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What are we going to cover?. System Alignment OverviewReading the Phase Trace.Our TF Friends: AveragingCoherence Magnitude ThresholdingSystem Alignments: Crossovers, Setting Delays, Subs, etc.What Ever Else You Want . . . .. System engineering is managing interactions. AcousticallyMultiple Drivers, Speakers, SystemsReflections/Acoustics.
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2. What are we going to cover? System Alignment Overview
Reading the Phase Trace.
Our TF Friends:
Averaging
Coherence
Magnitude Thresholding
System Alignments: Crossovers, Setting Delays, Subs, etc.
What Ever Else You Want . . . .
3. System engineering is managing interactions Acoustically
Multiple Drivers, Speakers, Systems
Reflections/Acoustics
4. Signal Addition Jean Baptiste Joseph Fourier
All complex waves are composed of a combination of simple sine waves of varying amplitudes and frequencies
5. The Big Question
7. System Engineering Key Concept: Interactions are greatest where signals are equal level - Crossover Points
8. System Engineering Key Concept: Interactions are greatest where signals are equal level - Crossover Points
Phase determines the interaction
Phase Shift (Filters)?
Polarity (Wiring)?
Delay (Time Alignment)?
9. Arrays
10. Arrays:Point Destination
11. Arrays: Planer
12. Arrays: Point Source
13. Reading the Phase TraceIts About Time
14. Math You Need: T=1/
&
=1/T
15. Our Friend the Comb FilterorWhere Did All That Ripple Come From?
17.
20. Reading the Phase Trace
21. Smaart Measurement Delay
22. Phase Trace Slope Shows Delay
23. Phase Trace Slope Shows Delay
24. Phase Trace Slope Shows Delay
31. Polarity Reversal
32. System Alignment
33. An analyzer is only a tool: YOU make the decisions You decide what to measure.
You decide which measurements to use.
You decide what the resulting data means.
And you decide what to do about it.
34. Any idiot can get squiggly line to appear on the Smaart screen.
35. To use Smaart for system alignment, we must first: Verify that we are making our measurements properly.
Verify that it is an appropriate measurement for our purpose.
36. Dual-Channel Measurement Issues: Propagation Time
Linearity - Does response change with level?
Noise
Averaging & Thresholding
Coherence
37. Coherence Given as a value between 0 to 1 (0% - 100%)?
100% = Highest Coherence = great data
0% = Lowest Coherence = bogus data
38. Coherence Three causes of bad coherence:
Bad measurement
Check measurement delay
Check measurement signals
Check measurement set-up
Check equipment
39. Coherence Three causes of bad coherence:
Bad measurement
Poor Signal to Noise Ratio
Turn up measurement level
Turn down noise
40. Coherence Three causes of bad coherence:
Bad measurement
Poor Signal to Noise Ratio
Poor Direct to Reverb Ratio
Move mic closer to source
Move source closer to mic
Damp reverberance
41. You Are Responsible For Checking Your Measurement Ask yourself, Does this make sense?
If it doesnt, check your measurement
You are responsible for checking the validity of your measurement Smaart is responsible for crunching numbers and drawing pretty lines.
42. Transfer Function ModeRecommended Settings
43. Art&System Engineering
44. Art & Engineering Art is the goal
Engineering makes the goal possible
45. Art is the goal. Art is a subjective experience.
If you dont know where youre going, how will you know when you get there?
The system needs to fit the goal
Your artistic goals set your priorities
One size does not fit all.
Make the right compromises
46. System Engineering:The Alignment Process Eliminate technical problems
Fix wiring errors
Patching errors
Polarity reversals
Grounding/Hum problems
Detect / replace bad components
Blown drivers
Bad amplifier channels
Faulty electronics
47. Eliminate technical problems
Increase efficiency
Gain structure
Better dynamic range
Good addition through crossovers
Maximize power-bandwidth
Proper limiter settings / system protection System Engineering:The Alignment Process
48. Eliminate technical problems
Increase efficiency
Increase consistency
Consistent in Level and Tonality
Everyone gets the same show
Mix translates well to audience
System responds to equalization System Engineering:The Alignment Process
49. Eliminate technical problems
Increase efficiency
Increase consistency
Adapt to changing environments
Changes in temperature and humidity
Changes in acoustics with addition of audience
Detection of problems during performance System Engineering:The Alignment Process
50. Eliminate technical problems
Increase efficiency
Increase consistency
Adapt to changing environments
Give objective feedback/reinforcement
Quantify what youre hearing
Peaks vs dips
True center frequency and bandwidth
Help for tired ears System Engineering:The Alignment Process
51. System Alignment
52. Systems From single devices to complex combinations of equipment and acoustical environments:
Loudspeakers (in an acoustic environment)?
Equalizers
Consoles
Microphones
Complete Sound Systems
53. Systems Total system response is the sum of responses of the individual system elements
Links in a chain - weakest link
Align from Individual Combined Systems
54. System Engineering Key Concept: Interactions are greatest where signals are equal level - Crossover Points
55. System Engineering Key Concept: Interactions are greatest where signals are equal level - Crossover Points
Phase determines the interaction
Phase Shift (Filters)?
Polarity (Wiring)?
Delay (Time Alignment)?
56. Our goal is to fix our systemnot the trace on the screen.
57. Key Concept: Solve problem at source
The closer to the source . . . the more effective the solution.
58. System Engineering Key Concepts: Use the right tool
Every item in your tool box is a hammer . . . except your wood chisels, theyre screwdrivers.
59. Tools in Order of Use Acoustic Design / Treatment
Equipment Choice / Maintenance
System Design - Design to align
60. Tools in Order of Use Acoustic Design / Treatment
Equipment Choice / Maintenance
System Design - Design to align
Level
Delay
61. Tools in Order of Use Acoustic Design / Treatment
Equipment Choice / Maintenance
System Design - Design to align
Level
Delay
And lastly . . . EQ
62. Problem
63. Solution(s)?
64. Setting Delays
65. Setting Delays
66. 1 ms : 1 kHz : 1 ft
67. Example: Delay vs. Physical Positioning
68. Example: Delay vs. Physical Positioning
69. System engineering . . .Is optimizing your compromises Its all give and take.
70. System Engineering&The Serenity Prayer . . . Grant me the SerenityTo accept the things I cannot change
71. System Example:
