JCI-Graph (v2.2)
Contents
1. 58 56 Pretest Voltage 0 45 Peak at 13 06 volts Analysis start 0 1 secs after charging at 11 253 volts 1 e reached after 0 19785 sec 10 reached after 0 6998 sec Received charge 1 05673 nC Capacitance loading 34 7462 2 MyDocuments JCI Graph Data 04092 193 2004 10 14 00000272 jc5 Copy paper Serial 04092193 run 00000272 Date 14 10 2004 at 14 37 15 Corona Voltage 3000 Corona Time 0 01 Surface Temp C 22 8 Surface R H 58 35 Pretest Voltage 0 81 Peak at 13 273 volts Analysis start 0 1 secs after charging at 9 9037 volts 1 e reached after 0 28965 sec 10 reached after 1 1227 sec Received charge 1 14171 nC Capacitance loading 36 9372 21 Serial 04092193 run 00000273 Date 14 10 2004 at 14 39 22 Corona Voltage 10000 Corona Time 0 01 Surface Temp C 22 8 Surface R H 58 38 Pretest Voltage 0 89 Peak at 83 99 volts Analysis start 0 1 secs after charging at 29 406 volts 1 e reached after 0 25254 sec 10 reached after 1 0895 sec Received charge 150 218 nC Capacitance loading 768 006 4 MyDocuments JCI Graph Data 04092 193 2004 10 14 00000274 jc5 Copy paper Serial 04092193 run 00000274 Date 14 10 2004 at 14 40 06 Corona Voltage 10000 Corona Time 0 01 Surface Temp C 22 8 Surface R H 58 08 Pretest Voltage 0 45 Peak at 79 846 volts Analysis start 0 1 secs after charging at 29 578 volts 1 e rea2. rs n Set John Chubb Instrumentation Ltd mi Unit 30 Lansdown Industrial Estate Gloucester Road John Chubb Cheltenham GL51 8PL UK Tel 44 0 1242 573347 Instrumentation Fax 44 0 1242 251388 email jchubb jci co uk User Manual for JCl Graph UM JCI Graph v2 2 4 September 2009 Contents l Introduction 2 Installation 3 Operation off line for data stored to a memory card 3 1 Start up 3 2 File 3 3 Extraction of files 3 4 Select 3 5 Graphical display 3 6 Summary table csv file 4 Operation online with control and display of charge decay observations 4 1 Start up 4 2 Serial link up 4 3 Start run 4 4 Graphical display 4 5 Stop run 5 Analysis of results 6 Transfer to other Windows programs References Annex 1 Readme file for JCI Graph v2 0 for Windows 95 98 2000 and XP Annex 2 Column headings in summary table created by JCI Graph Annex 3 Analysis of long corona charge decay times Figures 1 8 Example of graph and text presentation Example of summary table presentation Registered in England No 5798844 VAT GB 392 007 172 Registered Office Unit 30 Lansdown Industrial Estate Gloucester Road Cheltenham GL51 8PL UK JCI Graph v2 2 4 August 2009 User Manual for JCl Graph Windows based software for graphical display of charge decay observations made using JCI 155 instruments On line operation and display of operation of JCI 155v5 instruments is also available 1 Introduction JCI
3. Dev blocks Linear OE Tiina to be displayed 5 0 Publis C Endet1 e TClag range centre TC linear range Endatset Median of first file Automatic Recycle Bin CuteHTML Free DWG Analysis Timing Start P peepee am setvia Analysis Specificvalu Specificvalues i JCI Graph for Parameters window M l Time after end of charging Sanang ag e D Serial lir Min s milliseconds 10 Spike Suppression Previous Next Default SetDefaul O E a Analysis Timing Endpoints At 1 e and at set percentage percentage f10 TC Step Percent Previous Next Default SetDefaul Close start C Document Inbox Micro Gy UMICI Graph I JCI Graph J Figure 8 Settings of Analysis parameters and Display parameters for linear graphical display of local decay time constants 20 JCI 155 Charge Decay Test Unit 0 0 1 0 2 0 3 0 4 0 5 0 6 JCI Graph v2 2 4 August 2009 t sec t const 0 7 0 8 0 9 1 1 1 1 sec ro p50 NN a a EESE E E Lo 10 ene nnn enn a ee ee rr hee enn nnn 500m 200m 100m P50 0 273 1 MyDocuments JCI Graph Data 04092193 2004 10 3 MyDocuments JCI Graph Data 04092193 2004 10 14 00000269 jc5 14 00000273 jc5 Copy paper Copy paper Serial 04092193 run 00000269 Date 14 10 2004 at 14 35 31 Corona Voltage 3000 Corona Time 0 01 Surface Temp C 22 78 Surface R H
4. Graph v2 2 2 is Windows based software for the display of graphs numerical results and test details of corona charge decay and capacitance loading studies made using JCI 155v5 Charge Decay Test Units Software operation is directly compatible with Windows 95 98 2000 XP Special features of JCI Graph are ability to present up to 4 selected graphs together opportunity to scale graphs and select the area and features viewed opportunity to copy graphs to other Windows applications such as wordprocessing for incorporation into documents along with text details of numerical results and test conditions opportunity to evaluate the capacitance loading experienced by charge at the test surface 1 2 3 when charge decay observations are made by JCI 155v5 Charge Decay Test Units in conjunction with JCI 176 measurements of charge transfer to the test surface Opportunity to display variation of the rate of charge decay in terms of the local decay time constant during the progress of charge decay and from this to predict decay times to 1 e and 10 for very slow charge decays opportunity to start analysis of decay curves from peak voltage or from a set time after the end of corona charging creation of Spreadsheet loadable file csv at file extraction giving a summary of all numerical values of test conditions and measurements This provides an easy way to compare the performance of various samples opportunity to create a Spreads
5. a memory card 3 1 Start up JCI Graph is started by double clicking the JCI Graph icon or going via the Start button to Programs and then clicking on the relevant JCI Graph exe in the list of programs The opening display is shown in Figure 1 The working area can be entered by clicking the left mouse button or waiting a few seconds and the screen then shows a bare graph area with a toolbar above This toolbar shown in background of Figure 2 provides 5 direct options File Display Serial link Parameters and Help The Help facility gives background information about JCI Graph including version number and access to descriptions of all the main operational features of the software and in a fuller form than is presented in this User Manual 3 2 File The File select option in the toolbar provides three options Select for display Extract from ATA card and Exit Extract is used to transfer the data of tests stored on the memory card from JCI155v5 operation and from this to make files for individual runs jc5 files These are automatically stored within folders related to the serial number of the instrument and the date Select for display is used to select files for display that have already been extracted from data held on PCMCIA or CompactFlash memory cards or for getting new data over an RS232 serial communications link see section 4 For results that have been already been store
6. decay time constant values are calculated can be set via the Parameters key in the main display and then via Analysis parameters The axis used for the display display of values may be set via the Parameters key and the Display parameters When the program starts the source data is subject to no suppression of single data point spikes The option is provided to provide suppression of single or multiple spikes to overcome the influence of minor glitches that may arise in the data stream The Display parameters option provides opportunity to change colour and thickness of the graphical lines and whether graticule and analysis lines are shown for both the time and surface voltage axes These are implemented when the Apply button is clicked 3 6 Summary table csv file As JCI 155v5 data files are extracted a csv file is automatically created that summarises all the important features of the test conditions and results for each individual test No summary file is created when handling data from DECAY 18 or Pico files This csv file may be opened into a Spreadsheet such as Excel where it may be rearranged if desired to be suitable for transfer into a document or a test report An example summary file in Excel format is appended An explanation of the column headings in the summary table is listed in Annex 2 Where changes are made to the sample Description or the value for the second end point
7. of timing these changes are shown in subsequent presentations of the csv file Where JCI 155v5 studies are made in conjunction with charge measurements using a JCI 176 Charge Measuring Sample Support 1 2 3 the observations of induction and conduction charge components are stored to the memory card along with the charge decay observations These values are extracted and the values are included within the csv file Preparation of the results summary file also includes calculation of the total charge received by the sample using the induction charge signal as modified by an appropriate factor before adding to the conduction charge signal The default factor used is 2 2 A calculation is also made of the capacitance loading experienced by charge on the test surface 1 2 3 The factors used in these calculations can be edited on the Spreadsheet and then copied through the appropriate columns of numbers 4 Operation online with control and display of charge decay observations 4 1 Start up JCI Graph is started by double clicking the JCI Graph icon or going via the Start button to Programs and then clicking on the relevant JCI Graph exe in the list of programs The opening display is shown in Figure 1 This can be ended by clicking the left mouse button or waiting a few seconds and the screen then shows a bare graph area with a toolbar above This toolbar provides 5 direct options File Display Serial link
8. the graph and the horizontal axis is time The maximum values for the axes will be adjusted automatically to accommodate the maximum values of all the graphs being displayed Portions of the graphs may be selectively displayed by clicking the left hand mouse button on the top left hand corner of the area moving to the bottom right hand corner and the releasing the button The area being selected is greyed to show its extent This expansion may be pursued sequentially and may be applied from the origin or over any part of the area displayed The full view may be restored via the Display menu item One or more graphs may be removed from the display after inspection or use by clicking the file identity in the list of Displayed files and clicking the Hide button below Graphs may be included from other directories The graphs presented include a display of the values of local charge decay time constants during the progress of each charge decay These graphs are a set of short horizontal straight lines giving the average local time constant over the corresponding short periods of each decay curve They relate to the right hand time constant axis The identity of the active files selected is shown at the bottom of the graph display Clicking on one of these brings up an alphanumeric summary of run test conditions File parameters and numerical values of measurement results This is shown in Figure 3 With Picoscope and Picolog so
9. which can be discarded 2 Identification of the destination folder for the extracted files For the first time of use a destination directory needs to be created via the Change button and this can also be used if it is appropriate to create a new destination directory at any time for example to store different groups of results A name such as JCI Graph data is easily recognisable as a general folder At subsequent extraction of files the destination directory last used is offered as the default The destination folder is a general folder The act of Extraction creates and puts the extracted files into appropriate instrument and date folders within this general folder The first action of extraction is to transfer the data file from the source card Progress is shown on a bargraph display Advice is then offered to make a back up copy of the extracted data Opportunity is provided following this to select the data to be extracted in terms of instrument serial number date and start run number Results from individual test runs are now stored at the selected location as individual files with the extension jc5 by run number within directories folders for each day of operation and within directories folders identified by each instrument serial number Results from individual runs are hence uniquely stored even if one memory card has been used on several instruments Note The dat file held on the memor
10. Parameters and Help The Help facility gives background information about JCI Graph including version number 5 JCI Graph v2 2 4 August 2009 and access to descriptions of all the main operational features of the software and in a fuller form than is presented in this User Manual Clicking on the Select option provides as shown in Figure 4 3 options for the Source of data to display on the Select for display box JCI 155v5 files JCI 155v5 via serial link JCI 155v4 files Pico files Select JCI 155 v5 via serial link for on line operation Check that the serial link cable is in place from the serial port COM1 on the computer to the right hand 8w mini DIN connector on the JCI 155v5 Many new computers notably Laptop computers are not provided with RS232 serial data ports On line operation of JCI Graph can be achieved on such computers by using a USB to serial adapter e g Belkin Serial Adapter F5U103 This adapter is plugged into a USB port and connected to the JCI 155v5 with the 9w D type to 8w mini DIN cable supplied by JCI During serial link operation data is both stored to the memory card to directly into files on the linked computer However it is necessary for a memory card to be present in the JCI 155v5 for communications to be established Note Do not try to use any serial extension cable to the cable provided as this may cause problems from transposition of functi
11. are to be used at an appreciably larger or smaller scale than displayed by JCI Graph it is best to change the display from full screen to a tile display and then adjust the size of the graph by dragging a corner to be close to the required application size This ensures that the thickness of lines and scale divisions will be appropriate to the application size used To copy a display to for example a wordprocessing document open the document or target area of the document in JCI Graph click Display and then Copy to document go to the target area in the target document and click Paste in the edit menu This will transfer a copy of the graph return to JCI Graph and click the OK in the Graph instruction box return to the document and click Paste to paste in the text information This will transfer and display all the text information for each of the graphs displayed return to JCI Graph and click the OK button in the Text instruction box Adjustments for size and layout may then be made to match the application by dragging and scaling Text information may be edited after copying but not the content of the graph Up to 4 graphs may be displayed together on a single graph A convenient presentation in a report is to have the graph and all the associated text details on a single A4 sheet Depending on margins this can be achieved by setting a target page to be double column 5mm gutter with 10 poin
12. cache JCITestMethod pdf 6 J N Chubb 4 Standard proposed for assessing the electrostatic suitability of materials J Electrostatics 65 2007 p607 610 7 J N Chubb Instrumentation and standards for testing static control materials IEEE Trans Ind Appl 26 6 Nov Dec 1990 p1182 8 J N Chubb Charge decay time prediction Paper submitted to J Electrostatics July 2009 JCI Graph v2 2 4 August 2009 Annex 1 Readme file for JCl Graph version 2 0 for Windows 95 98 2000 amp XP Copyright c 2001 John Chubb Instrumentation Thank you for choosing JCI Graph This Readme file holds important information on using the software CONTENTS 1 Description of this version of JCI Graph 2 Installing JCI Graph 3 Getting started with JCI Graph 4 On line Help System for JCI Graph 5 Contacting John Chubb Instrumentation 1 Description of this version of JCI Graph JCI Graph enables charge decay observations recorded from the operation of a JCI 155 instrument to be processed and graphed Version 1 0 deals with data from JCI 155 instruments up to Version 4 Data can be read from disc files eg floppy disc or hard disc Version 2 0 deals with data both from JCI 155v4 and JCI 155v5 instruments 2 Installing JCI Graph Insert the JCI Graph installation disc into your computer and run setup This can be done by clicking on the Start button then Run On the Run window click Browse On the Browse window ensure look
13. ched after 0 25645 sec 10 reached after 1 1324 sec Received charge 149 583 nC Capacitance loading 804 457 JCI Graph v2 2 4 August 2009 Summary of decay observations made by a JCI155v5 instrument Factors used in charge and capacitance loading formulae Induction charge factor 2 2 Voltage sensitivity Formula factor 0 73 for Q nC HHH Capacitance loading Formula factor 1 7 for CL DIV O C Documents and Settings John Chubb My Documents JCl Graph Data 04092193 2004 10 14 V tto tto RH CondQ IndQ Pre t delay Run Description Time Vc tc s start 1le Q nC CL T C Serial Date nC nC V Vpk s 269 Copypaper 14 35 31 3000 0 01 11 3 0 198 0 700 10 1 1 34 7 22 8 586 4092193 14 10 2004 1 057 0 45 13 1 0 1 272 Copypaper 14 37 15 3000 0 01 99 0 290 1 123 10 1 1 36 9 22 8 584 4092193 14 10 2004 1 139 0 001 081 13 3 0 1 273 Copypaper 14 39 22 10000 0 01 294 0 253 1 089 10 150 2 768 0 228 58 4 4092193 14 10 2004 150 128 0 041 089 84 0 0 1 274 Copypaper 14 40 06 10000 0 01 296 0 256 1 132 10 1496 8045 228 58 1 4092193 14 10 2004 149 495 0 040 045 79 8 0 1 See Annex 2 for explanation of column headings 22
14. d to a memory card by operation of a JCI 155v5 instrument the initial action is to Extract from ATA card 3 3 Extraction of files Data from operation of JCI 155v5 instruments is stored to the memory card resident in the instrument Data is stored on the memory card as binary data within a large single file that can hold results for a large number of test runs This data can be read directly at the instrument by the integral microprocessor and this gives the opportunity to review any earlier runs on the instrument display in the same way for as just completed runs It is not in a form that can be directly inspected or read by normally available software Data held on the memory card can be read into a PC via a PCMCIA card slot available in many laptop of Notebook computers or using a card reader plugged into a USB port Such card readers are moderately priced and readily available from photographic shops The same reader may be used with any computer equipped with a USB port Note that Sandisk Imagemate software may not be Windows 2000 compatible 2 JCI Graph v2 2 4 August 2009 Data transfer is started by clicking the Extract from ATA card button within the File menu The screen display at this point is as illustrated in Figure 2 To proceed there needs to be identification of two features 1 Identification of the source via its drive letter This may be known or will be revealed by a Windows pop up menu
15. dy extracted or JCI 155v5 via serial link for direct on line operation of JCI 155v5 instruments Selection of JCI 155v4 files or Pico files in txt format provides direct access to these files but does not create any JCI 155v5 equivalent files The nest of directories shown will reflect the folder from which data was 3 JCI Graph v2 2 4 August 2009 last selected and displayed Alternative dates instruments and general folders may be selected by clicking the appropriate higher folder levels and then moving down to the location required From the folder of the serial number of the instrument used the date on which the tests were made can be selected This will show a listing of the files available Individual files may be selected and displayed in any order by double clicking the mouse pointer Up to four files may be displayed at a time for display The screen display is illustrated in Figure 3 With Pico files there can be two channels of data recorded channel A and channel B Opportunity is provided to display either or both these channels by selecting the txtA or txtB version of the source file 3 5 Graphical display As each file is selected for graphical display by double clicking it in its menu list a graph will be shown of the variation of surface voltage versus time for the full range of these parameters measured This is illustrated in Figure 3 Surface voltage values relate to the left hand vertical axis of
16. e Make CSV zero shift_ Fun settings n Jcit55v5 Charge Decay Run ime sec Serial 03102095 run 00000004 display high display from P t 28 10 2003 et 12 43 02 0 62523 0 03710 Corona Voltage 3000 displaylow display to Baie ree cant 166 8 10 187 Surface R H 45 88 Full Range 1007 af aru Analysis results Full Range Peak at 164 57 volts 1 e reached after 0 18164 sec 10 reached after 1 0225 sec Received charge 656 146 nC Capacitance loading 1712 09 160 j 7s start Inbox Micro Gy 2 2 Oy pics jocument ICI Graph EN MM 14 30 Source 00000443 jc5 JOSS v5 files 00000444 c5 C JCM85 v5 vie seriallink 00000445 jc5 Selected Files Display Parameters C JON55 v4 files 00000446 jce Z g C Pico files 00000447 jc5 y at made 00000449 jc5 1 2 3 4 en i 00000450 jc5 Internet EWI Curve colours Thickness f Explorer ef Ff a B Documents and Setings 00000451 jcs PE John Chubb 00000452 jc5 Background Margin 42 My Documents 00000453 jc5 Ey JChGraph Date 00000454 jc5 i i E 05032246 00000455 jc5 ee ee 00000456 jc5 E 00000457 jc5 COET v Display Curves Display Time Constants O OOK x 7 Outlook E TC display options TC axis Select Remove Display Hide Close geis aL I TClines Voceri PN li j o T Std Dev lines logarithmic I Display analysis timin a i See ees T Std
17. ecay time constant during the progress of each decay right hand time axis 18 JCI Graph v2 2 4 August 2009 fa or daa a Source x C J055 v5 files JCI155 v5 via serial link Selected Files C JCH55 v4 files fem 01011895 Change iias Not transferring Start Run Stop Run Select Remove Display Close is a Connected C Pico files he Ld Port COMI Destination Displayed Files DSR amp Documents and S 0000004 amp John Chubb Mode My Documents Surface Volt i Not extracting i x File Display Serial link Parameters Help JCI 155 Charge Decay Test Unit t sec t const g i 3 4 ff ki 10 sec s File 4yDocuments JClGraph Data 0310209542003 1 0 28 00000004 jc5 Voltage v Description Update Make CSV zero shift Run settings 0 __ lci155v6 Charge Decay fun Time sec seriat 03102095 run 0000004 Date 28 10 2003 at 12 43 02 display high display from 0 62523 0 03710 Corona Voltage 9000 Corona Time 0 00886 display low display to Surface Temp C 20 71 166 8 10 187 Surface R H 45 88 Analysis results Full Range Full Range Peek at 164 57 volts Ee i e reached after 0 18164 sec 10 reached after 1 0225 sec Received charge 656 146 nC Capacitance loading 1712 09 Figure 5 Display showing selection of JCI 155v5 instrument via serial link and connection ready to run D fa premer a x C JOSS
18. ecay rates In this approach as the signal falls below the target level of voltage the timing clock is stopped and is then restarted as it rises back above Thus as a noisy signal 1 JCI Graph v2 2 4 August 2009 gradually falls through a target voltage level the clock may stop and start many times until the signal level no longer rises up to the level at which it can restart the clock Modelling studies have shown this to be an excellent way to find the time at which noisy signals cross set voltage levels Operation of this stutter timing approach can be seen on charge decay graphs by location of the intersection of end of timing voltage level indication and time markers lines within the range of fluctuation of noisy signals This same stutter timing approach is applied in JCI Graph to analysis of observations made with JCI 155v4 and older instruments using DECAY 18 software and with Picoscope or Picolog data recordings 2 Installation Installation of JCI Graph software follows usual Windows operating practice and will usually start automatically after loading the software disc as a floppy to drive a or on a CD to the CD drive If loading does not start automatically it may be initiated via the usual Windows route using the Start key and the Run key Basic operational features are described in the Readme file on the installation disc This file is also listed in Annex 1 3 Operation off line for JCI 155v5 test data stored to
19. f local charge decay time constant with time Test 39504 3000 2500 2000 1500 TC s 1000 500 Time s Figure A3 1 Variation of local decay time constant with time and best straight line fit 16 Unit 30 Lansdown Industrial Estate Gloucester Road Cheltenham Glos GL51 8PL England tel 44 0 1 ee 573347 File Display Serial link Parameters Help JCI 155 Charge Decay Test Unit JCI Graph v2 2 4 August 2009 Welcome to JCI Graph for Windows from John Chubb Instrumentation Licensed to T Documents and Seti E John Chubb Start l Restart To start the program Then to find out how to run the program vy Oniyi view files to be extracted Card info Extract a Stop Close T as EN e Figure 2 De Rea h to extract data from memory card in dak d to folder JCI Graph Data in c 17 A D e ip e F us is File Display Serlal link Parameters Help JCI 155 Charge Decay Test Unit a E 5 Select for display Source 00000613 je5 Jcnssvsfiles ooooos20 jes C JCH55 v5 via serial link 00000621 jc5 Selected Files C JON55 v4 files 00000622 jc5 Pico files 00000623 je5 0000624 jc5 A aC a 00000625 fos Displayed Files Ba 00000626 jc5 E Documents and Settings John Chubb My Documents JOFGreph Data 03072072 JCI Graph v2 2 4 August 2009 Select Rem
20. heet loadable file csv of charge decay observations calculated local decay time constants and all the data recorded of test conditions opportunity to display variations of local charge decay time constants on linear or quasi logarithmic axes opportunity to extract observations from the memory card mounted in a JCI 155v5 instrument via a serial communications link or via a USB port using an adaptor opportunity to start and stop tests with JCI 155v5 instruments via a serial communications link This enables the charge decay observation to be observed remotely in quasi real time This is particularly useful when studies are conducted in a controlled environment chamber where access to instrument controls and visibility of the display may be limited opportunity for on line as well as off line operation with JCI 155v5 instruments opportunity to display charge decay observations recorded by operation of JCI 155v4 instruments in conjunction with software DECAY 18 opportunity to display charge decay observations made using Picoscope or Picolog software www picotech com to store observations made using a JCI 140 Static Monitor in txt file format Charge decay time measurements within JCI Graph use the same proprietary stutter timing method as is used in JCI 155v5 instruments This method of time measurement very effectively overcomes the influence of noise when working with very low level signals and with very slow charge d
21. in refers to the drive containing the installation disc and then select setup exe Back on the Run window click OK to run setup exe The installation process should not take long You will be asked to accept the licensing agreement and to enter identification You can also select installation locations although it is anticipated that most will accept the normal locations indicated as default 10 JCI Graph v2 2 4 August 2009 3 Getting started with JCI Graph After installation JCI Graph can be run by clicking on the Start button then Programs then JCI Graph A welcome screen is displayed for a short period this can be removed by clicking the left mouse button In the main display form files can be selected for display by clicking on the select option after either a clicking on File in the menu bar at the top of the window or b clicking the right mouse button A range of subsidiary forms can be used to control the operation of JCI Graph Up to four files can be displayed at a time The display can be adjusted for example to focus on a small part of the current graphs User analysis can be performed to check specific decay characteristics The current display can be copied for insertion into a word processor document Details on using JCI Graph are available in the On line Help System see below 4 On line Help System for JCI Graph The On line Help System can be obtained as follows In the main d
22. ing phase that lasts 2 seconds The data transferred during a run is stored in jc5 files in just the same way as when data is extracted from a memory card A test run may be stopped by clicking the Stop run button if this is not greyed out or via the Serial link menu option The progress of a test run may be paused or stopped according to values set in the Transfer parameters menu within the Parameters menu JCI Graph v2 2 4 August 2009 4 4 Serial link file extraction Files may be extracted from a memory card while still in an instrument This is selected by clicking the Serial link as the Source as opposed to Drive It is worth noting that this is a much slower route for data transfer but may be appropriate for a few files and in particular situations 4 5 Graphical display The graphical display shows the progress of decay of surface voltage and the calculated values of local decay time constant values As the display reaches the right hand edge of the display the time axis expands by a factor of two so one has a stationary display of decay progress for visual inspection As for the display of previously recorded data up to 4 graphs may be shown together and parts of the display may be selected for detailed inspection Where part of the display is selected this remains stationary while data continues to accumulate in the background Text details of test conditions and results available so far can be acce
23. isplay form click on Help in the menu bar at the top of the window which causes a drop down menu to appear Move the mouse pointer into this help menu and click on the Help Topics option The On line Help System starts by indicating its contents The system is divided into screens of information which are linked to each other Where further information is available for a particular topic the topic is displayed as a link in a distinctive colour eg green although this depends on your system If you want to view information on that topic move the mouse pointer onto the link and click the left mouse button In this way you can follow through information on a series of related topics If you want to review one of the previous screens of information click on the back button at the top of the help window The On line Help System provides further information on how to use help 11 JCI Graph v2 2 4 August 2009 5 Contacting John Chubb Instrumentation We would welcome your comments on this software If you have any problems using this software please check a information given in this Readme file and b guidance given in the On line Help System If you cannot resolve your problem please make a note of the circumstances in particular any error message John Chubb Instrumentation can be contacted as follows Telephone 44 0 1242 573347 Fax 44 0 1242 251388 Email jchubb jci co uk Web http www jci c
24. l be found that this surface voltage reading before the start of the event of interest has a zero offset This can be compensated in the File parameters window before clicking Apply Voltage values displayed are interpreted as surface voltages as 4 JCI Graph v2 2 4 August 2009 observed by a JCI 140 at 100mm on the 2kV FSD range i e 1V of surface potential gives 1mV signal output The graphical presentation may be modified via the Parameters key on the toolbar and then either the Analysis or Display options The Analysis option provides the option to measure decay times to a chosen end of the initial peak voltage in addition to the 1 e value built into all analyses Charge decay measurements may be set to start either at the peak of the initial voltage or a selected time after the end of the corona period Experimental comparison between charge decay and capacitance loading results based on corona charging and tribocharging show 4 that a time of about 100ms after the end of corona charging is the most appropriate time to start analysis This is because it takes at least this time for surfaces to separate in manual charging actions and for surface charges to provide and influence nearby The form of the decay curve is conveniently shown via the display of local decay time constant values Values are shown relative to the right hand axis on the graphical display The percentage change of surface voltage over which the local
25. lysis g Where the local decay time constant t comes to increase linearly with time t the time constant t will increase from an initial time constant To at the intercept on the t 0 axis as T To t dt dt The governing equation can be written in terms of the surface voltage as din 1 dt to kt D where k dt dt and to is the initial value of the time constant This approaches the standard exponential decay equation as k tends to 0 Equation 1 has the solution readily verified by taking logs and differentiating D 1 D l kt r s As k tends to zero equation 2 tends as it should to the standard exponential form for constant Tp Rearranging equation 2 gives T t 1 wi 265 e Where e 2 718 for decay to 1 e and 10 for decay to 10 note the ratio is initial voltage over final Numerical values for these decay times are to be obtained from best straight lines fits to experimental data to give To and k 3 Comparison of theory to experimental observations Analysis provided by Harold Walmsley Shell Technology Centre Thornton PO Box1 Chester CH1 3SH 14 JCI Graph v2 2 4 August 2009 As was noted above and is illustrated in Figure 1 that the linear increase in local decay time constant only starts after an initial settling down period Analysis must hence be restricted to the time after this and the time of this point added on to the calculated decay ti
26. mes to give the total predicted time to 1 e and or to 10 A number of charge decay records have been analysed where there is opportunity to compare predictions with actual decay time measurements The results show that decay times can be predicted with some confidence even though the accuracy is not high An example of straight line fitting is shown in Figure 2 with the results of three predictions shown in Table 1 The accuracy of prediction is likely to be dominated by the accuracy of fitting of the straight line to the variation of local decay time constant after the initial settling down period Accuracy could be estimated from analysis of the fitting errors and will improve as the period of fitting increases In conducting practical studies this might be used as a way to decide how long it is necessary to proceed with individual charge decay tests 4 Conclusion An approach has been described that provides a way to predict charge decay times to 1 e and or 10 from periods of testing that are appreciably shorter than these times This is of considerable value in the testing of materials where charge decay times may be up in the range 10 to 10 seconds Table 1 Comparison of predictions and actual decay times for JCI 155v5 Date Test I e l e 10 10 predict actual predict actual 26 03 08 39504 874 913 26 03 08 39505 762 755 27 05 08 39615 718 795 15 JCI Graph v2 2 4 August 2009 Variation o
27. ng decay time materials it is generally observed that after a short initial settling down period the 7 JCI Graph v2 2 4 August 2009 local decay time constant increases linearly with time 4 Where this is true it provides opportunity to predict the time to achieve certain end points from studies over modest test periods for materials with inconveniently long decay times An approach for this prediction is outlined in Annex 3 8 The percentage change of surface voltage over which the local decay time constant values are calculated can be set via the Parameters key in the main display and then via Analysis parameters A small step will give more detail in the form of the variation but a greater susceptibility to noise The numerical values of calculated local decay time constants and displayed on the graphs can be accessed in the csv file that can be created by clicking the Make csv key in the File parameters box The axis for graphical display of local time constant values right hand axis may be selected to be quasi logarithmic or linear via the Parameters and Display parameters menu boxes from the main graph This is illustrated in Figure 8 6 Transfer to other Windows programs The graphs and text boxes of numerical decay details can be copied individually to Windows programs such as wordprocessing programs This is implemented via the Display and Copy to document buttons If graphs
28. o uk 12 JCI Graph v2 2 4 August 2009 Annex 2 Column headings in summary table created by JCI Graph Run Description Time Ve tc s Vstart t pk to 1 e t pk to Q nC CL T C RH Serial Date CondQ nC IndQ nC Pre V V peak t delay s The number allocated in sequence for this JCI 155v5 instrument A description of the material tested can be entered in JCl Graph Time of test run hours minutes seconds from instrument clock Corona voltage volts Duration of corona s The initial surface voltage volts at which analysis starts Time to 1 e of initial peak voltage s if this level reached Time to selected of initial peak voltage s if this level reached Selected of initial peak voltage Quantity of corona charge transferred nC Capacitance loading Temperature measured within JCI 155v5 Relative humidity measured within JCI 155v5 Serial number of JCI 155v5 instrument Date of testing Quantity of conduction charge measured by JCI 176 if connected Quantity of induction charge measured by JCI 176 if connected Surface voltage on sample surface before start of test run The initial peak voltage The time delay between the end of charging and the start of decay time analysis Note If JCI 176 is not connected then no charge is measured and Q nC CL CondQ nC and IndQ nC are all zero If the quantity of charge received by the JCI 176 is larger than measurement ca
29. ons between pin positions If an extension cable must be used a ribbon cable is suggested to ensure no transpositions 4 2 Serial link up When JCI 155v5 via serial link is clicked as the Source a Destination menu appears as shown in Figure 4 This allows selection of the drive and the folder to which data will be stored or creation of a new folder The folder previously used is remembered but an alternative may be selected as desired Note It is suggested it will prove useful to use separate folders to hold data files rather than in with the source exe program 4 3 Start Run Check that the JCI 155v5 instrument is serial linked and switched on has suitable test conditions selected on the instrument and has a sample ready in position If the JCI 155v5 is being operated by a mains supply then its operation will be switched on by the Start run request When ready click the Start run key at the bottom left hand corner of the Select for display box The box over the graph display advises on the status of the serial communications link and the progress of preparations for a test run This condition is illustrated in Figure 5 When the run has started a bargraph appears advising on how long it will be before the graphical display appears This indication is desirable because it is not possible for the JCI 155v5 instrument to start transferring run data until after completion of the initial fast data record
30. ove Display Hide Close Figure 3 Display showing Select for display of JCI 155v5 files with source options 250 200 Y 150 aof 1362 1363 is a Source J155 v5 files C JCI155 v5 via serial link C JOSS v4 files Pico files c EIA Documents and Settings John Chubb My Documents JCHGraph Data Flle Display Serial link Parameters Help JCI 155 Charge Decay Test Unit t sec tconst 0 25 5 75 10 125 15 175 20 225 25 275 30 325 sec Ga aa ee 7 rp 00001350 jc5 Selected Files 00000020 00001362 00001363 Displayed Files 00001362 00001363 Remove Display Hide Close File Parameters FFile AyDocuments JCFGraph Data 02122047 2003 04 25 00001 382 5 Description Update Make csv Fun setings JciT 85V5 Charge Decay Run Serial 02122047 run 00001362 Date 25 04 2003 at 15 51 53 display from _ PPE P4 0 05078 Corona Voltage 4500 5 Co 0 00886 displayto Hone ime 32 771 Full Range EJ Voltage v zero shift 0 display high 301 53 display low 1 3393 Full Range Time sec Surtace Temp C 28 Surface RH 34 32 Analysis results Capacitance loading 16 1089 m Figure 4 Display showing graphs for two selected files with File Parameter information The graphs show both the decay of surface voltage left hand axis and the variation of local d
31. pability it is shown as H HHHHH 13 JCI Graph v2 2 4 August 2009 Annex 3 ANALYSIS OF LONG CORONA CHARGE DECAY TIMES 1 Introduction Assessment of the electrostatic suitability of materials by observation of charge decay is most directly made in terms of the decay time to 1 e or to 10 of the initial peak surface voltage achieved at the end of the charging action 6 For materials with decay times up to 1000s or so this is fine but for many materials notably pharmaceutical powders and electrostatic paint powders decay times may be up towards a million seconds It is not usually convenient to pursue observations over such times The present analysis is concerned with the opportunity to predict decay times to chosen end points from observations over a more limited timescale It is observed in most corona charge decay studies that the rate of charge decay slows up during the progress of charge decay 2 Figure 1 shows an example What has been clear from studies on a wide variety of materials over many years is that after an initial settling down period the local decay time constant increases linearly with time This is an empirical result and no theoretical backing is offered at this time On the basis of this behaviour it was recognized it is possible to predict decay times to 1 e or to 10 from observations that only extended far enough to provide a period of good quality linear variation of local decay time constant 8 2 Theoretical ana
32. ssed by clicking the run number below the graph to show the File parameters display This will include measurements of the quantity of charge transferred and the calculated value of the capacitance loading The graphical display can be handled in just the same way as for graphs obtained from stored data and as described in Sections 3 4 and 3 5 above 4 6 Stop run A test run may be stopped by clicking the Stop run button at the lower left hand side of the Select for display menu box if this is not greyed out or via the Serial link menu option This will stop operation of the JCI 155v5 with storage of all results to the memory card and to the selected folder 5 Analysis of results The main outcome from operation of JCI Graph is the graphs of the charge decay curves and the numerical values for the decay times to 1 e to a selected and for the capacitance loading Also included is the display of how the rate of decay varies during the progress of decay Experience from manual tribocharging studies 4 indicates that it takes about 100ms after the end of charging for the rubbing surfaces to separate and for the surface voltage to reach a peak value In the light of this it is appropriate to use a similar time after the end of corona charging for selecting the initial voltage on which analysis of decay curves is based The form of decay curves before this time may well still be of interest but is not directly relevan
33. t printing and then a copying the graph possibly at a slightly reduced size to the top of the page followed by b copying the text information This is illustrated in the example appended References 1 J N Chubb New approaches for testing materials J Electrostatics 54 March 2002 p233 Proceedings ESA Annual meeting Brock University Niagara Falls June 18 21 2000 This paper is available on the JCI Website at http www jci co uk Papers ESA MaterialTesting pdf 2 J N Chubb Measurement of tribo and corona charging features of materials for assessment of risks from static electricity IEEE Trans Ind Appl 36 6 Nov Dec 2000 p1515 1522 Presented at IEEE IAS Meeting Phoenix Arizona Oct 1999 This paper and copies of the overhead transparencies used are available on the JCI Website at http www jci co uk 3 Method to test the electrostatic suitability of materials Document considered by British Standards GEL101 to progress towards becoming a British Standard July 2004 Available on JCI Website via www jci co uk List html JCI Graph v2 2 4 August 2009 4 J N Chubb Experimental comparison of the electrostatic performance of materials with tribocharging and with corona charging Available on JCI Website via www jci co uk List html 5 Method for testing the electrostatic suitability of materials Draft prepared for British Standards GEL101 committee On JCI Website at http www jci co uk
34. t to using corona studies to predict the performance of materials in practice 5 6 The graphical display may be adjusted in various ways to best show features of interest Options are provided via the analysis menu section for starting decay time analysis at the initial peak of surface voltage or at a set time after the end of corona charging The inherent mechanical time in the JCI 155v5 for the observed surface voltage to reach a peak is about 20ms If the delay is set to something less than this say 10ms then decay time measurements are made from the peak initial voltage Decay time analysis always includes measurement of the decay time to 1 e of the chosen initial voltage The analysis section enables a second end point level to be selected and a value of 10 is set as the default It has been noted that the variation of local decay time constants provides a good way to compare decay curves between materials for different test conditions with different initial voltages and different charge polarities The local decay time constant reflects the rate of decay per unit of surface voltage at that time It is derived as the time constant for the best fit exponential curve for each of a number of small segments of the decay curve i e as if each of these segments was an exponential It has been observed in a number of studies that local decay time constant values increase appreciably during the progress of charge decay 7 With lo
35. urced data the Run settings area will be blank The File parameter display panel provides opportunity to enter an alphanumeric Description for that particular test run When this description is added it will also appear in the text information that may be printed out to accompany graphs and is entered into the csv results summary file The description last used is stored and is made directly available for acceptance or editing for subsequent test runs Acceptance can be by clicking the accept key or hitting Return Details from other sources can of course also be copied into the Description box using lt CTRL gt C to copy the details to the clipboard and then lt CTRL gt V to paste to the desired location This File parameters panel also provides opportunity to make the whole set of data describing the test to be made available as a csv file by clicking the Make CSV button in the File parameters box The zero voltage of graphs may be adjusted in the File parameters window to take account of any offset thought to be present The default zero shift voltage is zero With observations recorded into txt files using Picoscope or Picolog software then JCI Graph finds the last highest peak voltage and puts this at time zero The graph shows the variation of surface voltage for the 1s preceding the peak and it assumes for analysis that the pre event surface voltage was close to zero It may wel
36. v5 files JCI55 v5 via serial link C JOSS v4 files Connected C Pico files Port COM1 Destination e ca 4 J DSR amp Documents and S Mad E John Chubb e Selected Files E My Documents a Surface Volt 0 21 ax te Not extracting lobal Displayed Files Preparing to transfer RENAN j Siana Stop Run Select Remove Display Hide Close L td File Display Serial link Parameters Help JCI 155 Charge Decay Test Unit D E a Da Figure 6 Display showing serial connection status after clicking Start run 19 m JCI Graph v2 2 4 August 2009 amp Select for displ Ey x 2 Source Recycle Bin CuteHTML g x C JCNS5 v5 files j JCM195 v5 via serial link Selected Files C JONES v4 files Connected C Pico files 00000003 00000004 Destination SC Documents and S John Chubb E My Documents Ve Cm wv oad Port Internet Unused DSR Explorer Deskto COM1 Displayed Files 00000004 Mode Surface Volt D Not extracting Microsoft Global Outlook s Adobe Acrobat 5 0 amp 001895 x Change Start Rur Stop Run Remove Display Not transferring 0x JCI 155 Charge Decay Test Unit t sec t const 0 1 10 sec 40 60 File Parameters Vv gt l Te File 4yDocuments JCHGraph Data 0310209542003 10 28 00000004 jc5 Voltage v Description Updat
37. y card and the jc5 files created at Extraction are not directly useable Opportunity is provided when individual graphs of JCI 155v5 data are displayed to create a csv file that includes all the data describing that test run and this is then directly loadable into a Spreadsheet for numerical analysis and or graphical display A summary csv file is generated at the time of file extraction that includes details of all the main test conditions and results This is placed into the same directory folder as the data files This summary file can be directly loaded into a Spreadsheet such as Excel The date and time values stored in the data files are derived from the calendar clock in the JCI 155v5 instrument Operation of this clock is maintained by a long life battery The instrument serial number is incorporated into the microprocessor software data that is set up at time of manufacture and so cannot be changed These features ensure uniqueness of data file information The above Extraction from an ATA card can also take place from the memory card albeit rather slowly while the card is still in an instrument This achieved via an RS232 serial communications link as described in Section 4 2 3 4 Select Clicking on the Select for display option provides 4 choices ICI 155v5 files JCI 155v5 via serial link JCI 155v4 files Pico files Select JCI 155 v5 files to access existing v5 files alrea
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