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Bedroom music production, gaming and random shit

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sound design

Bedroom Studio Tips Revisited

Three years ago I posted a list of some music production methods and tips on my blog that still gets some attention. Now, here’s some other good read (I hope).

Moreover, you really should check out the most popular post on this blog about the best tips on music production that I can think of.

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Tips for the monotribe

The Korg monotribe is a desktop analog monophonic synthesizer with an additional three preset drums sounds. Its sound is warm and rich but quite clicky and noisy – although I think I prefer this timbre over the newer volca series. The monotribe was released in 2011 and is now discontinued.

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How to Silent the VCO When Processing External Audio

The synth has an audio in port to feed external audio into 12 dB/oct lowpass filter (which uses the same circuit as the classic MS-10/MS-20). The crux is that the synth engine must be triggered to run the filter, meaning it’s not possible to process external audio solo (without being modded). But the LFO can modulate the oscillator so that it becomes nearly inaudible. The workaround below is not exactly neat, but should do the trick. On the monotribe, do as follows:

  1. Press PLAY button and then REC.
  2. Set RANGE select switch to WIDE and press the highest key on the RIBBON keyboard during the whole sequence.
  3. Set EG to GATE.
  4. Switch TARGET to VCO.
  5. Set MODE to 1SHOT.
  6. Set WAVE to SQUARE WAVE.
  7. Set LFO RATE knob to minimum speed and INT. to maximum depth.
  8. Select TRIANGLE WAVE on modulation waveform WAVE.

How to CV Control the monotribe with the Analog Keys’ Keyboard

OS version 2.11 allows the SYNC IN connection to be used as a pitch CV/gate input. This makes it possible to control the monotribe with an external keyboard or sequencer (which is great because the ribbon keyboard is almost impossible to play). There are many ways to do this, but the theory is the same: send CV and gate via a TRRS 4-pole mini jack – where gate is tip and CV the second ring.

Now I got an Elektron Analog Keys which can send both tip and ring from the same CV output, but to do that to the monotribe I’d need a special cable (sort of TRS to TRRS) and I haven’t soldered any yet. So until then, I hacked a workable cable with many different pieces I found laying around (e.g. the composite video cable was provided with a TV I acquired last year). Again, you can build this patch cable more streamlined, but here’s my solution:

  1. Connect a composite video cable to SYNC IN on the monotribe and connect a RCA connector, white male to white female and red male to yellow female. On the other end, connect a pair of adaptors, RCA female to mono 3.5 mm mini jack male and then another pair of adaptors, 3.5 mm mini jack female to 6.3 mm jack male and plug white in CV AB and red/yellow in CV CD on Analog Keys.
  2. While this setup only uses the tips, and demands both CV ports on Analog Keys, set CV A to Gate, V-Trig, 5.0 V and CV C to Pitch V/oct, C 3, 1.000 V, C 6, 4.000 V. (CV B and D are not used.)
  3. Download and install System Updater 2.11.
  4. Prepare the monotribe as described in the documentation that came with the download package. Activate CV/GATE mode, set the Pitch CV curve to V/oct and GATE polarity to high.

P.S. It’s also possible to create a feedback loop by feeding the headphone output back into the monotribe’s audio in. This will render a mild thickening, and if you have some kind of attenuator on the feedback signal path, you can dial in some overdrive too.

CV on Analog Four

If you got an Elektron Analog Four (or Analog Keys) and devices that can be operated via CV (control voltage) and Gate trigger connections, here’s how to do it, e.g. connect Moog Minitaur and Arturia MiniBrute to sequence, automate and processes them on Analog Four.

1. Connect a stereo ¼” (female) to CV Output A and B on Analog Four, and dual mono ¼” to Pitch CV (tip) and Gate (ring) of the Minitaur.
2. Connect Audio Out on Minitaur to Audio Input Left on Analog Four.
3. On Analog Four, select track Trk 1.
4. Select Osc 1 > IN L.
5. Pass all frequencies on 2-pole ladder filter: Filters > FRQ 127 and RES 0, and 2-pole multi mode filter: Filters > HP2 > FRQ 0 and RES 0.
6. Set the envelope on Amp > REL INF (if you don’t plan to use the Osc 2, sub oscillators or filter self-oscillation of the Analog Four).
7. Select track CV.
8. Set CV > CV A > TRK > TR1 and CV > CV B > TRK > TR1.
9. Select CV A configuration page, and set:

TYPE > PITCH V/oct
NOTE 1 > C 3
VOLTAGE 1 > 1.448 V
NOTE 2 > C 6
Voltage 1 > 4.634 V

10. Select CV B configuration page, and set:

TYPE > GATE
POLARITY > V-TRIG
LEVEL > 5.0 V

11. Connect a stereo ¼” (female) to CV Output C and D on Analog Four, and dual mono ¼” to Pitch (to VCO) (tip) and Gate In (ring) of the MiniBrute.
12. Connect Master Out on MiniBrute to Audio Input Right on Analog Four.
13. On Analog Four, select track Trk 2.
14. Select Osc 1 > IN R.
15. Pass all frequencies on 2-pole ladder filter: Filters > FRQ 127 and RES 0, and 2-pole multi mode filter: Filters > HP2 > FRQ 0 and RES 0.
16. Set the envelope on Amp > REL INF (if you don’t plan to use the Osc 2, sub oscillators or filter self-oscillation of the Analog Four).
17. Select track CV.
18. Set CV > CV C > TRK > TR2 and CV > CV D > TRK > TR2.
19. Select CV A configuration page, and set:

TYPE > PITCH V/oct
NOTE 1 > C 5
VOLTAGE 1 > 1.004 V
NOTE 2 > C 8
Voltage 1 > 4.004 V

20. Select CV D configuration page, and set:

TYPE > GATE
POLARITY > V-TRIG
LEVEL > 5.0 V

Set up the old king SH-101

If you got a Roland SH-101, the set it up like this:

1. Connect a stereo ¼” (female) to CV Output A and B on Analog Four, and dual mono ¼” to CV In (tip) and Gate In (ring) of the SH-101.
2. Connect Output on SH-101 to Audio Input Left on Analog Four.
3. On Analog Four, select track Trk 1.
4. Select Osc 1 > IN L.
5. Pass all frequencies on 2-pole ladder filter: Filters > FRQ 127 and RES 0, and 2-pole multi mode filter: Filters > HP2 > FRQ 0 and RES 0.
6. Set the envelope on Amp > REL INF (if you don’t plan to use the Osc 2, sub oscillators or filter self-oscillation of the Analog Four).
7. Select track CV.
8. Set CV > CV A > TRK > TR1 and CV > CV B > TRK > TR1.
9. Select CV A configuration page, and set:

TYPE > PITCH V/oct
NOTE 1 > C 3
VOLTAGE 1 > 0.986 V
NOTE 2 > C 6
Voltage 1 > 3.956 V

10. Select CV B configuration page, and set:

TYPE > GATE
POLARITY > V-TRIG
LEVEL > 5.0 V

Note that the voltage levels are roughly set. Also bear in mind that it seems that some split cables use left for tip and right for ring, while others directly contrary.

Tune Other Gear

If you got other gear, then connect a tuner to the audio output, select CV A configuration page and start with:

TYPE > PITCH V/oct
NOTE 1 > C 3
VOLTAGE 1 > 1.000 V
NOTE 2 > C 6
Voltage 1 > 4.000 V

Then just tweak the voltage settings – 1 V per octave in the mid range – according to the tuner, this usually works.

Lastly, don’t forget to check all four voices on the KIT > POLY CONFIG > VOICES to use Analog Four as an analog polysynth while using the two external sound sources of your choice.

P.S. I totally missed this, but this blog, Holy Bot, turns four years today, yay!

Translate Sub onto Smaller Speakers

There’s a few things you can do to make your bass sound on smaller speakers like laptops, tablets and cellphones. First you need fundamental and harmonic content on your bass. The fundamental frequency is the base foundation note that represents the pitch that is played and the harmonics are the following frequencies that support the fundamental. In short, it’s the higher frequency harmonics that allow for the sub to cut through the mix.

One idea is to create higher frequency harmonics. The harmonics should be in unison with the fundamental frequency, but don’t contain it. (The harmonics trick your brain into hearing lower frequencies that aren’t really there.) Add a touch of harmonic saturation, drive a little warmth, a little fuzz to help that sub cut through. The harmonic distortion, adds high-frequency information to reveal presence on systems with poor bass response.

Also try to copy the bass to a parallell channel, bitcrush the higher harmonics and cut all lows and mix with the original bass.

If you’re beefing up your main bass by layering a separate, low-passed sine wave at the octave below, perhaps try square (or triangle) to add some subtle higher frequencies that allow the sub bass to translate better than a pure sine wave.

You can also try to EQ the bass. Try to boost the harmonic multiples of the fundamental frequency to hear some definition from the bass sound. And boosting above 300 Hz will bring out the bass’s unique timbral character. Actually, try around 1 kHz (but add a low-pass filter at around 2-3 kHz).

Use high-pass filtering (to clear the low-end frequencies and make room for the intended bass sound), and you can also side-chain your sub bass to keep it from fighting with the kick drum.

When it comes to kick drums you can add a small click noise to help it translate onto smaller speakers.

P.S. There are also plugins that use psycho-acoustics to calculate precise harmonics that are related to the fundamental tones of bass.

New keyboard stand, four tiers, compact living. Early December 2016.

Headroom for MP3

I’ve written about the importance of headroom when submitting your track to a professional mastering engineer, but you should also pay attention to headroom when you do this on your own and when you encode MP3s.

Okay so when the track is mastered at 0 dB (the maximum level for digital audio files) many converters and encoders are prone to clip. Lossy compression formats utilize psychoacoustic models to remove audio information, and by doing so introduces an approximation error, a noise which can increase peak levels and cause clipping in the audio signal – even if the uncompressed source audio file appears to peak under 0 dB.

In Practice

For example SoundCloud transcodes uploaded audio to 128 Kbps MP3 for streaming. In this scenario, use a true peak limiter to ensure the right margin depending on the source material. A margin of -1.0 or -1.5 dBFS should work for no distortion (sometimes -0.3, -0.5 or -0.7 would work, but it’s safer to have greater margin).

Envelope, Basics

In sound design, an ADSR envelope modulates the sound and sculpts its timbre thus changing its sonic character. ADSR is an acronym that stands for its four stages Attack, Decay, Sustain and Release. The contour of the ADSR envelope is specified by three time-parameters and one level-parameter like this:

(A) Attack time is the time it takes for the signal to go from minimum to maximum when the key is pressed.
(D) Decay time is the time for the signal to drop to the designated sustain level (if it is not set to maximum, then decay time has no meaning).
(S) Sustain level is the level of the signal while the key is hold.
® Release time is the time taken for the signal to fade out after the key is released.

Note that the signal will jump to the release stage when the key is released no matter where it is in the envelope. Hence if a short note is played, the signal might not had time to rise to the maximum in the envelope, therefore release will be relative to the level reached in the envelope.

Envelopes can be applied not only to volume, but also to filter frequencies or oscillator pitches.

To correctly tune the pitch envelope modulation range:

  1. First turn the modulation/envelope amount knob down.
  2. Press the key and set the desired minimum with the pitch knob (offset for modulation).
  3. Turn sustain level all the way up, press the key and let the signal reach maximum.
  4. While on sustain, dial the modulation knob to the maximum pitch.

About cutoff modulation, the cutoff knob is the starting point of the modulation, that means that the sound will not be altered if cutoff is set to maximum.

Moreover, it is sometimes possible to inverted the envelope and reverse its behavior.

Envelopes, Basics

In sound design, an ADSR envelope modulates the sound and sculpts its timbre thus changing its sonic character. ADSR is an acronym that stands for its four stages Attack, Decay, Sustain and Release. The contour of the ADSR envelope is specified by three time-parameters and one level-parameter like this:

(A) Attack time is the time it takes for the signal to go from minimum to maximum when the key is pressed.
(D) Decay time is the time for the signal to drop to the designated sustain level (if it is not set to maximum, then decay time has no meaning).
(S) Sustain level is the level of the signal while the key is hold.
® Release time is the time taken for the signal to fade out after the key is released.

Note that the signal will jump to the release stage when the key is released no matter where it is in the envelope. Hence if a short note is played, the signal might not had time to rise to the maximum in the envelope, therefore release will be relative to the level reached in the envelope.

Envelopes can be applied not only to volume, but also to filter frequencies or oscillator pitches.

To correctly tune the pitch envelope modulation range:

  1. First turn the modulation/envelope amount knob down.
  2. Press the key and set the desired minimum with the pitch knob (offset for modulation).
  3. Turn sustain level all the way up, press the key and let the signal reach maximum.
  4. While on sustain, dial the modulation knob to the maximum pitch.

About cutoff modulation, the cutoff knob is the starting point of the modulation, that means that the sound will not be altered if cutoff is set to maximum.

Moreover, it is sometimes possible to inverted the envelope and reverse its behavior.

Here’s my setup as of today. A bit crowded.

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