TELARIS Fi/RCD-Analyzer UNITEST®
Contents
1. 11 Lis IAN ITT S 2 x MII UL 50V A Us gt UL NN qum Lg y IAN DT MI UL 50V A Us gt UL IAN TW ma 7 Zu UL 50V Connect test lead mains connection cable to test instrument Connect test lead mains connection cable to the UUT as described in figure 1 or 2 Select desired measurement function tRCD UB using function selection switch 31 Set nominal residual current selection 20 to desired nominal current depending on RCD Set phase position using key 0 180 24 Set current type 23 and multiplication factor using key 30 ES The current types and multiplication factors to be selected at set nominal residual current are listed in tables 1 and 2 Select contact voltage using key VC 19 Touch contact electrode PE 21 Note display 1 f the symbol Socket Error 4 is displayed a PE error or other socket error is present Press key Start 22 After successful test the display key 32 is used to switch between measurement result tRCD and VC within the measurement value display Fb ms IAN DT ZUE UL 50V Display at trip time tRCD E i IAN DT LN d UL 50V Display at contact voltage VC Starting of RCD Test 1 The measurement is interrupted if the contact voltage exceeds the set contact voltage limit Attention 1 and UB gt UL 3 appears on the display A2. the socket error symbol 4 is displayed This symbol is also displayed if the RCD is not in order and an in correct tripping has been caused JE ms IAN DT MI UL 50V The Attention Symbol indicates that one measure ment unit has exceeded a limit value When calling up the measurement data using Display key 18 the Limit symbol 2 or UB gt UL 3 appears for the respective measurement unit 5 2 2 Starting of RCD Test without RCD trip ping Function UB RE The contact voltage UB and the ground resistance RE are measured during this test by applying a cur rent amounting to 40 of the nominal residual cur rent The contact voltage displayed is extrapolated to nominal residual current IAN orto double the no minal residual current IAN for selective RCDs Connect test lead mains connection cable to test instrument Connect test lead mains connection cable to the UUT as described in figure 1 or 2 Select desired measurement function Vc RE using function selection switch 31 Set nominal residual current selection 20 to desired nominal current depending on RCD Select Limitvalue via contact voltage using key Vc UL 19 Touch contact electrode PE 21 Note display 1 f the symbol Socket Error 4 is displayed a PE error is present Press key Start 22 1 After successful test the display key 32 is used to switch between measurement result
3. 1 4x 130 500ms IEC61009 1 x2 2 8x 60 200ms IEC61009 1 x5 7x 50 150ms IEC61009 1 x0 5 0 5x xi 1x 130 500ms x2 2x 60 200ms x5 5x 50 150ms Table 7 Trip times for impulse resistent RCB s F RCD Type Current Type Current Type Test Current prescribed Test Time Standard F RCD IAN IAN Trip Time Analyzer y 2000ms IAN2100mA 500ms IEC61008 1 0 5x m b 500ms EC61008 1 10mA E 150ms EC61008 1 30mA E 40ms EC61008 1 100mA b 200ms EC61008 1 RCBO 100mA 300mA 1000mA 500mA NN 300mA 2000ms IAN gt 100ma 500ms IEC61008 1 500mA AN b 500ms EC61008 1 1000mA 150ms EC61008 1 40ms EC61008 1 200ms EC61008 1 b 2000ms IAN gt 100mA 500ms Es 500ms b 150ms E 40ms b 200ms y y y y RI y y y y y y y y y Technical Data Table 8 F RCD Type Current Type Current Type x0 5 Table 9 fixed SRCD 10mA 30mA Standardprifung General Technical Data Display o as 3 1 digit LCD Mains nominal voltage 230V 240V 1096 1596 Mains nominal frequency 50 60Hz 1 Reference Range 17 C to 27 C max 70 rel humidity Temperature Range 0 C to 40 C Relative humidity max 80 Height above MEL up to 2000m Battery DO aid dore n rete 6 mignon 1 5V Type AA IEC LR6 no storage batteries Current consumption approx
4. 15mA Battery life at average usage approx 2 years Auto power off ra after approx 5 min Built in TSO M 1 0A 250V 5x20 mm Data memory sss approx 100 measurements IR RS232 interface Degree of contamination Protection 2 Test Current prescribed Test Time Standard Fi RCD Trip Time Sea 0 5x IAN 1x IAN 5X IAN 0 35x IAN 1 4x IAN TX IAN 0 5x IAN 1x IAN 5x IAN 200ms 40ms 200ms 40ms 200ms 40ms 200ms 200ms 40ms 200ms 40ms 2 protective insulation IP50 Overvoltage class CAT II 300V Dimensions LXWXH ra 235 x 105 x 70mm UI 650g batteries included 2000ms 2000ms 40ms 2000ms 500ms 40ms 2000ms 500ms 40ms 9600 Baud 1 start bit 8 data bits even parity 1 stop bit Technical Data Measuring Contact Voltage UB Measurement conditions 40 IAN Measurement time Imax 2000 ms when exceeding limits immediate cut off Measurement range 0 6 70 0 V bei IAN 100 300 500 1000mA 1 70 V bei IAN 10 30mA Resolution cimas 0 1 V at IAN 100 300 500 1000mA Tolar 0 10 6 Digit LIMITS ataratea 5V 50V contact voltage limit UL to be pre selected Measuring Ground Resistance RE Measurement conditions 40 IAN Measurement time max 2000 ms when exceeding limits imme
5. 5 minutes after last key operation the instrument switches off automatically auto power off To switch the instrument on again turn rotary switch from the DEE position to the desired func tion If the batteries are almost completely discharged the battery symbol 5 appears The instrument continu es functioning without necessarily respecting the specifications If the batteries continue to be used and discharged the instrument switches off at a point when the mini mum battery voltage level is reached and may not be Switched on again 9 0 Maintenance When using the instrument in compliance with the in struction manual no special maintenance is required 9 1 Cleaning If the instrument is dirty after daily usage it is advised to clean it by using a damp cloth and a mild household detergent A Prior to cleaning ensure that the instrument is switched off and disconnected from external volt age supply and any other instruments connected such as EUT control instruments etc A Never use acid detergents or dissolvants for clean ing 10 0 Battery Replacement If the battery symbol gt appears in the display pro ceed with battery replacement A Prior to battery replacement remove the instru ment from all measurement circuits N The right order of the batteries is shown on the inside of the battery compartment Batteries with reversed polarity can lead to in strument destruction Furthermore they may exp
6. The at tention symbol 1 is displayed and the symbol for exceeding the limit 2 is indicated togeth er with the trip current tRCD display Limit E la p mA IAN DAT Zul UL 50V Starting of RCD Test 5 2 5 Starting Automatic RCD Test with RCD Tripping The TELARIS RCD Analyzer is equipped with a fully automatic RCD analysis As a first step during a preliminary test the contact voltage VC is measu red at a current of 40 IAN and extrapolated to the nominal current Thereafter various AC residual currents are generated and both trip time and contact voltage are verified The user must only make sure to switch on RCD after tripping between the individual test programs Then the RCD analy sis is automatically continued Connect test lead mains connection cable to test instrument Connect test lead mains connection cable to the EUT as described in figure 1 or 2 Select desired measurement function Auto using function selection switch 31 Set nominal residual current selection 20 to desired nominal current depending on RCD Select contact voltage using key VG UL 19 Touch contact electrode PE 21 Note display U f the symbol Socket Error 4 appears a PE error is present Press key Start 22 13 The measurement is interrupted if the contact voltage exceeds the pre set contact voltage limit The following symbols appear Attention 1 UB gt
7. and QMI GISTERED ea at Rng 1 8 150 9002 EN 29002 Quality Management System CH BEHA GmbH Elektronik Elektrotechnik In den Engematten 14 79286 Glottertal Germany Tel 49 0 76 84 80 09 0 Fax 49 0 76 84 80 09 410 Techn Hotline 49 0 76 84 80 09 429 internet http www beha com e mail info beha de QS Reg No 3335 11 2002 PTEB9061 00 RS
8. being caused by data loss wrong handling or any other rea son t We recommand you to save and transmit the measurement results daily to your computer In case of incidentals outer influences you can lose saved measurement sof the instru ment Infrared Interface send Measurement Data 6 1 Infrared Interface send Measurement Data Additionally all memorised measurement data may be transferred to the PC data archive by means of an Infrared Interface For this purpose the interfa ce adapter and the Software Report Studio Cat No 1206 and Interface Cat No 1157 available as an optional feature are required The data transfer procedure is fairly easy Apply the Interface adapter to TELARIS Connect adapter cable to PC COM 2 via 9pole D sub plug RS232 Call the Report Studio Software please refer to user manual Report Studio Select menu item read data or select the but ton read data from measurement instrument by mouse click The message send data ap pears Press key Send 26 ES Datatransferis carried out After a few seconds all stored data is available for further proces sing in the PC 13 For further details please refer to user manual Report Studio 7 0 Deleting Stored Measurement Data Display of All Memory Entries Itis possible to delete data by using key Clear 27 Furthermore itis possible to display the total num ber of measurement va
9. gt UL 3 is displayed LI ms IAN TU mA 7 NUM UL 50V Display trip time Starting of RCD Test I Lov IAN DAT M UL 50V Display contact voltage 1 The measurement results may be saved by pressing key Store 25 1 Ifthe condition of a faulty socket is to be saved first press key Start 22 Upon hearing the Error Signal press key Store 25 ES f due to the ramp current the contact voltage is exceeded the measurement is interrupted and the current is displayed at the level at which the excess occurred A Us gt UL 11 La J mA IAN Dr MI UL 50V Limit gt ann TILIA a IAN DT Tu UL 50V V gt Tu xw IAN II Tu UL 50V If trip time tRCD of RCD exceeds 300ms the mea surement value for an trip time is displayed as gt 300ms The Attention symbol 1 is displayed and for trip time display the symbol for overload 2 appears A E To make sure that the RCD is tripping correctly a standard test tRCD VC has to be carried out Ex ample A correctly functioning RCD has a trip time of gt 300ms at 50 IAN whereas the trip time smaller than 300ms When performing standard test at IAN ES If the RCD already trips at 50 IAN or not at all at a residual current value higher than 100 IAN the RCD is faulty or the incorrect nom inal residual current has been selected
10. interna tionaux El grupo BEHA declara que el producto adquirido ha sido ca librado durante la producci n de acuerdo a las instrucciones de test BEHA Todos los proce SOS y actividades llevados a ca bo dentro del grupo BEHA en relaci n con la calidad del pro ducto son supervisados per manentemente por el sistema 150 9000 de control de calidad Adicionalmente el grupo BEHA constata que los equipos e ins trumentos de prueba utilizados para la calibraci n tambi n son sometidos a un permanente control Estos equipos e instru mentos de prueba son a su vez calibrados en intervalos regu lares vali ndose de equipos de referencia calibrados de acuer do a directivas de laboratorios nacionales e internacionales gA Gopnemars Edurra Connemara Electronics Beha GmbH Industrial Park Carrigaline Co Cork Republic of Ireland Tel 353 21 4919000 Fax 353 21 4910010 e mail connemara electronics amp connelec ie IQ NET AENOR Spain AFAQ France AIB Vincotte Inter Belgium APCER Portugal BSI United Kingdom CSIA Italy COS Czech Republic DOS Germany DS Denmark ELOT Greece FCAV Brazil IRAM Argentina JOA Japan KEMA Netherlands KSA QA Korea MSZT Hungary NCS Norway NSAI Ireland QS Austria PCBC Poland PSB Singapore QAS Australia QMI Canada SFS Finland SII Israel JOA Japan SIQ Slovenia SIS SAQ Sweden SQS Switzerland IQNet is represented in the USA by the following IQNet members AFAQ AIB Vincotte Inter BSI DOS KEMA NSAI
11. or material provided the instrument is returned unope ned and untampered with i e with undamaged warranty label Any damage due to dropping or incorrect handling are not covered by the warranty If the instrument shows failure following expiration of warranty our service department can offer you a quick and economical repair Subject to technical changes without notice Qualit tszertifikat Certificate of Quality Certificat de Qualit Certificado de calidad Die BEHA Gruppe best tigt hiermit dass das erworbene Produkt gem den festgeleg ten Beha Pr fanweisungen w hrend des Fertigungspro zesses kalibriert wurde Alle innerhalb der Beha Gruppe durchgef hrten qualit tsrele vanten T tigkeiten und Prozes se werden permanent durch ein Qualit tsmanagement System nach ISO 9000 ber wacht Die BEHA Gruppe best tigt weiterhin dass die w hrend der Kalibrierung verwendeten Pr f einrichtungen und Instrumente einer permanenten Pr fmittel berwachung unterliegen Die Pr fmittel und Instrumente werden in festgelegten Abst n den mit Normalen kalibriert deren Kalibrierung auf nationa le und internationale Standards r ckf hrbar ist Bein EHA pu he BEHA Group confirms herein that the unit you have purchased has been calibrated during the manufacturing process in compliance with he test procedures defined by BEHA All BEHA procedures and quality controls are moni ored on a p
12. readable display Built in compliance with EN 61557 Part 1 and 6 EN 61010 1 DIN VDE 0413 Part 1 and Part 6 Transport and Storage Safety Measures Scope of Supply 1 pc UNITEST TELARIS Fi RCD Analyzer 1 pc 3 pole test lead 1 pc Test lead with mains plug 1 pc Croccodile clamps 3 pc Test probe 1 pc Protective Holster 1 pc Carrying Case 6 pcs Battery 1 5V type IEC LR6 Size AA 1 pc Instruction manual 2 0 Transport and Storage Please keep the original packaging for later trans port e g for calibration Any transport damage due to faulty packaging will be excluded from warranty claims In order to avoid instrument damage we recom mend that batteries are removed when not using the instrument over a certain period of time How ever should the instrument be contaminated by leaking battery cells you are kindly requested to re turn it to the factory for cleaning and inspection Instruments must be stored in dry and closed areas Inthe case of an instrument being transported in ex treme temperatures a recovery time of at least 2 hours is required prior to instrument operation 3 0 Safety Measures The UNITEST Telaris FI RCD Analyzer has been de signed and checked in accordance with the safety regulations for Electronic test and Measurement In struments EN 61010 and IEC 61010 and left our factory in a safe and perfect condition A The instruction manual contains information and references necessary for safe opera
13. select contact voltage limit 20 Nominal residual current selection 21 PE contact electrode 22 Key Start 23 Key Current Type 24 Key Phase Position for nominal residual cur rent 25 Key Store 26 Key Send 27 Key Clear 28 Battery case instrument rear 29 Infrared RS232 PC interface 30 Key Multiplication Factor for nominal residu al current 31 Function selection switch 32 Display key to select individual measurement results Carrying Out Measurements 5 0 Carrying out Measurements 13 FAT Final Approval Test measurements have to be carried out in compliance with the ap propriate applicable standards IAN i OO m E 2x 180 2 5x IITA UL 250V e Limit iii E TIS OO 8 i 207 I I DO ms 180 S E 25001005 Ui 250V IAN ICI EE Voltage Measurement 5 1 Voltage Measurement A Prior to usage the test instrument and the test leads have to be tested for correct functioning A Testleads and test probes may only be touched at the handles provided The user must not touch the test probes A The measurement connectors may not be con nected to external voltages exceeding 300 V AC or DC to avoid any instrument damage 13 When changing the measurement function or parameter IAN and UL parameters the TELA RIS Fi RCD Analyzer automatically switches to the voltage measurement function gt Select measurement function using the function selection swi
14. the instrument must be opened for the exchange IN The fuses can only be replaced by returning the instrument to the factory or to an authorized sales repair service A Exclusively use fuse of voltage current and bre aking capacity values in compliance with the technical data section 11 1 Indication in the display at defect fuse 13 If the instrument is correctly connected to the mains and before the measurement displays the symbols attention 1 and UB gt UL 3 the inter nal fuse has blown The fuse must be replaced and the measurement in strument then checked by returning the instrument to the factory or to an authorized sales repair service 12 0 Calibration Interval To obtain the specified measurement result accura cy the instrument should be regularly calibrated by our after sales service We recommend a calibration interval of one year Technical Data 13 0 Technical Data 13 1 Tables wih test currents Table 1 Test Currents Function VC RE tRCD VC Auto mA UB RE A e E fo E 2 fr on 300 _ 120 Ge 500 707 Ram tRC abra p 120 420 soo 200700 71 990 wa lanao I Table 3 RCD Trip Times for standard RCB s 2000ms IAN2100mA 500ms 1EC61008 1 500ms IEC61008 1 IEC61008 1 IEC61008 1 IEC61008 1 10mA 30mA 100mA 2000ms IAN gt 100mA 500ms 0664 Part 100 500ms 0664 Part 100 0664 Part 100 0664 Part 100 0 1x 1 4x 0664 Part 100 4 4 4 4 dui 2 2 2 4 4 4
15. 44 24 300mA i 2000ms IAN2100mA 500ms IEC61008 1 500mA i 500ms IEC61008 1 1000mA j 150ms IEC61008 1 40ms IEC61008 1 i 300ms IEC61008 1 Technical Data Table 4 Trip times for selective RCB s F RCD Type Current Type Current Type TestCurrent prescribed Test Time Standard F RCD x0 5 0 5x a 1EC61008 1 1x 130 500ms 1EC61008 1 100mA 2x 60 200ms IEC61008 1 300mA 5x 50 150ms 1EC61008 1 500mA x0 5 0 35x a IEC61008 1 1000mA 1 4x 130 500ms 1EC61008 1 2 8x 60 200ms IEC61008 1 50 150ms IEC61008 1 x0 5 0 5x i 0664 Teil100 130 500ms 0664 Teil100 60 200ms 0664 Teil100 50 150ms 0664 Teil100 y y y y y y y y y y y Table 5 Trip times for RCB s with over curent protection F RCD Type Current Type Se Test Current prescribed Test Time Standard F RCD Trip Time Analyzer y 2000ms IAN2100mA 500ms IEC61009 1 IEC61009 1 IEC61009 1 IEC61009 1 IEC61009 1 10mA 30mA 100mA 2 2 2 2 2 2 2 2 2 4 4 42424 2 0 1x 1 4x 300mA IAN gt i IEC61009 1 500mA IEC61009 1 1000mA d IEC61009 1 IEC61009 1 dx 1 IEC61009 1 Technical Data Table 6 Trip times for selective RCB s with over curent protection F RCD Type Current Type CurrentType TestCurrent prescribed Test Time Standard F RCD ai Mii Fr ei NR E oa x0 5 0 5x 1EC61009 1 y N x 1x 130 500ms IEC61009 1 x2 2x 60 200ms IEC61009 1 x5 5x 50 150ms IEC61009 1 x0 5 0 35x IEC61009 1 xi
16. Olerance i it eine 10 IAN Display cram demere 0 1999ms Technical Data 24 month Warranty Resolution orte 1ms A sse 2 2Digit Display 0 50 V Resolution 0 1 V bei IAN 100 300 500 1000mA ftetit IN bei IAN 10 30mA Tolerance 0 10 6 Digit A O O 25V 50V contact voltage limit UL to be pre selected Auto function Measurement ranges 10 30 100 300 500 1000mA idem gt lai ob 100 300 500 1000 mA selective Test CUrrentS ra 0 5 x IAN NAT RU tae iiti e 1x IAN m 2 x IAN GE 5 x IAN not at IAN 500 1000 mA standard or S n automatic selection also refer to table 1 Phase position 0 180 automatic selection Measurement time see table 3 when exceeding limits immediate cut off Display ein nu O K bad POS Err LIMITS veria 25V 50V contact voltage limit UL to be pre selected Mains Voltage Range Measurement range 3 300V AC Tolerance 3 3 Digit Frequency range ss 50 60Hz 1096 Internal resistance approx 300kQ Overvoltage protection 400V AC DC 24 month Warranty UNITEST instruments are subject to strict quality control However should the instrument function impro perly during daily use your are protected by our 24 months warranty valid only with invoice We will repair free of charge any defects in workmanship
17. Starting of RCD Test I Lv IAN 171 mA IE UL 50V Display at contact voltage mm KO 1 l IAN CUI mA O B Zu UL 50V Display at earth resistance 13 Measurement results can be saved via pres sing key Store 25 Ifthe condition of a faulty socket is to be saved first press key Start 22 Upon hearing the Error Signal press the key Store 25 ES If the RCD trip the Attention symbol 1 and Socket error symbol 4 are displayed Starting of RCD Test IAN DAT Zn UL 50V Display at RCD has tripped A possible reason could be incorrect selection of test current e aresidual current is present within the net to be tested causing the RCD to trip early because it sums up with the test currents RCD faulty 13 The calculated contact voltage is displayed up to an votage of 70 V The measurement is interrupted if the contact vol tage exceeds the set contact voltage limit Attenti on 1 and UB gt UL 3 appears on the display 5 2 3 Starting RCD Test with RCD Tripping Funtion tRCD UB The contact voltage VC is measured during a test by applying a current amounting to 40 of the no minal residual current The contact voltage display ed is extrapolated to nominal residual current IAN or to double the nominal residual current IAN for selective RCDs ES Upon the examnation of RCDs a break of 30 sec is had betweeen pre test and preliminary test
18. UL 3 and Err IAN CM d mA 7 5X SUE UL 50V After successful preliminary test the following is displayed 14 A Us gt UL IAN DT 5X Tu UL 50V Pr 1 equals Pr 2 equals Pr 3 equals 0 5x IAN 0 RCD must not trip 0 5x IAN 180 RCD must not trip 1x IAN 0 RCD must trip within 300ms S Type 130 500ms test time 500ms 1x IAN 180 RCD must trip wit hin 300ms S Type 130 500ms 2x IAN 0 RCD must trip within 150ms Si Type 60 200ms 2x IAN 180 RCD must trip wit hin 150ms S Type 60 200ms Pr 7 equals 5x IAN 0 RCD must trip within 40ms SE Type 50 150ms Pr 8 equals 5x IAN 180 RCD must trip wit hin 40ms S Type 50 150ms Pr 4 equals Pr 5 equals Pr 6 equals function notto be executed at 500mA and 1000mA RCDs The RCD trips several times during measurement and has to be switched on again Thereafter the measurement is automatically continued and ends with the display POS or Err on the display 18 El gt gt a II I m m IAN DT 180 5x M UL 50V Display at functioning RCD Display at faulty RCD POS is an abbreviation of positive and signifies that the RCD is functioning correctly If Err Error is displayed the measurement is immediately inter rupted Err indicates a defective RCD or that the contact voltage has been exce
19. UNITEST Instruction Manual Cat No 9061 TELARIS Fi RCD Analyzer UNITEST TELARIS Fi RCD analyzer D DIN VDE 0100 IE 16 Edition 4 Contents A e al uae Ratatat Page 1 0 Introduction Scope of Supply rr 4 1 1 Model and Type Designation rr 4 1 2 PraggCde Sc HDHIOITUR s cd o eror etat iada 4 2 0 Transport and Storage ooooconnococonocnconconorncanooonanconornnanaconos 5 SAR ZAA ea 5 3 1 Appropriate Usage sia 7 4 0 Display Operation Elements rra 7 5 0 Carrying out Measurements ar cesses 8 5 1 Voltage Measurement sr aa 9 5 2 General Information about RCD Tests 10 5 2 1 Information regarding RCD testing 10 5 2 2 Starting of RCD Test without RCD tripping Bile Gaua Rea 11 5 2 3 Starting RCD Test with RCD Tripping Funtion tRCD VC 12 5 2 4 Starting RCD Test with RCD Tripping Function Auto 14 5 2 5 Starting Automatic RCD Test with RCD Tripping 16 6 0 Storing Measurement DOS 17 6 1 Infrared Interface send Measurement Data 18 7 0 Deleting Stored Measurement Data Display of All Memory Entries oo ds 18 8 0 Energy Manage Mec pee p reete 19 9 0 Maintenance ata A arai 19 A irlak PE 19 10 0 Battery Replacement ss 19 11 0 Internal fuse A tte NI AE LA 20 11 1 Indication in the display at defect fuse 20 12 0 Calibration In
20. Us gt UL IAN DT g UL 50V Display at limit of contact voltage is exceed If the RCD does not trip within correct tolerance va lues also refer to table 3 the Attention symbol 1 and Limit 2 are displayed besides measure ment value tRCD A possible reason could be incorrect selection of test current e aresidual current is present within the net to be tested causing the RCD to trip early because it sums up with the test currents RCD faulty Display at trip time gt 300 ms A Limit SLI ms IAN DT Zu UL 50V 13 Measurement results may be saved pressing key Store 25 Starting of RCD Test ES Ifthe condition of a faulty socket is to be saved first press key Start 22 Upon hearing the Error Signal press the key Store 25 5 2 4 Starting RCD Test with RCD Tripping Function Auto For this test the trip current I of the RCD is mea sured The contact voltage VC is measured during the preliminary test at a current of 40 IAN The RCD test is resumed after the successful prelimi nary test at a residual current rising in steps of 10 from 40 IAN until maximum 140 IAN The presently active residual current is indicated on the display and in the event of the RCD tripping the trip time of the RCD is meausured The contact voltage VC is evaluated for the trip current Lal ES The method of the rising test current is not ne cessaril
21. al current selection also al lows selection of selective RCDs not possible for RCD TEST lA ta UB When selecting the selective RCD the symbol S 7 appears on the display 15 To carry outa complete socket test the contact electrode PE 21 must be touched If the sym bol socket error 4 appears a PE error is pre sent gt xm JII LAI v IAN DT ZU UL 50V 1 Ifthe instrument is switched off using function selection switch or if the instrument automati cally switches off due to the automatic power off function the pre set nominal residual cur rent value is maintained Parameters such as phase position 0 180 current type AC DC Plus DC and the nominal residual current multiplication factor are reset to the standard default values 0 AC x1 ES f many measurements are carried out inter rupted only by short breaks the built in over temperature protection of the RCD Analyzer might respond and the thermometer symbol 15 appears on the display Subsequent mea surements can only be carried out once the in strument has cooled down and the thermome ter symbol has gone out thus avoiding any instrument damage Any tests at nominal resi dual currents 10mA 30mA may be started even if the thermometer symbol is on as these currents do not lead to a heating up of the in strument E 230 ER quem V IAN DT NU UL 50V fthe RCD trips during testing
22. diate cut off ETL se 1 1999 Q at IAN 100 300 500 1000 mA aaria 0 01 1 99 O at IAN 10 30 mA Resolution aa 1 at IAN 100 300 500 1000 mA T 0 01 kQ at IAN 10 30 mA Tolerance 10 10 Digit at IAN 100 300 500 1000 mA emo Pu MM MH MM MU 10 20 Digit at IAN 10 30 mA depends of contact voltage Measuring Trip Time tA Measurement range IAN 10 30 100 300 500 1000mA standard s ane ARAN 100 300 500 1000 mA Selektiv Test currents LAN x0 5 x1 x2 x5 siee table 1 Test current type AC intermittent DC residual current Pc TER DC Phase position 0 180 Test current tolerance 0 10 Measurement time see table 3 when exceeding limits immediate cut off Measurement range 2 1999ms Resolution 1ms Tolerance d 2 2Digit O aaa 25V 50V contact voltage limit UL to be pre selected Measuring Trip Current Ramp Funkction Measurement ranges 10 30 100 300 500 1000mA Standard see table 2 Test currents 40 x IAN 14096 x IAN bei AC S 10 x IAN 14096 x IAN bei pulsierendem Gleichfehlerstrom bzw DC Phase position 0 180 Measurement time see table 3 when exceeding limits immediate cut off Displays oet tere 10 IAN 140 IAN Resolution manua 10 IAN T
23. eded The nominal re sidual current multiplication factor 12 together with the phase position of nominal residual current 9 indicates in which program the automatic test has been interrupted The measurement results may be stored by pres sing key Store 25 It is advised to store when using this range as the Report Studio Software enables a detailed decoding of the measurement results Storing Measurement Data 1 To interrupt the function AUTO change the measurement range using the selection switch 31 13 Possibility to save 6 0 Storing Measurement Data After successful measurement it is possible to save measurement value by means of Store key 25 Alltogether approximately 100 measurement va lues can be saved Proceed as follows Carry out measurement Store measurement result by pressing Store key 25 After successful storeing a short signal is au dible and the symbol M 13 is displayed also the memory address number briefly appears ES Inthe event of pressing the Store key when the memory is full the M Symbol blinks briefly and an error signal is heard 12 The data in the memory is maintained if in strument is switched off or during battery re placement Double storing of a measurement is impossi ble 1 Under certain unintentional circumstances data may he lost or modified during electro nic saving CH BEHA will not be held liable for financial and other loss
24. ermanent basis in compliance with the ISO 9000 Quality Management Stan dards n addition the BEHA Group confirms that all test equip mentand instruments used du ring the calibration process are subject to constant control All est equipment and instru ments used are calibrated at determined intervals using re erence equipment which has also been calibrated in com pliance with and traceable to he calibration standards of national and international labo ratories CH BEHA GmbH Elektrotechnik Elektronik In den Engematten 14 D 79286 Glottertal Germany Tel 49 0 7684 8009 0 Fax 49 0 76 84 80 09 410 internet Quality Management System IS0 9001 e mail info beha de http www beha com Le groupe BEHA d clare que l appareil auquel ce document fait r f rence a t calibr au cours de sa fabrication selon les proc dures de contr le d finies par BEHA Toutes ces proc dures et contr les de qualit sont r gis par le syst me de gestion ISO 9000 Le groupe BEHA d clare par ailleurs que les quipements de contr le et les instruments uti lis s au cours du processus de calibrage sont eux m mes soumis un contr le technique permanent Ces m mes quipements de contr le sont calibr s r guli rement l aide d appareils de r f rence calibr s selon les di rectives et normes en vigueur dans les laboratoires de re cherche nationaux et
25. g BEHA Group with its head office in Glottertal Schwarzwald wich also houses our deve lopement centre The BEHA Group is a leading or ganisation for Test Measurement Instruments 1 1 Model and Type Designation The identification label is located on the rear of the instrument It contains the instrument serial num ber and product designation When questions arise regarding the instrument please always quote product designation and serial number 1 2 Productdescription The UNITEST TELARIS FI RCD Analyzer allows the testing of trip times of standard RCDs and selective RCDs using various residual currents Additionally the ground resistance and contact voltage can be measured Testing of trip times of standard RCDs and sel ective RCDs using various residual currents Testing of conventional selective and all cur rent sensitive RC protection switches Automatic RCD test all RCD tests are carried out automatically Nominal residual currents may be selected 10 30 100 300 500 and 1000mA Automatic phase detection e Various curve shapes Sine 1 2 wave rectified DC current DC current Start of measurement at 0 or 180 Display of trip time trip current contact voltage ground resistance e Result assessment result evaluation Data memory for up to 100 measurement resutls e Infrared interface RS232 for easy data transfer e Energy management with integrated auto power off function Large easily
26. ified in the technical data section Display Operation Elements 3 1 Appropriate Usage A The instrument may only be used under those conditions and for those purposes for which it was built A When modifying orchangingthe instrument the operational safety is no longer guaranteed A The opening of the instrument for fuse re placement for example may only be carried out by professionals Prior to opening the in strument has to be switched off and discon nected from any voltages A Any maintenance and calibration tasks may only be carried out by our repair service staff A The instrument may not be operated if the bat tery case is open A If the instrument is subjected to an extremely high electro magnetic field its functioning abil ity may be impaired 4 0 Display Operation Elements Display 1 Attention warning symbol 2 Symbol Limit Limitvalue 3 Excess breech of contact voltage limit 4 Socket error 5 Battery status indication 6 Unit display 7 Display for selective RCD 8 Phase position nominal residual current 9 Contact voltage limit 10 Current type 11 Selected nominal residual current 12 Nominal residual current multiplication factor 13 Symbol for memory entry 14 Measurement data display 15 Symbol for ramp function 16 Temperature overload overheating of the in strument 17 AC voltage display of mains voltage Operation Elements 18 LCD 19 Key VC UL to
27. lode or ignite onyy use batteries as described in the technical data section type 6LR61 Switch off the instrument Loosen screws on the instrument rear Remove battery case cover by slightly knocking the instrument in the palm of the hand Remove discharged battery Insert new battery by respecting the correct po larity Replace battery case cover and tighten screws Instrument is operational Battery Replacement Calibration Interval Never try to disassemble a battery cell Never throw a battery into open flames as this could lead to an explosion Never subject batteries to hu midity A Please consider your environment when dis posing of used batteries They belong in a rub bish dump for hazardous waste Generally speaking you may return your batteries to the point of sale ES The appropriate regulations concerning return recycling and disposal of used batteries must be respected at all times An the instrument is not used over an extended time period we recommend to remove the bat tery In the event of instrument contamination caused by leaking battery cells the instrument has to be returned for cleaning and verification to our factory 11 0 Internal fuse The internal fuse protects the instrument from overload or wrong operation use The fuses can trigger if tensions gt 600 V AC DC are connected to the instrument 1 The fuse is inside the instrument
28. lue entries on the display Display of Total Number of Measurement Value Entries gt Set measurement range selection switch 31 to one of the 5 measurements ranges gt Briefly press Clear key 27 A short beep sig nal is audible Thetotal number of all measurement values that have been saved is now displayed Delete Last Stored Measurement Value Set measurement range selection switch 31 to one of the 5 measurement ranges gt Briefly press Clear key 27 A short beep sig nal is audible and the number ofthe memorised measurement data is displayed The total num ber of all stored measurement data is dis played The display disappears after approxi mately 2 seconds Now release the key Clear 27 to avoid dele tion of all memory entries ES Deleting the last measurement value can be re peated as often as required as long as data is available within the memory Deleting all Stored Measurement Values gt Set measurement range selection switch 31 to one of the 5 measurement ranges Press Clear key 27 for approx 5 seconds A beep signals are audible The number of all stored measurement values is displayed The last stored value is deleted after 2 seconds After 5 seconds all values are deleted 0 appears on the display The memory is com pletely deleted the M symbol in the display disappears Maintenance Battery Replacement 8 0 Energy Management Approximately
29. quipped with residual current devices should only be performed after having con sulted the operator terminals data processing systems material processing motors etc 13 Prior to testing we recommend all loads are switched off as they could falsify the measure ment result 13 The protective earth must be free of external voltage for the RCD test However if an extra neous voltage is present the instrument only indicates the voltage VC having been generat ed by the measurement The measurement in terruption caused by excess of UL by VC is only generated by the actual voltage present be tween the neutral conductor N and the pro tective earth PE Starting of RCD Test 5 2 1 Information regarding RCD testing The instrument TELARIS RCD Analyzer allows the measurement of trip times for standard RCDs and selective RCDs for different residual currents Ad ditionally the ground resistance and the contact voltage can be measured without RCD tripping The additional ramp function allows determination of the exact residual current and trip time The instru ment is equipped with an automatic RCD function to carry out fully automatic RCD tests Table 1 and 2 informs about the type of cur rentto be selected and about multiplication fac tors of nominal residual current The multipli cation factors may not be selected within all measurement functions and are in these cases disabled for the user 13 The nominal residu
30. st be proved that there is no connection between N and PE following the RCD 4 Proof regarding the low impedance connection of equipotential bonding conductors in compliance with Section 5 4 must be available Time delayed residual current devices trip at nominal residual current within 130 500ms for double nominal fault current within 60 200 ms Such RCDs are implemented as main residual current protection devices please refer to IEC 61008 1 and are marked with the symbol S 1 The contact voltage represents the voltage pre sent during an insulation error between two si multaneously touchable components A Ata measuring circuit without probe available voltages between PE and earth can influence the measurement A Before using the N conductor as probe check that all neutral points have low ohm resistance to the main neutral line A available voltage of the N conductor to the arth can influence the measurement The measuring function uses the N conductor as a probe Check first the connection between the neu tral point of the distribution system and earth be fore the test is started A possible voltage between the N conductor and earth may influence the mea surements A Leakage currents by preconnected loads can influence the measuring A Attached loads or operating supplies which contains capacitors or circulating machines can elongate the trip time A Any test and measurement procedures in cir cuits e
31. tch 31 Connect test lead mains connection lead to the UUT as described in figure 1 or 2 Read measurement data on the display ES No data storing possible Fig 2 H e General Information about RCD Tests 5 2 General Information about RCD Tests The contact voltage UB and the trip time t required by the RCD to disconnect the subsequent current circuit from the mains represent important mea surement units for the asessment ofan RCD For this reason IEC 60364 prescribes that a the maximum allowable value for the contact voltage 25V 50V may not be exceeded within any system during tripping at nominal residual current b the RCD must trip within a time limit of 300ms The task of an residual current device RCD con sists in switching off a system within a defined time period after an error prior the contact voltage reach es the permissible limit value of 25V 50V The system testing should be started by carrying out a visual inspection in particular of the protective earth connection 1 Within the IT system the protective earth con ductor doesnot have to be connected with the PEN but with the protective earth connection 2 The protective earth conductor must be connect ed to the PEN prior to the RCD within the TN sys tem 3 An insulation measurement as described in Sec tion 5 2 must be performed In particular it mu
32. terval uses 20 12 0 ROEN CE 21 24 month Warranty trials iaa 26 Introduction References marked on instrument or in instruc tion manual A Warning of a potential danger comply with in struction manual 13 Reference Please use utmost attention AN Caution Dangerous voltage Danger of electri cal shock D Continuous double or reinforced insulation complies with Category II Warning of potential danger caused by accu mulators and batteries C E conformity symbol the instrument complies with the valid directives lt complies with the EMC Directive 89 336 EEC Standards EN 50081 and EN 50082 1 are fulfilled It also complies with the Low Voltage Directive 73 23 EEC Standard EN 61010 1 is fulfilled A The instruction manual contains information and references necessary for safe operation and maintenance of the instrument Prior to using the instrument commissioning as sembly the user is kindly requested to thor oughly read the instruction manual and com ply with it in all sections N Failure to read the instruction manual or to comply with the warnings and references con tained herein can result in serious bodily injury or instrument damage 1 0 Introduction Scope of Supply You have purchased a high quality measurement in strument of Ch BEHA GmbH wich will allow you to carryout measurement over a long time period The company Ch BEHA GmbH is a member of the world wide operatin
33. tion and maintenance of the instrument A The respective accident prevention regulations established by the professional association for electrical systems and equipment must be strictly met at all times In order to avoid electrical shock the valid safe ty and VDE regulations regarding excessive contact voltages must receive the utmost at tention when working with voltages exceeding 120V 60V DC or 50V 25V rms AC The val ues in brackets are valid for limited ranges as for example medicine and agriculture A Measurements in dangerous proximity of elec trical installations are only to be executed when instructed by a responsible electrical specialist and never alone A Ifthe operator s safety is no longer guaranteed the instrument is to be put out of service and protected against use The safety can no longer be guaranteed if the instrument or leads shows obvious damage does not carry out the desired measurements has been stored for too long under un favourableconditions has been subjected to mechanical stress dur ing transport ES Avoid any heating up of the instrument by di rect sunlight to ensure perfect functioning and long instrument life Prior to usage inspect the instrument and test leads for external damage Prior to any opera tion ensure that connecting leads used and in struments are in perfect condition A The instrument may only be used within the op erating ranges as spec
34. y binding in compliance with VDE ho wever represents a useful aid during trouble shooting A Testand measurement instruments within net works being protected by RCDs should only be used after agreement with the final instrument user DP systems process technology mo tors etc Connect test lead mains connection cable to test instrument Connect test lead mains connection cable to the UUT as described in figure 1 or 2 gt Select desired measurement function ll ARCD VC using function selection switch 31 Set nominal residual current selection 20 to desired nominal current depending on RCD ES No possibility to check selective RCDs Set phase position using 0 180 key 24 and current type by means of key 23 Select contact voltage using key VC UL 19 Touch contact electrode PE 21 Note display ES f the symbol Socket Error 4 appears a PE error is present Press key Start 22 13 After a successful test it is possible to select between measurement results trip current I lt trip time tRCD and contact voltage VC in the display 14 using display key 18 A Us gt UL IAN DAT Tu UL 50V E Lal mA IAN TW ma 7 Zu UL 50V Display trip current If the contact voltage VC already exceeds the pre set contact voltage limit UL during the preliminary test the measurement is disabled and the Attenti on symbol 1 and UB
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