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CHAPTER 4

CHAPTER 4. Electronic Instrumentation. RAVINDRA MORBEKAR. CATHODE RAY OSCILLOSCOPE (CRO). Contents. Introduction 4.1 Block diagram of the Cathode-Ray Oscilloscope 4.2 Cathode-Ray Tube 4.3 CRT control unit 4.4 vertical deflection system 4.4.1vertical amlifier

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CHAPTER 4

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  1. CHAPTER 4 Electronic Instrumentation RAVINDRA MORBEKAR CATHODE RAY OSCILLOSCOPE (CRO)

  2. Contents • Introduction • 4.1 Block diagram of the Cathode-Ray Oscilloscope • 4.2 Cathode-Ray Tube • 4.3 CRT control unit • 4.4 vertical deflection system • 4.4.1vertical amlifier • 4.5 Horizontal deflection system • 4.5.1 Basic Sweep Generators (Time Base) • 4.5.2 UJT Sweep Generator • 4.5.3 Trigger Sweep • 4.6 Trigger pulse circuit • 4.7 Delay Line

  3. 4.8 Passive voltage probes for CRO • 4.9 Input Attenuator • 4.9.1 Uncompensated Attenuator • 4.9.2 Switchable Input Attenuator • 4.10 Horizontal Amplifier • 4.11 Dual Trace CRO

  4. INTRODUCTION: • The cathode-ray oscilloscope (CRO) is a multipurpose display instrument used for the observation, measurement , and analysis of waveforms by plotting amplitude along y-axis and time along x-axis. • CRO is generally an x-y plotter; on a single screen it can display different signals applied to different channels. It can measure amplitude, frequencies and phase shift of various signals. • Many physical quantities like temperature, pressure and strain can be converted into electrical signals by the use of transducers, and the signals can be displayed on the CRO. • A moving luminous spot over the screen displays the signal. CROs are used to study waveforms, and other time-varying phenomena from very low to very high frequencies. • The central unit of the oscilloscope is the cathode-ray tube (CRT), and the remaining part of the CRO consists of the circuitry required to operate the cathode-ray tube.

  5. 4.1Block diagram of CRO

  6. Components of the CRO The CRO consists of the following: (i) CRT (ii) Vertical amplifier (iii) Delay line (iv) Horizontal amplifier (v) Time-base generator (vi) Triggering circuit (vii) Power supply

  7. 4.2 Cathode Ray Tube

  8. 4.2 Cathode Ray Tube

  9. 4.2 Cathode Ray Tube Electron Gun assembly Deflection Gun Assembly Fluroscent Gun Assembly Glass Envolope and Base of the tube

  10. Electron Gun: In the electron gun of the CRT, electrons are emitted, converted into a sharp beam and focused upon the fluorescent screen. The electron beam consists of an indirectly heated cathode, a control grid, an accelerating electrode and a focusing anode. The electrodes are connected to the base pins. The cathode emitting the electrons is surrounded by a control grid with a fine hole at its centre. The accelerated electron beam passes through the fine hole. The negative voltage at the control grid controls the flow of electrons in the electron beam, and consequently, the brightness of the spot on the CRO screen is controlled.

  11. 4.3 CRT Control Circuits

  12. CRT Control Unit Intensity Focus Astimatism Vertical Position and Horizontal Position

  13. 4.4 Vertical Deflection System CRO probe Input selector Input Attenuator Vertical Amlifier

  14. 4.4 Vertical Deflection System

  15. 4.4.1 Vertical Amlifier

  16. 4.5 Horizontal Deflection System Basic Sweep generator(Time Base) UJT Sweep Generator Triggered Sweep

  17. 4.5.1 Basic Sweep generator(Time Base)

  18. 4.5.2 UJT Sweep Generator

  19. 4.5.3 Triggered Sweep

  20. Block Diagram Of Trigger Circuit

  21. 4.6 Triggered Pulse Circuit

  22. 4.7 Delay line

  23. 4.7 Delay line

  24. 4.8 Passive Voltage Probe Under condition balance we have: R1×(Cin+C2)=Rin ×C1 R1 /w (Cin+C2) = Rin /w C1 R1 C1= Rin (Cin+C2)

  25. 4.9 Input Attenuator

  26. 4.9 Input Attenuator

  27. 4.9 Input Attenuator

  28. 4.9.1 Uncompesated Attenuator

  29. 4.9.2 Switched Input Attenuator

  30. 4.10 Horizontal Amplifier

  31. 4.11 Dual Trace CRO

  32. 4.11 Dual Trace CRO 1. A only 2. A and B chopped 3. A and B ulternate 4. A and B added 5. A Vs B (X-Y mode) 6. B only

  33. 4.11 Dual Trace CRO

  34. THANK YOU

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