- How to Make an Insane ‘Plucky’ Trance Lead
- How to Use the Maize Sampler to Create a Layered Instrument
- How to Design a Background Drone Sound
- Designing a Synthetic Machine with Absynth
- How to Recreate Lil’ Wayne’s Lollipop in Reason 4
- Creating Sample & Hold Synth Effects in Propellerhead Reason
- Creating a Funky Synthbass Sound in FL Studio
- How to Create a Wide Synth String Patch
- Creating Rich Soundscapes with Organic & Electronic Sounds
- Constructing Simple Vehicle Sounds
- How to Design Reeses and Hoovers
- How to Create an Evolving Pad Sound, Using Multiple Modulations
- Quick Tip: How to Create a Jagged Little Flanger Effect
- How to make a Reverse Glass Effect
- Quick Tip: Creating a Radiohead-like Tremolo Piano
- How to Create a Morphing Multi FX With the Audio Effect Rack in Ableton Live
- How to Create Organic Ambient Instruments in Ableton Live
- A Guide to Spicing Up a Sweep Noise in Propellerhead Reason
- How to Create a 303 Synth Sound in FL Studio
- How to Make the Synth Sound from Lady Gaga’s “Just Dance”
- Quick Tip: How to Emulate a Theremin Sound in Ableton Live
- Quick Tip: How to Create a Dubstep Wobble Bass with Subtractor
- How to Create a ‘SuperSaw’ Combinator in Reason
- Quick Tip: Create a Pad From Scratch in Cakewalk z3ta
- Essential Synthesis Part 3: Synth Bass
- Programming Essential Subtractive Synth Patches – Audio Premium
- Synthesize a Mini Pluck with Sylenth1
- Synthesising Sci-Fi Vehicle SFX – Creating Tones
- Quick Tip: How to Create the Lead Sound from Ke$ha’s “Tik Tok”
- Sound Design: Growling Pad
- Quick Tip: Synthesising Sci-Fi Vehicle SFX – Sound Modulation Control
- Sound Design: Digital Voice
- Quick Tip: Create a Percussive Filter in Reason
- Synthesising Sci-Fi Vehicle SFX – Enhancing the Character
- Sound Design: Falling Forever (The Shepard Tone)
Are you familiar with the sensation of falling or a heavy weighted feeling? Ever wonder how to create this sensation audibly but make it last forever? Well if you do then you will learn how to create this really cool effect called the Shepard Tone.
Named after Roger Shepard, this cool effect relies heavily on psychoacoustics and utilizes the harmonic series in a rather strange way. If you have never heard this effect before then I strongly urge you to sit down the first time you hear it as some people may get slightly nauseous hearing it. This effect is like the audio equivalent of a barbers pole. If you are ready to jump into infinity then lets go!
Check this ;)
Step 1: Understanding the Shepard ToneBefore you can really apply this effect you must understand how it works. The Shepard Tone fundamentally is based on sine waves. You start with a Sine wave say on note A4 which sits at 440 Hz and you have it glissando down to A3 at 220 Hz over a period of time. During the same time you have another glissando starting on A5 at 880 Hz and dropping down to 440 Hz.
If you were to repeat this cycle the glissando starting on 440 Hz would pick up where the glissando starting on 880 Hz left off. This creates the continued sensation of a falling pitch. However, if you repeat the cycle then you will quickly jump back to 880 Hz and will noticably hear it. So what do we do? In order to achieve a smooth and seemingly endless cycle we need to fade in the upper most glissando and fade out the lower most.
Here is an example with the jump back to the top at the repeat so you can better grasp the concept…
Step 2: Setting Up NotesTo create the Shepard Tone we will first need to place the notes into our DAW. First create a region/pattern/block that starts on A5 and glissandos down to A4 over a period of 8 bars. Next copy this region/pattern/block and move both the starting pitch and the glissando down a octave so it starts on A4 and ends on A3. Repeat this process two more times so that your lowest glissando starts on A2 and ends on A1.
Very big note:
Make sure you can independently control the volume of each of the regions/patterns/blocks so that any volume automation does not affect the other regions/patterns/blocks. If you need to make multiple instances of your synthesizer to do so then so be it.
Next make sure each glissando is set to a sine wave patch. The point of using a sine wave patch is because it is so pure that lining up the harmonics on the repeat is much easier; since sine waves lack harmonics. Here is an what you should have so far…
Step 3: Volume AutomationWhile having these octave glissandos is cool and all, it doesn’t give us the sense of a falling pitch because it is all falling evenly. To trick our brains into following the “center” pitch we need to fade the upper and lower most glissandos.
Start by making a volume automation clip for the top most glissando (the A5 gliss). Fade the volume from 0 to 100% all the way across the 8 bars we have the glissando happening. This way we will not hear the higher notes of the glissando but by the time we can audibly hear it, it will be somewhere closer to A4 before finally arriving at full volume at A4.
Here is what we should have now. (Note the fade in is so it is a little more bearable to listen to.)
Step 4: Looping and Adding SpaceWith our Shepard Tone created we need to loop it in order to get the full effect. Either duplicate all of your regions/patterns/blocks along with your automation or set a loop marker in your DAW so it goes indefinitely.
Next we need to make it sound a little more creepy to help get the full effect across. This is all a matter of preference but I recommend placing a either a flanger or a chorusing effect on the whole thing to add just a little movement and thicken it up. Afterwards a healthy amount of reverb to help smear the audio spectrum works very well with this effect.
Here is what I have come with…
Step 5: Final ThoughtsYou may have noticed a slight pop in the middle of the Shepard Tone, allow me to explain. This is a mathematically based effect that requires precision to sound flawless; part of this is that the sine waves must stay constant on the loop points. If a sine wave starts at null point (zero) then it must also end on a null point in order loop without any pops. However since we have sine waves moving at frequencies of 880, 440, 220, and 110, each one will have a different looping point. While we can mathematically line these up, doing so in a DAW is much harder of tempo and meter. If the small pop is extremely irritating then you are in luck!
There are plugins that will create the glissando Shepard Tone for you but you will be confined to pure tone waves. For those of you content with the DAW version then you can play around with more complicated waveforms to see how well they align and get different sounds.
One final note: Why should we have to use a glissando going down or a glissando at all? Try recreating this effect with the glissando going up an octave for a never ending lifting feeling or use rhythms and individual notes to align it to a beat. In addition, you do not need to strictly use a chromatic scale as any scale can work as long as it is consistent.