Fluke 123, 124 user manual Horizontal, Trigger

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Specifications 4

Dual Input Oscilloscope

Horizontal

Scope Modes

Normal, Single, Roll

Ranges

 

Normal:

 

equivalent sampling (Fluke 123)

20 ns to 500 ns/div

equivalent sampling (Fluke 124)

10 ns to 500 ns/div

real time sampling

1 s to 5 s/div

Single (real time)

1 s to 5 s/div

Roll (real time)

1s to 60 s/div

Sampling Rate (for both channels simultaneously)

Equivalent sampling (repetitive signals)

Real time sampling:

up to 1.25

GS/s

 

 

1 s to 5 ms/div

25

MS/s

10 ms to 60 s/div

5

MS/s

Time Base Accuracy

 

 

Equivalent sampling

±(0.4% +0.04 time/div)

Real time sampling

±(0.1% +0.04 time/div)

Glitch Detection

40 ns @ 20 ns to 5 ms/div

 

200 ns @ 10 ms to 60 s/div

 

Glitch detection is always active.

Horizontal Move

10 divisions

Trigger point can be positioned anywhere across the screen.

Trigger

Screen Update

Free Run, On Trigger

Source

A, B, EXT

EXTernal via optically isolated trigger probe ITP120

 

(optional accessory)

Sensitivity A and B (Fluke 123)

@ DC to 5 MHz

0.5 divisions or 5 mV

@ 25 MHz

1.5 divisions

@ 40 MHz

4 divisions

Sensitivity A and B (Fluke 124)

@ DC to 5 MHz

0.5 divisions or 5 mV

@ 40 MHz

1.5 divisions

@ 60 MHz

4 divisions

Slope

Positive, Negative

Video on A

interlaced video signals only

Modes

Lines, Line Select

Standards

PAL, NTSC, PAL+, SECAM

Polarity

Positive, Negative

Sensitivity

0.6 divisions sync.

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Contents Fluke 123/124 Limited Warranty & Limitation of Liability Service Centers Table of Contents Tips and Troubleshooting Fluke 123/124Maintaining the Test Tool Iii Manufacturer Declaration of ConformityStatement of Conformity Sample testsDescription Fluke Fluke 123/S Fluke 124/S Unpacking the Test Tool KitScopeMeter Test Tool Kit Safely Using the Test Tool Safely Using the Test Tool If Safety Features are Impaired SpecifiedMax. Floating Voltage Goal of this Chapter Powering the Test ToolScreen After Reset Resetting the Test ToolChanging Backlight Screen Areas Reading the ScreenBasic Navigation Making Selections in a MenuLooking at the Measurement Connections Input aInput B Screen After an Auto Set Displaying an Unknown Signal with Connect-and ViewMaking Measurements Measurement SetupHz and Vpp as Main Readings Freezing the Screen Holding a Stable ReadingTouch Hold OFF appears on Making a Relative Measurement Making Relative MeasurementsChanging the Graphic Representation on the Screen Selecting Auto/Manual RangesChanging the Time Base Changing the AmplitudePositioning the Waveform on the Screen Observe that the trigger identifier moves horizontallyOn the screen 11. Smoothing the Waveform Smoothing the Waveform12. Displaying the Envelope of a Waveform Displaying the Envelope of a WaveformStarting a TrendPlot function TrendPlotting a WaveformChanging the TrendPlot Reading Acquiring the WaveformTurning Off the TrendPlot Display Making a Single Acquisition14. Making a Single Acquisition 15. Recording Waveforms over Longer Period of Time Recording Slow Signals over a Long Period TimeReversing the Polarity of the Displayed Waveform Selecting AC-CouplingTriggering on a Waveform Setting Trigger Level and SlopeSelecting the Trigger Parameters 17. Isolated Triggering Isolated Triggering Triggering on Video Signals18. Measuring Video Signals Triggering on a Specific Video Line Saving Screens with Belonging Setups Saving and Recalling a Setup and a ScreenRecalling Screens and Setups Deleting Screens and Associated Setups Making Cursor Measurements Using Horizontal Cursors on a WaveformHighlight the left cursor Using Vertical Cursors on a Waveform21. Risetime Measurement with Cursors Making Rise Time MeasurementsProbe Attenuation Using the 101 Probe for High Frequency MeasurementsProbe Adjustment Using a Printer22. Connecting a Serial Printer Using The Test Tool Using FlukeView Software Using FlukeView Software24. Connecting a Computer Cleaning the Test Tool About this ChapterStoring the Test Tool Charging the Battery Pack Charging the Rechargeable Battery PackKeeping Batteries in Optimal Condition Replacing the Battery Pack Replacing and Disposing of the Rechargeable Battery PackAdjusting Scope Probes Using and Adjusting 101 Scope ProbesFluke 123/124 Parts and Accessories Standard AccessoriesCalibrating the Test Tool Ordering Code Maintaining the Test Tool SW90W Optional AccessoriesUsing the Tilt Stand Using the Tilt StandChanging the Information Language Contrast Changing the DisplayChanging Date and Time Setting the Power Down Timer Saving Battery LifeChanging the Auto Set Options Using Proper Grounding All connections to COM are at the samePotential Battery Testing of Fluke Accessories Solving Printing and Other Communication ErrorsSafety Characteristics Performance CharacteristicsIntroduction Environmental DataVertical Dual Input OscilloscopeFrequency Response Rise Time Input ImpedanceTrigger HorizontalAdvanced Scope Functions Display ModesAuto Set Input a and Input B Dual Input MeterDuty Cycle Duty PhasePulse Width Pulse Decibel dBContinuity Ohm ΩDiode Capacitance CAPAdvanced Meter Functions Cursor readout FlukeMiscellaneous PowerDisplay MemoryEnvironmental SafetyVoltage Probe BB120 and STL120Disturbance less than 10% of full scale = 3 V/m = 10 V/m VDC, VAC, VAC+DC Index Fluke 123/124 Index Temperature, Environmental

124, 123 specifications

The Fluke 123 and 124 are part of Fluke's innovative range of handheld oscilloscopes designed for electrical and industrial maintenance professionals. These devices combine oscilloscopes with digital multimeter capabilities, making them invaluable tools for troubleshooting and maintenance tasks.

One of the standout features of the Fluke 123 and 124 is their ability to perform real-time waveforms and measurements. Equipped with a 2.5-inch color display, these oscilloscopes provide clear and detailed visualizations of electrical signals. The Fluke 123 offers a bandwidth of 20 MHz, while the Fluke 124 takes it a step further with a bandwidth of 40 MHz, making them versatile tools for various electrical applications.

Both models feature a unique "VPE" (Voltage, Period, and Edge) measurement capability, allowing users to capture electrical signals with precision. This feature is particularly useful in identifying signal distortions and voltage fluctuations, which can lead to equipment failures. Additionally, these devices come with various trigger functions, enabling users to analyze intermittent faults and complex signal behaviors effectively.

Another important characteristic of the Fluke 123 and 124 is their robust design. Built to withstand harsh working environments, they boast an IP51 rating for protection against dust and moisture. The ergonomic design ensures comfort during prolonged use, while the easy-to-navigate interface simplifies its operation.

In terms of battery life, both models are equipped with long-lasting rechargeable batteries, ensuring that users can operate them for extended periods without interruption. Furthermore, they offer storage capabilities for waveform captures, which can be later analyzed or shared with colleagues, enhancing collaboration during troubleshooting efforts.

The Fluke 124 also includes advanced features such as a built-in recording function, allowing users to log measurements over time. This is especially useful for monitoring electrical parameters in industrial processes and systems. Moreover, both models support various probes, giving users the flexibility to tackle different measurement scenarios.

In conclusion, the Fluke 123 and 124 are essential tools for professionals in the electrical and industrial sectors. Their combination of oscilloscope and multimeter functionality, robust design, and advanced measurement capabilities make them ideal for effectively diagnosing and troubleshooting a wide range of electrical issues. Whether it’s for routine maintenance or complex troubleshooting, these devices provide the accuracy and reliability necessary for today's demanding environments.