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1. GPIB Previously measured data File Open Save Analysis Print Analysis Report Page 41 Low Frequency Emissions Analysis System User s Manual What Is Voltage Fluctuation Analysis A graph that represents transition of measured rms voltage including both positive and negative polarities with connecting a load or device to be tested is called U t In addition a graph that represents a collection of absolute deference values among each adjoining data points is called AU t Voltage V Vol tage Vavef orm Time Vol tage rns shape Time Ofference of Voltage rns shape Time Furthermore AUmax dmax AUc and dc are to be calculated by the following rules AUmax The maximum value of AU t dmax AUmax nominal voltage AUc Calculate from some of marked U t data You will have to mark some of U t data to get them de AUc nominal voltage Page 42 Low Frequency Emissions Analysis System User s Manual How To Get AUc and dc 1 Find one or more stable data portions on the U t graph and mark them 2 Get mean values of 1 second areas on which markings are placed 3 Get AUc values from adjoining differences 4 Get de values dividing each of AUc by nominal voltage How To Get AU t and d t lle Find at least one stable portions on the DU t graph and mark them 2 Define these values as DU t 3 Get d t values dividing each of DU t by nominal voltage U
2. Open An Existing Data You can read and analyse an existing data file after measurement To open a file select File Open menu Then a dialogue box that prompts you to decide a file name appears and then select a file extension SP2 After opening the file the measurement data will be displayed on the screen as well as after measurement Open 21x File name Folders F sp2 c kikusui Cancel yesh 3 kikusui E ha30 Network List files of type Drives DLinzo Data sp2 y Sc DynaLinzo has different file format and extension name between VER2 x or earlier and VER3 0 or later File extension of pre VER2 x was SP1 and post VER3 0 is SP2 The DynaLinzo 3 0 can read old SP1 files by converting the format One way Conversion SP1 gt SP2 Although the DynaLinzo3 0 can open old SP1 files there is no capability to save back to the SP1 The save format is always SP2 Even if you opened an SP1 file you cannot overwrite the SP1 format over it Page 24 Low Frequency Emissions Analysis System User s Manual Chapter 3 DynaLinzo Analysis Methods for data analysis are roughly divided into two ways to analyse instant harmonics data in a micro point of view to analyse totalling all the data in a macro point of view The former is called Instant Analysis and the later is called Total Analysis Instant Analysis This method is to analyse momentary data moving the time axis thro
3. 50Hz 60Hz Judgement Margin Sets margin against to judgement Although the margin setting itself does not affect the final judgement GOOD WARNING BAD a margin line will be displayed on every Harmonics Transition graph Harmonics components that exceed the margin line are also reported in the final analysis reports Page 12 Low Frequency Emissions Analysis System User s Manual Detail Settings Test Conditions r Class C Options ae Definition 7 25W or below easured 3 s ecified Judgement Options WattagolW 100 0 Help T Ignore over 19th if gently fall Soran Curr and PF I Ignore under 5m or 0 6 here NUERA Tonta over boow Spee ery 10 000 PF 0 800 Standard Detail Measurement Memo F Ignore 50W or below J Ignore 75 or below Sets items that are optional for a specific class Depending on the class you have selected in above section items corresponding the class will be automatically selectable In addition these settings can be changed even after measurement 25W or below Europe 35W or below Japan This option can be chosen in Class C only This option is labelled as 25W or below if choosing Europe IEC standard or 35W or below if choosing Japan Guideline Checking this option declares that your EUT equipment under test is an instrument which is 25W or below otherwise 35W or below If checking 35W or below you can also choose the Self ballas
4. ERR 1010 Synchronisation of the PCR L is unlocked Check the synchronisation cable A synchronisation cable between HAOIF and PCR L might be disconnected ERR 1011 Over range detected Please change the HA01F setup One of peak current has exceeded its range setting value Change the HAOIF setting in the test condition setup and then try again ERR 1015 Wattage value must be between 0 1 and 99999 9 The specified wattage value is not correct ERR 1016 Power Factor value must be between 0 001 and 1 000 The specified power factor value is not correct ERR 1017 Fundamental Current value must be between 0 1 and 99999 9 The specified fundamental current value is not correct ERR 1100 Insufficient memory Quit other needless applications and then try again There is insufficient memory If other applications such as word processor is working at a time quit them to increase free memory capacity If the problem couldn t be solved by doing so try to restart Windows ERR 1103 This program must be run under 386 Enhanced Mode Your Windows seems running under Standard Mode This program requires 386 Enhanced Mode environment To check current operation mode choose Help About menu from Program Manager ERR 1104 File not found XXXX The file you attempt to open is not found XXXX denotes an actual file name ERR 1105 Cannot access xxxx The file may be locked by other software or insufficient disk space File ac
5. Untitled Toolbar Menu commands that are frequently used are arranged See the on line help for more detail about each button Status Line Actual time for data measurement is shown on it Now you can measure and analyse fluctuating harmonics current Every window illustrated in the above picture is fundamental and shown as default when startup time of Flicker Analyzer Page 69 Low Frequency Emissions Analysis System User s Manual Chapter 8 Flicker Analyzer Measurement Test Condition Settings What you should do first for measurement is set each item about how to measure Every item cannot be changed after the measurement is done The test condition setting has to be done on the Test Condition dialogue box Test Conditions xi m Standard IEC 61000 3 3 Voltage Y e Frequency Hz HA0O1 Settings Range Measurement Time h min vor BA Current A 128 5 Shunt mohm fi E M Filter M AC Coupling Line Impedance None THRU z Cancel Help Select the Measure Test Conditions menu Then the Test Conditions dialogue will be shown Items in the test conditions are roughly divided into two parts as described in subsequent sections Standard Settings HAO Settings Standard Settings As standard settings you specify a standard that is applied to your measurement and analysis Voltage As a nominal voltage of device to be teste
6. C HA30 PRINTER SP2 Show or hide the Waveform window This window displays current waveform The X axis indicates time and the Y axis indicates current value peak respectively This window is displayed as default but you can show or hide it operating View Waveform menu In addition there is another functionality that enables you to identify class A and class D zooming up the current waveform shapes We will explain about this at the section Class Identification Phase Window DynaLinzo 3 0 C HA30 PRINTER SP2 Show or hide the Phase window Page 29 Low Frequency Emissions Analysis System User s Manual This window represents phase difference for each harmonics component referring to voltage phase of the PCR L output The X axis indicates the order of harmonics and the Y axis indicates phase difference respectively The unit is deg t means phase lead and means phase lag This window is displayed as default but you can show or hide it operating View Phase menu Note In test condition settings the smaller the Sample Points is the worse the fidelity of the phase data becomes In addition immediately after changing the Sample Points setting some measurement error may be generated since internal processing cannot get stable soon Then restart the measurement Average Harmonics List Window Ta DynaLinzo 3 0 C HA30 PRINTER SP2 Harmonics List 2D Spectrum 3D Spectrum Pha
7. Select the Measure Test Conditions menu Then the Test Conditions dialogue will be shown Items in the test conditions are roughly divided into two parts as described in subsequent sections Standard Settings HAO Settings Standard Settings As standard settings you specify nominal voltage and nominal frequency of your product or device to be tested Voltage As a nominal voltage of device to be tested choose from the following 100V 200V 230V Page 46 Low Frequency Emissions Analysis System User s Manual Frequency As anominal frequency of device to be tested choose from the following 50Hz 60Hz HA01 Settings Sets items for measurement or settings of HAO1 Range Select range settings on Voltage rms Current peak and Shunt Resister of the HAO1 unit Valid ranges are described in the following table Make sure to correctly set the short bar of the Current Range Selector or cabling of the Current Sensor of the HAO1 unit for Shunt Resister setting Item Range Voltage Vrms 20 40 80 160 320 600 Current Apeak 1 2 4 8 when 8 mQ shunt 2 4 8 16 32 when 4 mQ shunt 8 16 32 64 128 when 1 mO shunt Shunt Resistance mQ 1 4 8 Note Make sure to agree the setting of Shunt Resistance in application with actual setting of HA01 Otherwise you will not get assurance of measurement data Measurement Sets the measuring time Filter Sets the use of anti a
8. The operation block of this program is roughly divided into following two blocks and results from the Simulation Block are PF values Simulation Block that numericalizes measured data simulating sight characteristics of human s eyes Included in HAO unit Statistical Evaluation Block that does statistical transaction and evaluates measured data Pf value Measurement Data Measurement Progression In the Flicker Analyzer application PF values in measurement will be displayed on time transition graphs Note that there are two types of graphs 10 second transition and 10 minute transition that display a 10 second Frame and a 10 minute Segment respectively Frame and Segment are terminology defined in this application but the IEC standard A frame is a block of 10 second duration in a series of data and a segment is a block of 10 minute duration The 10 second transition represents measured data in a frame and 10 minute transition represents measured data in a segment allowing you to view gentle variance of flicker data Pf Time ens Time 10 seconds 10 minutes 10 second Transition 10 minute Transition Pf Page 66 Low Frequency Emissions Analysis System User s Manual The program also draws a histogram chart that totals measured PF values This characteristic is called Cumulative Probability in the IEC standard This graph will continue to grow in every 10 second while measurement progresses The system calcula
9. This window represents current waveform as if a digital oscilloscope The X and Y axes indicate time and peak current values respectively In addition there is a functionality that classifies your products into class A or class D zooming the waveform We will discuss this topic later Caption Bar Title of the window Actually a file path name associated with measurement data is shown If no file name is assigned the title will be Untitled Toolbar Menu commands that are frequently used are arranged See the on line help for more detail about each button Status Line The operation mode and current frame position are shown on it For more information about frame see Chapter 3 DynaLinzo Analysis Now you can measure and analyse fluctuating harmonics current Every window illustrated in the above picture is fundamental and shown as default when startup time of DynaLinzo Page 10 Low Frequency Emissions Analysis System User s Manual Chapter 2 DynaLinzo Measurement Test Condition Settings What you should do first for measurement is set each item about how to measure and how to judge After setting each item you can begin the test The test condition setting can be done on the Test Condition dialogue box Some items in setting can be changed even after the measurement has been done Select Measure Test Conditions menu and then the Test Conditions dialogue will appear This dialogue box can also b
10. ERR 231 GPIB read error in device XXX Please check GPIB cable connection and driver setup A communication error has been generated at reading step to a GPIB instrument Please confirm that the GPIB cable is correctly connected HAO1 is turned on and GPIB address is correctly set Error Messages From DynaLinzo ERR 1002 The max value of vertical axis must be 0 1 or greater The axis setting for 2D Spectrum and 3D Spectrum is invalid Enter a value 0 1 or greater as the maximum value ERR 1003 Frame number must be between 1 and N Frame number is not correct at the frame jump operation Enter an integer value between 1 and N that depends on the situation ERR 1004 To value must be greater than From value or the same Frame range is invalid End of frame No to save as CSV format must be greater than beginning frame No or the same ERR 1005 Division of the axis must be between 1 and 10 The axis setting for 2D Spectrum and 3D Spectrum is invalid The value for division of axis must be an integer greater than zero ERR 1006 Harmonic order must be between 1 and 40 Invalid order number for harmonics You can specify 1 through 40 ERR 1009 Overheat detected Please shutdown the output from the power supply There is a possibility that a shunt resistance connected to the HAOIF has an overheat problem Please quickly shutdown the PCR L output Page 88 Low Frequency Emissions Analysis System User s Manual
11. Low Frequency Emissions Analysis System User s Manual This window has an option setting that enables to set up the maximum value and number of division for the Y axis Selecting View Axis Setup For 2D 3D menu invokes Axis Setup For 2D 3D dialogue box prompting you to enter appropriate values As for the Max Value you can enter 0 1 or any larger numbers As for Divisions while you can any integer number over zero numbers not matching with 1 2 5 step and extremely large numbers are not recommended Vertical Axis OK bgl navani ju Lox es Cancel Divisions E elp 3D Spectrum Phase A Waveform Average Harmonics List Axis Setup For 2D 3D Transition Histogram Show or hide the 3D Spectrum window The 3D Spectrum is a multiple representation of the 2D Spectrum adding the time axis Z axis The most front column of the 3D spectrum chart designates the same data as that of the 2D and Harmonics List Ten frames in total accompanied by time passage are also shown backward the most front data In advance of time or in advance of frame browsing later data are coming from back to front on the screen This window is displayed as default but you can show or hide it operating View 3D Spectrum menu Colour expression is almost the same but white lines that represent allowance levels are not shown Page 28 Low Frequency Emissions Analysis System User s Manual Current Waveform Tis DynaLinzo 3 0
12. Page 14 Europe IEC Low Frequency Emissions Analysis System User s Manual Measured Calculates the max value over the entire test period and defines it as the WATTAGE Specified If a measured wattage value per frame DFT Window is within 10 range of the SPECIFIED value the measured value is used as the WATTAGE Otherwise when out of the range the max value over the entire test period is used as the WATTAGE Japan Guideline Measured A measured wattage value per frame DFT Window is used as the WATTAGE Specified The specified wattage value is used as the WATTAGE for all the frames Fundamental Current amp Power Factor Definitions This option is enabled only if Class C In the Class C judgement the fundamental current 1st current value and power factor are concerning In this case the definitions of each value are shown as below Europe IEC Japan Guideline Measured Measured values per frame DFT Window are used as the FUNDAMENTAL CURR and POWER FACTOR Specified The specified FUNDAMENTAL CURR and POWER FACTOR values are used for all the frames Measurement Settings Range Measurement Voltage Y 320 El Sample Points 256 El Current A sg DFT Window EN E _ Cancel Shunt mohm T Time s fiso f Ho F Filter F AC Coupling Line Impedance Next Page None THRU xl Standard Detail Measurement Memo This
13. This operation will continue perpetually until you explicitly stop the measurement Page 19 Low Frequency Emissions Analysis System User s Manual Restrictions In Trial Mode Unlike Analysis Mode since no measurement data are recorded in the Trial Mode any data will be gone after the measurement Thus there is no activity on the 3D Spectrum window and any total analysis data cannot be represented Displayed on the application are only Harmonics List 2D Spectrum and Phase windows For more information about each window type see Chapter 3 DynaLinzo Analysis Return To Analysis Mode Select Measure Analysis Mode menu to return to Analysis Mode DynaLinzo defaults its operation to Analysis Mode when startup When Abnormal Measurement Termination DynaLinzo will abandon measurement when the system has been encountered with one of the following events GPIB Line Problem Synchro Cable Problem among PCR L and HAO1 Over Range Overheat GPIB Line Problem If an abnormality has been generated on the GPIB line for instance when the cable has been disconnected or when the supply of HAO1 has been suspended measurement will be suspended displaying an error message Synchro Cable Problem among PCR L and HA01 A synchronisation clock signal must be always applied from the PCR L AC supply to the HAO unit in order to measure harmonics accurately This signal is very important and associated with measurement ess
14. V Frequency go DO B2 Measurement time 40 s Volt Range 160 V Curr Range 16 A Shunt 4 mohm Line Impedance Z3 0 4ohm 30 250hm Maximum Voltage change A RIN Maximum relative voltage change LIII Voltag Shape U t Marking List 521 581 94 0 014 014 Voltag change dU t Marking List Signature Page 99 Low Frequency Emissions Analysis System User s Manual Flicker Analyzer Report Printing Example Operators Info Operator Model Memo Condition Standard Voltage Frequency Measurement Time Volt Range 160 V Line Impedance Z3 Pst Results Segment Duration Flicker Analyzer 95 04 25 15 00 IEC 61000 3 3 230 V 50 Hz 02 00 h min Curr Range 128 A 0 4ohm 30 250hm Signature Page 100 Low Frequency Emissions Analysis System User s Manual Appendix 4 Software Specification System Requirements Personal Computer PC compatible which runs PC compatible which runs Windows 3 1 3 11 Windows 3 1 3 11 Windows For Workgroups 3 11 Windows For Workgroups 3 11 Your PC shall have enough power to Your PC shall have enough power to run the OS you use run the OS you use CD ROM drive CD ROM drive 640 x 480 x 16 colour system or better 640 x 480 x 16 colour system or better GPIB card National Instruments GPIB card National Instruments GPIB card Disk space to install Approx 2Mbytes Additionally Approx 2Mbytes Additionally 11Mbytes 11Mbytes needed
15. up to 500 bytes no automatic line feed Cancel ae _Next Page Page Standard Detail Measurement Memo You can input up to 500 letters 250 letters when using Asian characters as a memo text for the test The contents will be shown in the report printings Start Measurement After the preparation has been done you can start measurement To begin the measurement the HAO1 unit needs to be controlled through the GPIB So if it is the first time to connect GPIB you might need to confirm that GPIB environment is configured properly Page 17 Low Frequency Emissions Analysis System User s Manual GPIB Setup To connect an external GPIB instrument such as HAO1 unit first you must specify a GPIB device just like specifying an MS DOS file name The application software communicates with an external instrument through the GPIB with a device name So if you are the first time to use GPIB functionality in the application you have to set up the GPIB environment To confirm or change the GPIB setting select Options GPIB Setup menu Then GPIB Setup dialogue will appear prompting you to enter a GPIB device name Note that what you should enter here is a GPIB device name instead of its address GPIB Device Name is normally configured by the driver of National Instruments GPIB Immediately after the installation of this system the default device name is DEV1 The National Instruments GPIB driver also defaults device
16. Change d t Window This window represents relative values of above mentioned Voltage Change delta U t graph Steady State Window This window represents a list of steady state data Page 44 Low Frequency Emissions Analysis System User s Manual Caption Bar Title of the window Actually a file path name associated with measurement data is shown If no file name is assigned the title will be Untitled Toolbar Menu commands that are frequently used are arranged See the on line help for more detail about each button Status Line Actual time for data measurement is shown on it Now you can measure and analyse fluctuating harmonics current Every window illustrated in the above picture is fundamental and shown as default when startup time of VF Analyzer Page 45 Low Frequency Emissions Analysis System User s Manual Chapter 5 VF Analyzer Measurement Test Condition Settings What you should do first for measurement is set each item about how to measure Every item cannot be changed after the measurement is done The test condition setting has to be done on the Test Condition dialogue box Test Conditions x m Standard IEC 61000 3 3 Yoltagel FEDE Frequency Hz HA0O1 Settings Range 7 Measurement Time s Voltage Y fazo E fiso F Current A fie E a Shunt mohm ja E J Filter J AG Coupling Line Impedance None THRU xl Cancel Help
17. Manual T VF Analyzer C KIKUSUI HA30 SAMPLES VACUUM VF1 File View Measure Tools Options Window Help era 08 e MI 4 120 a pM a Time 19 87 s Data 95 655 Vims 95 626 V Irms 8 762 A Ipk 15 067 A Power 814 837 W Y 2 E 120 Relative Voltage Change d t ioj x 2 20 0 20 150 s gt 120 150 s y Time 25 39 s Data 95 263 V Vims 95 248 V Irms 9 522 A Ipk 16 850 A Power 876 538 In this window since markings must be done to get Steady State data you should not mark groundless portions Instead you have to mark portions that voltages are stable and flat on the graph Contents represented in Steady State are voltage differences by these markings Each data includes corresponding marking number time difference and voltage difference In addition note that voltage data of a marking is not a centre value but a mean value among 0 5 seconds from the centre The 0 5 second area is the same width of a circle marking shape The width of a circle shape is equivalent to 1 second Marking Of Voltage Ratio Shape U t Uy In marking of Voltage Ratio Shape markings are just results of the final analysis report Data differences between each marking are also calculated 23 Zoom Voltage Ratio Shape U t Un n Time 19 76 s Data 95 597 V Vrrns 95 655 V Irms 8 770 A Ipk 15 501 4 Power 815 817 W 2 120 Page 60 Low Fr
18. Measure Frame Tools Options Window Help v Flicker Transition 10s fm Flicker Analyzer C KIKUSUINSHA30 SAMPLES 2HOURS FK1 Flicker Transition 10min ERB RP esteem Dies eet Results 1 min s 00 00 00 02 00 D4 00 06 00 08 0010 z Show or hide the Flicker Transition 10s window This window represents transition of PF values in a frame The X axis indicates time elapsed from the beginning of the measurement and the Y axis indicates the PF values However the X axis time axis displays only minute and second units but hour units Be careful when you read the X axis if you do measurement more than one hour Flicker Transition 10min Segment icker Analyzer C KIKUSUISHA30 SAMPLES 2HOURS _FK1 Flicker Transition 10s Cumulative Probability v Flicker Transition 1 h min 00 00 00 02 00 04 00 06 00 08 00 10 g Show or hide the Flicker Transition 10min window This window represents transition of PF values in a segment The X axis indicates time elapsed from the beginning of the measurement and the Y axis indicates the PF values However the X axis time axis doesn t display second unit portion Page 78 Low Frequency Emissions Analysis System User s Manual Cumulative Probability Th Flicker Analyzer C KIKUSUISHA30 SAMPLES 2HOURS FK1 File Measure Frame Tools Options Window Help ition 10s ty Y Cum y Flicker Transition 10min Results Axis Setup 100 1000 10000 Show or hid
19. driver of National Instruments GPIB Immediately after the installation of this system the default device name is DEV1 The National Instruments GPIB driver also defaults device names DEV1 through DEV16 with which device address 1 through 16 are associated for each So typically the GPIB address of HAO1 will be okay if it is set to 1 However note that it might differ depending on the configuration of GPIB environment GPIB Setup xi GPIB Device Name ok Cancel Help Page 72 Low Frequency Emissions Analysis System User s Manual Start Measurement To begin the measurement select Measure Run menu Once the measurement has started either elapsed time or remaining time will be indicated in a popup dialogue If you want to suspend the measurement due to some reason you can just click the Cancel button to stop it Now measuring flicker data 00 00 03 elapsed Unlike DynaLinzo and VF Analyzer applications there is no functionality of external trigger on the Flicker Analyzer Applying a trigger signal onto the EXT TRIG terminal causes not only meaningless operation but also breaks measurement session itself So you should not apply any external trigger signals during flicker measurement This program downloads flicker data in every 10 second while the measurement is running Displayed in windows are the latest data that correspond to measurement progress Begin A New Measurement There are severa
20. here is the amount of frames To do the distribution analysis select View Histogram menu Then a dialogue box that prompts you to select a data item Page 33 Low Frequency Emissions Analysis System User s Manual Histogram Selection Wh coe Order r 3 Here you only need to select an order from within 1st through 40th Unlike transition charts items that can be displayed as histograms are harmonics components only As an example we show the histogram chart for the 7th order harmonic DynaLinzo 3 0 C HA30 PRINTER SP2 META Measure Frame Tools Options Window Help Harmonics List E RA A FS ES 3D Spectrum Phase Waveform Average Harmonics List Axis Setup For 2D 3D Transition 100 150 200 250 300 350 400 450 500 550 y Show a Histogram window The chart is shown in colour representing results Chart Colour Description Judgement Green Measured Data is within allowance level of the GOOD standard or there is no allowance level Yellow Measured Data exceeds 100 of allowance but is WARNING within 150 Red Measured Data exceeds 150 of allowance level BAD Note The histogram functionality considers up to 900 in calculation but displayed up to 600 Page 34 Low Frequency Emissions Analysis System User s Manual Waveform Judgement Assistance Current Waveform Evaluation If you choose Japan mode Harmonics Guideline it may be hard to classify your product or device to be tested into a
21. i Lx File name Folders a c kikusui ha30 samples dryer vf Ayes Eme vacuum vf1 y kikusui 3 ha30 amp samples List files of type Drives Voltage Data vf1 y Sc X Page 53 Low Frequency Emissions Analysis System User s Manual Chapter 6 VF Analyzer Analysis Unlike fluctuating harmonics analysis you have to do most things all by yourself in voltage fluctuation analysis However it is not true that you need to do all the troublesome calculations yourself Since indispensable data portions for analysis cannot be identified by the VF Analyzer itself you have to specify these portions manually This operation by hand is called marking and you only need to mark one or more indispensable portions as necessary Which portion you should mark is however very important You have to understand contents of each window type shown in VF Analyzer So we explain types of windows on which data is displayed first and then we discuss about marking in detail Types Of Windows Here we discuss about types of windows displayed in the VF Analyzer and how to operate them In the VF Analyzer there are five kinds of windows and some are displayed some are not as default Voltage Shape U t Window e Voltage Ratio Shape U t Un Window Voltage Change delta U t Window Relative Voltage Change d t Window Steady State Window Voltage Shape U t Window VF Analyzer C KIKUSUISHA30 SAMPLES VACU
22. names DEV1 through DEV16 with which device address 1 through 16 are associated for each So typically the GPIB address of HAO1 will be okay if it is set to 1 However note that it might differ depending on the configuration of GPIB environment GPIB Device Name for your Ez HAO1F PCR L DEVI zj Cancel Help Lx Start Measurement To begin the measurement select Measure Run menu item Once the measurement has started either elapsed time or remaining time will be indicated in a popup dialogue If you want to suspend the measurement due to some reason you can just click the Cancel button to stop it Measuring x Now measuring harmonic data 6 second s elapsed If you intend to measure with synchronisation with your device or other instrument apply a trigger signal to the EXT TRIG terminal on the HAO1 unit at this state This trigger timing will reset the internal timer However appearance of elapsed time or remaining time will not be reset After the measurement has been done all of the data will be automatically downloaded and will be displayed on the DynaLinzo screen Page 18 Low Frequency Emissions Analysis System User s Manual Begin A New Measurement There are several ways to perform a new measurement after previous measurement is already done Measurement With The Same Condition As Previous In this case you can just start the next measurement as well as the first time After m
23. on the ribbon grey area aligned at the top of the window instead of status line The contents of data are exactly the same as that of base window Although zoomed window cannot display entire data of 150 seconds at a time since its x axis is expanded beyond VGA screen width operating the horizontal scroll bar allows you to view entire scope Note What can be zoomed are Voltage Shape U t Voltage Ratio Shape U t Uy and Voltage Change delta U t windows In voltage fluctuation analysis not entire scope of data has to be analysed and totalled Giving focuses only to data portions you want to watch and marking them you collect and total for analysis picking them up It is also true as for analysis reports finally output Which portion should be marked has to be decided by yourself Since you can mark on a zoomed window you can set markings on the Voltage Shape U t window Voltage Ratio Shape U t Uy window and Voltage Change delta U t window The maximum number of markings is 20 No 0 through No 19 for each zooming Note that meanings of marking on each zoom window are slightly different So now we explain about difference among targets Marking Of Voltage Shape U t In marking of Voltage Shape markings themselves exactly make data of Steady State For example if you have marked four points each three adjoining difference will be displayed on Steady State window Page 59 Low Frequency Emissions Analysis System User s
24. output Once you have pressed this button the button will be kept pressed until you release this functionality again The setting state will be shown in ON or OFF indicator at the left side of the display panel Page 83 Low Frequency Emissions Analysis System User s Manual 200V This button turns on or off the 200V Range setting Once you have pressed this button the button will be kept pressed until you release this functionality again The setting state will be shown in 200V or 100V indicator at the left side of the display panel Note that you cannot change the range setting while the supply output is turned on Init This button returns the PCR L AC Power Supply to factory default state Initialising the supply will turn off the OUTPUT and 200V Range setting as well as returning Voltage and Frequency settings to default Settings You can set voltage and frequency as you want However there are some setting restriction due to the hardware of PCR L AC Power Supply Listed in the following table are valid range for voltage and frequency settings Item Valid Range Voltage 0 0 through 152 5 V in 100V range 0 0 through 305 0 V in 200V range Frequency 1 0 through 999 9 Hz in any range Monitor Setting Y PCR L Control Panel RMS RMS Voltage Monitor m Current Monitor Peak C Peak F Do Monitor Panel Monitor Setting GPIB Device This page enables or disables voltage and curren
25. results complying with harmonics standard How to do Total Analysis is described after the description of Instant Analysis Page 25 Low Frequency Emissions Analysis System User s Manual Types Of Instant Analysis Windows Here we discuss about types of windows associated with Instant Analysis and how to operate them In DynaLinzo there are six kinds of windows associated with Instant Analysis All types other than Phase Window are displayed as default Harmonics List Window 2D Spectrum Window 3D Spectrum Window e Phase Window e Current Waveform Window Average Harmonics List Window Harmonics List Window 3D Spectrum Phase Waveform Average Harmonics List Axis Setup For 2D 3D Trono i Histooram Show or hide the Harmonics List window Content of the window is a list that displays harmonics data at one moment as a numeric format Not only harmonics components situation data such as voltage or current is also shown This window is displayed as default and you can show or hide it operating View Harmonics List menu The list is shown as a spread sheet style and each cell of harmonics components is represented in colour so that you can distinguish the results of harmonics judgement as described below Page 26 Low Frequency Emissions Analysis System User s Manual Cell Description Judgement Colour Green Measured Data is within allowance level of the standard GOOD or there is no allowanc
26. section does hardware settings of the HAOIF These settings cannot be changed after measurement existing data once items If you want to change the settings you will need to clear all the We will discuss later how to restart measurement changing these Page 15 Low Frequency Emissions Analysis System User s Manual Range Select range settings on Voltage rms Current peak and Shunt Resister of the HAOIF unit Valid ranges are described in the following table Make sure to correctly set the short bar of the CURRENT SENSOR SELECTOR or cabling of the CURRENT SENSOR of the HAOIF unit for shunt resister setting Voltage range 20 40 80 160 320 600 Vrms 1 2 4 8 when 8 mA shunt 2 4 8 16 32 when 4 mQ shunt 8 16 32 64 128 when 1 mQ shunt Shunt Resistance 1 4 8 mQ Note Make sure to agree the setting of Shunt Resistance in application with actual setting of HAO1F Otherwise you will not get assurance of measurement data Measurement Sets Sample Points DFT Window and Measurement Time Sample Points specifies the number of sampling for each one cycle It affects fidelity of waveform data transfer speed and file size DFT Window specifies in window fundamental cycle number applied to Fourier Transformation It affects data transfer speed and file size In the harmonics standard it is normally 16 cycle when fluctuating harmonics are measured with rectangular windows Measurement Time spe
27. specific class Identifying class B and class C is easy since you only need to categorise your product to Portable Tools or Lighting Equipment However as for a product other than these categories you have to carefully decide which of class A and D your product belongs to The key of identification is current waveform shape Putting a special ruler on the waveform shape you will be able to expect it a little If you choose Self ballasted lamp in Japan mode Harmonics Guideline Class C or if you choose 25W option in Europe mode IEC you need evaluate peak phases of current waveforms In both cases you need evaluate waveform shape by viewing enlarged current waveforms The tool that can do is the Wave Viewer It is an independent program and doesn t run alone but associated with DynaLinzo To invoke Wave Viewer select Tools Wave Viewer menu Then the waveform actually displayed will be zoomed up in another window Note If no waveform data is included in the measurement data you cannot invoke Wave Viewer The Wave Viewer displays and analyses each of current waveform in a frame No waveforms crossing multiple frames can be shown If you want to view a waveform in other frames you need to return to DynaLinzo once move to another frame and then invoke the Wave Viewer again Assistance ruler lines will vary depending on the standard target region selection and or class you are selecting Class Identification When
28. types Analysis Report and Graph List Selecting File Print menu you can see the Print What dialogue box that prompts you to select what you are about to print Select items from the contents you can easily print out one or more items with one action If you have selected an analysis report the printing will not be executed soon but a Print Preview window appears instead If needed you can choose a printing font for report printings Note that available fonts listed in the Font Selection dialogue are TrueType fixed pitch fonts only To print the report select File Print menu Page 39 Low Frequency Emissions Analysis System User s Manual YY Print Preview OF x File Edit Document Date 22 Jans2001 11 14 You can enter Nihongo characters Conditions Standard Class IEC 61000 3 2 Class C Voltage 100 Y Frequency 50 Hz Test Period 150 s Margin 80 Total Frames 469 option Considering 25W or below Definitions Wattage Measured max value 934 3 W Power Factor Specified specified value 0 800 Fundamental Current Specified specified value 1 000 HA01H Hardware Settings Volt Range 160 Y Curr Range 32 A Shunt 4 mohm Sample Points 256 DFT Window 16 Line Impedance None THRU D Page 1 5 Notes If you have not installed any printer driver yet you should install it using Windows Control Panel The contents of printout of harmonics list are slightly different f
29. you choose Guideline target region Japan with any class rulers for class identification which are provided for each half cycle are placed on the window and the percentage of waveform containment is shown Since the window can show only one waveform at a time move the page focus on the waveform if you want to see other portions Page 35 Low Frequency Emissions Analysis System User s Manual 2 DynaLinzo Wave Viewer Frame 32 olx Identify Waveform Class A expected Cycle 1 16 You can also view the list which estimates an applicable class depending on the multiple waveform shapes in the frame Select Identify Class menu and then a dialogue box that includes a list of identification result will appear Class Identification x Class A less than 95 32 Class D 95 or more 0 a 2 En E EN a Ea 7 Eem Esa 1o In the dialogue the containment ratio of each current waveform inside the rulers is shown This is a list of totalling identification result for each waveform in a frame without regarding polarity Because DynaLinzo cannot offer any identification decision more than this you should decide which class your product under test belongs to all by yourself Phase Identification If you selected Class C Ignore 25W or Below with IEC std target Europe or if you selected Class C Ignore 35W or below Self ballasted Lamp with Japan Guideline targe
30. 00 00 00 02 00 04 00 00 00 02 00 04 00 06 00 10 pr y a 15 x 4 Aj Judge _ 100 80 KI 6 6 01 570 IB000318 NOV 2006 Low Frequency Emissions Analysis System User s Manual IBM is a registered trademark of International Business Machines Corporation Microsoft MS DOS and Windows are registered trademarks of Microsoft Corporation National Instruments is a registered trademark of National Instruments Corporation PKZIP is a registered trademark of PKWARE Inc TrueType is a registered trademark of Apple Computer Inc 1 2 3 and Lotus are registered trademarks of Lotus Development Corporation NI 488 and NI 488 2 are trademarks of National Instruments Corporation No part of the contents of this book may be reproduced or transmitted in any form or by any means Specifications of the product and contents of the user s manual may be updated without notifications Copyright 1994 2006 Kikusui Electronics Corporation All rights reserved Printed in Japan Page 2 Low Frequency Emissions Analysis System User s Manual Contents ESE EIO ALE O E N dere ea e Todo tee UTE COE OE OE 6 A O 6 A O 7 Chapter 1 DIN aLIRZO 200 da 8 IA A avs ode ste bt E A A E vaievuheg etsdaasesdsccedons T 8 What Is Fluctuating Harmonics Analysis coommnoconcccnnnnonnnnnnnnnnnnnnnrnnnnnnnnn nn nn sees rnnnnrn nn nrrn nn rnnnnnnns 9 RUM DYMALINZO a a a 9 Chapter 2 DynaLinzo Mesure NT ceccc
31. 1 4deg interpolation even if setting so therefore some sharp peak components may not be captured In this case try to check the output waveform from the CURRENT MONITOR terminal with a 2ch oscilloscope In concrete you check if there is the current peak before the 65deg phase point based upon the voltage zero cross as Odeg Set the oscilloscope to the dual channel mode use the voltage waveform as a trigger and then display the half period wave on the full screen Then confirmation for the peak location will be easy Read phase angle of the peak current with the screen grids as defining the voltage wave s half period as 180deg Page 37 Low Frequency Emissions Analysis System User s Manual Data Smoothing This functionality enables to show smoothed measurement data for each frame with a pseudo CR filter time const 1 5s The items which can be smoothed are harmonics voltage rms current rms current peak power apparent power power factor and distortion ratio Notes Smoothing function affects data display and standard judgement but does not affect file contents to be saved The stored data as an SP2 file is always unsmoothed raw measurement data The IEC standard Europe mode requires that all the judgements shall be performed with smoothed data Although it is possible to cancel the smoothing this action is not compliant with the IEC standard In contrast the Japanese Guideline does not mention about smoothing you
32. 297mm or Letter 8 5 x 11in in portrait orientation Printing on smaller papers than these makes your printouts cross two or more pages and is not recommended Operator Information As additional items for the report printings you can append information about an operator Choose File Operator Information menu Then the following Operator Info dialogue appears and fill out each item Operator Info xi Operator Model o Date Time 07703701 10 50 Cancel Help Page 82 Low Frequency Emissions Analysis System User s Manual Chapter 10 PCR L Control Panel Overview Panel PCR L Control Panel is a tiny program that works as if actual PCR L controller panel Using this program you can e Turn on or off the OUTPUT of supply Set Voltage Range to 200V or 100V Set Voltage and Frequency e Initialise the panel settings e Monitor actual voltage output rms or peak Monitor actual current output rms or peak The PCR L Control Panel has three tabbed pages and each has categorised functionality as follows e Panel Monitor Setting GPIB Device The Panel page of the program has a display that indicates settings and monitored values as if actual controller panel of PCR L AC Power Supply Y PCR L Control Panel AC MODE Settings Youn 100 Frequency 50 Panel Monitor Setting GPIB Device OUTPUT This button turns on or off the supply
33. C 61000 3 2 1PH L L OUT THRU Japanese Guideline 100V 1PH L L IN Japanese Guideline 200V 1PH L L IN Voltage Fluctuation Analysis VFA and Flicker Analysis Flicker Analyzer LIN Settings IMPEDANCE SELECT IMPEDANCE Standard Rear Front Both Standards 1PH L L IN Note IMPEDANCE SELECT Front IMPEDANCE SELECT Front Z3 These settings are applicable only to Kikusui Line Impedance Network LIN40MA PCR L If you are using other line impedance network such as LIN40M PCR L consult instruction manuals for each product Please refer also the instruction manual even using Line Impedance Network LIN40MA PCR L Page 86 Low Frequency Emissions Analysis System User s Manual Appendix 2 Error Messages Here we describe error messages generated from DynaLinzo VF Analyzer and Flicker Analyzer Error numbers are divided into several groups 220 Common error messages about GPIB 1000 Conventional error messages from DynaLinzo 1100 Fatal error messages from DynaLinzo 2000 Conventional error messages from VF Analyzer 2100 Fatal error messages from VF Analyzer 3000 Conventional error messages from Flicker Analyzer 3100 Fatal error messages from Flicker Analyzer Common Error Messages About GPIB ERR 220 Cannot open GPIB device device name It might be a device driver problem GPIB access has been corrupted at the initialisation step device name denotes an actual device name The
34. Data printings are also supported for both instant harmonics data and statistical harmonics data In Trial Mode the software measures in real time and displays measurement data on a graph However there s no functionality to print graphs and reports Setting Analysis Mode Trial Mode Measurement 2 5min continuous Realtime Measurement Data Transfer GPIB Previously measured data File Open Save Analysis Print ent Instant Analysis Total Analysis Data Data Page 8 Low Frequency Emissions Analysis System User s Manual What Is Fluctuating Harmonics Analysis The fluctuating harmonics analysis is to measure input current of an electric appliance and to analyse it cracking into harmonics components with the method of Fast Fourier Transformation Measurement for this purpose has often been performed however using DynaLinzo software simplifies how to measure and analyse variance of harmonics current during 2 5 minutes The 2 5 minute measurement is based on the IEC standard or corresponding Japanese guideline about harmonics current emission For more information about the standard or guideline of harmonics emission refer to harmonics news published by Kikusui or documentation from the IEC standard DynaLinzo allows your devices to be targeted at Europe or Japan for measurement and analysis Depending upon which region your device is targeted at appli
35. Low Frequency Emissions A nalysis System SDO3 HAOT1F Ver 3 1 User s Manual Electronic Test Instruments amp Power Supplies La File View Measure Tools Options Window Help a 2 7 e Voltage Shape U U lol Las Lar Le AZ 2 ep ct es By M 2 gt PAS gy Le pi a m 1 A gee O a yr 10 Y A A 80 6 t e 30 60 30 120 1501s ape 4 A ae en File View PO Tools Options Window Help tm DynaLinzo C KIKUSUIS HA20 SAMPLES COPYER SP1 Measure Frame E Curen ims 1 2014 lah Current pk 4 2514 Frequency 50 H2 Power Apparent Power Power Factor 7 Distortion Ratio J of xX Class ssf Frame eo AY Time Elapsed 0 32 s Y 2 at 1st Good y i 4 7 2nd I Good A zi 3rd l Good P 4 ade 43 eat P ath Good Ju Flicker Analyzer C KIKUSUI HA20 SAMPLES 2HOURS FK1 O x File Measure Frame Tools Options Window He ea 1 Flicker Transition 10s Frame Jo x l 10 x h a By PE 4 PE Y 10000 10000 1000 1000 y Ez 100 100 y amp 10 7 10 ace pba dali fho ol 0 1 0 4 hmin
36. Relative Volt Change po 4 Voltage Ratio Shape 20 4 Cancel Help Zoom And Mark So far we explained that fundamental graph windows displayed in the VF Analyzer are Voltage Shape Voltage Ratio Shape Voltage Change Relative Voltage Change and Steady State As for Voltage Shape Voltage Ratio Shape and Voltage Change there is also a Zoom functionality Using the Zoom functionality up to 150 seconds of measurement data crammed into a narrow screen can be expanded horizontally or along with the Time axis This zoomed window is called Zoomed Window Do not forget that an important mission called marking is waiting for you in the zoomed window It is an indispensable work to decide which portions must be paid attention to analyse voltage fluctuation Actually no markings can result no voltage fluctuation analysis From the next section we discuss about how to operate zoomed windows and how to set markings Displaying Zoomed Window To display a zoomed window first activate a base window into which data is crammed and select View Zoom And Mark menu Then a zoomed window that is little bit longer horizontally than other windows will appear Page 58 Marking Low Frequency Emissions Analysis System User s Manual 23 Zoom Voltage Shape U t A ES Time 2 96 s Data 100 147 Wrms 100 177 W Irms 0 398 A Ipk 0 427 A Power 0 000 44 Y 2 120 Data in a zoomed window will be represented
37. System User s Manual Data file size Test Condition Frequency 50Hz Sample Points 256 DFT Window 16 Measurement Time 150 seconds Approx 600 Kbytes Frequency 60Hz Sample Points 256 DFT Window 16 Measurement Time 150 seconds Approx 720 Kbytes Frequency 50Hz Sample Points 1024 DFT Window 2 Measurement Time 150 seconds Approx 3 Mbytes Frequency 60Hz Sample Points 1024 DFT Window 2 Measurement Time 150 seconds Approx 3 5 Mbytes Page 103 Low Frequency Emissions Analysis System User s Manual VF Analyzer Number of phase to be 1 Single Phase measured Data representation Voltage Shape U t Graph Voltage Ratio Shape U t Un Graph Relative Voltage Change dit Graph Voltage Change deltaU t Graph Steady State list Report Generation Analysis Report of voltage fluctuation English only Data file size Frequency 50Hz Measurement Time 150 seconds 181 120bytes Frequency 60Hz Measurement Time 150 seconds 217 120bytes Flicker Analyzer Number of phase to 1 Single Phase be measured Data representation 10 second Transition PF t Graph 10 minute Transition PF t Graph Probability Graph Result List Pst and PIt Report Generation Analysis Report of flicker English only Data file size Frequency 50Hz Measurement Time 2 hours 409 312bytes Frequency 50Hz Measurement Time 24 hours 4 909 984bytes Page 104
38. UM_VF1 Tools Options Window Help pe Voltage Ratio Shape Voltage Change Relative Voltage Change Steady State Zoom And Mark Marking List Axis Setup 120 150 s Show or hide the Voltage Shape or U t window Page 54 Low Frequency Emissions Analysis System User s Manual This window represents transition of voltage rms values for both positive and negative Placing the mouse cursor on the graph screen a set of data on the mouse cursor location will be displayed on the status line which is in turn shown at the bottom of the application screen Listed below are data contents shown on the status line e Time Time on the mouse cursor location e Data Graph Data on the mouse cursor location voltage rms of half wave Vrms voltage rms of full wave e Irms current rms of full wave Ipk maximum current value in entire full waves e Power power of full wave Voltage Ratio Shape U t Uy Window T VF Analyzer C KIKUSUIN HA30 SAMPLES YACUUM_YF1 Relative Voltage Change hape U t Un Steady State Zoom And Mark Marking List Axis Setup 120 150 s Show or hide the Voltage Ratio Shape or U t Un window This window represents transition of voltage ratio rms voltage nominal voltage values for both positive and negative Other than graphic contents are exactly the same as Voltage Shape U t window Page 55 Low Frequency Emissions Analysis System User s Manual Vol
39. aat ardid 104 Page 5 Low Frequency Emissions Analysis System User s Manual Getting Started Overview This system is a PC hosted application software that enables to measure and to analyse harmonics current voltage fluctuation and flicker complying with the IEC Standard and associated Japanese Harmonics Guidelines with combination of a PCR L Power Supply and an HAO1F PCR L Harmonics Analyzer unit The software includes three programs DynaLinzo VF Analyzer and Flicker Analyzer For Windows Beginners Every program in the system runs under Windows environment Windows3 1 95 98 Me Basic operation such as windows menus and buttons are exactly the same as other Windows applications If you are not familiar with Windows please consult documentation for Microsoft Windows About Application The package includes both Japanese and English application versions however you can install only one language version at a time Mind that some program displays will be in different language than you expected if you install both languages at a time This book describes operational instructions assuming you are using English version Page 6 Setup Low Frequency Emissions Analysis System User s Manual To use this system all of the programs must be installed to your hard drive The setup should be done with a Setup program SETUP EXE included in the program disk Now we explain how to set up To set up this system follow the su
40. and operator information are also saved Saving measurement data in a file you can analyse the data in later time Options such as overheat or over range however are not included in the data file since these are not actually measurement data but operation environment of Flicker Analyzer To save data select File Save or File Save As menu A dialogue box that prompts you to decide a file name might appear Then decide an appropriate file name The file name must be within 8 characters following the rule of DOS Windows file system Default extension of the file name is FK1 Data File Size When you save your measurement data file you might have to pay attention how much disk space is required for a data file Actually the size of a data file depends on test conditions especially settings of HAO1 unit The following table shows examples of file size for several typical measurement conditions Test Conditions File Size Measurement Time 2 hours 409 312 bytes Measurement Time 24 hours 4 909 984 bytes Open An Existing Data You can read and analyse an existing data file after measurement To open a file select File Open menu Then a dialogue box that prompts you to decide a file name appears Then select an appropriate file name from the list After opening the file the measurement data will be displayed on the screen as well as after measurement Page 76 Low Frequency Emissions Analysis System User s Manual Chapter 9 Fl
41. assi Cancel Help Toolbar location Sets the location of the toolbar to Horizontal top on the screen or Vertical left of the screen Frame Jump Sets how to jump frames to Frame No or Elapsed Time For more information about this we will discuss in the next chapter DynaLinzo Analysis Timer Display Sets the timer display during measurement progression to Remaining Time or Elapsed Time DynaLinzo allows you to save measurement data on the hard disk Not only measurement data test conditions and operator information are also stored in the file In addition if you have downloaded current waveform data it is also included By saving measurement data in a file you can analyse the data in later time Options such as overheat or over range however are not included in the data file since these are not actually measurement data but operation environment of DynaLinzo To save data select File Save or File Save As menu A dialogue box that prompts you to decide a file name appears as necessary Then decide an appropriate file name The file name must be within 8 characters following the rule of DOS Windows file system Default extension of the file name is SP2 Page 22 Low Frequency Emissions Analysis System User s Manual Save As x File name Folders sp2 c kikusui Save file as type Drives DLinzo Data sp2 y Sc v Data File Size When you save your measurement da
42. bsequent procedures How To Setup 1 Start Windows 2 Insert the program CD ROM into the drive 3 Launch Windows Explorer and then execute the SETUP program on the CD ROM SETUP EXE If you are using Windows3 1 use File Manager instead of Explorer 4 After a while the SETUP screen will appear Install To specifies a directory name into which the application is installed Although the default path is C KIKUSUI HA30 you can change it if you want to install to other directory or drive GPIB Board specifies a type of GPIB adapter card you use What you can select on the current version is National Instruments NI 488 2 only Language specifies the application language You can choose either English or Japanese You need Japanese Windows if you choose Japanese Checking Install Sample Data check box allows you to install sample data files for each application program Make sure to check free space of your hard drive since these files requires additional 11 megabytes of disk space Clicking the Continue button makes setup start Page 7 Low Frequency Emissions Analysis System User s Manual Chapter 1 DynaLinzo Overview DynaLinzo is a program that measures and analyses instruments that generate fluctuating harmonic current In DynaLinzo there are Analysis Mode and Trial Mode and you can choose either As default the operation is Analysis Mode that measures for 2 5 minutes It analyses and shows measurement data
43. cable standard and guideline are slightly different Targeted at Europe uses IEC 61000 3 2 and Japan uses Japanese Harmonics Guideline or called BECA Roo Pole Run DynaLinzo To run the DynaLinzo double click DynaLinzo icon from the Program Manager The initial screen of DynaLinzo appears and then Startup dialogue box will appear Here you can either begin a new measurement or open an existing data file Or you can return to the default screen of DynaLinzo closing the dialogue with the Cancel button Described below are the default contents of the DynaLinzo initial screen Harmonics List window Caption Bar 3D Spectrum window Toolbar IES sal aa para Ela ie ES PE ae 10 20 30 40 El 8 32 0 2D Spectrum window Status Line Waveform window Page 9 Low Frequency Emissions Analysis System User s Manual Harmonics List Window This window represents momentary harmonics components as numeric format Not only harmonics components situation data such as voltage and current are also displayed 2D Spectrum Window This window represents momentary harmonics data as a column chart The X axis indicates the order of harmonics 1st to 40th and Y axis indicates each level or intensity of harmonics in unit in class C or A in other classes 3D Spectrum Window This window displays a 3D column chart adding Z axis You can view harmonics transition three dimensionally Current Waveform Window
44. can evaluate the measurement data with cancelling the smoothing To perform smoothing select Frame Show Smoothed Data menu To cancel it select Frame Show Raw Data menu The default display is smoothed data Setting Date Time Info You can embed date time information into your measurement data Select File Set Date Time Info menu and then a dialogue box appears You can confirm existing date time or set current date time You cannot set arbitrary date time other than current date time Date Time Info x EX Date Time 22 Jan 2001 11 14 Cancel Help Page 38 Printing Low Frequency Emissions Analysis System User s Manual DynaLinzo allows you to print out contents of window display and a final report of fluctuating harmonics analysis Printer Driver Setup From DynaLinzo select File Printer Setup menu item And then if you could see a specific printer setup dialogue you have already installed the driver Otherwise install a printer driver using Control Panel Actual display of the dialogue box differs depending on printer model you actually use EPSON LP 800 on Tom Ip 800 Properties 21x Base Layout Graphics Font Option Panel Utility p Paper Z 1 Port B5 182 x 257 mm PostCard 100 x 148 mm A5148 x 210 mm m syns r Resolution sa Quick Paper Source Paper Tray ye ple Version Print Printing items are divided into two
45. ccccscescseesceseescsecsecsceacsecsecseeacsassecseeacacsecseeateaeees 11 Test CONAIGION SettiNgS rra ti aaa 11 Standard Settings ciiacaatita dara ende lia e dde GOA 11 Detail Settings ici tc iaa aeia Eo EEEa aeia raaa Eurr Enea i aaa 13 Measurement Settings ana a aa a e aaO Eae aaa raa Ea a aaa ano anaran dS 15 M mo SONO narinaa A A E aid 17 Start Measurement inccooniconiceconndo crac idad 17 Begin A NeWw MeaSU Ei a 19 Trial Mod ib 19 When Abnormal Measurement Termination oooooocccccnnncnnnnonanancnnnnnnnnnnnnnn nc nn nn nn r nana nn rrrnnr re nannnnns 20 MEaSUTEMENt OPONE caricia LEE 21 Other OPHION sais lcivacvesdatecsedecesevsoedsdetenve ces E Eaa KEE aea ra SEAE Da E Naa naa Eao Sa Krean 22 SAVE Dalia A ANN Data File Size Generating CSV FES as arrine a ea ea aaaea iia e 24 Open An ExiSting Dataa n ona e E EEE A E AEA E A EA A TE E a 24 Chapter 3 DynaLinzo A AS Seriana nni A a i R i iR 25 Types Of Instant Analysis WindOWS oooooccoccccnnnononananancnnnnncnnnnanon nn cnn nn nr nan nr nera 26 Browsing FLAMES coria italian Enri dades 31 Types of Total Analy SiS coi a A iia 32 Waveform Judgement ASSIStaNCe oooooocccccnncconananannnonnncnnnnnnnnnnennnnnnrnnnnnnrner rr nn rr nnnnnn rr nrrrrrrenannnnes 35 Data MOON aa cod dvs O ad 38 Setting Date Time Info cios aia na And dan 38 PO A a cvnctaveeeists 39 Chapter 4 VERANOS aa a dia 41 O E E E A E A E E 41 What Is Voltage Fluctuation ANalySiS ooccoconncconcccnnnnnonnnanannn
46. cel Frame ng Help Elapsed Time will be 00 00 10 Flicker Analyzer allows you to print out contents of window display and a final report of flicker analysis Print Printing items are divided into two types Analysis Report and Graphs Selecting File Print menu you can see the Print What dialogue box that prompts you to select what you are about to print Selecting items from the contents you can easily print out one or more items with one action If you have selected an analysis report the printing is not executed soon but a Print Preview window appears instead If needed you can choose a printing font for report printings Note that available fonts listed in the Font Selection dialogue are TrueType fixed pitch fonts only To print the report just select Print menu YY Print Preview olx Fie Edit Document E kel Flicker Analyzer 00 00 80 0 00 Operators Info Operator Model Memo Condition Standard IEC 61000 3 3 Voltage 230 F Frequency 50 Hz Measurement Time 02 00 h min Volt Range 160 Curr Range 128 A Shunt Line Impedance None THRU Pst Results Segment Duration Pst PlOs P503 Judgement Page 81 Low Frequency Emissions Analysis System User s Manual Notes If you have not installed any printer driver yet you should install it using Control Panel program placed in the Main folder of Program Manager The final Analysis Report is formatted as A4 210 x
47. cess has been failed because other application software is opening the same file free disk space is insufficient or available file handles are insufficient Page 89 Low Frequency Emissions Analysis System User s Manual ERR 1106 Not valid file format XXXX The file you attempt to open is not a valid file for the SP1 format XXXX denotes an actual file name ERR 1107 Not enough disk space Delete needless files to increase available disk space Due to insufficient free disk space write operation for a file has been corrupted Arrange your hard disk drive to increase free disk space using File Manager ERR 1108 Couldn t execute XXXX The system couldn t execute an external program such as Waveform Viewer or PCR L Control Panel There is a possibility that the executable file is not found or insufficient memory Error Messages From VF Analyzer ERR 2002 Axis Setup of the Voltage Shape must be between 1 and N The N is the same as nominal voltage currently set Axis setting on Voltage Shape U t graph is incorrect As a display range you can enter an integer value 1 or greater or 1 or less ERR 2003 Axis Setup of the Volt Change must be between 1 and 1000 Axis setting on Voltage Change deltaU t graph is incorrect As a display range enter an integer value 1 or greater ERR 2004 Axis Setup of the Relative Volt Change must be between 1 and 1000 Axis setting on Relative Voltage Change dU t graph is in
48. cifies the actual measuring time Valid ranges for these items are described in the following table Sample Points 256 512 1024 restricts DFT Window setting DFT Window 4 8 16 32 64 restricted by Sample Points setting de through 600 seconds in 10sec unit Time Note If you want do the final judgement of harmonics the measurement time shall be 150 seconds or longer Any measurement time shorter than this is not strict and not compliant with the standard or guideline Page 16 Low Frequency Emissions Analysis System User s Manual Filter Enables or disables use of anti aliasing filter If measurement of harmonics component is important for you you need to turn the filter on However since slight waveform deviation will be generated you might have to disable the filter use if you are about to analyse waveforms or peak current levels AC Coupling Sets the input coupling to AC or DC Typical measurement uses AC coupling Line Impedance Select impedance setting for the Line Impedance Network Note that you are still responsible for setting line impedance since DynaLinzo doesn t set it automatically The information of this setting is used only for final analysis reports and there is no meaning else For information about line impedance settings see Appendix 1 Setup For Line Impedance Network Memo Settings Test Conditions x You can enter info about the Test Condition EUT and any other info
49. cnnnnnnnnnnnnn rn cnn seer rana rr nrr rn nr rennnnnnes 42 RUN VF Anal Zer viciosa idos 44 Chapter 5 VF Analyzer Mesure Met cccccccscessesscsscescesecsscesceseesecsscscesecsscsscessesseseeeseeaees 46 Test CONTItION SONGS i i iiisiri iiaiai aiidas ie 46 Standard Se iii e a da a it di 46 HAOI SUN St is 47 E A O cuebe de AVAAN E a EE adtues duets detected tle 48 Begin A New Measurement comocccccccnnnnnnnncnnnnnnnononacnnnnnnnnnnnnnrennnnnrnnnnnnrrrnnncn rra rennrnn nn nn nnnnrernnnnnnns 49 When Abnormal Measurement Termination oooooocccccnnncnonananannnononnnnnnnnnnnn cnn nan rr nana rrrr rn rr re nannnnes 50 MESE 1591 ena aeaa aae a anaE aa aa rana Ea aeit 51 Other OPS ri a a aE nell a Aa lala a acetate 51 Save Dala PAETA A E E E ET 52 Low Frequency Emissions Analysis System User s Manual Data Fl iZ aii iii id A id A ta SNARES 52 Generating CSW AES rrna n aaran eiii cdi cea di 53 Open An Existing Data cuco ii ii 53 Chapter 6 VF Analyzer ANQ YSIS ccccccccescseescescsscsecscescsscsscsecscsacsscsecsseacsassecsesssacsecsseateaeaes 54 TYPOS Of Win dWS oir destained cesteets 54 DAS 58 Zoom ANG Mark icasi nierien ai diras 58 Displaying Zoomed WINdOW oooooccccccnnnnncnannnnnnnncnnnnnnnnnnnnnnncrrnn rn r naar rr rr rr nn ren nnnn rr rre rrrrrrrnnrrrrnn 58 Marking iii a A saved anars aa A ea ei iaa taaie 59 Marking List Display scasces isnin al id ll ai o a 62 Graph Resolution Setup coin ns 62 PO A A 63 Chapter 7 Flic
50. correct As a display range enter an integer value 1 or greater ERR 2005 Time value must be between 0 01 and 150 0 seconds Time value or range you have specified is invalid ERR 2006 Axis Setup of the Voltage Ratio Shape must be between 1 and N The N is the same as nominal voltage currently set Axis setting on Voltage Ratio Shape U t Uy graph is incorrect As a display range you can enter an integer value 1 or greater or 1 or less Page 90 Low Frequency Emissions Analysis System User s Manual ERR 2007 To value must be greater than From value or the same Time range you specify is invalid End of time elapsed to save as CSV format must be greater than beginning time elapsed or the same ERR 2009 Overheat detected Please shutdown the output from the power supply There is a possibility that a shunt resistance connected to the HAO1 has an overheat problem Please quickly shutdown the PCR L output ERR 2010 Synchronisation of the PCR L is unlocked Check the synchronisation cable A synchronisation cable between HA01 and PCR L might be disconnected ERR 2011 Over range detected Please change the HA01 setup One of peak current has exceeded its range setting value Change the HAO1 setting in the test condition setup and then try again ERR 2012 Too many markings You can assign up to 20 markings You attempted to add the 21st marking Up to 20 markings can be set ERR 2100 Insufficient mem
51. d choose from the following There is no special meaning for measurement to set voltage other than for contents of final analysis reports Page 70 Low Frequency Emissions Analysis System User s Manual 100V e 200V 230V Frequency As a nominal frequency of device to be tested this program fixes the frequency setting to 50Hz HA01 Settings Sets items for measurement or settings of HAO1 unit These settings cannot be changed after measurement Range Select a range setting on Voltage rms of the HAOI unit Valid ranges are described in the following table Other settings such as Current peak and Shunt Resister are fixed in this application and cannot be changed Make sure to correctly set the short bar of the Current Range Selector or cabling of the Current Sensor of the HAO unit for Shunt Resister setting Item Range Voltage Vrms 20 40 80 160 320 600 Current Apeak Fixed to 128 Shunt Resistance mQ Fixed to 1 Measurement Time Sets the measuring time Valid setting is between 10 minutes and 24 hours in 10 minute unit or 5 minutes or 1 minute Since 5 minute and 1 minute measurements are applicable only to trial use you should not select such short time operation if you want to get final analysis reports Filter Sets the use of anti aliasing filter In the flicker analysis you cannot set this item and it is always enabled AC Coupling Sets the input coupling to AC or DC In the flicke
52. dix 2 Emor MESSAGES aos 87 Common Error Messages About GPIB cccccconoconncnnnoncnnnnnnannncnnnnnnnnnnnnnnncnnnnnrrnnnnnn nn rrrnnr re nannnnns 87 Error Messages From DyNaLinZO ooonncnnnnnnnnnnnnnnnnnnnnrannnnnnrnnnnnrrrnrrrnrr rn nn nr rrrr rr rr rr 88 Error Messages From VE ANalyZOF ccocccconnonononccnnnnnnnnnnnnoncnnnnnnrnnnnnn nn nr enn rra rrnnnrr rr rr rr nn re nnnrrrnnnn 90 Error Messages From Flicker Analyzer ocoonocconccnnnoccconnnnonnnononnnnnnnnnnn nn cnn nn nn rnnnerr rr rr nr rre 92 Appendix 3 Analysis Report EXOMPles ccccccccscsscsccscsscsecseescescscsecsesscacsscsecseesesacsecseeaseaens 94 DynaLinzo Report Printing Example occonnnnncccccnnnnnnnnnnnanncnnonnncnnnnnnnnnncnnnnrnnnnnr nn rrr nn r nr nnnrr rr 94 VF Analyzer Report Printing Example ooooocccccncconononanancnnnnnonnnnnnn nc non nn r rn anar nnrr nr nr errar rr rrrrrrnnns 99 Flicker Analyzer Report Printing ExaMple ooooocccccnnocononononcnononcnonannnnnncnnnn cnn nnnnnrn nn cnn nn rr rnnnrrrrrnn 100 Page 4 Low Frequency Emissions Analysis System User s Manual Appendix 4 Software SPECIFICATION oo ce ececceccscessesesscseeseesesecsecsecscsacsscsecssescsecsecsseaeacsecsseateaenes 101 System REQUIFEMENKS iveseccvnnecteneceseecctenenntinceuinectenetesueccua cect a KaLa Eaka biel rete teed aa aE 101 DYMALINZO aineen e eE edi a e 102 VEAN Zi a ais 104 Flicker Analyzer cc ciesicsscvceacdcvccaavdatececnenstesvedecdecdsaddeanaisdanterecervecdaaienscecsevetasiv
53. e Overheat GPIB Line Problem If an abnormality has been generated on the GPIB line for instance when the cable has been disconnected or when the supply of HAO1 has been suspended measurement will be suspended displaying an error message Synchro Cable Problem among PCR L and HA01 A synchronisation clock signal must be always applied from the PCR L AC supply to the HAO unit in order to measure harmonics accurately This signal is very important and associated with measurement essentially If the synchronisation cable has been disconnected measurement will be suspended displaying an error message Over Range The Current Range is set as a part of HAO1 test conditions If measured data that exceeds the upper limit range is generated measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it However if an over range problem has been generated disabling this functionality there will be no error message Note that protruding data will be clipped to the upper limit values Overheat When the HAO has found overheat problem measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it How to enable disable Over Range and Overheat functionality is described at the next section Page 74 Low Frequency Emissions Analysis System User s Manual Measurement Options This allows you to set options about
54. e level Yellow Measured Data exceeds 100 of allowance but is within WARNING 150 Red Measured Data exceeds 150 of allowance level BAD 2D Spectrum Window Options Window Help 8 ES Waveform 1 00 a 0 80 H Average Harmonics List Axis Setup For 2D 3D Transition 0 60 Histogram 0 40 0 20 Show or hide the 2D Spectrum window This is a column chart representation of the harmonics list The X axis indicates order of harmonics and the Y axis indicates level of harmonics respectively The unit of the Y axis will be when class C is selected and will be A when other classes This window is displayed as default but you can show or hide it operating View 2D Spectrum menu The chart is shown in colour so that you can distinguish the results of harmonics judgement as described below Furthermore white lines that indicate allowance levels of the standard will not be displayed if a corresponding data exceeds the allowance level or there is no allowance limit When the data exceeds the allowance limit the white line would virtually be the border between green and yellow zones Chart Colour Description Judgement Green Measured Data is within allowance level of the GOOD standard or there is no allowance level Yellow Measured Data exceeds 100 of allowance but is WARNING within 150 Red Measured Data exceeds 150 of allowance level BAD While lines Allowance level of the standard Page 27
55. e shown clicking New Measurement button from within the Startup dialogue Items in the test conditions are roughly divided into three parts as described in subsequent sections Standard e Detail Measurement e Memo Standard Settings Standard IEC 61000 3 2 Ces ii gt Cancel Targeted At Europe gt Margin eo F Help Yoltage V 230 Erequency Hz 50 E Next Page Standard AD etail M jeasurement M emo As fundamental settings for standard basically you select judgement condition complying the IEC standard or the Japanese guideline These settings can be changed even after the measurement Page 11 Low Frequency Emissions Analysis System User s Manual Class You have to choose one from the following four classes Class A Class B Portable Tools Class C Lighting Equipment Class D PC PC monitor TV set P lt 600W Targeted At You have to specify one of following regions The applied standard or guideline will change depending on which region is selected Note that the standard or guideline defers depending on the setting of target region Europe Compliant with IEC 61000 3 2 Japan Compliant with Japanese Harmonics Guideline Voltage As a nominal voltage of device to be tested choose one from the following 100V 200V 230V Frequency As a nominal frequency of device to be tested choose one from the following
56. e the Cumulative Probability window This window represents distribution status cumulative probability of PF values in a segment This is not simply a histogram but a histogram that contains cumulated data The X axis indicates PF values and Y axis shows frequency of corresponding data in a segment In addition the 50 and 80 marker lines are also displayed Results Th Flicker Analyzer C KIKUSUISHA30 SAMPLES 2HOURS _FK1 File BUGI Measure Frame Tools Options Window Help Flicker Transition 10s Cumulative Probability Flicker Transition 10min lts Show or hide the Result window This window displays statistical results of entire measurement data in a list format Each line of the list represents result data such as Pst corresponding each segment Furthermore the final Plt value is also shown at the last line of the list Note Items in the judge column in the list are shown only when a 10 minute or longer measurement has been completely done No data will be displayed if you do a one minute or five minute measurement Page 79 Low Frequency Emissions Analysis System User s Manual Axis Setup As for Flicker Transition 10s Frame Flicker Transition 10min Segment and Cumulative Probability windows you can change the setup for graph axes Choosing View Axis Setup menu the Axis Setup dialogue will appear Then select an axis value for PF values You can select one from within 10 100 1000 and 10000 In Flicker T
57. e will appear prompting you to enter a GPIB device name Note that what you should enter here is a GPIB device name instead of its address GPIB Device Name is normally configured by the driver of National Instruments GPIB Immediately after the installation of this system the default device name is DEV1 The National Instruments GPIB driver also defaults device names DEV1 through DEV16 with which device address 1 through 16 are associated for each So typically the GPIB address of HAO1 will be okay if it is set to 1 However note that it might differ depending on the configuration of GPIB environment GPIB Setup xi GPIB Device Name DEYI y Cancel Help Page 48 Low Frequency Emissions Analysis System User s Manual Start Measurement To begin the measurement select Measure Run menu Once the measurement has started either elapsed time or remaining time will be indicated in a popup dialogue If you want to suspend the measurement due to some reason you can just click the Cancel button to stop it Measuring x Now measuring voltage data 3 second s elapsed After the measurement has been done all of the data will be automatically downloaded and will be displayed on the VF Analyzer screen Begin A New Measurement There are several ways to perform a new measurement after previous measurement is already done Measurement With The Same Condition As Previous In this case you can just s
58. easurement data will be downloaded and displayed However the existing data will be lost since the new data is overwritten Measurement With Changing HA01 Settings If you want to restart measurement changing HAO1 settings such as Range or Measurement Time you need to clean up exiting data once DynaLinzo never recognises to change HAO1 settings holding measured data This avoids disagreement between existing data and HAO settings Therefore it is necessary to clean up existing data once To clear the existing data select Measure Clear Data menu And then select Measure Test Conditions menu to change the HAOI settings After changing conditions you can just start the new measurement Measurement From Scratch In this case select File New menu The Test Condition dialogue will appear returning all the test conditions to default In addition associated file name also changes to Untitled Trial Mode The Trial Mode is an operation mode that enables you to try to measure temporarily It is useful when you examine range settings of the HAO1 unit To go to the Trial Mode select Measure Trial Mode menu The default operation mode is Analysis Mode that allows you to measure and analyse up to 150 second harmonics data whenever you have just started DynaLinzo Starting Measurement This mode measures harmonics current data at a constant interval actually 1 second and it is irrespective of the measurement time setting
59. eed becomes slow Listed below are characteristics on these resolution settings Setting Display Resolution Quickness Accuracy Coarse 1 pt in every 5 pts Quick Bad Normal 1 pt in every 3 pts Normal Normal Fine All points Dull Good To change setting of resolution of graphics display select Option Preference menu Then you can also change toolbar location timer display Toolbar Timer Display f Vertical Remaining Elapsed L a Graphic Display Coarse C Normal e Cancel Help Page 62 Printing Low Frequency Emissions Analysis System User s Manual VF Analyzer allows you to print out contents of window display and a final report of voltage fluctuation analysis Print Printing items are divided into two types Analysis Report and Graphs Selecting File Print menu you can see the Print What dialogue box that prompts you to select what you are about to print Select items from the contents you can easily print out one or more items with one action If you have selected an analysis report the printing is not executed soon but a Print Preview window appears instead If needed you can choose a printing font for report printings Note that available fonts listed in the Font Selection dialogue are TrueType fixed pitch fonts only To print the report just select Print menu Y Print Preview olx File Edit Document 1 LL BE VF Analyzer 00 00 80 0 00 Operato
60. entially If the synchronisation cable has been disconnected measurement will be suspended displaying an error message Note Even though the synchronisation clock cable is correctly connected an error message might appear when you perform the first measurement with each application or when you perform the first measurement after changing sampling rate This is because internal synchronisation system has been temporarily unlocked In this case re start the measurement since there is no problem Page 20 Low Frequency Emissions Analysis System User s Manual Over Range The Current Range is set as a part of HAO test conditions If measured data that exceeds the upper limit range is generated measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it However if an over range problem has been generated disabling this functionality there will be no error message Note that protruding data will be clipped to the upper limit values Overheat When the HAO has found overheat problem measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it For more information about error messages see the Appendix at the last of this document How to enable disable Over Range and Overheat functionality is described at the next section Measurement Options This allows you to set options about measurement The
61. equency Emissions Analysis System User s Manual Marking Of Voltage Change delta U t In marking of Voltage Change markings are just results of the final analysis report and no differences are calculated So you can mark any portion as you like In addition note that voltage data of a marking is the centre value T VF Analyzer C KIKUSUI HA30 SAMPLES DRYER VF1 File View Measure Tools Options Window Help E era le a WO 23 Zoom Voltage Change deltaU t olx Time 9 96 s Data 0 08714 Vrms 95 030 V Irms 8 449 A Ipk 12 102 4 Power 802 840 W 1 N 2 20 00 1 16 00 12 00 H 8 00 4 00 0000 60 120 1501s y Time 71 55 s Data 99 886 V Vrms 99 842 V Irms 0 569 A Ipk 1 016 A Power 55 334 W How To Set Markings To add a marking click the left button of the mouse on a zoomed window Then a circle shaped marking will appear with its ordinary number To delete it click the right button of the mouse on the marking you want to cancel If you are marking on Voltage Shape U t or Voltage Change deltaU t you cannot place another marking on very adjacent places around existing marking In this case the existing older marking will be replaced with the newer one For example if you have marked at a very close portion from the existing marking labelled Mark0 the new marking will be Mark0 disposing of the existing marker Actually
62. eturn to the default screen of Flicker Analyzer closing the dialogue with the Cancel button Described below are the default contents of the Flicker Analyzer initial screen Flicker transition 10s Frame Caption Bar Flicker transition 10m Segment Tu Flicker Analyzer C KIKUSUI HA30 SAMPLES 2HOURS FK1 Toolbar File View Measure Frame Tools Options Window Help ea GE 1 Flicker Transition 10s Frame 0 1 4 mins 1 4 h min D0 00 00 02 D0 D04 D0 06 00 08 0010 00 00 00 02 00 04 00 06 00 08 00 10 El Ea El 100 7 80 7 60 40 20 of 1 Pf 100 1000 10000 Segment1 12 Frame 4 60 Cumulative Probability Status Line Result window Page 68 Low Frequency Emissions Analysis System User s Manual Flicker Transition 10s Frame This window represents transition characteristics in a 10 second frame Flicker Transition 10min Segment This window represents transition characteristics in a 10 minute segment Cumulative Probability This window represents probability characteristic in a 10 minute segment The content of the graph synchronises to above mentioned Flicker Transition 10min Segment window Results This window shows results of analysed Pst and Plt values Caption Bar Title of the window Actually a file path name associated with measurement data is shown Ifno file name is assigned the title will be
63. icker Analyzer Analysis Browsing Segments Frames Measured data from the Flicker Analyzer is administrated by 1 minute blocks segments and 10 second blocks frames hierarchically If you do a 2 hour or 120 minute measurement for example there are 12 segments in it and one segment has 60 frames The following picture shows how 2 hour measurement data is analysed Note that number of segments in a measurement data differs depending on measurement time whereas number of frames in a segment is always 60 With the exceptions of 1 minute and 5 minute measurements 2 hour measurement V Segement 1 Segement 2 Segement 3 Segement 12 Frame 1 Frame 2 Frame 3 Frame 4 Frame 60 Four types of windows displayed in the application have a different concept about time base Flicker Transition 10s Frame window displays transition characteristics of one frame contents Flicker Transition 10min Segment and Cumulative Probability windows correspond to one segment contents The former represents transition characteristics and the later represents distribution status In contrast the Results window represents statistical results of entire measurement data Now we explain about the contents of each window in more detail Page 77 Low Frequency Emissions Analysis System User s Manual Flicker Transition 10s Frame
64. ing of PCR L AC Power Supply Line Impedance Network and an HAOIF PCR L unit This application can measure flicker data and display it not only during measurement but also after measurement has been done These measured data also can be printed out saved and retrieved to from the disk Setting Measurement Monitor 2 hours continuous Data Transfer GPIB Previously measured data File Open Save Analysis Print Analysis Report This program measures flickers generated from a device to be tested using a flicker meter that complies with IEC 868 and IEC 868 0 standards and calculates short period flicker values Pst and a long period flicker value Plt How much obstacle or flicker of lights is to be affected can be numericalized Generally when operation state of an instrument changes for example starting a motor suddenly or turning a heater on the volume of current suddenly changes too in turn the supply voltage changes thereby lighting equipment flickers The Flicker Analyzer is an application program that analyses these flickers considering human s sight characteristics or lamp eye brain response The software analyses obstructions caused by sudden current variance and evaluates your devices or products with compliance with the IEC 61000 3 3 standard Page 65 Low Frequency Emissions Analysis System User s Manual Simulate this portion
65. ion of graphics display to one of Coarse Normal and Fine We will describe about this topic in the next chapter VF Analyzer Analysis Page 51 Low Frequency Emissions Analysis System User s Manual Save Data Timer Display Sets the timer display during measurement progression to Remaining Time or Elapsed Time VF Analyzer allows you to save measurement data on the hard disk In data files not only measurement data test conditions and operator information are also saved Saving measurement data in a file you can analyse the data in later time Options such as overheat or over range however are not included in the data file since these are not actually measurement data but operation environment of VF Analyzer To save data select File Save or File Save As menu A dialogue box that prompts you to decide a file name might appear Then decide an appropriate file name The file name must be within 8 characters following the rule of DOS Windows file system Default extension of the file name is VF1 Save As 21x File name Folders Ef c kikusui ha30 samples eyes Cancel 3 kikusui S ha30 dryer vfi vacuum vfi y samples Save file as type Drives Voltage Data vf1 Be v Data File Size When you save your measurement data file you might have to pay attention how much disk space is required for a data file Actually the size of a data file depends on test conditions especia
66. ker ANAIYZET ui tiie ced do ado ne eee ok atl SR ee elas es 65 OVEIVIOW oidos era rei cede e 65 RUM FlickSr ANA Zinc el ai 68 Chapter 8 Flicker Analyzer ME CSUFEMENS 1 0 0 ceccccccescescsscscescsscsscseescescsscsecseeacsecsecssesseenes 70 Test Condition SEL NOS coria eiii 70 Standard Settings Jucirconiit raid Te dali e CA GOA 70 HAO SONS statin die Naish ats ive A A A DO AE 71 A NN 72 Begin A New Measurement viii a di 73 When Abnormal Measurement Termination oooonocccccnnncnonananannnonononnnnnnnnnnnnnnnnrn anar rn rr rnnrrerannanns 74 MEaSUrEMENTt OPUIONS ati dic 75 Other Option Seii aore anr a cee bedded E Selada Deahide a a aaia 75 Save Datas riirii monon did 76 Datta bae E ant vec cette T A TA 76 Qpen An Existing Data sito 76 Chapter 9 Flicker Analyzer ANQ YSIS ccccccccescescsscsecscescsecsecsecscescsecsecsceacssssecseescacsecseeateaeees 77 Browsing Segments Frames ooooocccccnnoncnonnnannncncnnncnnnnnnn nn eee e rre rra rr rr ner rre errar r rr rr erre 77 AXIS UD A A A ds 80 Frame And CM aia e dd da 80 DO da 81 Chapter 10 PCR L Control Panel ooccccnnccooncononnnonococonncanonnoonncnncnonnconnonnoononnronncanonn cnn rcanonnons 83 OVEVIEW u ainesse ass roere is aE a E EE EEEE letal gade 83 Pl is 83 Monitor Setting ia dos 84 GPIB DEVICE sei cice ccedeiencnsctes cunt echetelcuspodeh lidad sii li 85 Appendix 1 Setup For Line Impedance Netwokk ccecccscesscscsscsecseescsscsscsecscesessssecsseseeeens 86 Appen
67. l ways to perform a new measurement after previous measurement is already done Measurement With The Same Condition As Previous In this case you can just start the next measurement as well as the first time After measurement has started data will be downloaded and displayed However the existing data will be lost since the new data is overwritten Measurement With Changing HA01 Settings If you want to restart measurement changing HAO1 settings such as Range or Measurement Time you need to clean up exiting data once Flicker Analyzer never recognises to change HAO1 settings holding measured data This avoids disagreement between existing data and HAO1 settings Therefore it is necessary to clean up existing data once To clear the existing data select Measure Clear Data menu And then select Measure Test Conditions menu to change the HAOI settings After changing conditions you can just start the new measurement Page 73 Low Frequency Emissions Analysis System User s Manual Measurement From Scratch In this case select File New menu The Test Condition dialogue will appear returning all the test conditions to default In addition associated file name also changes to Untitled When Abnormal Measurement Termination Flicker Analyzer will abandon measurement when the system has been encountered with one of the following events GPIB Line Problem Synchro Cable Problem among PCR L and HAO1 Over Rang
68. liasing filter In the voltage fluctuation analysis you cannot set this item and it is always disabled AC Coupling Sets the input coupling to AC or DC In the voltage fluctuation analysis you cannot set this item and it is always disabled Page 47 Low Frequency Emissions Analysis System User s Manual Line Impedance Select impedance setting for the Line Impedance Network Note that you are still responsible for setting line impedance since the application doesn t set it automatically The information of this setting is used only for final analysis reports and there is no meaning else For information about line impedance settings see Appendix Setup For Line Impedance Network Start Measurement After the preparation has been done you can start measurement To begin the measurement the HAO1 unit needs to be controlled through the GPIB So if it is the first time to connect GPIB you might need to confirm that GPIB environment is configured properly GPIB Setup To connect an external GPIB instrument such as HAO1 unit first you must specify a GPIB device just like specifying an MS DOS file name The application software communicates with an external instrument through the GPIB with a device name So if you are the first time to use GPIB functionality in the application you have to set up the GPIB environment To confirm or change the GPIB setting select Options GPIB Setup menu Then GPIB Setup dialogu
69. lly settings of HA01 The following table shows examples of file size for several typical measurement conditions Every case includes the maximum numbers of markings Test Conditions File Size Frequency 50Hz Measurement Time 150 seconds 181 120 bytes Frequency 60Hz Measurement Time 150 seconds 217 120 bytes Page 52 Low Frequency Emissions Analysis System User s Manual Comparing the case of DynaLinzo the amount of necessary file capacity is not so large And eliminating all the markings can only reduce 960 bytes for each data file Generating CSV Files VF Analyzer allows you to generate Voltage Shape U t data as CSV files which can be read by other spread sheet applications such as Microsoft Excel or Lotus 1 2 3 To generate a CSV file first bring the Voltage Shape U t window to the front and select File Save As CSV Format menu Then a dialogue box which prompts you to decide CSV file name and time range for the voltage shape data Save As CSV Format xi File Path Save As Time Range From 0 01 s Cancel Io fi 50 00 s Help Open An Existing Data You can read and analyse an existing data file after measurement To open a file select File Open menu Then a dialogue box that prompts you to decide a file name appears Then select an appropriate file name from the list After opening the file the measurement data will be displayed on the screen as well as after measurement Open
70. measurement These options are set separately from test conditions To set the options select Options Measurement menu Then the Measurement Options dialogue will appear Measurement Options x Interrupt When IV Overheat Cancel Help di Interrupt When Checking Over Range enables you to abandon measurement when a peak current that exceeds the current upper limit has been generated Checking Overheat enables you to abandon measurement when overheat problem has been generated All of the settings described above are enabled as the install default And changes will be preserved for use of next time you start up Flicker Analyzer Other Options Options other than about measurement can be configured as Preferences These options are also set separately from test conditions To set the options select Options Preferences menu Then the Preferences dialogue will appear In this dialogue you can set toolbar location how to jump among frames and measurement time display Toolbar location Sets the location of the toolbar to Horizontal top on the screen or Vertical left of the screen Timer Display Sets the timer display during measurement progression to Remaining Time or Elapsed Time Page 75 Low Frequency Emissions Analysis System User s Manual Save Data Flicker Analyzer allows you to save measurement data on the hard disk In data files not only measurement data test conditions
71. mode choose Help About menu from Program Manager ERR 3104 File not found XXXX The file you attempt to open is not found XXXX denotes an actual file name ERR 3105 Cannot access xxxx The file may be locked by other software or insufficient disk space File access has been failed because other application software is opening the same file free disk space is insufficient or available file handles are insufficient ERR 3106 Not valid file format XXXX The file you attempt to open is not a valid file for the FK1 format XXXX denotes an actual file name ERR 3107 Not enough disk space Delete needless files to increase available disk space Due to insufficient free disk space write operation for a file has been corrupted Arrange your hard disk drive to increase free disk space using File Manager ERR 3108 Couldn t execute XXXX The system couldn t execute an external program such as Waveform Viewer or PCR L Control Panel There is a possibility that the executable file is not found or insufficient memory ERR 3109 This version of HA01 cannot be connected to the Flicker Meter application ROM version 2 0 or higher is required Flicker Analyzer application requires an HAO1 unit that equips ROM version 2 0 or higher Older ROM version has no functionality for the flicker meter Page 93 Low Frequency Emissions Analysis System User s Manual Appendix 3 Analysis Report Examples DynaLinzo Report Printing E
72. nded measurement will be suspended displaying an error message Synchro Cable Problem among PCR L and HA01 A synchronisation clock signal must be always applied from the PCR L AC supply to the HAO unit in order to measure harmonics accurately This signal is very important and associated with measurement essentially If the synchronisation cable has been disconnected measurement will be suspended displaying an error message Note Even though the synchronisation clock cable is correctly connected an error message might appear when you perform the first measurement with each application or when you perform the first measurement after changing sampling rate This is because internal synchronisation system has been temporarily unlocked In this case re start the measurement since there is no problem Over Range The Current Range is set as a part of HAO test conditions If measured data that exceeds the upper limit range is generated measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it However if an over range problem has been generated disabling this functionality there will be no error message Note that protruding data will be clipped to the upper limit values Overheat When the HAO has found overheat problem measurement will be suspended displaying an error message This functionality can be disabled if you don t need to use it For more informati
73. ntly fall This option is applied to every class If the slope line of harmonics spectrum over the 19th gently falls down judgement only needs to be done up to the 19th order ignoring the 20th and higher harmonics However no harmonic orders such as even orders in class D that are not subject to regulations will be considered Ignore under 5mA or 0 6 This option is applied to every class If harmonics component of an order is less than 5mA or less than 0 6 of input current value harmonics judgement can ignore the order Consider Over 600W This option is applied to Japan Class A only This option allows to change how to calculate allowance limit values when the power consumption exceeds 600W This option is applied to air conditioners and computers If you choose this option you also need define the wattage value Ignore 50W 75W or below This option is applied to class D only This option allows to ignore judgement when the power consumption is 50W or below or 75W or below If you choose this option you also need define the wattage value Wattage Definition This option is enabled only if you chose one of 600W 75W 50W 35W 25W options which are all concerning to wattage values for judgement When you set one of wattage concerning conditions you have to note how to manipulate the power consumption value of the EUT They are considerably different between Europe mode IEC and Japan mode Guideline
74. on about error messages see the Appendix at the last of this document How to enable disable Over Range and Overheat functionality is described at the next section Page 50 Low Frequency Emissions Analysis System User s Manual Measurement Options This allows you to set options about measurement These option are set separately from test conditions To set the options select Options Measurement menu Then the Measurement Options dialogue will appear Measurement Options x Interrupt When M E lV Over Range Cancel pe Interrupt When Checking Over Range enables you to abandon measurement when a peak current that exceeds the current upper limit has been generated Checking Overheat enables you to abandon measurement when an overheat problem has been generated Other Options Options other than about measurement can be configured as Preferences These options are also set separately from test conditions To set the options select Options Preferences menu Then the Preferences dialogue will appear In this dialogue you can set toolbar location how to jump among frames and measurement time display Toolbar O Timer Display i Remaining Elapsed Graphic Display Coarse C Normal E Tine Cancel Help Toolbar location Sets the location of the toolbar to Horizontal top on the screen or Vertical left of the screen Graphic Display Sets resolut
75. ory Quit other needless applications and then try again There is insufficient memory If other applications such as word processor is working at a time quit them to increase free memory capacity If the problem couldn t be solved by doing so try to restart Windows ERR 2103 This program must be run under 386 Enhanced Mode Your Windows seems running under Standard Mode This program requires 386 Enhanced Mode environment To check current operation mode choose Help About menu from Program Manager ERR 2104 File not found XXXX The file you attempt to open is not found XXXX denotes an actual file name ERR 2105 Cannot access xxxx The file may be locked by other software or insufficient disk space File access has been failed because other application software is opening the same file free disk space is insufficient or available file handles are insufficient Page 91 Low Frequency Emissions Analysis System User s Manual ERR 2106 Not valid file format XXXX The file you attempt to open is not a valid file for the VF1 format XXXX denotes an actual file name ERR 2107 Not enough disk space Delete needless files to increase available disk space Due to insufficient free disk space write operation for a file has been corrupted Arrange your hard disk drive to increase free disk space using File Manager ERR 2108 Couldn t execute XXXX The system couldn t execute an external program such as Waveform Viewe
76. pk Power Apparent Power Power Factor Cancel Help In the dialogue box you have to choose what transition you intend to see If you select Order poo E I Standard reference E Harmonics furthermore you have to select an order number from within 1st through 40th If you check Standard Reference placed below the order number selection you can display the result of that order Otherwise you can display just absolute values of that class You can view transition charts about following items Page 32 Low Frequency Emissions Analysis System User s Manual e Harmonics Components 1st through 40th e Voltage rms e Current rms e Current peak e Power e Apparent Power e Power Factor e Distortion Ratio e THC e PHC As an example we show a comparison among standard reference and absolute values for the 7th order harmonic Shown in A unit for the Y axis is absolute values and shown in unit is standard reference DynaLinzo 3 0 C HA30 PRINTER SP2 OY x BB Harmonics 7th Transition A 1 00 Axis Setup For 2D 3D Transition 0 60 O O A a Harmonics Ref 7th Transition Pals Ed 4 500 0 400 0 300 0 200 0 150 100 0 80 0 0 150 d y La Show a Transition window Histogram Window Histogram Windows represents distribution state paying attention the total number of times of a particular harmonic order The total number of times described
77. r analysis you cannot set this item and it is always disabled Page 71 Low Frequency Emissions Analysis System User s Manual Line Impedance Select impedance setting for the Line Impedance Network Note that you are still responsible for setting line impedance since the application doesn t set it automatically The information of this setting is used only for final analysis reports and there is no meaning else For information about line impedance settings see Appendix Setup For Line Impedance Network Start Measurement After the preparation has been done you can start measurement To begin the measurement the HAO1 unit needs to be controlled through the GPIB So if it is the first time to connect GPIB you might need to confirm that GPIB environment is configured properly GPIB Setup To connect an external GPIB instrument such as HAO1 unit first you must specify a GPIB device just like specifying an MS DOS file name The application software communicates with an external instrument through the GPIB with a device name So if you are the first time to use GPIB functionality in the application you have to set up the GPIB environment To confirm or change the GPIB setting select Options GPIB Setup menu Then GPIB Setup dialogue will appear prompting you to enter a GPIB device name Note that what you should enter here is a GPIB device name instead of its address GPIB Device Name is normally configured by the
78. r or PCR L Control Panel There is a possibility that the executable file is not found or insufficient memory Error Messages From Flicker Analyzer ERR 3001 Measurement Time must be between 00 10 and 24 00 in 10 minute unit or must be 5 minutes or 1 minute Setting values for measurement time are incorrect Enter correct values ERR 3009 Overheat detected Please shutdown the output from the power supply There is a possibility that a shunt resistance connected to the HAOI has an overheat problem Please quickly shutdown the PCR L output ERR 3010 Synchronisation of the PCR L is unlocked Check the synchronisation cable A synchronisation cable between HA01 and PCR L might be disconnected ERR 3011 Over range detected Please change the HA01 setup One of peak current has exceeded its range setting value Change the HAO setting in the test condition setup and then try again ERR 3100 Insufficient memory Quit other needless applications and then try again There is insufficient memory If other applications such as word processor is working at a time quit them to increase free memory capacity If the problem couldn t be solved by doing so try to restart Windows Page 92 Low Frequency Emissions Analysis System User s Manual ERR 3103 This program must be run under 386 Enhanced Mode Your Windows seems running under Standard Mode This program requires 386 Enhanced Mode environment To check current operation
79. ransition 10s Frame and Flicker Transition 10min Segment the setting of Y axis changes And in the Cumulative Probability window the setting of X axis changes Axis Sensitivity Frame And Segment As for windows that are corresponding to frame or segment described so far the portions currently displayed or focused can be moved You can browse frames and segments currently visible forward and backward as if you would turn pages over on a book Browsing Frames Choose Frame Previous Frame or Next Frame Then you can change the active frame actually shown in the Flicker Transition 10s Frame window To operate them it is easier to use the PageUp and PageUp keys and the toolbar Browsing Segments Choose Frame Previous Segment or Next Segment Then you can change the active frame actually shown in the Flicker Transition 10min Segment window To operate them it is easier to use the Alt PageUp and Alt PageUp keys and the toolbar The status line aligned at the bottom of Flicker Analyzer screen indicates total number of segments frames and their active numbers Segment1 12 Frame 1 60 In addition there is a short cut operation to jump to a specific frame number Selecting Frame Jump To menu will invoke a Jump dialogue that prompts you to specify a segment or a frame number to which you want to jump Page 80 Printing Low Frequency Emissions Analysis System User s Manual Segment na Can
80. re may be a problem that the GPIB driver has not been correctly installed or that associated device name is not defined in the GPIB driver configuration Or there may also be a case that not enough file handles are allocated in DOS Windows Then you have to close files that are left open If the problem couldn t be solved by doing so increase the settings on FILES in your CONFIG SYS and then reboot DOS system Typical Windows system requires FILES 50 or more as the FILES setting ERR 221 Cannot close GPIB device device name It might be a device driver problem GPIB access has been corrupted at the closing step device name denotes an actual device name There may be a problem that the GPIB driver has not been correctly installed or that associated device name is not defined in the GPIB driver configuration ERR 223 You attempted to connect to unrecognised instrument XXX Instrument connected to the GPIB is incorrect There is a possibility that a GPIB instrument other than HAO1 is connected In addition there may be a case that ROM version is not applicable even if an HAO1 unit Page 87 Low Frequency Emissions Analysis System User s Manual ERR 230 GPIB write error in device XXX Please check GPIB cable connection and driver setup A communication error has been generated at writing step to a GPIB instrument Please confirm that the GPIB cable is correctly connected HAO1 is turned on and GPIB address is correctly set
81. rom its display In printouts allowance level of the standard or guideline and associated results are also included Harmonics List and the final Analysis Report are formatted as A4 210 x 297mm or Letter 8 5 x 11in in portrait orientation Printing on smaller papers than these makes your printouts cross two or more pages and is not recommended Special notes for Class C analysis in harmonics measurement When analysing in Class C the system analyses harmonics components for each order based upon the fundamental wave Therefore it is recommended to choose Ignore below 25W 35W option if you measure a load which is below 35W Minimal current which is almost unloaded will cause extreme result values in Class C analysis which displays harmonics percentages Setting this option will disable judgements of such minimal current Page 40 Low Frequency Emissions Analysis System User s Manual Chapter 4 VF Analyzer Overview VF Analyzer The VF Analyzer is an application software that measures voltage fluctuation with a combination of Kikusui PCR L AC power supply Line Impedance Network and an HAOIF PCR L unit Now we summarise Voltage Fluctuation Analysis The VF Analyzer analyses data after 2 5 minute measurement and then displays it Graphs and analysis reports can also be printed out Now we summarise about voltage fluctuation analysis Setting Measurement 2 5min continuous Data Transfer
82. rs Info Operator Model Meno Condition Standard IEC 61000 3 3 Voltage 100 Y Frequency 50 Hz Measurement Time 150 s Volt Range 160 Curr Range 64 A Shunt 1 mohm Line Impedance None THRU Maximum Voltage Change 18 681 Y Maximum Relative Voltage Change 18 681 Voltag Shape U t Marking List Steady V Irms A Ipeak A 100 166 0 398 0 427 5 315 94 851 10 287 18 172 938 238 6 Operator Information As additional items for the report printings you can append information about an operator Choose File Operator Information menu Then the following Operator Info dialogue appears and fill out each item Page 63 Low Frequency Emissions Analysis System User s Manual Operator Info xi Operator fe Model A O Memo Date Time 07 03 01 10 42 Cancel Help Notes If you have not installed any printer driver yet you should install it using Control Panel program placed in the Main folder of Program Manager The final Analysis Report is formatted as A4 210 x 297mm or Letter 8 5 x 11in in portrait orientation Printing on smaller papers than these makes your printouts cross two or more pages and is not recommended Page 64 Low Frequency Emissions Analysis System User s Manual Chapter 7 Flicker Analyzer Overview The Flicker Analyzer is an application software that measures and analyses flicker values using an integrated system consist
83. s Mode Frame 1 469 In addition there is a short cut operation to jump to a specific frame number Selecting Frame Jump menu will invoke Jump To dialogue that prompts you to specify the frame number to which you want to jump Elapsed Time s p Frame No vs Elapsed Time Corresponding above explanation you have two ways to jump frame Frame No and Elapsed Time As the install default Elapsed Time is selected To change how to jump frame select Options Preference menu Toobar O Frame Jump i Frame No C Vertical Elapsed Time Timer Display C Remaining f Elopeod Cancel Help if Page 31 Low Frequency Emissions Analysis System User s Manual Types of Total Analysis Now we explain about windows associated with Total Analysis and how to operate them Since no windows associated with Total Analysis are displayed as default you have to open necessary windows by yourself Sorts of Total Analysis windows are roughly two however there are over 150 types exactly since these include lots of different items to be displayed Transition Window e Histogram Window Transition Window Transition Windows represent value transition focusing particular data item To do the transition analysis select View Transition menu Then a dialogue box that prompts you to select a data item Transition Selection x Voltage rms Current rms Current
84. se ESO Current p Power Transition Histogram Axis Setup For 2D 3D Frame Show or hide the Average Harmonics List window Content of the window is a list that displays average harmonics data over the entire test period as a numeric format Not only harmonics components situation data such as voltage or current is also shown This window is not displayed as default and you can show or hide it operating View Average Harmonics List menu The colour separation in the result view is the same as non average Harmonics List Page 30 Low Frequency Emissions Analysis System User s Manual Browsing Frames Five window types described so far Harmonics List 2D Spectrum 3D Spectrum Current Waveform and Phase indicate the same data occurred at a time and are represented at several points of view For example a Harmonics List and a 2D Spectrum shown at the same time represent completely the same data These displays associated with each other are explained as a Frame You can change the active frame that is actually shown browsing frames forward and backward exactly like browsing pages on a book Choose Frame Previous or Frame Next menu Then you can change the active frame actually shown To operate them it is easier to use the PageUp and PageDown keys and the toolbar The status line aligned at the bottom of DynaLinzo screen indicates total number of frames and active frame number Analysi
85. se option are set separately from test conditions To set the options select Options Measurement menu Then the Measurement Options dialogue will appear Measurement Options x En Es When gt a Measurement sel Mi E Y Download Waveform M Over Range Cancel Help Interrupt When Checking Over Range enables you to abandon measurement when a peak current that exceeds the current upper limit has been generated Checking Overheat enables you to abandon measurement when an overheat problem has been generated After Measurement DynaLinzo automatically downloads harmonics data after measurement has been done Checking Download Waveform allows you to read not only harmonics data but also current waveform data All of the settings described above are enabled as the install default And changes will be preserved for use of next time Page 21 Low Frequency Emissions Analysis System User s Manual Other Options Save Data Options other than about measurement can be configured as Preferences These options are also set separately from test conditions To set the options select Options Preferences menu Then the Preferences dialogue will appear In this dialogue you can set toolbar location how to jump among frames and measurement time display Preferences Eg Toolbar Frame Jump BR E 4 Frame No 2 Ver ical Elapsed Time Timer Display Remaining g
86. t Time Note Although the character of delta is strictly Ain Greek language the screen image of the application program displays this character as delta since Greek characters are not supported in the Windows system font Page 43 Low Frequency Emissions Analysis System User s Manual Run VF Analyzer To run the VF Analyzer double click VF Analyzer icon from the Program Manager Then the initial screen of VF Analyzer appears and then Startup dialogue box will appear Here you can either begin a new measurement or open an existing data file Or you can return to the default screen of VF Analyzer closing the dialogue with the Cancel button Described below are the default contents of the VF Analyzer initial screen Voltage Shape U t window Caption bar Relative Voltage Change d t window Toolbar T VF Analyzer C KIKUSUINHA30 SAMPLE S VACUUM VF1 File View Measure Tools Options Window Help Voltage Shape U t 100 1 120 150 s el 120 150 y M zl El 150 s sl Data Length 150 secgnds Voltage Change deltaU t window Status Line Steady State window Voltage Shape U t Window This window represents transition of voltage rms values for both positive and negative polarities Voltage Change delta U t Window This window represents absolute differences between adjoining data points of above mentioned Voltage Shape U t graph Relative Voltage
87. t Japan the 3rd and 5th harmonics are to be evaluated even though the data is 25W IEC 35W Japan or lower power Also you need to evaluate current wave phases When these selections are made the Wave Viewer shows additionally vertical gridlines on its screen Page 36 Low Frequency Emissions Analysis System User s Manual By DynaLinzo Wave Viewer Frame 32 Identify Waveform Return To DynaLinzo dotted lines 60 65 90 deg markers dosoiasas 3 1 1 i i 1 1 T i 1 i 1 1 1 TT T i i 1 i i 1 i i 1 1 i 1 Cycle 1 16 These gridlines shows 60 65 90 240 245 270 deg locations based on the voltage phase Evaluate the current phase by following to the requirements of the IEC std or Japan Guideline Selecting Identify Phase menu also displays phase angles and current values for each data point and utilize these data for identification work In the display the data coloured in red means the positive peak and the data coloured in blue means the negative peak Bi Phase Identification Pt Phase data number Phase deg Phase angle Value A Current value Since this software does not do the identification for current waveforms automatically you have to do it by yourself We recommend to set Sampling setting to 1024 on the test condition to increase accuracy of current waveforms However the finest sampling interval is
88. t monitor functionality If you want to do it check the Do Monitor check box After returning to the Panel page the monitor functionality will start Page 84 Low Frequency Emissions Analysis System User s Manual GPIB Device This setting specifies the GPIB device name through which this program communicates with your PCR L AC Power Supply Note that what you should enter here must be a GPIB device name instead of its address GPIB Device Name is normally configured by the driver of National Instruments GPIB Immediately after the installation of this system the default device name will be DEV5 Also the GPIB address of your PCR L should be 5 to avoid a collision with addresses of HAO1 units Y PCR L Control Panel GPIB Device Name DEVS y Panel Monitor Setting GPIB Device Page 85 Low Frequency Emissions Analysis System User s Manual Appendix 1 Setup For Line Impedance Network This section describes about switch settings for Line Impedance Network LIN40MA PCR L If you are using a Line Impedance Network LIN40MA PCR L you must set switches on it to appropriate positions so that accurate measurement can be performed complying with the standard Note that switch settings differ depending on what item you are measuring Tables shown below are switch settings needed for each measurement item Harmonics Analysis DynaLinzo LIN Settings IMPEDANCE SELECT IMPEDANCE Standard Rear Front IE
89. ta file you might have to pay attention how much disk space is required for a data file Actually the size of a data file depends on test conditions especially settings of HAO1F and whether current waveform data is included or not The following table shows examples of file size for several typical measurement conditions Every case includes waveform data Test Conditions File Size Frequency 50Hz Sample Points 256 DFT Window 16 Measurement Time 150 seconds approx 603 Kbytes Frequency 60Hz Sample Points 256 DFT Window 16 Measurement Time 150 seconds approx 720 Kbytes Frequency 50Hz Sample Points 1024 DFT Window 2 Measurement Time 150 seconds approx 3 Mbytes Frequency 60Hz Sample Points 1024 DFT Window 2 Measurement Time 150 seconds approx 3 5 Mbytes Even if the same measurement time depending on settings of Sample Points and or DFT Window the file size may be very large Page 23 Low Frequency Emissions Analysis System User s Manual Generating CSV Files DynaLinzo allows you to generate entire harmonics data as CSV files which can be read by other spread sheet applications such as Microsoft Excel or Lotus 1 2 3 To generate a CSV file first bring the Harmonics window to the front and select File Save As CSV Format menu Then a dialogue box which prompts you to decide CSV file name and frame range for the harmonics data File Path Save As Frame Range Erom Poo Io 469 OK Cancel tL
90. tage Change delta U t Window Ts VF Analyzer C KIKUSUISHA30 SAMPLE S YACUUM YF1 MEN Measure Tools Options Window Help ee Voltage Shape Voltage Ratio Shape z deltaU t Zoom And Mark Marking List Axis Setup 120 1501s Show or hide the Voltage Change or deltaU t window This window represents differences between adjoining data points of above mentioned Voltage Shape data as absolute values Placing the mouse cursor on the graph screen a set of data on the mouse cursor location will be displayed on the status line Listed below are data contents shown on the status line Time Time on the mouse cursor location Data Graph Data on the mouse cursor location differences of each half wave voltage rms e Vrms voltage rms of full wave Irms current rms of full wave Ipk maximum current value in entire full waves Power power of full wave Relative Voltage Change d t Window Ts VF Analyzer C KIKUSUISHA30 SAMPLES VACUUM VF1 Mine Measure Tools Options Window Help ee Voltage Shape Voltage Ratio Shape ge Change Zoom end Merk Allez Marina List ENHE Axis Setup 120 150 s z Page 56 Low Frequency Emissions Analysis System User s Manual This window represents relative values of above mentioned Voltage Change delta U t graph Actually data displayed on it are values of Voltage Change divided by nominal voltage or voltage actually measured Placing the mouse cursor on
91. tart the next measurement as well as the first time After measurement data will be downloaded and displayed However the existing data will be lost since the new data is overwritten Measurement With Changing HA01 Settings If you want to restart measurement changing HAOI1 settings such as Range or Measurement Time you need to clean up exiting data once VF Analyzer never recognises to change HAO1 settings holding measured data This avoids disagreement between existing data and HAO1 settings Therefore it is necessary to clean up existing data once To clear the existing data select Measure Clear Data menu And then select Measure Test Conditions menu to change the HAO1 settings After changing conditions you can just start the new measurement Measurement From Scratch In this case select File New menu The Test Condition dialogue will appear returning all the test conditions to default In addition associated file name also changes to Untitled Page 49 Low Frequency Emissions Analysis System User s Manual When Abnormal Measurement Termination VF Analyzer will abandon measurement when the system has been encountered with one of the following events GPIB Line Problem Synchro Cable Problem among PCR L and HAO1 Over Range Overheat GPIB Line Problem If an abnormality has been generated on the GPIB line for instance when the cable has been disconnected or when the supply of HAO1 has been suspe
92. ted lamp option If you checked 25W or below Europe mode or if you checked both 35W or blow and Self ballasted lamp Japan mode a judgement that is different with conventional Class C judgement will be applied That is a kind of expanded Class C which has different limit values for 3rd Sth and requires peak phase evaluation for each of current waveform at 60 65 90 240 245 270 deg phase points If you chose Japan 35 or below but did not chose the Self ballasted lamp option then instruments that are 35W or below are just excluded Notes If you selected Class C Ignore 25W or Below with IEC std target Europe or if you selected Class C Ignore 35W or below Self ballasted Lamp with Japan Guideline target Japan you also need to perform a Class D equivalent evaluation even if your equipment under test belongs to Class C Since this software cannot do the evaluation for Class C and Class D at the same time you have to switch Class C and Class D as need You can switch between these classes after the measurement has been done When you do the evaluation for your Class C equipment with a temporary Class D operation we recommend you to put information onto the Operators Info as necessary so that printed reports can be identified easily If you choose the 25W or below 35W or below option you also need define the wattage value Page 13 Low Frequency Emissions Analysis System User s Manual Ignore over 19th if ge
93. tes a Pst short period flicker value in every 10 minute duration has been elapsed If there are more than one segment in a measurement corresponding Pst values for each segment will be calculated For instance if you do a 2 hour measurement twelve Pst values must exist 100 80 50 30 PF P80 P50 P30 Cumulative Probability Graph A Pst value is calculated with the following formula from flicker values such as P80 P50 P30 P0 1 corresponding each percentage for the cumulative probability P50s P30 P50 P80 3 P10s P6 P8 P10 P13 P17 5 P3s P2 2 P3 P4 3 Pls P0 7 P1 P15 3 Pst 0 0314P0 1 0 0525P1s 0 0657 P3s 0 28P10s 0 08P50s Only one Plt long period flicker value exists in a unit of measurement data To get the Plt value furthermore this system calculates a cube root of average of cubed Pst values for each 10 minute Pit a LE P Pst N Page 67 Low Frequency Emissions Analysis System User s Manual lt 10 minutes gt lt 10 minutes gt lt 10 minutes gt Cumulative Probability Cumulative Probability Cumulative Probability Pst Pst Pst Pit Run Flicker Analyzer To run the Flicker Analyzer double click Flicker Analyzer icon from the Program Manager Then the initial screen of Flicker Analyzer appears and then Startup dialogue box will appear Here you can either begin a new measurement or open an existing data file Or you can r
94. the graph screen a set of data on the mouse cursor location will be displayed on the status line Listed below are data contents shown on the status line Time Time on the mouse cursor location Data Graph Data on the mouse cursor location relative differences of each half wave voltage rms Vrms voltage rms of full wave Irms current rms of full wave Ipk maximum current value in entire full waves e Power power of full wave Steady State Window Ts VF Analyzer C KIKUSUISHA30 SAMPLES VYACUUM _YF1 MGLA Measure Tools Options Window Help ee Voltage Shape Woltage Ratio Shape Voltage Change ive Voltage Change ate ate zoom And Mak Merking list Axis Setup Show or hide the Steady State window This window represents a list of Steady State data However nothing will be shown immediately after measurement Every item can be shown only when at least one marking that will be discussed after the next section has been set In addition placing the mouse cursor on this window doesn t represent any status line display Page 57 Low Frequency Emissions Analysis System User s Manual Axis Setup You can set Y axis of all the graphs other than Steady State window Selecting View Axis Setup invokes Axis Setup dialogue box prompting you to enter appropriate values for each graph individually Axis Setup x Set sensitivity for each graph Voltage Shape 2 20 Y Volt Change Y
95. to install sample needed to install sample data files data files Power Supply Kikusui PCR L AC Power Supply Kikusui PCR L AC Power Supply with an Line Impedance LIN4OMA PCR L Line Impedance LIN4OMA PCR L Line Impedance Harmonics Harmonics Analyzer HAO1F PCR L Harmonics Analyzer HAO1F PCR L ROM version 2 0 or higher ROM version 2 0 or higher Page 101 Low Frequency Emi DynaLinzo ssions Analysis System User s Manual Number of phase to be 1 Single Phase measured Data to measure Fluctuating Harmonics 1 to 40th oe Current Waveform Standard compatible Japanese Harmonics Guideline Japan Mode AAA 61000 3 2 Europe Mode Judgement exclusion Ignore above 19th if gently fall all classes Ignore below 5mA 0 6 all classes Consider above 600W Class A Japan Ignore 35W or below Class C Japan Class D Japan Ignore 25W or below Class C Europe Ignore 50W or below Class D Ignore 75W or below Class D Waveform amp Peak Phase Judgement assistance functionality is provided using judgement Wave Viewer Judgement Margin Can set 10 to 100 of allowance level in 10 unit Available Voltage 100 200 230V Available Frequency 50 60Hz Data representation Harmonics List 2D Spectrum 3D Spectrum Phase Average Harmonics List Transition charts for all items Histogram charts for specific order Report Generation Analysis Report of fluctuating harmonics English only Page 102 Low Frequency Emissions Analysis
96. two markings that have a time difference 1 second or less are inferred as close or overlapped It is convenient that each marker shape has an equivalent width to second If you are marking on Voltage Ratio Shape U t Un markings the markings can be placed at any location unless placing on existing positions also up to 20 markings If the aim of marking point has been fallen you can fine adjust the location with the Left Arrow and Right Arrow keys on the PC keyboard In this operation a marking that can be fine adjusted is called focused marking The focused marking is one with a highlighted number label Normally a marking that has been added latest is focused To move the focus to another press Tab or Shift Tab key Page 61 Low Frequency Emissions Analysis System User s Manual Marking List Display You can view all the existing markings as a list format To show the marking list activate the base window and then select View Marking List menu Then a Marking List dialogue will appear Marking List xi Voltage Shape U t _ Timersi _Datarv _ votmsxv Currermsyia Curros o a 2 a Graph Resolution Setup The resolution of graphic display can be changed Setting the resolution to Coarse makes graphs be able to draw quickly however peak components such as glitches might not be shown correctly Setting the resolution to Fine makes graphs be able to show peak components correctly however display sp
97. ughout entire harmonics data By doing it you can see data at a moment on the time axis in detail In this case the minimal unit of the time axis is called Frame Assuming the entire harmonics data was a book a frame would be a thing like a page Similarly to reading browsing pages you can view entire data browsing frames forward or backward Now we discuss about concept of frame more in detail The DynaLinzo system analyses for each window width throughout entire data using DFT Discreet Fourier Transformation algorithm A result fragment calculated from a DFT window is called a frame One frame involves Harmonics Data Phase Data Waveform Data and other Situation Data Number of frames in a packet of measurement data and time width for each frame are calculated using following formula Frequency Hz DFT Window DFTWindow Frequency Hz NumOfFrame MeasureTime s x WindowTimeWidth s How to analyse browsing frames is described in the next section Total Analysis This method is to analyse summarising all the measured frames Total Analysis is furthermore divided into Transition Analysis and Distribution Analysis The Transition Analysis is what represents transition characteristics of a specific data item Transition of the 7th order of harmonics or Power in whole of the measurement time is a good example of Transition Analysis Distribution Analysis is what shows a histogram chart representing judgement
98. xample Date 19 Feb 2001 19 20 Conditions Standard Class Japanese Harmonics Guideline Class D Voltage 100 V Frequency 50 Hz Test Period 150 s Margin 80 Total Frames 469 Definitions Wattage Measured Power Factor Specified specified value 0 800 Fundamental Current Specified specified value 1 000 HAO1H Hardware Settings Volt Range 160 V Curr Range 32 A Shunt 4 mohm Sample Points 256 DFT Window 16 Line Impedance None THRU Page 94 Low Frequency Emissions Analysis System User s Manual Relative frequency of over limit Page 95 Low Frequency Emissions Analysis System User s Manual Longest contiguous harmonic currents over 100 limits Order Length StartAt Page 96 Low Frequency Emissions Analysis System User s Manual Worst harmonic currents to applied limits Order Worst Limit Worst Limit Time Page 97 Low Frequency Emissions Analysis System User s Manual Average harmonic current analysis Order AveData Limit Ave Limit Judgement Lo Sz 6 ws Pa 0 0 0 0 0 0 0 0 0 o w The Final Judgement NG Compliant with the standard Signature Page 98 Low Frequency Emissions Analysis System User s Manual VF Analyzer Report Printing Example VF Analyzer 8 19 94 16 05 Operators Info Operator Model Sample Copy M Memo Kik Condition Standard IEC 61000 3 3 Voltage 100

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