Model 8336 PowerPad ® III
Contents
1. NOTE Currents lt 10A will be displayed as zero Neutral current measures down to OA if 6500A or 10kA is selected Currents lt 100mA will be displayed as zero Neutral current measures down to OA if 100A is selected 128 Power Quality Analyzer PowerPad Ill Model 8336 MiniFlex Sensors Nominal Range 3000AAc 100mA to 3000Aac Probe Output Signal 47mVac 1000Aac at 60Hz 39 1 at 1000Aac 50H2 Sensor Length 10 250mm 2 75 70mm EN 61010 2 032 Pollution Degree 2 600V CAT IV 1000V CAT II Output is proportional to the amplitude and frequency of the measured current NOTE Currents lt 10A will be displayed as zero Neutral current measures down to OA if 6500A or 10kA is selected Currents lt 100mA will be displayed as zero Neutral current measures down to OA if 100A is selected Model SL261 Nominal Range 10A to 100Aac Measurement Ranae 100mV A 100mA to 10A peak Je 10mV A 1 to 100A peak Probe Output Signal 1000mV peak max Maximum Clamping 0 46 11 8mm EN 61010 2 032 Pollution Degree 2 600V CAT Ill NOTE Currents lt 0 5A will be displayed as zero Neutral current measures down to OA Model J93 Nominal Range 3500Aac and 5000Apc 50 to 3500AAc 50 to 5000Apc Maximum Clamping 0 2 83 72mm Measurement Range Variation of the position of lt 420 the conductor in the sensor Ed Adjacent conductor carrying gt 35 dB typical DC to 2kHz alternating current IEC 61010 22. 39 5 DISPLAY MODES To select parameters in all modes use the UB AV buttons to move to the desired parameter and use the NG button to confirm selections 5 1 WAVEFORM CAPTURE MODE Gi The Waveform capture menu enables you to display and to capture transients and inrush currents It contains two sub modes m Transient mode see 5 1 1 m Inrush current mode see 8 5 1 2 HIS WAVEFORM CAPTURE EHI Transient A lnrush current Figure 5 1 To select the sub mode highlight either Transient or Inrush current using the A and V buttons then press zl To return to the Waveform Capture screen press 40 Power Quality Analyzer PowerPad Ill Model 8336 5 1 1 TRANSIENT MODE Q The Transient menu is used to record transients look up the list of recorded searches and the list of transients they contain or erase them You can record up to 7 detections and 210 transients When the Transient mode is selected the display screen will depend on the following conditions if then no record has been made the Detection Schedule screen is displayed transients have been recorded the List of Seaches for Transients screen is displayed 5 1 1 1 PROGRAMMING AND STARTING A SEARCH To program the search for a transient select Transient by pressing the Kl button in the Waveform Capture screen see Figure 5 1 The Detection Schedule screen is displayed CH DETECTION SCHEDULE Start 1 412713 09 11 am ba S
3. Use the arrow buttons to change colors To return to the Configuration menu press 20 Power Quality Analyzer PowerPad Ill Model 8336 4 1 2 3 DISPLAY SHUTDOWN The Display Status button displays a menu that defines the display shutdown process DISPLAY STATUS A Automatic F Figure 4 5 Use the A and V buttons to choose Automatic or Never m In Automatic mode the display turns OFF automatically after e 5 minutes of inactivity when the instrument is powered by the battery and a recording is in progress e 10 minutes if no recording is in progress m The ON OFF button D blinks to indicate that the instrument is still in operation Press any button to relight the display To return to the Configuration menu press 2 4 1 2 4 BACKGROUND COLOR NIGHT MODE The Night mode button displays a menu that initiates night mode on the display In night mode the screen displays reverse video and all colors are changed BACKGROUND COLOR A Deactivated Figure 4 6 Use the A and V buttons to activate or deactivate night mode Power Quality Analyzer PowerPad Ill Model 8336 21 4 1 3 CALCULATION METHODS The Calculation Methods menu X3 defines Breakdown or no breakdown of the non active quantities Unit of energy Reference for the level of harmonics of the phases Coefficients of calculation for the K factor Method of calculation of the long term flicker 4 1 3 1 NON ACTIVE QUANTITIES The va
4. m Measurement of the total harmonic distortion with respect to the RMS AC value THD in r for the current and the voltages neutral included m Active reactive capacitive and inductive non active distortion and apparent power by phase and cumulative excluding neutral Power factor PF and displacement factor DPF or cos excluding neutral Measurement of the RMS distortion value d for the current and the voltages excluding neutral Short term voltage flicker PST excluding neutral Measurement of the long term flicker of the voltages PLT excluding neutral Active reactive capacitive and inductive non active distortion and apparent energy excluding neutral Current and voltage harmonics excluding neutral up to order 50 RMS value percentage referred to the fundamental Yof excluding neutral or the total RMS value Yor minimum and maximum and sequence harmonics m Apparent harmonic power up to order 50 excluding neutral percentages referred to the fundamental apparent power Yof or the total apparent power Yor minimum and maximum of a rank m Inrush currents starting of motors Power Quality Analyzer PowerPad Ill Model 8336 9 2 3 DISPLAY m Waveforms voltages and currents m Frequency Bar Chart voltages and currents m Inrush Current Function displays parameters useful for study of the starting of a motor e Instantaneous current and voltage at the instant designated by the cursor
5. Confirm your selections by pressing SJ To return to the Configuration menu press D NOTE You cannot modify thresholds in the transient mode if the instrument is searching for transients Power Quality Analyzer PowerPad Ill Model 8336 31 4 1 6 2 TRANSIENT CURRENT THRESHOLDS A second 4 Thresholds screen displayed by pressing the A icon configure the current thresholds independently of the current sensors detected by the instrument The thresholds programmed can be the same for all channels or different for some or all of them FiA CURRENT THRESHOLDS Threshold Setup 44 Figure 4 17 To change the current thresholds press NG Use the A and V buttons to choose configuration of the thresholds m 4A all current sensors have the same threshold Press the NG button then use the A and V buttons to highlight the value of the threshold in yellow Press the NS button then use the arrow buttons to change the threshold The unit can be A kA or mA m 3At AN all current sensors have the same threshold and the one comnected to the neutral has a different threshold Proceed as when there is only one ratio but perform the operation twice m A1 A2 A3 AN each current sensor has a different threshold to be programmed Proceed as when there is only one ratio but perform the operation several times Confirm your selections by pressing SJ To return to the Configuration menu press D NOTE You cannot modify threshold
6. DECIT o S1 13 15 17 18 2al 23 25 O Figure 5 19 Item Function Data about harmonic indicated by cursor A h05 harmonic number level of harmonics with fundamental RMS value f or total RMS value r as reference A RMS current of harmonic 4178 phase shift with respect to fundamental order 1 max min maximum and minimum levels of harmonic Reset when harmonic number is changed or SJ pressed THD total harmonic distortion Ad RMS distortion current 2 Harmonic selection cursor change values with the cursor using the 4 and B buttons Horizontal axis indicates orders of harmonics Level of harmonic is given as a percentage with respect to the fundamental or to the total RMS value Range DC DC component 1 to 25 harmonics of order 1 to 25 When the cursor exceeds order 25 order 26 to 50 appears NOTE Filters L2 and L3 display the current harmonics of phases 2 and 3 respectively The screen is identical to the one displayed for filter L1 There is no phase shift or distortion value for the neutral channel 54 Power Quality Analyzer PowerPad Ill Model 8336 5 2 3 APPARENT POWER The S sub menu displays the harmonics of the apparent power for all connections except 3 wire 3 phase The horizontal axis indicates the orders of the harmonics The bars of the bar chart above the horizontal center line signify harmonic power consumed those below it harmonic power generated 3L APPARENT POWER HARMONICS oh O30 5Aw o
7. 1A A l ee MN93 clamp 200mA 240A 100mA 196 1A 1 100mA ane 2 5 5A 2 5 5A 2 5 200MA F 2A hn A lt 1 th 1 2A A3 aa Mes clamp TI 200mA 282 8A 100mA 1 200mA 3 600mA 1 3500 x V2 4 950 1000 x N2 1414 200 x V2 282 8 100 x N2 141 4 10 x N2 14 14 10 000 x N2 14 140 6500 x V2 9192 120 Power Quality Analyzer PowerPad Ill Model 8336 Quantities concerning powers and energies Measurement range without ratio Measurement with unity ratio Display resolution with Unity ratio Maximum intrinsic accuracy 1 Excluding cos D 0 8 AmpFlex MiniFlex Kal 5 z e i 2 lt cos lt 0 SE P 10mw 8 10MW 4 digits at most O 1 1 AmpFlex cos D 0 8 MiniFlex 1 5 10cts 0 5 lt cos lt 0 8 1 Excluding sin gt 0 5 AmpFlex Reactive MiniFlex E Se Pa oe 2 2 lt sin lt 0 power IO 10mvar 10Mvar 4 digits at most and non 1 5 active N sin dh gt 0 5 AmpFlex MiniFlex 2 5 20cts 0 2 lt sin lt 0 5 4 20cts if V n gt 1 t lt 100 n or 4 digits at most 2 in x 0 5 100cts THD lt 20 f 2 n_ x 0 7 10cts THD gt 20 f 126 Distortion power D 10mvar 9 10Mvar Apparent power S 10MVA 0 DC power Pdc 20MVA Power factor PF H 10MVA 4 digits at most O 6MVA 9 4 digits at
8. Any screen can be saved screen snapshot by pressing the button for three seconds see 8 5 7 You can press the Help button at any time The Help screen will inform you about the functions and the symbols used for the current display mode Refer to 5 for detailed information on the available display modes HI Waveform Capture lu Harmonics NJj Waveform Measurements fe Alarm Recording e Recording Trend Mode W Power and Energy Measurements Screen Snapshot Power Quality Analyzer PowerPad Ill Model 8336 17 4 CONFIGURATION 4 1 CONFIGURATION SET UP MENU The Configuration button D lt S displays the Configuration menu This menu enables you to configure the instrument This must be done before each new type of measurement The configuration settings remain in memory even after the instrument is turned OFF Display Calculation hdethods Electrical Hook up Probes and Ratios Capture Wiode Trend Mode Alarm Mode Erase Memory About Figure 4 1 When working with the Configuration menu use the arrow buttons A or V or d or gt to navigate through the menus and options then use the NG button to select and validate your choices The Configuration menu allows you to define the following parameters PARAMETER Date Time Display Calculation Methods Electrical Hook Up 18 FUNCTION Sets the date and time format see 8 4 1 1 Adjusts the contrast and brightness of the display s
9. referred to the fundamental of current AmpFlex amp MiniFlex 2 Na x 0 6 Scts n 525 Total voltage harmonic distortion THD referred to the signal without DC of voltage 2 5 5cts 2 5 5cts sivnz21 7 lt 100 n Total current harmonic distortion THD referred to the fundamental excluding AmpFlex amp MiniFlex Dn 29 2 Na x 0 5 Scts n gt 29 122 Power Quality Analyzer PowerPad Ill Model 8336 2 5 5cts si V n 2 1 t lt 100 n Total current harmonic distortion THD referred to the signal without DC of current 0 100 2 Na x 0 2 Scts excluding AmpFlex amp MiniFlex Dn 29 2 Na x 0 5 Scts Ne 20 2 5 5cts si v n gt 1 7 lt 100 n 96 Total current harmonic distortion THD referred to the signal without DC of current 0 100 2 Na x 0 3 Scts AmpFlex amp MiniFlex Dn 29 2 N a x 0 6 Scts A 5 N a x 0 4 Scts NS 29 10 Na x 0 7 Scts 1 Ng gt 25 Se ee NIT 1 x nz 125 Note n_ _ is the highest order for which the harmonic ratio is non zero 99 99 0 01 5 N a x 0 4 Scts N29 Harmonic loss factor FHL 1 99 99 10 Na x 0 7 bcts n 525 a Power Quality Analyzer PowerPad Ill Model 8336 123 tere er range Display resolution Measurement KR EE ratio pay Maximum intrinsic accuracy with unity ratio RMS harmon
10. 3 button 34 Power Quality Analyzer PowerPad Ill Model 8336 The recordable values are Unit Designation Um RMS phase to phase voltage Ude DC phasexo phase voltage O O O Upk Minimum peak value of phase to phase votes ue Crest eas factor of phase to phase voltage Uthaf Harmonic distortion of the phase to phase voltage with the RMS value of the fundamental as reference Uthdr Harmonic distortion of the phase to phase voltage with the total RMS value without DC as reference vae DC phasero neuralvetage S SOOS EE Ade Dommen Act rest factor ofcurent O later Pac DCpower OSS lat Reactive power fundamental N Weste D Diserionpower OOS S lApparentpower PF Powerfactor OOS edel Cosine of the phase shift of the voltage with respect to the current displacement factor or fundamental SEH factor DPF tano PST PU O FHL FK Vunb or Phase to neutral voltage unbalance set up with neutral Phase to phase voltage unbalance Uunb set up without neutral Hz Network frequency U h Harmonics in phase to phase voltage o Veh Harmonics in phase to neutral voltage Ah Harmonics in current Sh Harmonicsinpower Power Quality Analyzer PowerPad Ill Model 8336 35 The last four entries in the preceding table U h V h Ach and S h involve the recording of the harmonics of U V A and S You can select a range of orders of the harmonics to be recorded between 0 and 50 for each of these
11. Click Next 8 Re ad the terms of the license agreement If agreeable indicate your acceptance and click Next 9 Inthe Customer Information window enter a Name and Company then click Next 10 In the Setup Type window that appears select either Complete to install DataView files in the default directory or Cu stom to choose a directory Then click Next 11 The Select Features window appears This enables you to select the DataView Control panels you want to install 94 Power Quality Analyzer PowerPad Ill Model 8336 DataView InstallShield Wizard Select Features Select the features setup will install Select the features you want to install and deselect the features you do not want to install Description PowerPad and I Models 8230 3945 3945 B 8335 PowerPad Ill Models 8333 8336 8435 Power Clamp Meter Models 407 607 Wattmeter Model 822 84 34 MB of space required on the C drive 346641 52 MB of space available on the C drive Weg Figure 6 3 Select Power amp Quality Analyzers and any other instrument control panel s that you want to install You can also deselect any Control Panel that you do not need Then click Next D NOTE The PDF XChange option must be selected to be able to generate PDF reports from within DataView 12 In the Ready to Install the Program window click on Install 13 If the instrument selected for installation requires the use of
12. ER D L2 LD Ty Oo d 15 02 19 02 eOf02 21 02 daia Figure 5 63 Item Function 1 Changes the scale of the display between 1 minute and 5 days Power Quality Analyzer PowerPad Ill Model 8336 83 The display has not been stopped and is therefore complete The following table indicates the time needed to display the graph on screen as a function of the width of the display window for a recording period of one second Typical waiting time for Typical waiting time for display Width of display window display with the with the Grid increment 60 points or increments MIN AVG MAX mode MIN AVG MAX mode deactivated activated These times can be long you can stop the display at any time by pressing You can also at any time press e wifi or w to change the scale of the display e dorB to move the cursor e A or Y to change the display filter NOTE Pressing these buttons may restart the loading and or calculation of the values from the beginning 84 Power Quality Analyzer PowerPad Ill Model 8336 5 6 POWER AND ENERGY MODE WVV The WV Power and Energy button displays power and energy measurements The sub menus available depend on which filter is selected m For 2 and 3 wire single phase connections and for the 2 wire 2 phase connection only L1 is available The filter is therefore not displayed but the display is the same as for L1 m For the 3 wire 3 phase connection only the 2 filter selection i
13. approx Operating Temperature 32 to 122 F 0 to 50 C Recharging Temperature 50 to 104 F 10 to 40 C Storage Temperature 4 to 122 F 20 to 50 C for s 30 days Typical current when meter is Active power W Apparent power VA Co tw RMS current mA 180 D Power Quality Analyzer PowerPad Ill Model 8336 117 9 2 5 ACCURACY SPECIFICATIONS EXCLUDING CURRENT PROBES Quantities concerning currents and voltages Measurement range without ratio Measurement with unity ratio Nia 0 5 200mV 2V 1000V eg 0 RMS V gt 1000V BIN voltage S Dee 0 5 200mV compound 2000V wW U gt 1000V al aN 100mV ee V lt 1000V 1 500mV i 1V SC VS 1000V 1 1V voltage DC 100mV e DC k age Ter 1 500MV compoun 1V S U gt 1000V SE 100mV V 1000V 1000V VI me 0 8 1V RMS 7 2 V gt 1000V voltage 100mV U lt 1000V compound 2000V e 0 8 1V U gt 1000V 100mV V lt 1000V 1414V me 3 2V Peak V gt 1000V voltage 100mV compound U lt 1000V Severity of short term flicker PST 1V Severity of long term flicker PLT Display resolution with unity ratio Accuracy N lt N lt N lt N lt N lt N lt 2828V 4 3 2V U gt 1000V See the a corresponding table 0 01 Accuracy of PST 1 5cts CF lt 4 0 01 5 2cts CF 34 Peak factor PF voltage and current NO 118 P
14. are reset 5 7 SCREEN SNAPSHOTS The button enables you to take up to 50 screen snapshots and display the recorded snapshots Saved screens can then be downloaded to a PC using DataView Press the button for approximately three seconds to shoot any screen displayed on the instrument When a screen snapshot is taken the icon of the active mode 2 6 D lu A t W in the top strip of the display unit is replaced by the icon You can then release the button The instrument can record only 50 screen snapshots If you want to record a 51st screen the instrument informs you that snapshots must be deleted by displaying the icon in place of FO d 03710714 11 25 d 03 0044 11 33 J 03 10 14 11 36 J 03 10 14 11 45 J 03 10 14 11 52 d 03 10 14 11 55 3 0341014 12 05 d 03 10 14 12 08 d 03710414 12 10 3 03 10 14 12 15 J 03 10 14 12 22 J 0371014 12 25 Figure 5 72 Item Function 1 Available image memory Black represents memory used 2 List of saved snapshots Each icon represents the type of screen recorded It is followed by the date and time of the screen snapshot 3 Icons for browsing through the screen pages 4 Displays a list of snapshots D NOTE These screens can be downloaded to a computer using DataView Power Quality Analyzer PowerPad Ill Model 8336 91 5 7 1 VIEWING A SNAPSHOT A short press about 1s on the button gives access to the menu of snapshots that have been saved m Use the arrow buttons to selec
15. e Maximum instantaneous absolute value of the current and of the voltage over the entire starting time e RMS value of the half cycle or lobe of the current and voltage excluding neutral on which the cursor is positioned e Maximum half cycle RMS current over the entire starting time e Instantaneous network frequency at the instant designated by the cursor e Maximum mean and minimum network frequencies over the entire starting time e Time at which starting of motor commenced m Screen Captures 50 maximum Transients Function Detection and recording of transients up to 210 between user defined start and stop dates and times Recording of four complete cycles one before the triggering event and three after on the eight acquisition channels m Trend Recording data logging Function 2GB memory with date stamping and user defined start and stop dates for recording with a maximum of 100 recording sessions Display in bar chart or graph form of the means of many parameters vs time with or without minima and maxima m Alarm Function List recorded alarms up to 16 000 exceeding thresholds defined in the configuration menu User defined alarm monitoring start and stop times 2 4 CONFIGURATION m Date and time setting m Screen brightness setting m Graph colors m Display management m Night mode m Calculation methods non active quantities broken down or not choice of the unit of energy choice of the coefficients of
16. 032 pollution degree 2 600V CAT IV 1000V CAT Ill 9 3 CLASS B UNDER STANDARD IEC 61000 4 30 9 3 1 CONFORMITY OF THE DEVICE The Model 8336 and its DataView Control Panel software are compliant with class B of standard IEC61000 4 30 for the following parameters e Industrial frequency e Supply voltage amplitude e Flicker e Supply voltage brownouts e Temporary overvoltages at industrial frequency e Supply voltage blackouts e Voltage transients e Supply voltage unbalance e Voltage harmonics NOTE To ensure this compliance trend recordings Trend mode must be made with e A recording period of one second e The quantities Vrms and Urms selected e The quantities V h01 and U h01 selected Power Quality Analyzer PowerPad Ill Model 8336 129 9 3 2 ACCURACY AND MEASUREMENT RANGES Industrial frequency 42 5HZz 69Hz 50V 1000V Supply voltage amplitude 50V 1000V 1 of U 50V 1000V V e 120V 230V Residual voltage 5 or U 2 of U Supply voltage 80 ppm 10 ms maximum SOV 1000V peas Duration SE 30 oon 10 typical overvoltages at Maximum a Temporary Udin 150 of Udin 2 of U BE D een Luenen DEE Supply voltage 80 ppm 10 ms maximum blackouts LIBIS ee EE 30 ppm 10 ms typical SOV 1000V Supply voltage unbalance 0 10 0 3 3cts 50V 1000V Rate sd 096 150096 2 5 5cts Voltage harmonics 50V 1000V Voltage 2V 1000V 2 5 1V 9 3 3 REAL
17. 29 2 Power Quality Analyzer PowerPad Ill Model 8336 dol CURRENT FRODE paaa ANA AGANE KANLAON ANAN ATON Ya NONA NE SEAMAN DEN ee tec cee ee SAANG 29 4 1 5 2 VOLTAGE RATIOS cccscsscssecscsssssesessesecsucsucsessesuesscsscscsusaucsucessussassuesnsessussusatsaesassuesuesesstsitsseatsetsasetestssssstsstssteeeeees 30 4 1 6 CAPTURE MODE tnh k kk ankh k ka Lkn GHANA LALAL LALALALA L EEEE EEEE EEEE Ennn 31 4 1 6 1 TRANSIENT VOLTAGE THRESHOLDS ahhh k ahhh kuen khkk n LL nn LL EnA L EAI L EEA LEEA LEE I Eann r n 31 4 1 6 2 TRANSIENT CURRENT THRESHOLDS 0121211010010 GAIL EE hkk a LL ALA nL EAI L EAI maa EEEE LEEI Eanna 32 4 1 6 3 INRUSH CURRENT THRESHOLDS cccccscccscsscsecsessesecsucsessesscsucsrssesscsussncetsetsessuestsstsutssestestsetssestsetsseeteeseeseeeees 33 4 1 7 TREND MODE ls san NILA NGALAN LA mnaananaann 34 4 1 8 ALARM MODE CONEIGURATION ANAN NASAAN LK AANGAL LA ALL EA LALEA LLE LALALALA aamamaannas 37 4 1 9 ERASING MEMORY ccccccccccccsecsessecsesscsessesecssesussussesscsussucsscssessucsucsssstsuesnsasssssassuesessesuesussessesatsusssstsstsisstsstseteteteateees 38 NANO E 39 5 DISPLAY MODES Eege 40 5 1 WAVEFORM CAPTURE MODE oii cccccccscecceccecesceccsceaceeeccacacsevseseesavscsacacsassesaeacsevarsaceassacatcasestaesareatersreateatenteneaterteres 40 5 1 1 TRANSIENT MODE ono cccccccesssscssesucsucsscsucsvcsucsvcsucsucsucsusssssussssssssessssesususcecsuesassussussnesussneansatssesstssesatssessessesstteeseeseeee 41 5 1 1 1 PROG
18. 3 Insertion locations for the current and voltage color coded ID markers 1 Theft prevention access port used to secure the instrument with padlock 2 USB connector for connection to a PC 3 Input for external AC power supply and battery charging Figure 2 4 Power Quality Analyzer PowerPad Ill Model 8336 13 2 9 POWER SUPPLY The battery icon in the top right corner of the screen shows the battery level The number of bars is proportional to the charge level dicon Battery Charge Status Battery charged Low battery Battery charging CT Red bar Condition of the battery is unknown because it had never been fully charged The instrument is connected to AC power using the power cord When the capacity of the battery is too low the following message is displayed Low battery Instrument will soon turn OFF Press J to confirm The instrument will turn OFF if you do not connect the PowerPad to AC power using the power cord within one minute of this message appearing 2 10 STAND A retractable stand on the back of the Model 8336 can be used to hold the instrument in a tilted position 1 Retractable stand 2 Battery compartment NOTE The SD card is located under the battery Figure 2 5 14 Power Quality Analyzer PowerPad Ill Model 8336 3 USE 3 1 START UP To turn the Model 8336 ON press the button The button lights up when initially pressed it then goes OFF if the power cord is n
19. 800 343 1391 508 698 2115 Fax 508 698 2118 E mail techsupport aemc com 138 Power Quality Analyzer PowerPad Ill Model 8336 LIMITED WARRANTY The Model 8336 is warranted to the owner for a period of one year from the date of original purchase against defects in manufacture This limited warranty is given by AEMC Instruments not by the distributor from whom it was purchased This warranty is void if the unit has been tampered with abused or if the defect is related to service not performed by AEMC Instruments Full warranty coverage and product registration is available on our website at www aemc com warranty html Please print the online Warranty Coverage Information for your records What AEMC Instruments will do If a malfunction occurs within the one year period you may return the instrument to us for repair provided we have your warranty registration information on file or a proof of purchase AEMC Instruments will at its option repair or replace the faulty material IMPORTANT WARRANTY NOTE By registering online within 30 days from the date of purchase your warranty will be extended to 3 years WARRANTY REPAIRS What you must do to return an Instrument for Warranty Repair First request a Customer Service Authorization Number CSA by phone or by fax from our Service Department see address below then return the instrument along with the signed CSA Form Please write the CSA on the outside of the sh
20. 8336 No brobes Cat 2136 30 PowerPad Ill Model 8336 w 4 A193 24 BK Gensorsl a Cat 2136 31 PowerPad Ill Model 8336 w 4 MN193 BK Probes a Cat 2136 32 Includes extra large tool bag soft carrying pouch 5 ft USB cable five 10 ft black voltage leads with alligator clips twelve color coded input ID markers power adapter 110 230V with US power cord 9 6V NiMH battery SD Card 2GB start guide and a USB stick containing DataView software and user manual quick D Only the AmpFlex sensors are rated 600V CAT IV and IP67 The MN probes are rated 300V CAT IV 600V CAT III 1 2 1 ACCESSORIES Re e AA AP PAA Cat 2136 80 AC DC Current Probe Model Eegeregie Cat 1201 51 Adapter BNC Adapter mandatory if using an SL261 wfe i pn a Cat 2140 40 AG Current Probe Model IMR193 BR Seene EA EE AA NIA Cat 2140 28 AC Current Probe e ele EE Cat 2140 32 AG C rrent Probe Oe a Cat 2140 33 AmpFlex Sensor 24 Model A O3 24 Dh aa Cat 2140 34 AmpFlex Sensor 36 Model A193 36 BK XXQ a Cat 2140 35 AC Current Probe Model MN193 BR 10s na NGAGNG AGANG NAG sess nawanneusdGeeauaniumsenasedusmwaurenanis Cat 2140 36 MiniFlex Sensor 10 Model MA193 10 BK a Cat 2140 48 AC DC Current Probe Model Jo3Bkh Xa Cat 2140 49 1 2 2 REPLACEMENT PARTS ae Large Classic Polo Le AA AA Cat 2133 73 SEET Cat 2140 15 GIy NIM EE Cat 2140 19 5 Black 10 ft 3M Leads with 5 Black Allig
21. THD 0 0 0 0 0 0 ot 00 00 op ons E CF 146 146 146 146 PST 105 105 105 ka or 102 102 102 ORMS mp CF PD ees KAG Function True effective value of voltage or current Direct component Total harmonic distortion rate Peak factor calculated in relation to the displayed waveform Short term flicker calculated over 10 minutes Long term flicker calculated over 2 hours Harmonic loss factor for oversizing of transformers relative to harmonics K factor Oversizing of transformers relative to harmonics NOTE The DC value of the current of phase 1 is displayed only if the associated current sensor can measure direct current L2 and L3 provide the simultaneous display of the current and voltage for phases 2 and 3 respectively 68 Power Quality Analyzer PowerPad Ill Model 8336 5 3 6 PHASOR DIAGRAM DISPLAY The sub menu displays a vector representation of the fundamentals of the voltages and currents It indicates their associated quantities modulus and phase of the vectors and the unbalances of the voltages and currents D NOTE The display screen varies depending on which value is selected e 3U Displays a vector representation of the fundamentals of the phase to phase voltages and of the currents It indicates their associated quantities modulus and phase of the phase to phase voltage vectors and the voltage unbalance The reference vector of the representation at 3 o clock is U1 e 3V Displays a vector representation
22. TIME CLOCK ACCURACY The accuracy of the real time clock is 80 ppm at most device 3 years old used at an ambient temperature of 50 C With a new device used at 25 C this accuracy is only 30 ppm 9 4 MECHANICAL SPECIFICATIONS Dimensions 7 9 x 9 8 x 2 6 200 x 250 x 67mm Weight 5 36 Ib 2kg approx Shock and Vibration per IEC 61010 1 Tightness e P53 per EN 60529 when the instrument is on its stand with no lead connected with the jack cover and the cap on the USB connector in the closed position e P20 at the level of the measurement terminals e IKO8 per EN 62262 e Drop Test 1m per IEC 61010 1 130 Power Quality Analyzer PowerPad Ill Model 8336 9 5 ENVIRONMENTAL SPECIFICATIONS Altitude Operating O to 2000 meters 6560 ft Non Operating 0 to 10 000 meters 32800 ft Pollution degree 2 Indoor Use Temperature and RH 20 0 20 26 35 42 5 50 70 WARNING Above 104 F 40 C the instrument must be powered by the battery alone OR from AC power with the battery removed Use of the instrument with both the battery AND AC power is prohibited 9 6 SAFETY SPECIFICATIONS Electrical Safety OD Ce IEC 61010 1 600V CAT IV or 1000V CAT III e The use of the AmpFlex MiniFlex and SR probes rate the device probe at 600V CAT IV or 1000V CAT III e The use of the MR193 MN93 MN193 J93 and SL261 probes rate the device current probe at 300V CAT IV or 600V CAT Ill e The use of the 5A adapter rates
23. This screen corresponds to the choice non active quantities separated in the VAR tab of the Calculation Methods menu in Configuration mode If the choice is non active quantities combined Dh does not appear and Oh is replaced by Nh This non active energy has no inductive or capacitive effect For the 3 wire 3 phase set up only the display of total quantities is available the method of calculation of the powers used is the two wattmeter method 90 Power Quality Analyzer PowerPad Ill Model 8336 5 6 5 STARTING AND STOPPING ENERGY MEASUREMENTS To start a measurement 1 Press the button while in an energy display or Wh The date and time at which the measuring starts will appear in the upper left corner of the screen and the icon on the screen blinks to indicate that energy metering is in progress 2 To stop the measurement press the D button The date and time at which the measuring stops will appear in the upper right corner of the screen The OD icon is also replaced by the by Xy icon 3 To resume metering press the button again D NOTE If no recording is in progress disconnecting the energy metering results in the appearance of the blinking OK icon in the status bar in place of the OD icon 5 6 6 RESETTING THE ENERGY MEASUREMENT To reset the measurement press the press the OD button to stop metering Then press the button and then KS to confirm All energy values consumed and generated
24. Transients Inrush Schedule Configuration Number Aggregation period 10min Data to Record SET F vo N unb u2 Harmonic Values to Record Figure 6 11 Power Quality Analyzer PowerPad Ill Model 8336 101 Four different configurations are available More configurations can be saved by pressing Save to File and recalled later by pressing Load From File 1 Select the configuration to set up 1 2 3 or 4 2 Check the box for each parameter desired in the Data to Record section 3 Configure the harmonic values to be recorded if desired 4 Choose an Aggregation Period for the recording which sets how often the recording updates while it is running The Model 8336 loses its scheduled recording if it is powered OFF before the recording begins If it is powered OFF during the recording a partial recording will usually still exist but with the first letter of its name changed to The start and end times requested for the recording might be adjusted by the Model 8336 to be in even multiples of the averaging period For instance if an integration period of 10 minutes was requested and the start time was 9 03 the recording might not actually begin until 9 10 6 4 6 TRANSIENTS The Transients tab allows you to set up the criteria for capturing transients Configure Instrument Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush Sch
25. a USB port a warning box will appear similar to Figure 6 4 Click OK DataView Install5hield Wizard at Do not connect the AEMC USB Instrument or cable until after the a rm installation of the drivers and the DataView software has finished If the AEMC USE Instrument or cable is connected to the computer now then disconnect it from the computer before proceeding Figure 6 4 NOTE The installation of the drivers may take a few moments Windows may even indicate that it is not responding however it is running Please wait for it to finish 14 When the drivers are finished installing the Installation Successful dialog box will appear Click on OK 15 Next the Installation Wizard Complete window will appear Click on Finish 16 A Question message box appears next Click Yes to read the procedure for connecting the instrument to the USB port on the computer NOTE The Set up window remains open You can now select another option to download e g Adobe Reader or close the window Power Quality Analyzer PowerPad Ill Model 8336 95 17 Restart your computer then connect the instrument to the USB port on the computer 18 After the instrument is connected to the computer the Found New Hardware dialog box appears Windows will complete the driver installation process automatically Shortcuts for DataView and each instrument Control Panel selected during the installation process will appear on your desktop The shortcu
26. alarm that is in progress 70 Power Quality Analyzer PowerPad Ill Model 8336 5 4 1 ALARM MODE CONFIGURATION D To program display alarms they must first be configured see 8 4 1 9 The 9G Alarm Mode configuration submenu displays the list of alarms configured see 8 4 1 8 This shortcut button lets you define or change alarm configurations Press to return to the Detection Schedule Programming a Campaign screen 5 4 2 PROGRAMMING AN ALARM CAMPAIGN The Hi Detection Schedule screen specifies the start and stop times for an alarm campaign EN 0129 14 11 35 ON Start 01 29 14 09 25 am Stop 01 29 14 09 26 am Name Figure 5 41 To program an alarm campaign enter the start date and time the stop date and time and the name of the campaign To modify an item move the yellow cursor to it using the up and down arrow buttons then validate with the zl button Change the value using the arrow buttons then validate again The name can be up to eight characters long Several campaigns can have the same name Allowable characters are uppercase letters A through Z and digits 0 through 9 The last five names assigned in the transient trend and alarm modes are kept in memory When a name is entered it can then be completed automatically NOTE The start date and time must be later than the current date and time The stop date and time must be later than the start date and time You cannot program an alarm campaign if an inrush cur
27. calculation of the K factor choice of reference for the level of harmonics PLT calculation sliding or not m Distribution system single phase 2 phase 3 phase with or without neutral and of the connection method standard 2 element method or 273 element method m Configure recording alarms inrush currents and transients m Delete data total or partial m Display software and hardware version numbers m Language m Current sensors detected not detected not managed simulated or impossible to simulate 2 element connection method Set voltage and current ratio transduction ratios and sensitivity 10 Power Quality Analyzer PowerPad Ill Model 8336 2 5 OVERALL VIEW OO a Bm O N 10 11 Cl e Figure 2 1 Over molded protective case Color TFT 320 X 240 1 4 OFT display with graphic representation of system parameters and measurements Six 6 function buttons used to modify the display mode Four 4 function buttons ON OFF button Four 4 current input terminals on the top of the instrument to enable the use of current sensors MN SR AmpFlex MiniFlex MR SL and J93 probes It is possible to use different current probes per input voltage ratio selectable Five 5 voltage input terminals voltage ratio can be set before recording USB optically isolated output for configuring running tests and transferring data to a PC Input for external power supply an
28. confirm the selection with the NG button Change the value using the arrow buttons then confirm again NOTE For more information on the triggering filter refer to A 1 6 You cannot program an alarm campaign if an inrush current capture is in progress After you program the capture start it by pressing the button The icon on the status bar blinks to indicate that the capture is underway While the capture is active the button replaces the button and can be used to stop the capture before it is finished D NOTE The voltage must be present before the inrush current for a stable and correct frequency lock The message Capture pending is displayed until the start time is reached and the triggering conditions are satisfied It is then replaced by the message Capture in progress The memory status indicator appears at the top of the screen The indicator disappears when the capture is completed Figure 5 7 If the capture is terminated with a stop event see conditions in 8 A 1 6 or if the recording memory of the instrument is full the capture stops automatically NOTE The instrument can keep in memory only a single inrush current capture If you wish to make another capture you must delete the previous one To return to the Waveform Capture screen press 5 1 2 2 DISPLAYING CAPTURE PARAMETERS To display the characteristics of the capture press Law The Capture parameters screen appears Le
29. current and voltage over the entire capture D A voltage must be present on the phase before the motor start up for a stable and correct frequency control 5 1 3 TRUE RMS CURRENT AND VOLTAGE RMS mode displays the record of the trend of the true half cycle RMS current and voltage and the frequency trend graph The display depends on the type of selection filter e 3V displays the three voltages during the inrush current capture for set ups with neutral e AU displays the three voltages during the inrush current capture for set ups without neutral e 3A displays the three currents during the inrush current capture e L1 L2 L3 display the current and voltage in phases 1 2 and 3 respectively for set ups with neutral only e Hz displays the evolution of the network frequency vs time The following section show four display examples 3A RMS DISPLAY SCREEN FOR A 3 PHASE CONNECTION WITH NEUTRAL MS 476 0 4360 437 02 r CEH a 787 t 0086955 Als 1626 A2 1640 ABs 1639 4 ER GER GER GER GER EN 5 Figure 5 9 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 Scale of values Maximum half period RMS value of the Inrush current capture 3 Indicator of number attributed to the displayed curve Value of the measured current Power Quality Analyzer PowerPad Ill Model 8336 47 t relative time position of the cursor 4 t 0 corresponds to the start of the I
30. gt Figure 5 16 Item Function Data about harmonic indicated by cursor V h03 harmonic number 1 level of harmonics with fundamental RMS value as reference f or total RMS value as reference or V RMS voltage of harmonic 000 phase shift with respect to fundamental order 1 2 Harmonic selection cursor change values with the cursor using the lt and buttons Horizontal axis indicates orders of harmonics 3 Level of harmonic is given as a percentage with respect to fundamental or total RMS value DC DC component 1 to 25 harmonics of order 1 to 25 When cursor exceeds order 25 order 26 to 50 appears Display in expert mode on the right hand side is available for 3 phase hookups by pressing the A and V buttons L1 PHASE VOLTAGE HARMONICS V hO3 333x 766v so mak asi THD 778x O Ng 1791 v HERR E gt Figure 5 17 Item Function Data about harmonic indicated by cursor V h03 harmonic number level of harmonics with fundamental RMS value f or total RMS value r as reference V RMS voltage of harmonic 143 phase shift with respect to fundamental order 1 max min maximum and minimum levels of harmonic Reset when harmonic number is changed or N is pressed THD total harmonic distortion Vd RMS distortion voltage 52 Power Quality Analyzer PowerPad Ill Model 8336 2 Harmonic selection cursor change values with the cursor using the 4 and B buttons Horizontal axis indicates
31. of a signal with respect to the fundamental RMS value f or with respect to the total RMS value without DC r Ui Phase to phase voltage S U h Phase to phase voltage harmonics o Uof Peak factor of the phase to phase voltage S Ud Phase to phase RMS distortion voltage S Ude Phase to phaseDC voltage o Un ___ Harmonic of the phase to phase voltage Z o O O 36 Power Quality Analyzer PowerPad Ill Model 8336 mb Unbalanced Maximum peak value of phase to phase voltage Minimum peak value of phase to phase voltage Phase to phase RMS voltage Total harmonic distortion of the phase to phase voltage ma Harmonic distortion of the phase to phase voltage with the RMS value of the fundamental as reference Harmonic distortion of the phase to phase voltage with the total RMS value without DC as reference Uunb Unbalanceinphase to phase voltage S Voltage unbalance in a polyphased electric power network RMS phase to neutral voltage Vthd Total harmonic distortion of phase to neutral voltage Vthdf Total harmonic distortion of phase to neutral voltage with the fundamental RMS value as reference Vthdr Total harmonic distortion of phase to neutral voltage with the total RMS value without DC as reference Phase to neutral voltage unbalance State in which the RMS voltages between conductors fundamental component and or the phase differences between successive conductors are not all equal Power Quality Analyzer PowerPad Il
32. orders of harmonics 3 Level of harmonic is given as a percentage with respect to fundamental or to total RMS value DC DC component 1 to 25 harmonics of order 1 to 25 When the cursor exceeds order 25 order 26 to 50 appears NOTE Filters L2 and L3 display the harmonics of the phase to neutral voltage for phases 2 and 3 respectively The screen is identical to the one displayed for filter L1 There is no phase shift or distortion value for the neutral channel 5 2 2 CURRENT The A sub menu displays the harmonics of the current 3L CURRENT HARMONICS A hO50 92x 92t isr 249 a 2457 a 1959 a 4179 4173 170 CHEBBEe d oo 7 9 H 13 15 17 19 3 23 25 O Figure 5 18 Item Function Data about harmonic indicated by cursor A h05 harmonic number 1 level of harmonics with fundamental RMS value f or total RMS value r as reference A RMS current of harmonic 4179 phase shift with respect to fundamental order 1 2 Harmonic selection cursor change values with the cursor using the lt and B buttons Horizontal axis indicates orders of harmonics 3 Level of harmonic is given as a percentage with respect to the fundamental or to the total RMS value Range DC DC component 1 to 25 harmonics of order 1 to 25 When the cursor exceeds order 25 order 26 to 50 appears Power Quality Analyzer PowerPad Ill Model 8336 53 L1 CURRENT HARMONICS V h03 333 7664 soo Di Gaz THD 778x O Vd 1791 v Sp
33. the device current probe at 150V CAT IV or 300V CAT Ill Electromagnetic Compatibility Emissions and immunity in an industrial setting compliant with IEC 61326 1 For electromagnetic emissions the instrument belongs to group 1 class A under standard EN55011 Class A devices are intended for use in industrial environments There may be difficulties ensuring electromagnetic compatibility in other environments due to conducted and radiated disturbance For immunity to radio frequency fields the instrument is intended for use at industrial sites under standard IEC61326 1 For the AmpFlex and MiniFlex sensors e An absolute influence of 2 may be observed on the current THD measurement in the presence of a radiated electric field e An influence of 0 5A may be observed on the RMS current measurement in the presence of conducted radio frequencies e An influence of 1A may be observed on the RMS current measurement in the presence of a magnetic field Specifications are subject to change without notice Power Quality Analyzer PowerPad Ill Model 8336 131 APPENDIX A 1 HYSTERESIS A 1 1 Surge detection With a hysteresis of 2 for example the return level for surge detection is equal to 100 2 or 98 of the reference voltage threshold Maximum Threshold Return level Hysteresis a a Duration A 1 2 Undervoltage or blackout detection With a hysteresis of 2 for example the return lev
34. the instrument 1 Turn the instrument over raise the stand and prop it up 2 Usea coin to unscrew the two quarter turn screws on the back of the housing 3 Using a flat screwdriver remove the cover from the compartment 4 Turn the instrument over and hold the battery as it slides out of its compartment 5 Disconnect the battery connector without pulling on the wires 6 Connect the new battery The connector is error proofed to prevent reversals of polarity 7 Place the battery in its compartment and arrange the wires so that they do not protrude 8 Put the battery compartment cover back in place and screw the two screws back in i NOTE If the battery is disconnected it must then be fully recharged even if it is not replaced so that the instrument will know the battery charge condition this information is lost when the battery is disconnected 110 Power Quality Analyzer PowerPad Ill Model 8336 7 3 UPDATING SOFTWARE 8 FIRMWARE To provide our customers the best possible service in terms of performance and technical upgrades AEMC offers free software and firmware updates on our website e Visit us at www aemc com e Click on the TECH INFO tab then click on the Software amp Firmware Updates button You can also update the software by selecting Update from the Help menu within the DataView software NOTE Updating embedded software or firmware resents the configuration and erases all data stored
35. the instruments name and click Next 4 The computer connects with the instrument During this process a progress bar may appear on the screen When the connection is established the message Instrument has been identified select Finish to continue appears Click Finish to exit the Connect an Instrument Wizard 96 Power Quality Analyzer PowerPad Ill Model 8336 The Control Panel user interface consists of multiple components for displaying modifying saving and navigating data recorded on the Model 8336 E Se H PowerPad III Control Panel Model 8336 Lo File Edit View Instrument Tools Help Sa EHS HECK E Real time Data Waveform ie NHA i V D es gi a Waa Tables Tena H mot See m N bil UNAN dn Ng MANG Hh Ati D dd Air d Tu ita hua deit i m Di i AE 1 31 2014 Lt 34 52 056 AM For Help press F1 Connected to instrument Figure 6 6 The Control Panel user interface consists of multiple components for displaying modifying saving and navigating data recorded on the Model 8336 m At the very top of the Control Panel is the title bar The title bar displays the name of the application and the path to the open data file if any m Below the title bar is the menu bar The menu bar contains six drop down menus File Edit View Instrument Tools and Help Each command in these drop down menus is associated with the menu name For example instrument specific command
36. the record to be displayed The selected recording is bolded Press to validate Lee RECORDING PARAMETERS Mame TESTW2 Start 3 10 14 11 26 Stop 03 10 14 11 26 Period Figure 5 46 Item Function 1 Types of measurement chosen upon configuration 2 Displays additional pages of parameters If a measurement does not appear in the tabs it was incompatible with the configuration chosen connection types of sensors ratios programmed For example if the calculation mode chosen during the programming is Non active Quantities not separated see 8 4 1 3 the D tab does not appear Press the appropriate yellow button to display a specific graph 5 5 5 TREND GRAPHS Vrmz oem v 22314 v 2313 v 17 clr hT F PA dL a L2 LD H wi Lv min 20 Figure 5 47 76 Power Quality Analyzer PowerPad Ill Model 8336 Item Function 1 Position of viewing window in the record 2 Date indicated by the cursor position 3 Indicates that this screen is a partial view of the trend graph There are other screens before and after this screen 4 Use the A and V arrow buttons to move the cursor The display period of this graph is one minute Since the period of the record is one second each point on the graph corresponds to a value recorded in a one second window once per minute There is therefore a substantial loss of information 59 values out of 60 but the display is rapid NOTE Values of the curs
37. time of the campaign 3 Stop date and time of the campaign If the stop date of the campaign is in red it does not match the stop date initially programmed for one of the following reasons e Power supply problem battery low or disconnection of the instrument supplied by AC power only e Memory is full 72 Power Quality Analyzer PowerPad Ill Model 8336 5 4 6 LIST OF ALARMS To select a campaign move the cursor to it using the A and V arrow buttons The selected field is bolded Then validate with the 45 button The instrument then displays the alarms in list form E EE EE Je vetectioNLisr LI o a 0arl rl4 1 45 orsel as orsel ss 57221758 orsel ama 573M ss NM 57321558 Ka wi Figure 5 43 Item Function 1 Alarm date and time Target of alarm detected Type of alarm detected Minimum or maximum configuration dependent of alarm detected Dynamic filter connection type dependent ST amp Go NO lf an alarm duration is displayed in red it was cut short for one of the following reasons e Power supply problem battery low e Manual stoppage of the campaign by pressing gt or by turning the instrument OFF e Memory is full e Measurement error e Incompatibility between the quantity monitored and the configuration of the instrument for example withdrawal of a current sensor In the last two cases the minimum or maximum whichever is applicable s also displayed in red To return to the Detection List scre
38. to be deleted Then press the KS button and press 4 to confirm the deletion Note that you can delete a transient search only if it is not actively in progress To return to the Waveform capture screen press 5 1 1 4 DELETING A TRANSIENT When the Transient List screen is displayed see Figure 5 3 select the transient to be deleted The selected transient is bolded Next press the 3 button and then press Es to confirm the deletion To return to the Waveform capture screen press 44 Power Quality Analyzer PowerPad Ill Model 8336 5 1 2 INRUSH CURRENT MODE M While in Waveform G4 mode the Inrush current fr sub mode is used to capture record Inrush currents voltage and current waveforms network frequency half cycle RMS voltages and currents except for the neutral and to view and delete the recordings When Inrush Current mode is selected the screen displayed will depend on the following conditions if then no capture has been made the Capture Schedule screen is displayed captures have been made the Capture Parameters screen is displayed 5 1 2 1 PROGRAMMING A CAPTURE To program the capture of an Inrush current proceed as follows m At the Waveform Capture screen Figure 5 1 select Inrush Current The Capture Schedule screen is displayed D H CAPTURE SCHEDULE Triggering filter 3 Start 0310 14 09 41 Mode HMG PEAK Figure 5 6 Item Function 1 Icons for the mode and sub mode Rapid program
39. to neutral DC voltage 115 9 SPECIFICATIONS 9 1 REFERENCE CONDITIONS Ambient temperature LIFI F23 Go O Humidity relative humidity 45 75 Atmospheric pressure 860 hPa 1060 hPa Phase to neutral voltage 50Vrms 1000Vrms without DC lt 0 5 30mVrms 1Vrms without DC lt 0 5 Anom lt gt 1Vrms 3 x Anom 100 30mVrms 11 73mVrms 391mVrms without DC lt 0 5 10kArms lt gt 391mVrms to 50Hz 300Arms lt gt 11 73mVrms to 50Hz 117 3uVrms 3 91mVrms without DC lt 0 5 100Arms lt 3 91mVrms to 50Hz 3Arms lt gt 117 3uVrms to 50HZ Frequency of electrical network 50 60Hz 0 1Hz Phase shift 0 ieee power and energy 90 reactive power and energy Harmonics lt 0 1 ama DD N Current ratio Measured not calculated Actual not simulated Power supply Battery only lt 1V m for 80 MHz 1 GHz Electric field lt 0 3 V m for 1 GHz 2 GHz lt 0 1 V m for 2 GHz 2 7 GHz Magnetic field lt 40 A m DC earth s magnetic field NOTE The symbol U may be used throughout this manual and in the instrument to refer to phase to phase voltage 1 measurement The symbol V will be used for phase to neutral voltage measurement Standard current circuit input voltage except AmpFlex amp MiniFlex Unamplified Rogowski current circuit input voltage Only AmpFlex amp MiniFlex Amplified Rogowski current circuit input voltage Only AmpFlex a
40. x 0 5 30cts A 100A n gt 25 NOTE Peak Measurement is 14 1kA 124 Power Quality Analyzer PowerPad Ill Model 8336 Measurement range Display resolution Measurement with unity ratio PG Maximum intrinsic accuracy Minimum Maximum with uni ratio J93 clamp 3500A HM X 0 4 1A 100 mA SR193 clamp A lt 1000A 3 MR193 clamp 1A 1000A ze n x 0 4 1A A gt 1000A Tunes camp zooma 200A OA IA SL261 clamp 10mV A 5 MN93A clamp 100A 100A N nax X 0 4 100 mA SL261 clamp H RMS 100mV A URN x 0 4 10 mA distortion A AmpFlex current MN193 clamp 5A o Ad o SE 5m N a X 0 4 10 mA 1 MiniFlex n_ x 0 4 1A max 10kA OA AmpFlex MiniFlex 10A Un X 0 4 1A 6500A AmpFlex MiniFlex 100mA N ax X 0 5 30cts 100A 1 In 1000 Vrms category Ill provided that the voltage between each of the terminals and ground earth does not exceed 1000 Vrms 2 Two phase opposite phases same note as 1 3 RMS value of the fundamental 4 pn is the highest order for which the harmonic ratio is non zero a Severity of short term flicker Maximum intrinsic error of the short term flicker severity measurement PST Rectangular variations per minute 50 duty cycle 120 V lamp 230 V lamp 60 Hz network 50 Hz network PST 05 7 PST e 0 25 12 1596 PST e 0 25 10 15 100 9 999 900 x N3 1000 x N3 0 1 1 Only for the MN193 clamp 5A
41. 1 100mA SL261 clamp 100mV A 5 Total RMS value and RMS value of the fundamental 6 DC harmonic component n 0 7 Limitation of the MR193 and SL261 clamps Power Quality Analyzer PowerPad Ill Model 8336 119 Measurement range without ratio Measurement with unity ratio RMS 12 current Peak current PK SR193 clamp MR193 clamp SL261 clamp 10mV A MN193 clamp 100A SL261clamp 100mV A AmpFlex MiniFlex 10kA AmpFlex MiniFlex 6500A AmpFlex MiniFlex 100A SR193 clamp MR193 clamp SL261 clamp 10mV A MN193 clamp 100A SL261 clamp 100mV A AmpFlex MiniFlex 10kA AmpFlex MiniFlex 6500A AmpFlex MiniFlex 100A 1200A WW 3o 10kA 6500A 100mA 100A J93 clamp pA JL soa 1 414A 100mA 141 4A 10mA 14 14A Ra EA _ 100mA 141 4A Display resolution with unity ratio ae A lt ae 100mA A 100A 1MA A lt 10A 1 10mA MN193 clamp 5A 1A A lt 10kA 10mA a ala A2 ala 100mA Az Ta A a 10mA A lt 100A a A Mira ed A ed 100mA Az 100A IMA A lt 10A 1 20mA 10mA A gt 10A MN93A clamp 5A BTA 7 071A IMA 1 20mA 5A adapter A lt Ke 3 5A 10A A gt 10kA 100mA A lt 1000A 3 5A A e 10mA A lt 100A 100mA A gt 100A Maximum intrinsic accuracy J93 clamp LA soa fO O A 1 14 100mA Az e 1
42. 1 o3 Vthdf 3 gt OF O f Ds 2 od Athdf Ho 10 0 f O5mn 5 ob JP E gt 9999MW 99min 10 LEKE a CET en Gen an an Figure 4 22 The Alarm mode menu defines Type of alarm Order of the harmonic between 0 and 50 for S h A h U h and V h only Target of the alarm 3L 3 phases monitored individually N monitoring of neutral 41 3 phases and neutral monitored individually Z surveillance of the value of the complete system Direction of the alarm gt or lt in the case of Hz Urms Vrms Arms Udc Vdce Adc Upk Vpk Apk Upk Vpk and Apk Triggering threshold of the alarm value and unit for Urms Vrms Arms Udc Vdc Adc Upk Vpk Apk Upk Vpk Apk IPI Pdc Q1 or N D and S Triggering delay or minimum duration above or below the alarm threshold in minutes or seconds or in the case of Vrms Urms and Arms excluding the neutral in hundredths of a second Hysteresis 1 2 5 or 10 see S A 1 To go from one page to the other press the E Or 3 button Each overshoot of an alarm will be recorded in a campaign of alarms NOTE A red alarm indicates the programmed quantity and or target is incompatible with the configuration chosen connection selected sensors connected ratios programmed calculation methods chosen The alarms on the level of harmonics of order 01 concern only the values expressed in r If a search for alarms is in p
43. 1 RMS MEASUREMENTS NANANA GANA LEGAL LLANA LALALALAA LA LLENA EEEE A AEEA Earran 60 5 3 1 1 RMS OU 61 SE ECHT E E 61 5 3 1 3 RMS CYN 62 5 3 1 4 RMS NEUTRAL 63 5 3 2 MEASUREMENT OF TOTAL HARMONIC DISTORTION TH 63 EE die CA 63 5 3 2 2 THD CAVA 64 E TAD TE 64 5 3 3 MEASUREMENT OF THE PEAK EACTORICE ANAN AANGAL ANNA LA uE ALL EA LAGA nakmamanananan 65 BO GA E EE 65 5 3 3 2 CEV 66 Ka EE 66 5 3 4 MEASUREMENT OF EXTREME AND MEAN VOLTAGE AND CURRENT VALUES sss 67 5 3 5 SIMULTANEOUS DISPLAY 00020000000 nauona aaaea a AAEL LEELLE ALLEA ELELE AELE LEE LEEI EEE LEEI EE ELEDEL E EEIE ELEELE E 68 5 3 6 PHASOR DIAGRAM DISPLAY 0000000000 69 5 4 ALARM MODE 70 5 4 1 ALARM MODE CONEIGURATION A AAKALA AKALA kann ALLAN NAALALA A EEEE A AEEA L Ennan an 7i 5 4 2 PROGRAMMING AN ALARM CAMDAIGN ea kkk kank kk enk LLANA ALEEA L EEA EE EEA EEA L Ennn rr n 71 Power Quality Analyzer PowerPad Ill Model 8336 3 RAN e ALARM CAMPAIGN aman yanyan ee cece ae cer oe a cease eee eect ote eee eaves ee eee eet 71 5 4 4 MANUALLY STOPPING AN ALARM CAMPAIGN ccccccecsecessercececcessecseccesersereececersareesersarseresarsaneasusarsarsarersareeserserees 72 5 4 5 DISPLAYING A LIST OF ALARM CAMPAIGNS anan NANANA LNLNLEN ASLEA 72 5 4 6 LIST OF ALARMS cccecccccccesseccecescesscceccecercaceeceeserceceuseusecaceusarsarsusauseraseuvarsaveeseusarseseasarsarsesusausasersersarsasersersaseaserearees 73 5 4 7 DELETING ALARM CAMPAIGNS umm nasaan
44. 17 19 Al 23 25 Figure 5 23 Item Function Data about harmonic indicated by cursor U h03 harmonic number level of harmonics with fundamental RMS value f or total RMS value Yor as reference V RMS voltage of harmonic 000 phase shift with respect to fundamental order 1 max min maximum and minimum levels of harmonic Reset when harmonic number is changed or by pressing SJ THD total harmonic distortion Ud phase to phase RMS distortion voltage 2 Harmonic selection cursor change values with the cursor using the lt and B buttons Horizontal axis indicates orders of harmonics Range DC DC component 1 to 25 harmonics of order 1 to 25 When the cursor exceeds order 25 order 26 to 50 appears NOTE Filters L2 and L3 display the harmonics of the phase to neutral voltage for phases 2 and 3 respectively The screen is identical to the one displayed for filter L1 Power Quality Analyzer PowerPad Ill Model 8336 Level of harmonic is given as a percentage with respect to the fundamental or to the total RMS value 57 5 2 5 EXPERT MODE The st Expert mode is available with a 3 phase connection only It displays the influence of the harmonics on heating the neutral and on rotating machines To display the expert mode press the A or V button The selection is highlighted in yellow and the screen simultaneously displays the expert mode From this screen two sub menus are available e V for 3 phase set ups w
45. 193 Nominal Range 1000Aac 1400Apc max Measurement Range 10A to 1000Aac 10A to 1300APEAK Ac Dc Probe Output Signal 1mV A Maximum Clamping One 1 6 42mm or two 0 98 25 4mm or ping _ two bus bars 1 96 x 0 19 50 x 5mm EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT Ill NOTE Currents z1Aac pc will be displayed as zero Neutral current measures down to OA Model MN193 Nominal Range 5A and 100Aac Measurement hands 5A 0 005A to 6Aac max 1A to 1200A with ratio 1000 5 selected J 100A 0 1A to 120Aac max Probe Output Signal 5A 200mV Aac 100A 10mV Aac Maximum Clamping O 0 8 20mm Safety EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT III The 5A range of the MN193 is designed to work with secondary current transformers Best accuracy is available when entering the transformer ratio e g 1000 5A When used to measure 5A direct the resolution will be limited to 0 1A max NOTE Currents lt Primary x 5 Secondary x 1000 or lt 250mA on the 5A range and lt 0 2A on the 100A range will be displayed as zero with this probe Power calculations will also be zeroed when the current is zeroed AmpFlex Sensors Nominal Range 3000Aac Measurement Range 100mA to 10kA 1 40mVac 3000Aac at 60Hz 117 3mVac 3000Aac at 50H2 Sensor Length 24 610mm 7 64 190mm Length 36 910mm 11 46 290mm Output is proportional to the amplitude and frequency of the measured current
46. 5Am CG B r x 006 174 SD 006 En Z DCi 3 5 7 9 1 151517 19 3 23 25 3 Figure 5 20 Item Function S h03 harmonic number level of harmonics with fundamental apparent power f or total apparent power r as reference 1 4006 phase shift of voltage harmonic with respect to current harmonic G e M energy generated for this harmonic G A energy consumed for this harmonic 2 Harmonic selection cursor change values with the cursor using the lt and buttons Horizontal axis indicates orders of harmonics Harmonic level is percentage of fundamental apparent or total apparent power Range DC DC component 1 to 25 harmonics of order 1 to 25 When cursor exceeds order 25 order 26 to 50 appears L1 APPARENT POWER HARMONICS Laat a max DO 1 13 15 17 19 21 23 25 3 Figure 5 21 Power Quality Analyzer PowerPad Ill Model 8336 55 Item Function Data about harmonic indicated by cursor S h03 harmonic number level of harmonics with fundamental RMS value f or total RMS value Yor as reference A RMS current of harmonic 445 phase shift of the voltage harmonic with respect to the current harmonic max min maximum and minimum levels of harmonic Reset when harmonic number is changed or SJ pressed Harmonic selection cursor change values with the cursor using the lt and B buttons Horizontal axis indicates orders of harmonics Level of harmonic is given as a percentage with respect to th
47. 8 4 1 10 4 1 1 DATE TIME The Date Time menu defines the system date and time The display is as follows 3 DATES TIME Date Time 0203110 11 50 Date format DONNA Time format 12124 Figure 4 2 With the Date Time field highlighted in yellow press d To change a value press A or V To move from one field to another press lt or gt To confirm press Proceed in the same way for selecting data format DD MM YY or MM DD YY and time format 12 24 or AM PM Changes take effect immediately in the data display To return to the Configuration menu press NOTE The date and time parameters cannot be configured while the instrument is recording metering energy or searching for transients alarms and or inrush current acquisition Power Quality Analyzer PowerPad Ill Model 8336 19 4 1 2 DISPLAY 4 1 2 1 BRIGHTNESS The Brightness button O initiates a menu that sets the brightness of the display di BRIGHTNESS Figure 4 3 Use the lt or B buttons to change the brightness To return to the Configuration menu press 4 1 2 2 COLORS The Colors menu is used to define the colors of the voltage and current traces on the graph There are 15 colors available green dark green yellow orange pink red brown blue turquoise blue dark blue light grey grey dark grey and black COLORS Voltage 1 p Current Voltage Current L2 Voltage L3 Current L3 Voltage N Current M Figure 4 4
48. AAN UU B26 A 21200000525 Al 557 4 A2 1952 A3 3620 ANS 04 Figure 5 13 Item Function 1 MAX IPEAKI maximum instantaneous absolute value of inrush current capture 2 Scale of values in amperes Number assigned to the displayed graph In this example circle 3 is filled indicating that channel A3 triggered capture of the inrush current t relative time position of the cursor t O corresponds to the start of the Inrush capture 4 Values at the position of the cursor In this example A1 A2 A3 instantaneous values of currents 1 2 and 3 at the position of the cursor A1 PEAK display screen for a 3 phase connection without neutral In the case shown below there is enough zoom out to force the envelope type of representation PEAK 2 567 2 Figure 5 14 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons t relative time position of the cursor t 0 corresponds to the start of the Inrush capture 2 Values at the position of the cursor In the example shown in Figure 5 14 A1 maximum instantaneous current of the half cycle identified by the cursor 3 MAX maximum instantaneous absolute value of the Inrush current capture NOTE Filters A2 and A3 display the record of the current envelope of phases 2 and 3 The screen is identical to the one displayed for filter A1 50 Power Quality Analyzer PowerPad Ill Model 8336 5 2 HARMONICS MODE lu The
49. Analyzer PowerPad Ill Model 8336 59 5 3 WAVEFORM MODE The Waveform mode displays the current and voltage graphs along with the values measured and those calculated from the voltages and currents except for power energy and harmonics This is the screen that appears when the instrument is powered up Loge v 22289 v 230 0 v KIX e a Lo t kb VI Jee Ve W3 1656 vie 0 Figure 5 26 Item Function Measurement of the true RMS value Measurement of total harmonic distortion Measurement of the peak factor Display of Min Max RMS and peak values see 5 3 4 Simultaneous display of the following measurements RMS DC THD CF PST PLT FHL and FK see 8 5 3 5 Display of phasor Fresnel diagram of signals see 5 3 6 5 3 1 RMS MEASUREMENTS This sub menu displays the waveforms over a period of the measured signals and the true effective values of the voltage and the current D The choice of graphs to be displayed depends on the type of electrical connection that was set up during the configu ration see 8 4 1 4 Single phase 2 wire or Split phase 2 wire no choice L1 Single phase 3 wire For RMS THD CF and Fort no choice L1 Split phase 3 wire For RMS THD CF and E Fort 2V 2A L1 L2 Split phase 4 wire For RMS THD CF and Fort 2V 2A L1 L2 3 phase 3 wire 3U 3A 3 phase 4 wire JU 3V 3A L1 L2 L3 3 phase 5 wire For RMS THD CF L an
50. D label distortion power does not appear and Q1 is replaced by N This non active power is unsigned and has no inductive or capacitive effect Power Quality Analyzer PowerPad Ill Model 8336 85 5 6 1 2 QUANTITIES ASSOCIATED WITH POWER The PF sub menu displays the quantities associated with power O 2 0 870 40 863 0 866 40 870 0864 0 866 0 566 0582 0576 r029 030 030 Figure 5 65 The values in this screen are as follows Item Function PF Power factor cos D Fundamental power factor also called DPF displacement factor tan D Tangent of phase shift va Phase shift of voltage with respect to current 5 6 1 3 ENERGY CONSUMED The Energy Consumed sub menu displays the meters of energy consumed by the load D Ph Wh 45017 m 0144943 m 0144124 m Pdch Wh 0000000 Qh varh 20031976 m 20084375 m 20083003 m 40000000 40000000 9000000 Dh varh 0004200 m 0003524 m 00042765 m oh YAh O166639 m 0167767 m 0166377 m Figure 5 66 NOTE This screen corresponds to the choice non active quantities separated in the VAR tab of the Calculation Methods menu in Configuration mode If the choice is non active quantities combined Dh does not appear and Oh is replaced by Nh This non active energy has no inductive or capacitive effect 86 Power Quality Analyzer PowerPad Ill Model 8336 Item Ph Wh Pdch Wh Dh varh Dh varh Sh VAh S D Function Act
51. E 3 PHASE POWER QUALITY 3 3 3 6 ANALYZER PowerPad III NU MODEL 8336 ets ms Mis 2 V2 88 W3 164 VN 4d PowerPad III IMPORTANT WARRANTY NOTE By registering online within 30 days from the date of purchase your warranty will be extended to 3 years ENG INSTRUMENTS User Manual Copyright Chauvin Arnoux Inc d b a AEMC Instruments All rights reserved No part of this documentation may be reproduced in any form or by any means including electronic storage and retrieval or translation into any other language without prior agreement and written consent from Chauvin Arnoux Inc as governed by United States and International copyright laws Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive Dover NH 03820 USA Tel 800 945 2362 or 603 749 6434 Fax 603 742 2346 This documentation is provided as is without warranty of any kind express implied or otherwise Chauvin Arnoux Inc has made every reasonable effort to ensure that this documentation is accurate but does not warrant the accuracy or completeness of the text graphics or other information contained in this documentation Chauvin Arnoux Inc shall not be liable for any damages special indirect incidental or inconsequential including but not limited to physical emotional or monetary damages due to lost revenues or lost profits that may result from the use of this documentation whether or not the
52. Harmonics mode displays a representation of the harmonic levels of the voltage current and apparent power order by order It can be used to determine the harmonic currents produced by nonlinear loads and analyze problems caused by harmonics according to their order overheating of neutrals conductors motors and so on 5 2 1 V h03 272x 273w O 272m 299v 30 0 y 299v 000 001 001 T CH Paa GI 3L uu i 25 N K DE 1 3 5 7 9 11 13 15 17 19 21 23 25 Figure 5 15 V Phase to neutral voltage A Harmonics of the current S Apparent power of the harmonics U Phase to phase voltage harmonics The AD and AI buttons allow the user to zoom in or out in increments of 2 5 10 20 50 and 100 PHASE TO NEUTRAL VOLTAGE HARMONICS The V sub menu displays the harmonics of the phase to neutral voltage only for sources having a neutral NOTE The choice of curves to be displayed depends on the type of connection see 4 1 4 Single phase 2 wire no choice L1 Single phase 3 wire L1 N Split phase 3 wire 2L L1 L2 Split phase 4 wire 2L L1 L2 N 3 phase 4 wire 3L L1 L2 L3 3 phase 5 wire 3L L1 L2 L3 N The examples shown in the following sections were obtained with a 5 wire 3 phase connection Power Quality Analyzer PowerPad Ill Model 8336 51 3L PHASE TO NEUTRAL VOLTAGE HARMONICS V hog 272x 273x 272x 299y 30 0v 299y 000 001 001 lt Q SRE
53. M 161 V3 168 WNe 40b a Figure 2 2 1 Top bar on the display including e Symbol of the tested mode HBS In VV etc e Frequency of measured signal e Memory capacity status bar only available in certain modes e Current date and time e Battery charge status see S 2 9 2 Measured RMS values associated with waveforms 12 Power Quality Analyzer PowerPad Ill Model 8336 3 Values of signals at an instant t at the intersection of cursor and the waveforms The cursor can be moved along the time scale by pressing the 4 and B buttons 4 Measurement selection refer to 8 8 Calculation of DPF Tan KF UNB Min Max VAR Harmonics PST and DF parameters and the frequency mea surement can only be performed if voltage or current with a frequency of 40 to 70HZz is applied to the Ch1 voltage input or the A1 current input 5 Selection of waveforms to be displayed use the A and V buttons to select U Signifies phase to phase voltage V Signifies phase to neutral voltage A Displays current for each phase L1 L2 L3 Refer to the phases A B C The Auto Power Off function can be turned ON and OFF during instrument configuration see 8 4 1 2 3 2 8 CONNECTION TERMINALS Figure 2 3 1 Four 4 current input terminals on the top of the instrument to enable the use of current sensors MN SR AmpFlex MiniFlex MR SL amp J93 probes 2 Five 5 voltage input terminals measures four voltages
54. N SNAPSHOTS The Snapshot folder in the navigation frame displays a list of photographs snapshots with the date and time taken when the camera button was pressed Clicking on a recorded snapshot shows the data at the time the camera button was pressed D Snapshots can only be initiated using the camera button on the Model 8336 itself not by DataView 6 7 3 ALARMS Clicking Alarms in the navigation frame displays a list of alarms that were recorded on the Model 8336 Details on the alarm search are available by clicking on the desired alarm set which opens up an alarm window with the searches details Alarm search data can be selected and downloaded to a spreadsheet or a DataView report by opening the File menu and selecting the appropriate commands 6 7 4 TRANSIENTS The Transients folder displays transients stored on the Model 8336 It shows the number and name of the recording and the time it began and ended The selected transient s can either be downloaded or deleted The downloaded data contains many waveforms Use the navigational buttons in the toolbar Such as zoom in and zoom out A to view details in the data These buttons are available in every graph from recorded data 6 7 5 INRUSH The Inrush folder displays recorded Inrush data that is stored on the Model 8336 Buttons at the top of the data frame are arranged in three rows The top row selects the measurement group that can be displayed The buttons in the second row
55. NANANA N NA NLNLS EL NL NANLALALAKE INAALALA 74 5 4 7 1 DELETING A SINGLE ALARM CAMPAIGN ccccccececcessercecessesceceecersercaceserseceecervarsareesusarseseevanvarsasersnsesersertanes 74 5 4 7 2 DELETING ALL ALARM CAMPAIGNS NAN NNLINN KNA ANNA KEL ELLEN NAALALA NN 74 99 TREND MODE AA 74 5 5 1 PROGRAMMING AND STARTING A RECORDING c ccccecessessecescescersereesersesceceeservarersersarsavesarsarersersarsassavsrvneaserserees 74 5 5 2 VIEWING THE RECORDING LIST cccccecceccecessersesescesseccecsevsecerveceesarvateuseusarseceevauvarceseusarsersevausarsarersnsarsarersaneanereerees 75 5 5 3 DELETING RECORDINGS nanana NANANA ANNA NINANAIS ENNA NLNAAN NANA ANANAASIL NLA 76 5 5 4 VIEWING RECORDS cccecesessscescessesseceecersaceeceesaeseccevsesecsecsuvausarsusausecsaveesarsaruseavarseseavarsarsesrsansasersirvarsaseusensereasereanees 76 5 5 5 TREND GRAPHS cceccecsscessescecescessecseceecersareeceesaucavsusuusacsecersarvarsuseuvarsateevansatuseasarsaceasarsarsesusausaceasersansasersersareasersarees 76 5 6 POWER AND ENERGY MODE u0 cccecseccsseseecceceececserceceecervecceceesarsareseavaesecevsusarveceusarsarcaveusarsareesrsarsateevansaneisrsarseseavensneatersenss 85 silog VS E Le ft E 85 5 6 1 1 POWER 85 5 6 1 2 QUANTITIES ASSOCIATED WITH POWER 86 5 6 1 3 ENERGY CONSUMED NA NLEN NAAALAALA ANNA 86 5 6 1 4 ENERGY GENERATED 0 ccccececsesescescecescesseccecesersaceceevansaccevsusarsecsesausarsavsusauvecersersarsatuva
56. NG ee e CN EE 7 ly ORDERING INFORMATION EE 7 bg NG ee ORE AA AA 7 t22 REPLACEMENT PARK EE 7 la IN ING E Eed 8 1 4 CHARGING THE BATTERY 1111117 0 Q Q ktt tetette naseer PPS PPPA rArAAEEEEAEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEPPE SSPE EEE REEE EAEEEEEEEEEEEEEEEn 8 BE Ri Lea EE e RE 8 2 INTRODUCTION BEE 9 2 4 DE CRIFPTON DEE 9 2 2 MEASUREMENTS Jasaan wanna KKK NKIKINIG AA KAANAK ANA 9 AG a Pg BA AA 10 24 CONE CURANO HE 10 E e ARA AA AA 11 2 6 ONOFEBUTTON EEN 12 e RE EE 12 ere es uer Me EE 13 29 e RE 14 210 STAND EE 14 S LTE 15 CS DUO EE 15 3 2 CONFIGURATION SET UP MODE iscssiidvadiiviacesittivexatined enitiinseberseneuebiassreuiaebiaerreaeniniadnerdoebialaciadisedanietenseneieuaediealiuninidtanacias 15 3 3 INSTALLATION OF THE LEADS AND CURRENTGENGORG 11 15 3 3 1 ei Eet eier RRE 16 3 3 2 DISCONNECTION We ee Te 16 ia FUNCTION E b 4 CONFIGURATION TAGA AA 18 4 1 CONFIGURATION SET UP MENU EE 18 Ar e AN AR 19 dil e EE 20 dala BRIGHTNESS ca AA ANA AA AA NANA AA AA AA 20 EE 20 4123 DISPLAY HUTDO ET EN A124 BACKGROUND COLOR NIGHT MODE vwiiiisccisssierincinictinsisubtebvassentiaaniseninctinisseeivebatliveatiinionsseasiaaannaannianttbannboanes 21 AT CALCULATION da Tei 22 4 1 31 NON ACTIVE e CR KE 22 dada UNIT OF ENERGY E 23 Jal Eeer EE AA 23 Be PRASE HARMONIC RATIOS asim ANA AE ABANGAN aa E NANANA AN 24 4 1 3 5 ERR e E 24 Ah ELECTRIC AH HOO H 25 419 PROBES AND RATIOS nnaman AA APA AA AA AA ANA
57. RAMMING AND STIARTINGASEARCH kank k k nakk kt nL kE n AEEA L EEE LEEA L E rnnr 41 5 1 1 2 DISPLAYING A TRANSIENT WEE 42 5 1 1 3 DELETING A TRANSIENTS SEARCH 0 cccccsssssecsesecsscsucsecscsecsucsucsesscsussuesucsessesucessesatsassucsucetsutsasstestsessueeseceeeee 44 yea eB SL gS aloe TSI I ee eee eee ene eee a 44 Baha INRUSH CURRENT MODE dara a a EEE G EEE EOE AT E 45 5 1 2 1 PROGRAMMING A CAPTURE anakku arin k kark k nkan NANANA NANA kamamananmamananann 45 5 1 2 2 DISPLAYING CAPTURE PARAMETERS cccsessecsesscssssucsessesecsuceussessesucsucescsessesuesusstsassatsuesucetsuesecsesesetsiestseeeeeee 46 5 1 3 TRUE RMS CURRENT AND VOLTAGE cssccscssssessecseceesecscsesecsuesecssssscuesussucsucsesecsussussssstsarsucsusstssesecstestsetsatseeeseeeesee 47 5 1 4 INSTANTANEOUS INRUSH CURRENT umasa ANGKAN LAAN AA AN Lnn AAL nEn LA AE ALEE LANA E LEEA AEA L En rnrn 49 5 2 HARMONICS MODE JJ 10 nasaan GANANG ALALA bnmnanananan 51 5 2 1 PHASE TO NEUTRAL VOLTAGE HARMONIE 51 5 2 2 CURRENT ANNA N AGA LALALALA ALNG LALALALA LAAL amamamanananas 53 5 2 3 APPARENT BOWER LG ALAALA GALANG LALA nnmamanananas 55 5 2 4 PHASE TO PHASE VOLTAGE NASAAN ANAL LALALALA LALALALA LALA LEEA A EEEE A AEEA L EEan nans 56 5 2 5 EXPERT MODE cccccccsccsecscssesscsessesecssesscsssesuecucsucsssuesucsussussessssucsssessesassussusessussusacsstsatsusasetsseseesnsatsettasstsstsstsetsesseeseeees 58 5 3 WAVEFORM MODE 32132 naan AN LL ALL AALALA IEEE EEEE EEEE En 60 5 3
58. The other buttons have the following functions Snapshot of current screen and retrieval of screens already stored 5 7 Help information about functions and the symbols used for current display mode 8 3 ABBREVIATIONS Prefixes of International System S1 units Prefix Symbol Multiplies by tera tt Crea pf ee oe Im Meanings of the symbols and abbreviations used AC and DG components Pi Adlivepower OOO AC component only Pde DCpower S DC component only Pdch DC energy cual ene agra me ana Capacitive gier FE Powerfadto O o a Reactive power fundamental Sum of values Gh Reactive energy fundamental Percentage RMS True RMS value current or voltage OSO o lo HANG RING o II Absolutevalue o EO 9 Fundamental value as reference Apparent power Total value as reference U Sh Apparent harmonic power KC f Ze D OF Phase shift of voltage with respect to current a Apparent energy UA A A Current also Ampere unit Relative date of time cursor spect to current Crest peak factor of current Total harmonic distortion in Yof or in Yor Ad RMS distortion current JL H Phaseto Phase voltage Ade DCcurent um Phasetophasevofagehameonic Apk Maximum peak value of the current 1 Ucf Phase to Phase voltage crest factor U Apk Minimum peak value ofthe current ud Phaseto phase RMS distortion voltage Athdf Total harmonic distortion of c
59. al only the total quantities are represented 03 10 14 10 52 tan 2 311 2 sgp 28 e Pa ER Lt La 42324 w 2 060 min 20 a0 40 20 SH O 10 POE La TE ER Figure 5 53 This graph is an example of tan L1 without MIN AVG MAX for a 3 phase connection with neutral Power Quality Analyzer PowerPad Ill Model 8336 79 030 14 10 52 tan 2311 2317 s230 E 2590 DN 3L Li La 43 324 La Pa K 2 056 mine 20 30 40 50 H 10 20 T DD BS bin FE Een Figure 5 54 This graph is an example of tan L1 with MIN AVG MAX 1581k min 20 30 40 Figure 5 55 Item Function 1 Sum of powers of the three phases is presented in bar graph form 2 Changes the scale of display between 1 minute and 5 days For the energy graphs the quantities are expressed in Wh J toe or BTU depending on the unit chosen in the configuration of the instrument see 8 4 1 3 2 HOLY kag 4101 7 kw tory k C4 4111 9k Fa D L2 1 01 7k 3 ES wl 491 47 k min 26 37 25 29 30 31 T t 222 be Vi a Figure 5 56 This graph Figure 5 56 differs slightly from the previous one because with the MIN AVG MAX mode there is no loss of information 80 Power Quality Analyzer PowerPad Ill Model 8336 The MIN AVG MAX mode can be activated for the powers to be displayed above the graph the mean power value at the cursor date along with the maximum and minimum power values Note that in contrast with the o
60. amp for a 2 wire single phase connection phase to ground voltage 10 The energy corresponds to more than 190 years at maximum power Pdc unit ratios Quantities associated with power Measurement Display resolution Maximum intrinsic accuracy Phase differences of 179 180 C 1 wee D 5cts E cos D 0 001 tan 10 32 77 EE 1 for D ato 01 tan Oz ato 3cts UNB lt 10 Voltage unbalance UNB 0 100 0 1 UG UNB gt CH Current unbalance UNB 10 O oun 1 ETO 1 Itan dl 32 767 corresponds to 88 25 k x 180 k being a natural number cos D soeh om 001 Quantities concerning the spectral composition of the signals aa a Measurement Display resolution Maximum intrinsic accuracy 0 1 SE 150096f T lt 100090 0 0 Voltage harmonic ratio t 0 100 r en 2 5 5cts t 2 1000 0 1 2 n x 0 2 10cts 150096f t lt 1000 n lt 25 100 r 1 2 n x 0 6 5cts t gt 1000 aa 0 1 2 n x 0 38 5cts 1500 f t lt 1000 n lt 25 100 r 1 2 n x 0 6 5cts t gt 100096 dE 999 9 0 1 2 5 5cts Current harmonic ratio t excluding AmpFlex amp MiniFlex Current harmonic ratio t AmpFlex amp MiniFlex Total voltage harmonic distortion THD referred to the fundamental of voltage 2 5 5cts sivnz21 7 lt 100 n 96 999 9 2 Na x 0 3 Scts A Total current harmonic distortion THD
61. and B buttons 2 Peak factor for each curve Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds V1 instantaneous phase to neutral voltage of phase 1 V2 instantaneous phase to neutral voltage of phase 2 V3 instantaneous phase to neutral voltage of phase 3 VN instantaneous phase to neutral voltage of the neutral 5 3 3 3 CF 4A This screen displays the current waveforms of one period and the peak factors Q D A Zs 20 av 4A m 2 II N wi 313 A ets Sms Al 1 398 A2 1127 AS41408 AN e1127 E Figure 5 36 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 Peak factor for each curve Instantaneous value of the signals at the intersection of the cursor and the graphs t time relative to the start of the period expressed in milliseconds A1 instantaneous current of phase 1 A2 instantaneous current of phase 2 A3 instantaneous current of phase 3 AN instantaneous value of the neutral current NOTE Filters L1 L2 L3 and N display the total current and voltage harmonic distortion for phases 1 2 and 3 and the neutral channel respectively 66 Power Quality Analyzer PowerPad Ill Model 8336 5 3 4 MEASUREMENT OF EXTREME AND MEAN VOLTAGE AND CURRENT VALUES The sub menu displays the RMS maximum minimum and average values for voltage and current as well
62. and the 5A adapter Power Quality Analyzer PowerPad Ill Model 8336 125 Measurement ranges after application of the ratios Measurement range Measurement Minimum Maximum with minimum ratio s with maximum ratio s amp RMS 72 voltage 420mV 340GV Direct voltage DC Peak voltage PK RMS amp RMS 7 current EVEN Bee Reactive power IO non active N 600uvar 51Pvar 0 and distortion power D Apparent power S 600UVA 51PVA 9 DC energy Pdch 9 999 999EWh Reactive energy Q h non active Nh 1mvarh 9 999 999Evarh and distortion energy Dh Apparent energy Sh 1mVAh 9 999 999EVAh 1 The energy corresponds to more than 22 000 years of the associated maximum power maximum ratios 2 The energy Pdch corresponds to more than 1 million years at maximum power Pdc maximum ratios 3 Maximum value calculated for a 2 wire single phase connection phase to ground voltage 126 Power Quality Analyzer PowerPad Ill Model 8336 9 2 6 CURRENT PROBE ACCURACY TO BE ADDED TO THE MODEL 8336 S ACCURACY Sensor errors are offset by a typical correction inside the device This typical correction applied to the phase and amplitude depends on the type of sensor connected detected automatically and the gain in the current acquisition channel used The RMS current measurement error and phase error are additional errors which must therefore be added to the device errors indicated as influences on the calculations
63. angerous voltages Type A current sensor per material in compliance with Directive WEEE 2002 96 EC IEC 61010 2 032 Definition of Measurement Categories CAT m CATIV Measurement category IV corresponds to measurements taken at the source of low voltage installations Example power feeders counters and protection devices m CAT III Measurement category Ill corresponds to measurements on building installations Example distribution panel circuit breakers machines or fixed industrial devices m CATII Measurement category Il corresponds to measurements taken on circuits directly connected to low voltage installations Example power supply to domestic electrical appliances and portable tools N PRECAUTIONS FOR USE This instrument is compliant with safety standard IEC 61010 2 030 the leads are compliant with IEC 61010 031 and the current sensors are compliant with IEC 61010 2 032 for voltages up to 600V in category IV or 1000V in category III Failure to observe the safety instructions may result in electric shock fire explosion and destruction of the instrument and or other equipment e The operator and or the responsible authority must carefully read and clearly understand the various precautions for use of the instrument Sound knowledge and a keen awareness of electrical hazards are essential when using this instrument e f you use this instrument other than as specified the protection it provides may be compromised there
64. ansarersrsareateatensnneeterserss 96 6 4 CONFIGURING THE INSTRUMENT ccccccccccecsecceceecescessecceceesersaceeseevarsecseversaveaseusersarsavsusarveseseusarsevesanvarersersarsaseetneneesersenss 97 E E ET 98 6 4 2 SENSORS AND RATIOS ccecccccecescessesessescecceceeceucerseceesersacsusarsarsaveavaesarseveusarcessesauvarsaveusrsarsetensarsatersenvarsatervaneaneeserees 99 6 4 3 INSTRUMENT DISPLAY cccccccceccecsessecescesccescerseecerceceeseccecsusarsareeservecseversarsaverseusarseteavarsarsasusarsaseesausansasnesnsareeterearees 99 6 4 4 ALARM CONDITIONS CAN 100 6 4 5 RECORDINGS AA 101 6 4 6 MeV NES i EE 102 E am eC CA 103 CO CHOU EE 104 6 6 REAL TIME DATA 105 6 6 1 TREND DN 105 Power Quality Analyzer PowerPad Ill Model 8336 o0 NWA lO E AA AA AA O NAPAKA POE 105 6 6 3 HARMONIGS ccccccccscscssssccsesscsesecsscecsucscsuesscessucsvsecsussssucsusasvssssussrsassvessssssnsassucsesasassasusstsasstsseerssesatsvssesssstsasstsaeeeseeee 106 6 6 4 POWER 106 6 6 5 ENERGY NAIN KA NAG KN NENG LANG LN LALO L AN KAN LANANG N KALAN LALA kanmunnmanman 107 6 7 DOWNLOADING DATA 107 674 RECORDING maa AA E E T anal 108 6 7 2 SCREEN SNAPSHOTS ana N ANAN ANAN HANNA AALALA LLANA EEA anann 108 pO AAP EE 108 6 7 4 TRANSIENTS u 2222sm ANAN ANING AALALA L LA L EA A EAA LALA kA AEA a ann 108 E25 e T E E E EEEE AE EA E E E EE EENE 108 6 7 6 EDITING DOWNLOADED DATA 108 Tc MAINTENANCE TEEN 110 7 4 CLEANING woececcccccccscss
65. as the instantaneous positive and negative voltage and current peaks D NOTE The display screen varies depending on which value is selected 3U Displays the one second mean and half cycle maximum and minimum RMS values and the instantaneous positive and negative phase to phase voltage peaks 4V Displays the one second mean and half cycle maximum and minimum RMS values and the instantaneous positive and negative peaks of the phase to neutral voltages and of the neutral 4A Displays the one second mean and half cycle maximum and minimum RMS values and the positive and negative instantaneous peak values of the phase and neutral currents L1 L2 L3 Displays the one second mean and half cycle maximum and minimum RMS values and the instantaneous positive and negative peaks of the phase to neutral voltage and of the current of phase 1 N Displays the RMS values and the positive and negative instantaneous peaks of the neutral relative to ground O 2 402 1 404 7 4044 v 400 2 4028 402 7 v 397 9 401 0 400 7 v 566 3 569 3 5696 v 566 0 569 6 5694 v Figure 5 37 The columns display the values relative to each voltage current or neutral graph Item MAX RMS MIN PK PK Function Maximum RMS phase to phase voltage since the instrument was turned ON or the last time JI button is pressed True RMS phase to phase voltage Minimum RMS phase to phase voltage since the instrument was turned ON or the last time 5J button is
66. ases 3 and 1 U31 5 3 2 2 THD 4V This screen displays the phase to neutral voltage waveforms for one period and the total harmonic distortion values Dm Ur z Ur Ur op Us 2 its Alma Milsr d b VWes 350 9 W3 366 3 WN 256 3 Figure 5 32 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 Harmonic distortion rate for each curve Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds V1 instantaneous phase to neutral voltage of curve 1 V2 instantaneous phase to neutral voltage of curve 2 V3 instantaneous phase to neutral voltage of curve 3 VN instantaneous value of the neutral voltage 5 3 2 3 THD 4A This screen displays the phase current waveforms for one period and the total harmonic distortion values ct Am Als 203 A2 1125 AS41408 AN 1125 3 Figure 5 33 64 Power Quality Analyzer PowerPad Ill Model 8336 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 Harmonic distortion rate for each curve Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds A1 instantaneous current of phase 1 A2 instantaneous current of phase 2 A3 instantaneous current of phase 3 AN instantaneous value o
67. ator Clips 2 X aa Cat 2140 43 1 Black 10 ft 3M Lead with 1 Black Alligator Clip ua GAT GAGANA Cat 2140 44 Leads are rated 600V CAT IV 10A Clips rated 1000V CAT IV 15A UL Set of 12 Color coded Input ID MarkerS aa Cat 2140 45 O A CADIC E Cat 2140 46 Power Adapter 110 230V With US Power Cord sgedeteeegeiegetet eet ee Een Cat 5000 19 Power Quality Analyzer PowerPad Ill Model 8336 1 3 oI Ee fei e 1 4 INSTALLING THE BATTERY WARNING e For safety reasons replace the battery only with the original replacement model see 8 1 2 2 e Donot expose the battery to heat exceeding 212 F 100 C e Do not short circuit the battery terminals e To eliminate all risk of electric shock disconnect the power supply cord and measurement leads of the instrument Turn the instrument over raise the stand and prop it up Use a coin to unscrew the two quarter turn screws on the back of the housing Using a flat screwdriver remove the cover from the compartment Turn the instrument over and hold the battery as it slides out of its compartment Disconnect the battery connector without pulling on the wires Connect the new battery The connector is error proofed to prevent reversals of polarity Place the battery in its compartment and arrange the wires so that they do not protrude Put the battery compartment cover back in place and screw the two screws back in CHARGING THE BATTERY Fully
68. button or icon To configure the instrument select Instrument from the menu bar and then click Configure This displays the Configure Instrument dialog box Power Quality Analyzer PowerPad Ill Model 8336 P Configure rer Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush Schedule Distribution System 3 Phase 5 Wire 3V v U L2 L3 N Reactive values var calculation Transformer Factor K Nominal Frequency N Combined With Harmonics o e 50 Hz 3 60 Hz Q Separated Without Harmonics Phase Harmonic Ratios Long Term Flicker Fundamental Value as reference f Fixed Window Total Value as reference r Sliding Window Re Read from Instrument Save To File Load From File Lox Hep Figure 6 7 The Configure Instrument dialog box consists of eight tabs Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush and Schedule At the bottom of each of these tabs are a set of buttons that perform the following tasks Re Read from Instrument reads the current configuration of the connected Model 8336 Save To File saves the current configuration This file will reside on the computer s disk drive Saving different configuration setups can be useful for future functions and tests Load From File retrieves a saved file from the computer s disk drive to be used in programm
69. by endangering you e Do not use the instrument on networks which the voltage or category exceeds those mentioned e Do not use the instrument if it appears damaged or otherwise compromised e Before each use check the condition of the insulation on the leads housing and accessories Any item on which the insulation is deteriorated even partially must be set aside for repair or scrapping e Before using your instrument check that it is perfectly dry If it is wet it must be thoroughly dried before being connected or being operated in any way This includes the terminals and keypad e Use only the leads and accessories supplied Using leads or accessories of a lower voltage or category reduces the voltage or category of the combined instrument and leads or accessories to that of the leads or accessories e Always use personal protection equipment e Keep your hands away from the terminals of the instrument e When handling the leads test probes and alligator clips keep your fingers behind the physical guard e Use only the AC power cord and battery pack supplied by the manufacturer They include specific safety features e Some current sensors must not be placed on or removed from bare conductors at hazardous voltages refer to the manual and comply with the handling instructions Your instrument is equipped with a NiMH battery This technology offers several advantages e Long battery charge life for a limited volume and weigh
70. carried out by the analyzer powers energies power factors tangents etc 1 o 4 29 1 o AmpFlex o ki 3A to 50A Uu 100A to 500A 1 5 2 50 Pwr 1A to 10A 1 5 1A i Te 5 5 J93 clamp 3500A SR193 clamp 1000A MR193 clamp 1000A 500mA to 10A 3 1A fz ee eye a x96 474 MN193 clamp 2 0 796 2mA nee paaa 1 o D S0mA to 1A 10 596 1mA Note This table does not take into account possible distortion of the measured signal THD because of the physical limitations of the current sensor saturation of the magnetic circuit or of the Hall effect cell Class B under standard IEC61000 4 30 Power Quality Analyzer PowerPad Ill Model 8336 127 9 2 7 CURRENT PROBES AND SENSORS When installing probes face the arrow on the probe in the direction of the load Note that only AmpFlex sensors are watertight all other probes and sensors are non watertight Model SR193 Nominal Range 1000Aac for f lt 1kHz A to 1200Aac max I 51000A not continuously Probe Output Signal 1mVac Aac Maximum Clamping 2 52mm Safety EN 61010 2 032 Pollution Degree 2 600V CAT IV 1000V CAT Ill NOTE Currents lt 0 5A will be displayed as zero Neutral current measures down to OA Maximum Clamping 0 8 20mm EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT Ill NOTE Currents lt 0 5A will be displayed as zero Neutral current measures down to OA Model MR
71. charge the battery before the first use D NOTE A full recharge of a completely discharged battery takes approximately 5 hrs 120V 10 60Hz To recharge the battery 230V 10 50Hz ec m Remove the cover of the battery charging connector m m Connect the supplied power cord to the instrument and AC a gt m The button lights and will go out when the power cord is disconnected 1 5 SETTING THE LANGUAGE m Before using the device first choose the language in which See DEAA 1010an dl you want the device to display its message Date Time Display m Press the green button to switch the device on m Press the Configuration 2 G button Calculation Methods Electrical Hook up Probes and Ratios sac dsaJo m Press the yellow button on the device corresponding to the Capture Mode desired language Trend Mode Alarm Mode Erase Memory About 1 6 TA Ce i ee rt Power Quality Analyzer PowerPad Ill Model 8336 2 INTRODUCTION 2 1 DESCRIPTION The PowerPad Ill Model 8336 is a 3 phase network analyzer with a color graphic display and built in rechargeable battery This instrument can be used to e Measure the RMS values powers and perturbations on electric distribution networks e Deliver a snapshot of the principal characteristics of a 3 phase network e Track the variations of various parameters over time The measurement accuracy of the instrument is better than 1 no
72. d E4 3U 4V 4A L1 L2 L3 N Fort 3U 3V 3A L1 L2 and L3 2V 2A L1 N U 2V 2A L1 L2 U 3V 3A L1 L2 N 60 Power Quality Analyzer PowerPad Ill Model 8336 5 3 1 1 RMS 3U This screen displays the three phase to phase voltages of a 3 phase system 4003 v 24028 v G 4026 v O NW K X XX S cts SOms Ul 566 U 272 U 294 3 Figure 5 27 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 RMS phase to phase voltages Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds 3 U1 instantaneous phase to phase voltage between phases 1 and 2 U12 U2 instantaneous phase to phase voltage between phases 2 and 3 Uz3 U3 instantaneous phase to phase voltage between phases 3 and 1 U31 5 3 1 2 RMS 4V This screen displays the three phase to neutral voltages and the neutral to ground voltage of a 3 phase system e 2344v 153v O a Va Ip av 4a a L2 L3 H wi ct 6 9ms Mis 4262 V2 431 Vis 305 WM 43 ER Figure 5 28 Power Quality Analyzer PowerPad Ill Model 8336 61 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 Effective phase to neutral voltages Instantaneous value of the signals at the intersection of the cursor and the curves t
73. d battery charging _ Enter button Four 4 buttons that enable movement of the cursor browsing or the selection of data Buttons for directly accessing the 6 display modes D NOTE Refer to 8 8 for function button descriptions Power Quality Analyzer PowerPad Ill Model 8336 11 2 6 ON OFF BUTTON The Model 8336 can operate on either battery or on AC power Pressing the D button powers up the instrument If the instrument is shut OFF suddenly line power outage in the absence of the battery or automatically battery low an information message is displayed when it is next started up Pressing the D button again turns the instrument OFF If the instrument is recording metering energy or searching for transients alarms and or inrush current acquisition it requests confirmation Select YES or NO on the corresponding yellow buttons then press the oi button to confirm e f NO is selected recording will continue e f YES is selected the data recorded until that point are finalized and the instrument is turned OFF 2 7 DISPLAY The backlit 320x240 pixel 1 4 VGA graphic TFT screen displays all measurements with their graphs the parameters of the unit the graphs selected the instantaneous values of the signals and the type of measurement selected When the instrument is powered up it automatically displays the Waveform screen O Q 0231 1v 2310 v O2338v 00v ZUM EERE E Dik SOms Mis 327
74. dule Connection Type 3 Phase 5 Wire Instrument s Clock 1 31 2014 1 15 25 PM 59 min after PC dock Record Now Use the same dates times and names for the recordings and searches MIA 2014 Schedule Recording 1 31 2014 gt 1 31 2014 Schedule Transient Search 1 31 2014 1 31 2014 Schedule Inrush Search 1 31 2014 Schedule Alarm Search 1 31 2014 1 31 2014 e 1 20PM Name is up to 8 chars and contains A Z 0 9 5 Figure 6 14 m Record Now immediately begins a recording session or search depending on selections The process can start without a name m Use the same dates times and names for the recordings and searches instructs the Control Panel to use the same settings for all recordings and searches The remaining fields on the dialog enable you to schedule and optionally name a recording transient search inrush search or alarm search Click OK to write the configurations to the instrument and close the Configuration dialog box i NOTE For more information about configuring the Model 8336 from the PowerPad III Control Panel consult the Help file within the software 104 Power Quality Analyzer PowerPad Ill Model 8336 6 6 REAL TIME DATA When your setup is completed you can display different views on the screen of real time data and waveforms 6 6 1 TREND This display shows a real time trend of data from the Model 8336 The data is an average of waveforms d
75. e CAPTURE PARAMETERS Start threshold O1004rms Triggering channel AS Hysteresis ak Start e003 14 46 Duration 057 0004 Figure 5 8 When a capture duration is displayed in red it has been cut short for one of the following reasons power supply problem battery low memory full measurement error incompatibility between the quantity monitored and the configuration of the instrument e g withdrawal of a current sensor Choose the type of display RMS or PEAK by pressing the yellow button corresponding to the icon The instrument then displays the graphs 46 Power Quality Analyzer PowerPad Ill Model 8336 D NOTE The PEAK button is not displayed when the inrush current capture recording mode is RMS only In the PEAK display the available information is e The instantaneous current and voltage at the time indicated by the cursor in a waveform representation e The maximum instantaneous current and voltage in the half cycle indicated by the cursor in an envelope representation e The maximum instantaneous absolute value of the current and voltage over the entire capture In the RMS display the available information is e The instantaneous frequency at the time indicated by the cursor e The minimum mean and maximum instantaneous values of the frequency over the entire capture e The RMS current and voltage in the half cycle or lobe on which the cursor is positioned e The maximum half cycle RMS
76. e fundamental or to the total RMS value Range DC DC component 1 to 25 harmonics of order 1 to 25 When the cursor exceeds order 25 order 26 to 50 appears amp energy consumed for this harmonic NOTE Filters L2 and L3 display the apparent power of the harmonics for phases 2 and 3 respectively The screen is identical to the one displayed for filter L1 5 2 4 PHASE TO PHASE VOLTAGE The U sub menu is available for all connections except 2 or 3 wire single phase This sub menu displays the harmonics of the phase to phase voltage 3L PHASE TO PHASE VOLTAGE HARMONICS Item 56 D U h0o3D 273x 272x 273m 299v 30 0 v 000 000 3 5 7 9 i 13 15 17 19 2M 23 25 3 Figure 5 22 Function U h03 harmonic number Vo level of harmonics with fundamental apparent power f or total apparent power r as reference V RMS voltage of harmonic 000 phase shift with respect to fundamental order 1 Harmonic selection cursor change values with the cursor using the lt and B buttons Horizontal axis indicates orders of harmonics Harmonic level is percentage of fundamental apparent or total apparent power Range DC DC component 1 to 25 harmonics of order 1 to 25 When cursor exceeds order 25 order 26 to 50 appears Power Quality Analyzer PowerPad Ill Model 8336 L1 PHASE TO PHASE VOLTAGE HARMONICS U hO3 333w 76 6 v 010 max 33 32f min 33 3xf THD 778x Ud 1789 v Ek So S Il 13 15
77. e open delta 3 wire grounded corner of phase 3 phase high leg delta 3 wire 3 phase open high leg delta 3 wire L3 L1 L2 L3 L1 L2 L3 L1 L2 L3 L1 L2 L3 L1 L2 L3 L1 L2 27 3 phase star 4 wire non grounded neutral 3 phase 4 wire L1 L2 L3 and N 3 phase open high leg delta 4 wire non grounded neutral Indicates which voltages will be connected all 3 3V or only 2 V1 and V2 or V2 and V3 or V3 and V1 L3 N L1 L2 L3 L1 N L2 If only two of the three voltages are con L3 nected the three phase voltages must be balanced 2 2 element method 3 phase high leg delta 4 wire non grounded neutral S N L2 L3 N L1 Z N GND ZE A L2 L3 L1 N GND L2 L3 L1 N GND L2 3 phase star 5 wire grounded neutral 3 phase 5 wire L1 L2 L3 N and ground 3 phase open high leg delta 5 wire grounded neutral Indicates which voltages will be connected all 3 3V or only 2 V1 and V2 or V2 and V3 or V3 and V1 If only two of the three voltages are con nected the three phase voltages must be balanced 2 2 element method 3 phase high leg delta 5 wire grounded neutral 28 Power Quality Analyzer PowerPad Ill Model 8336 4 1 5 PROBES AND RATIOS 4 1 5 1 CURRENT PROBES The 28 screen defines the current probes and ratios ZE CURRENT RATIOS AND CURRENT SENSORS AmpFlex Ierseng SR193 Tons Figure 4 13 This menu enables you to define m C
78. ect to the current V9 Q CF phase to phase voltage crest factor V9 Q rms phase to phase voltage root mean squared VO THDf harmonic distortion of the phase to phase voltage with the fundamental RMS value as reference V THDr harmonic distortion of the phase to phase voltage with the total RMS value without DC as reference VO N CF phase to neutral voltage crest factor VON DC DC phase to neutral voltage VO N Hf phase to neutral voltage harmonic factor VO N okt maximum phase to neutral voltage VO N pk minimum phase to neutral voltage VQ N rms phase to neutral voltage root mean squared V N THDf harmonic distortion of the phase to neutral voltage with the fundamental RMS value as reference Power Quality Analyzer PowerPad Ill Model 8336 D var V9 Q DC DC phase to phase V N THDr harmonic distortion of voltage the phase to neutral voltage with the total RMS value without DC as reference DPF cos displacement factor V9 Q Hf phase to phase VQ N unb 2 phase to neutral voltage harmonic factor voltage unbalance FHL harmonic loss factor VQ pkt maximum phase VA Hf Apparent power harmonic to phase voltage factor FK factor K K factor V Q pk minimum phase to phase voltage Phases Options are 3L N and 4L lt or gt Determines whether the alarm condition is triggered when the measurement exceeds or falls below the threshold alarm setting Threshold The value that
79. edule Connection Type 3 Phase 5 Wire Threshold of Voltage Difference Threshold of Current Difference Phase Neutral A Same thresholds for all 5 Transients free 210 Maximum number of transients to find 1 Transients Gee iF al deleted 210 f Re Read from Instrument Figure 6 12 1 In the Threshold of Voltage Difference section of the dialog box select from the drop down menu one of the following options 4L Same thresholds for all 3L N Same except N has its own threshold or L1 124134N Separate thresholds 2 Based on the preceding selection fill in appropriate values for L1 L2 L3 and N Some of these may be greyed out and inactive depending on the selected connection type 3 Select Maximum number of transients to find If previous transients are stored in the memory the maximum available will be reduced accordingly The information is available on the screen 4 Inthe Threshold of Current Difference section of the dialog box select the appropriate option in the drop down menu Available options are the same as those in the Threshold of Voltage Difference drop down menu The configuration settings can be saved to a file by clicking the Save to File button and selecting a file name A previously saved configuration can be loaded by clicking the Load From File button A present configuration in the instrument if connected can be read by clicking Re Read From Instrument 102 Power Qual
80. ee 8 4 1 2 1 Defines the color of the voltage and current curves see 8 4 1 2 2 Defines the settings for Auto Power Off see 8 4 1 2 3 Enables Disables Night mode settings see 8 4 1 2 4 Determines if harmonics are used or not used in calculations of reactive quantities power and energy see 8 4 1 3 e With harmonics Harmonics are taken into account when calculating reactive parameters e Without harmonics Only the fundamental part is used for the calculation of reactive parameters Determines the type of connection to the network see 8 4 1 4 1 Phase 2 Wire 1 Phase 3 Wire 2 Phase 2 Wire 2 Phase 3 Wire 2 Phase 4 Wire 3 Phase 3 Wire 3 Phase 4 Wire 3 Phase 5 Wire Power Quality Analyzer PowerPad Ill Model 8336 Probes and Ratios Capture Mode Trend Mode Alarm Mode Erase Memory About Defines the type of current probe to connect see 8 4 1 5 MN93 200A MN193 100A or 5A with variable ratio SR193 1000A 51261 10A and 100A range AmpFlex Sensors 3000A measures up to 10kA MiniFlex Sensors 3000A MR193 1000AAc 1200ADc J93 3500AAc 5000ADC 5A 3 phase adapter 3 channel only Configures the voltage and current thresholds see 4 1 6 Selects the parameters to record see 8 4 1 7 Up to four configurations Defines the parameters of an alarm see 4 1 8 Deletes configurations alarm settings snapshots and recordings see 4 1 9 Displays the serial number software and hardware version see
81. eee H 1 2 3 4567 B8 9 1011 12 OM 15 16 17 BHAA 22 23 AM 25 25 27 AZDI Connected to instrument Figure 6 17 The voltage harmonics can be selected for phase to phase voltage or phase to neutral voltage or neutral to ground voltage The Harmonics is displayed as a of the fundamental Yof as default Harmonics are displayed as absolute voltage by pressing button Similarly the current harmonics can be selected for each phase and neutral 6 6 4 POWER The Real time Data Power window displays accumulated power data Real time Data Power Ss OR D Date Time Parameter Line 1 Line 2 Line 3 Total 1 31 2014 12 40 29 PM Power P wW 2 680 kW 3 238 kW 2 516 kW 8 434 kW PDC W Q var 0 1286 kvar 0 1458 kvar 0 1163 kvar 0 3907 kvar D var 0 01275 kvar 0 04665 kvar 0 02433 kvar 0 09095 kvar S VA 2 1684 KYA 3 241 kVA 2 519 kVA B 44kYA PF 0 999 0 999 0 999 0 999 Cos p 0 999 0 999 0 999 0 999 Tan e 0 048 0 045 0 045 0 0 A ven P pP gt Figure 6 18 The data can be started or stopped using the Sot Pause and SC Play buttons and the results can be downloaded to a database and viewed on the screen selected by phase The data for all available phases are downloaded to a database or spreadsheet not just what is shown on the screen 106 Power Quality Analyzer PowerPad Ill Model 8336 6 6 5 ENERGY Real time Data Energy resembles the Power display Real time Data Energy mabababa Date Time Parame
82. el for undervoltage detection is equal to 100 2 or 102 of the Uref voltage threshold Duration Return level Threshold Hysteresis Minimum 132 Power Quality Analyzer PowerPad Ill Model 8336 A 1 3 Minimum scale values for waveforms and minimum RMS values waveform mode Phase to neutral and gv 1 phase to phase voltages AmpFlex amp MiniFlex SR193 AAL YA MRIS Oo 2A 04AM 1 MN93 0 8A Value to be multiplied by the ratio in effect if not unity A 1 4 Four Quadrant Diagram This diagram is used for W power and energy measurements see 5 6 VAR Generated N EI v Consumed E VAR Here VAR is the fundamental reactive power and not the non active power Power Quality Analyzer PowerPad Ill Model 8336 133 A 1 5 Mechanism for triggering transient sensors The sampling rate is a constant 256 samples per cycle When a transient capture is started each sample is compared to the sample from the preceding cycle The preceding cycle defines the mid point of the trigger envelope and is used as reference As soon as a sample is outside the envelope the triggering event occurs the representation of the transient is then captured by the instrument The cycle preceding the event and the three following cycles are saved to memory The following is a graphical representation of the transient capture trigger mechanism Item Function 1 Reference period Top of
83. en press ___ Power Quality Analyzer PowerPad Ill Model 8336 73 5 4 7 DELETING ALARM CAMPAIGNS 5 4 7 1 DELETING A SINGLE ALARM CAMPAIGN When the list of campaigns performed is displayed see Figure 5 42 select the campaign to be deleted by moving the cursor to it using the up and down arrow buttons The selected campaign is bolded Then press the Gs button Press Sg to confirm the deletionor to cancel D NOTE You cannot delete an alarm campaign in progress 5 4 7 2 DELETING ALL ALARM CAMPAIGNS Erasing all alarm campaigns from memory is performed via the Configuration menu in the Erase Memory sub menu see 4 1 9 5 5 TREND MODE t 5 5 1 PROGRAMMING AND STARTING A RECORDING The kr Trend mode records changes to parameters previously specified in Trend mode configuration screen see 8 4 1 7 Pressing this button displays the Recording Schedule screen O Setup Hir Start 03 10 14 11 55 Stop 03 10 14 11 56 Period Imin Name TRENDOS O 2 6 o SE Figure 5 44 Item Function 1 Memory card usage Rapid programming and starts a recording Shortcut to the Trend Mode configuration screen Displays a list of recordings Programs a recording Starts a recording O1 amp Go NO The fd screen specifies the characteristics of a recording see Figure 5 44 To quickly start a recording press the Ek button Recording starts immediately all measurements are recorded every second until the memory or com
84. enu Single phase 2 wire L1 and N N Single phase 2 wire non grounded neutral Single phase 3 wire grounded neutral Power Quality Analyzer PowerPad Ill Model 8336 25 L1 Split phase 2 wire L1 and L2 Split phase 2 wire L2 3 phase open star 2 wire L2 Split phase 3 wire non grounded neutral N L2 Split phase 3 wire L1 L2 and N 3 phase open star 3 wire non grounded neutral L1 L2 3 phase high leg delta 3 wire non grounded neutral L1 L2 3 phase open high leg delta 3 wire non grounded neutral L1 N Split phase 4 wire grounded neutral N GND L2 N Split phase 4 wire L1 L2 N and ground 3 phase open star 4 wire grounded neutral L1 GND L2 3 phase high leg delta 4 wire grounded neutral L1 L2 3 phase open high leg delta 4 wire grounded neutral L1 26 Power Quality Analyzer PowerPad Ill Model 8336 3 phase 3 wire L1 L2 and L3 Indicates which 2 current sensors will be connected A1 and A2 or A2 and A3 or A3 and A1 Two wattmeter method or two element method or Aron method The third sensor is not necessary if the other two are of the same type same range and same ratio Otherwise the third sensor must be connected to make current measurements Power Quality Analyzer PowerPad Ill Model 8336 3 phase star 3 wire 3 phase delta 3 wire 3 phase open delta 3 wire 3 phase open delta 3 wire grounded junction of phases 3 phas
85. enu press 29 to display the Configuration menu and then select t Har TREND MODE os o Ugde cUpkt SUpk ot Uthdf oUthdr ovis OVde 2Ypkt 2eYpk OVef OV thdt 2 Wthdr o Arms Ad Apk Oo Apk oO Act o Athdi 2 Athdr ob oPde 20 oD Og obt ecos otan FPS PLT FHL FR 9 Vunk sAunb Hz fe 114 Hg a e L e Oo Figure 4 19 The Trend Mode menu consists of two pages The first page is illustrated in Figure 4 19 To display the next page press the 87 button Har TREND MODE oleh 00 o Odd only ow h DO o Odd only oA4 h DO o Odd only o8 h 00 o Odd only Figure 4 20 There are four possible programmable configurations Hir Har Har Har To navigate through these configurations press the or button To select a parameter to be recorded move the yellow cursor to the parameter using the navigation arrow buttons then press NG Selected parameters are identified by a red spot The frequency Hz is always selected black spot NOTE If a quantity is displayed in red it is incompatible with the configuration chosen connection selected sen sors connected ratios programmed reference of the level of harmonics of the phases breakdown of the non active quantities For example if no current sensor is connected all current quantities appear in red To select all of the parameters of a page press the A button To deselect all of the parameters of a page press the GC button To change configuration pages press the C or
86. envelope Cycle monitored Bottom of envelope Triggering event ST amp G NO A 1 6 Capture Conditions in Inrush Current Mode Captures depend on the trigger event and a stop event If the capture ends with a stop event or if the recording memory of the Model 8336 is full the capture stops automatically The stop threshold for capture is calculated as follows Stop threshold A Start threshold A x 100 Stop hysteresis 100 The following table shows the conditions for triggering and stopping capture filter type Triggering and stop conditions Triggering condition A1 half cycle RMS value gt Triggering threshold Stop condition A1 half cycle RMS value lt Stop threshold Triggering condition A2 half cycle RMS value gt Triggering threshold Stop condition A2 half cycle RMS value lt Stop threshold a Triggering condition A3 half cycle RMS value gt Triggering threshold Stop condition A3 half cycle RMS value lt Stop threshold Triggering condition the half cycle RMS value of one current channel gt Triggering threshold Stop condition the half cycle RMS values of all current channels lt Stop threshold 134 Power Quality Analyzer PowerPad Ill Model 8336 GLOSSARY OF TERMS Inductive phase shift Eeer OOOO eooo oee Ca enms 1 Absolutevame OOO vauesorthe system OOOO O aT Percentage OOOO Gumentor the unit ampere DD Current or the u
87. esecscsscscsscsscscsscscsvesscussucecsucsvsessucsssusavsussnssssussvsasansassussseassusassassusacsusassavsnesesseasassusstsassssatsnsatsaserssesssesseeseees 110 7 2 REPLACING THE BATTER 110 7 3 UPDATING SOFTWARE amp EIRMWARE asan N ANEK LALA bGhLAG KALAKALAN LNAG A EA L EAA AAA EEE anann 111 8 ICONS BUTTON amp SYMBOLS E 112 8 4 FUNCTION BUTTON ICONS u s NANANA GANA LALALALA LALALALA LALALALA AAAA LEALL AA L a nanana 112 8 2 KEYPAD BUTTONS A E E E E 113 8 2 1 FUNCTION BUTTONS YELLOW BUTTONS c cccccsscsecssscssecsssecscsscsesessececsssssscsussesecsvesesissesacsussesacsessesssstsatseseceeseeee 113 8 2 2 NAVIGATION BUTTONS sna NANANA AMALIA AM AALALA ALAN AALALA LALALALA LALALALA ASA AEA L Eana anan 113 8 2 3 MODE BUTTONS VIOLET BUTTONS cccccccccssssessesscsesscsececsussscucsvesssussusesssesscassussesusavsasanssesassteetsusatsusseseesesstsetseseeee 113 8 2 4 OTHER BUTTONS NANANA ANAL AGAMANA LALALALA ALAALA AALALA GL GAAAmammamunanas 114 8 3 ABBRBEMIATIONS sana AALALA LA LA LAAL LAA LAG Kk mamamana 114 SS od ml Oe eal 72 8 ft LEE 116 9 4 REFERENCE CONDITIONS ccccccccccsssccsssecsesessesscsvcsesecsscscsussesecsvsasucsssassvsassusessucaveacsussssasavesesassessestsstsassesatssstsasstsatsssesseseeees 116 9 2 ELECTRICAL SPECIFICATIONS cccccscccsssscscsessessesscsesucsecscsussesucsussesussssacsveacsusssacsresesussesassresesasstsasstssteasstsstsestsassesatstssesessesees 117 9 2 4 VOLUTIAGEINPUTS ANAN A NSAN Ab hnk ka L ua
88. f the neutral current Note Filters L1 L2 L3 and N display the total current and voltage harmonic distortion for phases 1 2 and 3 and the neutral channel respectively 5 3 3 MEASUREMENT OF THE PEAK FACTOR CF The CF sub menu displays the waveforms of the signals measured over one period and the voltage and current peak factors 5 3 3 1 CF 3U This screen displays the phase to phase voltage waveforms of one period and the peak factors Ge 1A 3 141 2 X X t SOms Ul 5636 U2 279 0 5 5 2847 3 Figure 5 34 Kaes Lal 3U av 4a DI 2 Wil N Ny Item Function 1 Instantaneous value cursor change values with the cursor using the 4 and B buttons 2 Peak factor for each curve Instantaneous value of the signals at the intersection of the cursor and the graphs t time relative to the start of the period expressed in milliseconds 3 U1 instantaneous voltage peak factor between phases 1 and 2 U12 U2 instantaneous voltage peak factor between phases 2 and 3 U23 U3 instantaneous voltage peak factor between phases 3 and 1 U31 Power Quality Analyzer PowerPad Ill Model 8336 65 5 3 3 2 CF 4V This screen displays the phase to neutral voltage waveforms of one period and the peak factors D14 142 142 142 O vi lt ERRES E gt 355 its Sms W 1 s 325 7 Wa 359 0 W3 365 6 WNe 25 7 Figure 5 35 Item Function 1 Instantaneous value cursor change values with the cursor using the lt
89. ffect of a load on a transformer Flicker Avisual effect of voltage variations S Fundamental Component at the fundamental frequency component Power Quality Analyzer PowerPad Ill Model 8336 135 Giga 10 In electrical systems voltages and currents at frequencies that are multiples of the fundamental frequency Hysteresis Nominal voltage nuclear toe Nuclear tonne oil equivalent Order of a harmonic Ratio of the frequency of the harmonic to the fundamental frequency a whole number Peta 10 Active power non nuclear toe Non nuclear tonne oil equivalent Passband Range of frequencies in which the response of an instrument exceeds some specified minimum DC energy Power Factor ratio of active power to apparent power Active energy Temporal relationship between current and voltage in alternating current circuits PK or Peak PLT Reactive energy RMS Root Mean Square value of current or voltage Square root of the mean of the squares of the instantaneous values of a quantity during a specified interval Apparent power Apparent energy Temporary surge at Temporary increase in voltage at some point in the power network to above a specified industrial frequency threshold Relative date of the Time cursor Tera Oz tano o Tangent of the phase shift of the voltage with respect to the current O x Total Harmonic Distortion The total harmonic distortion describes the proportion of the THD harmonics
90. he icon on the status bar blinks to indicate that the search is underway While the search is active the gt button replaces the E button and can be used to stop the search before it is finished The message Detection on standby is displayed until the start time of the search is reached When the search starts this message is replaced by the message Detection in progress When the stop time is reached the Detection schedule menu returns with the button displayed You can now program another search During a search for transients only the stop date field can be modified It is automatically highlighted in yellow To return to the Waveform capture screen press 5 1 1 2 DISPLAYING A TRANSIENT To display the recorded transient proceed as follows To display the recorded transients press La button The Detection List screen is displayed Lee DETECTION LIST FEA 11 06713 08 05 am gt 11 706 13 08 06 are ACME N1323 08 23 wet 713713 08 24 aw ACMES 11M3M13 08 25 ae M3M3 08 25 ai ACME4 11 413713 08 26 ame 713713 00 26 an ACMEG WSS 08 32 am gt 11 713713 08 32 am ACME 1113713 08 33 ae 11 713713 08 33 aw ACMES 11 413713 08 38 amet 713713 00 39 an CM3 11 413713 0858 amet 713713 08 59 an Ve OH i a e ch eee Figure 5 3 Item Function 1 The displayed value indicates the page number and the number of pages These icons let you browse through the previous and next screens Press the yellow buttons cor
91. hold ams va Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush Schedule Alarm Conditions 31 xa 10 Ss Oo E Vp p rms WD oO N Oh um bh W N ra KA o pa La pa LA fi LA On v E bp O m 4 Pre __Re Read from Instrument Arms la sl GL sl 2 my La Figure 6 10 m Prev Page amp Next Page Move between the 3 pages of alarms with 16 alarms per page m Data to Capture The alarm will be triggered based on the value of the selected parameter Choices include None no alarm A CF current crest factor A DC DC current A Hf current harmonic factor Arms current root mean squared A pk maximum peak value of the current A pk minimum peak value of the current A THDf harmonic distortion of the current with the RMS value of the fundamental as reference A THDr harmonic distortion of the current with the total RMS value without DC as reference Aunb u2 unbalance in current 100 Hz frequency P DC W Power DC PF power factor Plt long term severity Pst short term severity P W power Q var voltage ampere reactive S VA volt ampere Tan Tangent of the phase shift of the voltage with resp
92. ic voltage order n gt 2 100 mV V lt 1000V 2V 1000V a 2 5 1V V gt 1000V 100 mV U lt 1000V 2000V P me 2 5 1V U gt 1000V 100 mV V lt 1000V 1000V y 2 5 1V V gt 1000V 100 mV U lt 1000V 2000V P r7 2 5 1V SES gt 1000V 2 n x 0 2 1A 3500A ng 25 NO compound a Ba simple Vd RMS distortion voltage N lt compound Ud J93 clamp E 2 n x 0 2 1A SR193 clamp JA 10004 A lt 1000A ns 25 MR193 clamp 1A 2 n x 0 5 1A A gt 1000A n gt 25 2 n x 0 2 1A N25 200mA 200A 100mA 2 a x 0 5 1A n gt a 10mA 2 n x 0 2 100mA A lt 100A na25 SL261 clamp 10mV A 100mA 100A MN93A clamp 100A 100mA 2 n x 0 5 100mA A 100A n gt 25 1MA 2 n x 0 2 10MA harmonic 100mV A 10mA 2 n x 0 5 10mA current Az 10A n gt 25 order n gt 2 2 n x 0 2 10mA MN193 clamp 5A Se pm n s25 5A adapter 2 ee x 0 5 10mA n gt ee 1A 2 n x 0 3 1A Afrus x 0 1 AmpFlex A lt 10kA n lt 25 MiniFlex 10A 10kA 10kA 2 n x 0 6 pang Afrms x 0 1 A gt 10kA n gt 100mA 2 n x 0 3 1A Afrus x 0 196 AmpFlex A lt 1000A n lt 25 le Wes Geh 1A 2 n x 0 6 1A Afams x 0 196 6500A SE SES Se A gt 1000A n gt 25 10mA 2 n x 0 2 30cts AmpFlex A lt 100A n lt 25 MiniFlex 100mA 100A Ss a 100A 100mA 2 n
93. ing the Model 8336 OK writes the current configuration to the instrument and closes the open dialog box Cancel exits the dialog box without writing the configuration to the instrument Apply programs the instrument using the current settings without closing the window Help opens the online Help 6 4 1 SETUP The Setup tab shown in Figure 6 7 enables you to select the distribution system and associated parameters This tab includes the following selections 98 Distribution System defines the hook up to be tested Options are 1 Phase 2 and 3 wire 2 Phase 2 3 and 4 wire and 3 Phase 3 4 and 5 wire Reactive Values var Calculation can be N Combined With Harmonics or Q Separated Without Harmonics This allows you to select calculations with or without harmonics Transformer Factor K sets the q and e settings for the factor K also called K factor Nominal Frequency is either 50 or 60Hz This parameter determines the correction coefficients used for calculating power and energy Phase Harmonics Ratios Options are Fundamental Value as reference f and Total Value as reference Yr Long Term Flicker Options are Fixed Window and Sliding Window Power Quality Analyzer PowerPad Ill Model 8336 6 4 2 SENSORS AND RATIOS The Sensors and Ratios tab defines the voltage ratios and current ratios when available so final values can be adjusted recorded and displayed with correct magnitudes The abi
94. ipping container Return the instrument postage or shipment pre paid to Ship To Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive Dover NH 03820 USA Phone 800 945 2362 Ext 360 603 749 6434 Ext 360 Fax 603 742 2346 or 603 749 6309 E mail repair aemc com Caution To protect yourself against in transit loss we recommend you insure your returned material NOTE You must obtain a CSA before returning any instrument 6 AEMC INSTRUMENTS 11 15 99 MAN 100405 v2 Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive Dover NH 03820 USA Phone 603 749 6434 Fax 603 742 2346 www aemc com
95. ith neutral or U for the 3 phase set up without neutral e A for the expert mode in current NOTE The breakdown into sequences shomn in the following figure is valid only in the case of a balanced load PHASE TO NEUTRAL VOLTAGE EXPERT MODE For 3 phase set ups with neutral the V sub menu displays the influence of the harmonics of the phase to neutral voltage on the heating of the neutral and on rotating machines Doc S ZC 13 16 19 zl 22 z 25 792 xr 63 5 xr Figure 5 24 Column One The harmonics inducing a negative sequence Column Two Those inducing a zero sequence Column Three Those inducing a positive sequence o Level of harmonics with fundamental RMS value as reference f or the total RMS value as reference r For 3 phase set ups without neutral the U sub menu displays the influence of the harmonics of the phase to phase voltage on the heating of revolving machines 58 Power Quality Analyzer PowerPad Ill Model 8336 CURRENT EXPERT MODE The A sub menu displays the influence of current harmonics on heating the neutral and on rotating machines 110 6 xf 133 8 xf 110 7 xf as ER DI L2 D H a bd Figure 5 25 Column One The harmonics inducing a negative sequence Column Two Those inducing a zero sequence Column Three Those inducing a positive sequence o Level of harmonics with fundamental RMS value as reference f or the total RMS value as reference r Power Quality
96. ity Analyzer PowerPad Ill Model 8336 6 4 7 INRUSH The Inrush tab shows the dialog box used to configure the parameters for an Inrush search Configure Instrument Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush schedule Search for Inrush Mode rms peak capture lt 1 min Current Threshold 100 Hysteresis Channels DE Figure 6 13 Inrush current is measured when the power is first turned on Depending on the type of load the Inrush current may be very high for some time when compared with steady state current later on The parameters can be set up here Mode Select RMS Peak lt 1 min Capture or RMS Only lt 10 min Capture m Current Threshold Type in the appropriate value and select the units from the adjacent drop down menu mA A kA m Hysterisis Select the percentage from the drop down menu 0 1 2 5 10 20 50 or 100 m Channels Select the number for the Inrush recording Click OK to write the configurations to the instrument and close the Configuration dialog box Power Quality Analyzer PowerPad Ill Model 8336 103 6 5 SCHEDULE The Schedule Tab allows you to choose Start Stop times and define other parameters related to recording sessions and searching for alarms Configure Instrument Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings Transients Inrush Sche
97. ive energy consumed DC energy only if a DC current sensor is connected Reactive energy consumed Distortion energy Apparent energy consumed Inductive reactive effect Capacitive reactive effect 5 6 1 4 ENERGY GENERATED The Energy Generated screen displays the meters of the energy generated by the load O Ph Wh 0000000 Pdch Wh h varh 20000000 0000000 Dhivarh 0000000 oh VAh 0000000 E0000000 20000000 Figure 5 67 FE0000000 20000000 NOTE This screen corresponds to the choice non active quantities separated in the VAR tab of the Calculation Methods menu in Configuration mode If the choice is non active quantities not separated Dh does not appear and Q h is replaced by Nh This non active energy has no inductive or capacitive effect Power Quality Analyzer PowerPad Ill Model 8336 87 5 6 2 L1 L2 AND L3 FILTERS 5 6 2 1 POWERS AND ASSOCIATED QUANTITIES The W sub menu displays the power and associated quantities d i Piw 143434k PF 0 870 Pde W 0 00 war 119 70k D var 1 10k siva 40 04k Pus Figure 5 68 cos 0 87 71 O a L o a ZS tan 0 565 The values in this screen are as follows item Function P W Active power Pdc W DC power O var Reactive power D var Distortion power S VA Apparent power PF Power factor cos Fundamental power factor also called DPF displacement factor tan Ta
98. l Model 8336 137 REPAIR AND CALIBRATION To ensure that your instrument meets factory specifications we recommend that it be scheduled back to our factory Service Center at one year intervals for recalibration or as required by other standards or internal procedures For instrument repair and calibration You must contact our Service Center for a Customer Service Authorization Number CSA This will ensure that when your instrument arrives it will be tracked and processed promptly Please write the CSA on the outside of the shipping container If the instrument is returned for calibration we need to know if you want a standard calibration or a calibration traceable to N I S T Includes calibration certificate plus recorded calibration data Ship To Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive Dover NH 03820 USA Phone 800 945 2362 Ext 360 603 749 6434 Ext 360 Fax 603 742 2346 or 603 749 6309 E mail repair aemc com Or contact your authorized distributor Costs for repair standard calibration and calibration traceable to N I S T are available NOTE You must obtain a CSA before returning any instrument TECHNICAL AND SALES ASSISTANCE If you are experiencing any technical problems or require any assistance with the proper operation or application of your instrument please call fax or e mail our technical support team Chauvin Arnoux Inc d b a AEMC Instruments Phone
99. lative to the start of the period expressed in milliseconds VN instantaneous neutral voltage AN instantaneous neutral current NOTE Filters L1 L2 and L3 display the current and voltage in phases 1 2 and 3 respectively The screen is identical to the one displayed for the neutral 5 3 2 MEASUREMENT OF TOTAL HARMONIC DISTORTION THD The THD sub menu displays the waveforms of the signals measured over one full cycle and the total voltage and current harmonic distortion The levels are displayed either with the fundamental RMS value as reference f or with the RMS value without DC as reference or depending on which reference is chosen in the Configuration menu 5 3 2 1 THD 3U This screen displays the phase to phase voltage waveforms for one period and the total harmonic distortion values d a EI av 4a UD L2 D n wi d ct SOm3 345635 2 2765 Us 206 6 Figure 5 31 Power Quality Analyzer PowerPad Ill Model 8336 63 Item Function 1 Instantaneous value cursor change values with the cursor using the 4 and B buttons 2 Harmonic distortion rate for each curve Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds 3 U1 instantaneous phase to phase voltage between phases 1 and 2 U12 U2 instantaneous phase to phase voltage between phases 2 and 3 Uz3 U3 instantaneous phase to phase voltage between ph
100. lity to set the current probe ratio is dependent on the type of probe used Configure Instrument Setup Sensors and Ratos instrument Display Alarm Conditions Recordings Transients inrush Schedule Connection Type 3 Phase 5 Wire Voltage Ratios Current Sensors and Ratios la 1 1 No ratios 4 Same ratio for all Primary Secondary Re Read from Instrument Figure 6 8 NOTE For detailed instructions and descriptions for any feature in this and any other Control Panel dialog box click on the Help button lower right side of the dialog box 6 4 3 INSTRUMENT DISPLAY The Instrument Display tab allows you to customize the display colors clock language and contrast and specify energy units to use Configure Instrument Setup Sensors and Ratios Instrument Display alarm Conditions Recordings Transients Inrush Schedule Instrument Display Instrument s Display Language 24 Hour Date Display DD MM YYYY English z AMPM Date Display MM DD YYYY Display Brightness Instrument s Display Trace Colors O Voltage V1 D Voltage V2 Voltage V3 Voltage VN Figure 6 9 Power Quality Analyzer PowerPad Ill Model 8336 99 6 4 4 ALARM CONDITIONS The Alarm Conditions tab allows you to set up 40 alarm configurations a Configure Instrument Data to Capture Phases lt or gt Thres
101. ltages NOTE L2 and L3 display vector representations of the fundamentals of the phase to neutral voltages and the currents of phases 2 and 3 respectively They indicate their associated quantities modulus and phase of the current and phase to neutral voltage vectors of phases 2 and 3 respectively The reference vector of the representation at 3 o clock is the current vector A2 and A3 respectively Power Quality Analyzer PowerPad Ill Model 8336 69 5 4 ALARM MODE The Alarm A mode detects overshoots of thresholds on each of the following parameters Vthdr PST Athdr PLT IPI FHL Pdc FK IQ1I or N Vunb or Uunb for a 3 phase source without neutral Aunb U h V h A h IS hl See also the table of abbreviations in 8 3 The alarm thresholds must e have been programmed in the Configuration Alarm mode screen see 8 4 1 8 e be active marked with a red spot on that same screen NOTE Stored alarms can subsequently be transferred to a PC via the DataView data analysis program see 8 6 You can capture over 16 000 alarms When the Alarm mode button 1 is pressed the Detection Schedule screen will appear KI DETECTION SCHEDULE Start 231002 10 1 Stop 23710712 10 12 Name Figure 5 40 Item Measurement Type Displays the Alarm mode configuration sub menu Displays alarm campaigns Validates the programming of an alarm after is selected the 7b icon appears mm Manually stops an
102. lysis of problems caused by harmonics according to their order overheating of neutrals conductors motors etc Voltage and current waveforms mode display of minima and maxima of summary tables determine phase rotation Alarm mode list recorded alarms exceeding the thresholds programmed in the configuration record network blackouts with half cycle resolution Vrms Arms Urms determine energy consumption overshoots monitor compliance with a power supply quality contract Trend mode record parameters selected in the Configuration menu Power and energy measurements Three of these buttons are real time mode buttons W PAO and IS In each of these modes the colored circles on a white ground for example in which the channel numbers or types appear indicate saturation the ground of the circle is colored when the channel measured is potentially full for instance When a numbered circle corresponds to a simulated channel for example in 4 wire 3 phase with selection V1V2 27 element method or in 3 wire 3 phase with selection A1A2 2 element method this channel is potentially full if at least one channel used in calculating it is potentially full Similarly if the circle corresponds to a phase to phase voltage channel it is potentially full if at least one of the phase to neutral voltage channels used in calculating it is potentially full Power Quality Analyzer PowerPad Ill Model 8336 113 8 2 4 OTHER BUTTONS
103. minals on the top of the instrument to enable the use of current sensors MN SR AmpFlex MiniFlex MR SL amp J93 probes 2 Five 5 voltage input terminals measures four voltages 3 Insertion locations for the current and voltage color coded ID markers D NOTE Remember to define the transformation ratios of the current sensors and of the voltage inputs see 8 4 1 5 To make a measurement the following must be configured and programmed m Calculation method see 4 1 3 m Electrical hook up see 8 4 1 4 m Ratios of the sensors see 8 4 1 5 3 3 1 CONNECTION PROCEDURE 1 Turn the instrument ON 2 Configure the instrument for the measurement to be made and the type of network concerned see 4 3 Connect the leads and current sensors to the unit 4 Connect the ground and or neutral lead to the network ground and or neutral when it is distributed and connect the corresponding current sensor 5 Connect the L1 phase lead to the network L1 phase and connect the corresponding current sensor 6 If applicable repeat the procedure for phases L2 and L3 and for N D NOTE Complying with this procedure minimizes connection errors and saves time 3 3 2 DISCONNECTION PROCEDURE 1 Proceed in the reverse of the order of connection always finishing by disconnecting the neutral when distributed 2 Disconnect the leads and turn the instrument OFF 16 Power Quality Analyzer PowerPad Ill Model 8336 3 4 FUNCTIONS
104. ming and start of capture Shortcut to the Configuration menu to set triggering thresholds When triggering filter appears in red it is not available due to incompatibility with the configuration connection type of sensors Or current ratio Displays the parameters of the capture Programs the capture IO m DIN 7 OK confirms programming of a capture as deletes a capture this icon is displayed if a capture has been made To quickly start recording press the SR button Recording starts immediately with a current threshold of OA and a hysteresis of 100 Note that the rapid starting of an inrush current modifies the configuration of the current threshold To program a capture enter the triggering filter 3A A1 A2 or A3 the start date and time and the recording mode RMS t PEAK or RMS only e The RMS PEAK recording mode is used to produce a trend recording of the half period RMS values and a trend recording of the samples envelopes and waveforms The maximum duration of such a recording depends on the network frequency on average the duration is approximately one minute e Inthe RMS only recording mode the recording of the samples is eliminated in favor of a longer maximum capture duration This mode records only the half period RMS values and its maximum duration is about ten minutes Power Quality Analyzer PowerPad Ill Model 8336 45 To modify an item move the yellow cursor to it using the A and V buttons then
105. most O 1 5 cos D5 0 5 0 001 1 5 10cts 0 2 lt cos lt 0 5 l 1 Excluding cos gt 0 8 AmpFlex MiniFlex 1 5 a 1mWh 9 999 999MWh 7 digits at most energy Ph 1 MiniFlex 1 5 0 5 lt cos lt 0 8 1 Excluding sin gt 0 5 Reacti AmpFlex SE MiniFlex 1 5 energy 0 2 lt sin lt 0 5 Q h and 1mvarh 9 999 999Mvarh 7 digits at most non active 1 5 energy N AmpFlex sin D2 0 5 MiniFlex 2 5 0 2 lt sin lt 0 5 5 5 THD lt 20 f Distortion energy Dh 1mvarh 9 999 999Mvarh 7 digits at most 1 5 THD gt 20 f Apparent energy Sh 1mVAh 9 999 999MVAh 7 digits at most 1 1 The stated accuracy on the active power and energy measurements are maximum for Icos dl 1 and typical for the other phase differences 2 The stated accuracy on the reactive power and energy measurements are maximum for Isin dl 1 and typical for the other phase shifts 3 With MN193 clamp 5A or 5A adapter 4 With AmpFlex or MiniFlex for a 2 wire single phase connection phase to ground voltage 5 The resolution depends on the current sensor used and on the value to be displayed Power Quality Analyzer PowerPad Ill Model 8336 121 6 The energy is equivalent to more than 114 years of the associated maximum power unity ratios Ip is the highest order for which the harmonic ratio is non zero 8 With SL261 clamp 100mV A 9 With J93 cl
106. mp MiniFlex The values of Anom are provided in the table below e Excluding AmpFlex amp MiniFlex Anom A rhm 7 Maon S et LA MR193 clamp 1000 R MN93 pag 200 6o MN193 clamp 1004 1003 MN193 my Ca ECH 0 15 SL261clamp tomwa 00 3 O 1 1 E 116 Power Quality Analyzer PowerPad Ill Model 8336 9 2 ELECTRICAL SPECIFICATIONS 9 2 1 VOLTAGE INPUTS Range for use 0 to 1000Vrms AC DC phase to neutral and neutral to ground 0 to 2000Vrms AC DC phase to phase on condition of compliance with 1000Vrms with respect to ground in CAT III Input Impedance 1195k0 between phase and neutral and between neutral and ground Admissible Overload 1200Vrms constant 2000Vrms for one second 9 2 2 CURRENT INPUTS Operating Range 0 to 1V Input Impedance 1MQ for current probe circuit 12 4kQ for AmpFlex and MiniFlex circuit Overload 1 7Vrms constant 9 2 3 BANDWIDTH Measurement channels 256 points per period e g e At 50 Hz 6 4 kHz 256 x 50 2 e At 60 Hz 7 68 kHz 256 x 60 2 The analogue 3 dB bandwidth 76 kHz 9 2 4 POWER SUPPLY AC Power external power supply 600V CAT IV 1000V CAT III Operating Range 230Vac 10 50Hz and 120Vac 10 60Hz Max Power 65VA Battery Power allows use in the event of an interruption Type 8 NIMH 4000mAh min Rated Voltage 9 6V Charge Time 5 hrs approx Battery Life 10 hrs completely charged approx gt 15 hrs recording in progress
107. must be reached to start an alarm For gt alarms the value or higher must be reached For lt alarms the value or lower must be reached To the right of this setting is a button that displays a drop down menu from which you can select the appropriate unit of measurement Duration The alarm will only be recorded if the duration of the parameter meeting the threshold criteria exceeds the duration The minimum alarm duration can be in minutes or seconds In the case of Vrms Urms or Arms not using neutral current this setting can also be in hundredths of a second For Vrms Urms and Arms it can be useful to set a duration of O seconds In that case an event as short as a half cycle can be detected 8 milliseconds at 60Hz For all other parameters the minimum duration that can be detected is 1 second Hysteresis This value for alarms is set to prevent multiple recordings of an event that goes above the threshold and a certain percentage below it at times Example Alarm threshold is 100V or higher hysteresis is 1 When the voltage goes up to 100V the alarm condition starts When it goes back down to 99V the alarm condition stops NOTE You can configure alarms recordings Inrush and transient searches while testing is in progress 6 4 5 RECORDINGS The Recordings tab shows the parameters for a recording session Configure Instrument Setup Sensors and Ratios Instrument Display Alarm Conditions Recordings
108. n L uan A Aa AL EAL A AAL LAA L EAA LLA L AALA ESAE EE L anaana 117 9 2 2 CURRENT INPUTS ccccscccssssssesscsecsessssesscsvcscsussesecsusssssssuesesussssussussesusavcassussesusateassrsstsueateassuesesassusatsasscsatsssesteateeeeseees 117 9 2 3 BANDWIDTH 0A SASA bAAI LAKAN kba LAGLAG BAGA amamamanana 117 9 2 4 POWER SUPPLY ccccccccssscssesscscsscsscucssssesecevesesussscucsvessesssuesesuesssucsussssusavsassnsassussueassnesesssasasstesesasssatssseessatsseseateasaseees 117 9 2 5 ACCURACY SPECIFICATIONS EXCLUDING CURRENT PRORBES NAAN KANAN mamamamamamanana 118 9 2 6 CURRENT PROBE ACCURACY TO BE ADDED TO THE MODEL 8336 S ACCURACY raan 127 9 2 7 CURRENT PROBES AND SENSORS nA AK ALAALA ALLAN Ln ANLAKAS LA L EEA AAAA EA aa nanan 128 9 3 CLASS B UNDER STANDARD IEC 61000 4 30 cccceccscessesecsucsessesuesesecsscsesussesscssesesssssessresesasstsstessstsatatssessssesessttatstsesecsteeee 129 9 3 1 CONFORMITY OF THE DEMICE nan NANANG GAGN AALALA AKALANG NAALALA ALALA EAE a aan 129 9 3 2 ACCURACY AND MEASUREMENT RANGES 21221210002 N ANAN NA IKAN ANAKAN LANGKA AA mamamana 130 9 3 3 REAL TIME CLOCK ACCURACY ccccscsssessessesscsesecsececsussscscsussssucssssssussussestcsesucsssucsussesussssssresesutavsutsussesusacseesesseseeeeee 130 9 4 MECHANICAL SPECIFICATIONS EE 130 9 5 ENVIRONMENTAL SPECIFICATIONS 122212102020200 SASA NAALALA kb bA KNA manmanan 131 9 6 SAFETY SPECIFICATIONS nanana hhk ALA LAL ALLAN AM LALALALA GAL L LA LALALALA AA A EA AEA a
109. n active quantities separated in the VAR tab of the Calculation Methods menu in Configuration mode If the choice is non active quantities combined D does not appear and Q is replaced by N This non active energy has no inductive or capacitive effect Filters L2 and L3 display the same information for phases 2 and 3 Power Quality Analyzer PowerPad Ill Model 8336 89 Item Function P W Total active power Pdc W Total DC power O var Total reactive power D var Total distortion power S VA Total apparent power PF Total power factor cos Total fundamental power factor also called DPF displacement factor tan Total tangent D VA Phase shift of voltage with respect to current is displayed for the 2 wire 2 phase set up 5 6 4 TOTAL ENERGY METERS The Wh sub menu displays the energy meters Ph Wh 2266116 m 0000000 Pdch Wh 0000000 0000000 Qhivarh 21313305 m 0000000 9000000 9000000 Dh varh OO66008 m 000000 Sh VAh 2637681 m 0000000 Figure 4 71 Item Function Q gt Meters of the energy consumed by the load Qel Meters of the energy generated by the load Ph Wh Total active energy consumed Pdch Wh Total DC energy only if a DC current sensor is connected Q h varh Total reactive energy consumed Dh varh Total distortion energy Sh VAh Total apparent energy consumed g Total inductive reactive effect gt Total capacitive reactive effect NOTE
110. n each be configured with a multiplier factor of 1 13 Note also that you cannot modify ratios if the instrument is recording metering energy or searching for transients alarms and or inrush current acquisitions 30 Power Quality Analyzer PowerPad Ill Model 8336 4 1 6 CAPTURE MODE The Ei Capture mode is used to configure the voltage thresholds the current thresholds of the transient mode and the current thresholds of the inrush current mode 4 1 6 1 TRANSIENT VOLTAGE THRESHOLDS The first J Thresholds screen displayed by pressing the V icon or U for set ups without a neutral configures the voltage thresholds These thresholds can be the same for all channels or different for some or each of them VOLTAGE THRESHOLDS Threshold Setup ay Figure 4 16 To change the voltage thresholds press KS Use the A and V buttons to choose configuration of the thresholds m 4V or AU all channels have the same threshold Press the XJ button then use the A and V buttons to highlight the value of the threshold in yellow Press the NS button then use the arrow buttons to change the threshold The unit can be V or kV m 3V VN all channels have the same ratio and the neutral has a different ratio Proceed as when there is only one ratio but perform the operation twice m V1 V2 V3 VN or U1 U2 U3 each channel has a different ratio to be programmed Proceed as when there is only one ratio but perform the operation several times
111. nce of maximum instantaneous 12 Second page of Help frequency Move cursor to first occurrence of minimum instantaneous i Z r T Move cursor to first occurrence of maximum of measurement FA Fourth page of Help displayed 3 Move cursor to first occurrence of minimum of measurement 1 r Previous configuration displayed Simultaneous display of all voltage and current measure mm ments RMS DC THD CF PST PLT FHL FK mex eoniiguievon De select all items Next page screen GE Seen i 112 Power Quality Analyzer PowerPad Ill Model 8336 8 2 KEYPAD BUTTONS 8 2 1 FUNCTION BUTTONS YELLOW BUTTONS These six buttons activate the function or tool represented by the corresponding icon on the screen 8 2 2 NAVIGATION BUTTONS A block of four arrow buttons a select button and a return button are available for navigating menus AU Up direction or navigation button Ow Down direction or navigation button OB Right direction or navigation button a o Left direction or navigation button Confirms the selection Return button 8 2 3 MODE BUTTONS VIOLET BUTTONS These buttons provide access to specific modes Waveform acquisition mode with two sub modes transients mode blackouts interference etc and inrush current mode starting of motor Harmonic display mode displays voltage current and power harmonics order by order determination of harmonic currents produced by nonlinear loads ana
112. ngent of the phase shift D VA Phase shift of voltage with respect to current is displayed for the 2 wire 2 phase set up NOTE This screen corresponds to the choice non active quantities separated in the VAR tab of the Calculation Methods menu in Configuration mode If the choice is non active quantities combined D distortion power does not appear and Q is replaced by N This non active energy has no inductive or capacitive effect Filters L2 and L3 display the same information for phases 2 and 3 QD ua is displayed for the 2 wire 2 phase set up 88 Power Quality Analyzer PowerPad Ill Model 8336 5 6 2 2 ENERGY METERS The Wh sub menu displays the energy meters Ph Wh 0560572 m 0000000 Pdch Wh 0000000 0000000 OQhivarh 20316955 m 20000000 40000000 0000000 S a L 2 a S Dh varh 00165955 m 0000000 oh YAN 0644466 m 0000000 Figure 4 69 The values in this screen are as follows Item Function Meters of the energy consumed by the load GH Meters of the energy generated by the load Filters L2 and L3 display the same information for phases 2 and 3 5 6 3 2 FILTER 5 6 3 1 TOTAL POWERS AND ASSOCIATED QUANTITIES When the 2 filter is selected the W sub menu displays the powers and associated quantities Piw 104 2k PF 0 867 bien 0 0 cos 0867 iwar EF 60 0k D ivar 25k 5 VA 120 3k Figure 4 70 tan 0 575 NOTE This screen corresponds to the choice no
113. nit ampere It Harmonics in current ES a an Hamoniesimeument OOS ag 1 Peakactorofihe curet OOO O O ma RMS asiorion oret 00S ie ocene O a rename ap Minimum peak value ofthe curet S O Minimum peak value of the current RMS current p3 Vo Dy Ad sid Total harmonic distortion of the current Alt Harmonic distortion of the current with the RMS value of the fundamental as reference Adr Harmonic distortion of the current with the total RMS value without DC as reference Aunb Unbalance in current Mean value arithmetic mean Blackout Fall of voltage at some point in the power network to below a specified threshold BTU CF BTU British Thermal Unit e Peak factor Crest Factor in current or voltage ratio of the peak value of a signal to the RMS value A measurement channel corresponds to a difference in potential between two conductors A Channel and phase phase is a single conductor In polyphased systems a measurement channel may be between two phases or between a phase and neutral or between a phase and earth or between neutral and earth oe Cosine of the phase shift of the voltage with respect to the current displacement factor DPF Distortion power Dip threshold Specific voltage used to define the beginning and end of a voltage dip DC DC component current or voltage Distortion energy D D DPF Displacement factor cos o E i BaD FK KfactorUsedto quantify the e
114. nnann 131 AFFENDD AA AAP AA PE AP PAH 132 Ad PAYS RE EE 132 A 1 1 SURGE DETECTION KNINA NN k nhh NG KEN Lk LAN Ann k en k kan A Aan AB L AA A A LASA EAA A A L EA Eaa annan 132 A 1 2 UNDERVOLTAGE OR BLACKOUT DETECTION cccccsssssssessssececsscsesecsessessesesecsusecsucavssesessesuessesesuestsaesussesecavseteeceeee 132 A 1 3 MINIMUM SCALE VALUES FOR WAVEFORMS AND MINIMUM RMS VALUES o oo 133 Power Quality Analyzer PowerPad Ill Model 8336 5 ATA FOUR QUADRANT DIAGRAM E 133 A 1 5 MECHANISM FOR TRIGGERING TRANSIENT SENSORS eestegbesssesieseugeege deet e egEE AA AA 134 A 1 6 CAPTURE CONDITIONS IN INRUSH CURRENT MODE cciicescctecdecercetscuecesestaccavesseedehesencencedendesenseneteeqevectesseuteseeaeae 134 GCOSSARY OF TERMS 2A ALAALA EE E E E EE EEE 135 REPAIR AND CALIBRATION aaa AAKALA ANA AGAPAN AA AA AA 138 TECHNICAL AND SALES ASSISTANCE paa AG ARENA ALABAT NANA DAANAN AA AA 138 BULB PRAAN bA AA AA AA AA AA eee 139 WARRANTY Eege 139 6 Power Quality Analyzer PowerPad Ill Model 8336 1 BEFORE YOU BEGIN 1 1 RECEIVING YOUR SHIPMENT Make sure the contents shipped are consistent with the packing list Notify your distributor of any missing items If the equipment appears damaged file a claim immediately with the carrier and notify your distributor at once Save the damaged packing container to substantiate your claim Do not use equipment which is damaged or appears to be damaged 1 2 ORDERING INFORMATION PowerPad Ill Model
115. nrush capture Values at the position of the cursor In the example shown in Figure 5 9 A1 A2 and A3 are the RMS values of currents 1 2 and 3 Z00m Out Zooms out on the graph at the current cursor position Zoom In Zooms in on the graph at the current cursor position 3A RMS DISPLAY SCREEN 3 PHASE CONNECTION WITHOUT NEUTRAL bus 5 4128 4104 4104 lt s E gt afd 2150044565 Al 4000 Azs 4035 6 Ase 4024 Figure 5 10 L1 RMS DISPLAY SCREEN FOR A 3 PHASE CONNECTION WITH NEUTRAL RMS 0236 8 408 2 23d alr Figure 5 11 D NOTE Filters L2 and L3 are used to display the recording of the true half cycle RMS current and voltage of phases 2 and 3 The screen is identical to the one displayed for filter L1 The 2 gt de o T lt 7Ale and Af buttons are used to go to the first occurrence of a minimum or maximum voltage or current value 48 Power Quality Analyzer PowerPad Ill Model 8336 RMS DISPLAY SCREEN IN HZ FOR A THREE PHASE CONNECTION WITHOUT NEUTRAL MIN 46 11nHz ave 49 92n max 56 77 Hz gt BUH Fab 3U 3A Hz war 44Hz 15000 0003 H2 50 00 Gikan Ven Gen Gs Figure 5 12 The gt Hz lt and gt Hz2 lt buttons allow you to go to the first occurrence of a minimum or maximum frequency value 5 1 4 INSTANTANEOUS INRUSH CURRENT PEAK mode is used to display the envelopes and waveforms of the inrush current capture The PEAK display of an inrush current capture provides two
116. of the fundamentals of the phase to neutral voltages and of the currents It indicates their associated quantities modulus and phase of the phase to neutral voltage vectors and the voltage unbalance The reference vector of the representation at 3 o clock is V1 e 3A Displays a vector representation of the fundamentals of the phase to neutral voltages and of the currents It indicates their associated quantities modulus and phase of the current vectors and the current unbalance The reference vector of the representation at 3 o clock is A1 e L1 L2 L3 Displays a vector representation of the fundamentals of the phase to neutral voltages and the currents of one phase It indicates their associated quantities modulus and phase of the current and phase to neutral voltage vectors The reference vector of the representation at 3 o clock is the current vector wi 120 1 va 140 1 v w3 160 1 v Paz 120 P 120 Pa 120 Fais Ju 3v 3A DI L2 L3 bd Figure 5 39 Item Function U1 U2 U3 Absolute values of the voltages at fundamental frequency V1 V2 V3 Absolute values of the voltages at fundamental frequency A1 A2 A3 Absolute values of the current at fundamental frequency 12 Phase displacement of phase 1 relative to phase 2 23 Phase displacement of phase 2 relative to phase 3 da Phase displacement of phase 3 relative to phase 1 Ova Phase displacement of voltage V relative to current A Unb Unbalance of line vo
117. oint of this graph represents a value recorded every second taken every two hours There is therefore a substantial loss of information 7199 out of 7200 but the display is rapid 03 10 14 10 52 cos 0000 lt 40 0001 s0001 uk 4 ER KOY L2 Ls bd 0 175 003 003 O4Ff05 SD3 06 03 Figure 5 60 Item Function 1 Indicates MIN AVG MAX mode has been activated This graph differs considerably from the one illustrated by Figure 5 59 in that MIN AVG MAX mode is activated Each point of the AVG curve represents the arithmetic mean of 7 200 values recorded every second Each point of the graph of the MAX represents the maximum of the 7 200 values recorded every second Each point of the graph of the MIN corresponds to the minimum of the 7 200 values recorded every second This display is therefore more precise because there is no loss of information but it is slower 82 Power Quality Analyzer PowerPad Ill Model 8336 REES 0 HIN d 15 02 19 02 eOf02 21 02 220g Figure 5 61 Item Function 1 You can stop the loading of recorded values and calculation of the values displayed at any time by pressing this button Haeg 0 e 18 02 19702 W2 22 22202 EE Ka ken Ba KG Ka Figure 5 62 Item Function 1 Dashes indicate that the value is not available at the cursor position because it was not calculated Display of the record is not complete because construction was stopped before the end EI as
118. on the instru ment As a precaution you should always save stored data to a PC before performing any software or firmware updates Power Quality Analyzer PowerPad Ill Model 8336 111 8 ICONS BUTTON amp SYMBOLS 8 1 FUNCTION BUTTON ICONS The Model 8336 display includes the following icons for the yellow function buttons v Praseaonewrarvonagemoe E eeyan OOOO Ts wem ooo aloma u Praseto phase voragemoae OO f Oes ma Nonacivequanities JL E Coors ofthe measurement hannes E YD Seen aration FK Cootfcients fk factor lt lee SSS e Pees DD Starofrecorang SSS pw rwsvaues Rapid programming and san of recording PE cos DPF tan and TW Power amp associated quantities PF cos DPF tan amp 0 e Configuration mapag etter a Mean and min max values OK inrush current mode Inrush current mode Move cursor to first occurrence of maximum phase to neutral 3 Phasor diagram voltage L SE SEH to first occurrence of minimum phase to neutral Move cursor to transient triggering time su Tt Move cursor to first occurrence of maximum phase to phase gt t T lt Move cursor one signal period before triggering voltage date of transient le oe to first occurrence of minimum phase to phase Energy consumed by the load T Move cursor to first occurrence of maximum current x Energy generated by the load Le Move cursor to first occurrence of minimum current First page of Help Move cursor to first occurre
119. or in red indicate saturated values Black dashes indicate erroneous values Red dashes indicate values that are not calculated following the end of calculation of the MIN MAX AVG mode when is pressed 02318 v 22320 v 2318 v 17 256 by Se EQ a dL U L2 D N bd 1 54 min 20 Figure 5 48 Item Function 1 Indicates that the MIN AVG MAX mode is active 2 Changes the scale of the display between 1 minute and 5 days The display period of the graph shown in Figure 5 48 is one minute With the MIN AVG MAX mode activated each point of this graph represents the arithmetic mean of 60 values recorded every second This graph is therefore more precise than the graph shown in Figure 5 47 since there is no loss of information It is slower however To stop the calculation of the MIN AVG MAX mode press gt NOTE While MIN AVG MAX mode is being calculated a progress bar is displayed for this calculation in the status strip instead of the recording display window positioning bar The MIN AVG MAX mode is not available while a trend is being recorded To return to the Recording Parameters screen press Power Quality Analyzer PowerPad Ill Model 8336 71 Sal HY Figure 5 49 Item Function 1 Places cursor on first occurrence of minimum value 2 Places cursor on first occurrence of maximum value Pressing the T cor 4 lt button automatically sets zoom in to the highest level the display
120. ot connected to AC power During startup several informational screens appear displaying data such as the firmware version and serial number of the instrument When startup is complete the Waveform screen is displayed 231 6 v gie v O2344v 153v UNO PA ION Nga av 4A 5u L2 L3 H wi its 69ms Vis 262 Wee 31 Was 305 WN r Figure 3 1 3 2 CONFIGURATION SET UP MODE NOTE The instrument must be configured before each use The configuration is saved in memory when the instru ment is turned OFF To display the Configuration screen press the 2 c button and follow the instructions in the Configuration chapter see 8 4 NOTE All configurations can also be modified through DataView software 3 3 INSTALLATION OF THE LEADS AND CURRENT SENSORS Color coded ID markers are supplied with the PowerPad to identify the leads and input terminals e Detach the appropriate inserts from the color coded marker and place them in the holes provided under the terminals larger inserts for current terminals smaller inserts for voltage terminals e Clip the rings of the same color to the ends of the lead that will connect to the terminal Ce HOE gt OF AS Figure 3 2 e Connect the measurement leads to the terminals of the instrument see 2 8 Power Quality Analyzer PowerPad III Model 8336 15 0000 N D e e e e e d eo o L2 B N D 1000V CAT Ill 600V CAT IV Figure 3 3 1 Four 4 current input ter
121. ower Quality Analyzer PowerPad Ill Model 8336 Measurement range without ratio Maximum Ti J93 clamp 3A 3500A 0 5 1A 100mA a A lt 1000A 0 5 200mA 1000A 0 A gt 1000A 0 5 1A 100mA 0 5 200mA 10mA d A lt 100A 0 5 20MA 100mA 100A PENAY m 0 A gt 100A 0 5 100mA Ima 0 5 2MA A lt 10A 10mA A gt 10A Display resolution Accuracy SR193 clamp gt MR193 clamp no O O 3 gt no O O SL261 clamp 10mV A MN193 clamp 100A SL261 clamp 100mV A MN193 clamp 5A 5A adapter SE AmpFlex MiniFlex 10A 10kA 10kA 10mA 10A 0 5 10mA 1mA 0 5 2MA A lt 10kA 10A A 10kA 100mA A lt 1000A 10A 6500A 0 5 3A A gt 1000A 10mA A lt 100A 100mA 100A 100mA A gt 100A J93 clamp 3A 5000A 1A 1 1A 100mA A lt 1000A MR193 clamp 1300A 1 1A A gt 1000A 10mA A lt 100A SL261 clamp 10mV A 100mA 100A 100mA A gt 100A 1MA A lt 10A 10mA 10A O 1 10mA 10mA A 10A 1 In 1000VRms category Ill provided that the voltage between each of the terminals and earth does not exceed 1000VRms 2 Two phase opposite phases same note as 1 3 Limitation of the voltage inputs 4 1000 x N2 1414 2000 x V2 2828 5 6 7 0 5 3A AmpFlex MiniFlex 6500A AmpFlex MiniFlex 100A 0 5 30mA CI Direct current DCH
122. ownloaded to the PC whose scale adjusts constantly to fit all the data it has received Real time Data Trend OO om7 Cmo adi Ta oom Channel Color Latest Cursor MIN Cursor AVG Cursor MAX Window MIN Window AVG Window MAX 244 5V 24441 24441 244 69 267 2V 267 1V 267 1V 267 3V 239 8 V 239 6 V 239 6 V i 239 9 V 455 5 V 455 2 V 455 2 V 1 455 6 V 6 6 66 Kat Figure 6 15 6 6 2 WAVEFORM You can select the type of data to display using the buttons at the top of the Waveform display Stop the update with the om Pause button and resume with the Eg Play button Realtime Data Waveform Channel Color Cursor Window PK Window PK Window RMS 230 5 V 548 5 V 648 5 V 455 7 V 605 2V 6I0 SV 630 5 V 447 1 374 79 554 8 V SS AY 356 6 z 456V 5 6 V 345 6 V 2446y 276 1 V 375V HO 267 41 329 1 V wv KE 299 9V 27A 15 5A 15 6A HEI ILSA 17 1A 17 24 121A 2 146A 1S 1A 151A 10 5A 800 D D D D D D Figure 6 16 Power Quality Analyzer PowerPad Ill Model 8336 105 6 6 3 HARMONICS This screen displays harmonic data up to the 50th harmonic for voltage or current for selected phase s of the available channels or neutral N Real time Data Harmonics Faaa i ie KE KC Co ec o mo Channel Color VIN HO 50 f V2N HO 50 af VIN HO SO F V1 2H0 50 f V2 3 HO SO Nf V3 1 HO 50 ef A1 H0 50 9f A2 H0 50 f A3HO 50 F SLH VA 0 50 f EE f ee eee eet eee Pee ee eee eee eee eee eee ee eee
123. period is identical to the recording period and deactivates the MIN AVG MAX mode if previously activated Figure 5 50 Item Function 1 Graph of MAX 2 Graph of AVG 3 Graph of MIN 4 Values at cursor position MIN AVG MAX The display period of the graph shown in Figure 5 50 is one minute Each point of the AVG graph represents the arithmetic mean of 60 values recorded every second Each point of the graph of the MAX represents the maximum of the 60 values recorded every second Each point of the graph of the MIN corresponds to the minimum of the 60 values recorded every second This display is therefore more precise than the one illustrated in Figure 5 49 78 Power Quality Analyzer PowerPad Ill Model 8336 03 0 14 10 52 Vrms 30b lt 2312 v g 2319 E E 258 8 pa AL IN La 2321W F Ng N wi 205 4y min 20 30 40 50 o 10 20 EE E Ee ee Et Ee Figure 5 51 For each of the phases L1 L2 and L3 at each recording of a value over one second recording period the instrument also records the minimum half cycle RMS value over one second and the maximum half cycle RMS value over one second These are the three graphs shown in Figure 5 51 EI ai ER D IS Ls N bd Figure 5 52 This graph differs slightly from the one shown in Figure 5 51 because with the MIN AVG MAX mode there is no loss of information NOTE For the quantities P Pdc VAR S D PF cos and tan and for a 3 phase source without neutr
124. photographs alarms transients and Inrush data stored on the instrument The download progress is shown in the Status of download column When downloading is complete click Open to view a list of recorded sessions These appear under Recorded Sessions on the left side of the Control Panel display Click on the listed item to view its recorded data You can format this data as a DataView report by opening the File menu and selecting Create DataView Report You can also view the data as an Excel compatible spreadsheet by selecting Export to a Spreadsheet from the File menu You can delete files listed in the Downloads dialog box by using the buttons Clear to delete a selected session or Clear List to delete all sessions from the list Note that this does not affect the files stored on the Model 8336 any file deleted through the Downloads dialog box remains on the instrument and can be downloaded at a future time Power Quality Analyzer PowerPad Ill Model 8336 107 6 7 1 RECORDINGS The Recordings folder in the navigation frame on the left side of the Control Panel lists all recordings downloaded from the Model 8336 A recording can be downloaded to a database on the PC by selecting it and clicking Save or Save As from the File menu This saves the session as an icp file within DataView This file can later be opened by selecting File from the menu bar and clicking Open this displays a dialog box for locating the file to be opened 6 7 2 SCREE
125. pletely full The configuration displayed is Lier 14 Power Quality Analyzer PowerPad Ill Model 8336 To program a recording set the parameters listed in the Recording Schedule screen e Set up identifies the configuration har through Der e Start defines the time and date when the recording starts The start date and time must be later than the current date and time e Stop specifies when the recording ends This must be later than the start date and time e Period is the time over which the measurements of each recorded value are averaged arithmetic mean Allowable values are 1s 5s 20s 1min 2min 5min 10min and 15min e Name can be up to eight characters long Several recordings can have the same name Allowable characters are uppercase A through Z and the numbers 0 through 9 The last five names assigned in the transient trend and alarm modes are kept in memory When a name is entered it can then be completed automatically To modify an item move the yellow cursor to it using the up and down arrow buttons then press the NG button Change the value using the arrow buttons then press Ka again to confirm After you finish setting the parameters start the recording by pressing the gt button If not enough memory is available an error message appears informing you of this The gt icon in the status bar blinks to indicate that recording has begun D NOTE The button replaces the KI button and can be used to s
126. possible representations envelope waveform The change from one of these representations to the other is automatic as a function of the zoom level If zoom in is high enough the representation is of the waveform type The display depends on the type of display filter 4V displays the four voltages during the inrush current capture for set ups with neutral for a waveform type display only AU displays the three voltages during the inrush current capture for set ups without neutral for a waveform type display only 4A displays the four currents during the inrush current capture for a waveform type display only L1 L2 or L3 display the voltage and current of phases 1 2 and 3 respectively only for set ups with neutral and for a waveform type display N displays the neutral current and neutral voltage during the inrush current capture for a waveform type display only V1 V2 V3 displays the three voltages during the inrush current capture for set ups with neutral for an envelope type display only U1 U2 U3 displays the three voltages during the inrush current capture for set ups without neutral for an envelope type display only A1 A2 A3 displays the three currents during the inrush current capture for an envelope type display only Power Quality Analyzer PowerPad Ill Model 8336 49 The following section shows two display examples 4A PEAK DISPLAY SCREEN FOR A 5 WIRE 3 PHASE CONNECTION LAT
127. pressed Maximum positive peak phase to phase voltage since instrument was turned ON or the last time J button is pressed Minimum negative peak phase to phase voltage since instrument was turned ON or the last time SJ button is pressed NOTE The MAX and MIN RMS measurements are calculated every half period e g every 10ms for a signal at 50Hz The measurements are refreshed every 250ms To reset the MIN and MAX on the display press the J button Power Quality Analyzer PowerPad Ill Model 8336 67 5 3 5 SIMULTANEOUS DISPLAY The Item RMS DC THD CF PST PLT FHL FK NOTE The display screen varies depending on which value is selected AU Displays the RMS DC THD and CF values of the phase to phase voltages 4V Displays the RMS DC THD CF PST and PLT values of the phase to neutral voltages and of the neutral 4A Displays the RMS DC THD CF FHL and FK values of the phase and neutral currents L1 L2 L3 Displays the RMS DC THD CF PST and PLT values of the phase to neutral voltage and of the current the DC and PST parameters of the phase to neutral voltage and the DC value if the current sensor allows and FK of the current for phase 1 N This screen displays the RMS THD and CF voltage and current of the neutral the DC component of the neutral voltage and if the current sensor allows the DC component of the neutral current GO Q amS 231 6 2316 2345 153 v be 402 02 400 401v ji
128. quantities and within this range if desired only odd harmonics D NOTE The level of harmonics of order 01 will be displayed only if they concern values expressed in r To change an order of harmonic 1 Select the parameter to be recorded identified by a red spot 2 Move the yellow cursor to the parameter using the navigation arrow buttons 3 Confirm the selection by pressing SJ 4 Change the value using the A and V arrow buttons then confirm by pressing ek Hay TREND MODE U h OU oo Odd only o y h DO DD Odd only A h OU 03 sddd only o 5 h OU oo Odd only ele UE Di A te pg o Figure 4 21 NOTE If a recording is in progress the associated configuration cannot be modified and the selected values are identified by black spots To return to the Configuration menu press 36 Power Quality Analyzer PowerPad Ill Model 8336 4 1 8 ALARM MODE CONFIGURATION The GA Alarm mode menu defines the alarms used by the Alarm mode function see 5 4 for a complete list of alarms To activate an alarm highlight it using the up and down arrow buttons then confirm the selection by pressing KS The active alarm is identified by a red spot An alarm that is not programmed identified by a question mark cannot be activated To program the alarm select the parameter then enter a new value Confirm the change by pressing NU ALARM MODE l Vrms 3L gt oma Ng 14 o2 Arms 3o 12004 Sorts
129. r menu is used to choose whether to separate or combine the non active quantities power and energy R NON ACTIWE VALUES A separated T Figure 4 7 Use the A and V buttons to select Separated or Combined m Separated Non active power N is separated into reactive power fundamental Q1 and distorting power D Non active energy Nh is separated into Q1h and Dh Combined Non active power N and non active energy Nh are displayed Press XJ to confirm the selection and return to the Configuration menu NOTE This setting cannot be modified when the instrument is recording metering energy and or searching for alarms 22 Power Quality Analyzer PowerPad Ill Model 8336 4 1 3 2 UNIT OF ENERGY The Wh menu defines the unit of energy for displayed data R ENERGY UNIT Figure 4 8 Use the up and down arrow buttons to select the unit e Wh watt hour e J joule e toe nuclear nuclear tonne oil equivalent e toe non nuclear non nuclear tonne oil equivalent e BTU British Thermal Unit Press XJ to confirm the selection and return to the Configuration menu 4 1 3 3 K FACTOR The FK menu defines the coefficients used for the calculation of the K factor Factor K This value is used for weighting the harmonic load currents in accordance with their effects on transformer heating A higher K factor indicates larger harmonic heating effects Z TRANSFORMER FACTOR K Figure 4 9 Use the arrow buttons to set the val
130. rent capture is in progress 5 4 3 STARTING AN ALARM CAMPAIGN After the settings are entered the campaign can be started by pressing the button The P icon on the status bar blinks to indicate that the campaign has been started The button replaces the KI button and can be used to stop the campaign before it is finished Alarms in progress not yet ended are recorded in the campaign if their duration is equal to or greater than their programmed minimum duration The message Campaign on standby is displayed until the start time is reached It is then replaced by the message Campaign running When the stop time is reached the Detection Schedule screen returns with the button You can then program another campaign D NOTE During an alarm campaign only the stop date field can be modified It is automatically highlighted in yellow Power Quality Analyzer PowerPad Ill Model 8336 71 5 4 4 MANUALLY STOPPING AN ALARM CAMPAIGN An alarm can be manually stopped before the stop date and time by pressing the gt icon s yellow button The OK icon will reappear in the same location 5 4 5 DISPLAYING A LIST OF ALARM CAMPAIGNS To display the list of campaigns performed press the Lay button The Detection List screen is displayed Car Lab DETECTIONLIST 0341014 1 49 03710414 1 59 03410414 1 52 03 10 14 1 56 03410414 1 58 03 10 14 2 05 Figure 5 42 Item Function 1 Name of the campaign 2 Start date and
131. responding to these icons to display the pages If the stop date is in red it means that it does not match the stop date initially programmed because either e There is a power supply problem battery low or disconnection from AC power e The number of transients has been reached thereby ending the search To select a search for transients move the cursor to it using the A and V buttons The selected search is bolded Confirm by pressing SJ The screen then displays a list of transients 42 Power Quality Analyzer PowerPad Ill Model 8336 Lee TRANSIENT LIST TRY 053 O54 O55 056 05r 055 O59 OBO Function 03 10 14 03 10 14 03 10 14 03 10 14 03 10 14 03410714 03710714 03710714 15 46 47 15 46 51 15 46 51 15 46 52 15 47 00 15 47 07 15 47 14 15 47 16 Figure 5 4 1 Transient name number date time and triggering channel of transient 2 Activates deactivates the choice of a transient list display filter 3 The displayed value indicates the page number and the number of pages the pages Transient display filter UE 159 D I DO Tad 126 2 DO Y2 We Va We Wa Wa We WA These icons let you browse through the previous and next screens Press the yellow buttons corresponding to these icons to display V displays the 4 single voltages during the transient here in a 5 wire 3 phase connection 4A displays the 3 currents and the neutral current during the transient L1 L2 or L3 display
132. rogress the activated alarms cannot be modified and are identified by black dots How ever new alarms not yet programmed or not activated can be activated To return to the Configuration menu press 2 Power Quality Analyzer PowerPad Ill Model 8336 37 4 1 9 ERASING MEMORY The Ki Erase Memory menu partially or totally deletes data recorded in the instrument fr ERASE MEMORY ef Trend recordings of MA Transient detections e flv Inrush current capture o ON Alarm detections o Snapshots o fam Set up Figure 4 23 m To select an item to be deleted highlight it using the arrow buttons then confirm the selection by pressing NG l A red dot appears identifying the item to be deleted To select all items press b To deselect all items press CH m To proceed with the deletion press the XY button then confirm by pressing Su To return to the Configuration menu press WARNING Which deletions are possible depends on the recordings in progress recording metering of energy search for transients alarms and or inrush current acquisition 38 Power Quality Analyzer PowerPad Ill Model 8336 4 1 10 ABOUT The About menu displays information concerning the instrument Power Quality Analyzer PowerPad Ill Model 8336 Serial Number Hardware Number Firmware Version Loader Version Plain PCB Version CPLD Version Memory Card Capacity byte Figure 4 24 1 42938LGH 00000513 40 6 EK 2 0 d 2G
133. rsateeservarsaseesnrenneesereanes 87 5 6 2 L1 L2 AND L3 FILTERS cccecccceccessessecescesseceeceeseececceceeveccecsuservareuseusecseveesarsaverseuvarsatervarsarsasersarsasersarsarsaseesenseserserearees 88 5 6 2 1 POWERS AND ASSOCIATED QUANTITIES NN NILISAN N LK EN NAL ANn ren 88 5 6 2 2 ENERGY METERS cccccccccescesseccecescercecescercecseceevsusacseceesaevacsavsusausecesersarsavsusauvecerservarcaveevarsareeservareaseavenvnneesertenss 89 SASS a 1 bh EE 89 5 6 3 1 TOTAL POWERS AND ASSOCIATED OUANTITIES ANAL ns 89 5 6 4 TOTAL ENERGY MEIERS 90 5 6 5 STARTING AND STOPPING ENERGY MEASUREMENTS cccessessesesserseceecercersarcecesserseveuserseceeseuvarsasersanvareesersanens 91 5 6 6 RESETTING THE ENERGY MEASUREMENT cccccccscsecescercececcescecsecceveeserceceesarvareuservarsavsesersaneesusarsarsavrvaneeserserees 91 5 7 SCREEN SNAbDSHOTS EA EAEA EANA EA AAAA EAEE AEEEEEEEEREEEE EREEREER Earann 91 5 7 14 VIEWING A SNAPSHOT 92 5 7 2 DELETINGASNAPDSHOT AANA NAAA AEANAEAEEEAEEEEEEE AREER EEEE EAEE AEEA A EEEE EEEren 92 sk AA 92 6 DATAVIEW SOFTWARE acana swa BAGBAG NAE AA n nnana nnmnnn nnnm 93 6 1 INSTALLING DATA VIEW Jasa NAAN GAAN NANG RA ANNA GNG NIAN NA AA sa 93 6 1 1 USB FLASH DRIVE INSTALL 10nn NANANA SN NIN NANANA SELLER NL NAALALA NAAN 93 6 2 CONNECTING THE MODEL 8336 TO YOUR COMPUTER 96 6 3 OPENING THE CONTROL PANEL ccccceccessececcessereecessersecceceesarvaceeseavacsacevsusateseusersarcaveuvarsesasusarsesers
134. s a list of user defined parameters Next to each user defined parameter is a check box Items that are checked will be added to an associated database Only a single set of custom parameters can be maintained unlike the Operator and Site lists The Custom tab allows you to specify any user defined parameters in addition to the comments field of the Site tab that are to be used in displaying a report Power Quality Analyzer PowerPad Ill Model 8336 109 7 MAINTENANCE Use only factory specified replacement parts AEMC will not be held responsible for any accident incident or malfunction following a repair done other than by its service center or by an approved repair center 7 1 CLEANING Disconnect the instrument from any source of electricity e Use a soft cloth lightly dampened with soapy water e Wipe with a damp cloth and then dry with a dry cloth e Do not splash water directly on the instrument e Do not use alcohol solvents or hydrocarbons For the current probes and sensors Keep the air gaps of the clamps perfectly clean using a cloth Lightly oil visible metal parts to avoid rust 7 2 REPLACING THE BATTERY WARNING e For safety reasons replace the battery only with the original replacement model see 1 2 2 e Do not expose the battery to heat exceeding 212 F 100 C e Do not short circuit the battery terminals e To eliminate all risk of electric shock disconnect the power supply cord and measurement leads of
135. s are listed under the Instrument menu m Below the menu bar is the toolbar The toolbar contains iconic representations of menu commands each icon performs the same function as its associated menu command when selected m Below the toolbar and to the left is the navigation tree frame The navigation tree operates much like Windows Explorer does when exploring the folders on your computer The selected entry in the navigation tree determines what information is displayed in the data frame to the right For example selecting the My Open Sessions entry in the navigation tree displays a list of the open sessions if any in the data frame Other data shown in the data frame includes data recorded from the instrument recordings photographs alarms transients inrush real time data currently being reported by the instrument trend waveform harmonics power energy campaigns and DataView reports m Below the navigation and data frames is the status bar The status bar displays a single line of help information to the left and instrument connection status to the right 6 4 CONFIGURING THE INSTRUMENT The PowerPad Ill Control Panel also enables you to configure every aspect of the Model 8336 Each field is identical to the programmable features available from the instrument s front panel itself Several of the functions are configured by typing the appropriate value in the field provided Others are configured by clicking the available radio
136. s available The filter is therefore not displayed but the display is the same as for 2 5 6 1 3L FILTER 5 6 1 1 POWER The W sub menu is used to display power GD P W 34 83k 34 77k 34 60k E119 71k 8 20 26k 2001k 1 23k 1 12k 0 55k 40 04k 4026k 3998k Figure 5 64 Item Function P W Active power Pdc W DC power only if a DC current sensor is connected O var Reactive power D var Distortion power S VA Apparent power W Power PF Power Factor this button is only available for the 3L filter Wh Energy Meters this button is not available for the 3L filter Q gt Energy consumed active reactive and apparent power this button is only available for the 3L filter GH Energy generated active reactive and apparent power this button is only available for the 3L filter On the right side of the screen are a set of filters 3L L1 L2 L3 and 2 Use the A and VY buttons to choose the filter The values displayed on the Power and Energy screens are dependent on which of these filters is selected different data will appear for different filters The following sections describe how these screens appear for the 3L L1 L2 L3 all three display the same fields and 2 filters NOTE This screen corresponds to the choice non active quantities separated in the AR tab of the Calculation Meth ods menu in Configuration mode If the choice is non active quantities combined the
137. s in the transient mode if the instrument is searching for transients 32 Power Quality Analyzer PowerPad Ill Model 8336 4 1 6 3 INRUSH CURRENT THRESHOLDS A third Thresholds screen displayed by pressing the Pi button defines the inrush current thresholds This involves setting the triggering threshold and the inrush current capture stopping threshold the stopping threshold being the triggering threshold less the hysteresis Hime CURRENT THRESHOLDS Start Threshold 00004 RMS Hysteresis 100 Mo Stop Threshold Figure 4 18 To change the inrush current triggering threshold m Press the NI button m Use the arrow buttons to change the triggering threshold The unit can be A kA or mA m Press d then use the A and V arrows to highlight the hysteresis in yellow m Use the navigation buttons to change the hysteresis For more information on the hysteresis refer to A 1 Configuring hysteresis at 100 is equivalent to not having a stop threshold see 8 A 1 6 Confirm your selections by pressing SJ To return to the Configuration menu press D NOTE You cannot modify thresholds in the transient mode if the instrument is searching for transients Power Quality Analyzer PowerPad Ill Model 8336 33 4 1 7 TREND MODE The instrument has a recording function activated by the t button see 8 5 5 used to record measured and calculated values Urms Vrms Arms and so on To display the Trend Mode m
138. s the current and the single voltage successively in relation to phases 1 2 and 3 N displays neutral 4V displays the 4 single voltages during the transient here in a 5 wire 3 phase connection To select a transient move the cursor to it using the A and W buttons The selected field is bolded Validate with the d button The screen then displays the transients in graph form II t 02m Wl t 556 0 We 165 4 W3 1r3 1 Figure 5 5 VM 02 gt Power Quality Analyzer PowerPad Ill Model 8336 43 Item Function 1 Location in the record of the zone displayed Instantaneous value of the signals according to the position of the cursor on the scale To move the cursor use the 4 and B buttons Move cursor to one period of the signal before transient triggering time Move cursor to transient triggering time Number assigned to displayed graph e g 1 is highlighted indicating channel V1 triggered capture of the transient sd Z00m In Press this button to zoom in ws Zoom Out Press this button to zoom out DD OP Go DO NOTE The selection filter is dynamic and depends on the connection chosen For example the selection filter lists 3U 3A for a 3 wire 3 phase set up To return to the Transient List screen press 5 1 1 3 DELETING A TRANSIENTS SEARCH You can remove a stored search for transients from memory To do this when the Detection List screen is displayed see Figure 5 3 select the search
139. sers access rights can be changed after the installation is complete DataView must be reinstalled for each user in a multi user system 6 1 1 USB FLASH DRIVE INSTALL 1 Insert the USB stick into an available USB port wait for driver to be installed 2 If Autorun is enabled then an AutoPlay window should appear as shown Ji Reset IDs d use J USB FT232 DATAVIEW I Ji ush a A User Manuals a AUTORUN INF General options o DocsEN ini a DocsFRini p Open folder to view files P using Windows Explorer a DocsS ini ar Setup exe er WE aaa tee o Upgrades ini View more AutoPlay options in Control Panel 3 UpgradesES ini o UpgradesFR ini Figure 6 1 NOTE If Autorun is disabled it will be necessary to open Windows Explorer then locate and open the USB stick drive labeled DataView to view the files on the drive Power Quality Analyzer PowerPad Ill Model 8336 93 3 In the AutoPlay window select Open Folder to view files 4 Double click on Setup exe from the opened folder view to launch the DataView setup program NOTE Depending on your operating system the User Account Control dialog box may be displayed Confirm when prompted to proceed 5 A Set up window similar to below will appear NG 5 Setup Install Francais Espa ol Exit Select an option from the list below Options Description DataView Version 3 11 0008 Installs the English version of Dataview onto this comp
140. t e Possibility of quickly recharging your battery e Significantly reduced memory effect you can recharge your battery even if it is not fully discharged e Respect for the environment no pollutant materials such as lead or cadmium in compliance with the applicable regulations After prolonged storage the battery may be completely discharged If so it must be completely recharged Your instrument may not function during part of this recharging operation Full recharging of a completely discharged battery may take several hours D NOTE In this case at least 5 charge discharge cycles will be necessary for your battery to recover 95 of its capacity To make the best possible use of your battery and extend its effective service life Only use the charger supplied with your instrument Use of another charger may be dangerous Only charge your instrument at temperatures between 0 and 40 C Comply with the conditions of use defined in the operating manual Comply with the storage conditions specified in the operating manual NiMH technology allows a limited number of charge discharge cycles depending significantly on e The conditions of use e The charging conditions R Do not dispose of the battery pack with other solid waste Used batteries must be entrusted to a qualified iita recycling company or to a company specialized in processing hazardous materials TABLE OF CONTENTS 1 BEFORE YOU BEGIN AG ANAN AA BTANA 7 1 1 RECEIVI
141. t counting the accuracy due to the current sensors The instrument is also very flexible with a choice of sensors allowing measurements ranging from a few milliamperes MN193 to several kiloamperes AmpFlex The Model 8336 is compact and impact resistant its ergonomics and simple interface make it easy to use The instrument is intended for technicians and engineers responsible for electrical installation and network inspection and maintenance 2 2 MEASUREMENTS The Model 8336 principal measurements are m The RMS values of AC voltages up to 1000V between terminals By using ratios the instrument can measure voltages up to hundreds of gigavolts m The RMS values of AC currents up to 10 000 amperes neutral included By using ratios the instrument can measure currents up to hundreds of kiloamperes The DC components of voltages and currents neutral included Minimum and maximum half cycle RMS voltage and current values excluding neutral Peak voltage and current values neutral included The frequency of 50Hz and 60Hz networks Current and voltage peak factors neutral included Calculation of the harmonic loss factor FHL application to transformers in the presence of harmonic currents Calculation of the K factor KF application to transformers in the presence of harmonic currents Measurement of total harmonic distortion with respect to the fundamental THD in f of the current and of the voltages excluding neutral
142. t icon for the Control Panel for the Model 8336 will appear as Q and be labeled PowerPad III NOTE If you connected your instrument to the computer before installing the software and drivers you may need to use the Add Remove Hardware utility to remove the instrument driver before repeating the process 6 2 CONNECTING THE MODEL 8336 TO YOUR COMPUTER The Model 8336 is supplied with a USB cable required for connecting the instrument to the computer To connect the instrument to your computer 1 Connect the USB cable to the port on the front panel of the instrument 2 Connect the other end of the USB cable to a USB port on your computer 3 Turn the instrument on You are now ready to use the DataView software with the Model 8336 6 3 OPENING THE CONTROL PANEL To open the PowerPad III Control Panel 1 Double click the PowerPad Ill shortcut icon O created on your desktop during DataView installation 2 Inthe Menu bar at the top of the Control Panel interface click Instrument 3 From the drop down menu select Connect an Instrument The Connect an Instrument Wizard screen appears P Connect an Instrument Wizard USB Select the desired instrument from the drop down list Instrument v Refresh D Make sure that your instrument is powered on and is connected to a USB port on this computer Figure 6 5 The Model 8336 to which you are connected should appear in the Instrument drop down list Select
143. t the primary current cannot be less than the secondary Current Power Quality Analyzer PowerPad Ill Model 8336 29 4 1 5 2 VOLTAGE RATIOS A second screen V or U depending on set up defines the voltage ratios Ratios can be different for each channel or the same for all or some channels These are phase to neutral voltage ratios when there is a neutral indicated by V BE VOLTAGE RATIOS Ratio setup au 1 Figure 4 14 and phase to phase voltage ratios when there is not indicated by U BE VOLTAGE RATIOS Ratio setup 3U 17 Figure 4 15 Use the A and V buttons to choose the configuration of the ratios a 3U 1 1 or 4V 1 1 all channels have the same 1 1 ratio m AU or 4V all channels have the same ratio to be programmed Press KS then use the A and V buttons to highlight the ratio in yellow Press KS then use the arrow buttons to change the ratio The primary voltage is in kV and the secondary voltage is in V m 3V t VN all channels have the same ratio and the neutral has a different ratio The process is similar to when there is only one ratio but you must perform the operation twice m U1 U2 U3 or V1 V2 V3 VN each channel has a different ratio to be programmed The process is similar to when there is only one ratio but you must perform the operation several times Confirm your selections by pressing SJ To return to the Configuration menu press NOTE The primary and secondary voltages ca
144. t the snapshot m The date and time of the selected snapshot are bolded Press to display the selected snapshot m Press to return to the list of screen snapshots 5 7 2 DELETING A SNAPSHOT m Select the snapshot that you want to delete using the arrow buttons Press the ez button and confirm the deletion by pressing d To leave the screen without deleting any alarm press the button 5 8 HELP Press this button to obtain help for the currently displayed mode To exit the Help mode press the 7 button once again 92 Power Quality Analyzer PowerPad Ill Model 8336 6 DATAVIEW SOFTWARE DataView is a software program that enables a PC to connect to and interact with a variety of AEMC instruments including the Model 8336 As its name implies a primary purpose of DataView is to view data that has been recorded by the instrument and displayed on the PC With DataView you can e Connect PC to the instrument e Download data e Display and analyse data e Generate reports e Export to a spreadsheet e Configure the instrument from the PC 6 1 INSTALLING DATAVIEW D DO NOT CONNECT THE INSTRUMENT TO THE PC BEFORE INSTALLING THE SOFTWARE AND DRIVERS When you purchase an AEMC instrument supported by DataView the software is included as part of the product package DataView program files are stored on a USB stick NOTE When installing the user must have Administrative access rights during the installation The u
145. ter Line 1 Line 2 Line 3 11 25 20 13 9 10 01 AM Energy Start 11 25 2013 9 10 21 AM Energy Stop P Wh Net 0 Wh 0 Wh 0 Wh P Wh Load 0 Wh 0 Wh D Wh P Wh Source 0 Wh 0 Wh O Wh P DC Wh Net 0 Wh 0 Wh Owh P DC Wh Load D Wh D Wh O Wh P DC Wh Source D Wh D Wh 0 Wh Q varh Net 0 varh 0 varh O varh Q varh Inductive Load q1 0 varh 0 varh O varh Q varh Capacitive Source q2 0 varh 0 varh O varh Q varh Inductive Source 93 0 varh 0 varh O varh Q varh Capacitive Load q4 0 varh 0 varh 0 varh D varh Net 0 varh 0 varh 0 varh D varh Load 0 varh 0 varh O varh D varh Source 0 varh 0 varh O varh S VAh Net 0 VAh 0 VAh O VAh S VAh Load 0 VAh 0 VAh O VAh S VAh Source 0 VAh 0 VAh O VAh Figure 6 19 This displays accumulated energy data and can be started or stopped the results can be downloaded to a database and viewed on the screen selected by phase 6 7 DOWNLOADING DATA To download recorded data select Instrument from the menu bar and click Download Recorded Data The Control Panel prompts you to confirm that you want to download all the data from the instrument Click Yes to initiate the download The Download dialog box appears _ Description Time Added 24 of type Recorded Sessions 11 15 2013 9 59 24 AM All 17 recorded data 11 25 2013 9 12 40 AM Recording LT 8435 12 6 2013 1 47 56 PM All 5 recorded data 1 31 2014 1 32 37 PM Figure 6 20 This dialog box lists the recorded sessions
146. ther quantities only the bar chart of mean values is represented 42 55 kWh Ki Figure 5 57 Item Function 1 Start date of selected period 2 Energy calculation mode Pressing this button lets you define the start of the selection 3 Date indicated by cursor defines end date of selected period Use the lt and B buttons to move the cursor The display period of this bar chart is one minute Since the recording period is one second each bar of this bar chart represents a value recorded in a one second window once a minute The energy calculation mode determines the sum of the powers on the selected bars 03 10 14 10 52 P AP DA ke 42 54 kwh lt 47 54 k C4 109 5k pr HERR 0 133 5k 1 57 4k min 20 30 40 a0 50 o 10 TI DI Eer Sia ees Figure 5 58 With the MIN AVG MAX mode activated the display differs slightly from the previous one because there is no loss of information Power Quality Analyzer PowerPad Ill Model 8336 81 0 002 ooo MUNA HANNA gt 02 05 O03 O4f05 O5 05 06 03 nw Ge GEN Ge VH Ge Figure 5 59 SE Pag Item Function 1 Position of viewing window in record 2 Date defined by cursor position 3 Indicates that this screen is a partial view of the trend graph There are other screens before and after this visible screen 4 Use the 4 and B buttons to move the cursor The period of display of this graph is two hours Since the recording period is one second each p
147. time relative to the start of the period expressed in milliseconds 3 V1 instantaneous phase to neutral voltage of curve 1 V2 instantaneous phase to neutral voltage of curve 2 V3 instantaneous phase to neutral voltage of curve 3 VN instantaneous neutral voltage 5 3 1 3 RMS 4A This screen displays the three phase currents and the neutral current of a 3 phase system mD 449a GS 370a 364a on 900 2 Fab 3u av 4A Li L23 L3 H wi te 69ms Als 452 Aix 44 A32 447 ANS 10 3 Figure 5 29 Item Function 1 Instantaneous value cursor change values with the cursor using the lt and B buttons 2 RMS currents Instantaneous value of the signals at the intersection of the cursor and the curves t time relative to the start of the period expressed in milliseconds 3 A1 instantaneous current of phase 1 A2 instantaneous current of phase 2 A3 instantaneous current of phase 3 AN instantaneous neutral voltage 62 Power Quality Analyzer PowerPad Ill Model 8336 5 3 1 4 RMS NEUTRAL This screen displays the neutral voltage relative to ground and the neutral current 13 28 v 988 ma V A lt 2 ERTSE 1 54 20 7 ct S me WMN 18 r6 AM 1 336 Figure 5 30 TF Item Function 1 Instantaneous value cursor change values with the cursor using the 4 and B buttons 2 Effective values of RMS voltage and current Instantaneous value of the signals at the intersection of the cursor and the graphs t time re
148. top 1211213 09 12 am Transient Count 20 cl 7 Name TESTI O Ca aaa a O Figure 5 2 Item Function Reminder of the mode used Display of sub mode used Flashing icon indicates that the search has been started Memory indicator Black area used memory White area available memory Transients search start time Transients search end time Number of transients Name of transient Display a list of searches Program a search Start a search pech 0O Ni OHIO OD NO To program a search for a transient enter the start date and time the stop date and time the number of transients to search for and the name of the search To change an item move the yellow cursor to it using the A and V buttons then confirm the selection with the sl button Change the value using the lt gt A Y arrow buttons then press SS The name can be up to eight characters long Several searches can bear the same name The available alphanumeric characters are uppercase letters from A through Z and the digits O through 9 The last five names assigned in the transient trend and alarm modes are stored in memory When a name is entered it may then be completed automatically D NOTE The start date and time must be later than the current date and time The stop date and time must be later than the start date and time Power Quality Analyzer PowerPad Ill Model 8336 41 After you program the search start it by pressing the button T
149. top the recording before it is finished The Recording on standby message is displayed until the start time is reached It is then replaced by the message Recording running When the stop time is reached the Recording Schedule screen returns with the gt button displayed You can then program a new recording During the recording of a trend only the stop date field can be modified It is automatically highlighted in yellow 5 5 2 VIEWING THE RECORDING LIST The Recording List La submenu displays the recording list already made O O O O RECORDINGLIST J 03710714 1 49 037 107134 1 59 D3 10 14 lide 0310414 1 56 031014 1 55 O3y10 14 2 05 Figure 5 45 Item Function 1 Recording name Memory usage black indicates Yo of memory used Recording start time Recording end time d Go NO If the stop date is in red it does not match the stop date initially programmed because of a power supply problem battery low or disconnection of the instrument from AC power Power Quality Analyzer PowerPad Ill Model 8336 75 5 5 3 DELETING RECORDINGS When the list of records is displayed see Figure 5 45 select the recording to be deleted using the A or V button The selected recording is bolded Press the X button Press the J button to confirm deletion or the button to cancel 5 5 4 VIEWING RECORDS When the list of records is displayed see Figure 5 45 use the up and down arrow buttons to select
150. ue of coefficients q and e e q exponential constant that depends on the type of winding and the frequency The value of q can range from 1 5 to 1 7 The value of 1 7 is suitable for transformers having round or square conductors in all types of winding The value of 1 5 is suitable for those in which the low voltage windings are in tape form e e ratio between the losses linked to eddy currents at the fundamental frequency and resistive losses both evaluated at the reference temperature The value of e can range from 0 05 to 0 1 Power Quality Analyzer PowerPad Ill Model 8336 23 The default values q 1 7 and e 0 10 are suitable for most applications Press XJ to confirm the selection and return to the Configuration menu D NOTE This setting cannot be modified when the instrument is recording and or searching for alarms 4 1 3 4 PHASE HARMONIC RATIOS The f Y r Phase Harmonics menu defines the reference for the level of harmonics of the phases SG PHASE HARMONIC RATIOS A Fundamental Value as Reference Sf Figure 4 10 Use the A and V buttons to select the reference for the level of harmonics e f the reference is the value of the fundamental e r the reference is the total value For harmonics of the V h A h and U h phases the fundamental and total values are RMS values For harmonics of the S h phases the fundamental and total values are apparent power values Press J to confirm the selection and ret
151. urn to the Configuration menu D NOTE This setting cannot be modified when the instrument is recording and or searching for alarms 4 1 3 5 LONG TERM FLICKER The PLT menu defines the method used to calculate long term flicker This screen defines whether a fixed or sliding window is used to calculate long term flicker rapid fluctuations in the power supply LONG TERM FLICKER A Sliding Window Figure 4 11 24 Power Quality Analyzer PowerPad Ill Model 8336 Use the A and V buttons to choose sliding or non sliding e Sliding The PLT is calculated every 10 minutes The first value is available 2 hours after the instrument is switched on because it takes 12 values of PST to calculate the PLT e Non sliding The PLT is calculated every 2 hours Press VJ to confirm the selection and return to the Configuration menu D NOTE This setting cannot be modified when the instrument is recording and or searching for alarms 4 1 4 ELECTRICAL HOOK UP The 3 menu is used to define how the Model 8336 is connected according to the type of network 30 ELECTRICAL HOOK UP 43 phase 5 wire gt Figure 4 12 Several electrical diagrams can be selected Use the arrow buttons to choose a connection One or more types of network correspond to each distribution system These connection choices allow you to connect the instrument to all existing networks Press J to confirm the selection and return to the Configuration m
152. urrent probes press A m Current ratios press V or U depending on set up Press A to define the current probes and ratios This displays the current probe models detected by the instrument If a probe is detected but not managed an error message is displayed For a 3 wire 3 phase set up where only two of the three current sensors required are connected if these two sensors are of the same type and have the same ratio the instrument simulates the third sensor by assuming the same characteristics as for the two others The third sensor will be shown in the list as either being simulated or impossible to simulate The current probe choices that are available are MN93 clamp 200AAC MN193 clamp 100 or 5AAC SR193 clamp 1000AAC om J93 clamp 3500AAc 5000ADc AmpFlex A193 100A 6500A 10 000Aac MiniFlex MA193 100A 6500ac MR193 clamp 1000A 1200AAc Dc 51261 clamp 10A sensitivity 100mV AAC DC Three phase adapter 5Aac p7 SL261 clamp 100A sensitivity 10mV Aac oc If an MN193 clamp 5A range or an adapter is used the current ratio setting is proposed automatically If an MN193 clamp 5A range an Adapter an AmpFlex a MiniFlex J93 or an SL261 clamp is used adjustment of the ratio range or sensitivity is proposed automatically Use the arrow buttons to define the ratios between the primary current 1A to 60 000A and the secondary current 1A 2A or 5A then confirm the selections with the XJ button Note tha
153. urrentin 4f Udc Phase to phase DC voltage O Athdr Total harmonic distortion of current in r SST peak value of the phase to phase volt 114 Power Quality Analyzer PowerPad Ill Model 8336 A h Current harmonic Current unbalance Mean value arithmetic mean Peak factor current or voltage Cosine of the phase shift of voltage with respect to current DPF fundamental power factor or displacement factor HU Frequency of network studied Channel Line Maximum value wn Minimum value oms Millisecond AVG CF DC DPF FHL Non active energy Power Quality Analyzer PowerPad Ill Model 8336 V V h Vcf Vd Vdc Vpk Vpk Vrms Vthdf Vthdr Vunb Vdc Minimum peak value of the phase to phase volt jab Q True RMS phase to phase voltage Total phase to phase voltage harmonic distortion in f Total phase to phase voltage harmonic distortion in Yor Phase to phase voltage unbalance Phase to neutral voltage also Volt unit Phase to neutral voltage harmonic Voltage crest peak factor Phase to neutral RMS distortion voltage Phase to neutral DC voltage Maximum peak value of the phase to neutral voltage Minimum peak value of the phase to neutral voltage True RMS phase to neutral voltage Total harmonic distortion of phase to neutral voltage in f Total harmonic distortion of phase to neutral voltage in Yr Phase to neutral voltage unbalance Phase
154. user of the documentation has been advised of the possibility of such damages Chauvin Arnoux Inc AEMC DataView AmpFlex MiniFlex and PowerPad are registered trademarks of AEMC Instruments Thank you for purchasing a PowerPad III Model 8336 For best results from your instrument and for your safety read the enclosed operating instructions carefully and comply with the precautions for use These products must be only used by qualified and trained users WARNING risk of DANGER The operator must refer to these instructions whenever this danger symbol appears D Useful information or hint to read CAUTION Risk of electric shock The voltage at the parts marked with this symbol may be dangerous Important instructions to read and to fully understand Equipment is protected by double insulation Kensington anti theft system The product has been declared recyclable after analysis of USB socket its life cycle in accordance with the ISO14040 standard The CE marking guarantees conformity with European Ground Earth directives and with regulations covering EMC Must not be applied to or removed from bare conductors carrying dangerous voltages Type B The trash can with a line through it means that in the current sensor as per EN 61010 2 032 European Union the product must undergo selective Application or withdrawal authorized on conductors disposal for the recycling of electric and electronic carrying d
155. uter Adobe Reader This version of Data iew supports the following instruments Dataview Update Firmware Upgrades Ground Tester Model 6470 6 6471 and 6472 User Manuals Ground Tester Probe Model 641 7 Installation Tester Model 6116 Megohmmeter Model 1060 5060 5070 6550 and 6555 Micro Ohmmeter Model 6240 6250 and 6292 Power Energy Logger Model PEL102 and PEL103 Power Meter Model 8220 PowerPad Model 8230 3945 3945 B 8333 8335 8336 and 8435 Power Clamp Model 407 and 607 Simple Logger l DTR Model 8510 Figure 6 2 There are several different options to choose from Some options require an internet connection 6 Da DataView Version x xx xxxx Installs DataView onto the PC Adobe Reader Links to the Adobe website to download the most recent version of Adobe Reader to the computer Adobe Reader is required for viewing PDF documents supplied with DataView DataView Updates Links to the online DataView software updates to check for new software version releases Firmware Upgrades Links to the online firmware updates to check for new firmware version releases User Manuals Shows a list of instrument related documents that you can view Adobe Reader is required for viewing PDF documents supplied with DataView taView Version x xx xxxx option should be selected by default Select the desired language and then click on Install 7 The Installation Wizard window will appear
156. vary based on the selected group and selects which channels in the selected group to display The third row of buttons selects how the data should be displayed trend tabular bar chart and so on 6 7 6 EDITING DOWNLOADED DATA The Control Panel enables you to augment downloaded data with additional information about the recording session such as operator and site To do this highlight the downloaded recording alarm transient or Inrush result listed under Recorded Sessions Then open the Edit menu and click Edit Address Book The Session Properties dialog box appears 108 Power Quality Analyzer PowerPad Ill Model 8336 Ai Session Properties Operators list Jane Smith Dick McCarrick Acme Corp John Doe 123 Technology Drive NH 603 123 9876 603 123 0987 jane smith acme com Figure 6 21 The Session Properties dialog box allows you to specify the Operator Site and Custom parameters that are to be saved with recorded data These parameters are used when generating reports The Operator and Site tabs allow you to maintain lists of operators and sites saving you time when specifying parameters for reports On the left of the Operator and Site tabs is the list of previously defined operators and sites On the right of the Operator and Site tabs is a set of individual parameters that will be saved in an associated database Only a single set of operator and site fields is saved in the recording database The Custom tab contain
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