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SpinCAD Designer
  • Welcome to SpinCAD Designer!
  • Tutorials
    • Getting Started
    • The User Interface
    • Creating a patch
  • Menus
    • File
    • Edit
    • Loop
  • Blocks
    • I/O Mix
    • Wave Shaper
    • Dynamics
      • RMS Lim/Exp
    • Controls
      • Introduction to control signals and blocks
      • Two-stage
      • Invert, Power, Two-Stage, and Vee
      • Ratio
      • Scale/Offset
      • Clip and Tremolizer
      • Envelope
      • Slicer and Smoother
      • Tap Tempo
    • Pitch
      • The Pitch Offset Blocks
  • Design Concepts
    • Basic LFOs in SpinCAD Designer
    • Deep dive into the Three-Tap Delay block
      • Deep dive into the ThreeTap Delay, part 1
      • Deep dive into the ThreeTap delay, part 2
      • Deep dive into the ThreeTap Delay, part 3
    • Analyzing the Spin auto-wah peak detector
      • The Spin auto-wah peak detector, part I
      • The Spin auto-wah peak detector, part II
      • The Spin auto-wah peak detector, part III
    • Intro to the "Dattorro" reverb structure
    • Analyzing the Spin Mini Reverb
      • Analyzing the Spin "Mini Reverb" part 1
      • Analyzing the Spin "Mini Reverb" part 2
      • Analyzing the Spin "Mini Reverb" part 3
  • Patches
    • Making a tremolo patch
    • Making a vibrato/chorus patch
    • Making a pitch shifting delay
    • Multi-head "drum/tape" delay
    • 4-phase LFO driven mixer
  • Tips and Tricks
    • Editing tips for fast patch creation
    • Programming the FV-1 EEPROM with your code
    • Optimizing FV-1 assembly code generated by SpinCAD Designer
  • Beneath the Hood
    • How SpinCAD Builder works
    • Analyzing a simple SpinCAD Builder file
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Analyzing the Spin auto-wah peak detector

PreviousDeep dive into the ThreeTap Delay, part 3NextThe Spin auto-wah peak detector, part I

Last updated 1 year ago

The Spin auto-wah peak detector, part I
The Spin auto-wah peak detector, part II
The Spin auto-wah peak detector, part III