Google+
Facebook
LinkedIn
Twitter
Digg
StumbleUpon
Home
Download PDF
Order CD-ROM
Order in Print
Home
>
Communication Systems Reference and Training Manuals
>
> Application of TV Test Equipment
Introduction to Application of TV Test Equipment - SS06020007
Lesson 1. Application of test Meters - SS06020008
Figure 1-1. Connection of an ammeter in a circuit - SS06020009
Figure 1-2. Connection of a voltmeter in a circuit - SS06020010
Figure 1-4. Typical ammeter circuit - SS06020011
Figure 1-5. Error in ammeter readings - SS06020012
Figure 1-6. Typical voltmeter circuit - SS06020013
Figure 1-7. Error in voltmeter readings - SS06020014
Figure 1-8. Typical ohmmeter circuit - SS06020015
Figure 1-10. A shunt ohmmeter - SS06020016
Learning Event 2: Determine When and How to Use Meters - SS06020017
Figure 1-11. Measuring current and voltage simultaneously - SS06020018
Learning Event 2: Determine When and How to Use Meters (Cont) - SS06020019
Figure 1-12. Determining value of unknown resistance of voltmeter - SS06020020
Learning Event 3: Determine Meter Sensitivity - SS06020021
Figure 1-13. Shunt resistor current range - SS06020022
Figure 1-15. Determining multipliers - SS06020023
Figure 1-16. Leading effect - SS06020024
Figure 1-17. Typical ohmmeter scale - SS06020025
Ohmmeter. - SS06020026
Learning Event 4: Determine Volts and Ohms Reading on the PSM-6 - SS06020027
Figure 1-18. ME-70 PSM-6 multimeter - SS06020028
Learning Event 5: Determine the Value of R in Function and Range Settings - SS06020029
Figure 1-19. 1000-ohms/volt simplified circuit - SS06020030
Figure 1-21. Meter damage - SS06020031
Learning Event 6: Determine the Value of R for AC Voltage Measurements
Figure 1-23. Resistance measurement circuit - SS06020033
Figure 1-24. Resistance measurement proper circuit conditions - SS06020034
Figure 1-25. Ohmmeter connection - SS06020035
Learning Event 8: Analyze Meter Operations - SS06020036
Learning Event 9: Match Ohmmeter Reading to Capacitor or Inductor Conditions - SS06020037
Figure 1-26. Forward-bias and reverse-bias diode - SS06020038
Figure 1-27. False ohmmeter reading - SS06020039
Check the condition of a transistor
Practice Exercise - SS06020041
Practice Exercise (Cont) - SS06020042
Lesson 2. Define the theory and application of an oscilloscope - SS06020043
Figure 2-1. Sinewave and sawtooth voltage waveforms - SS06020044
Figure 2-2. Block diagram of a typical cathode-ray oscilloscope - SS06020045
Figure 2-3. Checking waveforms - SS06020046
Learning Event 2: Describe the Various Controls on an Oscilloscope
Figure 2-4. Beam intensity affected by spot velocity - SS06020048
Figure 2-5a, b, and c. Apparent changes in waveform with changes in vertical to horizontal proportioning - SS06020049
The vertical and horizontal positioning controls
Figure 2-6. Sweep frequency equals test signal frequency - SS06020051
The synchronizing control
Learning Event 3: Describe the Characteristics of the 453 Oscilloscope - SS06020053
Figure 2-8. Type 453 oscilloscope - SS06020054
Five modes of operation
The trigger control
The AC-GND-DC switch
Practice Exercise - SS06020058
Lesson 3. Describe the Application of grating generator, dot bar generator, and video sweep marker generator - SS06020059
Figure 3-1. Video level measuring scales - SS06020060
Learning Event 2: Describe the Uses of a Signal Generator - SS06020061
Figure 3-2. Block diagram of audio or video signal generator - SS06020062
Radio frequency (RF) signal generators.
Learning Event 3: Determine the Different Modes of an Electronic Counter - SS06020064
Figure 3-5. Electronic counter frequency measurement, block diagram
Figure 3-6. Electronic counter period measurement, block diagram - SS06020066
Figure 3-7. Electronic counter ratio measurement, block diagram - SS06020067
Figure 3-9. Electronic counter prescaling method, block diagram - SS06020068
Figure 3-10. Electronic counter heterodyne method, block diagram - SS06020069
Figure 3-11. Electronic counter transfer oscillator method, block diagram - SS06020070
The automatic method - SS06020071
Learning Event 4: Describe the Uses of a Solid State Device Tester - SS06020072
Figure 3-15. Oscilloscope traces of diodes - SS06020073
Transistors
Testing transistor
Figure 3-20. Oscilloscope traces of distortion and gain in transistors. - SS06020076
Figure 3-21. Grating test pattern - SS06020077
Figure 3-22. Grating generator, block diagram
Figure 3-23. Dot test pattern - SS06020079
Figure 3-24. Camera amplifier bandpass check - SS06020080
Figure 3-25. Oscilloscope presentation of camera bandpass - SS06020081
The pulse cross display
Figure 3-26. Pulse cross display - SS06020083
Good resolution of a picture
Figure 3-27. Resolution chart - SS06020085
Making a geometric distortion check
Figure 3-28. Linearity chart - SS06020087
Learning Event 6: Describe the Purpose and Types of Color Test Equipment - SS06020088
Figure 3-29. Full field color bars - SS06020089
Figure 3-31. Split field red - SS06020090
Figure 3-33a, b, and c. Picture monitor, waveform monitor, and vectorscope displays of the standard EIA test pattern signal - SS06020091
The color bar generator test signals and their general applications.
Figure 3-34. Block diagram of a typical vector display oscilloscope - SS06020093
The purpose and outstanding feature of the grating generator - SS06020094
Practice Exercise - SS06020095
Practice Exercise (Cont) - SS06020096
Answers to Practice Exercise - SS06020097
Application of TV Test Equipment
Integrated Publishing, Inc. - A (SDVOSB) Service Disabled Veteran Owned Small Business
