crt ppt
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power point presentation on croTRANSCRIPT
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Electrical Measuring InstrumentsChapter 5: OscilloscopesElectrical Systems Series 724.1
720724.1-05PP
PowerPoint
Masters
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724.1.05-01
Fig. 5-1. Oscilloscope
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724.1.05-02
Fig. 5-2. Difference between an analog and a digital oscilloscope
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724.1.05-03
Fig. 5-3. Electron beam makes the screen glow
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724.1.05-04
Fig. 5-4. The effects caused by the vertical andhorizontal deflection plates
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724.1.05-05
Fig. 5-5. Plot of voltage levels in a horizontal time-based sweep
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724.1.05-06
Fig. 5-6. An “ideal” sine wave graph
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724.1.05-07
Fig. 5-7. Block diagram showing vertical and horizontalcircuits in an analog oscilloscope
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724.1.05-08
Fig. 5-8. A graticule
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724.1.05-09
Fig. 5-9. Graphs of sweep time adjusted toequal one cycle of the input signal
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724.1.05-10
Fig. 5-10. Drifting display created when sweeptime equals period of input
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724.1.05-11
Fig. 5-11. Graph analyzing a typical triggered sweep
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724.1.05-12
Fig. 5-12. Hand-held digital oscilloscope
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724.1.05-13
Fig. 5-13. A dual-beam oscilloscope and adual-trace display
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724.1.05-14
Fig. 5-14. Dual traces produced by the chop method
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724.1.05-15
Fig. 5-15. Block diagram of a dual-trace oscilloscope thatuses the chop method to produce two traces
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724.1.05-16
Fig. 5-16. Segments of two input signals displayedin three frames by the chop method
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724.1.05-17
Fig. 5-17. Signal samplings
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724.1.05-18
Fig. 5-18. Control of waveform height
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724.1.05-19
Fig. 5-19. Control of the time base (sweep speed)
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724.1.05-20
Fig. 5-20. Oscilloscope probe and accessories
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724.1.05-21
Fig. 5-21. How to measure rise time, fall time, and pulse width
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724.1.05-22
Fig. 5-22. Two sine waves with same frequency ported to X and Yaxes, with selected phase shifts shown
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724.1.05-23
Fig. 5-23. Critical dimensions for calculatingphase angle
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724.1.05-24
Fig. 5-24. Screen patterns formed by in-phase andout-of-phase combinations of sine waves
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724.1.05-25
Fig. 5-25. Clean sine wave and “noisy” one
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724.1.05-26
Fig. 5-26. A distorted sine wave
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724.1.05-27
Fig. 5-27. Combined harmonics, creating a complex waveform
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724.1.05-28
Fig. 5-28. Simulated screen of a harmonics analyzer
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724.1.05-29
Fig. 5-29. A hand-held harmonics analyzer