217 Royalty-Free Audio Tracks for "Electronic Waves"

Doepfer a-118 white noise through an a-108 vcf8 using the band-pass out. Audio level: 4. 5emphasis/resonance: 9frequency: around 12khz. Recorded using a rme babyface and cubase 6. 5. I tried to cut seemless loops. It's always nice to hear what projects you use these sounds for. Let me know. ;-).

A lot of texture! yeah! even analog modular synths can create texture. . . Well not much of a surprise but i'm getting somewhere. . . !. Have to note what i have done. 1. Modulating a full wave rectifier at audio rate. Fixed modulating frequency. 2. I mix my the output of my two osc and clockmy clock divider with that and take /2 to mixer. Reverb is space hole on my zoom ms-70cdr.

Algorithmic modular music program (man2_2019). The computer is my analog modular synth. 01 to 08 are clock sequencer steps. 00 rem -------------- man2_2019 --------------00 rem vco_1 sin through wave folder00 rem vco_2 tri00 rem vco_3 sqr through vcf00 rem (vco_1, vco_2, vco_3) tuned to 130 hz00 rem rnd pitch cv from attenuated tri lfo00 rem rnd cv from tri lfo00 rem main clock (lfo_1) start frq 10 hz00 rem reset is tricky, trg -> short env -> reset00 rem (noise) is noise through a lfo sweeped vcf00 rem ---------------------------------------01 rnd -> vca cv in (vco_1)02 if (lfo_2 = high) then goto 01 [= reset]03 rnd frq lfo_1 (run speed)04 rnd fm mod (vco_1) with audio from (vco_2)05 rnd -> vca cv in (vco_1, vco_2, vco_3): invert cv -> vca cv in (noise)06 trg long env (vco_2): rnd pitch @ eoc (vco_2)07 trg long env (vco_3): rnd pitch @ eoc (vco_3)08 rnd -> wave folder (vco_1): rnd -> vcf (vco_3)10 goto 01.

Algorithmic modular music program (man2_2019). The computer is my analog modular synth. 01 to 08 are clock sequencer steps. 00 rem -------------- man2_2019 --------------00 rem vco_1 sin through wave folder00 rem vco_2 tri00 rem vco_3 sqr through vcf00 rem (vco_1, vco_2, vco_3) tuned to 130 hz00 rem rnd pitch cv from attenuated tri lfo00 rem rnd cv from tri lfo00 rem main clock (lfo_1) start frq 10 hz00 rem reset is tricky, trg -> short env -> reset00 rem (noise) is noise through a lfo sweeped vcf00 rem ---------------------------------------01 rnd -> vca cv in (vco_1)02 if (lfo_2 = high) then goto 01 [= reset]03 rnd frq lfo_1 (run speed)04 rnd fm mod (vco_1) with audio from (vco_2)05 rnd -> vca cv in (vco_1, vco_2, vco_3): invert cv -> vca cv in (noise)06 trg long env (vco_2): rnd pitch @ eoc (vco_2)07 trg long env (vco_3): rnd pitch @ eoc (vco_3)08 rnd -> wave folder (vco_1): rnd -> vcf (vco_3)10 goto 01.

Cptnal's comment on muffwiggler was an big aha moment. He wrote "you could patch the output of one s&h into the input of the next and get yourself a 12-step shift register. " well i don't have 12 s/h. I have 10. . . I would need a lot of sequenced gates to build that shift register. . . In this patch i use 4 s/h. (s/h or s&h is sample and hold. ).

I wanted to make a very gentle wakeup alarm for my android phone. It's a 25-minute long fade in of a pure 3-khz tone. Created with audacity. I encoded this to ogg vorbis for personal use, but i'm sure you can do this better for yourself (maybe you'll prefer other format), so here you have a quality flac file for source.

Sound created and generated with the software "bitmaps & waves" version 3. 10. 1. I'm totally in love with this software, it let's you take an image, and "convert" it into a lovely sound. This was the best one i got so far, the image used can be found here: http://cdn3. Pitchfork. Com/advance/art/535/2172873c. Jpgand the software can be downloaded here: http://victorx. Eu/bitmapplayer. Htm.

Algorithmic drone music program. The computer is my analog modular synth. 01 to 08 are clock sequencer steps. 00 rem osc_1 - wave shaped sin oscillator (osc) - tuned to 130hz00 rem osc_2 - clean sin from oscillator - tuned to 130hz00 rem osc_3 - sqr from oscillator through filter - osc tuned to 130hz00 rem clk speed = 0. 5 hz00 rem line 01 each of the 3 vcas gets an unique cv value ([gate] -> [3 s/h] -> [3 vca])00 rem ---------------------------------------------------01 sample values for vca (cv in) x 3 (osc_1, osc_2, osc_3)02 sample frq for osc_103 sample frq for osc_204 sample new clk speed05 sample frq for vibrato in osc_106 sample frq for osc_307 env to all vca08 sample cv for (osc_3) filter10 goto 01. When i begin the recording the program has been running for a while.

1 looping envelope and 2 vclfos in a dance (chain connected). I think its harder for this combination to find a nice pattern - equilibrium. It happens sometimes. Maybe the mixture between positive and negative cv confuses the modules. Makes it harder. I start the recording with one of the vclfos in vco-mode. After about 17 sec i swith to lfo-mode. Records and hope that a pattern should emerge. I have been listening, and looking at the wave form, in different modes, but i'm not sure if there is a pattern in this recording. . . Maybe to advanced for me. There is - some -sort of pattern repeating every 22 sec. Or?.

Made some adjustements and a new recording. Terrible result but fun work/programming!. Algorithmic drone music program. The computer is my analog modular synth. 01 to 08 are clock sequencer steps. 00 rem osc_1 - wave shaped sin oscillator (osc) - tuned to 130hz00 rem osc_2 - clean sin from oscillator - tuned to 130hz00 rem osc_3 - sqr from oscillator through filter - osc tuned to 130hz00 rem clk speed = 0. 5 hz00 rem line 01 each of the 3 vcas gets an unique cv value ([gate] -> [3 s/h] -> [3 vca])00 rem ---------------------------------------------------01 sample values for vca (cv in) x 3 (osc_1, osc_2, osc_3)02 sample frq for osc_103 sample frq for osc_204 sample new clk speed05 sample frq for vibrato in osc_106 sample frq for osc_307 env to all vca08 sample cv for (osc_3) filter10 goto 01. When i begin the recording the program has been running for a while.

This is a small jam i recorded myself on my diy spring reverb circuit i've built for a friend. It sounds really good with music. In this session, i've only used coninuous triangle/sine/square waveforms and jammed on my for pots: input gain,hp filter cutoff, feedback amount, output gain. I'm sorry if the recording clips sometimes, but there's a big dynamic so i couldnt see how much loud it was. Feel free to take it and use it for sampling or sound design layering.

Ff chaos test conditions:cv in from nlc jerkoff. Square wave in from lfo, 1hz. 3 vcos tuned to 130,8hz and one "strange sound". Cv in on vcos are attenuated, about 50%. Gate 1 and cv 1 to vco pan leftgate 2 and cv 2 to vco pan rightgate 3 to vco pan centertrigger to "strange sound" pan center. Sound 1 - cv min and rate minsound 2 - cv max and rate minsound 3 - cv min and rate maxsound 4 - cv max and rate maxsound 5 - cv at 50% and rate at 50%sound 6 - jerkoff to cv in on lfo. Vco 3 gets cv from jerkoff - chaos.

This is my attempt to emulate the sound of the harmony 64 chimes that can be heard on some ice cream trucks. I used a single note from a low-quality recording from a demo of the chimes for the base synth then cleaned up the audio using audacity and set the starting pitch to "c". (in particular, i used the first note of the "can-can" chime from http://www. Microminiatures. Com/tunes. Html). I then composed a short variation of a well-known song (bicycle built for two in this case). This loop can be used in games or other projects as long as you put a link to this sound's page in the game description. I hope you enjoy and any feedback is welcome!.

Algorithmic modular music program ver. 2 (man2v2_2019). The computer is my analog modular synth. 01 to 08 are clock sequencer steps. Admit, the spring reverb makes a nice job!. 00 rem -------------- man2_2019 --------------00 rem ------------------ v2 -----------------00 rem vco_1 sin through wave folder00 rem vco_2 tri00 rem vco_3 sqr through vcf00 rem (vco_1, vco_2, vco_3) tuned to 130 hz00 rem rnd pitch cv from attenuated tri lfo00 rem rnd cv from tri lfo00 rem main clock (lfo_1) start frq 10 hz00 rem reset is tricky, trg -> short env -> reset00 rem (noise) is noise through a lfo sweeped vcf00 rem ---------------------------------------01 rnd -> vca cv in (vco_1)02 rnd -> wave folder (vco_1): rnd -> vcf (vco_3)00 rem line 08 in ver. 103 rnd frq lfo_1 (run speed)00 rem [less secitive for cv change]04 rnd fm mod (vco_1) with audio from (vco_2)05 rnd -> vca cv in (vco_1, vco_2, vco_3): invert cv -> vca cv in (noise)00 rem [added some offset with attenuverter]06 trg short env (vco_2): rnd pitch @ eoc (vco_2)00 rem [long env in ver. 1 - with long env i seldom reach eoc]07 if (lfo_2 = high) then goto 01 [= reset]00 rem line 02 in ver. 108 [07] trg short env (vco_3): rnd pitch @ eoc (vco_3)00 rem line 07 in ver. 100 rem [long env in ver. 1 - with long env i seldom reach eoc]10 goto 01.

Ambient sound akin to the bridge of a starship. Muted background hum with an overtone of air conditioning ducts. Pseudo-random high pitched blips occupy the soundstage. Could be used as an ambient sound loop for hi-tech / science fiction interiors such as a laboratory, a control room, or the bridge of a spacecraft. Created with two instances of flstudio 3x osc. One kicking out a pair of sinewaves plus noise for the background susurus (hum) and ventilation sound. Second 3x osc is set to produce two interfereing square waves for the blips, squeaks and buzzes. The background was notch filtered and bandpassed to mellow out the humming sound and reduce hiss. The blips were processed with flstudio equo, stereo enhance, fruity delay2 and fl pan-o-matic vst. Each blip was pasted by hand in a seemingly random but not too unpleasant pattern.

Yes! så nöjd att detta ljud hände, typ! let me take this info in swedish, okay. Buchla style slow krell. En modulerande osc och en som moduleras, men man hör bägge i mixen! ena osc går via en lpg den andra via vca/mix. Till det "skrynkliga" ljudet använder jag en pip slope modulerad av jerkoff och sloth. Ljudkällan är en sinus som går via en lugnt modulerad wave shaper. En envelope follower plus sloth ger en trg till en s/h ibland och då byts tonen. Skrynkelljudet går även till mitt analoga delay. Tonen är även liiite modulerad av en env. Ganska west coast och buchla. . . Google translate :-)buchla style slow krell. A modulating osc and one that is modulated, but you can hear both in the mix! ena osc goes via a lpg the other via vca / mix. To the "creepy" sound i use a pip slope modulated by jerkoff and sloth. The sound source is a sine that goes through a quietly modulated wave shaper. An envelope follower plus sloth gives a trg to an s / h sometimes and then the tone changes. The cry sound also goes to my analogue delay. The tone is also liiite modulated by an env. Pretty west coast and buchla. . .

Shortwave wide-band digital emission recorded on july 15, 2014 at 15:17 utc in am mode using 2 instances of the online remote controllable short-wave receiver located at the amateur radio club etgd at the university of twente the netherlands. Left channel was recorded below the central frequency, at a frequency of 10187khz, right channel was recorded above the central frequency, at 10191khz. This was an experiment to see if selective fading would create stereo effects, as the lower frequency part of the transmission would be heard better in the left channel, and the higher frequency component would be heard better on the right. I used goldwave to put the separate recordings into 2 channels of the same file, after i synched the recordings by ear at 1/16 playback speed using a set of 2 particularly strong lightning static crashes as a guide, trimming off everything that came before the first strike in both original recordings, then inserting silence in the range of a few milliseconds until the stereo separation was as close to zero as i could get it. I wasn't as successful at that as i've been with experiments with voice recordings from simultaneous broadcasts on 2 wavelengths that i haven't posted here.