Fluke 19xC-2x5C
Contents
1. Figure 37 AS i Bus Measurement Connections 71 Fluke 19xC 2x5C Users Manual CAN Bus Default probe setting 10 1 Use the Fluke 10 1 probes 1 Connect the red probe to the test tool input A connect the grey probe to input B 2 Connect the ground lead of the input A probe to the CAN bus High CAN_H 3 Connect the probe tip of the input A probe to the CAN bus Low CAN_L 4 Connect the ground lead of the input B probe to the CAN bus ground CAN_GND 5 Connect the probe tip of the input B probe to the CAN bus high CAN_H Note The bus normally has continuous data traffic 72 OBD2 DB 9 613 7 CANH ang A SS 5 5 3 lt AN GND gt E Y Figure 38 CAN Bus Measurement Connections Table 4 CAN Bus Tested Signal Properties Signal Description CAN Dom H L Dominant high to low level voltage CAN Rec H L Recessive high to low level voltage CAN Level Common mode voltage Data Jl Bit width Rise Rise time as of bit width Fall Fall time as of bit width Jitter Jitter distortion Overshoot Overshoot distortion Using The Bushealth Function 6 Input Connections and Tested Signals RS 232 Bus amp Modbus IEA 232 RS 232 Table 5 RS 232 Bus Tested Signal Properties Default probe setting 10 1 Use the Fluke 10 1 probe Signal Description 1 Connect the red probe to the test tool input A V Level High High level voltage V Level Low Low l2. Turn off the zoom function 45 Fluke 19xC 2x5C Users Manual Making Cursor Measurements Cursors allow you to make precise digital measurements on waveforms This can be done on live waveforms recorded waveforms and on saved waveforms Using Horizontal Cursors on a Waveform To use the cursors for a voltage measurement do the following 1 From scope mode display the cursor key labels Wer Move E mS OFF Press to highlight E Observe that two horizontal cursors are displayed Highlight the upper cursor Move the upper cursor to the desired position on the screen Highlight the lower cursor Move the lower cursor to the desired position on the screen 5858 8 0 46 Note Even when the key labels are not displayed at the bottom of the screen you still can use the arrow keys This allows full control of both cursors while having full screen view HIGH 120 LOW 114 Probe 10 1 gt A Figure 24 Voltage Measurement with Cursors The screen shows the voltage difference between the two cursors and the voltage at the cursors See Figure 24 Use horizontal cursors to measure the amplitude high or low value or overshoot of a waveform Using Vertical Cursors on a Waveform To use the cursors for a time measurement or for an RMS measurement of the trace section between the cursors C versions do the following 1 cursor From scope mode display the cursor key labels
3. 6 5 Fa Select Ohms measurement Highlight Ohms 28 The resistor value is displayed in ohms Observe also that the bargraph is displayed See Figure 13 MANUAL JUIBKO AO 40 L MANUAL gt Figure 13 Resistor Value Readings Using The Multimeter 2 Making Multimeter Measurements Making a Current Measurement You can measure current in both Scope mode and Meter mode Scope mode has the advantage of two waveforms being displayed while you perform measurements Meter mode has the advantage of high measurement resolution The next example explains a typical current measurement in Meter mode Figure 14 Measurement Setup Warnin a 9 3 ep Open the Measurement menu Carefully read the instructions about the Measurement current probe you are using Measure JOhms DU ac D ac A O Continuity DU d D dc To set up the test tool do the following ODioda te DVacide Df acid O Temp 1 Connect a current probe e g i400 optional O Highlight A ac from the 4 mm banana jack outputs to the conductor to be measured Ensure that the red and black probe connectors 5 Fa Open the Current Probe correspond to the red and black banana jack submenu inputs See Figure 14 Current Probe 2 Display the METER key labels Sensitivity o 100 Bus 0400 mA O1muia o1 WA 10 mu A O10 WA MEASURE RELATIVE ICO MAHAL gt o 100 mA o 190 WA 29 Fluke 19xC 2x5C Users Manual 6
4. Continue with DC calibration Automatic DC calibration is only possible for 10 1 voltage probes Maintaining the Test Tool 9 Calibrating the Voltage Probes The test tool automatically calibrates itself to the probe During calibration you should not touch the probe A message indicates when the DC calibration has completed successfully 9 Fa Return Repeat the procedure for the gray 10 1 voltage probe Connect the grey 10 1 voltage probe from the grey input B jack to the red banana jack Connect the reference lead to the black banana jack Note When using 100 1 voltage probes choose 100 1 attenuation to perform an adjustment 105 Fluke 19xC 2x5C Users Manual Displaying Calibration Information You can display version number and calibration date 1 0 Display the USER key labels VERSION ALS amp CAL LIGHT OPTIONS LANGUAGE 2 9 Open the Version 8 Calibration menu Version Calibration Model Humber 1990 Softuare Version 107 00 Option Hone Calibration Humber Calibration Date 0171972004 Battery Refresh Date 0171972004 The screen gives you information about the model number with software version the calibration number with latest calibration date and the latest battery refresh date 3 Fa Return Recalibration must be carried out by qualified personnel Contact your local Fluke representative for recalibration 106 Parts and Accessories The fol
5. Use ALL LINES to trigger on all line synchronization pulses horizontal synchronization 7 um The signal of one line is displayed on the screen The screen is updated with the signal of the next line immediately after the test tool triggers on the horizontal synchronization pulse Choose ALL LINES To view a specific video line in more detail you can select the line number For example to measure on video line 123 continue from step 6 as follows 7 uN 8 DO Select number 123 The signal of line 123 is displayed on the screen Observe that the status line now also shows the selected line number The screen is continuously updated with the signal of line 123 Enable video line selection Triggering on Pulses Use pulse width triggering to isolate and display specific pulses that you can qualify by time such as glitches missing pulses bursts or signal dropouts Detecting Narrow Pulses To set the test tool to trigger on narrow positive pulses shorter than 5 ms do the following 1 Apply a video signal to the red input A 2 frricceR Display the TRIGGER key labels AUTO TRIG SLOPE GOMA TRIGGER EN 6 Ext 1 x MANUAL OPTIONS 3 EE Open the Trigger Options menu Trigger Options Trigger Automatic O On Edges O Video on A o Pulse Width on A Triggering on Waveforms 5 Triggering on Pulses 4 ES Select Pulse Width on A to Fa open the Trigger on Pulse Width o menu
6. e UL61010B 1 Max Input Voltages Input A and B directly eee 300 V CAT III Input A and B via 10 1 probe 1000 V CAT II 600 V CAT III METER EXT TRIG inputs eee 1000 V CAT Il 600 V CAT III A Max Floating Voltage From any terminal to earth ground 1000 V CAT Il 600 V CAT III Between any terminal 1000 V CAT Il 600 V CAT III Voltage ratings are given as working voltage They should be read as Vac rms 50 60 Hz for AC sinewave applications and as Vdc for DC applications 126 MAX INPUT VOLTAGE Vrms 1000 al CAT Ill METER EXT CHANNEL 500 INPUT A B 200 100 50 20 1 0 01 0 02 0 05 0 1 0 2 05 1 2 5 10 20 50 100 FREQUENCY MHz Figure 62 Max Input Voltage vs Frequency Note Measurement Category III refers to distribution level and fixed installation circuits inside a building Measurement Category II refers to local level which is applicable for appliances and portable equipment VOLTAGE Vrms 1000 Sl CAT CAT Ill 500 200 100 50 30 20 10 5 2 do 0 02 0 05 0 1 0 2 05 1 2 5 10 20 50 100 200 FREQUENCY kHz Figure 63 Safe Handling Max Voltage Between Scope References Between Scope References and Meter Reference and Between Scope References Meter Ref
7. Usually it should not be necessary to replace the battery pack However if replacement is needed this should be done by qualified personnel only Contact your nearest Fluke center for more information Calibrating the Voltage Probes To meet full user specifications you need to adjust the red and gray voltage probes for optimal response The calibration consists of a high frequency adjustment and a dc calibration for 10 1 probes This example shows how to calibrate the 10 1 voltage probes 1 gy Display the input A key labels INPUT A COUPLING PROBEA INPUT A m OFF se AC 10 1 OPTIONS Figure 60 Adjusting Voltage Probes 2 fo FS Open the Probe on A menu Probe on fi Probe Type attenuation EES a 4 A Select 10 1 then return O Current o 200 1 o Probe Cal 3 EY Select Voltage then jump to ED Attenuation If the 10 1 option is already selected proceed with step 5 104 Repeat steps 2 and 3 and proceed as follows 5 amp Select Probe Cal with the arrow SE keys then accept A message appears asking you whether to start the 10 1 probe calibration o mw A message appears telling you how to connect the probe Connect the red 10 1 voltage probe from the red input A jack to the red banana jack Connect the reference lead to the black banana jack See Figure 60 Start the probe calibration 7 Adjust the trimmer screw in the probe housing until a pure square wave is displayed
8. ccccceseeeeesseeeeeeeeeseeeeeeeseeeeneeeeseeesenseeeesanseneeennees 7 83 Saving and Recalling ssia onenian ati ia 7 83 Documenting ScCreenS ooconoccccccnccccoconocccocnnnconnnoncnnnnncnnnnnnnnnncnncnnnnnnnnnncnncnnnnnnnnnccnnnnnennnns 7 88 AA A Sed wee devedu viet E E cedveuvnetanecndeen 8 91 Using the Standard Accessories ooooocconnoccccnonocnnononcncnononnncnnno cnn nnnnn nn nano nn nn anna n anar nnnnnnes 8 91 Using the Independently Floating Isolated Inputs ooooccccnnninonnccccnnnaccnnnonannnnnanncnnnos 8 93 Using the Tilt Stari ay imita diia ile 8 95 Resetting the Test TOO comicidad 8 95 Suppressing Key Labels and MenU S ooonoocccconocccononcccnnnoncncnononcnnnonnncnnnonnnn nana nnnnannncnnns 8 95 Changing the Information Language oooccccconoccccnoncccnononcnnnonananononnncnano cnn n nana cnn nannncnnnns 8 96 Adjusting the Contrast and BrightnesSS oononccccnnocicinonocinononcninanancncnona nano norn cc nanonnnnnnnos 8 96 Changing the Display Color insien a e cnn nana aede iiid 8 97 Changing Date and TIME iii OEI 8 97 saving Battery Life coin a lord 8 98 Changing the Auto Set Opti0NS ooooooccconoccccnonoccnononoconanoncnc nono cnn ono nnnnnnnn nn nn nan nnnnanncnnnns 8 99 Maintaining the Test TOOl connnnninnnnicinnnnnnsccnnnnrrnnrcrnn enn 9 101 iii Fluke 19xC 2x5C Users Manual Cleaning the Test TOON ciones reee 9 101 Storing the Test Tool ooocoicoia seen dene stececgeeeugies dais 9 101 Charging the Batteries
9. continue from step 4 as follows D Generate the default name Save the new name 87 Fluke 19xC 2x5C Users Manual Documenting Screens With the FlukeView software you can upload waveform data and screen bitmaps to your PC or notebook computer for further processing Printing can also be done by connecting the test tool directly to a printer Connecting to a Computer To connect the test tool to a PC or notebook computer and use the FlukeView software for Windows SW90W do the following e Use the Optically Isolated Adapter Cable USB OC4USB RS 232 PM9080 to connect a computer to the OPTICAL PORT of the test tool See Figure 48 ER EEES SECOS SINO Ses ES ss Figure 48 Connecting a Computer 88 Note For information about installing and using the FlukeView ScopeMeter software see the SW90W Users Manual A Software amp Cable Carrying Case Kit is optionally available as model number SCC190 Connecting to a Printer To print a screen directly to a printer use one of the following adapters e The Optically Isolated RS 232 Adapter Cable PM9080 optional to connect a serial printer to the OPTICAL PORT of the test tool See Figure 49 The Print Adapter Cable PAC91 optional to connect a parallel printer to the OPTICAL PORT of the test tool See Figure 50 Before printing you must setup the test tool for a specific printer Using Memory PC and Printe
10. e Do not apply voltages that differ more than 600 V from earth ground to any input when measuring in a CAT Ill environment Do not apply voltages that differ more than 1000 V from earth ground to any input when measuring in a CAT II environment Safety Information Read First e Do not apply voltages that differ more than 600 V from each other to the isolated inputs when measuring in a CAT Ill environment Do not apply voltages that differ more than 1000 V from each other to the isolated inputs when measuring in a CAT II environment e Do not apply input voltages above the rating of the instrument Use caution when using 1 1 test leads because the probe tip voltage will be directly transmitted to the test tool e Do not use exposed metal BNC or banana plug connectors e Do not insert metal objects into connectors e Always use the test tool only in the manner specified Voltage ratings that are mentioned in the warnings are given as limits for working voltage They represent V ac rms 50 60 Hz for ac sinewave applications and as V dc for dc applications Measurement Category Ill refers to distribution level and fixed installation circuits inside a building Measurement Category II refers to local level which is applicable for appliances and portable equipment Fluke 19xC 2x5C Users Manual The terms Isolated or Electrically floating are used in this manual to indicate a measurement in which the test too
11. tirita leal 9 102 Extending Battery Operation TiME ooooccconoccccnonoccnonononcnnnoncncnnno cnn n nono cnn nar n nr naar rra 9 103 Replacing the NiMH Battery Pack BP190 ooocooocccicococccononcnononancnononcconanoncnc nana cnn rnnnnnnos 9 104 Calibrating the Voltage Probes ooooooococcccconococononoccnonononcnnnonnncnnno nn nr nnnn rca nn nn criar rn 9 104 Displaying Calibration Information oonoonncccnnnnnccnnocacannnoncncnanannnrnnnn nn nn nrrn nr nann rra 9 106 Parts and ACCESSOMES ii ccsccsccccsciscecceushecedbecteneenacpenaubaht ps subd dead 9 106 TROUDIESNOOTING iio cle evden dade tees Haves ne fled deletes eeu i 9 111 10 Specifications ui nl tdi lil citadas 10 113 INTFOdUCION id 10 113 Dual Input Oscill0SCOPE oooooococcccnocococcccncnccanononcnnncnncnnononcnnnnnncnnnnn ono nncn cnn nana nn AEN 10 114 Automatic Scope Measurement ocooccccccccccocononononcncnnnnnononncnncnnnnnnnnnncnnnnnnnnnnnnnnnncnnnnnns 10 116 Meter ti 10 120 DMM Measurements on Meter ImputS oonooccccnnoncccnococonononcncnanoncnnnono non rn nn cnn ana nn cnn 10 120 A ataa aa A a e os aaaea e iat aaeei 10 122 Zoom Replay and CULSOFS coooocccccococccononcnonanoncnnnnnncnnnno nn nn iS iea terit aiaa iNT 10 123 Fieldbus Bushealth ci c 10 123 Miscellan Ous toi vo 10 124 ENVIO Metalico Aaa det 10 125 Safety Wi Aa 10 126 10 1 Probe iii A ee se ee 10 127 Electromagnetic IMmMunity ceccececeeeeeeeeeecaeceeeeeeeceaeceeeeeseeee
12. 10 1 probes Connect the probes as shown below DATA DATA DATA GND gt A 12 RS 485 bus system layout is shown in the figure below CONTROLLER DEVICE 1 Modbus IEA 485 RS 485 DEVICE 2
13. 19xC 2x5C Users Manual Roll Mode Function 122 RS200 Replacement Set 109 RS 232 Adapter Cable 3 88 110 S Safety 126 Safety Characteristics 113 Safety Requirements 1 Sampling Rate 114 Saving 84 SCC 190 88 110 Scope 114 Scope Connections 11 Scope Cursor Measurements 123 Scope Measurements 13 Scope Record 122 Scope Record 37 Screen Contrast 96 Screen Without Menus 10 95 Serial Printer 89 Shock 125 Single Shot 56 Single Sweep Mode 38 Slope 52 115 Slow Variations 34 Smooth 15 Soft Case 110 Software 3 110 134 Software Version 106 Specifications 113 Spectrum 21 Spike Capture 17 Stand 95 Storing 101 SW90W Software 3 88 110 T Temperature 119 121 125 128 Test adapter 109 Test Leads 3 Test Limits 81 82 Test Probes 3 107 Tilt Stand 95 Time 97 Time Base Accuracy 115 TrendPlot Meter 122 TrendPlot Function 34 Trigger Delay 53 115 Level 52 Modes 115 Pre trigger 53 Trigger Sensitivity 115 Triggering Automatic 54 115 Dual Slope 52 External 58 N Cycle 57 On Edges 55 On Pulses 61 On Video 59 On Waveforms 51 Troubleshooting 111 TV Triggering 59 U Unpacking 2 Users Manual 3 V VA 119 VA Power 13 VA Reactive 119 VA Reactive Power 13 Vertical Accuracy 114 Vertical Cursors 47 Vibration 125 Video Frames 60 Video Lines 60 Video Trigger 59 115 Viewing Stored
14. 2 Measure a voltage to be used as reference value Display the METER key labels RELATIVE a MEASURE DH MANUAL 3 ED Set RELATIVE to on ON is highlighted This stores the reference value as reference for subsequent measurements The stored reference value is displayed in small digits at the bottom right side of the screen after the word REFERENCE 4 Measure the voltage to be compared to the reference 32 Observe that the main reading is displayed as variations from the reference value The actual reading with its bargraph is displayed beneath these readings See Figure 16 RELATIVE 243 2mV gy Rare 100 200 300 400 a ACTUAL 2123U REFERENCE 2366U Figure 16 Making a Relative Measurement You can use this feature when for example you need to monitor input activity voltage resistance temperature in relation to a known good value Chapter 3 Using The Recorder Functions About this Chapter This chapter provides a step by step introduction to the recorder functions of the test tool The introduction gives examples to show how to use the menus and perform basic operations Trend Plot Scope Opening the Recorder Main Menu First choose a measurement in scope or meter mode Now you can choose the recorder functions from the recorder main menu To open the main menu do the following 1 Open the RECORDER main menu See Figure 17 Figure 17 Recorder Main
15. 5 d Bus Termination Wiring and bus termination for RS 485 transmissions in PROFIBUS 2 4 M12 connector for RS 485 in IP65 67 Pin assignment 1 VP 2 Rxd TxD N 3 DGND 4 RxD TxD P 5 Shield E Vp 5V n c RxD TxD P de B line RxD TxD N RTS A line optional D ground Dee DB 9 female wired for Profibus Fluke 19xC 2x5C Users Manual Profibus PA 31 25 kBits s Profibus PA Process Automation is optimized for process control with focus on explosion safety The wires are marked Data and Data and carry a DC supply with superimposed data Additionally there are wires with DC power only Data traffic is continuous To check this bustype ScopeMeter Channel A is on and alternately AC coupled for data or DC coupled to test the DC supply The recommended probe is the Fluke 10 1 probe Connect the probe as shown below DATA Warning When planning tests on this bustype make sure the proper safety rules are adhered to A 8 The figures below show some connector types Connector acc IEC61158 2 for harsh environment fixed device side male contacts A Data and Power B Data and Power C Optional Power D Optional Power Data Optional Power Data Optional Power Optional Power Reserved Optional Power DB 9 female wired as per 61158 2 Appendices A Bushealth Measurements Ethernet Coax 10Base2 The figure below shows the t
16. CURSOR q READING CURSOR M F1 move fi 1 T_RMS El Bs OFF Press to highlight II Observe that two vertical cursors are displayed Markers identify the point where the cursors cross the waveform E Choose for example time measurement READING T If necessary choose the trace TRACE A B or M Mathematics Highlight the left cursor Move the left cursor to the desired position on the waveform ESBEB Highlight the right cursor Using Replay Zoom and Cursors 4 Making Cursor Measurements A Figure 25 Time Measurement with Cursors 90 The screen shows the time difference between the cursors and the voltage difference between the two markers See Figure 25 gt D Move the right cursor to the desired position on the waveform Select OFF to turn off the cursors 47 Fluke 19xC 2x5C Users Manual Using Cursors on a A B A B or A B Waveform Using Cursors on Spectrum Measurements Cursor measurements on a A B waveform give a reading To do a cursor measurent on a spectrum do the following in Watts if input A measures milli Volts and input B measures milli Amperes 1 amp gt From Spectrum measurement display the cursor key label For other cursor measurements on a A B A B or A B ee waveform no reading will be available if the input A and eee input B measurement unit are different 2 Move the cursor and observe the readings at the top of the screen 48 Making Rise
17. ED Selecting a probe type To select another probe type do the following 00 Select the input A or B key labels Open the Probe On A B menu ES 6 Select and accept ff Fa the required probe attenuation 67 Fluke 19xC 2x5C Users Manual Reading the Screen The bus test screen see the example Figure 35 shows the status of the various signal properties Activity dde SL ds 7 Min Limit Information is represented in five columns U Level Bias cc ace A signal property that is being tested for example U Level gt O in 0 75 1 00 V Level Bias See page 70 for a description of the Data Jl a o soon 31 1 32 9 tested signal properties for each bus Rise A gt WA 80 B status indicator for example 9 See Table 1 for a Fall O N A 8 0 description of the indicators aaa WA 0 1 C most recent measurement value for example 3 5 Signal Bist WA 10 0 aes mae Noise HF gt 0 000 0 200 indicates that no reading is available Noise 2 G22 2 0 000 0 016 OL indicates that the signal is out of the Noise LF gt 0 000 1 600 measurement range overload ideas Frig I Probe 10 1 D Min Max the lowest and highest measured value ON E Limit used low left and high right test limits for Figure 35 Field Bus Test Screen Example example 18 5 31 6V LIMIT the indicates that one or more of the limits are not set to the default value N A in
18. Europe 1 425 446 5500 from other countries Table of Contents Chapter Title Page Unpacking the Test Tool Kitiic csccceeuceces heia e dit 0 2 Safety Information Read FirSt 20 0 0 eeeecceeeesneeeeeeeeeeeeeneeeeeenaeeeseeeeeeesnneeeeeenaeeeeeeaeees 0 4 1 Using The SCOpC cccccccccceeeeeeeeeeeeeeeseenseeeeeeesesseeeeeascnseseeeeesesseeeeeeeseanseseseensnmennenenss 1 7 Powering the Test TOO ccccccecceececeeeeeeeeaeceeeeeeesecaaeceeeeesesecaeeeeeeeeesecceeaeeeeeereeeeeea 1 7 Resetting the TeSt 100 vacios ori 1 8 Navigating a Menu iii ieeeea tes aE a EEE eee teste ieee 1 9 Hiding Key Labels and Menus oococcccconoccconococcnononcncnanoncnnnnnn cnn nao nn rr naar cnn arrancan 1 10 INpUt CONNECTIONS eiis aeee enon ie 1 10 Making Scope Connections iriiringa aoia reatet eea 1 11 Displaying an Unknown Signal with Connect and View eseese 1 12 Making Automatic Scope Measurement ccccceesseeeceerneeeeeeeeeeeenaeeeteeeeeeeeseeeeeeaas 1 13 Freezing the Sereen nnim coeceed a telar 1 14 Using Average Persistence and Glitch Capture ooooconnoccccnococacinononinanannnnnnnnnnnnnnnnnnnnnos 1 15 ACQUIFING Waveforms cescisscccveigescessceenienueteeuunuctesdeaubestsecuensedacvbesteedeeasececwbentsreesuaece weed 1 18 Pass Fail Testing comision ii ta aia 1 24 Analyzing WaVetO MS cti lira 1 25 Fluke 19xC 2x5C Users Manual Using The Multimeter cccccccceseeeeesseeeeeeesenseeeeeeseseeeeeseseeeseeeeeeesens
19. In case there are handshake lines they can be measured as well as far as V Levels are concerned Appendices A Bushealth Measurements Modbus IEA 485 RS 485 Is in use in Process Industry Building and Factory Automation Modbus System layout is shown in the figure below Continuous data traffic is not ensured Modbus IEA 485 RS 485 CE a E Sara To check this type of bus ScopeMeter Channel A and B are on and DC coupled The recommended probes are Fluke 10 1 probes Connect the probes as shown below DATA DATA DATA GND Wo Y Ss Fluke 19xC 2x5C Users Manual Foundation Fieldbus H1 31 25 kBits s Is used to control field equipment such as sensors actuators valves and I O devices via a two wire connection The system allows two way communication between controller and the devices Data traffic is continuous The wires are marked and and carry a DC supply of about 24 Vdc with superimposed data of about 800 mVpp The figure below shows the bus structure To check Foundation Fieldbus ScopeMeter Channel A is on and alternately AC coupled for data or DC coupled to test 24 Vdc The recommended probe is the Fluke 10 1 probe 2 wires shielding Fieldbus Power Sh Supply 7 DC Power Source Fieldbus Controller Control Room Device 1 Connect the probe as shown below DATA Suitable measuring spots are the screw terminals that are present in a system s jun
20. Reference Specifications 1 0 Electromagnetic Immunity Electromagnetic Immunity The Fluke 19xC 2x5C series including standard accessories conforms with the EEC directive 2004 108 EC for EMC immunity as defined by EN 61326 1 2006 with the addition of the following tables Scope Mode 10 ms div Trace disturbance with VPS210 voltage probe shorted Table 12 Frequency range 10 kHz to 20 MHz 2 mV div to 100 V div Frequency range 20 MHz to 100 MHz 200 mV div to 100 V div Frequency range 100 MHz to 1 GHz 500 mV div to 100 V div Frequency range 1 4 GHz to 2 0 GHz 2 mV div to 100 V div With the 20 MHz Bandwidth Filter switched on no visible disturbance With the 20 MHz Bandwidth Filter switched off disturbance is max 2 div Table 13 No visible disturbance E 1V m Frequency range 2 0 GHz to 2 7 GHz 2 mV div to 100 V div Table 14 Disturbance less than 10 of full scale E 3V m Frequency range 20 MHz to 100 MHz 10 mV div to 100 mV div Test Tool ranges not specified in tables 12 13 and 14 may have a disturbance of more than 10 of full scale 129 Fluke 19xC 2x5C Users Manual Meter Mode Vdc Vac Vac dc Ohm and Continuity Reading disturbance with test leads shorted Table 15 Disturbance less than 1 of full scale E 3V m Frequency range 10 kHz to 1 GHz 500 mV to 1000 V 500 Ohm to 30 MOhm ranges Table 16 No visible disturbance E 3V m Frequency range 1 4 GHz to 2 GHz 500 mV to 1000 V 500
21. Scope Navigating a Menu Glitch Detect Average Waveform mOn m Off Normal o On o Persistence i o Mathematics o Reference Figure 4 Basic Navigation 3a Cy Use the blue arrow keys to Fa highlight the item a ES Press the blue ENTER key to accept the selection 4 Po Fa Press the ENTER key until you exit the menu Note Repeatedly pressing lets you to step through a menu without changing the settings 1 Fluke 19xC 2x5C Users Manual Hiding Key Labels and Menus You can hide a menu or key label at any time Press the CLEAR MENU key to hide any key label or menu To display menus or key labels press one of the yellow menu keys e g the SCOPE key 10 Input Connections Look at the top of the test tool The test tool has four signal inputs two safety BNC jack inputs red input A and gray input B and two safety 4 mm banana jack inputs red and black Use the two BNC jack inputs for scope measurements and the two banana jack inputs for meter measurements Isolated input architecture allows independent floating measurements with each input METER_ V leoov CAT Mi CAT III 1000V CAT I CAT III SEE WARNING BATTERY A ON REAR ISOLATED INPUTS CHARGER Figure 5 Measurement Connections Making Scope Connections To make dual input scope measurements connect the red voltage probe to input A and the gray voltage probe to input B Connect the short ground leads of
22. Screens 87 Voltage Probes 3 104 107 VP210 Voltage Probe 107 VP210 Voltage Probe Set 3 Vpwm 13 118 W Watt 119 Watts Power 13 Waveform comparing 23 Waveform Mathematics 20 Waveform Options 15 Waveform storage 84 X X Y mode 20 Z Zoom 44 123 Index continued 135 Appendices Appendix Title Page Bushealth Measurements naien vas estrias arc doen Sevatacwacdedoudherkeec dhaaseVeebeutdes dat A 1 Introduction This Appendix contains information to extend the information presented in Chapter 6 of this manual The purpose of this appendix is to give more information on how to connect Probe s and Ground Lead s to the Fieldbus system under test Bear in mind however that due to the variety of Bus Standards and Connectors used worldwide it is impossible to cover all situations The connection solutions in this appendix cover those most commonly found Appendix A Bushealth Measurements General The Bushealth measurement is based upon the test tool s Scope mode In addition to that it selects settings that are optimized to the signal characteristics of the selected Bus Type The captured waveform s are compared to voltage and timing criteria belonging to the tested Bus Type This results in quality information of these criteria OK marginal or out of range Caution Fieldbusses often are controlling delicate processes that must not be disturbed It is strongly recomme
23. Set to On o 1 Hz and up O Unchanged O Unchanged If the frequency range is set to gt 15 Hz the Connect and View function responds more quickly The response is quicker because the test tool is instructed not to analyze low frequency signal components However when you measure frequencies lower than 15 Hz the test tool must be instructed to analyze low frequency components for automatic triggering Tips 8 Changing the Auto Set Options 4 amp Select Signal gt 1 Hz then jump ER to Coupling With the coupling option you can choose how auto set behaves When you press the AUTO auto set key the coupling can either be set to dc or left unchanged amp gE Select Unchanged Note The auto set option for the signal frequency is similar to the automatic trigger option for the signal frequency See Chapter 5 Automatic Trigger Options However the auto set option determines the behavior of the auto set function and shows only effect when you press the auto set key 99 Fluke 19xC 2x5 Users Manual 100 About this Chapter This chapter covers basic maintenance procedures that can be performed by the user For complete service disassembly repair and calibration information see the Service Manual www fluke com Chapter 9 Maintaining the Test Tool Cleaning the Test Tool Clean the test tool with a damp cloth and a mild soap Do not use abrasives solvents or alcohol These may
24. can be used to monitor waveforms like motion control signals or the power on event of an Uninterruptable Power Supply UPS During recording fast transients are captured Because of the deep memory recording can be done for more than one day This function is similar to the roll mode in many DSO s but has deeper memory and better functionality Starting a Scope Record Function 1 Apply a signal to the red BNC input A 2 QOO ED The waveform moves across the screen from right to left like a normal chart recorder See Figure 19 From the Recorder main menu highlight Scope Record Start the recording 10 U div 20ms div_Total 24s 50 U di STOP NORMAL Figure 19 Recording Waveforms Observe that the top of the screen displays the following e Time from start at the top of the screen e The status at the bottom of the screen which includes the time div setting as well as the total timespan that fits the memory Note For accurate recordings it is advised to let the instrument first warm up for five minutes 37 Fluke 19xC 2x5C Users Manual Displaying Recorded Data In Normal view the samples that roll off the screen are stored in deep memory When the memory is full recording continues by shifting the data in memory and deleting the first samples out of memory In View All mode the complete memory contents are displayed on the screen 4 MS Press to toggle between VIEW ALL overview of all recorded
25. connection to various line power See explanation in Double Insulation sockets the BC190 808 universal Battery manual Protection Class Charger Power Adapter is equipped with a male plug that must be connected to a line cord Safety Approval Earth ground appropriate for local use Since the adapter is isolated the line cord does not need to be equipped with a terminal for connection to protective ground Since line cords with a Recycling information CE Conformit protective grounding terminal are more commonly Europ enne available you might consider using these anyhow Direct Current VA Alternating Current Do not dispose of this product as unsorted municipal waste Go to Fluke s website for recycling information A Warning To avoid electrical shock or fire if a test tool input is connected to more than 42 V peak 30 Vrms or on circuits of more than 4800 VA e Use only insulated voltage probes test leads and adapters supplied with the test tool or indicated by Fluke as suitable for the Fluke 19xC 2x5C ScopeMeter series e Before use inspect voltage probes test leads and accessories for mechanical damage and replace when damaged e Remove all probes test leads and accessories that are not in use e Always connect the battery charger first to the ac outlet before connecting it to the test tool e Do not connect the ground spring figure 1 item f to voltages higher than 42 V peak 30 Vrms from earth ground
26. each voltage probe to its own reference potential See Figure 6 Note To maximally benefit from having independently isolated floating inputs and to avoid problems caused by improper use read Chapter 8 Tips Using The Scope Making Scope Connections Figure 6 Scope Connections 1 11 Fluke 19xC 2x5C Users Manual Displaying an Unknown Signal with Connect and View The Connect and View feature lets the test tool display complex unknown signals automatically This function optimizes the position range time base and triggering and assures a stable display of virtually any waveform If the signal changes the setup is automatically adjusted to maintain the best display result This feature is especially useful for quickly checking several signals To enable the Connect and View feature do the following Perform an Auto Set AUTO appears at the top right of the screen The bottom line shows the range the time base and the trigger information The waveform identifier A is visible on the bottom right side of the screen as shown in Figure 7 The input A zero icon m at the left side of the screen identifies the ground level of the waveform 2 Press a second time to select the manual range again MANUAL appears at the top right of the screen 12 2ms__Trig AI Probe 10 1 Figure 7 The Screen After an Auto Set Use the light gray RANGE TIME and MOVE keys at the bottom of the keypad to
27. most recent eye pattern trace as a new dataset By recalling this dataset you can do a bus test according to your own pre defined test limits Refer to chapter 7 Saving and Recalling Datasets Chapter 7 Using Memory PC and Printer About this Chapter Saving and Recalling This chapter provides a step by step introduction to the You can general functions of the test tool that can be used in the three main modes Scope Meter or Recorder You will find information on printer and computer communication at the end of this chapter Save screens and setups to memory and recall them again from memory The test tool has 15 screen and setup memories and 2 record and setup memories e Name saved screens and setups according to your own preferences e Recall screens and recordings to analyze or print the screen image at a later date e Recall a setup to continue a measurement with the recalled operating configuration 83 Fluke 19xC 2x5C Users Manual Saving Screens with Associated Setups To save for example a screen setup in Scope mode do the following 8 Display the SAVE PRINT key labels VIEW DELETE SAVE E RECALL PRINT From this point the screen is frozen until you hide the SAVE PRINT key labels again 2 ag Open the Save menu Save Available Used 14 1 Replay Setup 2 0 CANCEL ENTER Observe the number of available and used memory locations I
28. optional e Parallel via PAC91 optically isolated Print Adapter Cable optional To PC Notebook e Serial via PM9080 optically isolated RS 232 Adapter Cable optional using SW90W FlukeView software for Windows Sy e Serial via OC4USB optically isolated USB Adapter Cable optional using SW90W FlukeView software for Windows Specifications 1 0 Environmental Environmental Environmental oo MIL PRF 28800F Class 2 Temperature Operating battery only eee 0 to 50 C 32 to 122 F power adapter 0 to 40 C 32 to 104 F Storage senere 20 to 60 C 4 to 140 F Humidity Operating 0 to 10 C 32 to 50 F ee noncondensing 10 to 30 C 50 to 86 F 95 30 to 40 C 86 to 104 F eeen 75 40 to 50 C 104 to 122 F 45 Storage 20 to 60 C 4 to 140 F noncondensing Altitude Operating ssfseteiaiedine tices 3 km 10 000 feet SMA vives ee 12 km 40 000 feet Vibration Sinusoidal 0 0 ee ee eeeeeeeenteeeeeeeees max 3 g SHOCK 23 eee recat EE Nest ee cate TEAT max 30 g Electromagnetic Compatibility EMC Emission and immunitiy EN IEC61326 1 2006 Enclosure Protection IP51 ref EN IEC60529 125 Fluke 19xC 2x5C Users Manual A Safety Designed for 1000 V measurements Category II 600 V measurements Category III Pollution Degree 2 per e 6 ANSI ISA S82 01 1994 e EN IEC61010 1 2001 e CAN CSA C22 2 No 61010 1 04
29. samples and NORMAL view You can analyze the recorded waveforms using the Cursors and Zoom functions See Chapter 4 Using Replay Zoom and Cursors 38 Using Scope Record in Single Sweep Mode Use the recorder Single Sweep function to automatically stop recording when the deep memory is full Continue from step 3 of the previous section 4 Open the Recorder options menu Recorder Options Reference i Display i Mode Time of Da Glitches m Single Sweep OFrom Start Glitch On D Continuous 010 kHz Don Ext Jump to the Mode field Select Single Sweep and accept the recorder options Using The Recorder Functions 3 Recording Scope Waveforms In Deep Memory Scope Record Using External Triggering to Start or Stop Scope Record To record an electrical event that causes a fault it might be useful to start or stop recording on an external trigger signal ES Start on trigger to start recording recording stops when the deep memory is full Stop on trigger to stop recording Figure 20 Scope Record Using External Triggering Stop when untriggered to continue recording as long as a next trigger comes within 1 division in view all mode 6 fp Fa Jump to Display Glitches To set up the test tool continue from step 3 of the 7 Gin Jump to Mode previous section 4 Apply the signal to be recorded to the red BNC 8 pee me So ox 2 pees ite input A Apply a trigger signal to
30. the test tool on with the on off key The test tool powers up in its last setup configuration Chapter 1 Using The Scope Figure 2 Powering the Test Tool Fluke 19xC 2x5C Users Manual Resetting the Test Tool If you want to reset the test tool to the factory settings do the following 1 Turn the test tool off 2 Press and hold the USER key 3 Press and release The test tool turns on and you should hear a double beep indicating the reset was successful Release the USER key Now look at the display you will see a screen that looks like Figure 3 A 100m Probe 10 1 Figure 3 The Screen After Reset Navigating a Menu The following example shows how to use the test tool s menus to select a function Subsequently follow steps 1 through 4 to open the scope menu and to choose an item 1 Press the scope key to display the labels that define the present use for the four blue function keys at the bottom of the screen READINGS READING 1 READING 2 WAVEFORM OH and En OPTIONS Note To hide the labels for full screen view press the SCOPE key again This toggling enables you to check the labels without affecting your settings 2 MI Open the Waveform Options menu This menu is displayed at the bottom of the screen Waveform Options Glitch Detect Average Waveform On Pm Off if ooff D OM DPersistence i O Mathematics DO Reference Using The
31. which these messages are displayed In this example you can select English or French To change the language from English to French do the following 1 Display the USER key labels OPTIONS LANGUAGE VERSION ge Wt ao amp CAL LIGHT Open the Language Select menu 2 Language Selact Language LJENGLISH O SPANISH OJAPANESE o FRENCH o PORTUGUESE OCHIHESE O GERMAN o ITALIAN OKOREAH 3 Highlight FRENCH 4 Y ek Accept French as the language 96 Adjusting the Contrast and Brightness To adjust the contrast and backlight brightness do the following 1 6 2 Fa Enable the arrow keys for manual contrast and backlight adjustment 3 Adjust the contrast of the screen 4 Change the backlight Note The new contrast and brightness are stored until a new adjustment is made Display the USER key labels CONTRAST E VERSION OPTIONS LANGUAGE LA LIGHT we To save battery power the test tool is in economic brightness mode when operated on the battery The high brightness intensity increases when you connect the power adapter Note Using dimmed light lengthens maximum battery power operation by about one hour Changing the Display Color To set the display to color or Black and White do the following 1 0 2 a Display the USER key labels CONTRAST LIGHT OPTIONS LANGUAGE VERSION amp CAL Open the User Options menu Us
32. 0Base2 Default probe setting 1 1 Use the Fluke 1 1 probes 1 Connect a male BNC to dual female BNC adapter Fluke PM9093 to input A 2 Connect the Ethernet bus as shown below using an additional coax cable Caution The Ethernet cabling may be interrupted for onlly a few seconds during normal process operation Ethernet coax Ethernet coax Figure 44 Ethernet Bus Measurement Connections 78 Table 10 Ethernet Coax Bus Tested Signal Properties Signal Description V Level High Voltage level high V Level Low Voltage level low Data Jl Bit width Rise Rise time as of bit width Fall Fall time as of bit width Jitter Jitter distortion Signal Dist Signal distortion Note Normally the Ethernet bus has continuous data traffic Incidentally the bus may have no continuous data traffic See Data Traffic on page 70 Using The Bushealth Function 6 Input Connections and Tested Signals Ethernet Twisted Pair 10BaseT 100BaseT Table 11 Ethernet Twisted Pair Tested Signal Properties Default probe setting 10 1 Use the Fluke 10 1 probe Signal Description 1 Connect the red probe to test tool input A g P V Level Peak Peak voltage 2 Connect the probe ground lead to the bus TD Data Jl Bit width RD Rise Rise time as of bit width a m ar 3 Connect the probe tip to the bus TD RD call Fal Ume es CEO WIN Jitter Jitter distortion Signal Dist Signal d
33. 1 ms Diode Maximum Voltage ReadinQ oooccoccccconococicononcnonannnos 2 8V Open Circuit Voltage s e lt 4 V ACCULACY ETE OT EEE 2 5 counts Measurement Current 0 5 mA 20 Temperature TEMP With Optional Temperature Probe Ranges C or F cceceeesseeseeeeeeeeees 40 0 to 100 0 100 0 to 250 0 100 0 to 500 0 100 to 1000 100 to 2500 Probe Sensitivity 0 eee 1 mV C and 1 mV F DC Voltage VDC Ranges 500 0 mV 5 000 V 50 00 V 500 0 V 1100 V Full Scale Reading 5000 counts ACCUIACY Cn 0 5 5 counts Normal Mode AC Rejection at 50 or 60 Hz 1 gt 60 dB el 0 DMM Measurements on Meter Inputs AC Voltage VAC Ranges 500 0 mV 5 000 V 50 00 V 500 0 V 1100 V Full Scale Reading oooococccconnoccccnocacanonancninnno 5000 counts Accuracy 15 HZ to 00 HZ iiien 1 10 counts 60 HZ to 1 KHZ 2 5 15 counts For higher frequencies the frequency roll off of the Meter input starts affecting accuracy Normal Mode DC Rejection gt 50 dB AC DC Voltage True RMS Ranges 500 0 mV 5 000 V 50 00 V 500 0 V 1100 V Full Scale Reading oooococcccnnnoccccconacanonancninano 5000 counts Accuracy DC to 60 HZ rinise 1 10 counts 60 HZ to 1 KHZ eee eee 2 5 15 counts For higher frequencies the frequency roll off of the Meter input starts affecting accuracy All accuracies are valid if the waveform amplitude is la
34. 150 ms Do the following E Display the TRIGGER key labels ee CONDITION LEVEL i TRIGGER 110ms gt t OFF X OPTIONS Open the Trigger Options menu Trigger Options Trigger Lj Automatic o Pulse Width on A Select Pulse Width on A to Fa open the Trigger on Pulse Width E menu Trigger on Pulse Width Pulses Condition Update 1 imet m On Trigger ow PO gt t 0 Single Shot 0 t 210 fost 10 Triggering on Waveforms 5 Triggering on Pulses Select the positive pulse icon to EE trigger on the gap between the positive pulses then jump to Condition Select gt t then jump to Update Select On Trigger D The test tool is now prepared to trigger on pulse gaps Observe that the trigger menu at the bottom of the screen has been adapted to set the pulse condition AO CONDITION LEVEL TRIGGER MES gt t OFF i OPTIONS 63 Fluke 19xC 2x5C Users Manual To set the pulse width to 150 ms continue as follows 7 Enable the arrow keys to adjust the pulse width 8 QUO Select 150 ms 64 100ms_ Trig JL gt 150m Probe 1 1 Figure 34 Triggering on Missing Pulses Chapter 6 Using The Bushealth Function About this Chapter Introduction Fieldbuses are bi directional digital serial control networks used in process control and industrial automation This chapter provides a step by step introduction to the Bushealth function of the test t
35. 2 EE Open the Trigger Options menu Trigger Options Trigger Automatic O On Edges o Video on A o Pulse Width on A Open the Trigger on Edge menu Trigger on Edge Update Hoise reject Filter H HCucle eG nor mare O On Trigger 00n ogn o Single Shot iy When Free Run is selected the test tool updates the screen even if there are no triggers A trace always appears on the screen Triggering on Waveforms 5 Triggering on Edges When On Trigger is selected the test tool needs a trigger to display a waveform Use this mode if you want to update the screen only when valid triggers occur When Single Shot is selected the test tool waits for a trigger After receiving a trigger the waveform is displayed and the instruments is set to HOLD In most cases it is advised to use the Free Run mode 4 ED Select Free Run jump to Noise EE reject Filter Set Noise reject Filter to Off Set NCycle to Off Observe that the key labels at the bottom of the screen have adapted to allow further selection of specific edge trigger settings TRIGGER OPTIONS EDGE TRIG SLOPE ENE Ext Ml x 55 Fluke 19xC 2x5C Users Manual Triggering on Noisy Waveforms To reduce jitter on the screen when triggering on noisy waveforms you can use a noise rejection filter Continue from step 3 of the previous example as follows 4 Select On Trigger jump to Noise PE reject Filter s O
36. A f COUPLING PROBEA INPUTA CH OFF A AC 10 1 OPTIONS Using The Scope 1 Acquiring Waveforms Open the Input A Options menu Polarity Bandwidth JHormal Full O Inverted O 10 kHz HF reject O20 MHz O Variable 5 ES Select and accept Variable 6 D At the bottom left of the screen the text A Var is displayed Exit the menu Selecting Variable will turn off cursors and automatic input ranging 7 Press mV to increase the sensitivity press V to decrease the sensitivity 19 Fluke 19xC 2x5C Users Manual Working with Noisy Waveforms To suppress high frequency noise on waveforms you can limit the working bandwidth to 10 kHz or 20 MHz This function smoothes the displayed waveform For the same reason it improves triggering on the waveform To choose HF reject do the following D Display the INPUT A key labels INPUT A i COUPLING PROBEA IMPUTA CG OFF AC 10 1 OPTIONS Open the Input A menu Polarity Bandwidth Pitormal Full O Inverted o 10 kHz HF reject o Variable 020 MHz Jump to Bandwidth 4 Eh Select 10kHz HF reject to ES accept the bandwidth limitation Tip To suppress noise without loss of bandwidth use the average function or turn off Display Glitches 20 Using Mathematics Functions A B AxB Avs B When adding A B subtracting A B or multiplying A B the input A and input B waveform the test tool will dis
37. C or VAC DC ACCUIACY c0eceeeeeeeeseeeees same as VDC VAC VAC DC 119 Fluke 19xC 2x5C Users Manual Meter Meter Input Input Coupling niiin DC Frequency Response DC to 10 kHz 3 dB Input Impedance 1 MQ 1 10 pF 1 5 pF A wax Input Voltage ccecce 1000 V CAT II 600 V CAT III For detailed specifications see Safety Meter Functions RANGING musica io Auto Manual MODES scssaispicvicovavtvackt cion dental o poeta crtan Normal Relative 120 DMM Measurements on Meter Inputs The accuracy of all measurements is within of reading number of counts from 18 C to 28 C Add 0 1x specific accuracy for each C below 18 C or above 28 C General DC Common Mode Rejection CMRR gt 100 dB AC Common Mode Rejection at 50 60 or 400 Hz gt 60 dB Ohms Q RANGES vices iiia 500 0 5 000 KQ 50 00 kQ 500 0 kQ 5 000 MQ 30 00 MQ Full Scale Reading 500 Q to 5 MO ceeeceececeeeeeeeeeeaeeeeees 5000 counts 30 MQ dia 3000 counts ACCULACY ias da 0 6 5 counts Measurement Current 0 5 mA to 50 nA 20 decreases with increasing ranges Open Circuit Voltage ooooocnnnccinnoniccnanocnnononancnnnancncnnno lt 4V Continuity CONT Beep nienn i een eles lt 50 Q 30 Q Measurement Current c ccccceeeeeee enon ee 0 5 mA 20 Detection of shorts Of c ccccceeeeseceeceeeeeeeeeeeaeees gt
38. CAT III For detailed specifications see Safety Vertical Accuracy s s 1 5 0 04 range div 2 mV div 2 5 0 08 range div For voltage measurements with 10 1 probe add probe accuracy see section 10 1 Probe on page 127 Digitizer Resolution 8 bits separate digitizer for each input Horizontal Maximum Time Base Speed FLUKE 196C 199C 215C 225C ee 5 ns div FLUKE 192C esc cecsttecedieesneeecneteeeteeiveeeienes 10 ns div Minimum Time Base Speed Scope Record 2 min div Real Time Sampling Rate for both inputs simultaneously FLUKE199C 225C Dns toS AA eee up to 2 5 GS s 10 us to 120 S GIV oo eee nnen 20 MS s FLUKE 196C 215C E up to 1 GS s 10 us to 120 S diV eene 20 MS s FLUKE 192C 10 ns to 5 US dIV neee up to 500 MS s 10 us to 120 S CIV enee 20 MS s Record Length Scope Record Mode gt 27000 points on each input Scope Normal Mode 3000 points on each input Scope Glitch Capture Mode 300 min max pairs on each input Glitch Detection 5 us to 120 s div displays glitches as fast as 50 ns Waveform Display A B A B A B AB A vs B Normal Average 2 4 8 64 x Persistence Time Base Accuracy 100 ppm 0 04 div Trigger and Delay Trigger MOdeS cccccecseseeeeeeeeeeeees Automatic Edge External Video Pulse Width N Cycle Trigger Delay l up to 1200 divisions Pre Trig
39. En Observe that the trigger gap has increased This is indicated by a taller trigger icon I Set Noise reject Filter to On Making a Single Acquisition To catch single events you can perform a single shot acquisition one time screen update To set up the test tool for a single shot of the input A waveform continue from step 3 again 5 wm 56 Select Single Shot Accept the settings The word WAITING appears at the top of the screen indicating that the test tool is waiting for a trigger As soon as the test tool receives a trigger the waveform is displayed and the instrument is set to hold This is indicated by the word HOLD at top of the screen The test tool will now have a screen like Figure 29 6 Arm the test tool for a new single shot Tip The test tool stores all single shots in the replay memory Use the Replay function to look at all the stored single shots Figure 29 Making a Single Shot Measurement N Cycle Triggering N Cycle triggering enables you to create a stable picture of for example n cycle burst waveforms Each next trigger is generated after the waveform has crossed the trigger level N times in the direction that complies with the selected trigger slope To select N Cycle triggering continue from step 3 again 4 EY Select On Trigger or Single Shot Gu jump to Noise reject Filter Set Noise reject Filter On or Off 6 Gy Set NCycle to On Observe that the key label
40. FLUKE Fluke 19xC 2x5C ScopeMeter Software version 8 00 onwards Users Manual 4822 872 30805 July 2008 Rev 1 09 2009 2008 2009 Fluke Corporation All rights reserved All product names are trademarks of their respective companies SCOPE D O pj9 g oja oo MANNEN e o nonoo eo oo mt 0000 ooo etajo sno ooo Bon Olo oi O m A o onl 04 E CURSOR ELKE SCOPEMETER LIMITED WARRANTY amp LIMITATION OF LIABILITY Each Fluke product is warranted to be free from defects in material and workmanship under normal use and service The warranty period is three years for the test tool and one year for its accessories The warranty period begins on the date of shipment Parts product repairs and services are warranted for 90 days This warranty extends only to the original buyer or end user customer of a Fluke authorized reseller and does not apply to fuses disposable batteries or to any product which in Fluke s opinion has been misused altered neglected or damaged by accident or abnormal conditions of operation or handling Fluke warrants that software will operate substantially in accordance with its fun
41. Fluke 19xC 2x5C Users Manual 7 Fa Store the momentary waveform and display it permanently for reference The display also shows the actual waveform To recall a saved waveform from memory and use it as a reference waveform refer also to Chapter 6 Recalling Screens with Associated Setups Example of reference waveform with an additional envelope of 2 pixels basic waveform 2 pixels envelope black pixels gray pixels 1 vertical pixel on the display is 0 04 x range div 1 horizontal pixel on the display is 0 0375 x range div 24 Pass Fail Testing You can use a reference waveform as a test template for the actual waveform If at least one sample of a waveform is outside the test template the failed or passed scope screen will be stored Up to 100 screens can be stored If the memory is full the first screen will be deleted in favor of the new screen to be stored The most appropriate reference waveform for the Pass Fail test is a waveform envelope To use the Pass Fail function using a waveform envelope do the following 1 Display a reference waveform as described in the previous section Comparing Waveforms From the Pass Fail Testing menu EE select Store Fail each scope screen with samples outside the reference will be stored Store Pass each scope screen with no samples outside the reference will be stored Each time a scope screen is stored you will hear a beep Chapter 4 provid
42. Menu 33 Fluke 19xC 2x5C Users Manual Plotting Measurements Over Time TrendPlot Use the TrendPlot function to plot a graph of Scope or Meter measurements as function of time Note Because the navigations for the dual input TrendPlot Scope and the single input TrendPlot Meter are identical only TrendPlot Scope is explained in the next sections 34 Starting a TrendPlot Function To start plotting a graph of the reading over time do the following 1 Apply a signal to the red BNC input A and turn on Reading 1 in scope mode 2 Open the RECORDER main menu 3 DE Highlight Trend Plot Scope 4 Fa Start the TrendPlot recording The test tool continuously records the digital readings of the input A measurements and displays these as a graph The TrendPlot graph rolls from right to left like a paper chart recorder Observe that the recorded time from start appears at the bottom of the screen The present reading appears on top of the screen See Figure 18 Note When simultaneously TrendPlotting two readings the screen area is split into two sections of four divisions each 1150 65 0Hz i E E Total 00 01 23 NORMAL Figure 18 TrendPlot Reading When the Scope is in automatic mode automatic vertical scaling is used to fit the TrendPlot graph on the screen 5 Set RECORDER to STOP to freeze the recorder function 6 Fi Set RECORDER to RUN to restart Using The Recorder F
43. Ohm to 30 MOhm ranges Table 17 No visible disturbance E 1V m Frequency range 2 GHz to 2 7 GHz 500 mV to 1000 V 500 Ohm to 30 MOhm ranges 130 1 10 1 Voltage Probe 107 2 2 mm Test Probes 108 4 4 mm Test Probes 3 107 A A versus B 20 A B 20 A B 20 A B 20 Accessories 91 106 AC Coupling 18 Acquiring the Waveform 18 Altitude 125 128 Ampere Measurement 29 Amperes 118 122 Analysis Functions 41 123 AS200 Accessory Set 108 Auto Ranges 31 Auto Set 116 Automatic Connect and View Trigger 115 Automatic Power Shutdown 98 Automatic Scope Measurements 13 Automatic Triggering 54 Average 15 B Banana Jack Inputs 10 27 34 Bandwidth 114 120 Bargraph 28 Battery Charger 3 107 Charging 2 102 Indicator 102 Life 98 Index Refresh 103 Refresh Date 106 Replacing 104 BC190 Battery Charger 3 107 BHT190 109 Bus type 66 Bushealth 65 C C190 Hard Case 3 110 C195 Soft Case 110 Calibrating the Test Tool 106 Calibrating Voltage Probes 104 124 Calibration 124 Capturing 100 Screens 43 116 Case 110 Charge Time 124 Charger 107 Charging 102 Cleaning 101 131 Fluke 19xC 2x5C Users Manual Clear Menu 10 95 Common Leads 3 Comparing Waveforms 23 Connect and View 51 116 Connecting a Computer 88 Connecting A Printer 88 Connections 10 27 Continuity 120 Contrast 96 CS20MA Current Shun
44. STOP first Using Memory PC and Printer T Saving and Recalling Mode Memory locations 15x screentsetup 2x record setup METER setup 1screen N A SCOPE setup 1screen setup 100 replay screens SCOPE REC setup setup record data TRENDPLOT setup setup trendplot data BUSHEALTH setup 1 screen N A in eye pattern mode and persistence mode the most recently written trace will be saved not all persistence traces Deleting Screens with Associated Setups To delete a screen and associated setup do the following Display the SAVE PRINT key labels VIE DELETE SAVE RECALL PRINT Open the View Delete menu Highlight a screen setup Delete the saved screen setup 85 Fluke 19xC 2x5C Users Manual Recalling Screens with Associated Setups To recall a screen setup do the following 0 Display the SAVE PRINT key labels VIEW SAVE RECALL PRINT DELETE Open the Recall menu Highlight a screen setup Recall the saved screen setup Observe that the recalled waveform is displayed and that HOLD appears on the screen From this point you can use cursors and zoom for analysis or you can print the recalled screen To recall a screen as a reference waveform to compare it with an actually measured waveform continue from step 3 as follows 4 amp gt Ed Use RECALL FOR REFERENCE to recall the saved screen Resum
45. Time Measurements To measure rise time do the following 1 From scope mode display the cursor key labels CURSOR ES auto CURSOR Lisp E e A Men OFF Press to highlight H rise time Observe that two horizontal cursors are displayed For multiple traces select the required trace A B or M if a math function is active Select MANUAL or AUTO this automatically does steps 5 to 7 Move the upper cursor to 100 of the trace height A marker is shown at 90 ES BBE Q Highlight the other cursor Using Replay Zoom and Cursors Making Cursor Measurements Move the lower cursor to 0 of the trace height A marker is shown at 10 7 QOO The reading shows the risetime from 10 90 of the trace amplitude HIGH 312 U LOW 256 U wr SB ns MANUAL A Figure 26 Risetime Measurement 49 Fluke 19xC 2x5C Users Manual 50 About this Chapter This chapter provides an introduction to the trigger functions of the test tool Triggering tells the test tool when to begin displaying the waveform You can use fully automatic triggering take control of one or more main trigger functions semi automatic triggering or you can use dedicated trigger functions to capture special waveforms Following are some typical trigger applications e Use the Connect and View function to have full automatic triggering and instant display of virtually any waveform Chapter 5 Triggering on Waveforms If the signa
46. Trigger on Pulse Width Pulses i Condition Update aq met m n Trigger oT Dpt o Single Shot PO st 104 Lo et 210 5 E amp Y Select the positive pulse icon Esa then jump to Condition 6 ED Select lt t then jump to Update 7 y Select On Trigger The test tool is now prepared to trigger on narrow pulses only Observe that the trigger key labels at the bottom of the screen have been adapted to set the pulse conditions O CONDITION LEVEL i TRIGGER 110ms gt t OFF 7 OPTIONS 61 Fluke 19xC 2x5C Users Manual To set the pulse width to 5 ms do the following Enable the arrow keys to adjust the pulse width 8 GS Select 5 ms All narrow positive pulses shorter than 5 ms are now displayed on the screen See Figure 33 Tip The test tool stores all triggered screens in the replay memory For example if you setup your triggering for glitches you can capture 100 glitches with time stamps Use the REPLAY key to look at all the stored glitches 62 20ms Trig JL lt 5 00m Probe 10 1 Figure 33 Triggering on Narrow Glitches Finding Missing Pulses The next example covers finding missing pulses in a train of positive pulses In this example it is assumed that the pulses have a 100 ms distance between the rising edges If the time accidently increases to 200 ms a pulse is missing To set the test tool to trigger on such missing pulses let it trigger on gaps bigger than about
47. aaeaeeeeeseseenieaeeeeeees 10 129 Appendices Contents continued A Bushealth Measurement eninin a E NA A 1 Declaration of Conformity for Fluke 192C 196C 199C 215C 225C ScopeMeter test tools Manufacturer Fluke Industrial B V Lelyweg 14 7602 EA Almelo The Netherlands Statement of Conformity Based on test results using appropriate standards the product is in conformity with Electromagnetic Compatibility Directive 2004 108 EC Low Voltage Directive 2006 95 EC Unpacking the Test Tool Kit Sample tests Standards used EN 61010 1 2001 Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use EN61326 1 2006 Electrical equipment for measurements and laboratory use EMC requirements The tests have been performed ina typical configuration This Conformity is indicated by the symbol CE i e Conformit Europ enne Fluke 19xC 2x5C Users Manual Unpacking the Test Tool Kit Note The following items are included in your test tool kit When new the rechargeable NiMH battery is not fully charged See Chapter 9 S version Figure 1 ScopeMeter Test Tool Kit Battery Charger country dependent 10 1 Voltage Probe Set red a 10 1 Voltage Probe red b Hook Clip for Probe Tip red Ground Lead with Mini Alligator Clip black c d Ground Spring for Probe Tip black e Insulation Sleeve red 10 1 Vo
48. amp Observe the sensitivity of the MANUAL g 6 current probe Highlight the 7 O corresponding sensitivity in the 4 a 43 1 A menu e g 10 mV A Accept the current measurement Now you will see a screen like in Figure 15 uit 0 100 i 200 E 300 e a 400 500A MANUAL gt Figure 15 Ampere Measurement Readings 30 Freezing the Readings You can freeze the displayed readings at any time 1 EN Freeze the screen HOLD appears at the top right of the reading area 2 EN Resume your measurement You can use this function to hold accurate readings for later examination Note For saving screens into memory see Chapter 7 Using The Multimeter 2 Freezing the Readings Selecting Auto Manual Ranges To activate manual ranging do the following during any Meter measurement 1 9 Activate manual ranging 2 DE Increase or decrease the range Observe how the bargraph sensitivity changes Use manual ranging to set a fixed bargraph sensitivity and decimal point 3 T Choose auto ranging again When in auto ranging the bargraph sensitivity and decimal point are automatically adjusted while checking different signals 31 Fluke 19xC 2x5C Users Manual Making Relative Measurements A relative measurement displays the present measurement result relative to a defined reference value The following example shows how to perform a relative voltage measurement First obtain a reference value i
49. atches with the printer If not select another baud rate See Chapter 7 If you are using the PAC91 Print Adapter Cable make sure that it is turned on 111 Fluke 19xC 2x5C Users Manual FlukeView Does Not Recognize The Test Tool e Make sure that the test tool is turned on e Make sure that the interface cable is properly connected between the test tool and the PC e Make sure that the correct COM port has been selected in FlukeView If not change the COM port setting or connect the interface cable to another COM port Battery Operated Fluke Accessories Do Not Function e When using battery operated Fluke accessories always first check the battery condition of the accessory with a Fluke multimeter 112 Introduction Performance Characteristics FLUKE guarantees the properties expressed in numerical values with the stated tolerance Specified non tolerance numerical values indicate those that could be nominally expected from the mean of a range of identical ScopeMeter test tools Specifications are based on a 1 year calibration cycle Environmental Data The environmental data mentioned in this manual are based on the results of the manufacturer s verification procedures Chapter 10 Specifications Safety Characteristics The test tool has been designed and tested in accordance with Standards ANSI ISA S82 01 1994 EN IEC 61010 1 2001 CAN CSA C22 2 No 61010 1 04 including approval UL61010B 1
50. ate of repair costs and obtain authorization before commencing the work Following repair the product will be returned to the Buyer transportation prepaid and the Buyer will be billed for the repair and return transportation charges FOB Shipping Point THIS WARRANTY IS BUYER S SOLE AND EXCLUSIVE REMEDY AND IS IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE FLUKE SHALL NOT BE LIABLE FOR ANY SPECIAL INDIRECT INCIDENTAL OR CONSEQUENTIAL DAMAGES OR LOSSES INCLUDING LOSS OF DATA WHETHER ARISING FROM BREACH OF WARRANTY OR BASED ON CONTRACT TORT RELIANCE OR ANY OTHER THEORY Since some countries or states do not allow limitation of the term of an implied warranty or exclusion or limitation of incidental or consequential damages the limitations and exclusions of this warranty may not apply to every buyer If any provision of this Warranty is held invalid or unenforceable by a court of competent jurisdiction such holding will not affect the validity or enforceability of any other provision Fluke Corporation P O Box 9090 Everett WA 98206 9090 USA or Fluke Industrial B V P O Box 90 7600 AB Almelo The Netherlands SERVICE CENTERS To locate an authorized service center visit us on the World Wide Web http www fluke com or call Fluke using any of the phone numbers listed below 1 888 993 5853 in U S A and Canada 31 40 2675200 in
51. be ata 1mV direct 11 enan aera aeaaea 100 uV Full Scale Reading oooococccconnoccccnonacaninoncninano 1100 counts Accuracy DC to 60 HZ iiot 1 5 10 counts 60 Hz to 20 KHZ 2 5 15 counts 20 KHZ to 1 MHZ eens 5 20 counts 1 MHZ to 25 MHZ 10 20 counts For higher frequencies the instrument s frequency roll off starts affecting accuracy 117 Fluke 19xC 2x5C Users Manual Amperes AMP With Optional Current Probe or Current Shunt Ranges o on same as VDC VAC VAC DC Probe Sensitivity 100 uV A 1 mV A 10 mV A 100 mV A 1 V A 10 V A and 100 V A ACCULACY onanan nenei same as VDC VAC VAC DC add current probe or current shunt accuracy Peak A Max peak Min peak or pk to pk Maximum Voltage WILD 10 1 proberen ios 1000 V OIC aid 300 V Maximum Resolution with 10 1 probe cocooconocococcncnoconanononoccncnnnnnanoncnnnnos 10 mV direct iia io 1mV Full Scale Reading 800 counts Accuracy Max peak or Min peak ccceseeeeeees 0 2 division A 0 4 division 118 Frequency Hz RANGE piro 1 000 Hz to full bandwidth Full Scale Reading 9 999 counts with at least 10 waveform periods on screen Accuracy 1 Hz to full bandwidth 0 5 2 counts Duty Cycle DUTY RANGE miii 4 0 to 98 0 Pulse Width PULSE Resolution with GLITCH Off eee 1 100 division Full Scale Reading 999 counts Accuracy 1 Hz to full bandwi
52. between controller and devices is made using a dedicated yellow flat cable as shown in the figure below cross section Connection to the devices is done with piercing connectors To connect Probe Tip and Black Ground Lead to brown conductor and blue the TP88 Back Probe Pins optional can be used to probe screw terminals at the end of the flat cable or as piercing probes The material of the flat cable also allows to pierce the pin into it After removal of the pin the material closes again AS i also uses M12 connectors for data as well as on off signals The figure below shows where to find and on such a connector 1 Input A 10 1 10mm O Q 40 O5 O j2 O 3 GND M12 CONNECTOR FEMALE GND INPUT A 10 1 Appendices A Bushealth Measurements CAN Bus DeviceNet The Controller Area Network CAN is used on board of automobiles and also in industrial applications The industrial bussystem DeviceNet is based on CAN hardware CAN is a two wire differential bus used to control actuators and to read out sensors The bus allows data exchange between different devices The signal behavior in time is shown in the figure below The signal wires are marked CAN_L and CAN_H There is also a common reference wire CAN_GND Data traffic is continuous probe tip B CAN_H GND lead A 25V CAN_L probe tip A CAN_GND GND lead B ov To check CAN Bus ScopeMeter Channel A and B are on and DC cou
53. ceeseeeeceeeeeeeeeees 1100 counts Accuracy at 5 s to 10 us div LM Id iii 1 5 10 counts 5 mVdiv to 100 V diV oe 1 5 5 counts Normal Mode AC Rejection at 50 or 60 Hz gt 60 dB AC Voltage VAC Maximum Voltage With 10 1 prODlO oocooccccccccoconocococoncnocananononnncnncnnnnos 1000 V direct iaa a 300 V Maximum Resolution With 10 1 prODO oococcccccccccconononcconccncnnanonocnncnnnnnnnnnnos 1mV loligo ka a EW E EEA ET 100 uV Full Scale Reading 1100 counts Accuracy DC coupled DC to 60 HZ 1 5 10 counts AC coupled low frequencies 50 Hz direct 1 1 eee 2 1 10 counts 60 Hz direct 1 1 eee 1 9 10 counts With the 10 1 probe the low frequency roll off point will be lowered to 2 Hz which improves the AC accuracy for low frequencies When possible use DC coupling for maximum accuracy AC or DC coupled high frequencies 60 Hz to 20 KHZ eee 2 5 15 counts 20 KHZ to 1 MHZ 5 20 counts 1 MHz to 25 MHZ eee 10 20 counts For higher frequencies the instrument s frequency roll off starts affecting accuracy Normal Mode DC Rejection gt 50 dB ol 0 Automatic Scope Measurements All accuracies are valid if e The waveform amplitude is larger than one division e Atleast 1 5 waveform period is on the screen AC DC Voltage True RMS Maximum Voltage With 10 1 probe niarren eraai 1000 V Gir Ct 12 TAE 300 V Maximum Resolution withi10 1 pro
54. change the view of the waveform manually Making Automatic Scope Measurements The test tool offers a wide range of automatic scope measurements You can display two numeric readings READING 1 and READING 2 These readings are selectable independently and the measurements can be done on the input A or input B waveform To choose a frequency measurement for input A do the following Display the scoPE key labels READINGS READING 1 READING2 WAVEFORM OH os tes OPTIONS Open the Reading 1 menu Reading 1 aE ovac Oftac oHz o Temp OonB Ode odc o Rise time O dB mU ac de Ofacede OFall time oOff oOPeak O Power O Pulse OV pum O Phase o Duty Select on A Observe that the highlight jumps to the present measurement Select the Hz measurement Using The Scope 1 Making Automatic Scope Measurements Observe that the top left of the screen displays the Hz measurement See Figure 8 To choose also a Peak Peak measurement for Input B as second reading do the following 1 Display the scope key labels READINGS ON READING 1 READING 2 WAVEFORM wee ai OPTIONS Open the Reading 2 menu Reading 2 ef Uac Ofac mHz o Temp OonB oUdc Ofdc o Rise time O dB POUacede D ac de O Fall time OOff OPeak OPower Oo Pulse OU pun 0 Phase O Duty Select on B The highlight jumps to the measurements field Open the PEAK m
55. creen the trigger parameters are displayed See Error Reference source not found For example Trig AF means that input A is used as the trigger source with a positive slope When no trigger is found the trigger parameters appear in gray Using Trigger Delay or Pre trigger You can begin to display the waveform some time before or after the trigger point has been detected Initially you have 2 divisions of pre trigger view negative delay To set the trigger delay do the following 5 lt move Hold down to adjust the trigger delay Observe that the trigger icon F on the screen moves to show the new trigger position When the trigger position moves left off of the screen the trigger icon changes into I to indicate that you have selected a trigger delay Moving the trigger icon to the right on the display gives you a pre trigger view In case of a trigger delay the status at the bottom of the screen will change For example AJ 1500 0m5 This means that input A is used as the trigger source with a positive slope The 500 0 ms indicates the positive delay between trigger point and waveform display When no trigger is found the trigger parameters appear in gray Triggering on Waveforms 5 Using Trigger Delay or Pre trigger 8 division Figure 28 Trigger Delay or Pre trigger View Figure 28 shows an example of a trigger delay of 500 ms top and an example of pre trigger vie
56. ction boxes If preferred you can use the TP88 Back Probe Pins optional to probe these terminals at the wire entry point Commonly used wire colors are orange for and blue for Probe A Device 2 Device n 1 Device n Factory Floor A 6 Profibus DP RS 485 Profibus DP Decentralized Periphery is an open field bus standard used in Process Industry and Factory Automation It is optimized for speed efficiency and low connection costs and allows for multiple data senders and receivers to be connected to an ongoing cable Data traffic is continuous To check this bustype ScopeMeter Channel A and B are on and DC coupled The recommended probes are the Fluke 10 1 probes Connect the probe as shown below DATA DATA DATA GND N e y PE q The positive RxD TxD P DATA wire is usually green the negative RxD TxD N DATA wire is usually red Cabling and some connector examples are shown in the adjacent figures Please note that cables often incorporate termination resistors at the end of the network chain Appendices Bushealth Measurements A Station 1 RxD TxD P 3 O DGND 5 O vp 8 O RxD TxD N 8 O Shielding Protective ground Cabling Station 2 Protective ground VP 6 2 390 2 O 3 RxD TxD P 3 Data line RxD TxD P O 6 vP 2200 8 ou line xD TxD N O 6 DGND O 8 RxD TxD N 390 0 DGND
57. ctional specifications for 90 days and that it has been properly recorded on non defective media Fluke does not warrant that software will be error free or operate without interruption Fluke authorized resellers shall extend this warranty on new and unused products to end user customers only but have no authority to extend a greater or different warranty on behalf of Fluke Warranty support is available if product is purchased through a Fluke authorized sales outlet or Buyer has paid the applicable international price Fluke reserves the right to invoice Buyer for importation costs of repair replacement parts when product purchased in one country is submitted for repair in another country Fluke s warranty obligation is limited at Fluke s option to refund of the purchase price free of charge repair or replacement of a defective product which is returned to a Fluke authorized service center within the warranty period To obtain warranty service contact your nearest Fluke authorized service center or send the product with a description of the difficulty postage and insurance prepaid FOB Destination to the nearest Fluke authorized service center Fluke assumes no risk for damage in transit Following warranty repair the product will be returned to Buyer transportation prepaid FOB Destination If Fluke determines that the failure was caused by misuse alteration accident or abnormal condition of operation or handling Fluke will provide an estim
58. damage the text on the test tool Storing the Test Tool If you are storing the test tool for an extended period of time charge the NiMH Nickel Metal Hydride batteries before storing 101 Fluke 19xC 2x5C Users Manual Charging the Batteries At delivery the NiMH batteries may be empty and must be charged for 4 hours with the test tool turned off to reach full charge When fully charged the batteries provide 4 hours of use When battery power is used the battery indicator at the top of the screen informs you about the condition of the batteries The battery symbols are Mk Mi K gt E The symbol indicates that there are typically five minutes of operating time left To charge the batteries and power the instrument connect the battery charger as shown in Figure 59 To charge the batteries more quickly turn off the test tool Caution To avoid overheating of the batteries during charging do not exceed the allowable ambient temperature given in the specifications Note No damage will occur if the charger is connected for long periods e g during the weekend The instrument then automatically switches to trickle charging 102 Figure 59 Charging the Batteries Extending Battery Operation Time Typically NiMH batteries always meet the specified operating time However if the batteries have been extremely discharged for example when empty batteries were stored for a long period it is possible
59. dicates that limit does Not Apply to this bus type The F1 F4 function key labels are explained in Table 2 68 Table 1 Bus Test Screen Indicators Activity lt lt bus activity indicators Bus activity indicator 1 O filled voltage measured O open no voltage measured Bus activity indicators 2 and 3 O O both open no activity X blinking activity Test OK Measurement results are within 80 of allowable range see Figure 36 Warning Measurement results are between 80 and 100 of allowable range see Figure Using The Bushealth Function 6 Reading the Screen Figure 36 shows the bus health indicator boundaries 0 0 O 0 9 Figure 36 Bus Health Indicator Boundaries Example the high level voltage of a bus must be between 3 0 V MIN and 15 0 V MAX Depending on the measurement result the displayed indicator will be If the result is between 4 2 and 13 8V 10 of 12V 1 2 V O If the result is between 3 V and 4 2 V or between 13 8 V and 15 V ES If the result is lt 3 Vor gt 15 V 69 Fluke 19xC 2x5C Users Manual Table 2 F1 F4 Key Functions Input Connections and Tested Signals ea Select the Limit Setup function see page 81 WIRING Fl Shows how to connect the test tool to the bus af er Select the Eye pattern screen mode see Viewing the Bus Waveform Screen on page 79 ELTH i EME OFF E Turn fieldbus test functi
60. dth 0 5 2 counts Vpwm PUTOS eiiiai to measure on pulse width modulated signals like motor drive inverter outputs Principle readings show the effective voltage based on the average value of samples over a whole number of periods of the fundamental frequency ACCUFACY 0000 eee eeeeeceeeeeeeeeees as Vrms for sinewave signals Power Power Factor ratio between Watts and VA ROO ieee Nite ete dora 0 00 to 1 00 Watt iiio iieii RMS reading of multiplication corresponding samples of input A volts and Input B amperes Full Scale Reading ooooocccnnocccnnococcnonancncnanoss 999 counts WMA nee ida Epia aia Vrms x Arms Full Scale Reading oooocccconocccnnococinonancninanoss 999 counts VA Rea a V VA W Full Scale Reading coooocccconoccccnocaccninancninanos 999 counts Phase SETA EE E E tacit ca tehaenencic 180 to 180 degrees ReSOIULION iniii ie iieii 1 degree Accuracy 0 1 Hz to 1 MHZ coin ren 2 degrees 1 MHZ to 10 MHZ cooocccccccnccconcccncnccananonoconcnnnns 3 degrees ol 0 Automatic Scope Measurements Temperature TEMP With Optional Temperature Probe Ranges C Of Phonionccccnocicinoncccnonannnnnnn 40 0 to 100 0 100 to 250 100 to 500 100 to 1000 100 to 2500 Probe Sensitivity 00 0 0 eeeeeees 1 mV C and 1 mV F Decibel dB ABV iii eines dB relative to one volt ABMs dB relative to one mW in 50 Q or 600 Q dB OM exec heen eave eerie VDC VA
61. e the measurement Both the reference screen and the measurement screen will be displayed 86 Recalling a Setup Configuration To recall a setup configuration do the following Display the SAVE PRINT key labels VIEW SAVE RECALL PRINT DELETE Open the Recall menu Highlight a screen setup Recall the saved setup Observe that RUN appears at the top right of the screen From this point you continue in the new operating configuration Viewing Stored Screens To scroll through the memories while looking at the stored screens do the following Display the SAVE PRINT key labels VIEW SAVE RECALL PRINT DELETE Open the View Delete menu Highlight a screen setup location View the screen and open the viewer SCOPE 1 PRINT BaIT Scroll through all stored screens Exit the View mode Note The replay stores max 2 cannot be viewed Using Memory PC and Printer T Saving and Recalling Renaming Stored Screens To modify the name of stored screens do the following Display the SAVE PRINT key labels E E VIE SAVE RECALL PRINT DELETE Open the View Delete menu Highlight a screen setup location 4 amp 5 Gy Fs Skip to a new character position Open the Rename menu 6 gt Select another character O Repeat 5 and 6 until done 7 Fa Save the new name To select a default name generated by the test tool
62. eeeseseeanaeeeeeseseeeenaees 5 51 Setting Trigger Level and Slope siisii iiidid aaie 5 52 Using Trigger Delay or Pre trigQer oooooocccnnnncccnonocicononcccnnnonnncnnnonnnr nono cnn nn nnnr narran 5 53 Automatic Trigger Options ooooncconncccconnoccncnononnnononcncnanonnnnnnnn cnn nan nn nn nano nn rnnnn nerusne neant 5 54 THOgering On o kee e caidas ita AR ppt 5 55 Triggering on External Waveforms ooooocococccccnnccoconononocnnnnncnnononocnncnnnnnnnn nn nn nn nn nnnnnnnnnnn 5 58 Triggering on Video SigNalS oononcccnnnnciccnonocinnnonnccnnnonnnn nono no nono n cnc nano rca rn rn nnnnnr rra 5 59 Triggering on PUISES voip a eiii 5 61 ii Contents continued Using The Bushealth Function ommcccinnnnnnnniccnn serna 6 65 Bushealth Function Availability ooon nnccninnnncnnnnoccnnnonccnnonannnnnorncc nana nn nn nnnn cnn narco 6 65 IO UCTION ic a 6 65 Performing Bushealth Measurement ococccncccccnnocccccononcnnnonnncnnnononcnnnn cnn nan n cnn nan nncnnnnn 6 66 Reading the Screen crenn nimineen a i o A ek i e a aia 6 68 Input Connections and Tested Signals ccccceecceceeeeeeeeeecaeeeeeeeseeeeaeeeeeeeeeteesaees 6 70 Viewing the Bus Waveform SCreen c ccccceeeeeececceeeeeseeeeaeeeeeeeeeseeceeaeeeeeeeseenneaeees 6 80 Setting the Test Limits 0 0 a a tii 6 81 Saving and Recalling Test Limits 0 0 0 ee eeeeeeeeeeeeeeeeneeeeeeeaeeeeeneeeeeeaeeeeeeaeeeeneeeeeee 6 82 Using Memory PC and Printer
63. eneeseseensneeneees 2 27 Making Meter Connections cccccececeeeceeeee cece cece eeeeeaeeeeeeeseceneaeeeeeeeeeeeeeaeeeeeeneeenees 2 27 Making Multimeter Measurement ooooconnoccccnonoccnononoccnononcnnnnno nc no non nn nano nn rr narran 2 28 Freezing the Readings a iii aiii 2 31 Selecting Auto Manual RQaNgeS ooomcccocccconononcnononnnnnono cocoa nn nc nano nn nn nano cnn nan rn naar rra 2 31 Making Relative Measurements ooooocccccccccococococcccnccnnonononnncnnnnnnnnnnnnnnnnnnannn nn nn nnncnnannnnns 2 32 Using The Recorder Functions ccccccseeeeeseneeeseeeeeeseeeeseseenseeeseeesenseneeeeseenaeeseeeees 3 33 Opening the Recorder Main MeNU ococccccnnoccccnonoccnonononcnnnoncncnnno nono nono nn n nan n nn nnnr nn rnnnnn no 3 33 Plotting Measurements Over Time TrendPlot eeren 3 34 Recording Scope Waveforms In Deep Memory Scope Record 3 37 Analyzing a TrendPlot or Scope Record cooccccococccoconaccnanoncnononancnonono conan nn nn nano nnnnnnnnnnnnns 3 40 Using Replay ZOOM and Cursors connmncnnnncccnnnnnnnnnnccnn rr 4 41 Replaying the 100 Most Recent Scope Screens ococcoonoccccconoccnonononcnnnancnc nana ncnnnnnnnnnns 4 41 Zooming in ON a WavefOrM cooooonoccccccnccocononononnnnnnnnnnonncnnnnnnnno nn nn nnnnnnnnnn nn nn nn nnnnnnnnnnnnnnn 4 44 Making Cursor Measurement oooocccoccccconoccncnononcnnnoncncnanonnnn nono nn rra n cnn rra 4 46 Triggering OM WaveforMS 2 ccccceceeeeeeeceeeeeeeeeeeenee seen eens enanees
64. enu Peak Type o Peak Max fi JPeak Peak o Peak Min Select the Peak Peak measurement 13 Fluke 19xC 2x5C Users Manual Figure 8 shows an example of the screen Note that the Peak Peak reading for input B appears next to the input A frequency reading at the top of the screen BIC kHz Figure 8 Hz and V peak peak as Scope Readings 14 Freezing the Screen You can freeze the screen all readings and waveforms at any time Ed 2 E Freeze the screen HOLD appears at the right of the reading area Resume your measurement Using Average Persistence and Glitch Capture Using Average for Smoothing Waveforms To smooth the waveform do the following 1 Display the scope key labels 2 Fa Open the Waveform Options menu Waveform Options Glitch Detect Average i Waveform On moOff AL Hormal ooff oon O Persistence O Mathematics o0 Reference 3 ED Jump to Average 4 D Select On to open the Average E Factors menu fiverage Factors Average Factor overage 2 O Average 4 EFE o Average 64 Using The Scope 1 Using Average Persistence and Glitch Capture 5 EN Select Average 64 This averages Em the outcomes of 64 acquisitions e D You can use the average functions to suppress random or uncorrelated noise in the waveform without loss of bandwidth Waveform samples with and without smoothing are shown in Figure 9 Exit the
65. er Options uto Set Adjust Printer Setup Battery Save Options Factory Default Display Options Battery Refresh Date Adjust Time Adjust Open Display Options menu Display Options Display Mode o Color JBlack and White Choose display mode Color or Black and White and accept it Tips Changing the Display Color Changing Date and Time The test tool has a date and time clock For example to change the date to 19 April 2002 do the following 1 O Display the USER key labels OPTIONS LANGUAGE VERSION amp CAL CONTRAST LIGHT Open the User Options menu User Options uto Set Adjust Printer Setup Battery Save Options Factory Default Display Options Battery Refresh Date Adjust Time Adjust Open Date Adjust menu Date Adjust Use to adjust Year Month Day 200 03 45 Format O DD MMYY i m MM DDeYY Choose 2002 jump to Month Choose 04 jump to Day 8 97 Fluke 19xC 2x5 Users Manual E E 7 DD Choose DD MM YY accept the new CE date You can change the time in a similar way by opening the Time Adjust menu steps 2 and 3 Choose 19 jump to Format Saving Battery Life When operated on the battery no battery charger connected the test tool conserves power by shutting itself down If you have not pressed a key for at least 30 minutes the test tool turns itsel
66. erence and earth ground ia 0 10 1 Probe 10 1 Probe Safety A Max Input Voltage 1000 V CAT Il 600 V CAT III A Max Floating Voltage from any terminal to earth ground 1000 V CAT Il 600 V CAT III Electrical specifications Input Impedance at probe tip 10 MQ 2 14 pF 2 pF Capacity Adjustment Range cee 10 to 22 pF Attenuation at DC 1 MQ input eee 10x Bandwidth with FLUKE 199C DC to 200 MHz 3 dB Accuracy Probe accuracy when adjusted on the test tool DC 10 20 KIZ weisiiei ein deen Reece 1 20 KHZ to 1 MHZ eee cece eeee eens eeeeeeseeeeeeeeeseaeeeenees 2 1 MHZ to 25 MHZ eee ceeeeeeeeceteeeeneeeeeeeeeeeeeeaes 3 For higher frequencies the probe s roll off starts affecting the accuracy 127 Fluke 19xC 2x5C Users Manual Environmental Temperature Operating oonococcnnnncicnnocncns 0 to 50 C 32 to 122 F SLOPAGE iieii 20 to 60 C 4 to 140 F Altitude Operating ici cooito iia nce cee 3 km 10 000 feet A E eesi Eei 12 km 40 000 feet Humidity Operating at 10 to 30 C 50 to 86 F 95 128 MAX INPUT VOLTAGE Vrms 1000 500 200 100 50 20 10 5 2 1 0 01 0 02 0 05 0 1 02 05 1 2 5 10 20 50 100 200 FREQUENCY MHz Figure 64 Max Voltage From Probe Tip to earth ground and From Probe Tip to Probe
67. es information on how to analyze the stored screens Analyzing Waveforms You can use the analysis functions CURSOR ZOOM and REPLAY to perform detailed waveform analysis These functions are described in Chapter 4 Using Cursors Zoom and Replay Using The Scope Analyzing Waveforms 1 25 Fluke 19xC 2x5C Users Manual 26 Chapter 2 Using The Multimeter About this Chapter This chapter provides a step by step introduction to the multimeter functions of the test tool hereafter called meter The introduction gives basic examples to show how to use the menus and perform basic operations Making Meter Connections Use the two 4 mm safety red VA BE and black COM PIQUE 12 Merer Connections banana jack inputs for the Meter functions See Figure 12 Note Typical use of the Meter test leads and accessories is shown in Chapter 8 27 Fluke 19xC 2x5C Users Manual Making Multimeter Measurements The screen displays the numeric readings of the measurements on the meter input Measuring Resistance Values To measure a resistance do the following 1 Connect the red and black test leads from the 4 mm banana jack inputs to the resistor 2 Display the METER key labels RELATIVE a MEASURE DH MANUAL 3 FA Open the Measurement menu Measurement Measure LJO0hms DU ac D AC o Continuity OM de D dc ODiode OV ac de Of ac de o Temp 4 D 9
68. evel voltage 2 Connect the probe ground lead to the RS 232 Data M Bit width PS Rise Rise time as of bit width 3 Connect the probe tip to the RS 232 bus TxD or Fall Fall time as of bit width RxD Jitter Jitter distortion Overshoot Overshoot distortion Note Continuous data traffic is not ensured See Data Traffic on page 70 Figure 39 RS 232 Bus Measurement Connections 73 Fluke 19xC 2x5C Users Manual RS 485 Bus amp MOD Bus IEA 485 RS 485 Default probe setting 10 1 Use the Fluke 10 1 probes 1 Connect the red probe to the test tool input A and the grey probe to input B 2 Connect the ground lead of the input A probe to the RS 485 bus RxD TxD N 3 Connect the ground lead of the input B probe to the RS 485 bus cable shield 4 Connect the probe tip of both probes to the RS 485 bus RxD TxD P DATA DATA A DATA GND ee Y N f f Figure 40 RS 485 Bus Measurement Connections 74 Table 6 RS 485 Bus Tested Signal Properties Signal Description V Offset High level voltage V Level Peak peak voltage Data Jl Bit width Rise Rise time as of bit width Fall Fall time as of bit width Jitter Jitter distortion Signal Dist Signal distortion Manchester decoding default setting Overshoot Overshoot NRZ decoding can be selected via limit setup Note Continuous data traffic is not ensured See Data Traffic on page 70 Foundati
69. f off automatically Note If the power adapter is connected there is no automatic power shutdown Automatic power shutdown will not occur if TrendPlot or Scope Record is on but the backlight will dim Recording will continue even if the battery is low and retention of memories is not jeopardized 98 Setting the Power Down Timer Initially the power shutdown time is 30 minutes You can set the power shutdown time to 5 minutes as following 1 0 Display the USER key labels LIGHT VERSION AO OPTIONS LANGUAGE SERSION Open the User Options menu User Options Auto Set Adjust Printer Setup Battery Save Options Factory Default Battery Refresh Display Options Date Adjust Time Adjust Open the Battery Save Options uu menu uto 0FF o5 Minutes 30 Minutes o Disabled Battery Save Options Select 5 Minutes Changing the Auto Set Options With the next procedure you can choose how auto set behaves when you press the AUTO auto set key 1 0 Display the USER key labels VERSION AO OPTIONS LANGUAGE SERSION AUN 0 Open the User Options menu User Options Printer Setup Battery Save Options Factory Default Battery Refresh Display Options Date Adjust Time Adjust Open the Auto Set Adjust menu Fa Auto Set Adjust Search for Input Display signals of coupling alitches n T Set To DC m
70. ffered an extensive handshake protocol with separate handshake lines hardware handshake later software handshake allowed data exchange via only 2 lines plus ground Data rates may be low depending on the application To check this bustype ScopeMeter Channel A is on and DC coupled The recommended probe is the Fluke 10 1 probe Connect the probe as shown below TxD or RxD In case there are handshake lines they each can be checked individually because all use the same voltage levels Appendices A Bushealth Measurements The figure below shows a Female DB 9 connector wired for hardware handshake Lines used for software handshake are indicated with black dots Carrier Detect y ON Data Set Ready Rx Data O Request to Send Tx Data 3 o Clear to Send Data Terminal O Ring Indicator rt ee 3 Ready D ground gt DB 9 female wired for RS 232 A 11 Fluke 19xC 2x5C Users Manual RS 485 Bus The RS 485 definition specifies differential balanced data lines that are referenced to a ground level Because of this noise immunity is better than for RS 232 The impedance between the lines is 120 Q RS 485 allows for multiple transmitters and receivers to be connected to the same bus Data transmission is adressed to a dedicated receiver Data traffic is not continuous To check this bustype ScopeMeter Channel A and B are on and DC coupled The recommended probes are the Fluke
71. fixed and is compatible with logic signals Triggering on Video Signals To trigger on a video signal first select the standard of the video signal you are going to measure 1 Apply a video signal to the red input A 2 Display the TRIGGER key labels AUTO TRIG SLOPE MOOM TRIGGER E E Ext 1 x MANUAL OPTIONS 3 ED Open the Trigger Options menu Trigger Options Trigger J utomatic o Pulse Width on A 4 amp Select Video on A to open the EE Trigger on Video menu Trigger on Video Polarity Positive PAL o Hegative DHTSC OPALPIus o SECAM 5 Select positive signal polarity for Fa video signals with negative going ao sync pulses Triggering on Waveforms 5 Triggering on Video Signals Probe 10 1 Figure 32 Measuring Interlaced Video Signals 6 Cy Select the video standard and EE return Trigger level and slope are now fixed Observe that the key labels at the bottom of the screen have been changed to allow further selection of specific video trigger settings we PALLLINES LINEAR pp 59 Fluke 19xC 2x5C Users Manual Triggering on Video Frames Use FIELD 1 or FIELD 2 to trigger either on the first half of the frame odd or on the second half of the frame even To trigger on the second half of the frame do the following 7 D The signal part of the even field is displayed on the screen Choose FIELD 2 60 Triggering on Video Lines
72. ger View s es one full screen length Max Delay craft 12 seconds Automatic Connect and View Trigger OUNCE coca A B EXT Edge Trigger Screen Update Free Run On Trigger Single Shot SOU Cattrall A B EXT Specifications 1 0 Dual Input Oscilloscope DOPE cierren Positive Negative Dual Trigger Level Control Range e 4 divisions Trigger Sensitivity A and B DC to 5 MHz at gt 5 MV diWionoicccccnnnnicccccc 0 5 divisions DC to 5 MHz at 2 mV div and 5 mV div 1 division 200 MHz FLUKE 199C 225C eee 1 division 250 MHz FLUKE 199C 2250 2 divisions 100 MHz FLUKE 196C 215C eee 1 division 150 MHz FLUKE 196C 215C ee 2 divisions 60 MHz FLUKE 1920 1 division 100 MHz FLUKE 19CB cocooccccccccocicconccancn nn 2 divisions Isolated External Trigger Bandwidth iessen eieiei iiie 10 kHz Alero suomi E E E EA Automatic Edge Trigger Levels DC to 10 kH2 120 mV 1 2 V Video Trigger Standards eene PAL PAL NTSC SECAM Modes osan Lines Line Select Field 1 or Field 2 OUNCE Sich avait EE A EE pidi ara A Polarity anr r Positive Negative Sensitivity ir ainnise 0 7 division sync level 115 Fluke 19xC 2x5C Users Manual Pulse Width Trigger Screen Update eee On Trigger Single Shot Trigger Conditions lt T gt T T 10 T 10 A ET A Policiaco asa Positive or negative pulse Pulse Time Adjustment Range 0 01 div t
73. gering on Waveforms 43 Fluke 19xC 2x5C Users Manual Zooming in on a Waveform To obtain a more detailed view of a waveform you can zoom in on a waveform using the zoom function To zoom in on a waveform do the following 1 Display the Zoom key labels Soe 1Oms div VIEW ALL E zoor Z00MED _ DRNOFF Observe that the trace is frozen ZOOM appears at the top of the Sanne Ene ihe wewein iE Figure 23 Zooming in a Waveform magnified 2 Enlarge decrease the time div or Observe that the bottom of the waveform area displays the shrink increase the time div the zoom ratio position bar and time div see Figure 23 The waveform zoom range depends on the amount of data samples stored in memory 3 gt Scroll A position bar displays the i position of the zoomed part in From this point you can use the cursor function for further relation to the total waveform measurements on the waveform Tip Even when the key labels are not displayed at the bottom of the screen you can still use the arrow keys to zoom in and out 44 Displaying the Zoomed Waveform The VIEW ALL feature is useful when you quickly need to see the complete waveform and then return to the zoomed part 4 F2 Display the complete waveform Press repeatedly to toggle between the zoomed part of the waveform and the complete waveform Using Replay Zoom and Cursors Zooming in on a Waveform Turning Off the Zoom Function 5 E
74. health Open the Select Fieldbus menu Select Fieldbus OAS 1 o CAH ORS 232 o Ethernet ORS 485 o Modbus Foundation o Profibus ENTER y es 0 Select the bus type gt O Accept your choice For bus types followed by 3 dots a new menu will open Select the required item and press The test tool starts measuring now You will see a screen like Figure 35 Each bus type has a default probe setting e g 10 1 If the probe setting before selecting the fieldbus type was different from this default probe setting the probe menu is shown with the default setting highlighted To accept the default setting press You can also select another probe type now using the arrow keys 6 Connect the inputs as indicated in section Input Connections and Tested Signals on page 70 Tip Press PF WIRING INFO to get information on measurement connections Using The Bushealth Function 6 Performing Bushealth Measurements Starting and Stopping Measuring Measuring starts immediately after you selected a bus type The test tool now continuously monitors the bus signal and shows the signal properties Measured minimum and maximum values the extremes will be stored and displayed from now on To clear these values you can stop and start measuring as follows 1 ENS Press to stop measuring The screen is frozen now Press again to start a new measurement Press to clear the screen and start measuring again 2
75. hlight ac 18 Reversing the Polarity of the Displayed Waveform To invert the input A waveform do the following D Display the INPUT A key labels INPUT A COUPLING PROBEA IMPUTA CG OFF AC 10 1 OPTIONS Open the Input A menu Polarity Bandwidth Horman Fuil O Inverted o 10 kHz HF reject 020 MHz o Variable Select Inverted and accept gE inverted waveform display Exit the menu For example a negative going waveform is displayed as positive going waveform which may provide a more meaningful view An inverted display is identified by an inversed trace identifier El at the right of the waveform Variable Input Sensitivity The variable input sensitivity allows you to adjust the input A sensitivity continuously for example to set the amplitude of a reference signal to exactly 6 divisions The input sensitivity of a range can be increased up to 2 5 times for example between 10 mV div and 4 mV div in the 10 mV div range To use the variable input sensitivity do the following 1 Apply the input signal 2 Ek An Auto Set will turn off the variable input sensitivity You can now select the required input range Keep in mind that the sensitivity will increase when you start adjusting the variable sensitivity the displayed trace amplitude will increase 3 B Perform an Auto Set AUTO must appear at the top of the screen Display the INPUT A key labels INPUT
76. including approval Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use This manual contains information and warnings that must be followed by the user to ensure safe operation and to keep the instrument in a safe condition Use of this equipment in a manner not specified by the manufacturer may impair protection provided by the equipment 113 Fluke 19xC 2x5C Users Manual Dual Input Oscilloscope Isolated Inputs A and B Vertical Bandwidth DC Coupled FLUKE 199C 225C eee 200 MHz 3 dB FLUKE 196C 2150 oe eee eee 100 MHz 3 dB FLUKE 192C i iee cece eee acess 60 MHz 3 dB Lower Frequency Limit AC Coupled With 10 1 probe oo eee eeeeeeeeeeeeeeeeeee lt 2 Hz 3 dB direct acicate rica lt 5 Hz 3 dB Rise Time FLUKE 199G 22D Caniioostiatiba iban 1 7 ns FLUKE 19602 3 5 ns FLUKE 192C cuco ici 5 8 ns Analog Bandwidth Limiters 20 MHz and 10 kHz Input CoupliNO ccoo ci AC DC Poleo tots a Normal Inverted Sensitivity Ranges with 10 1 probe cooconcccnccccociccnccccnos 20 mV to 1000 V div direct Milicic 2 mV to 100 V div Dynamic Range ccce gt 8 div lt 10 MHz vijay ae hee a gt 4 div gt 10 MHz Trace Positioning Range ccceeeeee 4 divisions Input Impedance on BNC DC Coupled 10 0 eee 1 MQ 1 15 pF 2 pF 114 Nmax Input Voltage with 10 1 probe 600 V CAT III 1000 V CAT II direct Milicic 300 V
77. ions Cursor Zoom and Replay These functions can be used with one or more of the primary functions Scope TrendPlot or Scope Record When you are in scope mode the test tool automatically stores the 100 most recent screens When you press the HOLD key or the REPLAY key the memory contents are It is possible to combine two or three analysis functions A frozen Use the functions in the REPLAY menu to go back typical application using these functions follows in time by stepping through the stored screens to find the screen of your interest This feature lets you capture and First replay the last screens to find the screen of view signals even if you did not press HOLD special interest Then zoom in on the signal event Finally make measurements using the cursors 41 Fluke 19xC 2x5C Users Manual Replaying Step by Step To step through the last scope screens do the following From scope mode open the REPLAY menu SCREEN 84 09 26 07 H mm H EXIT PREVIOUS HEAT PLAY REPLAY Observe that the trace is frozen and that REPLAY appears at the top of the screen see Figure 22 Step through the previous screens Step through the next screens Observe that the bottom of the waveform area displays the replay bar with a screen number and related time stamp SCREEN 84 09 26 07 42 REPLAY 84 Figure 22 Replaying a Waveform The replay bar represents all 100 stored screens in memo
78. istortion RJ 45 4 3 1D RD am DR x Figure 45 Ethernet Twisted Pair Measurement Connections Note Normally the Ethernet bus has continuous data traffic Incidentally the bus may have no continuous data traffic See Data Traffic on page 70 79 Fluke 19xC 2x5C Users Manual Viewing the Bus Waveform Screen 5 Exit the Bushealth mode and enter the Scope Meter mode To view the waveform eye pattern of the bus voltage do the following In the main screen select eye Activitu 09 0 pattern mode You will see a screen like Figure 46 The screen shows the waveforms of one bit time triggered on a positive as well as on a negative edge in persistence mode 2 Clear the persisted waveforms and restart showing the waveform 3 Open the Persistence menu em Figure 46 Eye P ES Select Digital Persistence igure 46 Eye Pattern Screen Short Medium Long or Infinite F4 Qu to observe dynamic waveforms Notes TO D to freeze the screen Pressing choose your personal preference for the waveform representation again will clear the persistence waveform and restart showing the waveform eye pattern 4 Return to the test screen When saving a screen the most recently acquired waveform will be stored Persistence waveforms will not be stored Setting the Test Limits You can change the test limits used to generate the messages OK WARNING Y and NOT Ok 8 The test limits apply to the se
79. itic capacitance between analog and digital reference 94 ANALOG INPUT DIGITAL CONTROLLER N DIGITAL ANALOG GROUND GROUND Figure 56 Correct connection of reference leads ANALOG INPUT DIGITAL CONTROLLER Figure 57 Wrong connection of reference leads Noise that is picked up by reference lead B can be transmitted by parasitic capacitance to the analog input amplifier Using the Tilt Stand The test tool is equipped with a tilt stand allowing viewing from an angle while placed on a table From this position you can access the OPTICAL PORT at the side of the test tool The typical position is shown in Figure 58 Figure 58 Using the Tilt Stand Tips Using the Tilt Stand Resetting the Test Tool If you want to reset the test tool to the factory settings do the following 1 Turn the test tool off 2 Press and hold 3 Press and release The test tool turns on and you should hear a double beep indicating the reset was successful 4 Release Suppressing Key Labels and Menu s You can hide a menu or key label at any time amp Hide any key label or menu To display menus or key labels press one of the yellow menu keys e g the SCOPE key 95 Fluke 19xC 2x5 Users Manual Changing the Information Language During operation of the test tool messages may appear at the bottom of the screen You can select the language in
80. l input BNC or banana jack is connected to a voltage different from earth ground The isolated input connectors have no exposed metal and are fully insulated to protect against electrical shock The red and gray BNC jacks and the red and black 4 mm banana jacks can independently be connected to a voltage above earth ground for isolated electrically floating measurements and are rated up to 1000 Vrms CAT II and 600 Vrms CAT III above earth ground If Safety Features are Impaired Use of the test tool in a manner not specified may impair the protection provided by the equipment Before use inspect the test leads for mechanical damage and replace damaged test leads Whenever it is likely that safety has been impaired the test tool must be turned off and disconnected from the line power The matter should then be referred to qualified personnel Safety is likely to be impaired if for example the test tool fails to perform the intended measurements or shows visible damage About this Chapter This chapter provides a step by step introduction to the scope functions of the test tool The introduction does not cover all of the capabilities of the scope functions but gives basic examples to show how to use the menus and perform basic operations Powering the Test Tool Follow the procedure steps 1 through 3 in Figure 2 to power the test tool from a standard ac outlet See Chapter 8 for instructions on using battery power Turn
81. l is unstable or has a very low frequency you can control the trigger level slope and trigger delay for a better view of the signal See next section For dedicated applications use one of the four manual trigger functions e Edge triggering e External triggering e Video triggering e Pulse Width triggering 51 Fluke 19xC 2x5C Users Manual Setting Trigger Level and Slope The Connect and View function enables hands off triggering to display complex unknown signals When your test tool is in manual range do the following ED Perform an auto set AUTO appears at the top right of the screen Automatic triggering assures a stable display of virtually any signal From this point you can take over the basic trigger controls such as level slope and delay To optimize trigger level and slope manually do the following Display the TRIGGER key labels AUTO TRIG SLOPE MOLA TRIGGER EB Ext i t 1 X MANUAL OPTIONS Trigger on either positive slope or negative slope of the chosen waveform Dual Slope Triggering X 19xC 2x5C versions can trigger on both positive slope and negative slope 52 Enable the arrow keys for manual trigger level adjustment 3 D Probe 10 1 5ms Trig AIT Figure 27 Screen with all Trigger Information 4 DO Adjust the trigger level Observe the trigger icon I that indicates the trigger position trigger level and slope At the bottom of the s
82. lected bus type To select a bus type do steps 1 5 on page 66 To change the test limits of the selected bus do the following D From the bus test screen open the SETUP LIMITS menu You will see a screen like Figure 47 The header does not show the bus type To see the bus type when you are changing the limits press the CLEAR MENU key Press this key again to return to the setup limits screen 2 Using The Bushealth Function 6 Setting the Test Limits Select the signal property for E which you want to set the limit Select the level to be adjusted LOW low level HIGH high level or WARNING warning level Change the limits A before a line in the SETUP LIMITS screen indicates that a signal property in that line has limits that differ from the default setting Press F2 N A if a limit should not be involved in the test Press ow DEFAULTS to set all limits to the default values Accept the limits and return to the test screen In the test screen the word LIMIT will be followed by a if any of the limits has not the default value 81 Fluke 19xC 2x5C Users Manual Note Changed limits will persist until you change them again you reset the test tool resetting will restore the default limits SETUP LIMITS Figure 47 Setup Limits Menu Screen 82 Saving and Recalling Test Limits You can save a screen plus the test setup with adjusted test limits plus the
83. lowing tables list the user replaceable parts for the various test tool models For additional optional accessories see the ScopeMeter Accessories booklet To order replacement parts or additional accessories contact your nearest service center Maintaining the Test Tool 9 Parts and Accessories Replacement Parts Ordering Code Battery Charger available models Universal Europe 230 V 50 and 60 Hz BC190 801 North America 120 V 50 and 60 Hz l BC190 813 United Kingdom 240 V 50 and 60 Hz BC190 804 Japan 100 V 50 and 60 Hz BC190 806 Australia 240 V 50 and 60 Hz BC190 807 Universal 115 V 230 V 50 and 60 Hz BC190 808 UL listing applies to BC 190 808 with UL listed line plug adapter for North America The 230 V rating of the BC 190 808 is not for use in North America For other countries a line plug adapter complying with the applicable National Requirements must be used Voltage Probe Set Red designed for use with the Fluke ScopeMeter VPS210 R 19xC 2x5C series test tool The set includes the following items not available separately 10 1 Voltage Probe red 4 mm Test Probe for Probe Tip red Hook Clip for Probe Tip red Ground Lead with Hook Clip red Ground Lead with Mini Alligator Clip black Ground Spring for Probe Tip black Insulation Sleeve red 107 Fluke 19xC 2x5C Users Manual Ordering Code Voltage Probe Set Gray designed for use with the Fluke ScopeMeter UL VPS210 G 19xC 2x5C
84. ltage Probe Set gray a 10 1 Voltage Probe gray b Hook Clip for Probe Tip gray c Ground Lead with Mini Alligator Clip black d Ground Spring for Probe Tip black e Insulation Sleeve grey Unpacking the Test Tool Kit 5 Test Lead Set 7 Safety Information CD ROM with Users Manual multi language 8 Shipment box basic version only Fluke 19xC and 2x5C S versions include also the following items Description 9 Optically Isolated USB Adapter Cable 10 FlukeView ScopeMeter Software for Windows 11 Hard Case Fluke 19xC 2x5C Users Manual Safety Information Read First A Warning Carefully read the following safety information before using To avoid electrical shock or fire the test tool e Use only the Fluke power supply Model BC190 Battery Charger Power Adapter e Before use check that the selected indicated range on the BC190 matches the local line Specific warning and caution statements where they apply appear throughout the manual A Warning identifies conditions and actions power voltage and frequency that pose hazard s to the user e For the BC190 808 universal Battery Charger A Caution identifies conditions and actions Power Adapter only use line cords that that may damage the test tool comply with the local safety regulations The following international symbols are used on the test Note tool and in this manual To accomodate
85. menu A 50mU 100us Trig AI i Probe 10 11 Figure 9 Smoothing a Waveform 15 Fluke 19xC 2x5C Users Manual Using Persistence to Display Waveforms You can use Persistence to observe dynamic signals 1 Display the scope key labels 2 Fa Open the Waveform Options menu Waveform Options Glitch Detect Average Waveform mon MOE o Off oOn Persistence o Mathematics O Reference 3 GY Jump to Waveform and open the fu Persistence menu Persistence Digital Persistence H Envelope Off cinfinite Off o Short DOn o Medium i o Long 4 A Select Digital Persistence Short gw Medium Long or Infinite to observe dynamic waveforms Select Digital Persistence Off Envelope On to see the upper and lower boundaries of dynamic waveforms envelope mode 16 Select Dot join On or Off to choose your personal preference for the waveform representation Figure 10 Using Persistence to Observe Dynamic Signals Displaying Glitches To capture glitches on a waveform do the following 1 Display the scope key labels 2 Fa Open the Waveform Options menu Waveform Options Glitch Detect Average Waveform mon OFF Bl Hormal o Off i pde o Persistence i o Mathematics O Reference 3 C Select Glitch Detect On 4 Fa Exit the menu You can use this function to display events glitches or other asynchronous wavefor
86. ms of 50 ns nanoseconds or wider or you can display HF modulated waveforms When you select the 2 mV div range Glitch Detect will be turned Off In the 2 mV div range you can set Glitch Detect On Using Average Using The Scope 1 Persistence and Glitch Capture Suppressing High Frequency Noise Switching Glitch Detect to Off will suppress the high frequency noise on a the noise even more waveform Averaging will suppress Display the scoPE key labels Open the Waveform Options menu Waveform Options Glitch Detect Average Waveform BOn mort if ooff oon o Persistence o Mathematics o Reference Select Glitch Detect Off then select Average On to open the Average menu Select Factor 8x Tip Glitch capture and average do not affect bandwidth Further noise suppression is possible with bandwidth limiting filters See Chapter 1 Working with Noisy Waveforms 17 Fluke 19xC 2x5C Users Manual Acquiring Waveforms Selecting AC Coupling After a reset the test tool is dc coupled so that ac and dc voltages appear on the screen Use ac coupling when you wish to observe a small ac signal that rides on a dc signal To select ac coupling do the following gp Display the INPUT A key labels INPUTA COUPLING PROBEA IMPUTA CO OFF AC 10 1 OPTIONS 2 Observe that the bottom left of the screen displays the ac coupling icon w Hig
87. n METER mode the Edit Name menu will be shown now as only a setup screen can be saved 3 a y Highlight Screen Setup 84 Open the Edit Name menu This menu enables you to name the saved screen setup Save as abedefghi grstuvuxy DCOPE GHI JKLMH Save as nD o WRY YZ01234 Geeks DEFAULT PREU HEXT HAME gt FAVE 01 03 07 00 59 11 If no free memory locations are available a message pops up that proposes to you to overwrite the oldest data set Do one of the following If you don t want to overwrite the oldest data set press MY then delete one or more memory locations and save again If you want to overwrite the oldest data set press MI and continue at step 4 To name the screen setup according to your own preferences do the following 5 PP Fs Skip to a new character position 6 E Select another character gt Repeat 5 and 6 until done 7 Fa Save the actual screen To use the default name generated by the test tool continue from step 4 as follows 5 Fay Use default name 6 Fa Save the actual screen Notes The two record setup memory locations store more than what is just visible on the screen In TrendPlot or scope record mode the full recording is saved In scope mode you can save all 100 replay screens in a single record setup memory location The table below shows what you can store for the various test tool modes To save a Trendplot press
88. nded to contact the system manager before any connections are made Fluke 19xC 2x5C Users Manual Used Probes and Accessories Refer to page 2 and 3 of this manual for an overview of accessories as supplied with the test tool For most bushealth measurements the 10 1 probe s are used To hook up to bus line nodes you can use the Alligator Clips or Hook Clips that fit on to the probe tip TP88 Back Probe Pins optional can be used to probe screw terminals at the wire entry point Important For correct measurements you should calibrate your probe to match its characteristics to the test tool A poorly calibrated probe can introduce measurement errors See Chapter 9 Calibrating the Voltage Probes for calibration instructions You can use the BHT190 test adapter to measure on busses that use a DB9 or a M12 connector A 2 Tips and Hints per Bus Type AS i bus The Actuator Sensor Interface AS i is used to control on off devices at the factory floor The bus consists of 2 wires marked and that carry a 30 Vdc supply with superimposed data The AS i protocol uses continuous polling of all devices in a fixed time schedule so that there is continuous data traffic To check AS i ScopeMeter Channel A is on and alternately AC coupled for data or DC coupled to test 30 Vdc The recommended probe is the Fluke 10 1 probe Connect the probe as shown below M12 Flat C 1 Brown AS i 3 Blue AS i Connection
89. ninn soccer inte nentinen noe 4 hours Allowable ambient temperature during charging O to 40 C 32 to 104 F Auto power down time battery saving 5 min 30 min or disabled Battery Charger Power Adapter BC190 BC190 801 European line plug 230 V 10 BC190 813 North American line plug 120 V 10 BC190 804 United Kingdom line plug 230 V 10 BC190 806 Japanese line plug 100 V 10 BC190 807 Australian line plug 230 V 10 BC190 808 Universal switchable adapter 115 V 10 or 230 V 10 with plug EN60320 2 2G AS AA iiiii 50 and 60 Hz 124 Probe Calibration Manual pulse adjustment and automatic DC adjustment with probe check Generator Output 3 Vpp 500 Hz square wave Memory Number of Scope Memories cccccocococcccccccccconononccnncnnnns 15 Each memory can contain two waveforms plus corresponding setups Number of Recorder Memories oocoocccconoccccnocancnonancninano 2 Each memory can contain e adual input TrendPlot 2 x 9000 points per input e adual input Scope Record 2 x 27000 points per input e 100 dual input Scope screens Mechanical SIZE is een 64 x 169 x 256 mm 2 5 x 6 6 x 10 1 in Walt chase Aes ak ath te de 2 kg 4 4 Ibs including battery Optical InterfacePort TP o eae RS 232 optically isolated To Printer supports SII DPU 414 Epson FX LQ and HP Deskjet Laserjet and Postscript e Serial via PM9080 optically isolated RS 232 Adapter Cable
90. nocanononccnncnnannn nono up to 120x Trend Plot vec dacs icono oatiias cnet ale up to 96x EEE up to 8x Replay Displays a maximum of 100 captured dual input Scope screens Replay modes Step by Step Replay as Animation Cursor Measurements Cursor Modes seee single vertical cursor dual vertical cursors dual horizontal cursors Scope mode Markers automatic markers at cross points Measurements ccccccceseeceeeeeeeaeeneeees value at cursor 1 value at cursor 2 difference between values at cursor 1 and 2 time between cursors RMS between cursors Time of Day Recorder modes Time from Start Recorder modes Rise Time SA 0 Zoom Replay and Cursors Fieldbus Bushealth Type Subtype Protocol AS i NEN EN50295 CAN ISO 11898 2 Modbus RS 232 RS 232 ElA 232 RS 485 RS 485 ElA 485 Foundation H1 61158 type 1 31 25 kBit s Fieldbus Profibus DP ElA 485 PA 61158 type 1 Ethernet Coax 10Base2 TP 10BaseT TP 100BaseT RS 232 ElA 232 RS 485 ElA 485 123 Fluke 19xC 2x5C Users Manual Miscellaneous Display MOE 115 x 86 mm 4 5 x 3 4 inches Backtlight Cold Cathode Fluorescent CCFL Temperature compensated Brightness eee eeeeeeeeeeeees Power Adapter 80 cd m Batteries 50 cd m A Power Rechargeable NiMH Batteries Operating Time ooooocccccccccococococcccnocanananonnncnnnnnnno 4 hours Charging TIME iocoococnoincconci
91. ntal frequency scale is always logarithmic Fa Turn the spectrum function off on toggle function w 100Hz 1kHz 10kHz 100kHz 1MHz Figure 11 Spectrum measurement Comparing Waveforms 5 pas You can display a fixed reference waveform with the 7 MI actual waveform for comparison To create a reference waveform and to display it with the actual waveform do the following 1 Display the scope key labels 2 Fa Open the Waveform Options menu Waveform Options Glitch Detect Average Waveform BOn i OFF if ooff loon o Persistence i O Mathematics O Reference 3 9 Jump to the Waveform field 4 GY Select Reference to open the GE Waveform Reference menu Waveform Reference Reference Pass Fail Testing 6 im OfF 0 Store Fail o Store Pass Using The Scope 1 Acquiring Waveforms Select On to display the reference waveform This can be the last used reference waveform if not available no reference waveform will be shown the envelope waveform if the persistence function Envelope is on Select Recall to recall a saved waveform or waveform envelope from memory and use it as a reference waveform Select New to open the New Reference menu Hew Reference 0 pixel O 1 pixel O 2 pixel O45 pixel O 10 pixel Continue at step 6 Select the width of an additional envelope to be added to the momentary waveform 23
92. o 655 div with a minimum of 300 ns lt T gt T or 500 ns T T a maximum of 10 s and a resolution of 0 01 div with a minimum of 50 ns Continuous Auto Set Autoranging attenuators and time base automatic Connect and View triggering with automatic source selection Modes Normal iento penitence 15 Hz to max bandwidth Low Frequency ece 1 Hz to max bandwidth Minimum Amplitude A and B DG 10 1 MZ it ranas 10 mV 1 MHz to max bandwidth ooooooooccocccninocccccccccccns 20 mV Automatic Capturing Scope Screens Capacity sitial 100 dual input scope Screens For viewing screens see Replay function 116 Automatic Scope Measurements The accuracy of all readings is within of reading number of counts from 18 C to 28 C Add 0 1x specific accuracy for each C below 18 C or above 28 C For voltage measurements with 10 1 probe add probe accuracy see section 10 1 Probe on page 127 At least 1 5 waveform period must be visible on the screen General pulsa ee Ae ee te Ree de eee Ae fe ee A and B DC Common Mode Rejection CMRR gt 100 dB AC Common Mode Rejection at 50 60 or 400 Hz gt 60 dB DC Voltage VDC Maximum Voltage With 10 1 prOD6 ooococccononoccccccncconanoncnnconcnannnoncnncnnnns 1000 V dife lll aaa 300 V Maximum Resolution With 10 1 probe ree aaea ea iare Eak 1mV direct 121 oe aar aaa REEE R aa 100 uV Full Scale Reading cc
93. on H1 Bus Default probe setting 10 1 Use the Fluke 10 1 probe 1 Connect the red probe to test tool input A 2 Connect the probe ground lead to the H1 bus 3 Connect the probe tip to the H1 bus Figure 41 Foundation H1 Bus Measurement Connections Using The Bushealth Function Input Connections and Tested Signals 6 Table 7 Foundation H1 Bus Tested Signal Properties Signal Description V Level Bias Bias voltage level V Level Peak peak voltage Data Jl Bit width Rise Rise time as of bit width Fall Fall time as of bit width Jitter Jitter distortion Signal Dist Signal distortion Noise HF High Frequency noise gt 39 1 kHz Noise Mid Frequency noise 7 8 39 1 kHz Noise LF Low Frequency noise lt 7 8 kHz Note The bus normally has continuous data traffic 75 Fluke 19xC 2x5C Users Manual Profibus PA 31 25 kBit s Table 8 Profibus PA Tested Signal Properties Default probe setting 10 1 Use the Fluke 10 1 probe Signal Description 1 Connect the red probe to test tool input A V Level Bias Bias voltage level V Level Peak peak voltage 2 Connect the probe ground lead to the PA bus Data M Bit width TEE z Ta 3 Connect the probe tip to the PA bus Rise RISE tme a wol pit Wiath Fall Fall time as of bit width Jitter Jitter distortion Signal Dist Signal distortion Noise HF High Frequency noise gt 39 1 kHz Noi
94. on ON OFF 70 This section provides a short description of the required bus connection and the measured signal properties See Appendix A for detailed information For correct measurements you should calibrate your probe to match its characteristics to the test tool A poorly calibrated probe can introduce measurement errors See Chapter 9 section Calibrating the Voltage Probes for calibration instructions Data Traffic In some bus systems AS i for instance the protocol uses continuous polling of all devices in a fixed time schedule so that there is continuous data traffic Other systems such as RS 232 only carry data when communication is required Bushealth requires continuous data traffic to perform its measurements In case of very low data repetition rates the banner NO DATA is displayed In systems with low data rates it is recommended to increase the data rate by e g knob operation Contact the system manager for this Using The Bushealth Function 6 Input Connections and Tested Signals AS i Bus Table 3 AS i Bus Tested Signal Properties Default probe setting 10 1 Use the Fluke 10 1 probe signal Description 1 Connect the red probe to test tool input A V Level Bias Bias voltage Peak Peak voltage 2 Connect the probe ground lead to the AS i bus 3 Connect the probe tip to the AS i bus Note M12 Flat C The bus normally has continuous data traffic AS i 1 Brown 3 Blue ASi
95. ool For extended information on Fieldbuses and fieldbus measurement please consult Appendix A of this manual The test tool bushealth function indicates the status of the following aspects of the OSI model Physical Layer Bushealth Function Availability e Voltage levels bias high level low level The Bushealth function is available in the models e Bit width baud rate Fluke 215C and Fluke 225C e Rise and fall time e Distortion Moreover the test tool can show the bus signal waveform in the Eye pattern mode see Figure 46 65 Fluke 19xC 2x5C Users Manual The bushealth measurement is based upon the test tool Scope mode The test tool selects settings that are optimized to the signal characteristics of the selected bus type It operates in full automatic ranging and triggering mode Test limits are preset but can be changed see page 81 For supported bus types and protocols see Chapter 10 Specifications section Fieldbus Measurements Note You can perform resistance measurements using the Meter mode to check a suspected cable or bus termination 66 Performing Bushealth Measurements Caution Fieldbuses often are controlling delicate processes that must not be disturbed It is strongly recommended to contact the system manager before any connections are made Selecting the bus type To select the fieldbus type do the following Open the bushealth fieldbus main selection screen 2 Highlight Bus
96. play the mathematical result waveform and the input A and input B waveforms A versus B provides a plot with input A on the vertical axis and input B on the horizontal axis The Mathematics functions perform a point to point operation on waveforms A and B To use a Mathematics function do the following Display the scoPE key labels Open the Waveform Options menu Waveform Options Glitch Detect Average i Waveform nOn inoff E Hormal o Persistence off Poon o Mathematics O Reference The sensitivity range of the mathematical result is equal to the sensitivity range of the least sensitive input divided by the scale factor Jump to Waveform and Select Mathematics to open the Mathematics menu Function i Scalefactor Window 0 Off Df ivs B m1 ori Mt E 0 Spectrum ov D penni DA B i ofd O Heasore bees DAXB i OFF D Ness Select Function A B A B AxB or Avs B Select a scale factor to fit the mathematical result waveform onto the display and return Using The Scope 1 Acquiring Waveforms Using Mathematics Function Spectrum FFT The Spectrum function shows the spectral content of the input A or input B waveform It performs an FFT to transform the amplitude waveform from the time domain into the frequency domain To reduce the effect of side lobes leakage it is recommended to use auto windowing It will automatically adapt the part of the wa
97. pled The recommended probes are Fluke 10 1 probes Fluke 19xC 2x5C Users Manual Connect the probes as shown below OBD2 DB 9 6 3 7 CANH CAN L 1411 2 CAN GND W 5 15 3 RY Bus lines can be reached with Back Probe Pins at screw terminals at a device s wire entry point wire colors commonly used are white for CAN_H blue for CAN_L and black for CAN_GND Alternatively you can use a third party DB 9 to 4 mm banana breakout box In addition the figure below shows the pinning of a DB 9 female connector and a typical Automotive OBD2 connector Bear in mind that some automobile manufacturers leave bus signals at the connector default on other manufacturers require bus signals to be enabled via an external controller A 4 DB 9 FEMALE CAN_L Ground OBD2 FEMALE 1 8 9 16 High Speed HS_CAN_H Pin 6 HS_CAN_L Pin 14 Medium Speed MS_CAN_H Pin 3 MS_CAN_L Pin 11 Common Signal Ground Pin 5 Battery Plus Pin 16 Minus Pin 4 Modbus IEA 232 RS 232 Is in use in Process Industry Building and Factory Automation Modbus RS 232 is used for point to point communication System layout is shown in the figure below Continuous data traffic is not ensured DEVICE UNDER CONTROL CONTROLLER Modbus IEA 232 RS 232 To check this type of bus ScopeMeter Channel A is on and DC coupled The recommended probe is the Fluke 10 1 probe Connect the probe as shown below
98. r T Documenting Screens Setting up the Printing Configuration This example demonstrates how to set up the test tool for printing on a postscript printer with a 9600 baud rate 1 xe Display the USER OPTIONS key labels VERSIO CONTRAST gt OPTIONS LANGUAGE 9 cal 2 FA Open the User Options menu User Options Printer Setup Battery Save Options Factory Default Battery Refresh Display Options Date Adjust Time Adjust 3 amp Open the Printer Setup submenu Printer Setup Printer Type i Baud Rate O Deskjet OOPU 414 PAC D DO Epson FRALQ o Postscript 4 ED Select Postscript and jump to lt Gg Baud Rate Figure 50 Connecting a Parallel Printer q 5 yay Select a baud rate of 9600 and EE return to normal mode 89 Fluke 19xC 2x5C Users Manual Whenever possible choose the option Postscript when printing screens This option gives the best printing results Consult the manual that came with your printer to find out whether it has Postscript printing possibilities To connect the SII Seiko Instruments Inc DPU 414 thermal printer you must use the printer adapter cable PAC91 See Figure 50 Printing a Screen To print the currently displayed screen do the following 1 Clear the menu if you do not want to print it 2 Display the SAVE PRINT key labels 3 Fs Start printing A message appears at the bottom of the screen indicating that the tes
99. rger than 5 of full scale 121 Fluke 19xC 2x5C Users Manual Amperes AMP With Optional Current Probe or Current Shunt Ranges o on same as VDC VAC VAC DC Probe Sensitivity 100 uV A 1 mV A 10 mV A 100 mV A 1 V A 10 V A and 100 V A ACCULACY onanan ninine eener same as VDC VAC VAC DC add current probe or current shunt accuracy Recorder TrendPlot Meter or Scope Chart recorder that plots a graph of min and max values of Meter or Scope measurements over time Measurement Speed 5 measurements s max Time DIV cocaina 5 s div to 30 min div Record SiZe iii gt 18000 points Recorded Time Span 60 min to 22 days single reading 30 min to 11 days dual reading Time Reference 0008 time from start time of day 122 Scope Record Records scope waveforms in deep memory while displaying the waveform in Roll mode SOUMCE cui bs Input A Input B Max Sample Speed 5 ms div to 1 min div 20 MS s Glitch capture 5 ms div to 1 min div 50 ns Time Div in normal mode 5 ms div to 2 min div Record SIZE parisining 27000 points per input Recorded Time Span ccceeseeeees 6 s to 48 hours Acquisition Modes Single Sweep Continuous Roll External Triggering Time Reference nin time from start time of day Zoom Replay and Cursors Zoom Horizontal Magnification Scope Record cocccccccocococicocc
100. ry The E l icon represents the picture being displayed on the screen in this example SCREEN 84 If the bar is partly white the memory is not completely filled with 100 screens From this point you can use the zoom and cursor functions to study the signal in more detail Replaying Continuously You can also replay the stored screens continuously like playing a video tape To replay continuously do the following 1 CrEPLAY From Scope mode open the REPLAY menu SCREEN 84 09 26 07 Hi H mm EXIT PREVIOUS HEXT PLAY REPLAY Observe that the trace is frozen and REPLAY appears at the top of the screen 2 f Fs Continuously replay the stored screens in ascending order Wait until the screen with the signal event of interest appears amp Stop the continuous replay Using Replay Zoom and Cursors 4 Replaying the 100 Most Recent Scope Screens Turning Off the Replay Function 4 Turn off REPLAY Capturing 100 Intermittents Automatically When you use the test tool in triggered mode 100 triggered screens are captured This way you could use Pulse Triggering to trigger and capture 100 intermittent glitches or you could use External Triggering to capture 100 UPS startups By combining the trigger possibilities with the capability of capturing 100 screens for later replay you can leave the test tool unattended to capture intermittent signal anomalies For triggering see Chapter 5 Trig
101. rying Case Kit SCC190 Set contains the following parts Optically Isolated USB Adapter Cable OC4USB Hard Carrying Case C190 FlukeView ScopeMeter Software for Windows SW90W 110 Troubleshooting The Test Tool Does Not Start Up The batteries may be completely empty In this case the test tool will not start up even if it is powered by the battery charger Charge the batteries first power the test tool with the battery charger without turning it on Wait about 15 minutes and try turning on the test tool again The Test Tool Shuts Down After A Few Seconds The batteries may be empty Check the battery symbol at the top right of the screen A symbol indicates that the batteries are empty and must be charged The Screen Remains Black Make sure that the test tool is on You might have a problem with the screen contrast Press then press f Fa Now you can Use the arrow keys to adjust the contrast Maintaining the Test Tool 9 Troubleshooting The Operation Time Of Fully Charged Batteries Is Too Short The batteries may be in poor condition Refresh the batteries to optimize the condition of the batteries again It is advised to refresh the batteries about four times a year The Printer Does Not Print Make sure that the interface cable is properly connected between the test tool and the printer Make sure that you have selected the correct printer type See Chapter 7 Make sure that the baud rate m
102. s The isolated input architecture makes the test tool about as versatile as having three independent instruments The advantages of having independently floating isolated inputs are e ltallows simultaneous measurement of independently floating signals Tips 8 Using the Independently Floating Isolated Inputs e Additional safety Since the commons are not directly connected the chance of causing short circuit when measuring multiple signals is greatly reduced e Additional safety When measuring in systems with multiple grounds the ground currents induced are kept to a minimum Because the references are not connected together inside the test tool each reference of the used inputs must be connected to a reference voltage Independently floating isolated inputs are still coupled by parasitic capacitance This can occur between the input references and the environment and between the input references mutually see Figure 54 For this reason you should connect the references to a system ground or another stable voltage If the reference of an input is connected to a high speed and or high voltage signal you should be aware of parasitic capacitance See Figure 54 Figure 55 Figure 56 and Figure 57 93 Fluke 19xC 2x5 Users Manual ES Par Figure 54 Parasitic capacitance between probes instrument and environment DC BUS MOTION MOTOR CONTROLLER a Figure 55 Paras
103. s at the bottom of the screen have been changed to allow further selection of specific N Cycle trigger settings EDGE T SLOPE RIG TRIGGER ENB Ext Ml x OPTIONS Triggering on Waveforms 5 Triggering on Edges 7 30 Set the number of cycles N 8 AED Adjust the trigger level Traces with N Cycle triggering N 2 and without N Cycle triggering are shown in Figure 30 MANUA Probe 10 1 Figure 30 N Cycle triggering 57 Fluke 19xC 2x5C Users Manual Triggering on External Waveforms Use external triggering when you want to display waveforms on inputs A and B while triggering on a third signal You can choose external triggering with automatic triggering or with edge triggering 1 Supply a signal to the red and black 4 mm banana jack inputs See Figure 31 In this example you continue from the Trigger on Edges example To choose the external signal as trigger source continue as follows 2 rracen Display the TRIGGER On Edges key labels ME Thiccer t EE MA OPTIONS EDGE TRIG SLOPE E B Ex Select Ext external edge trigger 3 D Observe that the key labels at the bottom of the screen have been adapted to allow selection of two different external trigger levels 0 12 V and 1 2 V puro TRIG SLOPE Ext LEVEL TRIGGER En 1X 0 120 HE OPTIONS 58 Figure 31 External Triggering 4 9 _ Select 1 2V under the Ext LEVEL label From this point the trigger level is
104. se Mid Frequency noise 7 8 39 1 kHz Noise LF Low Frequency noise lt 7 8 kHz Note The bus normally has continuous data traffic Figure 42 Profibus PA Measurement Connections A Warning Profibus PA is optimized for process control with focus on explosion safety When planning tests on this bus type make sure the proper safety rules are adhered to 76 Profibus DP RS 485 Default probe setting 10 1 Use the Fluke 10 1 probes 1 Connect the red probe to the test tool input A and the grey probe to input B 2 Connect the ground lead of the input A probe to the DP bus RxD TxD N 3 Connect the ground lead of the input B probe to the DP bus cable shield 4 Connect the probe tip of both probes to the DP bus RxD TxD P DATA DATA DATA GND NN X f fi Figure 43 Profibus DP Measurement Connections Using The Bushealth Function 6 Input Connections and Tested Signals Table 9 Profibus DP Tested Signal Properties Signal Description V Offset V offset V Level Peak peak voltage Data Jl Bit width Rise Rise time as of bit width Fall Fall time as of bit width Jitter Jitter distortion Signal Dist Signal distortion Manchester decoding default setting Overshoot Overshoot NRZ decoding can be selected via limit setup Note The bus normally has continuous data traffic 77 Fluke 19xC 2x5C Users Manual Ethernet Coax 1
105. series test tool The set includes the following items not available separately 10 1 Voltage Probe gray 4 mm Test Probe for Probe Tip gray Hook Clip for Probe Tip gray Ground Lead with Hook Clip gray Ground Lead with Mini Alligator Clip black Ground Spring for Probe Tip black Insulation Sleeve gray Accessory Set Red The set includes the following items not available separately Industrial Alligator for Probe Tip red 2 mm Test Probe for Probe Tip red Industrial Alligator for Banana Jack red 2 mm Test Probe for Banana Jack red Ground Lead with 4 mm Banana Jack black 108 Maintaining the Test Tool 9 Parts and Accessories Ordering Code Accessory Set Gray y AS200 G The set includes the following items not available separately Industrial Alligator for Probe Tip gray 2 mm Test Probe for Probe Tip gray Industrial Alligator for Banana Jack gray 2 mm Test Probe for Banana Jack gray Ground Lead with 4 mm Banana Jack black Replacement Set for Voltage Probe RS200 The set includes the following items not available separately 2x 4 mm Test Probe for Probe Tip red and gray 3x Hook Clip for Probe Tip 2 red 1 gray 2x Ground Lead with Hook Clip red and gray 2x Ground Lead with Mini Alligator Clip black 5x Ground Spring for Probe Tip black Bus Health Test adapter BHT190 109 Fluke 19xC 2x5C Users Manual Optional Accessories tem o Ordering Corte Software amp Cable Car
106. t 110 Current Measurement 29 Current Probe 29 Current Shunt 110 Cursors Measurements 46 D Date 97 DC Voltage VDC 116 121 Decibel dB 119 Delay Trigger 115 Deleting Screens 85 Diode 121 Display 124 Displaying Recorded Data 35 38 DMM Measurements 28 Documenting Screens 88 Dot join 16 80 Dual Slope Triggering 52 132 Duty Cycle 118 E Earth Ground 6 Edge Trigger 55 115 Electrical Shock 5 Electrically Floating 6 Electromagnetic Compatibility 125 Electronic Scope Connections 92 Emission 125 envelope mode 16 Environmental 125 Environmental Data 113 External Trigger 115 External Triggering 58 Eye pattern 80 fF FFT 21 Fieldbus 65 Fieldbus test limits 68 Fieldbus type 66 Filtering 20 FlukeView 88 110 Freezing the Readings 31 Freezing the Screen 14 Frequency Hz 118 Frequency Response 114 120 6 Glitch Capture 17 Ground Leads 3 107 Ground Spring 3 107 108 H Hard Case 3 110 HF Voltage Probe Connection 92 Hook Clips 3 107 Horizontal Cursors 46 Humidity 125 Hz 118 Immunity 125 Information Language 96 Input A Measurement 13 Input B Measurement 13 Input Coupling 120 Input Impedance 114 120 127 Input Sensitivity Variable 19 Interface 125 Inverted Display 18 Isolated 6 L Language 96 M Maintenance 101 Manual Ranges 31 Mathematics Functions 20 Max Floa
107. t tool is busy printing Screens will be printed in black and white 90 About this Chapter This chapter gives you information and tips on how you can make the best use of the test tool Chapter 8 Tips Using the Standard Accessories The following illustrations show the use of the standard accessories such as voltage probes test leads and the various clips 91 Fluke 19xC 2x5 Users Manual Figure 51 HF Voltage Probe Connection Using Ground Spring Figure 52 Electronic Connections for Scope Measurements Using Hook Clips and Alligator Clip Grounding Warning To avoid electrical shock or fire do not connect the ground spring to voltages higher than 30 Vrms from earth ground Figure 53 Manual Probing for Meter Measurements using the Test Lead Set 92 Using the Independently Floating Isolated Inputs You can use the independently floating isolated inputs to measure signals that are independently floating from each other Independently floating isolated inputs offer additional safety and measurement capabilities compared to inputs with common references or grounds Measuring Using Independently Floating Isolated Inputs The test tool has independently floating isolated inputs Each input section A B External Trigger DMM has its own signal input and its own reference input The reference input of each input section is electrically isolated from the reference inputs of the other input section
108. that the battery condition has deteriorated To keep the batteries in optimal condition observe the following guidelines e Operate the test tool on batteries until the i symbol appears at the bottom of the screen This indicates that the battery level is low and that the NiMH batteries need to be recharged e To obtain optimal battery condition again you can refresh the batteries During a battery refresh the batteries will be fully discharged and charged again A complete refresh cycle takes about 12 hours and should be done about four times a year You can check the latest battery refresh date See section Displaying Calibration Information Maintaining the Test Tool 9 Extending Battery Operation Time To refresh the battery make sure that the test tool is line powered and proceed as follows 1 0 2 D Display the USER key labels VERSION SANIGE OPTIONS LANGUAGE SERBION AA Open the User Options menu User Options Printer Setup Battery Save Options Factory Default Battery Refresh Display Options Date Adjust Time Adjust A message appears asking whether you want to start the refresh cycle now s a Do not disconnect the battery charger during the refresh cycle This will interrupt the refresh cycle Start the refresh cycle Note After starting the refresh cycle the screen will be black 103 Fluke 19xC 2x5C Users Manual Replacing the NiMH Battery Pack BP190
109. the red and E Fa TJE SWEER ado black external trigger banana inputs See Figure Start Single Sweep on Ext Conditions i Slope i Level 20 Start on trigger n a 00 12 U O Stop on trigger DL m12 U O Stop when untriggered i i 5 EE Open the Recorder Options menu Recorder Options Reference Display Mode Time of Da Glitches m Single Sweep o From Start m Glitch On O Continuous o 10 kHz o on Ext 39 Fluke 19xC 2x5C Users Manual Select one of the Conditions and jump to Slope Select the desired trigger slope and jump to Level Select the 0 12V or 1 2 V trigger level and accept all recorder options During recording samples are continuously saved in deep memory The last twelve recorded divisions are displayed on the screen Use View All to display the full memory contents Note To learn more about the Single Shot trigger function see Chapter 5 Triggering on Waveforms 40 5 Uldiv STOP NORMAL Figure 21 Triggered Single Sweep Recording Analyzing a TrendPlot or Scope Record From a Scope TrendPlot or Scope Record you can use the analysis functions CURSORS and ZOOM to perform detailed waveform analysis These functions are described in Chapter 4 Using Replay Zoom and Cursors About this Chapter Chapter 4 Using Replay Zoom and Cursors Replaying the 100 Most Recent Scope This chapter covers the capabilities of the analysis Screens funct
110. ting Voltage 126 127 Max Input Voltage 126 Measurement Connections 10 27 Measurements 13 28 Measurements on Meter Inputs 120 Mechanical 124 Memory 124 Meter Measurements 28 Multi Meter Measurements 28 N N A 68 Navigating a Menu 9 N Cycle Triggering 57 NiMH Battery 102 NiMH Battery 101 Noisy Waveforms 20 56 Ohm Q 120 Operating Time 124 Optical Interface 88 125 Oscilloscope 114 OVERVIEW 45 p PAC91 88 110 Parallel Print Cable 110 Parallel Printer 89 Parts 106 Pass Fail Testing 24 Peak 118 Performance Characteristics 113 Persistence 16 Phase 119 PM9080 88 110 Polarity 18 Power 119 124 Power Adapter 98 107 Power Down Timer 98 Power Factor 119 Power Factor Power 13 Powering the Test Tool 7 Pre Trigger 53 Print Cable 110 Index continued Probe 104 Probe Calibration 104 124 Pulse Trigger 61 Pulse Width 118 Pulse Width Trigger 116 R Readings 13 Recalibrating 106 Recalling Screens 86 Recalling Setups 86 Record Length 115 Record Setup Memory 85 Recorder 122 Recorder Options 36 Recording Waveforms 37 Refreshing Batteries 106 Relative Measurements 32 Replaceable Parts 106 Replacement Set 109 Replacing Batteries 104 Replay 41 85 123 Reset 8 Resetting the Test Tool 8 95 Resistance Measurement 28 Reversing the Polarity 18 Rise Time 49 114 RMS Voltage 117 133 Fluke
111. unctions 3 Plotting Measurements Over Time TrendPlot Displaying Recorded Data When in normal view NORMAL only the twelve most recently recorded divisions are displayed on screen All previous recordings are stored in memory VIEW ALL shows all data in memory 7 Display an overview of the full waveform Press repeatedly to toggle between normal view NORMAL and overview VIEW ALL When the recorder memory is full an automatic compression algorithm is used to compress all samples into half of the memory without loss of transients The other half of the recorder memory is free again to continue recording 35 Fluke 19xC 2x5C Users Manual Changing the Recorder Options At the right bottom of the display you can choose to display the time elapsed from start and the actual time of the day To change the time reference proceed from step 6 as follows 7 um E gw Start Open the Recorder Options menu Recorder Options Reference Time of Day o From Start Select Time of Day or From Now the recorded time or the current time appear at the bottom of the screen 36 Turning Off the TrendPlot Display gt um Exit the recorder function Using The Recorder Functions Recording Scope Waveforms In Deep Memory Scope Record Recording Scope Waveforms In Deep Memory Scope Record The SCOPE RECORD function is a roll mode that logs one or two long waveforms This function
112. veform that is analyzed to a complete number of cycles Selecting Hanning Hamming or no windowing results in a faster update but also in more leakage Ensure that the entire waveform amplitude remains on the screen To use the Spectrum function do the following Display the scoPE key labels Open the Waveform Options menu Waveform Options Glitch Detect Average i Waveform On i mOff cn ooff Poon o Persistence o Mathematics O Reference 21 Fluke 19xC 2x5C Users Manual Jump to Waveform and select Mathematics to open the Mathematics menu Function Scalefactor Window ooff OCAvsB mi oe aE OA B Spectrum O72 o Hamming D 6 D o Hanning OAxB DEE O Hone Select Function Spectrum Select Window Auto automatic windowing Hanning Hamming or None no windowing You will see a screen that looks like Figure 11 Observe that the top right of the screen displays SPECTRUM Ifit displays LOW AMPL a spectrum measurement cannot be done as the waveform amplitude is too low If it displays WRONG TB the time base setting does not enable the test tool to display an FFT result It is either too slow which can result in aliasing or too fast which results in less than one signal period on the screen 22 9 Perform a spectrum analysis on trace A or trace B FB Set the vertical amplitude scale to linear or logarithmic The horizo
113. w of 8 divisions bottom 53 Fluke 19xC 2x5C Users Manual Automatic Trigger Options In the trigger menu settings for automatic triggering can be changed as follows See also Chapter 1 Displaying an Unknown Signal with Connect and View Display the TRIGGER key labels AUTO TRIG SLOPE MUMM TRIGGER HB Ext EE 1 x MANUAL gt OPTIONS Note The TRIGGER key labels can differ depending on the latest trigger function used 2 9 Open the Trigger Options menu Trigger Options Trigger Automatic Automatic Trigger Automatic Trigger on Signals EME Hz Eu o gt 1 Hz 54 Open the Automatic Trigger menu If the frequency range of the automatic triggering is set to gt 15 Hz the Connect and View function responds more quickly The response is quicker because the test tool is instructed not to analyze low frequency signal components However when you measure frequencies lower than 15 Hz the test tool must be instructed to analyze low frequency components for automatic triggering 4 ya Select gt 1 Hz and return to the EE measurement screen Triggering on Edges If the signal is instable or has a very low frequency use edge triggering to obtain full manual trigger control To trigger on rising edges of the input A waveform do the following Display the TRIGGER key labels AUTO TRIG SLOPE NWSW TRIGGER EJ E Ext OHS t 1 x MANUAL OPTIONS
114. ypical bus structure To check this bustype ScopeMeter Channel A is on and DC coupled To connect to the System Under Test use a DEVICE 1 DEVICE 2 DEVICE 3 PM9083 male BNC to dual Female BNC adapter T piece optional and an extra BNC cable PM9092 optional as shown in the figure below PASSIVE COAX __ COAX PASSIVE COAX PASSIVE Ethernet coax id HH ld TAP Ethernet coax Bear in mind that in Ethernet cabling may be interrupted for only a few seconds during normal process operation Data traffic usually is continuous Fluke 19xC 2x5C Users Manual Ethernet Twisted pair 10BaseT To check this bustype ScopeMeter Channel A is on and DC coupled The recommended probe is the Fluke 10 1 probe Connect the probe as shown below RJ 45 1 3 2 6 TD RD TD RD DA Data traffic is not always continuous The wires can be reached with Back Probe Pins TP88 optional at screw terminals at a device s wire entry point for instance at a Junction Box A 10 The figure below shows pinning and wire colors of a RJ 45 connector Pin 1 TD brown Pin 2 TD brown white Pin 3 RD orange Pin 4 Pin 5 Pin 6 RD orange white Pin 7 Pin 8 EA RS 232 Bus RS 232 allows two way communication between a controller and a device such as modem printer or sensor Per device a dedicated link is needed Initially the RS 232 definition o
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