The Principles of Television Studio Timing Systems
Introduction to Video Signal Timing
Lesson 1: The Basic Video Signal
Figure 1-2. Interlaced scanning
Figure 1-3. Horizontal sync pulses
Figure 1-5. Overall video signal
Learning Event 2: Describe How Studio Equipment is Interconnected by Use of Coaxial Cable
Figure 1-7. Loop-through connection
Figure 1-8. Example of rooting switcher system
Practice Exercise - ss060780015
Practice Exercise (Cont) - ss060780016
Lesson 2. Video Signal Timing
Learning Event 2: Describe the Equipment and Procedures Used for Timing Delays
Learning Event 2: Describe the Equipment and Procedures Used for Timing Delays (Cont)
Figure 2-1. Cumulative delay timing system
Figure 2-2. Timing requirements relative to time zero
Learning Event 3: Describe the Procedures Used, in Sequence, to Time a System in the SC/H Phase
Figure 2-3. NTSC standards
Figure 2-3. NTSC standards (continued)
Learning Event 4: Describe the Use of a Source-synchronizing Generator Timing System
Figure 2-4. V1 color frame pulse
Figure 2-5. Black reference sync generator
Practice Exercise - ss060780028
Practice Exercise (Cont) - ss060780029
Lesson 3. Modern Studio Timing Concepts
Figure 3-1. Three-studio system
Learning Event 2: Describe the Problems and Define Solutions of SC/H Phase
Figure 3-2. Amplitude limits
Fiogure 3-3. Part of color field one and detail A
Learning Event 2: Describe the Problems and Define Solutions of SC/H Phase (Cont)
Figure 3-4. Video time base error
Learning Event 3: Describe Components Used to Build and Measure an NSC/H-phased Plant
Figure 3-6. Inverted video phase and continuous subcarrier
Figure 3-9. Improperly-phased SC/H signal (70-phase error)
Figure 3-11. Leading edge of line 11, field 1, and SC
Practice Exercise - ss060780041
Answers to Practice Exercises - ss060780042
Introduction to Video Signal Timing
Lesson 1: The Basic Video Signal
Figure 1-2. Interlaced scanning
Figure 1-3. Horizontal sync pulses
Figure 1-5. Overall video signal
Learning Event 2: Describe How Studio Equipment is Interconnected by Use of Coaxial Cable
Figure 1-7. Loop-through connection
Figure 1-8. Example of rooting switcher system
Practice Exercise - ss060780015
Practice Exercise (Cont) - ss060780016
Lesson 2. Video Signal Timing
Learning Event 2: Describe the Equipment and Procedures Used for Timing Delays
Learning Event 2: Describe the Equipment and Procedures Used for Timing Delays (Cont)
Figure 2-1. Cumulative delay timing system
Figure 2-2. Timing requirements relative to time zero
Learning Event 3: Describe the Procedures Used, in Sequence, to Time a System in the SC/H Phase
Figure 2-3. NTSC standards
Figure 2-3. NTSC standards (continued)
Learning Event 4: Describe the Use of a Source-synchronizing Generator Timing System
Figure 2-4. V1 color frame pulse
Figure 2-5. Black reference sync generator
Practice Exercise - ss060780028
Practice Exercise (Cont) - ss060780029
Lesson 3. Modern Studio Timing Concepts
Figure 3-1. Three-studio system
Learning Event 2: Describe the Problems and Define Solutions of SC/H Phase
Figure 3-2. Amplitude limits
Fiogure 3-3. Part of color field one and detail A
Learning Event 2: Describe the Problems and Define Solutions of SC/H Phase (Cont)
Figure 3-4. Video time base error
Learning Event 3: Describe Components Used to Build and Measure an NSC/H-phased Plant
Figure 3-6. Inverted video phase and continuous subcarrier
Figure 3-9. Improperly-phased SC/H signal (70-phase error)
Figure 3-11. Leading edge of line 11, field 1, and SC
Practice Exercise - ss060780041
Answers to Practice Exercises - ss060780042
