Fluke 196, 199, 192 user manual Using the Independently Floating Isolated Inputs

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Fluke 192/196/199

Users Manual

Using the Independently Floating Isolated Inputs

Additional safety. Since the commons are not directly connected, the chance of causing short circuit when measuring multiple signals is greatly reduced.

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.

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.

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 sections. 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:

It allows simultaneous measurement of independently floating signals.

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 44). 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 Figures 45, 46, 47 and 48.)

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Contents Fluke 192/196/199 Page Limited Warranty & Limitation of Liability Service Centers Table of Contents Using The Multimeter Using The Recorder FunctionsUsing Replay, Zoom and Cursors Fluke 192/196/199Iii Specifications IndexDeclaration of Conformity ManufacturerStatement of Conformity Sample testsUnpacking the Test Tool Kit ScopeMeter Test Tool KitDescription # DescriptionSafety Information Read First Safety Information Read First Use of the test tool in a manner not specified may If Safety Features are ImpairedImpair the protection provided by the equipment Powering the Test Tool Using The ScopeAbout this Chapter Resetting the Test Tool Screen After ResetNavigating a Menu Open the Waveform OptionsHiding Key Labels and Menus Input ConnectionsMaking Scope Connections Scope ConnectionsDisplaying an Unknown Signal with Connect-and-View Screen After an Auto SetSelect the Peak-Peak Making Automatic Scope MeasurementsMeasurement Freezing the Screen Hz and V peak-peak as Scope ReadingsUsing Average for Smoothing Waveforms Using Average, Persistence and Glitch CaptureJump to Waveform Jump to Waveform and Select Using Persistence to Display WaveformsPersistence , then select Infinite Displaying Glitches Suppressing High Frequency NoiseSelecting AC-Coupling Acquiring WaveformsReversing the Polarity of the Displayed Waveform Select 10kHz HF reject to Analyzing Waveforms Mathematics... to openMathematics menu Or a vs BUsing The Multimeter Making Meter ConnectionsMaking Multimeter Measurements Measuring Resistance ValuesMaking a Current Measurement Highlight a acOpen the Current Probe SubmenuAmpere Measurement Readings Freezing the Readings Selecting Auto/Manual RangesMaking Relative Measurements Making a Relative MeasurementUsing The Recorder Functions Opening the Recorder Main MenuStarting a TrendPlot Function Plotting Measurements Over Time TrendPlotHighlight Trend Plot Scope Displaying Recorded Data TrendPlot ReadingChanging the Recorder Options Turning Off the TrendPlot DisplayOpen the Recorder Options MenuStarting a Scope Record Function Recording Scope Waveforms In Deep Memory Scope RecordHighlight Scope Record Using ScopeRecord in Single Sweep Mode Jump to Display Glitches Select Yes, then jump to Mode Using Scope Record in Triggered Single Sweep ModeLevel Analyzing a TrendPlot or Scope Record Triggered Single Sweep RecordingUsing Replay, Zoom and Cursors Replaying the 100 Most Recent Scope ScreensReplaying Step-by-Step Replaying a WaveformTurning Off the Replay Function Replaying ContinuouslyCapturing 100 Intermittents Automatically Zooming in on a Waveform Zooming in a WaveformDisplaying the Zoomed Waveform Turning Off the Zoom FunctionUsing Horizontal Cursors on a Waveform Making Cursor MeasurementsUsing Vertical Cursors on a Waveform Turn off the cursorsUsing Cursors on a A+B, A-B or A*B Waveform Making Rise Time MeasurementsTriggering on Waveforms Setting Trigger Level and Slope Screen with all Trigger InformationUsing Trigger Delay or Pre-trigger Trigger Delay or Pre-trigger ViewOpen the Trigger Options menu Automatic Trigger OptionsOpen the Automatic Trigger Triggering on Edges Open the Trigger Options menu Open the Trigger on Edge menuSelect Free Run, jump to Noise Reject FilterTriggering on Noisy Waveforms Making a Single AcquisitionSelect On Trigger, jump to Noise Set Noise reject Filter to OnMaking a Single Shot Measurement Select 1.2V under the Ext Level Triggering on External WaveformsLabel Triggering on Video Signals Triggering on Video Frames Enable video line selectionTriggering on Video Lines Detecting Narrow Pulses Triggering on PulsesSelect On Trigger Triggering on Narrow Glitches Finding Missing Pulses Open the Trigger Options menu Select On TriggerTriggering on Missing Pulses Using Memory, PC and Printer Saving and RecallingSaving Screens with Associated Setups Recalling Screens with Associated Setups Deleting Screens with Associated SetupsDisplay the SAVE/PRINT key labels Recalling a Setup Configuration Viewing Stored Screens Scroll through all stored screensConnecting to a Computer Documenting ScreensConnecting to a Printer Connecting a Serial PrinterSetting up the Printing Configuration Open the Printer Setup submenuPrinting a Screen Baud RateFluke 192/196/199 Using the Standard Accessories TipsProbing Using 2-mm Heavy Duty Test Probes Heavy Duty Fixed Connections for ScopeTips Using the Standard Accessories Using the Independently Floating Isolated Inputs Measuring Using Independently Floating Isolated InputsTips Using the Independently Floating Isolated Inputs Using the Tilt Stand Suppressing Key Labels and Menu’sTurn the test tool off Press and holdAdjusting the Contrast and Brightness Changing the Information LanguageOpen the Language Select Accept French as the languageOpen Date Adjust menu Changing Date and TimeChoose 1999, jump to Month Choose 04, jump to DaySaving Battery Life Setting the Power Down TimerOpen the User Options menu Open the Auto Set Adjust Menu Changing the Auto Set OptionsTo Coupling Select UnchangedMaintaining the Test Tool Cleaning the Test ToolStoring the Test Tool Charging the Batteries Charging the BatteriesExtending Battery Operation Time Open the User Options menuReplacing the NiMH Battery Pack BP190 Calibrating the Voltage ProbesSelect 101, then return Select Voltage, then jump toMaintaining the Test Tool Parts and Accessories Standard AccessoriesDisplaying Calibration Information Open the Version & CalibrationStandard Accessories Ordering CodeTL24 General Purpose Leads RS200 Optional Accessories Troubleshooting Battery Operated Fluke Accessories Do Not Function FlukeView Does Not Recognize The Test ToolSpecifications Performance CharacteristicsSafety Characteristics IntroductionIsolated Inputs a and B Vertical Dual Input OscilloscopeHorizontal Trigger and Delay Automatic Connect-and-View TriggerEdge Trigger Isolated External TriggerAutomatic Scope Measurements AC Voltage VAC AC+DC Voltage True RMSAmperes AMP PeakFrequency Hz Duty Cycle DutyPower PhaseTemperature Temp Decibel dBMeter DMM Measurements on Meter InputsWith Optional Temperature Probe DiodeTrendPlot Meter or Scope RecorderScope Record Zoom, Replay and Cursors MiscellaneousProbe Calibration MemoryOptical InterfacePort MechanicalEnvironmental Max. Input Voltages SafetyMax. Floating Voltage Safety Electrical specificationsProbe Environmental102 Electromagnetic Immunity Disturbance less than 10% of full scale = 3V/m104 Index Numerics106 107 108
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