PROFITEST 0100S-II+ - GMC
Contents
1. 8 3 Loop Impedance Measurement Measurement via and without tripping the RCCB 39 8 4 Testing Meter Start Up with the 40 9 Measuring Supply Impedance function 2 4 9 1 Testing Meter Start Up with Earthing Contact Adapter 42 10 Earthing Resistance Measurement function 43 10 1 Measuring with Probe 10 1 1 Automatic Measuring Range Selection 10 1 2 Manual Measuring Range Selection 10 2 Measuring without Probe 00 2 n 10 3 Evaluation of Measurement Values 10 4 Measuring Earth Electrode Potential function Up 46 GMC I Messtechnik GmbH Contents Page 11 Measuring the Impedance of Insulating Floors and Walls Standing Surface Insulation Impedance Zoq 47 12 Measuring Insulation Resistance Function Riso 48 12 14 Measuring Earth Leakage Resistance function RE soy 2 50 12 2 Insulation Measurement with Selectable Test Voltage 2 50 12 3 Insulation Measurement with Rising Test Voltage i51 12 4 Evaluation of Measurement Values nbl 12 5 Setting thes limit Vale 51 13 Measuring Low Value Resistance of up to 100 Q protective conduct2. 100 1000 Hz 1 rdg 1 d UJAN 0 70 0 V 10 rdg 1 d 9 rdg 1 d 10 100 651 721 Uy 120 230 V lan 100 6510 value calculated wy 300mA 030 9990 from fn 50 60 Hz 1000 2170 U 25 50 V 500 020 9990 t 100 0 1300 lan 10 30 an 10mA 30 13 0 mA 30 13 0mA 3 0 13 0mA 100 300 500 30 9 0 39 0 mA 9 0 390 9 0 39 0 mA mA 100 mA 30 130 mA 30 130 mA 130 mA 5 rdg 1d 1 rdg 2 d AN 300mA 390 mA 90 390 mA 390mA 129 400 AN 500 _ 650 mA 150 650 mA 650 mA Ua U 25V 25 0 V 25 0 V 2 5 rdg 1d 0 Uy U 50V 500V same dst 500V 0 1000 ms 05 0 1000 ms 0 40 ms 0 40 ms AN 10 30 mA 4 ms 3 ms 62 GMC I Messtechnik GmbH Input Connections Impedance Measuring Nominal Measuring Instinsic Test Current Range Values uncertainty uncertainty 2 Pole 3 Adapter Adapter 1096 rdg 2d 3d 10 rdg 30 4 rdg 3d 5 rdg 3d 3 rdg 3d 18 rdg 30 6 rdg 50 10 rdg 30 4 rdg 30 Reso lution Measuring Quantity Display Range full 0 15 0 49 Q waves 0 50 0 99 Q 120 230 V 2 0 01 9 99 Q 083 40 10 9990 Z nop
3. mE moo lla breaking current ly short circuit current nominal current ta time to trip lt 0 4 current standard 2004 issue 0 5 previous standard 1994 issue The table shows maximum allowable nominal current dependent upon fuse type and breaking requirements 8 3 Loop Impedance Measurement Measurement via and without tripping the RCCB Loop impedance L PE can be determined with a nominal residual current of at least 30 mA with this function even downstream from RCCBs Measurement is performed for 2 seconds with a nominal residual current of 15 mA and results are displayed with a typical accuracy of 1 Q The display range runs from 0 1 O to GMC I Messtechnik GmbH see chapter 8 1 Zioop 4 a Loop pos half wawes us half uaues ws 15mH Test counter start up 441 qe 20 Q 15 Ly 238 fy Hz 15 39 8 4 Testing Meter Start Up with the Adapter Start up of energy consumption meters which are connected between L and L or L and N can be tested with this function Set Up gt Dy a 40 TEST L L TEST L H pos half wawes us neg half wawes vs PE Ip 15 mm Test counter start up Attention Use only the 2 pole adapter and contact L1 L2 L3 and N at the meter output Meters are tested with the help of an internal load
4. gt Loosen the slotted screw at the Battery Compartment Lid 28 at the back of the instrument and remove the lid Fuses 24 and Replacement Fuses 23 are now accessible c Open the fuse closure with the help of an appropriate tool e g a screwdriver by pressing and turning counter clockwise Attention Severe damage to the instrument may occur if incorrect fuses are used Only original fuses from Messtechnik GmbH assure required protection by means of suitable blowing characteristics order no 3 578 189 01 Short circuiting of fuse terminals of the repair of fuses is prohibited The instrument may be damaged if fuses with incorrect ampere ratings breaking capacities or blowing charac teristics are used 70 lt gt Remove the defective fuse and insert a Replacement Fuses 2 gt Insert the fuse closure after the fuse has been replaced secure by turning clockwise c Replace the Battery Compartment Lid 28 and retighten the screw 17 4 Housing No special maintenance is required for the housing Keep outside surfaces clean Use a slightly dampened cloth for cleaning Avoid the use of cleansers abrasives or solvents 17 5 Device Return and Environmentally Compatible Disposal The instrument is a category 9 product monitoring and control instrument in accordance with ElektroG German Electrical and Electronic Device Law This device is not subject to the RoHS directive W
5. As a rule the display for contact voltage is also 0 0 V because the nominal residual current of 30 mA together with minimal loop resistance result in a very small voltage value RgelAN 1W 30mA 30mV 0 03V Measuring resolution is 100 mV and the display value is thus rounded down to 0 0 V GMC I Messtechnik GmbH 8 Testing of Breaking Requirements for Overcurrent Protective Devices Measurement of Loop Impedance and Determination of Short Circuit Current functions 2 and ly Testing of overcurrent protective devices includes visual inspec tion and measurement The PROFITEST 0100S I1 is used for the performance of measurements Measuring Method Loop impedance Zl is measured and short circuit current ly is ascertained in order to determine if the breaking requirements for protective devices have been fulfilled Loop impedance is the resistance within the current loop utility company plant phase conductor protective conductor when a short circuit to an exposed conductive part occurs conductive connection between phase conductor and protective conductor Short circuit current magnitude is determined by the loop imped ance value Short circuit current IK may not fall below a predeter mined value set forth by DIN VDE 0100 so that reliable breaking of the protective device fuse automatic circuit breaker is assured Thus the measured loop impedance value must be less than the
6. Print Data e Print data WinProfi System Protocol Update Help Receive File Send File Print Data Protokollauswaht Available Protocol Files S1 Print List T 3 2 qHAUSUT 001 3545 ei GET lt 2 oop Lage Grabber Le O J GET Read protocols trom tite Output to a G Form 1 Pent gt Add to print list 6 Selection Stonderd Form 2 lt Remove from print list S ot form ALL Add all protocols to print list 4 Cancel CForm 3 Edit or transmit report templates System 127777 Update Help Edit Protocol Forms gt Form Send Protocol Forms Form 2 Form 3 imi Winprofi ditor BEE Edt Search Window gSPROTO V1 PRN n x o 5 0 0 M TURBO DRIVE Machine Inc Industrial Equipment and Support P f Rnx fff Hellhnundsuille TWS ORT Fngland CERTIFICATE FOR PROOF OF COMPLIANCE FOR INDUSTRIAL MACHINES Verification of safety for the electrical equipment of industrial machines according 68285 1 IEC 204 1 DIN VDE 8113 Common data of machine under test Descripliun Number BDESC Number of protocol GMAC Equipment used for tests amp HAHE RSER Date of tests B RTE Responsible person R Schweiger The following protocol confirms that all tests for proof of electrical safety of the described machine according to the standards mentioned above have been carried out with great care The tests hav
7. 50 V gt 25 V the Uj 7 lamp lights up red If contact voltage exceeds 50 V 25 V during the measuring sequence safety shut down occurs See also Note Safety Shut down on page 25 Contact voltages of up to 70 V are displayed If contact voltage is greater than 70 V gt 70 V is displayed GMC I Messtechnik GmbH Note The measured earthing resistance value is acquired with very little current More accurate results can be obtained with the selector switch in the Rg position Perform measurement upstream from the RCCB in order to prevent it from tripping in the case of the high measur ing currents used in this context Limit Values for Allowable Continuous Contact Voltage The limit for allowable continuous contact voltage is equal to U 50 V for alternating voltages international agreement Lower values have been established for special applications e g agricultural facilities Uj 25 V s Safety Shut down Up to 70 V a safety shut down is tripped within 3 s in accordance with IEC 61010 2 Tripping Test after the Measurement of Contact Voltage gt Press the lan key 2 or 18 before on time has expired approximately 30 s If the RCCB is tripped at nominal residual current the NETZ MAINS Lamp 6 blinks red line voltage disconnected and time to trip t4 and earthing resistance Rg appear at the LC Display 42ms lt 2 1 82 Wu 28 U BU f Hz S
8. In the event that it is impossible to set a probe earthing resis tance can be estimated by means of an earth loop resistance measurement without probe The measurement is performed exactly as described in chapter 10 1 Measuring with Probe starting on page 44 However no probe is connected to the Probe Connector Socket 20 The resistance value Hg obtained with this measuring method also includes operational earth electrode resistance and resistance at phase conductor L These values must be deducted from the measured value in order to determine earthing resis tance e 087 Q SEES S Ly 238 aBHz Autos If conductors of equal cross section are assumed phase conduc tor L and neutral conductor N phase conductor resistance is half as great as supply impedance phase conductor neutral con ductor Supply impedance can be measured as described in chapter 9 starting on page 41 In accordance with DIN VDE 0100 the operational earth elec trode Rg must lie within a range of OQ to 2 Q GMC I Messtechnik GmbH Earthing resistance is determined with the following equation Re oop ma Rj Bg The value for operational earth conductor resistance Rg should be ignored in the calculation of earthing resistance because it is generally unknown The calculated earthing resistance thus includes operational earth conductor resi
9. Rio Bonding conductor resistance pole to PE 74 Insulation Reso Earth leakage resistance DIN 51953 Riso Insulation resistance Standing surface insulation resistance Zst Standing surface insulation impedance Current lA Breaking current lL Leakage current measured with clip on current transformer Measuring current In Nominal current Ip Test current Voltage Line voltage frequency N Nominal voltage rated frequency Uban Operating voltage Ue Earth electrode voltage Ui Voltage between two phase conductors Voltage between L and Voltage between L and PE U Voltage UN Nominal line voltage Us Highest measured voltage during determination of phase sequence Uprobe Us pe Voltage between probe and PE probe voltage Uy Conductor voltage to earth 7541 Temperature and Humidity Measuring Adapter Relative humidity Temp 9 Temperature GMC I Messtechnik GmbH 19 Repair and Replacement Parts Service Calibration Center and Rental Instrument Service If required please contact Service GmbH Service Center Thomas Mann Strasse 20 90471 N rnberg Germany Phone 449 911 817718 0 Fax 49 911 817718 253 E mail service8gossenmetrawatt com This address is only valid in Germany Please contact our representatives or subsidiaries for service in other countries Calibration Laboratory for Electrical Quantities DXD K 19701 accredited per DIN EN
10. X te 251 De LM Sean 188 Re 250 Contact voltage and time to trip can be tested in the same way as for standard RCCBs Note It must be observed that time to trip for type G RCCBs may be as long as 1000 ms when measurement is made at nominal residual current In such cases disregard the red FI RCD Lamp sg GMC I Messtechnik GmbH c Then select 5 x lay in the menu and repeat the tripping test with the positive half wave at O and the negative half wave at 180 The longer of the two tripping times is decisive regarding the condition of the tested RCCB In bu 5BU wu 7 MENU 5 Ffon ig Ia Re Lh 25U In both cases tripping time must be between 10 ms minimum delay time for type G RCCBs and 40 ms Type G RCCBS with other nominal residual current values must be tested with the function selector switch in the corresponding posi tion under menu item lan The red FI RCD Lamp is disregarded in this case as well Note Menu item S for selective RCDs is not suitable for type RCCBs gn 33 7 4 Testing with Adjustable Residual Current The same tests as described in chapter 7 1 can be performed under menu item except that all tests and measure ments are performed with a test current which can be adjusted within a range of 3 mA to 550 mA This function e g contact vol tage at the tripping contact is
11. and then proceed as described above 10 3 5 Downloading a Software Update Managing Report Data If you require an updated test instrument software it can be downloaded with the help of WinProfi PC software The data file with the desired software version is transmitted to the test instru ment via the serial interface The previously installed language is overwritten Sg Note This software includes all of the functions required for communications between the PROFITEST 0100S I1 and the PC A description of the program is included in the online user s manual which can be accessed from Win Profi WinProfi Software GMC I Messtechnik GmbH A Install WinProfi to the PC and Start the Program gt First install the software to your PC Insert the CD into the CD drive for example drive E Execute the file E GMCDEMO gt Click the globe icon c Follow the instructions which appear at the monitor The program is added to your START menu after installation c Establish a connection between your PC and the PROFITEST 0100 11 test instrument by using the IrDa USB converter gt Start WinProfi Switch on the test instrument by pressing the Menu Key lt gt Set the on time period of the PROFITEST 0100 11 to 90 s to give you enough time for adjusting the settings in WinProfi before the test instrument switches off again automatically see chapter 3 2 e Display or print out online user s manual The online man
12. e Leakage currents with clip on current transformer e Meter start up Cable length Meaning of Symbols on the Instrument Warning concerning a point of danger A Attention observe documentation ta Safety class device 9 V DC charging socket for NA 01008 battery charger This device may not be disposed of with the trash Further information regarding the WEEE mark can be accessed on the Internet at www gossenmetra watt com by entering the search term WEEE GMC I Messtechnik GmbH C EC label of conformity EMA EUR IMQ approval mark 2 Safety Features and Precautions This instrument fulfills the requirements of the applicable Euro pean and national EC guidelines We confirm this with the CE marking The relevant declaration of conformity can be obtained from GMC I Messtechnik GmbH The PROFITEST 0100 11 electronic measuring and test instru ment is manufactured and tested in accordance with safety regu lations IEC 61010 1 EN 61010 1 VDE 0411 1 When used for its intended purpose safety of the operator as well as that of the instrument is assured Read the operating instructions thoroughly and carefully before placing your instrument into service and follow all instructions contained therein Make sure that the operating instructions are available to all users of the instrument Tests may only be performed under the supervision of a qualified electri cian The user must be instruc
13. once to display the circuit gt lt diagram Press the same key again to alternate between Is the circuit diagram and on line help Press the Menu Key 4 to exit the help function 6 Measuring Alternating Voltage and Frequency 6 1 Voltage between L and N Set Up Charge amp Setup lt 231 V 5OOQHZ Note Measurements cannot be made with the Measuring Adapter 2 pole 12 in the function GMC I Messtechnik GmbH 6 2 Voltage between L and PE N and PE as well as L and Set Up lt ln Xp Ue OO V j 228 V 2 U pf The display is switched to the other two voltages measured at the menu es Sequence socket by pressing the lay i key The previous display can only To Hp on EE SHEFOEMEI be recalled by pressing the START key Tarptclip on transformer Temp Frew lt IA N2 Ceo GMC I Messtechnik GmbH 19 6 3 Voltage between the Probe and PE Us Set Up UL PE 20 FE H3 phase sequence ILtclip on transformer Tarp iclip on transformer emp Prep Cale 183 ue 131 V 6 4 Measuring Current with a Clip On Current Transformer Bias leakage and circulating current to 1 A as well as leakage current to 150 A can be measured with the help of the 01008 Clip special clip o
14. 0 25 0 99Q Uy 400V half waves 1 00 9 992 500 V2 at Zoop yy Hu OA 999 A 120 108 132 V 1 00 9 99 230 196 253 fy 50 60 Hz value calculated from 2 10 0 50 0 kA 400 340 440 V 083 34A 0 150 049 s 1096 rdg 20 083 34A 0500 0 990 s 1096 rdg 30 30 083 34A 1 00 9990 U 120 239 V 5 rdg 3d 30 400 mA 10 2 99 90 Uy 400V 410 rdg 30 30 40 mA 100 2 999 50 60 Hz 10 rdg 30 30 4mA 9 99 10 rdg 30 3d calculated value 10kQ 199 x 1096 rdg 20 5 rdg 3d 23mAat230V 200kQ 999kO 342096 rdg 20 10 rdg 3d 199 20 rdg 20 20 0 30 Rico Re iso 50 kQ 100 55 rdg 10 3 rdg 10 25 600 V 3 rdg 1g 1 5 rdg 1d 0 010 9990 ora aoe Im 2 200 mA rdg 2d 2 rdg 2 d 1 Only for systems with overvoltage category 11 contamination factor 2 max 5 minutes 2 U gt 253 V with 2 pole adapter only 9 100 Uy x 1 0 4 with external adapter Z541A as accessory 5 Ian 500 mA max Uy 250 V L PE 300 V L L 500 V GMC I Messtechnik GmbH 63 Reference Conditions Line Voltage Line Frequency Line Impedance Angle Probe Resistance Supply Voltage Ambient Temperature Relative Humidity Cont
15. 40 0 36 40 0 38 4 40 47 0 45 0 49 45 0 47 5 0 45 0 41 45 0 43 2 45 83 0 50 0 54 50 0 52 8 0 50 0 46 50 0 48 0 50 58 0 55 0 59 60 0 63 3 0 60 0 55 60 0 57 6 56 65 0 60 0 65 70 0 73 8 0 70 0 65 70 0 67 2 60 69 0 70 0 75 80 0 84 4 0 80 0 75 80 0 76 9 70 80 0 80 0 86 90 0 94 9 0 90 0 84 90 0 86 5 80 92 0 90 0 96 100 106 1 00 0 94 99 9 96 0 90 103 1 00 1 07 150 158 1 50 1 42 100 114 1 50 1 59 200 211 2 00 1 90 150 169 2 00 212 250 264 2 50 2 38 200 253 2 50 2 65 300 316 3 00 2 86 250 315 3 00 3 17 3 50 3 34 300 378 3 50 3 70 4 00 3 82 350 440 4 00 4 23 4 50 4 30 400 503 4 50 4 75 5 00 4 78 450 565 5 00 5 28 6 00 5 75 500 628 6 00 6 33 7 00 6 71 600 753 7 00 7 38 8 00 7 67 700 878 8 00 8 44 9 00 8 63 800 2999 9 00 9 49 72 GMC Messtechnik GmbH 18 6 Table 6 Short Circuit Current Minimum Display Values for the determination of nominal current for various fuses and breakers for systems with nominal voltage of Uy 230 240 V Low Resistance Fuses in accordance with the DIN VDE 0636 series of standards Witi Gircuit Breaker dnd Dino Switch Characteristic B E Characteristic C Characteristic D Characteristic K formerly L formerly G U Breaking Current Breaking Current Breaking Current I Breaking Current 5 x ly lt 0 2 5 0 4 s 10 x Iy lt 0 2 5 0 4 s 20 x ly lt 0 2 5 0 4 s 12 x Iy lt 0 1 s Limit Value Min Display Limit Value Min Display Limit Value Min Display Limit Value
16. ISO IEC 17025 2005 Accredited measured quantities direct voltage direct current values DC resistance alternating voltage alternating current values AC active power AC apparent power DC power capacitance frequency and temperature Competent Partner GMC I Messtechnik GmbH is certified in accordance with DIN EN ISO 9001 2000 Our DKD calibration laboratory is accredited by the Deutscher Kalibrierdi enst German Calibration Service in accordance with DIN EN ISO IEC 17025 2005 under registration number DKD K 19701 We offer a complete range of expertise in the field of metrology from test reports and proprietary calibration certificates right on up to DKD calibration certificates Our spectrum of offerings is rounded out with free test equipment manage ment GMC I Messtechnik GmbH An on site DKD calibration station is an integral part of our service depart ment If errors are discovered during calibration our specialized personnel are capable of completing repairs using original replacement parts As a full service calibration laboratory we can calibrate instruments from other manufacturers as well 20 Recalibration Service In our Service Center we calibrate and recalibrate e g after one year as part of your test equipment monitoring system prior to use for all instruments of GMC I Messtechnik GmbH and other manufacturers and offer you free test equipment management Address see under chapter 19 21 Product S
17. Min Display Limit Value Min Display Limit Value Min Display Nominal Characteristic gL gG gM Characteristic gL Current ly Breaking Current 1 5 s Breaking Current 1 0 45 Example Display value 90 4 A 2 next smallest value for circuit breaker characteristic B from table 85 A gt protective device nominal current In max 16A GMC I Messtechnik GmbH 7 18 7 List of Abbreviations and their Meanings RCCBs Residual Current Device RCD lA Tripping current IAN Nominal residual current Rising test current residual current PRCD Portable residual current device Re Calculated earthing or earth electrode loop resistance S Selective residual current device SRDC Socket residual current device permanently installed ta Time to trip breaking time Contact voltage at moment of tripping Contact voltage in relationship to nominal residual current lAN UL Contact voltage limit value Overcurrent Protective Devices lk Calculated short circuit current at nominal voltage Z Line impedance 21 Loop impedance Earthing Rg Operational earth resistance Re Measured earthing resistance RELoop Earth electrode loop resistance Low Value Resistance at Protective Earthing and Bonding Conductors Rio Bonding conductor resistance pole to PE
18. The faster more simple measuring method should thus be taken advantage of see chapter 7 1 7 2 2 Testing RCCBs with 5 10 mA and 30 mA The measurement of time to trip is performed here with 5 times nominal residual current Note Measurement performed with 5 times nominal fault current are required for testing RCCBs in the manufacturing process They are used for personal safety as well Measurement can be started with the positive half wave at O or with the negative half wave at 180 Both measurements must nevertheless be performed The longer of the two tripping times is decisive regarding the condition of the tested RCCB Both values must be less than 40 ms 27 10 In 30 wv PE G AD bu Sal 188 Up 25u Press and hold the 11ms U BF 7 2 3 Testing of RCCBs which are Suited for Pulsating DC Residual Current In this case RCCBs can be tested with either positive or negative Is for tripping at 1 4 times nominal half waves The standard cal current 5 5 Press and S hold the key 28 gt l Ira UL z 5B ES s E v z w ns LI 5 Tia El Note According to DIN EN 50178 VDE 160 RCCBs of t
19. at batteries or rechargeable batteries at short regular intervals or after the instrument has been in storage for a lengthy period of time If leakage has occurred the electrolyte must be carefully and com pletely removed with a damp cloth and new batteries must be installed before the instrument is placed back into operation If the battery test indicates that battery voltage has fallen below the minimum allowable value see chapter 3 3 Battery Test on page 9 install a new set of batteries or charge the rechargeable batteries see chapter 3 1 Installing or Replacing Batteries on page 8 UL n m Battery test Charge Self tesz Setup ey Sr b d IN Attention Use only the NA 01005 battery charger with reliable electrical isolation and a nominal secondary value of 9 V DC for the recharging of batteries Before connecting the charger to the charging socket make certain that Rechargeable batteries have been installed not standard batteries GMC I Messtechnik GmbH The instrument has been disconnected from the measuring circuit at all poles The voltage selector at the charger is set to 9 V 17 2 1 Problem The rechargeable battery pack cannot be charged The first time the battery pack is charged When a battery pack is charged which includes batteries which have been charged to greatly varying levels This can be recognized by the fact that after approximately 30 minutes of charg
20. for measurements with rising residual current in systems with selective RCDs The instrument always shuts itself off automatically 5 3 Measurement Value Display and Memory The following appear at the LC Display Field 1 e Measurement values with abbreviations and units of measure e Selected function Nominal voltage Nominal frequency Error messages Measurement values for automatic measuring sequences are stored and displayed as digital values until the next measurement sequence is started or until automatic shut off occurs If the measuring range upper limit is exceeded the upper limit value is displayed and is preceded by the gt symbol greater than which indicates measurement value overrun 5 4 Testing Earthing Contact Sockets for Correct Connection The testing of earthing contact sockets for correct connection prior to protective measures testing is simplified by means of the instrument s error detection system The instrument indicates improper connection as follows e Non allowable line voltage lt 60 V or gt 253 V The NETZ MAINS Lamp 6 blinks red and the measuring se quence is blocked GMC I Messtechnik GmbH e Protective conductor not connected or potential to earth gt 100 V at f gt 45 Hz The PE Lamp 5 lights up red when contact is made with the Contact Surfaces 19 The measurement is not blocked when the lamp is lit It does not light up i e is not functional when the instrument
21. instrument can now be returned to the menu display by pressing the MENU key or testing can be started for the Riso function U Uyap by activating the START key GMC I Messtechnik GmbH 12 3 Insulation Measurement with Rising Test Voltage The Uiso 4 function is used to detect weak points in the insula tion as well as to determine response voltage for voltage limiting components As long as the START key is held depressed test voltage rises continuously Insulation measurement is started As soon as the upper voltage limit of 500 V has been reached Or e As soon as the START key has been released when the desired voltage appears at the display Or e As soon as a measurable test current has been detected e g after sparkover occurs at breakdown voltage Test voltage any response and breakdown voltage which may be present and insulation resistance are displayed 12 4 Evaluation of Measurement Values Instrument measuring error must be taken into consideration in order to assure that the limit values set forth in DIN VDE regula tions are not fallen short of The required minimum display values for insulation resistance can be determined with the help of Table 3 on page 72 These values take maximum device error into consideration under nominal conditions of use Intermediate val ues can be interpolated GMC I Messtechnik GmbH 12 5 Setting the Limit Value The insulation resistance limit value can be set with the Ri
22. maximum allowable value Tables containing allowable display values for loop impedance and minimum short circuit current display values for ampere rat ings for various fuses and circuit breakers can be found in chapter 18 starting on page 71 Maximum device error in accordance with VDE 0413 has been taken into consideration in these tables See also chapter 8 2 In order to measure loop impedance ZL the instrument uses a test current of 0 83 A to 4 A dependent upon line voltage and line frequency The test has a duration of max 600 ms If dangerous contact voltage occurs during measurement gt 50 V safety shut down occurs GMC I Messtechnik GmbH The test instrument calculates short circuit current IK based on measured loop impedance 2 and line voltage Short circuit current calculation is made with reference to nominal line voltage for line voltages which lie within the nominal ranges for 120 V 230 V 240 V for English UK parameter and 400 V systems If line voltage does not lie within these nominal ranges the instru ment calculates short circuit current Ik based upon prevailing line voltage and measured loop resistance ZL Loop resistance can be measured with either the positive or the negative half wave with the PROFITEST 0100S II This measuring method in combination with the PROFITEST DC II adapter allows for the measurement of loop impedance in systems which are equipped with RCCBs A four c
23. resistor After pressing the Start Key t 8 the meter can be tested for proper start up within a period of 5 s All phases must be tested against N one after the other lt mar wWw Prest n RUN Ly 2328 S8Hz After testing has been completed testing power is displayed The instrument is now ready for further testing READY 568 W READY Ly 2328 S8Hz E _ GMC I Messtechnik GmbH 9 Measuring Supply Impedance function Zj Measuring Method Supply impedance Z is measured by means of the same method used for loop impedance Z see chapter 8 page 37 How ever the current loop is completed via neutral conductor N rather than protective conductor PE as is the case with loop impedance measurement Set Up 1 Bey Test counter start up MENU y lt s OY 0 lt j r 111 A Un 2zml GMC I Messtechnik GmbH Note Measurement of supply impedance is only possible with the 4 oop function if the Measuring Adapter 2 pole 12 is attached 41 9 1 Testing Meter Start Up with Earthing Contact Adapter Start up of energy consumption meters which are connected between L and N can be tested with this function Set Up 2 8 42 Test counter start up Meters are tested with the help of an internal load resistor After
24. 8 E I UL 254 L GMC I Messtechnik GmbH 73 V 4 80 2281 fyomHz Ll el Tripping Test gt Press the lan key 2 or 18 The RCCB is tripped The hour glass appears at the LC Display Field 1 which is followed by the display of time to trip t4 and earthing resistance Re 3g Note Selective RCDs demonstrate delayed response charac teristics Tripping performance is briefly influenced up to s due to pre loading during measurement of contact voltage In order to eliminate pre loading caused by the measurement of contact voltage a waiting period must be observed prior to the tripping test After the measuring sequence has been started tripping test the hour glass appears in the LC Display Field 1 Times of up to 1000 ms are allowable 29 5 Decay of preload SS jJ trip immediat with button U dl f Hz ULIAN If the lan key 2 or 18 is activated again the LC Display Field 1 returns to the Ujan display 30 7 3 2 PRCDs with Non Linear Elements Terminology from DIN VDE 0661 Portable protective devices are circuit breakers which can be connected between power consuming devices and permanently installed electrical outlets by means of standardized plug and Socket devices A reusable portable protective device is a protective device which is designed such that it can be connected to movable cables Ple
25. ENU Ira amp The IT mode is exited automatically an attempt is made to perform the measurement without a probe or if probe resistance is greater than 50 kQ a prohibited bias occurs between the probe and earth the function selector switch 9 is turned the instrument shuts itself off automatically Press the key repeatedly until the IT symbol group appears GMC I Messtechnik GmbH 35 7 6 Testing Residual Current Circuit Breakers in TN S Systems Connections RCCBS can only be used in TN S systems An RCCB would not work in a TN C system because PE is directly connected to the neutral conductor in the outlet it does not bypass the RCCB This means that residual current would be returned via the RCCB and would not generate any differential current which is required in order to trip the RCCB In determining contact voltage and earth resistance it must be kept in mind that loop impedance 2 is determined rather than earth resistance Re Due to minimal measuring current with a value of for example 10 mA for a 30 mA RCCB resolution is only 3 for Re Z Since loop resistance is generally less e g 1 is displayed in most cases Sg Note Observe national regulations e g the necessity of con ducting measurements without regard for RCCBs in Aus tria see also chapter 8 3 36 Us OO Y R 00 Ll 25810 UL Sel
26. H 13 4 Setting the Limit Value The resistance limit value can be set with the o Limit function If measurement values which exceed this limit occur the red Uj LED lights up Limit values can be selected within a range of 0 10 to 10 Q Select the desired limit value with the lan i key The display returns to the menu when the MENU key is activated The instrument can be returned to the menu display by pressing the MENU or testing can be started with the basic function by activating the START key n Q 2 ML GMC I Messtechnik GmbH 14 Phase Sequence Testing Set Up The Measuring Adapter 2 pole 12 is required for connection of the instrument and is expanded to a 3 pole measuring adapter with the included measurement cable FE 3 3 phase sequence an transformer MENU I lip on transformer We 4 Feet Ez 9l 1H3 Note The following appear at the LC Display Field 1 Highest occurring voltage within the measuring circuit Allthree phases displayed in order of their sequence represented by the numbers 1 2 3 the numbers are separated by two periods Acircle with an arrow which indicates direction of rotation 55 rant Ww Clockwise rotation Counter clockwise rotation F 4 or N to phase Phase missing 2 lt J GMC I M
27. INS 1 blinks green lan RE 1 21 lan 500 mA 330 V blinks green Line voltage of 65 V to 550 V measurement can be performed NETZ lights up Lu Re Z4 Z Line voltage of 65 V to 253 V to PE 2 different phases active MAINS orange Loop no N conductor at mains measurement can be performed E 1 blinks red lan Re Zi Zi Line voltage of 65 V or gt 253 V measurement blocked BRE blinks red Line voltage of lt 65 V or gt 550 V measurement blocked NETZ lights up MAINS red Riso Interference voltage detected measurement blocked lights lAN Contact voltage Ujan or Uja gt 25 V respectively gt 50 V UR 9 red p Safety shut down has occurred Riso Limit value exceeded or fallen short of for Rigg Ry function FI RCD lights up The RCCB was not tripped or was tripped too late during the tripping test red AN the RCD tripped at 50 with English UK parameter The NETZ MAINS Lamp 6 has no function during testing for residual current devices RCDs in IT systems 66 GMC Messtechnik GmbH 17 Maintenance 17 1 Self Test GMC I Messtechnik GmbH Battery test Charge Self test Setup PROFITEST B1BHBSII UERSIOUH 123 81 HD 42 12 97 Ident Humber Calibration Dates IH WOE Tg a5 pori CHECKSUM CAL CHECKSUM o i i The following inf
28. Initiate measurement with the Start Key After measurement has been completed press the lw i key The following message appears in the status line at the dis play AR o Offset xxx where xxx is equal to a value between 0 00 and 9 99 This value will now be deducted from the actual measurement value for all subsequent AR measure ments Once the offset has been stored to memory it remains even after the instrument has been switched off Only use this function when taking measurements with an extension cable Whenever different extension cables are used the above described procedure must be repeated 54 13 3 Calculation of Cable Lengths for Common Copper Conductors If the law i key is activated after performance of resis tance measurement in accordance with chapter 13 1 the cable lengths corresponding to common conductor cross sections are displayed C Ww Creme Em 167 BH 1l 8 25 BGT LA 13 50 1 74 zH Btu 2 81 18 8 3h 1 48 Z8 15 8 59 1 54 5 22 25 8 Sr If results vary for the two different current flow directions cable length is not displayed In this case capacitive or inductive com ponents are apparently present which would distort the calcula tion This table only applies to cables made with commercially available copper conductors and cannot be used for other materials e g aluminum GMC I Messtechnik Gmb
29. Operating Instructions GOSSEN METRAWATT PROFITEST 0100S Il 3 348 889 03 Tester DIN VDE 0100 14 2 10 36 5 6 7 8 9 101112 13 14 15 NOA 22 21 he PROFITEST 0100 11 test instrument can be supplemented by the Sl module PROFITEST S BC for storage alphanumeric and barcode entry 2019 1817 GMC I Messtechnik GmbH 2930 3132 i 58 Pu 0350 E 9 M238U fuSBHz 1450 34 33 Measured value storage function in printer active 28 1 LC Display Field 12 Measuring Adapter 2 pole 21 Strap Eyelets 31 Three Place Numeric Display Measure 2 1 13 Plug Insert 22 Swivel Hinge with Unie ot Measure 3 Start Key W country specific 23 Replacement Fuses 32 Three Place Numeric Display Measure 4 Menu Key 14 Test Plug 24 Fuses ment Value 2 with Unit of Measure with retainer ring 33 Abbreviation for Selected Sub Function 5 PELamp 15 Alligator Clip 25 FOR UE Stand Messages and Help 6 NETZ MAINS Lamp plug on 26 Serial Plate 34 Measurement Value 2 Abbreviated 7 Lamp 16 Test Probes 27 Battery Holder 35 Charging Socket Current Transformer 8 FI RCD Lamp 17 Start Key W 28 Battery Compartment Lid Connector Jack 9 Function Selector Switch 18 Keyl 29 Measurement Value 1 36 Infrared Interface 10 Shoulder Strap Abbreviated 19 Contact Surfaces Ma 11 TestPlug Holder 30 Abbreviation for Selected 20 Probe Connector Socket Sub Function GMC I Messte
30. Protection against foreign object entry not protected gt 50 0 mm 2 gt 12 5 gt 2 5 gt 1 0 2 infrared interface SIR IrDa bidirectional half duplex transmission 9600 baud 1 start bit 1 stop bit 8 data bits no parity no handshake max 30 cm recommended distance 10 cm 240 mm x 340 mm x 62 mm without measurement cables approx 2 5 kg with batteries housing IP 40 test probe IP 40 per DIN VDE 0470 Part 1 EN 60529 Extract from table on the meaning of IP codes P XY Protection against the pene 274 digit Y tration of water 0 not protected 1 vertically falling drops 2 vertically falling drops with enclosure tilted 15 3 spraying water 4 splashing water 65 16 1 Lamp Functions Meas Function Selector Switch 5 Adapter Position 9 Function Instrument off and potential difference 2 100 V between contact finger and one of terminals L N PE or L1 L2 all L3 with single pole connection or PE earthing contact with multi pole connection frequency f gt 45 Hz Instrument on and potential difference gt 100 V between contact finger and PE earthing contact lan Re Rro ZLoop Riso frequency f gt 45 Hr 4 Status Test Plug lights up PE red lights up RE red MaE 1 one lan Re RI ZLoop Line voltage of 65 V to 253 V measurement can be performed NETZ Line voltage of 65 V to 440 V N conductor not connected measurement can be performed MA
31. Rr Un 228 fy SBHz Resistance values must be measured at several points in order to provide for adequate evaluation Measured resistance may not exceed 50 kQ at any given point If the measured resistance is greater than 1 gt 999 appears at the LC Display Field 1 Note In addition to the standing surface insulation impedance Zar the resistive portion Ret is also indicated 47 12 Measuring Insulation Resistance Function Riso Set Up Riso gt R U 5BBU ENS LHE Fins zung DU MENU UAR Ute Ei Limit If you use the test plug together with a plug insert insula tion resistance is only measured between the phase con ductor terminal designated L and the protective con ductor terminal PE 257 Checking the Measurement Cables Before performing insulation measurement the test probes on the measurement cables should be short circuited in order to assure that the instrument displays a value very close to In this way incorrect connection can be avoided and broken measurement cables can be detected 48 GMC I Messtechnik GmbH 189 If measured insulation resistance is less than the selected limit value see chapter 12 5 the Lamp 7 lights up S Note Insulation resistance can only be measured at voltage free objects If an interference volt
32. act Finger Standing Surface Insulation Nominal Ranges of Use Voltage Un Frequency fy Overall Voltage Range Uy Overall Frequency Range Waveform Temperature Range Battery Voltage Line Impedance Angle Probe Resistance 64 Meas Quantity Frequency Meas Quantity Waveform 230 V0 1 50 Hz 0 1 96 45 Hz 65 Hz sine deviation between effective and rectified value lt O 196 COS 1 100 battery 8 V 0 5 V 23 2 40 96 60 96 for testing potential diff at earth resistive only 120V 108 132 230 V 196 253 400 V 340 440 16 Hz 15 4 18 Hz 50 Hz 49 5 50 5 Hz 60 Hz 59 4 60 6 Hz 200 Hz 190 210 Hz 400 Hz 380 420 Hz 65 550 V 15 4 420 Hz sine 0 40 6 10V corresponds to cos 1 0 95 lt 50 Ambient Conditions Storage Temperature Operating Temperature Relative Humidity Elevation Power Supply Batteries Rechargeable Batteries battery charger not included Charging Time 20 60 C without batteries 10 50 C max 75 no condensation max 2000 m 6 ea 1 5 V mignon cell alkaline manganese per IEC LR6 or ANSI AA or JIS AM3 NiCd or NiMH NA 0100S 9 V DC jack plug 3 5 mm dia approx 8 hours Number of Measurements with one set of batteries without illumination Riso 1 measurement 25 s pause 1500 measurements automatic pole
33. act pro tected plug The instrument determines whether or not the probe has been properly set and displays results at the LC Display Field 1 21 Strap Eyelets Strap eyelets are located at the left and right hand sides of the instrument A strap or a belt can be passed through these eyelets for strapping the instrument to the operator s body 22 Swivel Hinge The display and control field can be swiveled forward or back ward with the detented swivel hinge The instrument can thus be set to the optimum reading angle 59 23 Replacement Fuses Two replacement fuses are located beneath the Battery Compart ment Lid 28 24 Fuses The two type M 3 15 500G fuses safety fuse FF 3 15 500G pro tect the instrument against overload Phase conductor L and neu tral conductor N are fused individually If a fuse is defective and if an attempt is made to perform a measurement which uses the circuit protected by this fuse a corresponding message appears at the LC Display Field 1 Attention Severe damage to the instrument may occur if incorrect fuses are used Only original fuses from Messtechnik GmbH assure required protection by means of suitable blowing characteristics order no 3 578 189 01 Note Voltage ranges and remain functional even if fuses have blown 60 25 Fold Out Stand The fold out stand provides the adjustable control and display field with a more secure stance Th
34. age of gt 10 V is present within the system insulation resistance is not measured The NETZ MAINS Lamp 6 lights up and a display appears at the LC Display Field 1 e g yr START ie e e External voltage All conductors L1 L2 L3 and N must be tested against PE GMC I Messtechnik GmbH A Attention N Do not touch the instrument s terminal contacts during insulation resistance measurements If nothing has been connected to the terminal contacts or if a resistive load component has been connected for measurement your body would be exposed to a current of approx 1 mA at a voltage of 500 V The resulting electrical shock is not life endangering However the noticeable shock may lead to injury e g resulting from a startled reaction etc A Attention N If measurement is performed at a capacitive object such as a long cable it becomes charged with up to approx 500 V Touching such objects is life endangering When an insulation resistance measurement has been performed on a capacitive object it is automatically discharged by the instru ment after the Start Key W 3 or 17 has been released Contact between the object and the instrument may not be interrupted The voltage decline can be observed directly at the LC Display Field 1 Do not disconnect the object until voltage has fallen below 25 V t Note The instrument s batteries are exposed to excessive str
35. al 25 If the lan key 2 or 18 is pressed again the previous display appears at LC Display Field 1 for about 3 s If the RCCB is not tripped at nominal residual current the FI RCD Lamp 8 lights up red Attention If contact voltage is too high or if the RCCB is not tripped the system must be repaired e g earthing resis tance is too high defective RCCB For proper RCD testing at three phase connections the tripping test must be conducted for each of the three phase conductors L1 L2 and L3 Note Voltage peaks may occur within the measuring circuit if inductive consumers are shut down during an RCCB trip test If this is the case the test instrument may display the following message Check test setup If this message appears switch all consumers off before performing the trip test In extreme cases one of the fuses in the test instrument may blow 26 7 2 Special Testing for Systems and RCCBs 7 2 1 Testing for Systems and RCCBs with Rising Residual Current Measuring Method The instrument generates a continuously rising residual current of 0 3 1 3 lay within the system for the testing of RCDs The instrument stores the contact voltage and tripping current values which were measured at the moment tripping of the RCCB occurred and displays them One of two contact voltage limit values Uj 25 V or UL 50 V can be selected for measurement with rising re
36. and safety shut down occurs Probe resistance does not effect measurement results and may be as high as 50 If probe resistance is too high measurement is automatically performed without the probe see chapter 10 2 Measuring without Probe on page 45 Attention The probe is part of the measuring circuit and may carry a current of up to 3 5 mA in accordance with VDE 0413 43 10 1 Measuring with Probe Set Up 10 1 1 Automatic Measuring Range Selection K 8 CAutorange lakn ikt 1an jan cba gAn Site insulation a IE 123 0 Ly 238 fy E 44 10 1 2 Manual Measuring Range Selection Manual measuring range selection is provided for the measure ment of earthing resistance in systems with RCCBs Test current Ip at the instrument must be taken into consideration in order to avoid undesired tripping of the RCCB DU Pz Ie Note Autorange me ikto leen cgo me Bu 28 00 Zst Site insulation 650 Q Ly 2328 fu E When the measuring range is selected manually accu racy values are only valid starting at 596 of the upper limit range value except for the 10 O range separate display for small values GMC I Messtechnik GmbH 10 2 Measuring without Probe
37. arting the measurement and switch off all consumers If the English UK parameter has been selected in setup a 2 sec ond test at 5096 nominal residual current is performed before the RCD is tripped If the RCD trips within this test period the F RCD Lamp 8 also lights up red and no trip delay is displayed 24 In 10mA lay 30 Note Interference voltages at protective conductor PE at the earth electrode or at the probe if properly connected have no influence on measurement results Interference voltages can be measured with the Measuring Adapter 2 pole 12 by means of voltage measurement If bias currents should occur these can be measured with the help of a clip on cur rent transformer as described in chapter 6 4 on page 20 The RCCB may be tripped during the testing of contact volt age if extremely large bias currents are present within the system or if a test current was selected which is too great for the RCCB In such cases the following message appears check test set up gt I AH pizzy las 287 slau 158 Ia var Re 291 GMC I Messtechnik GmbH 100 mA Ian 300 In 500 Ira tea P El Un bu 251 DO V 57193 Ll 228 ULSA Liz S8 2 ie 4 S 534 2m AES If contact voltage Ujan which has been measured with 1 3 nomi nal residual current law and expounded to lan is gt
38. ase be aware that a non linear element is usually integrated into PRCDs which leads to immediate exceeding of the greatest allowable contact voltage during Uj measurements Uj greater than 50 V PRCDs which do not include a non linear element must be tested in accordance with chapter 7 3 3 on page 32 Objective from DIN VDE 0661 Portable residual current devices PRCDs serve to protect per sons and property They allow for the attainment of increased lev els of protection as provided by protective measures utilized in electrical systems for the prevention of electrical shock as defined in DIN VDE 0100 Part 410 They are to be designed such that they can be installed by means of a plug attached directly to the protective device or by means of a plug with a short cable Measuring Method The following can be measured depending upon the measuring method Time to trip ta tripping test with nominal residual current lan Tripping current testing with rising residual current GMC I Messtechnik GmbH Set Up Ian 10mA 30 ww lt Displa menu page 2 X GMC I Messtechnik GmbH Fen puseu 250 control fon VEPCD with non lin Ipa element in PE s 2 Jw t 32ms U dl f Hz UL Seu 227 SS es l UL oe 31 7 3 3 SRCDs PRCDs SCHUKOMAT SIDOS or comparable RCCBs from
39. ble batteries are tested under load conditions When the Start Key W 3 or 17 is activated the NETZ MAINS U R and FI RCD lamps light up briefly for this reason If battery voltage has fallen below the allowable lower limit the symbol to the right appears The instrument does not function if the batteries have been depleted exces Sively and no display appears Up 50 V Replace battery 3 4 Recharging the Batteries Attention Use only the NA 0100S battery charger with reliable electrical isolation and a nominal secondary value of 9 V DC for the recharging of batteries Before connecting the charger to the charging socket make certain that Rechargeable batteries have been installed not standard batteries The instrument has been disconnected from the measuring circuit at all poles Connect the NA 01008 battery charger to the charging socket at the side of the housing bottom with the 3 5 mm jack plug Set the voltage selector switch at the NA 01008 to 9 V Charging is started with the same procedure as used for the bat tery test The instrument detects the presence of the charger and initiates the charging process Depleted batteries display 6 V require approximately 4 hours for complete charging The test instrument cannot be switched on if the batteries are severely depleted In such a case leave the instrument switched on with battery charger connected for about 30 minutes
40. chnik GmbH Contents 1 2 3 3 1 3 2 3 3 3 4 3 5 4 5 5 1 5 2 5 3 54 5 5 6 6 1 6 2 6 3 6 4 6 5 7 71 7 2 7 2 4 0 6 n het ae 6 Safety Features and Precautions 2 7 Initial Start Up centes 8 Installing or Replacing Batteries 8 Selecting a Language Basic Function and Sub Function Settings 8 Battery TeSt PE 9 Recharging the Batteries sss 10 Downloading a Software Update Managing Report Data 10 Abbreviated Instructions for Quick Initial Start Up 14 General Instructions eene 16 Connecting the Instrument 16 Automatic Settings Monitoring and Shut Off 16 Measurement Value Display and Memory 17 Testing Earthing Contact Sockets for Correct Connection 17 Help FUNCHON entere nef eh et eet 18 Measuring Alternating Voltage and Frequency 18 Voltage between L and N mmm 18 Voltage between L and PE N and PE as well as L and 19 Voltage between the Probe and PE Us ssss 20 Measuring Current with a Clip On Current Transformer 20 Z541A Temperature and Humidit
41. d or NiMH cells may also be used See also chapter 17 2 on page 69 concerning charging and the battery charger Always replace batteries in complete sets Dispose of batteries in an environmentally sound fashion gt Loosen the slotted screw at the Battery Compartment Lid 28 and remove the lid gt Pull the Battery Holder 27 out with the strap and insert six 1 5 V mignon cells with plus and minus poles in accordance with the symbols on the holder gt Insert the Battery Holder 27 with batteries into the battery compartment strap must be positioned beneath the holder The holder can only be inserted in its proper position Replace the lid and retighten the screw N Attention IN The instrument may only be placed into service if the Lt battery compartment lid is securely fastened 3 2 Selecting a Language Basic Function and Sub Function Settings gt m v test Ch attery tes arge Self tes d a Setup Dy NY Deutsche Anzeige amp EDD MENU ansk displa lt Indicazione in italiana Any of the available lan Indicaci n en Espanol guages can be selected by Hederlands aanwijzing pressing the Menu Key 4 amp Enalish Uk parameter If the English UK parameter has been selected the following differences apply to the other menu items Nominal voltage of 240 V instead of 230 V RCD trip test includes 2 sec at 50 nominal fault current before RCD is tri
42. e at the RCD The distance between the earth electrode and the probe should be at least 20 m The probe is connected with a 4 mm contact protected plug In most cases this measurement is performed without probe A Attention The probe is part of the measuring circuit and may carry a current of up to 3 5 mA in accordance with VDE 0413 Testing for the absence of voltage at the probe can be performed with the Uprope function See also chapter 6 3 on page 20 GMC I Messtechnik GmbH 7 1 Measuring Contact Voltage with reference to nominal residual current with 1 Nominal Residual Current and Tripping Test with Nominal Residual Current Set Up Measuring Method The following must be substantiated per DIN VDE 0100 part 610 2004 Contact voltage occurring at nominal residual current may not exceed the maximum allowable value for the system Tripping of the RCCB must occur within 400 ms 1000 ms for selective RCDs at nominal residual current 1 Measurement of Contact Voltage The instrument uses a measuring current of only 1 3 nominal residual current for the determination of contact voltage Ujan which occurs at nominal residual current This prevents tripping of the RCCB This measuring method is especially advantageous because contact voltage can be measured quickly and easily at any electri cal outlet without tripping the RCCB The usual complex measuring method involving testing f
43. e been carried out by skilled persons according DIN UDE 8105 Part 1 5 75 Subclause 3 2 1 The machine under test does GRESULT 8 meet the requirements of 68205 1 285 1 DIN VDE 8113 Messtechnik GmbH 13 4 Abbreviated Instructions for Quick Initial Start Up The performance of measurements and testing with the PROFITEST 01009 is quick and easy The integrated on line help and the abbreviated instructions are sufficient for most measurements Nevertheless you should read and observe the instructions which follow these abbreviated instructions as well Terminology Basic Function basic functions are selected with the Func tion Selector Switch 9 The basic function is the first entry in the menu window and is auto matically selected when the function selector Switch is activated Functions which are subordinate to the basic function in the menu window Sub functions are selected with the yellow Menu Key 4 and are subsequently highlighted with the arrow Measurements can be performed as follows for all measuring functions Sub Function Select the basic function with the Function Selector Switch 9 gt Turn the Function Selector Switch 9 to the desired basic func tion Connect the test instrument gt Connect the Test Plug 14 with attached Plug Insert 13 to the mains outlet or connect the instrument directly in a 2 pole mannerwith th
44. e computer should be switched off if necessary The manufacturer of the test instrument assumes no liability for any direct or indirect damage to equipment computers peripheral equipment or data bases when performing the tests Data Backup Measurement data and electrical circuit assignments can be safely stored in the RAM of a SI module which is attached to the test instru ment accessory PROFITEST standard equipment as long as the associated battery supplies the required voltage We advise you to regularly transmit your stored data to a PC in order to prevent potential loss of data in the test instrument We assume no responsi bility for any data loss For data processing and management we rec ommend the following PC software programs PS3 documentation management report generation and monitoring of deadlines e PC doc WORD EXCEL report and list generation e PC doc ACCESS test data management 3 Initial Start Up 3 1 Installing or Replacing Batteries Six commercially available 1 5 V mignon cells in accordance with IEC LR 6 are required for operation of the PROFITEST 0100S II Only alkaline manganese cells may be used which comply with IEC LR 6 The use of zinc carbon batteries is to be avoided due their short service life sg Attention Before opening the battery compartment disconnect the instrument from the measuring circuit mains at all poles Note Rechargeable NiC
45. e fold out stand should be used especially when the instrument is operated flat on a test bench with the optional SI module PROFI TEST attached to the top 26 Serial Plate The serial plate includes information concerning the functions as well as the instrument s characteristic values 27 Battery Holder The battery holder is designed for use with six 1 5 V mignon cells in accordance with IEC LR 6 for power supply to the instrument Make certain that the batteries are poled in accordance with the symbols when inserting new batteries The holder can only be inserted into the battery compartment in its proper position 28 Battery Compartment Lid A Attention When the lid is removed the instrument must be discon nected from the measuring circuit at all poles The battery compartment lid covers the Battery Holder 27 with the batteries the Fuses 24 and the Replacement Fuses 23 GMC I Messtechnik GmbH 29 Measurement Value 1 Abbreviated 30 Abbreviation for Selected Sub Function 31 Three Place Numeric Display Measurement Value 1 with unit of measure 32 Three Place Numeric Display Measurement Value 2 with unit of measure 33 Abbreviation for selected sub function messages and help 34 Measurement Value 2 Abbreviated 35 Charging Socket Current Transformer Connector Jack This socket may only be used for connection of the battery charger for recharging batteries in the instrument or t
46. e identify our electrical and electronic devices as of August 2005 in accordance with WEEE 2002 96 EG and ElektroG with the symbol shown to the right per DIN EN 50419 These devices may not be disposed with the trash Please con tact our service department regarding the return of old devices GMC I Messtechnik GmbH 18 Appendix Tables for the determination of maximum or minimum display values under consideration of maximum instrument operating error 18 1 Table 1 18 2 Table 2 full wave Z ZLoop half wave Re Ret x Max cha Max Max Limit Max Max Limit Value Display Value Limit Value Display Value Display Value Value Display Value Display Value 71 GMC I Messtechnik GmbH 18 3 Table 3 18 4 Table4 18 5 Table 5 Riso Rig 2 Zst kQ Limit Value Di marem e Limit Value Di Vd Limit Value Di Parm e Limit Value Di Macs e Limit Value Di M e 0 10 0 12 10 0 10 7 0 10 0 07 10 0 9 59 10 14 0 15 0 17 15 0 15 9 0 15 0 12 15 0 14 4 15 19 0 20 0 23 20 0 21 2 0 20 0 17 20 0 19 2 20 25 0 25 0 28 25 0 26 5 0 25 0 22 25 0 24 0 25 30 0 30 0 33 30 0 214 0 30 0 26 30 0 28 8 30 36 0 35 0 38 35 0 37 0 0 35 0 31 35 0 33 6 35 42 0 40 0 44 40 0 42 3 0
47. e plug on Measuring Adapter 2 pole 12 14 After a basic function or a sub function has been selected as described below the corresponding circuit diagram can be que ried at the LC Display Field 1 by pressing the i Key 2 or 18 e Selecting a basic function or a sub function with the Menu Key 4 When the Menu Key 4 is first activated the instrument is switched on The basic function and its corresponding sub functions are displayed in the menu 4 Battery test Charge Self test Setup UL N phase sequence PROBE TLtclip on transformer Tarapiclip on transformers Temp UL PE In 10mA D Fal B 1358 Ia var Re l225U GMC I Messtechnik GmbH lan 100 300 Ian 500 1 Se 59 Ge de GMC I Messtechnik GmbH xl Ira LI z 58 jen s EAT UL 254 AZ oop pos half waves us PE ne half uauesz ws Test counter start up Test counter start up zn CAutorange gt l kin ikto 1 Jai 20 00 Zst Site insulation Riso Rins LI 5HBU Fins Ly z 258 Feins Hy 188 5 Pma Limit IN Rio gt R auta ELo C Pol to PE Ryo 1 to PE tanto to PE 195 C Pol to o Limit lt Repeatedly pr
48. eater than 25 V 50 V during RCD testing as well as after safety shut down occurs It also lights up if Riso or o limit values have been exceeded or fallen short of 8 FI RCD Lamp This lamp lights up red if the RCCB is not tripped within 400 ms 1000 ms for selective RCDs during the tripping test with nominal residual current It also lights up if the RCCB is not tripped before nominal residual current has been reached during measurement with rising resid ual current If the English UK parameter has been selected it also indicates RCD tripping at 50 lAN 9 Function Selector Switch The following basic functions can be selected with this rotary switch Ui N Ui pg lan 10 mA 80 mA 100 mA 300 mA 500 21 oop Zi RE Rigo The various basic functions are selected by turning the function selector switch while the instrument is switched on 10 Shoulder Strap The included shoulder strap can be attached at the right and left hand sides of the instrument You can hang the instrument from your shoulder and keep both hands free for measurement 11 Test Plug Holder The Test Plug 14 can be stored in the holder at the instrument along with the attached Plug Insert 13 58 12 Measuring Adapter A Attention The Measuring Adapter 2 pole 12 may only be used together with the Test Plug 14 included with the PROFITEST 01008 11 Use for other purposes is prohibited The plu
49. es Celsius After using the 2541 neither SI modules nor IrDa adapters may not be used with the PROFITEST 0100S I1 during remaining on time Wait until the test instrument shuts itself down and then switch it back on again Error Message at the Test Instrument Exposure of the infrared interface to sunlight Depleted batteries in the Z541A adapter Incorrectly seated or defective adapter In order to avoid inadvertent start up due to infrared light the Z541A adapter should not be exposed to intensive sunlight battery service life 22 Connection lt 4 y Infrared Interface Temperature and Humidity Measuring Adapter Z541A J e di UL PE I Bemp U Fe phase sequence Toc Hp on transformers lip on transformers REL 4143 205 Feet 5 ZSA DK C 505 GMC I Messtechnik GmbH 7 Testing RCDs The testing of residual current devices RCDs includes e Visual inspection e Testing e Measurement The PROFITEST 0100 11 is used for testing and measurement Measurements can be performed with or without a probe How ever a probe is always required for measurements in IT systems Measurements with probe require that the probe and reference earth are of like potential This means that the probe must be positioned outside of the resistance area of the earth electrod
50. ess during insulation resistance measurement Only hold the Start Key W or 17 depressed until the display has stabilized 49 12 1 Measuring Earth Leakage Resistance function REqsoy This measurement is performed in order to determine electro static discharge capacity for floor coverings in accordance with EN 1081 Set Up Rub the floor covering at the point at which measurement is to be performed with a dry cloth gt Place the floor probe 1081onto the point of measurement and load it with a minimum weight of 300 N 30 kg lt Establish a conductive connection between the measuring electrode and the Test Probe 16 and connect the Measuring Adapter 2 pole 12 to an earth contact e g the earthing con tact at a mains outlet or a central heating radiator 50 Riso Ring U 5BBU Fins Ly z 25811 Feos Up 18811 a E Rm Limit INS aad lt ss 158 0 m 118 V The limit value for earth leakage resistance from the relevant regu lations applies 12 2 Insulation Measurement with Selectable Test Voltage A test voltage which deviates from and is usually less than nomi nal voltage can be selected under Uyap for measurements at sensitive components as well as for systems with voltage limiting components Selection can be made from 22 values ranging from 20 to 500 V Select the test voltage with the lay i key The
51. ess the Menu Key 4 until the arrow points to the desired function On line help can be queried for any selected function with the lan i keys 2 or 18 The selection of a function is not necessary if basic functions and Sub functions have been pre configured as described Start measurement with the Start Key W 3 17 and read measurement results Press the lan key 2 or 18 during the on time period before the instrument has shut itself off automatically in order to per form the tripping test for RCCBs 5 General Instructions 5 1 Connecting the Instrument For systems with earthing contact sockets connect the instru ment with the Test Plug 14 on which the Plug Insert 13 is attached to the mains Voltage between phase conductor L and the PE protective conductor may not exceed 253 V Poling at the socket need not be taken into consideration The instrument detects the positions of phase conductor L and neu tral conductor N and automatically reverses poles if necessary This does not apply to the following measurements Voltage measurement in selector switch position Insulation resistance measurement Low value resistance measurement Phase sequence testing Selection of English UK parameter in setup In this case no automatic pole reversal occurs The positions of phase conductor L and neutral conductor N are identified at the Plug Insert 13 If measurement is to be per
52. essage appears use current clip Set Up UL PE U FE wy phase sequence gt 4 UP ROE clip on transformer lt imp iclip on transformer Temp C25l 1805 lt START Ww L 1 85mA mm GMC I Messtechnik GmbH The switch position at the respective clip on cur rent transformer must be C CLIPO100s matched to the ranges of I a ae ee lame the selected measuring parameter l or Measuring Range Tester CLIPO100S 23512 1 5 mA 1 0A 1 mA 15A 1 mA lame 10 150A 150A a 1 1000 Connection via CLIP ON adapter cable 25010 ranges b and c not possible in this case 21 6 5 Z541A Temperature and Humidity Measuring Adapter The test instrument s range of applications for floor measure ments is significantly expanded with this optionally available adapter In order to activate the Temp H Rel function select the last menu item with the rotary switch in the U position If the adapter is plugged in room temperature and relative humidity are displayed Z541A OK appears in the status line In order to exit the temperature and humidity measuring function press and hold the Menu key approx 1 s at the test instrument or turn the function selector switch to another position No online help is available for this function Temperature is always displayed in degre
53. esstechnik GmbH 15 Operating and Display Elements 1 LC Display Field The following are displayed at the LCD One or two measurement values as three place numeric dis play with unit of measure and abbreviated measuring quantity Nominal values for voltage and frequency e Circuit diagrams On line help Messages and instructions 2 Ian i Key The following sequences can be started with this key e Starts the tripping test after measurement of contact voltage for RCCB testing lA e Displays the appropriate circuit diagram and on line help after a function has been selected in the menu Selects special RCCB tests testing with positive or negative half wave in IT systems e Displays information for 4 2 and Rj measurements This key has the same function as the I key 18 3 Start Key V This key starts the measuring sequence for the function which has been selected in the menu If the instrument is off it is Switched on by pressing this key and the measurement for the basic function or the pre selected function is started In the functions Rigo insulation resistance RLo bonding conductor resistance and standing surface insulation imped ance measurement is performed until the key is released This key has the same function as the W key 17 GMC I Messtechnik GmbH 4 Menu Key The basic functions menu for the function selected with the Func tion Selector Switch 9
54. evices RCDs and the effectiveness of pro tective measures in TT and TN systems Part 7 Phase sequence testers Part 10 Combined measuring equipment for testing measuring or monitoring of protective measures It is especially suited for e Systems set up e Initial start up e Periodic testing e Troubleshooting for electrical systems All measurement values required for approval reports e g ZVEH can be acquired with the instrument The applications range of the PROFITEST 0100S I1 can be expanded with the attachable SI module optional which includes memory and integrated interface All acquired data can be archived in addition to the measurement and test reports which can be printed out at a PC This is of spe 6 cial significance where product liability is concerned The applications range of the PROFITEST 0100S 114 covers all alternating and three phase current systems with nominal volt ages of 230 V 240 V if English UK parameter has been selected in setup 400 V 300 V 500 V and nominal frequen cies of 16 50 60 200 400 Hz The following measurements and tests can be performed with the PROFITEST 0100S 11 Voltage frequency phase sequence Loop impedance line impedance RCD protection e Earthing resistance earth electrode potential e Standing surface insulation resistance insulation resistance e Earth leakage resistance Low value resistance potential equalization
55. formed at three phase outlets at dis tribution cabinets or at permanent connections the Measuring Adapter 2 pole 12 must be fastened to the Test Plug 14 see also table 16 1 Connection is established with the test probes one at PE or N and the other at L The 2 pole measuring adapter must be expanded to 3 poles with the included measurement cable for the performance of phase sequence testing Measurements with the Measuring Adapter 2 pole 12 are not possible with the Function Selector Switch 9 in the or Z positions These measurements can be performed in selector switch positions U and 2 gop Contact voltage during RCCB testing and earthing resistance can be and earth electrode potential standing surface insulation resistance probe voltage and RCCB performance in IT systems 16 must be measured with a probe The probe is connected to the Probe Connector Socket 20 with a 4 mm contact protected plug 5 2 Automatic Settings Monitoring and Shut Off The PROFITEST 0100 11 automatically sets all operating condi tions which it is able to determine itself It tests line voltage and frequency If these lie within their valid nominal ranges they appear at the LC Display Field 1 If they are not within nominal ranges prevailing voltage U and frequency f are displayed instead of Uy and fy Line voltage fluctuations have no effect on measurement results Contact voltage which is induced by test curren
56. g on Measuring Adapter 2 pole 12 is used together with the two test probes 16 for measurements in systems without earthing contact outlets e g at permanent installations distribu tion cabinets and all three phase outlets as well as for insulation resistance and low value resistance measurements The 2 pole measuring adapter can be expanded to three poles for phase sequence testing with the included measurement cable test probe 13 Plug Insert country specific A Attention The Plug Insert 13 may only be used with the Test Plug 14 included with the PROFITEST 0100S II Use for other purposes is prohibited After the plug insert has been attached the instrument can be directly connected to earthing contact outlets You need not con cern yourself with poling at the plug The instrument detects the positions of phase conductor L and neutral conductor N and automatically reverses poles if necessary Sg No automatic polarity reversal occurs if the English UK parameter has been selected in setup The instrument automatically determines whether or not both protective con tacts in the earthing contact outlet are connected to one another as well as to the system protective conductor for all types of protective conductor mea surements when the plug insert is attached to the Test Plug 14 GMC I Messtechnik GmbH 14 Test Plug The various country specific plug inserts e g protective contact plug
57. go Limit function If measurement values occur which are below this limit value the red 0 R LED lights up A selection of limit values ranging from 100 to 10 MQ is available Select the limit value with the lan i key The instrument can be returned to the menu display by pressing the MENU key or testing can be started with the basic function by activating the START key hs ww amp 4 51 13 Measuring Low Value Resistance of up to 100 Q protective conductor and bonding conductor 13 1 Measuring Low Value Resistance function According to the regulations the measurement of low value resis tance at protective conductors earth conductors or bonding con ductors must be performed with automatic pole reversal of the test voltage or with current flow in one pole to PE and the other direction pole an PE A A Attention Low value resistance can only be measured at voltage free objects Set Up Rio n autn ues tn PE Fol to PE Fe 6 tautos C Pol PE to PE Lo Limit DA m z A XN 52 A Attention A The test probes should always be in contact with the DUT before the Start Key W 3 or 17 is activated If the object is charged with voltage the measurement is blocked if the test probes are first placed into contact with the DUT and the inst
58. he 25019 clip on current transformer 36 Infrared Interface SIR IrDa Data are transmitted to the SI module accessory via this inter face for storage and the generation of reports An IrDa adapter accessory can also be connected in order to update instrument software with the help of a PC GMC I Messtechnik GmbH 61 16 Characteristic Values Measuring Quantity Input M Nominal Connections Impedance Range Values Operating Error Inherent Error Plug 2 Pole 3 Pole Test Current Insert 2 Adapter Adapter Reso Display Range lution Probe 1 rdg 4 5 d 1 rdg 1 d 1 rdg 5 d 1 rdg 1 d 0 2 rdg 0 1 rdg 1 1 108 500 v9 3 rdg 1 d 2 rdg 1 d 0 99 9V 108 253 V 100 500 V Terminal L N 2 rdg 1d 0 99 9 V 2 rdg Aaa PE 108 500 v 9 100 500 V 500 KQ 15 0 99 9 Hz E 100 1000 Hz Terminal L PE 500 HH f 15 4 420 Hz 7 0 9991 3 100 500 850 V 0 99 9 V Probe PE 105 253 V AMO 0 253V 3 rdg 5 d 2 rdg 4d I 0 1A 5mA 1 0 6 rdg 5 d 3 rdg 3 d 999A hd E 10 150A 10 rdg 5d 245 rdg 3d 10 0 50 0 C 0 40 C 2 Fa 10 0 90 0 20 80 5 0 99 9V 1 rdg 5 d 100 200 V 108 253 V 2 rdg 1 d 1 rdg 1 d 15 0 99 9 Hz 0 2 rdg 1 0 1 rdg te 15 4 420 Hz id
59. ing with the test instrument switched off a dead battery is indicated when the instrument is switched back on and it switches itself immediately back off Remedy Initial Charging of NiMH or NiCd Batteries in the Test Instrument gt Disconnect the battery charger from the mains outlet and from the test instrument lt Turn the voltage selector switch at the battery charger from the 9 V position to the 12 V position c Connect the battery charger to the test instrument and then to the 230 V mains outlet lt Charge the battery pack for 10 to 15 minutes with the test instrument switched off Disconnect the battery charger form the mains outlet and turn the voltage selector switch from the 12 V position back to the 9 V position lt Reconnect the battery charger to the 230 V mains outlet lt Continue recharging the battery pack 69 17 3 Fuses If a fuse has blown due to overload a corresponding message error appears at the LC Display Field 1 The instrument s voltage measuring ranges are nevertheless still functional 3g Blown fuses cannot be detected when the instrument is Set to certain functions In such cases the following mes sage appears at the display Check test setup There are many possible causes amongst others a blown fuse Replacing Fuses JN Attention 4 Disconnect the instrument from the measuring circuit at all poles before opening Battery Compartment Lid 28
60. insert for Germany or SEV plug insert for Switzerland or theMeasuring Adapter 2 pole 12 are attached to the test plug and secured with a threaded connector 15 Alligator Clip plug on 16 Test Probes The test probes comprise the second permanently attached and third plug on poles of the Measuring Adapter 12 A coil cable connects them to the plug on portion of the measuring adapter 17 V Key This key has the same function as the Start Key W 3 18 Taste This key has the same function as the lay i key 2 19 Contact Surfaces The contact surfaces are located at both sides of the Test Plug 14 When the contact plug is grasped in the hand contact is automatically made with these surfaces The contact surfaces are electrically isolated from the terminals and from the measuring circuit The instrument can be used as a phasing tester for pro tection class devices If a potential difference of greater than 100 V occurs between the protective conductor terminal PE and the contact surface the PE Lamp 5 lights up see chapter 16 1 Lamp Functions on page 66 GMC I Messtechnik GmbH 20 Probe Connector Socket The probe connector socket is required for the measurement of probe voltage Us pg earth electrode voltage Ug earthing resis tance Re and standing surface insulation resistance It can be used for the measurement of contact voltage during RCD testing The probe is connected with a 4 mm cont
61. ion with PROFITEST 0100S 11 4 The PS3 CD ROM includes the software WinProfi with the follow ing content and functions e up to date test instrument software for loading software version updates prerequisite connection has been established between test instrument and PC Exchange of measured data between SI module accessories PROFITEST standard equipment and PC e Preparation print out and filing of test reports at the PC The following interface converter is required for communication between test instrument and PC IrDa USB Converter Z501 J IrDa tester USB PC The following interface cable is required for communication between SI module and PC Z3241 RS232 SI module RS232 PC 5 1 Applications The PROFITEST 0100S II test instrument allows for quick and effective testing of protective measures in accordance with DIN VDE 0100 part 600 2008 OVE EN 1 Austria SEV 3755 Swit zerland as well as regulations specific to additional countries The device is equipped with a microprocessor and complies with IEC 61557 EN 61557 VDE 0413 regulations Part 1 General requirements Part 2 Insulation resistance testers Part 3 Loop resistance testers Part 4 Instruments for the measurement of resistance at earth ing conductors protective conductors and bonding con ductors Part 5 Earthing resistance testers Part 6 Instruments for the testing of proper functioning of resid ual current d
62. is switched and the Function Selector Switch 9 is in the jy or the Z position see Lamp Functions on page 66 3E Note If the instrument is off and the selector switch is in the or the Z position the red PE lamp may light up if contact is made with the Contact Surfaces 19 and if the terminal designated N at the plug insert is connected to the phase conductor at the socket e Neutral conductor not connected The NETZ MAINS Lamp 6 blinks green see Lamp Functions on page 66 One of the two protective contacts is not connected Testing for this condition is performed automatically for the FI 2 and Re functions Poor contact resistance at of the contacts leads to one of the following displays depending upon poling of the plug A value of only approximately half the anticipated line voltage is displayed A STOP sign with the following warning appears Earthing resistance to high or defective fuse IN Attention Reversal of N and PE in a system without RCCBs cannot be detected and is not indicated by the instrument If an RCCB is present in the system it is tripped during 4 measurement if N and PE have been reversed 17 5 5 Help Function The appropriate circuit diagrams and on line help can be queried at the LC Display Field 1 for each of the basic functions and sub functions after these have been selected in the corresponding menu Press the lan i Key 2 or 17
63. is called up with the yellow menu key and the instrument is switched on at the same time if is was off Each additional activation of the key advances the arrow for the selec tion of one of the various functions 5 PE Lamp The PE lamp lights up red if a potential difference of greater than 100 V occurs between the Contact Surfaces 19 and the safety contact or terminal N at the Plug Insert 13 depending on the position of the Function Selector Switch 9 see chapter 16 1 Lamp Functions on page 66 Note The PE lamp might also light if a potential transfer occurs during measurement A potential transfer might occur if for example the Measuring Adapter 2 pole 12 has been attached and you contact phase conductor L with the Test Probe 16 in one hand and touch a Contact Surface 19 at the Test Plug 14 with the other hand while standing on an insulated floor In this case your body functions as a capacitive voltage divider 6 NETZ MAINS Lamp This lamp is only functional when the instrument is switched on It has no function in the voltage ranges U It lights up green red or orange or blinks green or red depending upon how the instrument has been connected and the selected function see chapter 16 1 Lamp Functions on page 66 This lamp also lights up if line voltage is present during measure ment of Riso and 57 7 Lamp This lamp lights up red if contact voltage is gr
64. ive stress during insulation resistance measurement For measurement with cur rent flow in one direction only press and hold the Start Key W 8 or 17 as long as is necessary for the measurement Note Measuring Low Value Resistance sg Measurement cable and Measuring Adapter 2 pole 12 resistance is compensated for automatically thanks to the four conductor method and do not effect measure ment results However if an extension cable is used its resistance must be measured and deducted from the measurement results in accordance with chapter 13 2 Resistances which do not demonstrate a stable value until after a settling in period should not be measured with automatic pole reversal Measurement with auto matic pole reversal may lead to varying and or inflated measurement values and thus to an ambiguous reading Examples of resistances whose values may change dur ing measurement include Incandescent lamp resistance whose values change due to warming caused by test current Resistances with a great conductive component Oontact resistance 53 13 2 Compensation for Extension Cables of up to 10 Q function AR 0 If extension cables are used their resistance can be deducted automatically from the measurement results Proceed as follows gt Short circuit the end of the measurement extension cable with the second test probe at the instrument v Select one of the items under AR in the menu gt
65. n current transformer which is con nected at the charging socket AN Attention High Voltage Danger Use only the above mentioned clip on current transformer Other current clios may not be terminated with an output load at the secondary side Dangerously high voltage may endanger the user and the device in such cases The maximum allowable operating voltage is equal to the nominal voltage of the current transformer Take additional display error into consideration when reading the measurement value A Attention Do not under any circumstances connect any accesso ries to the charging socket which have not been recom mended and approved by GMC I Messtechnik GmbH The instrument and the user may otherwise be endan gered and may suffer damage or injury All other instrument test functions are blocked if the clip on cur rent transformer or the battery charger is connected If you never theless attempt to activate another function the following mes sage appears remove adapter No testing is performed After the clip on current transformer or the battery charger has been removed this message disappears automatically for functions involving long term measurements e g voltage measurement For other functions it disappears as soon as a new measurement is started or when a new function is selected GMC I Messtechnik GmbH If no clip on current transformer has been connected for the or lamp function the following m
66. nditions can be determined with the help of Table 1 on page 71 Intermediate val ues can be interpolated The maximum allowable nominal current for the protective device fuse or circuit breaker for a line voltage of 230 240 V after allow ance has been made for maximum measuring error can be deter mined with the help of Table 6 on page 73 based upon measured short circuit current corresponds to DIN VDE 0100 Part 610 GD After measurement has 99 9 Q Calculated short circuit current is also displayed Recom mended fuse types do not appear at the display If RCCBs are uti lized fuse values are determined based upon internal system resistance This measurement can be performed for system RCD protection where RCCBs up to 500 mA are utilized as protective devices although for example loop resistance must be determined for purposes of documentation The measurement is sufficiently accurate for testing earth fault loop impedances of less than 100 Q at 500 mA A Attention N Earth fault loop impedances of less than 1 Q must be reliably substantiated for testing trip conditions with protective multiple earthing Loop impedance measurement must be performed with the help of the PROFITEST DC II for testing purposes been performed allow Char Ia EI able fuse types can be dis Ik y 2 played by pressing the Ian Kry EM t i key pum 18 1 2H In B B B l2 IQ 5H
67. onductor measuring cable is used between the instru ment and the Test Plug 14 Cable and measuring adapter 12 resistance is automatically compensated for during measurement and does not effect measurement results 37 Set Up gt s 2 Measurement of loop impedance to earth must be performed at all three phase conductors L1 L2 and L3 for the testing of over pos half wawes us uz Test counter start up Ly 238 fy Hz current protective devices at three phase outlets 38 8 1 Measurement with Positive or Negative Half Waves Measurement by means of half waves in combination with the PROFITEST DC II adapter allows for the measurement of loop impedance in systems which are equipped with RCCBs Set Up Zioop amp PPr A pos half waves ws uz Test counter start up Whether positive or negative half waves are used for the mea surement depends upon the poling of DC biasing at the ballast the RCCB is tripped testing wave VES is then performed with the other ha 2 246 g3 A Ly 2328 fy JAHZ GMC I Messtechnik GmbH 8 2 valuation of Measurement Values The maximum allowable loop impedance 2 which may be dis played after allowance has been made for maximum operating measurement error under normal measuring co
68. or and bonding conductor 13 1 Measuring Low Value Resistance function o 2222222 13 2 Compensation for Extension Cables of up to 10 Unc on ABO onset ette ie 54 13 3 Calculation of Cable Lengths for Common Copper GOTIQUGIOFS hme eh oi s 13 4 Setting the Limit Value 14 Phase Sequence Testing sss 55 15 Operating and Display Elements 1 1 57 16 1 Lamp FUnctions nter ees 66 17 Maintenance eese MENS I EET ur 17 2 Battery and Rechargeable Battery Operation and Charging 69 17 2 1 Initial Charging of NiMH or NiCd Batteries in the Test Instrument 69 12 3 IFUSES oe ate e aly 70 17 4 Housing set ree dien ene 70 17 5 Device Return and Environmentally Compatible Disposal 70 18 Appendix 71 GMC I Messtechnik GmbH Contents 181 Table 1 18 2 Table 2 18 3 Table 3 18 4 Table 4 18 5 Table 5 18 6 Table 6 18 7 List of Abbreviations and their Meanings 74 19 Repair and Replacement Parts Service Calibration Center and Rental Instrument Service 75 20 Recalibration Service eren 75 21 75 PC software WinProfi for communicat
69. or the proper functioning of the RCD at a given point and subsequent substantiation that all other systems components requiring pro tection are reliably connected at low resistance values to the selected measuring point via the PE conductor is made unneces sary 23 Contact voltage Ujan and calculated earthing resistance Rg appear at the LC Display Field 1 Ie Note Displayed earthing resistance is measured with relatively little current and may thus be inaccurate where small values are involved Use the Rg selector switch position for accurate determination of earthing resistance After contact voltage has been measured testing can be per formed to determine whether or not the RCCB is tripped within 400 ms or 1000 ms at nominal residual current If the RCCB is tripped at nominal residual current time to trip and earthing resistance are displayed If the RCCB is not tripped at nominal residual current FI RCD Lamp 8 lights up red The tripping test need only be performed at one measuring point for each RCCB A Attention The measurement of contact voltage with 3096 nominal residual current does not normally trip an RCCB How ever the trip limit may be exceeded as a result of leakage current in the measuring circuit e g due to intercon nected consumers with EMC circuit e 9 frequency con verters PCs In order to prevent the loss of data in data processing Systems perform a data backup before st
70. ormation is displayed at the test window Software version with date of issue Instrument type Date of last calibration last balancing Status display for internal testing OK must appear at the ROM and CAL CHECK SUM display If OK is not displayed the measuring and test instrument may no longer be used for the performance of measurements Please contact your nearest customer service center In order to run all of the tests press the Start Button W 3 or 17 after each test window appears at the display The self test can be interrupted after any given test window has appeared by pressing the Menu Key 4 Six different test windows appear at first with horizontal and verti cal lines e g eR Ww 67 Subsequently the following test windows are displayed gt lt W 24 RELAY TEST Relau 1 Relay 2 Relau 3 Relay 4 Each of the indicated relays is actuated twice LAMPTEST gt lt Ww Lamp HETZ MAIHS RED Lamp HETZ MHBIHS GREEH Lane FERED END DF TEST PRESS ANY KEY x Each of the four indicated lamps blinks three times The PE lamp cannot be tested automatically The measuring and testing instrument is restarted by pressing any key 68 GMC I Messtechnik GmbH 17 2 Battery and Rechargeable Battery Operation and Charging Check to make sure that no leakage has occurred
71. pped No autom change Phase to Neutral for socket outlets wired incorrectly Select basic function a on Power On Ww Select latest used function Power On GMC I Messtechnik GmbH By pressing the Menu Key 4 you can determine whether the basic instrument functions are made available when the instru ment is switched on or if the last selected sub function is made available for immediate measurement sg Note The basic functions are selected automatically if the Func tion Selector Switch 9 has been activated If the device is in self test mode self testing must first be completed Display Illumination Display illumination can be deactivated by pressing the Menu Key 4 in order to extend the service life of the batteries yr a e Dy On Time Display illumination Display illumination off The period of time after which the test instrument is automatically shut off can be selected here with the Menu Key 4 gt lt START NY WF gt tay MOn period 15 sec On period 38 On period sec n periods sec The selected on time has as substantial influence on battery service life GMC I Messtechnik GmbH 3 3 Battery Test DA m tes 8 b 4 START d UL N y m Battery test Charge Self test Setup 85 V LG Battery OK Note Batteries or rechargea
72. pressing the Start Key t 3 the meter can be tested for proper start up within a period of 5 s All phases must be tested against N one after the other we START NY Prest 2328 JAHZ After testing has been completed testing power is displayed The instrument is now ready for further testing READY 568 W READY Ly 2328 S8Hz GMC I Messtechnik GmbH 10 Earthing Resistance Measurement function Earthing resistance is the sum of earth electrode resistance Ra and earth conductor resistance Earthing resistance is measured by applying an alternating current via the earth conductor the earth electrode and earth electrode resistance This current as well as voltage between the earth electrode and a probe are measured The probe is connected to the Probe Connector Socket 20 with a 4 mm contact protected plug Direct measurement of earthing resistance is only possible within a measuring circuit which includes a probe However this means that the probe and reference earth must be of like poten tial i e that they are positioned outside of the earth electrode resistance area The distance between the earth electrode and the probe should be at least 20 m In many cases especially in extremely built up areas it is difficult or even impossible to set a measuring probe In such cases earthing resistance can be mea
73. reversal 1 measuring cycle 25 s pause 1500 measurements Due to the minimum capacity of rechargeable batteries as com pared to standard batteries a fewer number of measurements indicated above can be performed with rechargeable batteries By means of the 0100S rechargeable battery set order no Z501B 4 of the number of measurements indicated above can be performed GMC I Messtechnik GmbH Electricity Safety Safety Class Nominal Voltage Test Voltage Measuring Category Contamination Degree Fusing Terminals L and N per IEC 61010 1 EN 61010 1 VDE 0411 1 230 400 V 300 500 V 3 7 kV 50 Hz 300 V CAT III 2 1 cartridge fuse link ea M 3 15 500G 6 3 mm x 32 mm safety fuse FF 3 15 500G Electromagnetic Compatibility EMC Interference emission Interference immunity Overload Capacity Riso UL pg UL N Fi Re Re 2 2 Rio Fine Wire Fuse Protection GMC I Messtechnik GmbH EN 61326 1 2006 class A EN 61326 1 2006 600 V continuous 600 V continuous 440 V continuous 550 V limits the number of mea surements and pause duration f overload occurs the instrument is Switched off by means of a thermo static switch Electronic protection prevents Switching on if interference voltage is present 3 15 A 10s fuses blow at gt 5 Data Interface Type Format Range Mechanical Design Dimensions Weight Protection IP XY 15 digit X 0 1 AJo
74. rument fuse is blown if the Start Key W is activated first After the measuring sequence has been started the instrument performs measurement with automatic pole reversal first with current flow in one direction and then in the other The largest measured resistance value is always displayed T 056 Q Differing results for measurements in both directions indicate volt age at the DUT e g thermovoltages or unit voltages In the case of major deviations between the two measured values both val ues are displayed GMC I Messtechnik GmbH ae Q 158 Measurement results be distorted by parallel connected impedances at operating current circuits and by circulating cur rent especially in systems which make use of overcurrent pro tection devices earlier neutralization without an isolated protec tive conductor Resistances which change during measurement e g inductance or a defective contact can also cause distorted measurements double display In order to assure unambiguous measurement results causes of error must be located and eliminated Display for interference voltage for example Rio 7 External voltage In order to find the cause of the measuring error measure resis tance in both current flow directions GMC I Messtechnik GmbH The instrument s batteries are exposed to excess
75. sidual current Set Up 10mA 30 1 MENU g v Sen 188 var 250 GMC I Messtechnik GmbH 100 lan 300 mA lan 500 mA v La Ex gt El 250 A lt Eq W M f Hz 1458 Measuring Sequence After the measuring sequence has been started the test current generated by the instrument is continuously increased starting at 0 3 times nominal residual current until the RCCB is tripped This rise can be observed at the horizontal bar display If contact voltage reaches the selected limit value 50 V or 25 V before the RCCB is tripped safety shut down occurs The UL R 7 Lamp lights up red If the RCCB is not tripped before the rising current reaches nomi nal residual current the FI RCD Lamp 8 lights up red GMC I Messtechnik GmbH Attention If bias current is present within the system during mea surement it is superimposed onto the residual current which is generated by the instrument and influences measured values for contact voltage and tripping cur rent See also note on page 24 According to DIN VDE 0100 Part 610 rising residual current must however be used for measurements in the evaluation of RCDs and contact voltage at nominal residual current lay must be calculated from the measured values
76. stance as a safety factor 10 3 Evaluation of Measurement Values The maximum allowable displayed resistance values which assure that the required earthing resistance is not exceeded and for which maximum device operating error has already been taken into consideration at nominal conditions of use can be deter mined with the help of Table 2 on page 71 Intermediate values can be interpolated 45 10 4 Measuring Earth Electrode Potential function Ug This measurement is only possible with a probe Earth electrode potential Ug is the voltage which occurs at the earth electrode between the earth electrode terminal and reference earth if a short circuit occurs between the phase conductor and the earth electrode The measurement of earth electrode potential is required by Swiss standard SEV 3569 Measuring Method In order to determine earth electrode potential the instrument first measures earth electrode loop resistance and immedi ately thereafter earthing resistance Re The instrument stores both values and then calculates earth electrode potential with the fol lowing equation The calculated value is displayed at the LC Display Field 1 Set Up 46 EN d z m m XE PEN 5 Probe defective PD Autorange Zst Site insulation Tay 1 28 uu 55V Ly 2328 fu Ip gt 8 5A 087 Ly 2328 f
77. suitable for the examination of RCD characteristics and contact voltage directly at the RCCB tripping contact as well as for the determination of earthing resistance in Systems with RCDs when no PROFiTEST DC II is available for bridging the RCDs This menu item can only be used for 10 mA and 30 mA RCCBs Proceed as follows in order to select the desired residual current c Select menu item lAyAg Re c Press the i key A field for the entry of residual current appears Dy nos Va Testu uar residual current residual cur 38 m Start with neg ene c Choose with button g Start with button Continue wi HU button Each time the lan i is activated current is increased by 1 mA By pressing and holding the i key the value is increased contin uously The speed at which the value rises is increased after a few seconds If the Menu Key is pressed and held at the same time the value is reduced at the same speed After the desired value has be set testing can be started with the Start Key as described in chapter 7 1 Testing is started with the positive half wave If the test is to be started with the negative half wave the menu item Start with negative half wave 180 must be selected prior to 34 testing If the Menu Key is pressed again the main menu appears at the display If no entries are made within approximately 10 s the menu is exited The determina
78. sured without a probe In this case however the resistance values for the operational earth electrode Rp and phase conductor L are also included in the measurement results see chapter 10 2 Measuring without Probe on page 45 Measuring Method The instrument measures earthing resistance Re by means of the ammeter voltmeter test earth electrode loop resistance The test current which is applied to earthing resistance is controlled by the instrument and demonstrates the following values in the various measuring ranges Oto 10 kO 4 mA Oto 1 40 mA Oto 100 Q 0 4 A and O to 10 gt 0 8 A to approx 4 A independent of voltage A voltage drop is generated which is proportional to earthing resistance GMC I Messtechnik GmbH Measuring range selection and thus the selection of test current as well are carried out automatically in the basic function These selections can be made manually in the sub functions Sg Measurement cable and measuring adapter 12 resis tance are compensated for automatically during mea surement and have no effect on measurement results Interference voltages at protective conductor PE at the earth electrode or at the probe if properly connected do not influence measurement results They can be mea sured by means of voltage measurement with the Mea suring Adapter 2 pole 12 If dangerous contact voltages occur during measurement 50 V the measurement is interrupted
79. t is monitored for each measuring sequence If contact voltage exceeds the limit value of 25 V or 50 V measurement is immediately inter rupted The U 7 lamp lights up red If battery voltage falls below the allowable limit value the instrument cannot be switched on or it is immediately switched off The measurement is interrupted automatically or the measuring sequence is blocked except for voltage measuring ranges and phase sequence testing in the event of non allowable line voltages lt 60 V gt 253 V gt 330 V 440 V or 550 V for measurements which require line volt age e interference voltage during insulation resistance or low resis tance measurements e overheating at the instrument As a rule excessive temperatures only occur after approxi mately 500 measurement sequences at intervals of 5 s when the Function Selector Switch 9 is set to the 2 oop or 2 posi tion If an attempt is made to start a measuring sequence an ap propriate message appears at the LC Display Field 1 GMC I Messtechnik GmbH The instrument only switches itself off automatically after comple tion of an automatic measuring sequence and after the predeter mined on time has expired see chapter 3 2 On time is reset to its original value as defined in the setup menu as soon as any key or the Function Selector Switch 9 is activated The instrument remains on for approximately 75 s in addition to the preset on time
80. ted by a qualified electrician concerning performance and evaluation of the test sg KEMA KEUR approval mark Note Manufacturers and importers of electrical medical devices must provide documentation for the performance of maintenance by trained personnel Grip and hold the test plug and test probes securely when they have been inserted for example into a socket Danger of injury exists if tugging at the coil cord occurs which may cause the test plug or test probes to snap back GMC I Messtechnik GmbH The measuring and test instrument may not be placed into service e ifthe battery compartment lid has been removed e if external damage is apparent e if connector cable or measuring adapters are damaged e if the instrument no longer functions flawlessly e after along period of storage under unfavorable conditions e g moisture dust extreme temperatures Exclusion of Liability When testing systems with RCCBs the latter may switch off This may occur even though the test does not normally provide for it Leakage currents may be present which in combination with the test current of the test instrument exceed the shutdown threshold value of the RCCB PCs which are operated in proximity to such RCCB systems may switch off as a consequence This may result in inadvertent loss of data Before conducting the test precautions should therefore be taken to ensure that all data and programs are adequately saved and th
81. the SCHUKOMAT SIDOS series or others which are of identical electrical design must be tested in this selector switch position Monitoring of the PE conductor is performed for RCDs of this type The PE conductor is monitored by the summation current transformer If residual current flows from L to PE tripping current is cut in half i e the RCCB must be tripped at 50 nominal resid ual current lan Whether or not PRCDs and selective RCDs are of like design can be tested by means of contact voltage measurement If a contact voltage Ujan of greater than 70 V is measured at the PRCD of an otherwise error free system the PRCD more than likely contains a non linear element lay 10mA lay 30mA mjes pusou pq gt lt 254 control with non lin T Ira element in PE Depiction menu page 2 32 2 P SEES D 58 V e193 0 25810 UL Sel m 42ms 132 0 U el f Hz ULSAN o2 M L 101mA U l f Hz Up Sel GMC I Messtechnik GmbH 7 3 4 Type G RCCBs In addition to standard RCCBs and selective RCDs the special characteristics of the tyoe G RCCB can also be tested with the PROFITEST 0100 11 test instrument gt Set the test instrument function selector switch to 30 mA or 10 mA and select the lay menu item with the cursor 10mA 30mA 2 AH
82. tion of contact voltage as well as the tripping test are performed with the pre selected residual current If a residual current value is selected which is very close to the tripping current of the RCCB the calculated contact voltage cor responds to the contact voltage which occurs at the moment the RCCB is tripped 7 5 Testing RCDs in IT Systems All of the tests described in chapters 7 1 through 7 5 can also be performed in IT systems with the PROFITEST 01008 1 The only prerequisite is that the system is capable of applying the neces sary test and tripping currents to earth Set Up gt Connect the test instrument to the phase conductor which demonstrates the greatest earth potential GMC I Messtechnik GmbH A 4 A Attention e Testing of RCCBs in IT systems cannot be performed E D b without a probe a probe is absolutely necessary The 1 probe and reference earth must be of like potential h 2381 faihz ULSAN lay 10 mA 30mA 100 mA Note lan 300 mA The MAINS Lamp 6 has no function for the testing of lan 900 mA RCDs in IT systems in the IT mode P4 Exit IT mode manually Press and ww we hold the key eni we Press and hold the Menu Key and repeatedly press the lan l key X BIN E 5 25 until the IT symbol group and half wave disappear M
83. ual contains information concerning the software which is not included in these operating instructions WinProfi Update Information Common WinProfi is a Utility for use with the following types of testers jand meters Protitest C F Metriso Metriso 2000 Profitest 204 PROFITEST 0100511 Profitest PSI E T TE BC Metratest 36 Metratop future use The options described herein are available for these devices las far as supported To see which functions are supported x GMC I Messtechnik GmbH 11 Prerequisites for Software Update or Data Exchange gt Find the interface to which the PROFITEST 0100S I1 is con nected File Protocol Update Help Search Device Calibration Info Time and Date Copyright Printer Setup Exit Note Always start this function first before performing an update or changing report templates After starting this function WinProfi loads the report files specifically necessary for the connected instrument Due to the fact that WinProfi has been created for use with several types of test instru ments incorrect test reports may otherwise be loaded or erroneous options may be made available gt Query information regarding current software version Protocol Update Search Device Calibration Into SS Time andDate Copyright 12 C Transmission of a Software Update to the Test Instr
84. ument WinProfi System File Protocol Update Language Firmware Extended Function Update all gt PC Select the Update All function from the Update menu Follow the instructions which appear at the monitor Depending upon the utilized PC transmission takes from 1 to 2 minutes NETZ MAINS LED of the PROFITEST 0100 114 test instrument lights up green and indicates that the instrument is ready to receive data If the PC and the test instrument are correctly synchronized the same LED lights up yellow During programming sequences the U R and FI RCD LEDs light up red and the NETZ MAINS LED lights up yellow in alternating order Upon completion of data transmission the NETZ MAINS LED briefly lights up green afterwards all LEDs go out The message Transmission done appears on the computer screen Attention The instrument may not under any circumstances be switched off during transmission nor may the connec tion between the instrument and the PC be interrupted GMC I Messtechnik GmbH D Managing Report Data The following functions can only be performed with a SI module since the measuring and test data can only be saved in this mod ule gt Connect the SI module with your PC via the 23241 cable the SI module does not have to be connected with the test instrument e Send or receive a data file WinProfi System Protocol Update Help Receive File ES Send File ee
85. upport If required please contact GMC I Messtechnik GmbH Product Support Hotline Phone 49 911 8602 0 Fax 49 911 8602 709 E mail support gossenmetrawatt com 75 Edited in Germany e Subject to change without notice e A pdf version is available on the internet GOSSEN METRAWATT Phone 49 911 8602 111 GMC I Messtechnik GmbH Fax 49 911 8602 777 S dwestpark 15 E Mail info gossenmetrawatt com 90449 Nurnberg Germany www gossenmetrawatt com
86. y Measuring Adapter 22 T sting RGDS eR 23 Measuring Contact Voltage with reference to nominal residual current with VA Nominal Residual Current and Tripping Test with Nominal Resi GNI IE ES 23 Special Testing for Systems and RCCBS 26 Testing for Systems and RCCBs with Rising Residual Current 26 Contents Page 7 2 2 Testing RCCBs with 5 e Ipy 10 mA and 30 27 7 2 3 Testing of RCCBs which are Suited for Pulsating DC Residual Current 28 7 3 Testing for Special RCDs 7 31 Systems with Selective RCDS 1 0222 2 29 7 3 2 PRCDs with Non Linear Elements 30 7 3 3 SRCDs PRCDs SCHUKOMAT SIDOS or comparable 32 73 Type G RCGBS 33 7 4 Testing with Adjustable Residual Current esse 34 Testing REDS imdT Systerms sr oa 34 7 6 Testing Residual Current Circuit Breakers in TN S Systems 36 8 Testing of Breaking Requirements for Overcurrent Protective Devices Measurement of Loop Impedance and Determination of Short Circuit Current functions Z and ly 8 1 Measurement with Positive or Negative Half Waves 8 2 Evaluation of Measurement Values
87. y SBH Ip28 3A GMC I Messtechnik GmbH 11 Measuring the Impedance of Insulating Floors and Walls Standing Surface Insulation Impedance 257 Measuring Method The instrument measures the impedance between a weighted metal plate and earth The alternating voltage available at the measuring site is used as an Set Up alternating voltage source Wood board Metal plate Moist cloth Note Use the measuring set gular probe or the one outlin 2 Cover the floor or the wall up described in chapter 12 1 trian ed below at unfavorable locations e g at joints or abutments with a damp cloth measuring approx 270 mm x 270 mm c Place a metal plate measuring approx 250 mm x 250 mm x 2 mm on top of the damp cloth followed by a wooden board for purposes of insulation and a weight of 750 N 75 kg one person or for walls 250 N 25 kg i e lean against the wall with one hand gt Establish a conductive co and the Probe Connector nnection between the metal plate Socket 20 at the instrument Connect the instrument to a mains outlet with the test plug GMC I Messtechnik GmbH Attention Do not touch the metal plate or the damp cloth Line voltage is present at these objects A current of a great as 3 5 mA may be present Autorange 2 Waki gt ikto v lan agha LI mes Site insulation we Start HOOK
88. ype AC DC sensitive are sufficient for devices gt 4 kVA which are capable of generating smooth DC fault cur rents e g frequency converters Tests with pulsating DC fault currents are not suitable for these RCCBs For this purpose we recommend the PROFITEST DC II adapter 00 Measurement is performed with positive and negative half waves for testing RCCBs during manufacturing If a circuit is charged with pulsating direct current the func tion of the RCCB can be executed with this test in order to assure that the RCCB is not saturated by the pulsating direct current so that it no longer trips Press the key repeatedly until the symbol for positive or negative pulsating DC current appears GMC I Messtechnik GmbH 7 3 Testing for Special RCDs 7 3 1 Systems with Selective RCDs Selective RCDs are used in systems which include two series connected RCCBs which are not tripped simultaneously in the event of a fault These selective RCDs demonstrate delayed response characteristics and are identified with the symbol S Measuring Method The same measuring method is used as for standard RCCBs see points 7 1 on page 23 and 7 2 1 on page 26 If selective RCDs are used earthing resistance may not exceed half of this value for standard RCCBs For this reason the instrument displays twice the measured value for contact voltage In 100 mA 300 mA In 500 mA 5
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