AEMC PEL 102 / PEL 103 Power and Energy Loggers Manual PDF
Contents
1. A Power amp Energy Logger Model PEL 102 and PEL 103 Power amp Energy Logger Model PEL 102 and PEL 103 D qi q1 lt lt q2 gt gt q2 VARh W m e E Power amp Energy Logger Model PEL 102 and PEL 103 35 lt lt q3 gt gt q A O e Power amp Energy Logger Model PEL 102 and PEL 103 36 Table 5 3 7 3 Harmonic Display Values Table 6 displays the LCD PEL 103 sequence for each type of hook up 3 Phase 3 Wire Balanced THD THD 11 THD M THD I3 THD V THD I2 THD I2 THD D THD I3 THD D lt lt THD I V gt gt THD THD l lt lt THD Il THD V1 THD U12 THD U12 THD V2 THD U23 THD U12 THD U12 THD U31 THD U12 THD V U THD U THD U Table 6 Harmonics function is disabled in DC 1 3 Phase 3 Wire includes o 3 Phase 3 Wire with 2 current sensors 3 Phase 3 Wire A with 3 current sensors 3 Phase 3 Wire Open A with 2 current sensors 3 Phase 3 Wire Open A with 3 current sensors 3 Phase 3 Wire Y with 2 current sensors 3 Phase 3 Wire Y with 3 current sensors 2 3 Phase 4 Wire includes m 3 Phase 4 Wire Y with 3 current sensors B 3 Phase 4 Wire Y 2 2 Element B 3 Phase 4 Wire A B 3 Phase 4 Wire Open Power amp Energy Logger Model PEL 102 and PEL 103 l IH THD ID THD I2 THD I3 THD IN IN THD V1 THD V2 THD V3 HD V 3 Phase 4 Wire Balanced THD 11 THD 112. m wooo S amp XwaosooApo SAOARDG BNG adapte Range tomvia 3Ooo ie WS m wo 39m wa IESEL L I m MN193 Table 11 Ranges for AmpFlex and MiniFlex are selected by the user with DataView software setup mode ILOW threshold at which the current measurement is zeroed 1 to 3 turns can be set for MiniFlex and AmpFlex Additional current ratio can be set for MN93 current sensors and 5A adapters see Table 12 NOTE When no ratio is entered nominal current is displayed on the PEL103 LCD as primary current No secondary current is displayed 64 Power amp Energy Logger Model PEL 102 and PEL 103 Current Transformer Ratios Parameter Range increment Primary Current PC 51t02500A 1A Secondary Current SC a Table 12 i NOTE The following conditions shall be fulfilled or the configuration will be rejected by the PEL Control Panel software VT primary nominal voltage VI secondary nominal voltage VT primary nominal voltage x CT primary nominal current 650 MVA 4 4 5 Recording Tab Options The Recording tab of the Configure Instrument dialog box specifies various recording related options Configure Instrument 30 characters max Recording period E Record now Duration 43 hours Schedule recording Startdate 10 15 2013 Start time 6 41 28 AM End date 10 18 2013 End time 6 41
3. 11 V1 5 I2 V2 g I1 U12 4 13 U12 3 12 U23 I3 U31 U I ANGLE U I ANGLE 5 U31 U23 O U31 U23 5 U12 U31 O U12 U31 5 U23 U12 O U23 U12 U ANGLE U ANGLE V I ANGLE 32 Power amp Energy Logger Model PEL 102 and PEL 103 PF PF PF PF TAN TAN TAN TAN PF PF O 11 V1 oO MH V1 D H V1 O 12 V2 O I3 V3 L1 I3 V3 V I ANGLE V V ANGLE ANGLE TAN TAN TAN TAN TAN TAN Table 4 Note displayed text 3 Phase 3 Wire includes o 3 Phase 3 Wire A with 2 current sensors 3 Phase 3 Wire A with 3 current sensors 3 Phase 3 Wire Open A with 2 current sensors 3 Phase 3 Wire Open A with 3 current sensors 3 Phase 3 Wire Y with 2 current sensors 3 Phase 3 Wire Y with 3 current sensors Power amp Energy Logger Model PEL 102 and PEL 103 33 3 7 2 Energy Displayed Values The PEL measures the typical energy readings used In addition it enables advanced measurements for specialists or individuals doing in depth analysis Individual power magnitudes for Power Flow Quadrants per IEC 62053 23 are available by simply scrolling through each screen display The values in each quadrant are often used by engineers addressing power flow issues Energy measurements which are time dependent typically 10 or 15
4. 3P 3Wa2 TI Sphase3 wireOpeni 3P 3W02 TI Sphase3 wreY2 3P3WY2 Sphase amp wieA 3P 3Wa3 TI e Sphase3 wireOpen 3P 3W08 e e Sphase3 wieY 3P3WY TI e S phase3 wireA balance 3P3WaB Sphae4wreY 3P4AWY Sphase4 wireYbalanced 3P4AWYB TI Bphase4 wirey2 3P AWY2 e Sphase4wieA 3P4WA LI e Sphase4 wreOpenh 3P4WOA DCzwre Dow e y DC amp wre Dosw e e DC4 wre Dow e 5 3 Bluetooth Bluetooth 2 1 m Class 1 range 600 m m Nominal sensitivity 82 dBm m Nominal output power 15 dBm m Rate 115 2 kbits s 5 4 Power Supply AC Power external power supply Overvoltage CAT Il m Operating Range 110V 230V 10 50 60Hz mg Max Power 15VA rated to 30 VA max Battery Power m Type Rechargeable NiMH battery m Charge Time 5 hours approx mg Recharging Temperature 50 to 104 F 10 to 40 C NOTE Configuration data is saved for up to 5 years during a low battery condition When the instrument is off the real time clock is maintained for two weeks or longer Autonomy m 30 minutes minimum m 60 minutes typical Power amp Energy Logger Model PEL 102 and PEL 103 5 5 Mechanical Specifications Dimensions 10 08 x 4 92 x 1 46
5. 2 WE Re Le EE 8 22 Front Se RE 9 29 isle diuini acti cc TTE TET TET OE OT mE m 10 CT MEN oM godn me REL UU rr 10 2 5 Installation of the Color coded ID Markers nennen nnne nnne nnn nnn nnns sna se sna sn nas 11 Mb s edofkm uU TTT I T mee 11 27 Mo mntmg anad OC AOI Mc ees 12 20 TSR SCC Uy ee 12 20 BOTOA Ir CC RE T E E E E E E sae ctunued 12 210 LOD Display E en EE 13 ak KR BREET 14 21 METON C ee EH 15 3 1 3 2 3 3 3 4 3 5 3 6 Charging the og E 16 lee e Le et PEL E 16 Turning the Instrument ON OFF oo 0 ttt ttt 17 cro WE LEI e gie Ne PEL E c 17 doae EEN leier e Oc PR I r 17 Starting Stopping a Recording and Enabling Bluetooth 18 OTIC COINS E 18 39 1 POWE ee oeeie cis atadessmoatsete eeee 18 3 5 2 Standby Mode and Display eet gt 19 3339 Memory Card RE EE 19 354 USB Connection to the ET DE 19 3 5 5 LAN Ethernet Connection to the PEL EE 19 3 5 6 Bluetooth Connection to the PEL E 20 3 5 6 1 Pairing using Windows Vista WindoOws N 20 Distribution Systems and PEL HOOK UDS ene 22 261 Ue o Fics cili KR E mmm 22 3 6 2 Single Phase 3 Wire Split Phase from a center tap transformer ccccccsseeceeeeceeeeeseeeeseeeesaeeesaeeesaeeess 22 3 6 3 3 Phase 3 Wire Power Networks eet EEN 23 3 6 3 1 3 Phase 3 Wire A with 2 current SensOLrs uude sene sudugatsas
6. Table 26 Indicative maximum value of the intrinsic uncertainty Higher uncertainties can be noted in particular with EMI AmpFlex and MiniFlex Specifications Intrinsic Typical uncertainty uncertainty on 9 on Qo at 50 60Hz at 400Hz Typical intrinsic Intrinsic uncertainty uncertainty at 50 60Hz at 400Hz 200mAto5A 1 2 50mA 296 O 1A UTR 5 to 120A 21 2964 50mA 2 0 1A 0 8 to 20A 1 2 02A 2 04A MEE NEN 20 to 500A 1212962 02A 2296 04A 2000Aac 100 to 2400A 1 296 1A 296 2A 20 to 500A 11296 5A 4296 40A BENE NEM 10 000A4c 500 to 12 000A 1 296 5A 2 10A 200mAto5A 1 2 50mA 296 O 1A oe ft 2 100Aac 5 to 120A 11 2964 50mA 2 0 1A 0 8 to 20A 11 296 0 2A 2 04A LE 400AAC MiniFlex 2010500A 1 2 02A 2 04A 2000Aac 100 to 2400A 1 296 1A 2 2A 20 to 500A 1 22 5A 4296 40A es FT 3000Aac 500 to 3000A 1 296 5A 2 10A Table 27 The nominal ranges are reduced to 50 200 1000 5000A ac at 400Hz Indicative maximum value of the intrinsic uncertainty Higher uncertainties can be noted in particular with EMI Current Sensor type RMS or DC 82 Power amp Energy Logger Model PEL 102 and PEL 103 When no current sensor is connected the current values are forced to zero zapen wem a t s Szeenen w e c Spit phase trphase wre aw Sphase amp wieA
7. 3P 4WYB 3P 4WY2 Se passi DC 2W DC 3W DC 4W rat 3WY2 wm wl pb RESESLCLE IL dh ch l I I 0 0 90 lt lt O1 O1 O1 N Co ge ke lt ao A P ke mms o rnw LZ SS fex H Kaell a vil Dv Ge ee E lt Zerf ee IO Ku Y J oO O Cl LL LL II TI ee Vea e je 9 99 o S d N e e 1 wesch of ES m G e 4j N ch wo o ux i oo N 4 H O O Cc E pmj en CH O D Wu DI e e Q 52 O a Pepe pepe fe Pepe pep E 96 Power amp Energy Logger Model PEL 102 and PEL 103 Cae E a eid cent med EES 3P 3WO2 3P 3WO3 3P 3WAB 3P 4WY 3P 4WYB 3P 4WY2 3P AWOA DC 2W DC 3W DC 4W 3P 3WY2 3P 3WY3 9 source ej e eje9 Le e sl e EN e Source ELM e o t e e Lslglglsgl OS Lil e e ej ej S Jte LL lm e joj 9 ra e ejeje e ec ojoj ps eje jeje ej e ps e j fe ew eje ps j ej ej ej ej ps e ejej e e oj ej o F e e jeje eje 0 e j mm II ml Pm ejoj m e e e e ef mw ejoj Pr source e e ej e eJj
8. Cos q on load with associated quadrant Tan o on source Tan on load Line to neutral voltage harmonic distortion rate THD V 96 Line to line voltage harmonic distortion rate THD U 96 Current harmonic distortion rate TH 96 1 N 1 Or agg 7 7 H GD N 1 1 S dd x S Ls lagg D 2 rxlls 1 N 1 PFs agg A Frae x 0 j x Psi lagg N ia Paus x 0 AC Os agg N x H Osis 1 N 1 Ou agg 2 Opra lls 1 N 1 S Te x S 1s Llagg N 2 rx lls 1 N 1 PFs agg A Frae x 0 N 1 1 Ee Ls 1 N 1 Cose slagg x Cos s Del x 0 1 A Costa rlagg N x p3 Cos 9 Je 1s x 0 N Tan g s agg x X Tan g s s x 0 1 N 1 Tan g s agg x Tan q 1s x 0 N 1 1 THD V agg ra H THD V 1s N 1 1 THD _U agg en 2 THD _U ls N 1 1 THD 1 agg 2 I 15 Table 29 Power amp Energy Logger Model PEL 102 and PEL 103 A A Supported Electrical Networks The following types of distribution systems are supported m V1 V2 V3 are the line to neutral voltages of the installation under test m V1 VL1 N V2 VL2 N V3 VL3 N m Low caps v1 v2 v3 are used for time values m U12 U23 U31 are the line to line voltages of the installation under test m Low caps are used for time values u12 v1 v2 u23 v2 v3 u31 v3 v1 m 11 12 I3 are the currents flowing in the line conductors of the installation under test m Low caps il i2 i
9. V 100 to 1000V 2 Reactive energy Eq E e din Sin 0 5 inductive 0 5 capacitive V 100 to 1000V 2 5 5 to 120 Inom Sin 0 25 inductive 0 25 capacitive V 100 to 1000V x 2 596 5 to 120 Inom V 100 to 1000V PFs Harmonics number 1 to 25 V 100 to 1000V 1 5 to 120 Inom PP Total Harmonic Distortion THD V 100 to 1000V 1 5 to 120 Inom Table 14 a nom is the value of the measured current for a current sensor output of 1V See Table 26 for the nominal current values m Pnom and Snom are the active power and apparent power for V 1000V I Inom and PF 7 a Qnom is the reactive power for V 1000V I Inom and Sin f m The intrinsic uncertainty for input current I is specified for an isolated input voltage of 1V Inom The intrinsic uncertainty of the connected current sensor should be added to this intrinsic uncertainty to determine the total intrinsic uncertainty In the case of using sensors AmpFlex and MiniFlex intrinsic uncertainty is given in Table 27 The intrinsic uncertainty for neutral current is the maximum intrinsic uncertainty on 11 I2 and 13 a Indicative maximum value of the intrinsic uncertainty Higher uncertainties can be noted in particular with EMI 76 Power amp Energy Logger Model PEL 102 and PEL 103 5 2 3 2 Specifications 400Hz Quantity Measurement Range Intrinsic Uncertainty Frequency F 340 to 460Hz 10 to 100V 0
10. 3 Phase 4 Wire Open A 3P 4WOA r em el DC swe caw NP Dc 4r oca Wwe A 5 2 A 5 2 Voltage Phase Order Distribution Abbreviation Current Phase Comments System Order ie ed NENNEN phase B o o 1 Phase 3 Wire eege lt er 3 Phase 3 Wire A 2 current sensors 3P 3WA2 3 Phase 3 Wire Open A 2 current sensors 3 Phase 3 Wire Y 3P 3WY Yes on U U12 U31 U31 U23 O U23 U12 120 10 2 current sensors 3P 3WO2 3 Phase 3 Wire A 3P 3WA3 3 Phase 3 Wire Open A 3P 3WOS3 3 Phase 3 Wire Y 3P 3WY3 3 Phase 3 Wire 3P 3WAB balanced 3 Phase 4 Wire Y 3P AWY ee E V1 V3 0 V3 V2 V2 V1 120 10 3 Phase 4 Wire Y 3P AWYB balanced V1 V3 120 10 3 Phase 4 Wire Y 2 2 3P AWY2 Yes on V O 3 Phase 4 Wire A 3P 4WA 1 V3 180 10 Yes on U V U12 U31 O U31 U23 O U23 U12 120 10 3 Phase 4 Wire Open A 3P AWOA ows ow el DC 8 em e Dc 4r oca Ww 94 Power amp Energy Logger Model PEL 102 and PEL 103 A 5 3 A 5 3 Current vs Voltage Phase Order Distribution ABDIEVISEDR Current Phase Comments System Order us oun Split phase 3 Phase 3 Wire A 2 current sensors 3P 3WA2 3 Phase 3 Wire Open A 3P 3WO2 Yes 2 current sensors 3 Phase 3 Wire Y 3P 3
11. Downloading over USB and Ethernet may be acceptable depending on the session size and network speed We recom mend putting the SD card into your PC directly or with the external card reader for fastest download time Power amp Energy Logger Model PEL 102 and PEL 103 15 3 OPERATION 3 1 Charging the Battery Before the first use start by fully charging the battery m Connect the supplied power cord to the instrument and AC power 120V x 1096 60Hz m The device will automatically turn ON 230V x 1096 50Hz The Wit LED lights it will go out only when the battery is fully charged m A low battery charging takes approximately 5 hours The Yellow Red LED see 6 Figure 8 is used to indicate the status of the battery When the power is on the battery is charging until it is full LED OFF Battery full with or without power supply Yellow LED ON No blinks Battery is charging Yellow LED blinks twice per second Battery is recovering after a full discharge m Red LED blinks twice per second Low battery and no power supply Figure 9 3 2 Operating the PEL i IMPORTANT The following OPERATION instructions assume that the PEL has been configured by the user prior to use The PEL can only be fully configured through the PEL Control Panel distributed with the DataView software although on the PEL 103 some parameters such as hookup type can also be set through the LCD display on the device
12. Opens the Display Colors dialog box allowing you to customize the colors used to display trend data Cache Opens the Cache dialog allowing you to manage the contents of the cache for each instrument Select Report Opens the Templates dialog box allowing you to select the default template to be used when creating a DataView report Options Opens the Options dialog box allowing you to specify default rates and various program options Help Topics Displays the main Control Panel help topics PEL Manual Displays the user manual Update Connects to the AEMC website to determine the latest version of software and instrument firmware About Displays the About dialog box displaying version and copyright information Power amp Energy Logger Model PEL 102 and PEL 103 4 3 2 Modifying a Connection Type To change or modify the connection type e g from USB to LAN select the desired PEL listed in the PEL Network then select the Modify Connection Settings button File Edit View Instrument Tools E L Workstation E gm PEL Network E a PEL103 143887KGH d GG Recorded Sessions Lu Ji Real time Data B B My Open Sessions B E session Eee BA 1s Measurements Sch located at the top of the Status area below the Toolbar Help DI ei Value PEL serial number 14388 PEL name PEL 10 PEL location Office PEL date 8 6 20 Figure 49 4 3 3 Reconnecting and Disconnecting an Instrument Disconnecting To clo
13. THD 11 THD I gt gt THD V1 THD V1 THD V1 THD V gt gt 37 3 7 4 Max Display Values Nz Table 7 displays the LCD PEL 103 sequence for each type of hook up Note that when a recording is in progress Max is the maximum of the one second measurements during an aggregation period This is reset either 1 when a new aggregation period starts or 2 continuously depending on how this setting is configured You can also reset this value manually through the PEL Control Panel see S 4 4 1 When no recording is in progress Max represents the maximum of the one second measurements since the end of the last recording Ph Ph 1 Phase 1 Phase DC sche ZE ae SRE DC 2 Wi Ge iori 3 Wi 3 Wire We 4wirem 4 We 4wi DC Mode DC Mode I3 I1 I1 DC Mode no max b no max 2 I3 no max I3 I3 IN IN P V1 U12 U12 V1 V1 Q V2 U23 U12 V2 V1 S U12 U31 U12 V3 V1 LOAD P U12 U12 Q U23 U23 S U31 U31 LOAD P Q S SOURCE T Tm i S SOURCE Table 7 1 S Phase 3 Wire includes 2 3 Phase 4 Wire includes m 3 Phase 3 Wire with 2 current sensors m X 3 Phase 4 Wire Y with 3 current sensors m 3 Phase 3 Wire with 3 current sensors E 3 Phase 4 Wire Y 2 Element m X 3 Phase 3 Wire Open with 2 current sensors B 3 Phase 4 Wire A m 3 Phase 3 Wire Open A with 3 current sensors B 3 Phase 4 Wire Open a 3 Phase 3 Wire Y with 2 current sensors m 3 Phase 3 Wire Y with 3 current s
14. energy is the demand during the recording session The Partial energy can be determined during an integration period with the following values 1 h 1 day 1 week 1 month The partial energy index is available only in real time It is not recorded However the Total energy is available with the recording session data A 2 Measurement Formulas PEL measures 128 samples per cycle except 400 Hz with 16 samples and calculates the voltage current and active power quantities on a cycle PEL instruments measure or calculate the following quantities on a cycle 128 samples per cycle except 400Hz with 16 samples Then the PEL calculates an aggregated value for 10 cycles 50Hz 12 cycles 60Hz or 80 cycles 400HZ The 10 12 cycles quantities 50Hz are aggregated for 50 60 cycles 1 second quantities Comments AC RMS Line to neutral vL v1 v2 or v3 elementary sample voltage IN N Number of samples v1 v2 or v3 elementary sample DC voltage V N Number of samples L AC RMS Line to line ab u U Or U elementary sample voltage U N Number of samples Ll x iL i1 i2 or i3 elementary sample A MS GUMENE N N Number of samples 1 OR iL i1 i2 or i3 elementary sample DC Current l N Number of samples CF is the ratio of average crest values and rms Voltage crest factor V CF value of 10 12 periods CF is the ratio of average crest values and rms Current crest factor I CF
15. frame on the right 70 Power amp Energy Logger Model PEL 102 and PEL 103 4 6 Using the Cache Downloaded sessions are saved to the cache which is located in the My document DataView Download PEL folder oessions are cached so they do not need to be downloaded more than once They are also saved so that if you exit the PEL Control Panel while downloading the download can resume where it left off the next time the program starts To open the Cache dialog box select Tools Cache from the main menu PEL folder PEL name Session folder 14388 KGH PEL 10303 14388 7KGH 5es00001 Ses00002 5es00003 Test Record Ses00004 Test Record Ses00006 3P3WD Ses00020 Maximum allowable cache size 1024 in megabytes Figure 68 The Cache dialog box contains a list of instruments on the left side This list contains instruments from which sessions were previous downloaded On the right is a list of sessions that are in the cache for the selected instrument Initially the list on the right is empty because no instrument is initially selected Selecting an instrument on the left will update the list on the right to display all of the sessions associated with the selected instrument that are currently in the cache You can use the cache to open recordings previously downloaded even when the instrument is not connected to the computer To do this select the instrument on the left that the session was downloaded from Nex
16. value of 10 12 periods d 1 43 6 u gt 1s 2 g 14 43 68 4 4 4 real time only 8 Ui fund T U fund U 31 fund 2 2 2 2 Uto ged U23 fua Uima Unbalance u L 11 I2 or 13 elementary sample Active Power P N Number of samples P_ 1s P 1s P 1s P 1s 3 2 Reactive power includes harmonics 1s 1s x JS 1s P 1 l Qr ls signlls x 48 Us P Us sign 1s is the reactive power sign Reactive Power Q Si 1s Vills xJz 1s Apparent Power S S1 1s Si 1s So 1s Ss 1s Total apparent poner d is an arithmetic 88 Power amp Energy Logger Model PEL 102 and PEL 103 Quantities Formula Comments Line to neutral voltage harmonic distortion rate THD_VL Line to line voltage harmonic distortion rate THD_Uab Current harmonic distortion rate THD IL 96 A 3 Aggregation 5 cos 9 1s ix Y cos 9 10 12 J 1 O 10 12 P 10 12 Cos qo 10 12 is the cosinus of the difference between the phase of the fundamental of the current and the phase of the fundamental of the line to neutral voltage V for 10 12 cycles values Q 10 12 and P 10 12 are the 10 12 periods value for Q and P 5 tg p 15 I by 1 2 Veff Vin THD V 100x S Va THD U 100x 2 H1 THD_1 100x Jeff Ts H Us v THD is calculated as 96 of fundamental VH1 is the value of fundamental THD is calculated as of fundamental U
17. values which is a 230mA error at 60Hz A voltage of 110V applied on the neutral input will add 11uV to other current sensors values resulting in an additional error of 0 01 Inom 5 2 3 6 Magnetic Field Influence For Rogowski inputs without sensors 10 mA A m typical at 50 60 Hz 5 2 4 Current Sensors 5 2 4 1 Precautions for Use Refer to the safety sheet or user manual that was supplied with your current sensors for more information 5 2 4 2 Use and Characteristics Current clamps and flexible current sensors are used to measure the current flowing in a cable without opening the circuit They also insulate the user from dangerous voltages in the circuit m The choice of current sensor to be used depends on the current to be measured and the diameter of the cables m When installing current sensors face the arrow on the probe or the sensor in the direction of the load 78 Power amp Energy Logger Model PEL 102 and PEL 103 5 2 4 3 MiniFlex MA193 The Flexible Current Sensor MiniFlex Model MA193 can be used to measure the current in a cable without opening the circuit It also serves to isolate the user from hazardous voltages in the circuit This sensor can only be used as an accessory of an instrument Before connecting it if you have several sensors you can mark each of them using one of the color coded ID markers supplied with the instrument to identify the phase Then connect the sensor to the instrument m Press the yellow
18. 1 2V without DC lt 0 5 for AC measurement without AC lt 0 5 except AmpFlex MiniFlex for DC measurement Voltage unbalance Neutral input and enclosure are held at earth potential Common mode Instrument powered on battery USB disconnected Magnetic field 0 A m AC Electric field 0 V m AC Table 13 5 2 Electrical Specifications 5 2 1 Voltage Inputs Operating Range up to 1000Vrms for phase to neutral voltages up to 1700Vrms for phase to phase voltages i NOTE Phase to neutral voltages lower than 2V and phase to phase voltages lower than 2 3 are zeroed Input Impedance 1908kO phase to neutral and neutral to earth ground Max Overload 1100Vrms 5 2 2 Current Inputs i NOTE Current sensor inputs are voltage inputs current probes have a voltage output Operating Range 0 5mV to 1 2V 1V Inom with crest factor v2 Input Impedance 1MO except for AmpFlex MiniFlex current sensors 12 4kQ AmpFlex MiniFlex current sensors Max Overload 17V 74 Power amp Energy Logger Model PEL 102 and PEL 103 5 2 3 Accuracy Specifications excluding current sensors 5 2 3 1 Specifications at 50 60Hz Quantity Measurement Range Intrinsic Uncertainty Frequency f 42 5 to 69Hz 10 to 100V 0 2 D 2 V Phase to neutral voltage V 100 to 1000V 0 296 0 2V 17 to 170V 0 296 x 0 4V Phase to phase voltage U 170 to 1700V 0 296 0 4V 0 2 to 596 Inom 0 296 0 0296
19. 10 min Brightness iQ 15 min Disable Lock out the Control button on the instrument front panel This will prevent the start and stop of recording also the enabling and disabling of Bluetooth at the instrument Aggregated MAX Mode Aggregated MAX values updated while recording only maintained when not recording Aggregated MAX values updated all the time Sedek The instrument dock differs from this computer s dock by 14396 second s Figure 55 Instrument Identification m Model Read only field that displays the model of the connected instrument Serial number Read only field that displays the unique serial number assigned to the connected instrument m Name Field to provide the instrument s name The instrument will be listed in the PEL Network using the name entered here A maximum of 32 characters is allowed m Location Optional field to provide the place location of the instrument A maximum of 32 characters is allowed Auto Power Off Sets the automatic power down battery saving function to the selected interval gm 3min m 10min m 15min m Disable LCD PEL 103 m Contrast Sets the contrast level of the instrument s LCD E Normal mode brightness Sets the brightness level of the LCD when selecting various items to view Power amp Energy Logger Model PEL 102 and PEL 103 59 Lock out the Control button on the instrument front panel m When checked locks the ON OFF and Con
20. 28 AM Reset Start Date Time Trends demand interval Demand period imin The aggregation starts at rounded hours Recording options Record one second trends for current voltage energy power factor THD Record individual harmonics to the 50th for current and voltage The maximum recommended recording duration for proper 5D Card operation is one week with aggregated values 1s trends and 1s harmonics one month with aggregated values and 1s trends no 1s harmonics one year with only aggregated values no 1s trends and no 1s harmonics The number of sessions on the SD Card should not exceed 32 Installed SD Card status g 26 00 of the SD Card space has been used 1412 MB is available on the installed SD Card 1909 MB is the total capacity of the SD Card Figure 58 Power amp Energy Logger Model PEL 102 and PEL 103 65 Session Name Field to assign a session name 40 characters max to the recording session Recording period Trends Record Now When checked will start a recording when the OK button is pressed Schedule Recording When checked enables a start and end date time to be set for the recording Duration Drop down list containing predefined recording times Reset Start Date Time This button is enabled when the Schedule recording option is checked When selected the Start date time is set to the current PC date time and the End date time to the PC date time plus the
21. 4 Wire P AWO Open A SP 4WOA Neutral current is calculated only for a transformer branch see 3 6 5 2 iN i1 i2 Voltage measurements are performed between L1 and N DC 2 Wire DC 2W see 3 6 6 1 Current measurements are performed on L1 conductor Voltage measurements are performed between L1 L2 and N DC 3 Wire DC 3W Current measurements are performed on L1 and L2 conductors see 3 6 6 2 Negative return current is calculated iN i1 i2 Voltage measurements are performed between L1 L2 L3 and N DC 4 Wire DC 4W Current measurements are performed on L1 L2 and L3 conductors see S 3 6 6 3 Negative return current is calculated iN i1 i2 i3 Table 30 92 Power amp Energy Logger Model PEL 102 and PEL 103 A 5 Phase Order Every second the PEL determines the phase order If the phase order is incorrect the red Phase Order indicator on the PEL front panel blinks see 2 11 In addition on the PEL 103 the Phase Order Incorrect icon S appears on the LCD Display screen Setting the correct phase order for a distribution system requires that the current phase order voltage phase order and current vs voltage phase order for that distribution system are all correct Note that m Phase order for voltage channels only is displayed when voltages are displayed on the LCD screen The voltage phase order is derived from the FFT analysis m Phase order for current channels only is displayed when currents are displa
22. 596 0 5V Phase to neutral voltage V 100 to 600V 0 596 0 5V 17 to 170V 0 596 0 5V Phase to phase voltage U 170 to 1700V 0 596 0 5V 0 2 to 596 Inom 0 5 0 0596 Inom Current I without current sensor 5 to 12096 Inom x 0 596 0 0596 Inom PF V 100 to 600V 2 0 0296 Pnom 5 to 120 Inom PF 0 5 inductive 0 8 capacitive V 100 to 600V 3 0 03 Pnom 5 to 120 Inom Bis Active energy Ep V 100 to 600V 5 to 120 Inom Active power P Table 15 a nom is the value of the measured current for a current sensor output at 50 60Hz See Table 26 for the nominal current values a Pnom is the active power for V 600V I Inom and PF 1 m The intrinsic uncertainty for input current I is specified for an isolated input voltage of 1V Inom The intrinsic uncertainty of the connected current sensor should be added to this intrinsic uncertainty to determine the total intrinsic uncertainty In the case of using sensors AmpFlex and MiniFlex intrinsic uncertainty is given in Table 27 The intrinsic uncertainty for neutral current is the maximum intrinsic uncertainty on 11 I2 and I3 m Indicative maximum value of the intrinsic uncertainty Higher uncertainties can be noted in particular with EMI a For AmpFlex and MiniFlex the maximum current is limited to 6096 Inom at 50 60Hz because of higher sensitivity 5 2 3 3 Specifications DC Measurement Range Typi
23. Connect the terminal I1 current probe to the LI phase conductor m Connect the terminal I2 current probe to the L2 phase conductor m Connect the terminal D current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measure ments and other phase sensitive measurements Power amp Energy Logger Model PEL 102 and PEL 103 L2 V1 L3 L1 V2 V3 NAN Figure 22 L3 Figure 23 L1 L2 L3 27 3 6 5 3 Phase 4 Wire High Leg configuration No Potential Transformer Voltage Transformer is connected the installation under test is sup posed to be a low voltage distribution system 3 6 5 1 3 Phase 4 Wire A L2 For 3 Phase 4 Wire A measurements and using three current 4 3 Sensors L1 L3 CG e m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase conductor m Connect the terminal D current probe to the L2 phase Figure 24 conductor m Connect the terminal D current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensitive measure
24. Display Modes PEL 103 E T 31 3 7 1 Base Measurements Displayed Values 31 veas maPscico ri m 34 Pe abaci soc Ac 37 ME Sc BD c 38 3 7 5 Information Display AU 39 SE E E et eigenem cma Uo EE 40 4 PEL CONTROL PANEL DATAVIEW SOFTWARE 2e 1e nennen nennen nnns 42 4 1 4 2 4 3 4 4 4 5 4 6 STAIN WSO MR n 42 elle Tio O B adc EE 48 AZ Add Gi VE da aU Wizard TER mmm 49 MEN CONNEC 6 BE 50 4 2 3 Ethernet Network CONNECUOM eenegen 52 424 EM i i RT TT mmm 53 gie Bene acia MITT 54 493 1 Opening and Using the e alten BE 54 4 3 2 Modifying a Connection Type E 57 4 3 3 Reconnecting and Disconnecting an Instrument kkkkNKENNRE KREE NRREN RRE ERR esee nennen nennen RER ENEE EE of 4 3 4 Removing an Instrument from the PEL Network Ak 57 OMONG INE PEE EE 58 Biel General ON cerere Tm 59 44 2 Gron recie idee E 60 4 4 3 Measurement Tab ood RTT 62 4 44 Current Sensors and Ratios EE 63 4453 Recording TaD e EE 65 446 Meters lab OPTIONS E 67 44 7 Configuring and Recording Data e 68 4 4 8 Modifying an Instrument s Configuration EE 69 Downloading Recorded Data EE 69 JPG NE C e s Tm tm 71 Power amp Energy Logger Model PEL 102 and PEL 103 3 SM ea ee EE f
25. NO MN 86 E E A SAM MOMENI I SMOG E 86 P122 LOCKING OF sampling We bei e 87 Alea AO EE 87 A 1 2 4 Measurement of Neutral Current cccccccccceceeeeeceeseeeeeeeceesaeeeeenseseueeaeenseseueeeeensesaueeaueeessaeseueeestanes 87 A125 T Ee ee TEE ad 87 UA Miele re cio Nec es ean eis ee Um ER 87 Pr E M E 87 5 1 2 9 ee ff Gere 0 F211 9 ks ener rR nr cee On ene nd ma m Dd mer eee ee meee ee eee 88 A2 MeSsuremeht TOU MN ege 88 4 Power amp Energy Logger Model PEL 102 and PEL 103 A 3 A 4 A 5 A 6 A AOE OA den WEE 89 Supported Electrical Networks ETE T T Om cmm 91 EE EE 93 AS1 AS1Cument Phase ON SE mm 93 A 5 2 A52 Voltage e EE 94 FeSO A 5 3 Current vs Voltage Phase EE 95 A 6 Quantities According to the Supply SVSIOITIS Jusenea siue ipaa iiv aa pid tabo cinba Desin un uEp ime B aeo oP UR UU HUP EUER Wie RU DR RbdAE 96 EE el TERM NER NT 98 Hepair and CalibraliloH oaesskux Qu RERERANEEE eege KO 1 Technical and Sales Assistance eee nnnnauuuuuuuuuuuuuuuuuuuuuauuuuuuuuuuuuuuusesasesasessssass 1 1 Bi Warranty EES OA Warranty REDAWS NN Lk Power amp Energy Logger Model PEL 102 and PEL 103 1 INTRODUCTION 1 1 Receiving Your Shipment Upon receiving your shipment make sure that the contents are consistent with the packing list Notify your distributor of any missing items If the equipment appears to be damaged file a claim immediately with the carrier and
26. Phase Sequence reversal indicator or missing phase displayed only in Real Time Measurement Mode Data are available for recording non display indicates possible internal problem Q eT JE Power quadrant indicator Real time Measurement Mode Table 2 Power amp Energy Logger Model PEL 102 and PEL 103 13 2 11 LED Status 9 2 3 4 ON OFF j 6 START STOP 5 OL s ND 6 i Figure 8 LED amp COLOR STATUS Green LED Recording Status LED blinks once per second every 5 s Logger in standby not recording LED blinks twice per second every 5 s Logger in recording mode Blue LED Bluetooth LED OFF Bluetooth OFF disabled LED ON Bluetooth ON enabled not transmitting LED blinks twice per second Bluetooth ON enabled transmitting Red LED Phase Order OFF Phase rotation order correct LED blinks once per second Phase rotation order incorrect Red LED Overload OFF No input overload 4 LED blinks once per second At least one input is in overload LED ON Indicates a current probe is either mismatched or missing Red Green LED SD Card Status Green LED ON SD Card is OK Red LED blinks five times every 5 s SD Card is full Red LED blinks four times every 5 s less than 1 week capacity remaining Red LED blinks three times every 5 s less than 2 weeks capacity remaining Red LED blinks twice every 5 s less than 3 weeks capacity remaining Red LED blinks once every 5 s less than 4
27. by selecting the 8 hour option from the Duration drop down list 4 Check the Record now checkbox At this point the Recording tab should look similar to the figure below r Configure Instrument General Communication Measurement Recording Meters Session Name Main distribution box 40 characters max Recording period V Record now Duration P hours Schedule recording Startdate 10 16 2013 Start time 6 41 28 AM End date 10 16 2013 End time 2 41 28 PM Trends demand interval Demand period The aggregation starts at rounded hours Recording options V Record one second trends for current voltage energy power factor THD v Record individual harmonics to the 50th for current and voltage The maximum recommended recording duration for proper SD Card operation is one week with aggregated values 1s trends and 1s harmonics one month with aggregated values and 1s trends no 1s harmonics one year with only aggregated values no 1s trends and no 1s harmonics The number of sessions on the SD Card should not exceed 32 Installed SD Card status 26 00 of the SD Card space has been used 1412 MB is available on the installed SD Card 1909 MB is the total capacity of the SD Card Figure 61 5 Press OK This will write the configuration to the instrument and begin a recording provided enough memory is available in the instrument 68 Powe
28. dialog box will open m Select the Services tab The communications port number associated with the PEL Bluetooth connection will be listed here When using a Bluetooth connection make sure the Bluetooth radio in the computer and instrument is turned ON and that the PEL has been paired with the computer using the Add a device option in the Windows Bluetooth Devices dialog box see 3 5 6 1 If the PEL is not listed in the Instrument drop down list by name or the associated communications port make sure the PEL is powered on the Bluetooth radio in the PEL is on and that it is listed in the Bluetooth Devices dialog box Also make sure that the Enable Bluetooth check box is checked in the Communications tabs of the Configure Instrument dialog box see 84 4 2 Power amp Energy Logger Model PEL 102 and PEL 103 53 4 3 PEL Control Panel 4 3 1 Opening and Using the Control Panel To open the PEL Control Panel m Double click the PEL icon l that was created during installation located on the desktop m The Control Panel will be displayed The Control Panel is used for instrument operation and configuration Title Bar Menu Bar T PEL Control Panel C Users dlatulippe Documents DataView Download PEL PROT 3 01 Ses00007 session i File Edit View Instrument Tools Help 6b bee amp SI eX e amp a s assuwoo 1 min Summary cd gama Peer ome er ree om mre rrr ren Bg Prototype 1 du run 3 ES m Re
29. for the recycling of electric and electronic material in compliance with Directive WEEE 2002 96 EC AN A IO e rd amp S Cc A 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 CATIII Measurement category Ill corresponds to measurements on building installations Example distribution panel circuit breakers machines or fixed industrial devices m CATII Measurement category ll corresponds to measurements taken on circuits directly connected to low voltage installations Example power supply to domestic electrical appliances and portable tools PRECAUTIONS FOR USE This instrument complies with safety standard IEC 61010 2 030 the leads comply with IEC 61010 031 for voltages of 1000V in measurement category Ill or 600V in measurement category IV and the current sensors comply with IEC 61010 2 032 Failure to observe the safety instructions may result in electric shock fire explosion and destruction of the instrument and of the installations m The operator and or the responsible authority must carefully read and clearly understand the various precautions to be taken in use Sound knowledge and a keen awareness of electrical hazards are essential when using this instrument m For your safety use only the compatible leads and accessories delivered with the instrum
30. instrument status configure the PEL setup and start a recording session and download recorded sessions The PEL has an IP address When configuring the PEL with the PEL Control Panel if the checkbox next to Enable DHCP is checked in the Communication tab of the Configure Instrument dialog box see 4 4 2 the instrument sends a request to the network DHCP server to automatically obtain an IP address If for any reason the DHCP server is not available after 60 seconds the PEL Control Panel will enter auto IP mode using the default IP address 169 254 0 100 the same IP address used when Enable DHCP is not selected This auto IP mode is compatible with APIPA Automatic Private IP Addressing A cross over cable may be needed in auto IP mode The Internet Protocol used is UDP Port 3041 is used by default but it can be modified in the PEL Control Panel see S 4 4 2 to allow multiple PC connections to multiple PEL instruments behind a router Note the LAN parameters cannot be modified while connected over a LAN link A USB connection must be used to modify them Power amp Energy Logger Model PEL 102 and PEL 103 19 3 5 6 Bluetooth Connection to the PEL The PEL 102 and PEL 103 are designed for a Bluetooth wireless connection to a computer The Bluetooth connection can be used to configure the PEL to prepare a recording session and to download recorded sessions To communicate using the Bluetooth connection you will need a computer
31. itself Please refer to S 4 3 for setup instructions using DataView and S 3 7 6 for setup through the PEL 103 LCD display m The PEL must be first programmed before recording This is done through the PEL Control Panel see S 4 3 or for the PEL 103 this can also be done on the LCD display see S 3 7 6 m The PEL is then connected to a power supply and will turn on automatically see S 3 3 1 m Recording is started by pressing the Control button see S 3 4 m The PEL can be turned OFF when disconnected from the power supply and when the recording session is completed see S 3 3 2 16 Power amp Energy Logger Model PEL 102 and PEL 103 3 3 Turning the Instrument ON OFF o 3 3 1 Turning the PEL ON To turn the PEL ON Connect the PEL to a power outlet with the AC power cord and the PEL will turn ON automatically If it does not press the ON OFF button for gt 2 seconds The GREEN LED under the ON OFF button turns ON when the PEL is connected to a live supply source NOTE The batteries automatically begin recharging when the PEL is connected to a live power outlet Battery life is limited to approximately 1 2 hour when the battery is completely charged This enables ride through during brief power outages and power shutdowns 3 3 2 Turning the PEL OFF The PEL will not turn OFF as long as it is connected to a power supply source and if a recording is ON NOTE This is done as a precaution to ensure that the PEL is not ac
32. method is based on 3 wattmeters method with neutral 3 Phase 4 Wire Y 3P AWY Voltage measurements are performed between L1 L2 and L3 Current measurements are performed on L1 L2 and L3 conductors Neutral current is calculated iN i1 i2 i3 Power measurement is based on single phase wattmeter method Voltage measurements are performed between L1 and N S Wi Current measurements are performed on L1 conductor Seet er Sem V1 V2 V3 U23 U31 U12 V1 x x8 In I2 3 Power amp Energy Logger Model PEL 102 and PEL 103 see 3 6 2 see 3 6 3 1 see 3 6 3 3 see 3 6 3 5 see 3 6 3 2 see 3 6 3 4 see 3 6 3 6 see 3 6 3 7 see 3 6 4 1 see 3 6 4 2 91 This method is named 2 element method Power measurement method is based on 3 wattmeters method with virtual neutral l Voltage measurements are performed between L1 L3 and N 3 Phase 4 Wire Y 212 3P 4WY2 l see 3 6 4 3 V2 is calculated v2 v1 v3 u12 2 v1 v3 u23 v1 2 v3 It supposes that V2 is balanced Current measurements are performed on L1 L2 and L3 conductors Neutral current is calculated iN i1 i2 i3 Power measurement method is based on 3 wattmeters method with 3 Phase 4 Wire A 3P 4WA neutral but no power information for each phase is available see 3 6 5 1 Voltage measurements are performed between L1 L2 and L3 l Current measurements are performed on L1 L2 and L3 conductors 3 Phase
33. minute integration or aggregation periods are displayed sequentially in screens showing all phases Table 2 shows the readings per network type m The down arrow V scrolls downward and the up arrow A scrolls upward through the displays m Each display is reached by pressing the down arrow V Energies are measured from the beginning of the recording session Partial energies are the energies measured for a defined period see 4 4 5 m Partial Energy is reached by pressing the button for 2 sec m To reenter the Energy setting simply push the down arrow V Definitions P Total Active Energy Imported used by load in kWh P Total Active Energy Exported to source in kWh q1 Active Energy Imported by load in Inductive Quadrant Quadrant 1 in kvarh q2 Active Energy Exported to source in Capacitive Quadrant Quadrant 2 in kvarh q3 Active Energy Exported to source in Inductive Quadrant Quadrant 3 in kvarh q4 Active Energy Imported by load in Capacitive Quadrant Quadrant 4 in kvarh S Total Apparent Energy Imported by load in kKVAh S Total Apparent Energy Exported to source in kVAh Typically industrial users will focus on the following values The other values are used for load analysis and utilities m kWh Ep which is the traditional load Active Energy m kvarh Eq1 which is the traditional load Reactive Energy m kVAh Es which is the traditional load Apparent Energy Step Display AC AC DO
34. notify your distributor at once giving a detailed description of any damage Save the damaged packing container to substantiate your claim 1 2 Ordering Information Power amp Energy Logger Model PEL 102 no LCD w 3 MA193 10 BK sensors n nnnannnannnnnnoennnnnnnnennnnennee Cat 2137 51 Power amp Energy Logger Model PEL 103 with LCD w 3 MA193 10 BK sensorgl Cat 2137 52 Power amp Energy Logger Model PEL 102 no LCD no sensors enne nnns Cat 2137 61 Power amp Energy Logger Model PEL 103 with LCD nosensorsl nnns Cat 2137 62 Shipping Contents MODEL PEL 102 4 Black Test Leads and Alligator Clips Cat 2137 76 1 of the following Power Energy Logger Model PEL 102 Power Energy Logger Model PEL 103 Cat 2137 51 or Cat 2137 52 XE an xc ix De ne 1 Small Classic Tool Bag Cat 2133 72 Also Included 1 1 1 1 1 1 1 Safety Sheet for the PEL Safety Sheet for the MiniFlex Sensors Compliance Sheet 2 GB SD Card Quick Start User Guide 4 GB USB Stick with User Manual amp DataView Software Battery NiMH AAA 8 4V Cat 2137 75 Oe ce ce 12 Color coded ID Markers Cat 2140 45 1 Multifix mounting system Cat 5000 44 1 Power Cord 5 ft 115V Cat 5000 14 3 MiniFlex MA193 10 BK Cat 2140 48 included only with the purchase of Cat 2137 51 or Cat 2137 52 1 USB SD Card Adapter Cat 5000 45 1 5 ft USB Cable Cat 2140 46 Power amp Ener
35. of Alligator Clips Black UL and a Set of 12 Color coded Input ID Markers ennemis nnne nnns Cat 2137 76 Set of 12 Color coded Input ID Markers AE Cat 2140 45 JSB Cable A B S 1SM INR DU T ME Cat 2140 46 mea COST a NE uci EE Cat 5000 14 MultiFix universal mounting system EE Cat 5000 44 VSB SD card cols e E Cat 5000 45 DataView Software Updates are Available at www aemc com PEL Android App Available on the Google Play Store at https play google com store apps details id com aemc pel amp hl en Power amp Energy Logger Model PEL 102 and PEL 103 2 1 2 PRODUCT FEATURES Description PEL Power and Energy Logger The PEL 102 and PEL 103 are simple to use single dual split phase and three phase Y power and energy loggers The PEL offers all the necessary functions for Power Energy data logging for most of the 50Hz 60Hz and 400Hz and DC distribution systems worldwide offering numerous distribution set ups The PEL is designed to work in 1000V CAT III and 600V CAT IV environments The PEL is compact in size and fits in many distribution panels The PEL provides the following measurements or calculations Direct voltage measurements up to 1000V CAT III and 600V CAT IV AC current measurements from 200mA up to 10 000A with MA193 external current sensors Power measurements VA W and var Energy measurements VAh Wh source load and varh 4 quadrants Power Factor PF Cos o and Tan Cr
36. opening device to open the Flexible coil Then place it around the conductor through which the current to be measured flows only one conductor in the sensor m Close the coil In order to optimize measurement quality it is best to center the conductor in the coil and make the shape of the coil as circular as possible m To disconnect the coil open it and withdraw it from the conductor Then disconnect the sensor from the instrument MiniFlex MA193 Nominal Range 100 400 2000 10 000AAc 200mA to 3000AAc Sensor Length 10 250 mm 9 2 75 70 mm Variation of the position of the conductor in the sensor EE conductor carrying lt 1 for a conductor in contact with sensor and lt 2 near the snap device alternating current EN 61010 2 032 Pollution Degree 2 600V CAT IV 1000V CAT III Table 17 NOTE Currents lt 0 05 of the nominal range 100 400 2000 or 10 0004 will be displayed as zero The nominal ranges are reduced to 50 200 1000 5000A4c at 400Hz MiniFlex will operate when 10 0004 is selected lt 1 5 typical 2 5 max 5 2 4 4 Other Current Sensors The measurement ranges are those of the sensors In some cases they may differ from the ranges that can be measured by the PEL For use see the manual distributed with the current sensor NOTE Power calculations will be zeroed when the current is zeroed Model MR193 Nominal Range 1000AAc 1400ADC max 10 to 1000AaC 10 to 1300APEAK AC DC Maximum Clamp
37. power measure ments and other phase sensitive measurements 3 6 3 2 3 Phase 3 Wire with 3 current sensors For 3 Phase 3 Wire A measurements using three current sensors Connect the terminal V1 test lead to the L1 phase conductor Connect the terminal V2 test lead to the L2 phase conductor Connect the terminal V3 test lead to the L3 phase conductor Connect the terminal 11 current probe to the LI phase conductor Connect the terminal D current probe to the L2 phase conductor Connect the terminal I3 current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensitive measurements Power amp Energy Logger Model PEL 102 and PEL 103 L1 L2 L3 V1 V2 V3 NAN l2 I3 Figure 14 Figure 15 23 3 6 3 3 3 Phase 3 Wire Open A with 2 current sensors For 3 Phase 3 Wire Open A measurements using two current CS a Sensors KE e m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase Vi V2 V3 NAH 2 B conductor m Connect the terminal I3 current probe to the L3 phase Figure 16 conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for po
38. the secondary current of the CT for the specified Primary current The Primary Power amp Energy Logger Model PEL 102 and PEL 103 63 and Secondary values establish a ratio used by the instrument when the probe is connected to the instrument m 5A Adapter Box Anexternal CT is used Check box that enables or disables a ratio for this probe When enabled the following options can be specified Primary Indicates the primary current of the CT Secondary Indicates the secondary current of the CT for the specified Primary current The Primary and Secondary values establish a ratio used by the instrument when the probe is connected to the instrument m Current Sensor with BNC Adapter Nominal current Indicates the current to be associated with the output voltage Output voltage Voltage that is applied to the BNC connector of the adapter for the specified Nominal current WARNING The potential of the internal conductors of the BNC adapter is held at the potential of the neutral termi nal of the PEL If the neutral terminal is accidentally connected to a phase voltage the current sensor connected to the PEL via the BNC adapter can be held at the phase voltage To prevent electric shocks or short circuit hazards always use current probes fully complying with IEC 61010 2 032 CurrentSensor LI Lnominal TI CT ratio Defaultdetection thresholds ILOW hams 000 Pe C ien
39. used Text detailing the usage of the SD Card in the instrument Power amp Energy Logger Model PEL 102 and PEL 103 4 4 6 Meters Tab Options The Meters tab of the Configure Instrument dialog box specifies which of the instruments total accumulation meters are to be reset when the configuration is written to the instrument Configure Instrument Duration meters Reset total and partial energy meters E Reset duration of power on Reset duration of voltage presence E Reset duration of current presence The selected meters will be reset when the OK button is selected Partial Energy Meters Integration period The partial energy meters are reset at the end of the selected period They also start accumulating on calendar transitions Total Energy Meters C Reset total energy meters at the start of each new session Figure 59 Duration meters Reset total and partial energy meters When checked causes the total energy meters in the instrument to be reset Reset duration of power on When checked causes the power on meter in the instrument to be reset Reset duration of voltage presence When checked resets the voltage presence meter Reset duration of current presence When checked resets the current presence meter Energy metering period Drop down list containing periods for the instrument energy meters Partial Energy Meters m Drop down list that allows the selection of intervals to be used by the instru
40. with Bluetooth capability Some computers are supplied with this capability while others will need to have an external Bluetooth adapter The pairing procedure varies depending on your operating system Bluetooth equipment and driver software The default pairing code is 0000 if needed The pairing code cannot be modified through the PEL Control Panel DataView software i NOTE The information in the following section is only necessary the first time an instrument is connected 3 5 6 1 Pairing using Windows Vista Windows 7 The following example uses the Windows Vista amp 7 operating system procedure The pairing procedure for older versions of Windows may vary 1 First make sure Bluetooth is enabled on the instrument see S 4 4 2 Connect the USB adapter to the PC 3 A Bluetooth symbol similar to this D will appear in the taskbar bottom right side of your computer screen once the driver is installed 4 Double click on the icon and select Add a Device 5 Inthe Add a Device window select the PEL model you wish to connect to and select Next Select a device to add to this computer Windows will continue to look for new devices and display them here g NPIF90480 HP LaserJet P2055dn Sen PEL103 143886KGH Web Services Bluetooth Printer Other What if Windows doesn t find my device Figure 10 i NOTE Depending on the Bluetooth setup and operating systems it may be necessary to enter a pas
41. 240AAc max I gt 200A not permanent 0 8 20mm Adjacent conductor carrying 45mA A alternating current B EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT II Table 21 NOTE Currents 0 1A will be displayed as zero Model MN193 Nominal Range 5A and 100AAc 5A 0 005 to 6AAC max 100A 0 1 to 120AAC max Maximum Clamping Diameter 0 8 20mm Variation of the position of the lt 0 596 at 50 60Hz conductor in the sensor Adjacent conductor carrying lt 4B5mA A at 50 60Hz alternating current 7 EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT II Table 22 The 5A range of the MN193 is designed to work with secondary current transformers NOTE Currents lt 2 5mA x ratio on the 5A range and lt 0 05A on the 100A range will be displayed as zero with this probe Measurement Range Model SL261 Nominal Range 10A and 100AAC DC 100mV A 100mA to 10A peak 10mV A 1 to 100A peak 1000mV peak max 0 46 11 8mm Variation of the position of the 0 596 conductor in the sensor Adjacent conductor carrying 33 dB typical DC to 1 kHz alternating current EN 61010 2 032 Pollution Degree 2 600V CAT III Table 23 80 Power amp Energy Logger Model PEL 102 and PEL 103 Model J93 Nominal Range 3500AAc and 5000ADC 50 to 3500AAC 50 to 5000ADpC Maximum Clamping Diameter 2 83 72 mm Measurement Range Variation of the position of the conductor in the sensor Adjacent conductor
42. 256 x 125 x 37mm Weight 1 kg Drop Test 1 m in the most severe position without permanent mechanical damage and functional deterioration Degrees of Protection Provided by enclosure IP code according to IEC 60529 IP 54 instrument not connected de energized not including the terminals IP20 instrument connected operating 5 6 Environmental Specifications Altitude Operating O to 2000 m 6560 ft Non Operating O to 10000 m 32800 ft Temperature and RH H R 96 TPC 1 Range of reference 1 2 3 Storage range with batteries 1 2 Operating range 71 2 3 4 Storage range without batteries 5 7 Safety Specifications Electrical Safety OI CE The instrument complies with IEC 61010 1 and IEC 61010 2 030 for the following m Measurement inputs and enclosure 600V CAT IV 1000V CAT Ill pollution degree 2 m Power supply 300V overvoltage category Il pollution degree 2 2 Conforms to UL Std UL 61010 1 S Ch us Conforms to UL Std UL 61010 2 030 Lire Cert to CAN CSA Std C22 2 No 61010 1 12 Intertek Cert to CSA Std C22 2 61010 2 030 For current sensors see 5 2 4 4 The current sensors comply with IEC 61010 2 032 The test leads and alligator clips comply with IEC 61010 031 5 8 Electromagnetic Compatibility m Emissions and immunity in an industrial setting compliant with IEC 61326 1 with an influence of 0 5 typical of the full scale Specifications are subject to change without notice 84 Power a
43. 3 Figure 69 These data tables which can require several pages to display depend on the current distribution system Different data appears for different distribution systems the above example shows the first page of real time data for a 3 phase 4 wire system You can also set parameters to schedule a recording session and specify what data will be recorded This can be a record ing that starts immediately or at a future date and time You can also choose which data to record Recorded data is stored on the PEL instrument where it can subsequently be downloaded to a PC and analyzed in detail using DataView In addition you can view and or set configuration variables on the PEL instrument The PEL Android app enables you to review the current configuration settings on your PEL and change these settings as required You can change the type of distribution system being measured voltage ratios nominal frequency current sensors options communication related settings and other information related to the instrument and its operation The app is provided with a complete online Help system which can be viewed independently at http www pel100 us help es index html Consult this Help system for a complete description of the PEL app and all its capabilities Power amp Energy Logger Model PEL 102 and PEL 103 73 5 SPECIFICATIONS 5 1 Reference Conditions 100 to 1000Vrms without DC 0 5 Input voltage of current inputs 50mvV to
44. 3 are used for time values EEN Abbreviation Comments net duit System Diagram j Voltage measurements are performed between L1 and N gp 1P 2W i see 3 6 1 1 Phase 2 Wire Current measurements are performed on L1 conductor Voltage measurements are performed between L1 L2 and N Split phase 1 Phase 3 Wire Current measurements are performed on L1 and L2 Ee conductors Neutral current is calculated iN i1 i2 3 Phase 3 Wire A Power measurement method is based on 3 wattmeters method with 3P 3WA2 2 current sensors virtual neutral aPhases Wire Voltage measurements are performed between L1 L2 and L3 Open A 3P 3WO2 Current measurements are performed on L1 and L3 conductors 2 current sensors I2 current is calculated no current sensor connected on L2 3 Phase 3 Wire Y roseis 2 current sensors f Neutral is not available for current and voltage measurement 3 Phase 3 Wire A 3P 3WA3 Power measurement method is based on 3 wattmeters method with virtual neutral Geen SH 3P 3WOS Voltage measurements are performed between L1 L2 and L3 Current measurements are performed on L1 L2 and L3 conductors 3 Phase 3 Wire Y 3P 3WY3 Neutral is not available for current and voltage measurement Power measurement is based on 1 wattmeter method Voltage measurements are performed between L1 and L2 ins SZ e 3P 3WAB Current measurements are performed on L3 conductor U23 U31 U12 l1 I2 3 Power measurement
45. 60 603 749 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 800 343 1391 e 508 698 2115 Fax 508 698 2118 E mail techsupportGaemc com LIMITED WARRANTY The Model PEL 102 amp 103 are 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 pur chased 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 AEM
46. C Instruments will at its option repair or replace the faulty material 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 shipping container Return the instrument postage or shipment pre paid to Ship To Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive e 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 CJ AEMC INSTRUMENTS 99 MAN 100412 v13 04 15 Chauvin Arnoux Inc d b a AEMC Instruments 15 Faraday Drive e Dover NH 03820 USA e Phone 603 749 6434 Fax 603 742 2346 www aemc com
47. Cancel to exit the wizard InstallShield lt Back install Figure 36 Cancel 10 If the instrument selected for installation requires the use of a USB port a warning box similar to below will appear 46 Click OK Power amp Energy Logger Model PEL 102 and PEL 103 3 am Re en ae re bat Ee E Do not connect the AEMC USB Instrument or cable until after the installation of the drivers and the DataView software has finished If the AEMC USB Instrument or cable is connected to the computer now then disconnect it from the computer before proceeding Figure 37 The installation of the drivers may take a few moments Windows may even indicate that it is not responding how ever it is running Please wait for it to finish 11 When the drivers are finished installing the Installation Successful dialog box will appear Click on OK 12 Next the Installation Wizard Complete window will appear Click on Finish avi InstallShield Wizard Complete The InstallShield Wizard has successfully installed DataView Click Finish to exit the wizard InstallShield Figure 38 13 A Question dialog box appears next Click Yes to read the procedure for connecting the instrument to the USB port on the computer D The Set up window remains open You may now select another option to download e g Adobe Reader or close the window 14 If necessary restart your computer Shortcuts for D
48. ER PEL 102 M POWER ENERGY LOGG PEL 103 BUS do MODEL PEL 102 AEMC MODEL PEL 103 Sm TEE POWER amp ENE ON OFF T W POWER amp ENERGy LOGGER mer START STop REC4 4 352 7 0p S Tv AEMC INSTRUMENTS User Manual ENGLISH 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 e 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 con tained 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 user of the documentation h
49. File Edit View Tools Help E File Edit View Instrument Tools Help eb eme ex E Ka Workstation Hecorded Sessions CB PEL Network Se Add an Instrument E a Workstation Se R Inst t Folder Session name Se EE emove an instrumen GP PEL103 143887KGH P A855 gege Ses00001 Session 1 ELI pr nS 6 dadia occus Ses00002 AQ Ri B Reconnect Instrument BB My Oper ri Figure 65 Configure KON Set Clock D e Start Recording e Delete a Session B Status Figure 64 NOTE You can also double click on a recording to download it Power amp Energy Logger Model PEL 102 and PEL 103 69 This opens the Download dialog box and begins the transfer of recorded data to the computer PEL name PEL 103 143887KGH PEL103 143888KGH PEL 103 143888KGH PEL 103 14388 KGH Test Record S amp 500004 54704 S amp 500001 55106 SesQ0002 34260 SesQ0006 4333342 Test Record Note that downloading is suspended while viewing instrument status and real time data Figure 66 m You can hide the Download dialog box by selecting the Close button This does not stop the download but simply hides the Download dialog box so you can continue to use the PEL Control Panel m The Clear All button clears the list terminating the download of any downloads in progress It does not delete them from the instrument or the cache but simply removes them from the download list m You can pause the download of a session by selecti
50. H1 is the value of fundamental THD is calculated as 96 of fundamental IH1 is the value of fundamental Table 28 Aggregated quantities are calculated for a defined period according to the following formulas based on 50 60 cycles Aggregation can be averaging or quadratic averaging or other methods Line to neutral voltage V RMS Voltage crest factor CF Current crest factor CF Frequency F Active Power on source P Active Power on load P Reactive Power on source Q Power amp Energy Logger Model PEL 102 and PEL 103 oXM V agg ES x 2 V 200ms 1 N 1 U agg dan A H aos lls x 0 ab 12 23 or 31 L agg Jc 2 Is x 0 o I agg ES x Dies 200ms 1 A CF agg nd Cfi 1 i A CF agg x CF l 1 N 1 Fla x F fis agg m H ls 1 N 1 Ps agg A Poel x 0 1 MO Psi lagg N A S Poel x 0 A Os agg N x H Os Ls 89 NOTE N is the number of 1 second values for the considered aggregation period 1 2 3 4 5 6 10 12 15 20 30 or 60 min 90 Reactive Power on load Q Apparent Power S Power Factor on source PF with associated quadrant Active Power on load P Reactive Power on source Q Reactive Power on load Q Apparent Power S Power Factor on source PF with associated quadrant Power Factor on load PF with associated quadrant Cos q on source with associated quadrant
51. Inom Current I without current sensor 5 to 12096 Inom 0 296 0 0296 Inom PF 1 V 100 to 1000V 0 596 0 00596 Pnom 5 to 12096 Inom 0 5 inductive 0 8 capacitive V 100 to 1000V 0 796 x 0 00796 Pnom 5 to 12096 Inom SEN V 100 to 1000V 196 x 0 0196 Qnom 5 to 12096 Inom Sin 0 5 inductive 0 5 capacitive V 100 to 1000V 196 0 01596 Qnom 5 to 120 Inom Sin 0 5 inductive 0 5 capacitive V 100 to 1000V 1 596 0 01596 Qnom 5 to 120 Inom Sin 0 25 inductive 0 25 capacitive V 100 to 1000V 3 5 0 00396 Qnom 5 to 120 Inom Apparent power S ur Ee x 0 596 x 0 00596 Snom 0 5 inductive 0 5 capacitive V 100 to 1000V 5 to 120 Inom 0 2 inductive 0 2 capacitive V 100 to 1000V 5 to 120 Inom Tan V3 inductive V3 capacitive V 100 to 1000V 5 to 120 Inom Tan 3 2 inductive 3 2 capacitive V 100 to 1000V 5 to 120 Inom PF 1 V 100 to 1000V 5 to 120 Inom 0 5 inductive 0 8 capacitive V 100 to 1000V 5 to 120 Inom Active power P Reactive power Q 0 05 Power factor PF 0 02 0 05 0 5 Active energy Ep 0 6 o Power amp Energy Logger Model PEL 102 and PEL 103 75 Quantity Measurement Range Intrinsic Uncertainty Sin qo 1 V 100 to 1000V 2 5 to 120 Inom Sin 0 5 inductive 0 5 capacitive
52. L yae Lsisglsglsl yane e e ej ej We LL ej ej ej ej Yawe le eje e e oje vae ej e e e e eje uge eje e e ejej a e e o e oj e ojoj imde e e e e ev wase e e e e j oleje Table 31 N 1 Extrapolated 2 Calculated 3 Not a significant value 4 Always 0 5 Calculated 6 Rank 7 for 400Hz A 7 GLOSSARY OF TERMS EE EC s AGempoenoy occomponent ony OOS eo Begee 0000 Symbol or Terminology Description O Crest factor Peak Factor in current or voltage ratio of the peak value of a signal to the RMS value Cos Cosine of the phase shift of the fundamental voltage with respect to the fundamental current g O DC component current or voltage Abbreviation for active energy Abbreviation for reactive energy Abbreviation for apparent energy Frequency Fundamental Component Number of full voltage or current cycles in one second Component at the fundamental frequency In electrical systems voltages and currents at frequencies that are multiples of the fundamental frequency Frequency of network studied Abbreviation for current LCE I THD Crest peak factor of current Total harmonic distortion of current Current value or percentage for harmonic rank n Line Maximu
53. L D NOTE AC DC values could be calculated after download using the DataView software A 1 2 4 Measurement of Neutral Current For the PEL 102 and PEL 103 according to the distribution system neutral current is calculated A 1 2 5 1 second Quantities The instrument calculates the following quantities every second according to A 2 1 second quantities are used for m Real time values m 1 second trends m Aggregation of values for aggregated trends see S A 1 2 6 m Min and max determination for aggregated trends All 1 second quantities are saved on the SD Card during the recording time A 1 2 6 Aggregation An aggregated quantity is a value calculated for a defined period according to the formulas specified in Table 29 Aggregation periods always start on rounded hours minutes Aggregation period is the same for all quantities The period is one of the following 1 2 3 4 5 6 10 12 15 20 30 and 60mn All aggregated quantities are saved on the SD Card during the recording session They can be displayed in the PEL Con trol Panel see S 4 3 A 1 2 7 Max Max represents the maximum values of the 1 second quantities for the considered aggregation period They are saved with the date and time of the Max see Table 28 for the available values Power amp Energy Logger Model PEL 102 and PEL 103 87 A 1 2 8 Energy Calculations Energies are calculated every second The Total
54. Off button 6 Nine LEDs for status information see S 2 11 7 Anti theft Kensington Security Slot see S 2 8 8 Connections for USB Ethernet SD memory card and terminal cover caps 9 Standard IEC C7 figure 8 terminal non polarized power connector for 110 250VAC power source Power amp Energy Logger Model PEL 102 and PEL 103 2 3 Back Panel Features Figure 2 n Four magnets molded into the rubber casing 2 Six recessed Torx screws for factory service use only 3 Keyhole for attaching the MultiFix multi purpose mounting clip see S 2 7 2 4 Lead Inputs Figure 3 m e e are the color coded ID marker insertion locations for the current or voltage inputs 2 Voltage input connectors safety banana plug inputs 3 Current sensor input connectors 10 Power amp Energy Logger Model PEL 102 and PEL 103 For multiple phase measurements start by marking the accessories using the color coded ID markers supplied with the device a different color for each current terminal Connect the measuring leads to your PEL as follows m Current measurement l1 l2 I3 4 point connectors m Voltage measurement V1 V2 V3 and N terminals The measuring leads must be connected to the circuit to be monitored according to the selected hook up diagram Do not forget to define the voltage and current transformer s ratios when necessary 2 5 Installation of the Color coded ID Markers o Refer to the current sensor s s
55. PEL Figure 46 In the Address field specify the IP address assigned to the PEL For the PEL103 select the Info icon el on the LCD and use the g button to scroll down to the IP Addr display screen see S 3 7 5 For the PEL102 a USB or Bluetooth connection will need to be established to determine the IP address assigned to the instrument In the Port field specify the port that the PEL is configured to By default the PEL uses port 3041 UDP However the PEL can be configured to use a different port The only way to identify the port the PEL is using is to first communicate with it So if the port has been changed from that of the default use a USB or Bluetooth connection to identify the port used by the PEL NOTE If you do not know the IP Address and the PEL is located on the same network subnet as the computer use the Search button located to the right of the Address field to locate the PEL The search operation if successful will identify the IP address and port used by all the PEL instruments connected on the subnet Once the IP address and port have been specified click the Next button If a successful connection was established the Finish button will be enabled Click Finish to exit the Wizard see Figure 44 The instrument will then be added to the PEL Network until it is removed see S 4 3 4 Power amp Energy Logger Model PEL 102 and PEL 103 4 2 4 Bluetooth Connection i NOTE Bluetooth must b
56. WY2 2 current sensors 3 Phase 3 Wire A 3P 3WAS3 3 Phase 3 Wire Open A 3P 3WOS3 Yes 3 Phase 3 Wire Y 3P 3WY3 3 Phase 3 Wire 3P 3WAB Ves balanced 3 Phase 4 Wire Y 3P AWYB ves balanced 3 Phase 4 Wire Y 21 7 3P 4WY2 3 Phase 4 Wire 3P 4WA 3 Phase 4 Wire Open A 3P AWOA I1 V1 11 V1 I I1 U12 I1 U12 I2 V2 0 60 for load I2 V2 180 60 for source I3 U31 30 60 for load I3 U31 210 60 for source No I2 current sensor I3 U31 30 60 for load I3 U31 210 60 for source I3 U12 90 60 for load I3 U12 270 60 for source I3 V3 0 60 for load I3 V3 180 60 for source 0 I3 V3 0 60 for load I3 V3 180 60 for source I3 U31 30 60 for load I3 U31 210 60 for source I1 V1 0 60 for load SC V1 180 60 for source r aw el Cu em el Dc 4r aw Ww Power amp Energy Logger Model PEL 102 and PEL 103 95 A 6 AG Quantities According to the Supply Systems YES 3P 3WA2 3P 3WA3 3P 3WO2 3P 3WO3 3P 3WAB 3P AWY
57. afety sheet or user manual before connecting it Twelve sets of color coded rings and inserts are supplied with your PEL instrument Use these ID markers to identify the leads and input terminals m 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 m Clip the rings of the same color to the ends of the lead you will be connecting to the terminal XE 32 WE D O D ken Figure 4 2 6 Connection Features Figure 5 n Power cord connection see 3 5 1 2 SD card slot See 3 5 3 Gi USB connector see S 3 5 4 4 Ethernet RJ 45 connector see 3 5 5 Power amp Energy Logger Model PEL 102 and PEL 103 11 2 7 Mounting and Location A NOTE Magnetic fields can damage hard drives and medical devices The PEL should be placed in a well ventilated room temperature not to exceed those specified in 5 6 The PEL 102 and PEL 103 can be mounted to a flat ferromagnetic vertical surface using the molded in magnets They can also be mounted to a flat vertical surface using the MultiFix multi purpose mounting accessory The MultiFix is equipped with a powerful magnet for ferromagnetic surfaces and a double joint articulated hinge for door top mounting hangs from the top of the doors or for handing on hooks Figure 6 2 8 Theft Security The PEL is equi
58. aptop or Netbook C7 power cable For replacement be sure to buy the non polarized cord Replacement power cords are also available from the factory The PEL can be supplied from nominal 110V to 250V accepts 10 50 60Hz to accommodate available supply voltages globally m When the instrument is powered by AC power the instrument is always ON m Applying AC power to the PEL turns the instrument ON if it was OFF and starts recharging the batteries automatically m When AC power is not present power supply OFF or disconnected from a power supply the instrument will run on battery power for approximately 30 minutes or less when Auto Power Off is enabled see below m he PEL has a built in Auto Power OFF which can be set to 3 to 15 min or disabled m When the battery level is too low and a Low Bat condition occurs the red LED MEL blinks twice per second the instrument will eventually turn OFF The PEL will start up again once it has been reconnected to a power supply m When the instrument is not powered by AC power it can be turned ON with the ON OFF button see S 3 3 1 18 Power amp Energy Logger Model PEL 102 and PEL 103 m When the instrument is not powered by AC power and no recording is pending or in progress it can be turned OFF with the ON OFF button see 3 3 2 3 5 2 Standby Mode and Display Brightness When the instrument is ON and there is no activity for a definite time period the LCD PEL 103 automatical
59. as 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 Power Energy Logger Model PEL 102 or PEL 103 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 CAUTION Risk of electric shock The voltage at the parts marked with this symbol may be dangerous Ethernet socket RJ45 Main power supply input Equipment is protected by double insulation Ground Earth USB socket Useful information or hint to read AN Magnetic fields can damage hard drives and SD Card medical devices Kensington anti theft system Important instructions to read and to fully understand Must not be applied to or removed from bare conductors carrying dangerous voltages Type B current sensor as per EN 61010 2 032 The product has been declared recyclable after analysis of its life cycle in accordance with the IS014040 standard The CE marking guarantees conformity with European directives and with regulations covering EMC The trash can with a line through it means that in the European Union the product must undergo selective disposal
60. ataView and each instrument control panel selected during Step 8 of the installation process have been added to your desktop You can now open the PEL Control Panel and connect your PEL to the computer Power amp Energy Logger Model PEL 102 and PEL 103 47 4 2 Connecting to a PEL To connect to a PEL perform the following steps 1 Connect the power cord to an AC outlet The instrument will power on 2 If you are connecting via USB connect the supplied USB cable to the PEL and the PC Wait for the drivers to finish installing before proceeding 3 Open the PEL Control Panel by double clicking the PEL icon H located on the desktop that was created during installation The Control Panel will be displayed B PEL Control Panel Untit File Edit View Instrument Tools Help Eka Workstation S PEL Network ER My Open Sessions For Help press F1 xt Figure 39 4 To connect to an instrument and open the Add an Instrument Wizard dialog box perform one of the following m From the Instrument menu ae m From the Toolbar click on the Add an Instrument icon select Add an Instrument rm conto Poe emt D File Edit View Tools Help B H gre e 7 ba Workstation Se Remove an Instrument File Edit View Instrument Tools Help Figure 41 BI B My Oper Disconnect an Instrument SS Reconnect Instrument X Configure Download Recorded Data Start Recording KON Set Clock e Delete a S
61. cal Intrinsic Uncertainty Voltage V V 100 to 1000V 1 3V Current I without current sensor 596 to 12096 Inom 196 x 0 396 Inom V 100 to 1000V S Power P 2 596 to 120 Inom 196 0 396 Pnom V 100 to 1000V Table 16 a nom is the value of the measured current for a current sensor output of 1 V See Table 26 for the nominal current values a Pnom is the power for V 1000V and I Inom m The intrinsic uncertainty for input current I is specified for an isolated input voltage of 1V Inom The intrinsic uncertainty of the connected current sensor should be added to this intrinsic uncertainty to determine the total intrinsic uncertainty In the case of using sensors AmpFlex and MiniFlex intrinsic uncertainty is given in Table 27 m The intrinsic uncertainty for neutral current is the maximum intrinsic uncertainty on 11 I2 and I3 a Indicative maximum value of the intrinsic uncertainty Higher uncertainties can be noted in particular with EMI Power amp Energy Logger Model PEL 102 and PEL 103 L I 5 2 3 4 Temperature For V U I P Q S FP and E m 300 ppm C with 5 lt lt 120 and PF 1 m 500 ppm C with 10 lt lt 120 and PF 0 5 inductive m Typical DC offset V 10mV C I 30 ppm x Inom C 5 2 3 5 Common Mode Rejection The common mode rejection ratio on neutral input is typically 140 dB For example 110V applied on the neutral input will add 11uV to AmpFlex MiniFlex
62. carrying alternating current Safety IEC 61010 2 032 pollution degree 2 600V CAT IV 1000V CAT III Table 24 x 296 35 dB typical DC to 2kHz 5A Adapter Box Essailec adapter A Number of transformer inputs 17 Table 25 Nominal Range SAAC 3 NOTE Currents lt 2 5mA will be displayed as zero 5 2 4 5 Accuracy The RMS current measurement accuracy and the phase accuracy correspond to addition values which must therefore be added to the instrument s accuracy indicated as influences on the calculations carried out by the instrument powers energies power factors tangents etc The following specifications are considered to be in the conditions of references of the current sensor Current sensors with 1V output at Inom specifications TTA Intrinsic Typical uncer Typical Current uncertainty uncertainty tainty uncertainty RMS or DC at 50 60 Hz on 9 on on at 50 60 Hz at 50 60 Hz at 400 Hz 1000Anpc 2 4 5 100A 200Aac Power amp Energy Logger Model PEL 102 and PEL 103 81 Intrinsic Intrinsic Typical uncer Typical Current uncertainty uncertainty tainty uncertainty RMS or DC at 50 60 Hz on on on Qo at 50 60 Hz at 50 60 Hz at 400 Hz 100AAc 5AAC 100A 4c bpc SL261 40 to 100A Low oom E LLL 5to250mA 0 596 2mA E SEN ao 510250mA i SAAdapter 6A 250MAto6A 0 5 1mA 50 to 250A 2 2 5A 250 to 500A 1 596 2 5A dono B00 to 3500A e to e
63. cidently turned OFF when recording and to ensure that the PEL turns on when the power supply is turned back on after an outage To turn the PEL OFF D Unplug the AC power supply outlet Press the ON OFF button for more than 2 seconds until all LEDs turn on Then release the ON OFF button All LEDs and the display will turn off as the PEL powers down If the PEL has supply power present it will not turn OFF If a recording is pending or in progress it will not turn OFF NOTE Pressing the ON OFF button when the instrument is powered and or recording or pending does not stop the instrument This is done to avoid any accidental or unintentional recording stoppage by the user You must first unplug the power cord from the supply outlet stop any recording session power down by pushing the ON OFF button for more than 2 seconds until all LEDs light up and then release the ON OFF button Power amp Energy Logger Model PEL 102 and PEL 103 17 3 4 Starting Stopping a Recording and Enabling Bluetooth Hecordings are stored only on the SD card To Start a Recording m Insert the SD card into the PEL m Use the Control button to start or stop a recording session and to enable or disable Bluetooth m Press the Control button for more than 2 seconds and hold it down m The green REC LED see 1 Figure 8 will light up for 3 seconds followed by the lighting of the blue Bluetooth LED see 2 Figure 8 for 3s one after another During the time
64. corded Sessions NaS va RO ar RL e es e Q Real time Data T E 5 My Open Sessions P 3P 4WOD Navigation Tree Channel Color Cursor MN Cursor AVG Cursor MAX Window MIN Window AVG Window MAX vi E 212 0 219 6 V 219 6 V 216 8 V 219 4V 220 9 V H 3P 3WY EI v2 EN 234 6 V 234 6 V 231 4V 234 3 V 235 7V E 3P 4wy _ v3 E 210 210V 210V 207 2 V 209 8 V 211 4V lex 1 min Summary v12 E 404 1V 404 1V 398 8 V 403 6 V 404 6 V Mme v23 1 389 1V 389 1V 383 7 V 388 5 V 389 5 V j v31 356 5 V 356 5 V 351 8 V 356 1V 356 9 V liti 1s Harmonics BB Session Totals Event Log Data Frame 3 12 2012 11 15 00 AM 1 min Div Status Bar For Help press FL Idle Figure 48 Using the PEL Control Panel m Title Bar Displays the name of the application and the path to the open data file if any Menu Bar Contains six drop down menus The top level names of these menus are File Edit View Instrument Tools and Help Each of the items in these drop down menus is associated with the menu top level name m Navigation Tree Operates much like Windows Explorer does when exploring the folders on your computer Selection of an entry in the Navigation Tree determines the information to be displayed in the data frame to the right m Status Bar Displays a single line of help information to the left and instrument connection status to the right The Menu Bar at the top of the window
65. cted towards the load This ensures proper phase angle for power measurements and other phase sensitive measurements Vi V2 V3 NAN l2 Figure 12 3 6 2 Single Phase 3 Wire Split Phase from a center tap transformer For Single Phase 3 Wire Split Phase measurements m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal I1 current probe to the LI phase conductor m Connect the terminal I2 current probe to the L2 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensitive measurements 22 ptu gt Q N V V2 V NAH D Figure 13 Power amp Energy Logger Model PEL 102 and PEL 103 3 6 3 3 Phase 3 Wire Power Networks 3 6 3 1 3 Phase 3 Wire with 2 current sensors For 3 Phase 3 Wire A measurements using two current sensors Connect the terminal V1 test lead to the L1 phase conductor Connect the terminal V2 test lead to the L2 phase conductor Connect the terminal V3 test lead to the L3 phase conductor Connect the terminal 11 current probe to the LI phase conductor Connect the terminal I3 current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for
66. d SDHC cards that have been formatted to use the FAT32 file system and a maximum cluster size If the card is formatted with a file system other than FAT32 and or with a cluster size too small for the instrument to handle an error message will be displayed Formatting the card in the instrument will make sure that it is formatted with FAT32 and a maximum cluster size of the card 4 4 2 Communication Options The Communication tab of the Configure Instrument dialog box provides information about the various communication mediums supported by the instrument P Configure Instrument General Communication Measurement Recording Meters Bluetooth V Enable Bluetooth Pairing code 0000 Name azBuUEBEE ea 32 ASCII characters max Visibility Visible Invisible USB Name PEL103 143888KGH Network MAC address 00 0B 3C 36 04 5A V Enable DHCP IP address 169 254 0 100 Gateway address 169 254 0 1 Subnetmask 295 255 0 0 UDP port number 80 1to 65535 Bluetooth Network password Enable password protection Password 16 characters max This password will be required when configuring the instrument via Bluetooth and Ethernet network connections Figure 56 60 Power amp Energy Logger Model PEL 102 and PEL 103 Bluetooth Enable Bluetooth When checked enables the Bluetooth radio in the instrument m Pairing code Displays the pair
67. d in minutes 1 2 3 4 5 6 10 12 15 20 30 60 period Table 9 Power amp Energy Logger Model PEL 102 and PEL 103 41 4 PEL CONTROL PANEL DATAVIEW SOFTWARE i For contextual information on using DataView refer to the Help Menu within the software 4 1 Installing DataView o DO NOT CONNECT THE INSTRUMENT TO THE PC BEFORE INSTALLING THE SOFTWARE AND DRIVERS Minimum Computer Requirements Windows XP Windows Vista amp Windows 7 8 32 64 bit 2 GB to 4 GB of RAM 10 GB of free hard disk space USB port DataView is a registered trademark of Chauvin Arnoux Inc Windows is a registered trademark of Microsoft Corporation in the United States and other countries 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 A Install Js PDFXChange Je Reset IDs di use J USB FT232 DATAVIEW L F Usb 4 A User Manuals o AUTORUN IMF General options o DocsEN im Open folder to view files o DeesFR ini using Windows Explorer o DocsSP ini Ee Setup exe Speed up my system g Setup ini o Upgrades ini WI Kiwi o UpgradesES ini o UpgradesFR ini Figure 29 i 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 3 In the AutoPlay window select Open folder to view file
68. e 4 7 1 Specifying the Default Report Template iccsieiccicissccesnsteceustencaressaveiiunniianiadatecusnndsasmudiontueeddancduanecuueeetesexeunain 72 4 8 Power amp Energy Logger PEL Android APD EE 72 3 REECE C ONdo ee E 74 SP ME BLECHA 9 ee te EE 74 Sal Vage IMPUS E 74 UIST MO PICS IER m 74 5 2 3 Accuracy Specifications excluding current sensors ccssccccssceceeeeceececeuceceuseceuseseuseesueeeceeeesaueesageesaneess 5 5 2 3 1 ee iere i180 gr 75 5 2 3 2 ele re eg E 77 529 9 SCI rte in O DG N tates T E MI e cce cT TT I LE 78 5 2 3 5 Common Mode Rejection ceacresdeoswncctsneseuveossinensavesunedsdeatsedasatwaseueessinadvesvsduannteardedanivensmecisideesaaveddaveosusles 78 5 2 3 6 Magnetic Field le TE Le 78 ms ele Enn e 78 Det PRS CAUTIONS TOP EE 78 52A oleae Le gre gs et e 78 52439 Nie E LE 79 ss MEG E EE 79 E E ele 81 34 POW UPPI seepi ER 83 59 Mechanical S pECHCAONS EE 84 50 Environmental 5S IMC ANON S supapienidu bon iesire Ei eer E n eie E ae dud teur Dia EEEa ESen Trien irises 84 De ISL OSC NCA OMS EE 84 5 8 Electromagnetic C ompatbilly ER 84 MET DM 85 ee OCG AL OM E 85 Co CEN EE 85 Al GT unn NR M 86 Pe Nah MSTA e BEEN 86 PeeWee eM
69. e counter clockwise A 1 2 Sampling A 1 2 1 Sampling Period Depends on main frequency 50Hz 60Hz or 400Hz Sampling period is calculated every second m Main frequency f 50Hz Inside 42 5 to 57 5Hz 50Hz 15 sampling period is locked to main frequency 128 samples are available for each main cycle Outside 42 5 to 57 5Hz sampling period is 128 50Hz m Main frequency f 60Hz Inside 51 to 69Hz 60Hz 15 sampling period is locked to main frequency 128 samples are available for each main cycle Outside 51 to 69Hz sampling period is 128 60Hz 86 Power amp Energy Logger Model PEL 102 and PEL 103 m Main frequency f 400Hz Inside 340 to 460Hz 400Hz 15 sampling period is locked to main frequency 16 samples are available for each main cycle Outside 340 to 460Hz sampling period is 16 400Hz DC is not a frequency parameter for sampling A pure DC measured signal is considered to be outside the frequency ranges Then the sampling frequency is according to the preselected main frequency 6 4kHz 50 400Hz or 7 68kHz 60HZ A 1 2 2 Locking of Sampling Frequency m By default sampling frequency is locked on V1 m f V1 is missing sampling frequency tries to lock to V2 then V3 11 I2 and I3 A 1 2 3 AC DC The PEL performs AC and DC measurements for alternative current and or direct current distribution systems Selection of AC or DC is done by the user AC DC values are not available with PE
70. e enabled see 84 4 2 and turned on before a Bluetooth connection can be established Add an Instrument Wizard Bluetooth 7 Select the desired instrument from the drop down list Instrument SH Make sure that your instrument is paired with this computer and powered on Make sure that the Bluetooth radio is ON on your PC and on the instrument The Bluetooth connection between the PC and the instrument must have been paired previously using the Bluetooth Devices control panel If the instrument name does not appear in the list you can try to use the COM port name it is associated with Select the outgoing COM port if necessary Figure 47 m From the Instrument drop down list select the desired instrument then click the Next button m If a successful connection was established the Finish button will be enabled Click Finish to exit the Wizard see Figure 44 m The instrument will then be added to the PEL Network until it is removed see S 4 3 4 NOTE If the PEL cannot be identified and does not appear in the drop down list the communications port with which the PEL Bluetooth connection is associated will need to be selected To identify the associated communications port m Open the Bluetooth Devices dialog box This dialog box can be displayed by double clicking on the Bluetooth icon located on the bottom right side of your computer screen in the taskbar m Double click the PEL entry the PEL properties
71. e previous screen you can then use A or V to continue navigating through the displays m To exit and move to a different display mode press lt or gt on the Navigation button i NOTE In some distribution systems and steps pressing Enter has no effect Power amp Energy Logger Model PEL 102 and PEL 103 31 Table 4 displays the LCD PEL 103 sequence for each type of hook up The displays on the left show an example of a 3 Phase 4 Wire network type The Step column shows which button to use to display the step either W to display a main step or to display a sub step 1a 2a and so on Ss 1 Phase 1 Phase 3 Phase 3 Phase3 Wire 4 Wi wi pire DC p 2 Wire aire 3 Wire 3 Wis 3 Wire Balanced gt Balanced 4 Wire P P DC It DC n Be DC I2 DC l2 I2 DC V V DC I3 I3 DC F IN IN IN IN 3 2 11 l2 11 5 I2 11 5 I2 11 I5 12 J 13 12 3 13 12 H 13 2 11 13 51 14 13 ANGLE ANGLE ANGLE ANGLE Vi V1 DC U12 U12 V1 Vi Vi V1 DC V2 V2 DC U23 U12 V2 j Vi V2 DC U12 U31 U12 V3 V3 Vi V3 DC j F J V2 V1 J U31 U 23 J V2 V1 U12 U31 V3 V2 R U23 U12 4 V1 V3 V1 V9 V ANGLE U ANGLE V ANGLE V ANGLE P P U12 oe U12 PDC Q Q U23 U23 U23 S S U3 U31 U31 lt lt PF gt gt PF PF PF E PF F F F aH V1 V I ANGLE E gi
72. e9 PF source e eye ej ejl nm source dej ole joj PF 9 ws e e e o e ec ojoj a e lee e 9 Rote e LL e e mm IL e fea eje e 9 tod e eje e oj ec ejoj es jeje eJje cse 1e wf ej el IL poses LL fm ew em cso Lslsglslslsieislsl coso n e e ej e ej eoj coso source e Lg gl ej ejl coso source Lg eleje j Cso n e o o e ojoj cose ta e e e ejeje j coso toad e Lg gl ej el coso tea fl ejoj coso toad e e e eo o ejoj ml o ej o o o o o o j mo Swe e e e ew o e e o mo toad e e e e o o o wo lt pele eieiei M amp doso 9 e eje e to 506 e 9 l leilejej e Power amp Energy Logger Model PEL 102 and PEL 103 97 3P 3WA2 3P 3WA3 SE 3P 3WO2 3P 3WO3 3P 3WAB 3P AWY 3P AWYB 3P 4wy2 DC 2W DC 3W DC 4W EEEE 3WY2 S 3WY 3P 4WOA Hi U e 9 E m E Hi U to 506 9 9 mew fe e ol e eol e mus ee ejej ol ejej m J e e eje e e e oj o q mon e e e e e e e 9 pmo e e ejej ol ejej pmo lee e e e ej I
73. ee S 4 2 3 Open the Configure Instrument dialog box by performing one of the following m From the Instrument menu DE m From the Toolbar click on the Add an Instrument icon select Configure File Edit View Instrument Tools Help File Edit View Instrument Tools Help e E es Elf Workstation Se Remove an Instrument Cl PEL Netw _ VW gt Disconnect an Instrument Se Add an Instrument L Figure 54 ds B Reconnect Instrument Download Recorded Data Set Clock A Start Recording Delete a Session Status Figure 53 The Configure Instrument dialog box consists of five tabs Each tab contains a specific set of options associated with the instrument to be configured i NOTE Configuration of an instrument cannot be performed while a recording is in progress If the instrument is re cording click on the Recording tab in the Configure Instrument dialog box then click the Stop Recording button 58 Power amp Energy Logger Model PEL 102 and PEL 103 4 4 1 General Options The General tab of the Configure Instrument dialog box provides information about the instrument Model and Serial number and allows other instrument configuration options Confiqure Instrument Instrument identification Model PEL 103 AEMC Serial number 143893KGH Name EL103 143893KGH Dover 32 characters max Location AEMC Dover 32 characters max Auto power off 3min Contrast LU C
74. elect any of the listed templates as the default You can remove the selection of a default template and be asked to select a template each time you create a report by clicking on the Reset button 4 8 Power amp Energy Logger PEL Android App Another way to connect to a PEL instrument is through the Power amp Energy Logger PEL Android app This app which can be downloaded free from the Google Play Store https play google com store apps details id com aemc pel amp hl en enables you to work with a PEL instrument from an Android mobile device Android is a platform for touch screen mobile devices such as tablets and smartphones Introduced in 2007 Android has grown to become the most popular mobile operating system in the world with over one billion devices sold globally The PEL app connects to the PEL via Bluetooth And if the PEL is connected to a LAN network you can also communicate with the instrument over Wi Fi The PEL app provides a substantial subset of the functionality provided by the PEL Control Panel For example you can view data currently being measured by the instrument in real time This includes the type of distribution system currently being measured and for AC systems the phasor diagram appropriate for this setup Real time data is organized in tables of related measurements for quick navigation and reference and updated continuously from the instrument 72 Power amp Energy Logger Model PEL 102 and PEL 10
75. ensors 38 Power amp Energy Logger Model PEL 102 and PEL 103 3 7 5 Information Display Values This screen is disabled if three minutes elapse with no activity on the Enter or Navigation buttons The display then returns to the Base Measurements screen lt lt HOOK UP gt gt Distribution System Type PT PRIM Primary VT PT SEC Secondary VT CT PRIM Primary CT AGG PERIOd Aggregation period lt lt IP Addr gt gt IP address lt lt Soft gt gt Software Version Serial Number 1P 2W 1P 3W 3P 3WA3 3P 3WA2 3P 3W02 3P 3W03 3P 3WAB 3P 3WY 3P 3WY2 3P AWY 3P AWYB 3P AWY2 3P AWA 3P 4WOA DC 2W DC 3W Power amp Energy Logger Model PEL 102 1 phase 2 wire 1 phase 3 wire 3 phase 3 wire A 3 current sensors 3 phase 3 wire A 2 current sensors 3 phase 3 wire Open A 2 current sensors 3 phase 3 wire Open A 3 current sensors 3 phase 3 wire A balanced 3 phase 3 wire Y 3 current sensors 3 phase 3 wire Y 2 current sensors 3 phase 4 wire Y 3 phase 4 wire Y balanced fixed voltage measurement 3 phase 4 wire Y 2 3 phase 4 wire A 3 phase 4 wire Open A DC 2 wire DC 3 wire DC 4 wire Displays the aggregation period in minutes 1 2 3 4 5 6 10 12 15 20 30 60 Displays the date time Scrolling IP address 1st number DSP firmware version 2nd number Microprocessor firmware version Scrolling serial number a label is also pasted i
76. ent which comply with IEC standard 61010 031 2002 When sensors or accessories having a lower voltage rating and or category are connected to the instrument the lower voltage and or category applies to the system so constituted m Before each use check that the leads enclosures and accessories are in perfect condition Any lead sensor or accessory on which the insulation is damaged even partially must be repaired or scrapped Do not use the instrument on networks for which the voltage or category exceeds those mentioned Do not use the instrument if it seems to be damaged incomplete or poorly closed Use only the AC power adapter and battery pack supplied by the manufacturer which include specific safety features When removing and replacing the battery and or the SD Card make sure that the device is disconnected and switched off We recommend using Personal Protection Equipment where required Keep your hands away from unused terminals If the instrument is wet dry it before connecting it All troubleshooting and metrological checks must be performed by authorized competent and accredited personnel with the instrument completely disconnected TABLE OF CONTENTS 1 1 due Receiving E de EE gea amm 6 lge dite le eu Eni e MN 6 SCREEN H T Meee ico isi M RI Ee EE 7 2 PRODUCT FEATURES nek EE KREE ER ERKEE KREE EER EE ER EK EE ER EER EE ER EER ER ER EEE KREE KREE ER KEE EE ER KEE KE nerven D
77. er amp Energy Logger Model PEL 102 and PEL 103 Nominal voltage and voltage ratio mg Set a Voltage Transformer Ratio When checked the following fields are enabled based on the selected distribution system Primary Indicates a level on the primary side of the isolation transformer Secondary Indicates a level on the secondary side of the isolation transformer The ratio between the specified primary and secondary will be used by the instrument for all related calculations Phase to phase and Phase to neutral Select either Phase to phase or Phase to neutral depending on the selected distribution system for each of the Primary and Secondary values Note that some systems only allow one option The PEL 103 LCD will display a phase to phase voltage for secondary voltage if primary voltage is phase to phase and a phase to neutral voltage for secondary voltage if primary voltage is phase to neutral i NOTE When no ratio is entered 1000V primary and secondary voltages are displayed on the PEL 103 LCD Voltage Transformer Ratios Parameter Rage increment Primary Voltage 50 to 650 000V Secondary Voltage 50 to 1000V Table 10 VLOW the value below which the line to neutral voltage is set to zero is 2V and is multiplied by V3 for phase to phase voltages Nominal frequency Specifies the default frequency of the distribution network Auto Instructs the instrument to automatically identify the nomina
78. ession eg B Status Figure 40 48 Power amp Energy Logger Model PEL 102 and PEL 103 4 2 1 Add an Instrument Wizard After choosing to Add an Instrument the first dialog box of the Add an Instrument Wizard will be displayed Add an Instrument Wizard You want to communicate with an instrument connected to this computer or on a network This Wizard helps you add an instrument to your PEL Network Select the option which describes the type of connection you want to use A local instrument connected to this computer with USB D An instrument connected to a network 5 A local instrument connected to this computer with Bluetooth You can connect your instrument with Ethernet through a local network Direct network connection is possible A cross over cable may be required Click on Mext to proceed Figure 42 1 Click on the radio button associated with the desired connection type m A local instrument connected to this computer with USB see S 4 2 2 m A distant instrument connected to a network see 4 2 3 m A local instrument connected to this computer with Bluetooth see S 4 2 4 i NOTE The following dialog boxes in this section correspond to the connection type chosen in Figure 42 Power amp Energy Logger Model PEL 102 and PEL 103 49 4 2 2 USB Connection The simplest and easiest connection to establish is a USB connection and is recommended when first learn ing how to use the PEL and PEL Contr
79. est Factor Total Harmonic Distortion THD for voltages and currents Harmonics from the fundamental signal up to the 50th order for 50 60Hz voltages and currents Frequency measurements RMS and DC measurements 128 samples cycle each phase simultaneously Bright triple LCD on the Model PEL 103 3 phases shown simultaneously Storage of measured and calculated values on a SD Card or SDHC Card Automatic recognition of the different types of current sensors Configuration of current and voltage ratios with external sensors 17 types of supported hook ups or electrical distribution systems USB LAN and Bluetooth communication DataView Software for data download viewing of measurements real time communication with a PC and report generation with predefined or custom templates Power amp Energy Logger Model PEL 102 and PEL 103 2 2 Front Panel Features C Ka O AEMC MODEL PEL 102 pj AEMC MODEL PEL 103 3 POWER amp ENERGY LOGGER POWER amp ENERGY LOGGER X e e ef o ON OFF ON OFF 1 1 START STOP A f oL s ND START STOP A Zi oL s gt ED 6 Figure 1 1 Four voltage input terminals 2 Three current input terminals 3 Rigid molded casing over molded with thermo adhesive rubber 4 Digital LCD displaying measured calculated and parameterizing quantities see S 2 10 5 Two PEL 102 or Four PEL 103 function buttons see S 2 9 A Enter Button B Navigation Button C Control button D On
80. gy Logger Model PEL 102 and PEL 103 1 2 1 Accessories Ke A B DEENEN Cat 2136 80 PEL Power PCAN SN AM Cat 2137 77 AC DC Current Probe ele E EE Cat 2140 49 AG DC Current Probe ele EE E EE Cat 2140 28 AC Current Probe Model MN93 BK gegen inita mirar tailor casn ras w oU Quse es aou Mew ausu ES EENeN Cat 2140 32 AC Current Probe lee EE A ET Cat 2140 33 AmpFlex Sensor 24 Model 193 24 BK black connector lseseeeesssseeessseeeee nennen nennen Cat 2140 34 AmpFlex Sensor 36 Model 193 36 BK black connector seeeeesseseeessssseeeeeeenne nennen Cat 2140 35 AC Current Probe Model MN193 BK black connector seeesseesseeeseeeennenen nennen nennen nnns Cat 2140 36 MiniFlex Current Sensor 10 Model MA193 10 BK black conpechor Cat 2140 48 AC DC Current Probe Model 5SE2O EE Cat 1201 51 BNC Adapter Tor Current Probe Model SL26 Wecasscseinccaspzsonncentudesamestisvacamons nuo ci s UU ebe Aug Fo Rae pda ee seier Cat 2140 40 Anti theft Kensington Laptop Security Cable available in most office supply stores n nnnunnnunnnnnnonnnnnnnnnnnnnnnnnernnennne N A 1 2 2 Replacement Parts omal ASSIS TOON e Cat 2133 72 Battery custom factory replacement NIMH AAA 8 4V ssssssssssesseee nennen nennen nnne nnne sns nai reser nnns Cat 2137 75 Lead Set of 4 10 ft 4mm Straight Banana Plugs with Set
81. hat all the samples are displayed Zoom To Allows you to specify a time period for the displayed graph Backwards Navigates to the previous display Forwards Navigates forward undoing a backwards operation Power amp Energy Logger Model PEL 102 and PEL 103 55 Instrument Bess BS Be o Ki Fe Y X H l E Tools 56 Add an Instrument Establishes a connection with an instrument Remove an instrument Removes the selected instrument from the PEL Network Disconnect an Instrument Closes the connection between the control panel and the currently selected instru ment in the PEL Network Reconnect Instrument Establishes a connection between the control panel and the currently selected instrument in the PEL Network Configure Opens the configuration dialog box for the selected instrument Download Recorded Data Displays the Download dialog box containing a list of downloaded sessions Set Clock Allows you to set the clock for the currently selected instrument in the PEL Network Start Stop Recording Allows you to start a recording if the instrument is not already recording If the instru ment is recording this operation stops the recording Delete a Session Removes the currently selected session in the Recorded Sessions list from the SD Card in the associated instrument Status Displays the Status information of the currently selected instrument in the PEL Network Colors
82. ine DataView software updates to check for new software version releases m Firmware Upgrades Links to the online firmware updates to check for new firmware version releases m Documents Shows a list of instrument related documents that you can view Adobe Reader is required for viewing PDF documents supplied with DataView 3 DataView Version x xx xxxx option should be selected by default Select the desired language and then click on Install 4 The Installation Wizard window will appear Click Next Power amp Energy Logger Model PEL 102 and PEL 103 43 Welcome to the InstallShield Wizard for DataView The InstallShield Wizard will install DataView on your computer To continue click Next Figure 31 5 To proceed click on the accept the terms of the license agreement radio button then click Next 6 4d DataView InstallShield Wizard License Agreement Please read the following license agreement carefully IMPORTANT By taking possession of this software or installing it you jaccept that you are bound by the terms of the present CHAUVIN ARNOUX IF YOU DO NOT AGREE TO THE TERMS AND CONDITIONS CONTAINED IN THIS AGREEMENT PROMPTLY RETURN THIS PACKAGE AND ASSOCIATED DOCUMENTATION UNOPENED TO PLACE OF PURCHASE AND YOUR MONEY WILL BE REFUNDED NO REFUNDS WILL BE GIVEN FOR PRODUCTS THAT HAVE MISSING OR DAMAGED COMPONENTS LICENSE You have the non exclusive right to use the enclosed program
83. ing Diameter One 1 6 42mm or two 0 98 25 4mm or two bus bars 1 96 x 0 19 50 x 5mm Variation of the position of the lt 0 5 DC to 440Hz conductor in the sensor Adjacent conductor carrying lt 10MA A at 50 60Hz alternating current EN 61010 2 032 Pollution Degree 2 300V CAT IV 600V CAT II Table 18 NOTE Currents lt 1AAC DC will be displayed as zero Model SR193 Nominal Range 1000A4c for f lt 1 kHz 1 to 1200Aac max gt 1000A not continuously Maximum Clamping Diameter 2 52mm Variation of the position of the lt 0 5 DC to 440Hz conductor in the sensor Adjacent conductor carrying lt 10mA A at 50 60Hz alternating current EN 61010 2 032 Pollution Degree 2 600V CAT IV 1000V CAT III Table 19 NOTE Currents 0 5A will be displayed as zero Power amp Energy Logger Model PEL 102 and PEL 103 79 AmpFlex Sensors Nominal Range 100 400 2000 10 000AAC 50mA to 12000Aac Length 24 610mm 7 64 190mm Length 36 910mm 11 46 290mm Weidert ol Hie poSon Orie lt 2 any position and lt 4 near snap device conductor in the sensor Adjacent conductor carrying alternating current EN 61010 2 032 Pollution Degree 2 600V CAT IV 1000V CAT III Table 20 NOTE Currents lt 0 05 for nominal range 100 400 2000 or 10 000A will be displayed as zero The nominal ranges are reduced to 50 200 1000 5000A4c at 400Hz lt 1 any position and x 2 near snap device 2 to
84. ing code that must be used when pairing the instrument to a computer the pairing code cannot be modified m Name Field to provide the instrument s name when pairing the instrument Only ASCII characters can be used m Visibility Enables Disables the presence of the instrument from the search option of computers USB m Name Read only field that displays the name assigned to the USB interface This is the name that will be displayed when adding the instrument via a USB connection Network MAC address Read only field indicating the MAC address of the network interface in the instrument This can be used by a network administrator to assign an IP address to the instrument that is fixed via the DHCP server Enable DHCP When checked a DHCP server must be available on the network If Enable DHCP is checked but the DHCP server is not available after 60 seconds the PEL Control Panel will enter auto IP mode using the default IP address 169 254 0 100 Note that if enabled the IP address assigned to the instrument can change periodically unless special consideration has been made by a network administrator IP address When DHCP is enabled this field is read only and displays the IP address the instrument obtains from the DHCP server When the DHCP option is disabled the IP address must be specified m Gateway address When DHCP is enabled this field is read only and displays the Gateway address the instrument obtained from the DHCP serve
85. instrument will then be added to the PEL Network until it is removed see S 4 3 4 File Edit View Instrument Tools Help o Bj PELI03 143887KGH m Recorded Sessions lm Real time Data Figure 45 If the instrument is already in the PEL Network either with the same connection type or a different connection type a dialog box will be displayed indicating this condition A PEL can be listed in the PEL Network only once NOTE The PEL Control Panel may become non responsive under extreme EMC conditions Disconnecting and reconnecting the USB cable will fix this issue Power amp Energy Logger Model PEL 102 and PEL 103 51 4 2 3 Ethernet Network Connection 52 Add an Instrument Wizard Network Specify the IPv4 address and port that the instrument is configured to use Address 10 Example 192 168 0 54 3041 Make sure that your instrument is connected to the network is powered on and has been assigned an IP address The instrument depending on how it was configured obtains an IP address from the network via DHCP Or was assigned one via a USB connection Warning the dynamic address can be regularly renewed by the DHCP server If manually assigned an address make sure another device on the same network has not been assigned the same address If the PEL is nat located on the same network subnet as this computer you can enter the PEL subnet address and then use the Search button to locate the
86. io bke nba Ud e ered ea bdn abeo 2 Xa Dyek UA ME Von we DER RUE MU Un Une d 23 3 6 3 2 3 Phase 3 Wire A with 3 E E iones busduc Sei c nu mde abus tuU dI Du uio sordes USE GIU CERE 23 3 6 3 3 3 Phase 3 Wire Open A with 2 current sensorgl eene nennen nnne nn nnn na nn sana nnns 24 3 6 9 4 3 Phase 3 Wire Open A With 3 current sensors ieeeieii einn deren ru In ENNER ERR ERUE REV DR UE 24 Power amp Energy Logger Model PEL 102 and PEL 103 3 7 3 6 3 5 3 Phase 3 Wire Y with 2 current sensors cccccecceseeeceseeceeeeceececeucecsueeceueeseueescueessseeesaeessageesaneess 25 3 6 3 6 3 Phase 3 Wire Y with 3 current sensors isescueaec uae o Rak Uam caen xu euo n RERO EXE Even e uae tan Ra Cerat 25 3 6 3 7 3 Phase 3 Wire A Balanced with 1 current sensor ccccsececeececeececeeseceeeeceeeesceeeseeesaeessageesageess 26 3 6 4 3 Phase 4 Wire Y Power Networks ae 26 3 6 4 1 3 Phase 4 Wire Y with 3 current sensors nennen nnn nnne nennen nne nn nnn sanas ananas 26 3 6 4 2 3 Phase 4 Wire Y Balance ek 27 3 6 4 3 3 Phase 4 Wire Y 2 2 Element KENE 27 36 5 3 Ph hase4 WIira eegener 28 oA RCM E E SOV MATER 28 3 6 5 2 3 Phase 4 Wire Open A see sttcs tere vnasesaveneaxenntyehconuiauneloavenereunes snacinrhestuusiietadacadnnesseneacledigeeusineciatetioceneastan 28 SiO DO ee EE 29 S 8o EU e 29 Snc NI 29 Sfc Ne p c R r 30 LCD
87. l frequency of the network 50Hz 60Hz and 400Hz The instrument will use the selected frequency for measurements NOTE Auto mode may lead to inconsistencies if the frequency varies on an unstable distribution system 4 4 4 Current Sensors and Ratios Current sensor ratios and type are automatically set with the identification of the current sensor detected on channel 1 or channel 2 if current sensor on channel 1 is missing or channel 3 if current sensor on channel 1 and channel 2 are missing NOTE One type is allowed for the current sensor inputs If different current sensors are mated mismatch of current sensors only the type of the current sensor connected on 11 is used for current sensor selection See 5 2 4 for detailed specification of the current sensors m AmpFlex MiniFlex Range Four ranges are available for the for AmpFlex MiniFlex probes 100A 400A 2000A and 10000A Number of primary wraps Allows the sensor cable to be wrapped around the conductor multiple times to increase the sensitivity of the probe Specify the number of times the sensor is wrapped around the conductor The maximum current of the selected AmpFlex MiniFlex range is divided by the number of wraps m MN193 for 5A An external CT is used Check box that enables or disables a ratio for this probe When enabled the following options can be specified Primary Indicates the primary current of the CT Secondary Indicates
88. lists the following commands File Open File Loads a previously saved recording session into the My Open Sessions list Close Closes the currently selected session Save Saves the currently selected session Save As Saves the currently selected session under a different name 54 Power amp Energy Logger Model PEL 102 and PEL 103 O O dS 7 7 2 2 di Create DataView Report Generates a DataView report from the currently selected session Export to a Spreadsheet Saves measurement data into an Excel spreadsheet Print Prints the current data display Print Preview Displays the current data display as it would look if printed Print Setup Opens the Print Setup dialog box allowing you to specify print options Exit Closes the control panel Edit Address book Opens the session properties address book Edit Session Parameters Allows you to modify various parameters associated with the selected session Delete 1s trend Removes the selected 1s Measurement data from the open session Customize Toolbar Allows you to add and remove items from the toolbar Zoom Tool Changes the cursor to the Zoom tool for zooming in a graph Zoom Previous Restores the zoom level of a graph to its previous state Zoom In Increases the magnification level of the displayed graph Zoom Out Decreases the magnification level of the displayed graph Zoom All Adjusts the magnification of the displayed graph such t
89. ly goes into Standby mode The measurements and recording stay active but the LCD backlight brightness diminishes to a user preset level The Standby LCD brightness level is user programmed through the PEL Control Panel see 4 4 1 To re establish the LCD Brightness press the Enter or Navigation buttons Note that the overall display brightness is also programmed through the PEL Control Panel see S 4 4 1 3 5 3 Memory Card SD Card The PEL 102 and PEL 103 use an SD card for data storage SD Cards up to 2 GB and SDHC Cards 4 GB up to 32 GB formatted FAT32 are supported The PEL is delivered with a formatted SD card in the instrument If you want to install a new SD card you must format the card before use m Formatting the SD Card is possible through the PEL DataView Control Panel when connected to the instrument and if no recording is pending or in progress m Hot extraction from the PEL is possible when no recording is in progress m PEL files use short names 8 characters such as Ses00004 3 5 4 USB Connection to the PEL The PEL 102 and PEL 103 can be connected to a computer through a USB type A Type B connectors to configure the PEL prepare a recording session real time connection and download recording sessions i NOTE Connecting the USB between the PC and the PEL will not power the logger or recharge the batteries 3 5 5 LAN Ethernet Connection to the PEL A LAN connection can be used to view real time data
90. m features you want installed Recommended for advanced users Cancel Figure 34 8 In the Select Features window that appears uncheck any instrument that you do not need to install and select only the instrument control panels that you do want to install then click Next Power amp Energy Logger Model PEL 102 and PEL 103 45 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 lei TR Ground Integrity Montor M Ground Tester Installation T ester wi Megahmmeter wl MicroOhmmeter v Power Quality Logger v PowerPad j W PowerPad Il Model 8335 vl PowerPad Jr Sentinel Data Logger j Simple Logger Il Je 407 and E07 Ji w attmeter 8220 wI PDF XChange 106 62 MB of space required on the C drive 321540 18 MB of space available on the C drive Installshield Figure 35 Back Hest gt Cancel Description PEL support files d D The PDF XChange option must be selected to be able to generate PDF reports from within DataView 9 In the Ready to Install the Program window click on Install DataView InstallShield Wizard Ready to Install the Program The wizard is ready to begin installation Click Install ta begin the installation IF pou want ta review ar change any of your installation settings click Back Click
91. m value U 2 o o D Measurement Method All measurement methods associated to an individual measurement Minimum value Nominal Voltage Reference voltage of a network Abbreviation for active power Power Factor ratio of active power to apparent power Temporal relationship between current and voltage in alternating current circuits Abbreviation for reactive power Rank of a Harmonic Ratio of the frequency of the harmonic to the fundamental frequency a whole number 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 Abbreviation for apparent power Tan H Ratio between reactive power and active power Total Harmonic Distortion The total harmonic distortion describes the proportion of the harmonics of a j s signal with respect to the fundamental RMS value f Phase to phase voltage c CF Phase to phase voltage crest factor Phase to phase voltage harmonic EE Status where efficient values for voltages between conductors fundamental component and or differ ences in phase between successive conductors are not equal a polyphased electrical ower network Phase to phase voltage value or percentage for harmonic rank n Uxy THD Total phase to phase voltage harmonic distortion Abbreviation for phase to neutral voltage or the unit volt V CF Voltage crest peak factor Apparent p
92. ment s partial energy accumulators The instrument can accumulate the measurements for a group of measurements over a user specified period Available periods Selected aggregation period 1 h 1 day 1 week 1 month Total Energy Meters Reset total energy meters at the start of each new session When checked the instrument will reset the meters when a recording starts either via software or the instrument s Control button This allows the energy meters to represent just the recording period When not checked the meters will not reset at the start of each new recording Power amp Energy Logger Model PEL 102 and PEL 103 67 4 4 7 Configuring and Recording Data Example The following is intended as an example of measuring and recording over a period of 8 hours i NOTE Set the instrument s clock to the proper time as the clock may vary due to time zones 1 Ifa recording is active stop it by selecting Instrument gt Stop Recording from the main menu B PEL Control Panel Untitled CO File Edit View Tools Help e B8 Boa Workstation cfl PEL Netu E g PEL1C Es Disconnect an Instrument GR IQ Ri B Reconnect Instrument Se Add an Instrument Remove an Instrument Configure E Download Recorded Data KH Set Clock ZEN Delete a Session g Status Figure 60 2 Open the Configure Instrument dialog box see 4 4 and select the Recording tab 3 Select an 8 hour recording duration
93. ment s regular maintenance 6 2 Battery Indicator The Yellow Red LED see 6 Figure 8 is used to indicate the status of the battery When the power is on the battery is charging until it is full m LED OFF Battery full with or without power supply m Yellow LED ON No blinks Battery is charging m Yellow LED blinks twice per second Battery is recovering after a full discharge m Red LED blinks twice per second Low battery and no power supply 6 3 Cleaning Disconnect the instrument from any source of electricity Use a soft cloth dampened with soapy water Rinse with a damp cloth and dry rapidly with a dry cloth Do not use the instrument if the terminals or keyboard are wet Dry them first Do not use alcohol solvents or hydrocarbons Do not splash water directly on the instrument Power amp Energy Logger Model PEL 102 and PEL 103 85 APPENDIX A A 1 Measurements A 1 1 Definition Calculations are done according to IEC 61557 12 and IEC 61010 4 30 Geometric representation of active and reactive power Source Load Export active power Import active power Import reactive reactive Figure 70 Diagram in accordance with clauses 12 and 14 of IEC 60375 Reference of this diagram is the current vector fixed on right hand line The voltage vector V varies its direction according to the phase angle q The phase angle o between voltage V and current is taken to be positive in the mathematical sens
94. ments 3 6 5 2 3 Phase 4 Wire Open A L2 For 3 Phase 4 Wire Open A measurements and using three cur rent sensors S T m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase conductor Figure 25 m Connect the terminal I2 current probe to the L2 phase conductor m Connect the terminal D current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measure ments and other phase sensitive measurements 28 Power amp Energy Logger Model PEL 102 and PEL 103 3 6 6 DC Power Networks 3 6 6 1 DC 2 Wire For DC 2 Wire measurements m Connect the terminal N test lead to the common conductor m Connect the terminal V1 test lead to conductor 1 m Connect the terminal 11 current probe to conductor 1 Ensure that the current arrow on the sensor is directed towards the load This ensures proper measurements for power and other sign sensitive quantities Figure 26 3 6 6 2 DC 3 Wire For DC 3 Wire measurements m Connect the terminal N test lead to the common conductor m Connect the terminal V1 test lead to conductor 1 m Connect the terminal V2 test lead to conductor 2 m C
95. mp Energy Logger Model PEL 102 and PEL 103 6 MAINTENANCE 6 1 Battery Your instrument is equipped with a NiMH battery This technology offers several advantages m Long battery charge life for a limited volume and weight m Possibility of quickly recharging your battery m Significantly reduced memory effect you can recharge your battery even if it is not fully discharged m 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 i In this case at least 5 charge discharge cycles will be necessary for your battery to recover 9596 of its capacity To make the best possible use of your battery and extend its effective service life m Only charge your instrument at temperatures between 50 F and 104 F 10 C and 40 C m Comply with the conditions of use defined in the operating manual m Comply with the storage conditions specified in the operating manual Before first use charge and discharge the instrument one or two cycles to ensure the proper level display of the battery indicator Note that if you are unsure about changing the battery we recommend having this done at our Service Center as part of the PEL instru
96. n the sensor is directed towards the load This ensures proper phase angle for power measurements Connect the terminal N test lead to the neutral conductor Connect the terminal V1 test lead to the L1 phase conductor Connect the terminal V2 test lead to the L2 phase conductor Connect the terminal V3 test lead to the L3 phase conductor Connect the terminal 11 current probe to the LI phase conductor Connect the terminal D current probe to the L2 phase conductor Connect the terminal I3 current probe to the L3 phase conductor and other phase sensitive measurements 26 A Gn Vi V2 V3 NAH l2 Figure 20 L3 Figure 21 Power amp Energy Logger Model PEL 102 and PEL 103 3 6 4 2 3 Phase 4 Wire Y Balanced For 3 Phase 3 Wire Balanced Y measurements using one current sensor m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal I1 current probe to the L1 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measure ments and other phase 3 6 4 3 3 Phase 4 Wire Y 212 Element For 3 Phase 4 Wire Y 217 Element measurements and using three current sensors m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m
97. ng it and clicking on the Pause button To resume the download repeat the process The Pause button will change to a Resume button when you select a download that was previously paused This indicates the action that will be taken when you select the button The Pause button is disabled when a recording that has finished downloading is selected 3 Once the file has been fully downloaded it can be opened by selecting it in the Download dialog box and clicking on the Open button or by double clicking on the file Alternatively it can be opened from the Cache dialog box see 4 6 The session will then be added to the My Open Sessions section RH PEL Control Pane C Users CAuclair AEMC Documents DataView Download PEL 143887KGH Ses000 File Edit View Instrument Tools Help SE ZLSK Es ER Workstation Session Parameters cm PEL Network GP PEL103 143887KGH R Session name session G 35h Serial number 143888KGH Ki Real time Data PEL name PEL 103 143888KGH amp Bl My Open Sessions PEL location Office oa Session DSP firmware version 1 0 2 ka ie ET Logger firmware version 0 59 i Hardware version A D It 1s Harmonics ON duration 2 8h Voltage presence duration Oh Load presence duration 2 8h Recording start date 7 31 2012 Recording start time 5 16 39 PM Recording duration 27s Figure 67 4 Selecting different items under the session name in My Open Sessions will display the associated data in the data
98. nside the PEL on the main board Table 8 and PEL 103 39 3 7 6 Configuration PEL 103 The Configuration mode lets you select the distribution system hook up voltage ratio and primary current value primary CT value and aggregation period on the Model PEL 103 instrument This screen is inactive when m The PEL is recording pending or in progress m Configuration via the DataView PEL Control Panel is in progress m The button is locked through an option in the PEL Control Panel m Configuration is disabled by the Control button on the front panel NOTE To avoid conflicts when the Configuration screen is displayed configuration through the PEL Control Panel is disabled You also cannot start a recording session with the Control button while the Configuration screen is displayed If you attempt to use the Control button while it is locked by the PEL Control Panel the Bluetooth ON OFF indicator and the REC START STOP light will flash twice simultaneously The instrument will then continue its operation with no changes taking effect To change configuration settings on the Model PEL 103 enter the Configuration mode and do the following 1 Scroll to the setting you want to change using the down arrow V and up arrow A buttons 2 Press the Enter button The displayed setting will start blinking 3 Use the Navigation lt gt button to scroll through the allowable values for the setting 4 When the desired value appears pres
99. ol Panel The USB connection dialog box will list all of the USB instruments that are currently connected to the computer Before continuing make sure an instrument is connected to your computer using the supplied USB cable M Select the desired instrument from the drop down list Make sure that your instrument is powered on and is connected to a USB port on this computer If the instrument does not appear in the list open this computers Device Manager and look for an entry named PEL with a question mark and or exclamation symbol under the Other devices group If listed under Other device you will need to reinstall the driver Figure 43 m From the Instrument drop down list select the desired instrument then select the Next button m f a successful connection was established the Finish button will be enabled Click Finish to exit the Wizard You want to communicate with an instrument connected to this computer or on a network This Wizard helps you add an instrument to your PEL Network The instrument has been identified Select Finish to continue Figure 44 NOTE If a connection with the instrument cannot be established the Finish button will remain disabled and the operation will need to be canceled Verify that the instrument is connected with the desired communication medium and repeat the Add an Instrument process 50 Power amp Energy Logger Model PEL 102 and PEL 103 The
100. on only lone computer at a time You may make one backup copy of the program in machine readable form for archival purposes You mustreproduce and include the copyright notice on the backup copy You must not transfer the programme electronically via a network without first procuring a network licence from CHAUVIN ARNOUX You may not distribute copies of the program or documentation without prior written consent from CHAUVIN ARNOUX YOU MAY NOT USE COPY MODIFY OR TRANSFER THE PROGRAM OR MOM IMMCNITATIONI OD ANIM OMDV IN WHA C D IN DADT CVCCOT AC Qi accept the terms of the license agreement do not accept the terms of the license agreement lt Back Next gt Figure 32 In the Customer Information window enter a Name and Company then click Next Power amp Energy Logger Model PEL 102 and PEL 103 Customer Information Please enter your information User Name Company Name AEMC Instruments Install this application for Qi Anyone who uses this computer all users Only for me John Doe lt Back Next gt Cancel InstallShield Figure 33 7 Inthe Setup Type window that appears select the Complete radio button option then click Next DataView InstallShield Wizard 4 Setup Type Select the setup type to install Please select a setup type e Complete All program features will be installed Requires the most disk space Select which progra
101. onnect the terminal I1 current probe to conductor 1 m Connect the terminal I2 current probe to conductor 2 Ensure that the current arrow on the sensor is directed towards the load This ensures proper measurements for power and other sign sensitive quantities Figure 27 Power amp Energy Logger Model PEL 102 and PEL 103 3 6 6 3 DC 4 Wire For DC 4 Wire measurements and using three current sensors Ensure that the current arrow on the sensor is directed towards the load This ensures proper measurements for power and other sign Connect the terminal N test lead to the common conductor Connect the terminal V1 test lead to conductor 1 Connect the terminal V2 test lead to conductor 2 Connect the terminal V3 test lead to conductor 3 Connect the terminal 11 current probe to conductor 1 Connect the terminal D current probe to conductor 2 Connect the terminal I3 current probe to conductor 3 sensitive quantities 30 Figure 28 Power amp Energy Logger Model PEL 102 and PEL 103 3 7 LCD Display Modes PEL 103 Only The PEL 103 includes an LCD display that allows you to view a variety of measurement values and set up parameters The display also lets you change several configuration settings NOTE Although the PEL 103 LCD display allows you to enter a limited number of set up values the PEL can only be fully configured through the PEL Control Panel DataView software Note that the PEL 102 can only be configured
102. ort template either before or after a recording You can also create your own custom templates A report is created by performing the following steps 1 Download recorded data from the instrument 2 Open the downloaded data 3 Select Create DataView Report from the File menu or by selecting the associated Toolbar button The Select Data to Export dialog box will be displayed 4 Specify the time period of the recording that is to be used in the report and select OK After the database is generated the Create Report from Template dialog box will be displayed 5 Select the desired report template Basic is a simplified report and Monitoring is a detailed report containing many worksheets Once the template is selected select the OK button At the bottom of the report screen is a series of tabs used to select the desired worksheet to view 4 7 1 Specifying the Default Report Template The previous example required that you select the template from the Create Report from Template dialog box You can also specify a default template that should be used to automatically generate the report Doing so will eliminate step 5 above To specify the default template perform the following 1 Select the Select Report option from the Tools menu The Templates dialog box will be displayed 2 Select the template to be used as the default 3 Click on the Select button An asterisk will be displayed next to the name of the default template You can s
103. ower unit Volt Ampere Heactive power unit Reactive energy unit V THD Voltage crest peak factor gt Phase to neutral voltage harmonic True RMS phase to neutral voltage V THD Vunb Vx Hn Total harmonic distortion of phase to neutral voltage Phase to neutral voltage unbalance Phase to neutral voltage value or percentage for harmonic rank n Wo Active power unit Watt Whe Active energy unit Watt hour Table 32 Prefixes of International System SI units Prefix Symbol mili m Ko Mega Giga Peta Ea E Table 33 REPAIR AND CALIBRATION To ensure that your instrument meets factory specifications we recommend that it be scheduled back to our factory Ser vice 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 e Dover NH 03820 USA Phone 800 945 2362 Ext 3
104. pped with a Kensington Security Slot see 7 Figure 1 for use with a locking cable to protect your instrument from theft locking cables available from third parties such as office or PC supply stores 2 9 Button Functions BUTTON DESCRIPTION ON OFF Button Turns the instrument ON or OFF see S 3 1 NOTE The instrument cannot be turned OFF while connected to an AC outlet or if a recording is in progress Control Button Starts Stops the recording session and Enables Disables Bluetooth see 3 4 Enter Button PEL103 Displays phase angle values and partial energies long push see S 3 7 2 Navigation Button PEL103 Enables browsing and the selection of data displayed on the LCD see 3 7 Table 1 12 Power amp Energy Logger Model PEL 102 and PEL 103 2 10 LCD Display PEL 103 XY i b n c i Ee EIER x C co g co 22 OOO wen r 25 N Cn NW N des E lt z E L was C C Qu LI lt gt MEE 2 2 ee ioe a ee A NJ V M D DN D wan L E B e LG Measured phase indicator Bargraph Load factor Min Max The bargraph indicates the percentage 096 to 100 of full range or full load as programmed into the PEL by the user through the DataView software Measurements or page title Measurement values eoo OO Measurement units Top and bottom display bars indicate the following DESCRIPTION Pei
105. r When DHCP is disabled you must enter the Gateway address you want the instrument to use Subnet mask When DHCP is enabled this field is read only and displays the Subnet mask the instrument obtained from the DHCP server When the DHCP option is disabled enter the Subnet mask you want the instrument to use Bluetooth Network password Power amp Energy Logger Model PEL 102 and PEL 103 Enable password protection When checked requires the user to enter a password when trying to configure the instrument over a network UDP and Bluetooth connections Password Field to specify the password to be used up to 16 characters in length 61 4 4 3 Measurement Tab Options The Measurement tab of the Configure Instrument dialog box specifies the electrical distribution system voltage ratios nominal frequency and current probe options Configure Instrument 1 phase 2 wire single phase V1 I1 1 phase 3 wire split phase 3 phase 3 wire A 2 current sensors no I2 3 phase 3 wire A 3 current sensors 3 phase 3 wire open A 2 current sensors no I2 3 phase 3 wire open A 3 current sensors 3 phase 3 wire Y 2 current sensors no I2 S phase 4 wire Y balanced um I1 wove o nA 3 nhazea 4uaire V 714 fnm Ww Nominal voltage and voltage ratios Set a Voltage Transformer Ratio Primary 1000 V 50 550000 Phase to phase Phase to neutral Secondary 1000 V 50 1000 Phase to phase amp Phase to neutral Cu
106. r amp Energy Logger Model PEL 102 and PEL 103 4 4 8 Modifying an Instrument s Configuration To change or modify the instrument s configuration select the desired PEL listed in the PEL Network then select the Modify Instrument Configuration button Ss located at the top of the Status area below the Toolbar File Edit View Instrument Tools Help a F Recorded Sessions ZEE Km Real time Data CD My Open Sessions CP session m bea 1s Measurements Figure 62 4 5 Downloading Recorded Data Hecorded measurements stored in the instrument are transferred to a database on the PC using the download command Assuming a recording session has been started and stopped the instrument should have at least one recording session To Download a Recording 1 Select a recorded session from Recorded session branch of the PEL Network File Edit View Instrument Tools Help GEES KK KAREN EI Sf Workstation cff PEL Network DF 103 14388 Recorded Sessions Folder Session name Starting Date Time Ending Date Time Aggregation period Size Ses00003 2012 07 31 18 18 33 Ses00004 Test Record 2012 08 03 18 16 31 2012 08 03 18 20 57 15min 54704 Ses00005 Test Record 2012 08 03 18 21 45 2012 08 03 18 22 14 15min 6558 Figure 63 2 To download the session perform one of the following From the Instrument menu m From the Toolbar click on the Download icon select Download Recorded Data or EE
107. rding rates for the different types of session data are as follows m 1S Harmonics 83 MB per day m 1s Trends 17 MB per day m Aggregated data 1 2 MB per day for 1 minute periods For longer periods this rate is divided by the period in minutes Example for an aggregation period of 10 minutes the rate will be 0 12 MB per day We recommend managing the data on the SD card and only recording that which is needed For reference purposes a 5 day recording with a 15 minute demand interval and recording 1 second data and harmonics on a 3 phase 4 wire network would consume approximately 530 MB of storage space If harmonics are not needed and the recording of them is disabled the space requirement is reduced to about 87 MB The recommended maximum recording times are m seven days when the recording includes the aggregated values 1 second data and harmonics m onemonth when the recording includes the aggregated values and 1 second data but not the harmonics m one year when the recording contains only the aggregated values Also avoid exceeding 32 recorded sessions on the SD card NOTE For recordings with harmonics or with a duration longer than one week please use class 4 or higher SDHC cards We recommend not downloading large sessions through Bluetooth as it will take a very long time If a Bluetooth download is required consider not recording 1 second trends and harmonics The same 30 day recording would be reduced to just 2 5 MB
108. rrent measurement AmpFLEX MiniFLEX i MN193 damp 5 A Range 100A 2000A E An external CT is used ia 400 A t 10000 A Primary 5 A 5 B 25000 Number of primary wraps 1 1 2or 3 Secondary 5 A Multiple primary wraps will increase the sensitivity of the AmpFLEX MiniFLEX however the nominal current will be 5 A adapter box divided by the number of primary wraps C An external CT is used For example with 2 primary wraps for a 2000 A range Primary 5 A 5 25000 the nominal current will be 1000 A instead of 2000 A 5 SE A Warning The nominal current is reduced when Current sensor with BNC adapter AmpFlex MiniFle sed at 400 Hz Sa I aang z S Nominal current 1000 A 1 25000 200 A for 400 A range l 1000 A for 2000 A range Output voltage 1 V 5000 A for 10000 A range Sensor output voltage must not exceed 1 7 V peak Figure 57 Distribution system m A box listing each of the distribution systems supported by the instrument see 83 6 for available distribution systems descriptions m Animage is displayed to the right of the list illustrating the connection diagram for the selected distribution system Selection of DC 2 3 or 4 Wire implies DC measurements only Selection of other distribution systems implies AC mea surements only Load Source These radio buttons determine whether or not the measurement applies to the system s load or to the source By default Load is selected 62 Pow
109. s 4 Double click on Setup exe from the opened folder view to launch the DataView setup program i NOTE If installing onto a Vista based computer the User Account Control dialog box will be displayed Select the Allow option to proceed 42 Power amp Energy Logger Model PEL 102 and PEL 103 2 ASet up window similar to the one below will appear Select an option from the list below Options Description Dataview Version 3 05 0004 Installs the English version of Dataview onto this computer Adobe Header This version of Dataview supports the following instruments Dataview Update Firmware Upgrades Ground Tester Model 6470 6 6477 and 64772 User Manuals Megohmmeter Model 1060 5060 5070 6550 and 6555 Micra LDIhmmeter Model 6240 and 6250 Power Energy Logger Model PELTU2 and PEL103 Power Meter Model S221 Power Quality Logger Model PULTOO and POL120 PowerPad Model 3345 and 3945 6 PowerPad II Model 8335 PowerPad Jr Model 8230 Power Clamp Model 407 and BU Sentinel Data Logger Simple Logger Il DTA Model 8510 Figure 30 There are several different options to choose from Some options require an internet connection m DataView Version x xx xxxx Installs DataView onto the PC m 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 m DataView Updates Links to the onl
110. s the Enter button The setting will stop blinking As with the Information screen the Configuration screen is disabled if three minutes elapse with no activity on the Enter or arrow buttons The display then returns to the Base Measurements screen phase 3 wire 3 phase 3 wire A 3 current sensors 3P 3WA2 3 phase 3 wire A 2 current sensors 3P 3W02 3 phase 3 wire Open A 2 current sensors 3P 3W03 3 phase 3 wire Open A 3 current sensors lt lt HOOK UP gt gt 3P 3WAB 3 phase 3 wire A balanced 3P 3WY 3 phase 3 wire Y 3 current sensors Distribution 3P 3WY2 3 phase 3 wire Y 2 current sensors System 3P 4WY 3 phase 4 wire Y Type 3P 4WYB 3 phase 4 wire Y balanced fixed voltage measurement 3P 4WY2 3 phase 4 wire Y 275 3P 4WA 3 phase 4 wire A 3P 4WOA 3 phase 4 wire Open A DC 2W DC 2 wire DC 3W DC 3 wire DC 4W DC 4 wire PT PRIM Primary VT 40 Power amp Energy Logger Model PEL 102 and PEL 103 PT SEC Secondary VT Primary nominal line current for the connected sensor For AmpFlex 100A 400A 2000A 10 000A For MN193 5A range 5A to 25 000A CT PRIM For 5A adapter box 5A to 25 000A Primary For BNC Adapter 1A to 25 000A CT NOTE This screen does not appear if no probe is connected to the PEL 103 If you want to configure the CT PHI setting in a PEL with no probes connected you must use the DataView PEL Control Panel AGG PERIOd Aggregation Displays the aggregation perio
111. se the connection between the PEL Control Panel and the instrument select the desired PEL listed in the PEL Network then select Instrument Disconnect Instrument in the main menu B PEL Control Panel uud NN File Edit View Instrument Tools Help cn Add an Instrument Remove an Instrument Figure 50 Reconnecting To reestablish a connection between the PEL Con trol Panel and the instrument select the desired PEL listed in the PEL Network then select Instrument Reconnect Instrument in the main menu B PEL Control Panel Untitled on File Edit View Instrument Tools Help E Im EL L Workstation Se Remove an Instrument S PEL Netw E E Add an Instrument EL E PEL1C S Disconnect an Instrument Figure 51 4 3 4 Removing an Instrument from the PEL Network A connected instrument will remain in the PEL Network until it is removed m o remove an instrument select the desired PEL listed in the PEL Network that you want to remove then click on the Remove an Instrument icon in the Toolbar or select Instrument Remove an Instrument from the main menu File Edit View Instrument Tools X Help C Figure 52 Power amp Energy Logger Model PEL 102 and PEL 103 57 4 4 Configuring the PEL 1 Open the PEL Control Panel by double clicking the PEL icon B that was created during installation located on the desktop The Control Panel will appear 2 Connect to an instrument s
112. selected Duration Stop Cancel Recording This button is displayed when the instrument is actively recording or a recording is pending It allows you to end an active recording or cancel a pending one Modify End Date Time This button is displayed when the instrument is actively recording It allows you to change the ending time of the active recording Demand Interval Demand period Drop down list that allows the selection of one of the possible demand intervals supported by the instrument The demand interval is a period of time over which the instrument determines the average value for a given measurement parameter In addition to the average the 1 second maximum values along with time stamps are also stored This is the interval over which the instrument performs measurement aggregation Available periods 1 2 3 4 5 6 10 12 15 20 30 and 60 min Recording options Record one second trends for current voltage energy Allows you to specify if 1s trend data is to be recorded or not Record current and voltage harmonics to the 50th for current and voltage Check box that allows harmonic measurements to record or not record Harmonic measurements consume a large amount of SD Card memory and increase downloading time If these measurements are not needed deselect this check box to improve system performance Installed SD Card status 66 Gauge indicating the percentage of the SD Card in the instrument that has been
113. skey to finalize the instrument connection If so the default passkey is 0000 20 Power amp Energy Logger Model PEL 102 and PEL 103 6 Once the instrument has been successfully added to the computer a window similar to Figure 11 will be displayed Select Close This device has been successfully added to this computer Windows is now checking for drivers and will install them if necessary You may need to wait for this to finish before your device is ready to use To verify if this device finished installing properly look for it in Devices and Printers PEL103 143886KGH Figure 11 7 Launch the PEL Control Panel using the icon placed on the desktop during the Dataview software installation then connect the instrument via Bluetooth by performing the steps in 4 2 Power amp Energy Logger Model PEL 102 and PEL 103 21 3 6 Distribution Systems and PEL Hook ups This section describes how the current sensors and voltage test leads have to be connected to your installation according to its distribution system The PEL shall also be configured see 4 4 3 for the selected distribution system Source Load 3 6 1 Single Phase 2 Wire For Single Phase 2 Wire measurements m Connect the terminal N test lead to the neutral conductor m Connect the terminal V1 test lead to the L1 phase conductor m Connect the current probe to the L1 phase conductor Ensure that the current arrow on the sensor is dire
114. t select the desired session from the list on the right Finally select the Open button to open the session and display it in the My Open Sessions navigation tree branch You can remove individually cached sessions from the cache by selecting the desired session and clicking on the Delete button located under the list on the right NOTE A session cannot be deleted from the Cache dialog box if it is still currently listed in the Download dialog box You must first open the Download dialog box go to Instrument gt Download Recorded Data and hit the Clear All button Note that there are two Delete buttons The one on the left under the list of instruments will delete all of the cached items for the selected instrument The Delete button on the right under the list of cached sessions will delete only the selected session from the cache Each time the PEL Control Panel starts it will calculate how much space is being used on the computer s hard drive and compare it to the Maximum allowable cache size specified at the bottom of the Cache dialog box If the amount of space being used by the cache exceeds this amount a warning message will be displayed No action will be taken automatically you are simply informed whenever the size of the cache exceeds the amount specified here Power amp Energy Logger Model PEL 102 and PEL 103 T1 4 7 PEL Reports Several predefined report templates are available for you to use You can choose a rep
115. these LEDs are lit you will be able to control their respective function as described below m Releasing the Control button during and only during the 3 seconds lighting of a particular LED performs the associated function REC LED START STOP A release while LED is lit starts a recording if recording is OFF Arelease while LED is lit stops a recording if recording is ON gm BLUETOOTH LED ON OFF Arelease while LED is lit turns ON Bluetooth if Bluetooth is OFF Arelease while LED is lit turns OFF Bluetooth if Bluetooth is ON If you want to make changes to both the Recording and Bluetooth you need to go through the process twice NOTE If the Control button is locked disabled by the PEL Control Panel see S 4 you cannot use it to start or stop a recording or enable disable Bluetooth Instead upon pressing the Control button while it is locked you will see the Bluetooth and REC lights blink twice with no changes taking effect on the instrument To enable the Control button you must open the PEL Control Panel on your PC and de select the Lock out the Control button option in the Configure Instrument dialog box as explained in the PEL Control Panel online Help 3 5 Connections 3 5 1 Power Supply The PEL is powered by standard AC power through an external C7 cord figure eight type non polarized power plug This power cord is available in many computer or electrical supply stores It is also referred to as a L
116. trol buttons This can be useful to prevent unauthorized control of the instrument Note that the Enter and Navigation buttons PEL 103 are not locked Aggregated MAX Mode Aggregation is the process in which certain measured values are averaged over a specific period The highest aggregated average for a period is listed as the MAX value in the PEL LCD display screen This section includes two radio button options m Aggregated MAX values updated while recording only maintained when not recording instructs the PEL to update the aggregated MAX value only when the instrument is actively recording data When not recording the instrument will retain the current MAX value in its memory but will not update it even if a higher aggregated value is encountered m Aggregated MAX values updated all the time results in the PEL continuously updating the aggregated MAX value whether or not the instrument is actively recording The button Reset Aggregated MAX resets the current MAX value to zero The PEL will then update the aggregated MAX value whenever the value for an aggregated period exceeds the previous high value In addition to these options there are two buttons allowing additional control of the instrument m Set Clock Displays the Date Time dialog box for setting the date and time on the instrument m Format SD Card Allows the formatting of the SD memory card currently installed in the instrument i NOTE The PEL can only operate with SD an
117. ve measurements 3 6 3 6 3 Phase 3 Wire Y with 3 current sensors L3 For 3 Phase 3 Wire Y measurements using three current Sensors m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase conductor m Connect the terminal I2 current probe to the L2 phase Figure 19 conductor m Connect the terminal I3 current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensitive measurements Power amp Energy Logger Model PEL 102 and PEL 103 25 3 6 3 7 3 Phase 3 Wire Balanced with 1 current sensor For 3 Phase 3 Wire A Balanced measurements using one current sensor Connect the terminal V1 test lead to the L1 phase conductor Connect the terminal V2 test lead to the L2 phase conductor Connect the terminal I3 current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensitive measurements 3 6 4 3 Phase 4 Wire Y Power Networks 3 6 4 1 3 Phase 4 Wire Y with 3 current sensors For 3 Phase 4 Wire Y measurements using three current sensors Ensure that the current arrow o
118. weeks capacity remaining Red LED ON SD Card is not present or locked Yellow Red LED Battery Status When the AC power cord is connected the battery charges until it is full LED OFF Battery full with or without power supply 6 Yellow LED ON Battery is charging Yellow LED blinks once per second Battery is recovering from a full discharge Red LED blinks twice per second Low battery and no power supply 14 Power amp Energy Logger Model PEL 102 and PEL 103 LED amp COLOR STATUS CG Green LED ON OFF LED ON External power supply present LED OFF No external power supply under ON OFF button Green LED Ethernet embedded LED OFF No activity LED blinking Activity Yellow LED Ethernet LED OFF The stack failed to initialize or the Ethernet controller failed to initialize Blink Slow toggle every second The stack initialized properly Blink Fast toggle 10 times per second The Ethernet controller initialized properly Blink Twice toggle 2 times then pause DHCP Error LED ON Network initialized and ready for use Table 3 2 12 Memory Capacity The PEL accepts FAT32 formatted SDHC cards up to 32 GB in size This much data can require a lot of demand on a computer and a long download time depending on the performance of the PC and connection type being used Furthermore some computers may have problems handling such a large amount of data and spreadsheets can only accept a limited amount of data Reco
119. wer measure ments and other phase sensitive measurements 3 6 3 4 3 Phase 3 Wire Open A with 3 current sensors For 3 Phase 3 Wire Open A measurements using three current QC Q sensors m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase conductor m Connect the terminal I2 current probe to the L2 phase Figure 17 conductor m Connect the terminal D current probe to the L3 phase conductor Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measure ments and other phase sensitive measurements 24 Power amp Energy Logger Model PEL 102 and PEL 103 3 6 3 5 3 Phase 3 Wire Y with 2 current sensors L3 For 3 Phase 3 Wire Y measurements using two current Sensors m Connect the terminal V1 test lead to the L1 phase conductor m Connect the terminal V2 test lead to the L2 phase conductor m Connect the terminal V3 test lead to the L3 phase conductor m Connect the terminal I1 current probe to the LI phase conductor Vi V2 V3 NAN m Connect the terminal D current probe to the L3 phase conductor Figure 18 Ensure that the current arrow on the sensor is directed towards the load This ensures proper phase angle for power measurements and other phase sensiti
120. with the PEL Control Panel For detailed instructions on configuring recording and downloading measurements refer to S 4 The lt and gt navigation buttons are used to scroll through the available modes LCD Display modes Five of these modes allow you to view several types of data Base Measurements displays the measurement values V A Power Frequency Power Factor and Tanget Angle Energy displays the energy values kWk Vah and Varh Harmonics displays harmonics for current and voltage Max displays the maximum values for the measurement energy and harmonic values Information displays hook up and system information In addition Configuration allows you to enter several setup parameters described later in this section 3 7 1 Base Measurements Displayed Values The base measurements or instantaneous readings are displayed sequentially in screens showing all phases The display sequence varies per type of power network Table 4 shows the readings per network To navigate through the displays use the Navigation Wi and Enter buttons m Use the up and down arrows A or V on the Navigation button to step through the displays m Use the Enter button to display additional information Note that this does not advance the display to the next step Instead a screen displayed by Enter can be considered a sub step in the display cycle m To exit a display called up by Enter press the Navigation button once This returns you to th
121. yed m Phase order for voltage and current channels is displayed when the other screens are displayed m Load or Source is set by the DataView PEL Control Panel In some distribution systems such as DC the phase order does not apply in every instance The following three tables show information for each distribution system for setting the correct current phase order voltage phase order and current vs voltage phase order respectively A 5 1 A 5 1 Current Phase Order Distribution Abbreviation Current Phase Comments System Order Single phase 1 Phase 2 Wire Split phase 1 Phase 3 Wire 3 Phase 3 Wire A 3P 3WA2 2 current sensors 3 Phase 3 Wire Open A 1 13 120 30 3P 3WO2 2 current sensors No I2 current sensors 3 Phase 3 Wire Y 3P 3WY2 2 current sensors I2 11 180 30 3 Phase 3 Wire A 3P 3WAS3 3 Phase 3 Wire Open A 3P 3WOS3 3 Phase 3 Wire Y ewe 3WY3 3 Phase 3 Wire 3P 3WAB balanced 3 Phase 4 Wire Y 3P AWY oe 0 11 13 13 12 O 12 11 120 30 3 Phase 4 Wire Y 3P AWYB balanced 3 Phase 4 Wire Y 21 3P AWY 2 M U EOS 7 11 13 13 12 12 11 120 30 I2 11 120 30 Power amp Energy Logger Model PEL 102 and PEL 103 93 3 Phase 4 Wire A I2 Hi 120 30
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