the slope is also adjusted a bias adjustment be made Slope 0 937 Bias No slope When the bias is Slope Bias 0 681 adjusted the instrument s readings for the Bias No slope 0 165 constituent are raised or lowered by this amount FoodTech Calibration Software 18 The printed plot gives information on the standard error with a bias adjustment and with bias and slope adjustments Select the standard error with the preferred degree of accuracy and make adjustments accordingly Keep in mind 1 A slope adjustment should be made only if e the range of the samples used to test the accuracy approximates the range used in the calibration and e the suggested slope adjustment is less than 0 95 or greater than 1 05 2 Ifthe printout does not show a bias adjustment of 0 15 or more the adjustment should not be made Bias Adjustments On the completed accuracy chart on the previous page subtract the Unit Reading Average for the constituent from the Lab Value Average to determine the bias adjustment For instance if the Lab Value Average is 23 5 and the Unit Reading Average is 23 8 the bias adjustment would be 0 3 Or you can use the Bias No slope from the Statistical Analysis printout See user manual for instructions to enter the Bias adjustment Slope Adju
16. pear Regression Parameters EsAMPLE DT Samples 173 Excluded 1 Tumbles Filters 16 Number 7 Type C Fast i Slow Tumbles Refers to the number of samples to be tumbled from the regression Samples which are statistical outliers should be eliminated from the regression so that they do not adversely affect the calibration The recommended number of tumbles will be set automatically Type Refers to the tumbling method Fast tumbling predicts the analyzer s constituent value for each sample and compares it to the lab value If the analyzer s predicted value for a particular sample is off by more than double the standard error for the entire calibration set that sample is tumbled This continues until selected number of samples has been tumbled The calibration constants K values are determined from the remaining samples Slow tumbling eliminates one sample at a time and calculates the calibration constants comparing the standard error each time It selects the set of K values with the lowest standard error If more than one tumble was selected it repeats this process with the remaining samples until the number of samples specified has been tumbled Usually the results are the same but as it is more accurate Cole Parmer recommends using slow tumbling Filters This option was designed for use by Cole Parmer researchers only All the filters listed should have a checkmark FoodTech Calibration Softwa
17. re 12 Constituents If you would like to perform the regression on more than one constituent at a time make sure there is a 3 mark next to all the constituents for which you are calibrating However you may prefer to perform the regression on one constituent at a time if for example you want to exclude certain sample numbers from the calibration for a particular constituent Exclude Click on this button to specify specific sample numbers that should be eliminated from the regression You might choose to do this for samples that e have no lab value or a questionable lab value for a particular constituent or e have a bad curve After typing each sample number click ADD to confirm its exclusion When all the sample numbers to be excluded are listed click OK After making all of the appropriate selections on the Regression Parameters screen click OK Be patient while the computer performs the regression If the file contains a large number of samples this would be a good time for a coffee break When the regression is complete the following will appear EXAMPLE DT1 2 OF x Con 1 Con 2 q1 142 13 14 15 Lab Cole Parmer recommends that you PRINT all these results so that they will be readily accessible when you select K values in Step 7 FoodTech Calibration Software 13 Step 7 Enter Final K s The Instrument Settings file stores all of the instrument settings and K values in one place Later calibrations should be
18. stments Slope adjustments are generally not recommended However if you feel that a slope adjustment may be necessary gather the following information and contact Cole Parmer s Calibration Department for advice e acompleted accuracy chart for the product in question See previous page e the FoodTech Regression Analysis printout for the calibration e aprintout of the Instrument Settings file for the product in question e the FoodTech Prediction Analysis or Statistical Analysis printout If it is determined that a slope adjustment is necessary enter the Instrument Settings file Make sure that you are in the appropriate product and constituent When making a slope adjustment multiply the Slope from the prediction printout to the Slope in the instrument settings file and multiply the Bias in the instrument settings file with the Slope from the prediction printout and then add the Slope Bias from the printout After making bias or slope adjustments be sure to Upload the new instrument settings to the instrument FoodTech Calibration Software 19 Appendix 1 Glossary accuracy how closely the readings of the calibration samples match the samples predetermined lab values in a given instrument bias the average shift of the regression curve from the ideal laboratory regression curve on all samples constants also called K values or K s figures determined during calibration of the instrument which are used in the equati
19. the calibration To vary instrument temperature place heating pads set on high around the instrument for about 15 minutes or until the instrument temperature reaches approximately 38 C See To check instrument temperature below Remove the heating pads and continue running samples At another point in the calibration wrap the instrument with plastic and surround it with ice packs for 15 to 30 minutes or until the instrument temperature is lowered to 17 C See To check instrument temperature below Remove the ice packs and continue running samples To check instrument temperature collect data from a sample and allow the graph of the sample reading to appear The bottom of the window lists the sample and instrument temperatures respectively in C The sample temperatures must also be varied during calibration Cole Parmer recommends using 3 to 5 different temperature ranges of samples during calibration covering the warmest to the coldest sample temperatures that will happen during normal use FoodTech Calibration Software 9 Step 2 Plot Curves You can view the sample curves a number of ways With the optical data file dt1 open e use Plot Next Page Down and Plot Previous Page Up to view one sample graph at a time e use Plot Overlay Page Down or Page Up to view more than one sample at a time the current sample is outlined in red while all others are blue or e use Plot Show All to view all the sa
20. ware v3 2 3 File Edit window Help ee Sola Ea E ae Po CAFS NUM SCRL FoodTech Calibration Software 4 As with other Windows applications you can access the menu bar with the mouse or by pressing Alt and the underlined letter simultaneously Shortcut keystrokes for some of the options in each menu are listed to the right of the command when the menu appears The toolbar of shortcut buttons directly below the menu bar provides quick access to some of the most commonly used commands The right mouse button accesses the Data menu when an optical data file is open File names should be no more than 8 characters long and consist only of letters and numbers The computer automatically assigns the following extensions to the files and stores them in the DATA directory e dt1 to optical data files e st1 to statistics files e con to constituent data files e ks1 to K values files e zbk to instrument settings files Any optical data file can be viewed in two ways Plot View or Grid View The grid view option is designed mainly for use by Cole Parmer researchers The plot view is the most useful as it shows the curves of the sample readings Whenever multiple samples are graphed in plot view you can click on any curve or point on the graph to determine the sample s ID number FoodTech Calibration Software 5 Section 2 Calibrating a FoodTech Instrument After you become familiar with t
Download Pdf Manuals
Related Search