www.disting.earthcontrol.de
Open in
urlscan Pro
85.13.137.82
Public Scan
URL:
https://www.disting.earthcontrol.de/
Submission: On August 31 via automatic, source certstream-suspicious
Submission: On August 31 via automatic, source certstream-suspicious
Form analysis
0 forms found in the DOMText Content
Info Show all VCO Filter VCA Envelopes LFO Effects Sequencer Utilities Sampler Midi To quickly switch between algorithms in a bank, push and hold the S knob while turning it. To switch between banks press the encoder, turn it to lit led 2 and press it again. Now turn the encoder to select the bank and press it again to select the chosen bank. PRECISION ADDER A = X + Y + offset B = X - Y - offset offset = ±10V in 1V steps derived from Z Knob recorder enabled ? Parameters 0: Z smooth or integers FOUR QUADRANT MULTIPLIER A = X * Y * scale B = -X * Y * scale scale = 1/10 to 10x in steps derived from Z Knob recorder enabled ? Parameters 0: Z smooth or integers FULL-WAVE RECTIFIER A = abs( X + Y ) or abs( X ) B = abs( X - Y ) or abs( Y ) Z selects mode MINIMUM / MAXIMUM A = min( X, Y ) B = max( X, Y ) Z is gate LINEAR / EXPONENTIAL CONVERTER A = ( 2 ^ X ) * scale B = log2( Y / scale ) Z is Hz/V scale, centred on 1kHz QUANTIZER A = quantized( X ) B = trigger on note change Z chooses scale & function of Y Y = transpose (Z positive) or trigger (Z negative) ? Parameters 0: Attenuation X 1: Transpose mode 2: Key COMPARATOR A = gate from X > Y B = inverted gate Z is hysteresis DUAL WAVESHAPER A = folded X B = triangle-to-sine Y Z is gain Knob recorder enabled SAMPLE AND HOLD A = X when Y exceeds 1V B = noise ±8V Z is slew rate SLEW RATE LIMITER A = linear slew rate limited ( X + Y ) B = log slew rate limited ( X + Y ) Z is slew rate PITCH AND ENVELOPE TRACKER A = V/octave pitch derived from X, plus Y B = envelope dervied from X Z is slew rate for envelope CLOCKABLE DELAY / ECHO X is signal Y is clock input Z is feedback A = dry + delay in ratio according to feedback B = delay signal only Tap tempo enabled LFO X is Hz/V frequency Y is waveshape Z is tune A is saw ⏵ sine ⏵ triangle B is pulse ⏵ square ⏵ pulse ? Parameters 0: Attenuation A 1: Attenuation B 2: Offset A 3: Offset B CLOCKABLE LFO X is clock input Y is waveshape Z is integer multiplier / divider A is saw ⏵ sine ⏵ triangle B is pulse ⏵ square ⏵ pulse Tap tempo enabled ? Parameters 0: Attenuation A & B VCO WITH LINEAR FM X is V/Oct pitch input Y is linear FM input Z is tune ±0.5 octaves A is sine B is saw ? Parameters 0: Octave shift 1: Attenuation A 2: Attenuation B VCO WITH WAVESHAPING X is V/Oct pitch input Y is waveshape / PWM Z is tune ±0.5 octaves A is saw ⏵ tri ⏵ saw B is pulse ⏵ square ⏵ pulse ? Parameters 0: Octave shift 1: Attenuation A 2: Attenuation B 3: Y offset PRECISION ADDER (FRACTIONAL OFFSETS) A = X + Y + offset B = X - Y - offset offset in steps derived from Z ? Parameters 0: Z divisor VOLTAGE CONTROLLED DELAY LINE X is audio input Y is delay time Z is feedback (bipolar) A is delay output B is delay output plus input signal ? Parameters 0: Y offset CLOCKABLE PING PONG DELAY (Z FEEDBACK) X is audio input Y is clock Z is feedback A is left output B is right output Tap tempo enabled ? Parameters 0: Output Mode CLOCKABLE PING PONG DELAY (Z INPUT PAN) X is audio input Y is clock Z is input pan A is left output B is right output Tap tempo enabled ? Parameters 0: Feedback RESONATOR X is audio input Y is centre frequency (pitch) Z is gain Z press is 'strike' A is audio output B is envelope of audio output ? Parameters 0: Y offset VOCODER X is modulator input Y is carrier input Z sets the decay time A is audio output B is envelope output ? Parameters 0: Filter bank PHASER X is audio input Y is sweep Z is feedback (bipolar) A is phase-shifted output plus input signal B is phase-shifted output ? Parameters 0: Y offset 1: Number of stages BIT CRUSHER X is signal input Y is sample rate input Z sets bit reduction A is signal output B is comparator output ? Parameters 0: Y offset 1: Reduction mode 2: Mangling mode UNUSED TAPE DELAY X is audio input Y is tape speed Z is feedback A = dry + delay in ratio according to feedback B = delay signal only ? Parameters 0: Tape length WAVEFORM ANIMATOR X is audio input Y is threshold Z is separation A = animated output B = square waves output ? Parameters 0: LFO depth 1: Y offset 2: LFO rate 3: Scale STATE VARIABLE FILTER X is audio input Y is filter frequency Z is filter type A is filter output LP ⏵ BP ⏵ HP B is filter output HP ⏵ BP ⏵ LP ? Parameters 0: Filter resonance LP / HP FILTER X is audio input Y is filter frequency Z is filter resonance A is low pass filter output B is high pass filter output LP / BP FILTER X is audio input Y is filter frequency Z is filter resonance A is low pass filter output B is band pass filter output BP / HP FILTER X is audio input Y is filter frequency Z is filter resonance A is band pass filter output B is high pass filter output BP / NOTCH FILTER X is audio input Y is filter frequency Z is filter resonance A is band pass filter output B is notch filter output AR ENVELOPE X is trigger input Y is trigger input Z sets the envelope times A is envelope output B is envelope output ? Parameters 0: Trigger Mode 1: Z Mode 2: Out A Attenuverter 3: Out B Attenuverter AR ENVELOPE (WITH PUSH) X is trigger input Y is trigger input Z sets the envelope times A is envelope output B is envelope output ? Parameters 0: Trigger Mode AR ENVELOPE & VCA X is trigger input Y is VCA input Z sets the envelope times A is envelope output B is VCA output ? Parameters 0: Trigger Mode 1: Z Mode 2: Out A Attenuverter 3: Out B Attenuverter AR ENVELOPE & VCA (WITH PUSH) X is trigger input Y is VCA input Z sets the envelope times A is envelope output B is VCA output Press Z to trigger ? Parameters 0: Trigger Mode DUAL AR ENVELOPE X is trigger input A Y is trigger input B Z sets the envelope times A is envelope output A B is envelope output B ? Parameters 0: Trigger Mode 1: Z Mode 2: Out A Attenuverter 3: Out B Attenuverter DUAL AR ENVELOPE (WITH PUSH) X is trigger input A Y is trigger input B Z sets the envelope times A is envelope output A B is envelope output B ? Parameters 0: Trigger Mode EURO TO BUCHLA CONVERTER X is 1V/octave input Y is gate input Z is tune ±0.5 octaves A is 1.2V/octave output B is gate / trigger output ? Parameters 0: Octave shift BUCHLA TO EURO CONVERTER X is 1.2V/octave input Y is gate / trigger input Z is tune ±0.5 octaves A is 1V/octave output B is trigger output ? Parameters 0: Octave shift CLOCKABLE AD ENVELOPE (WITH MUTE) X is clock input Y is mute input Z sets the envelope shape A is envelope output B is envelope output Tap tempo enabled ? Parameters 0: Output Attenuverter CLOCKABLE AD ENVELOPE (WITH GATE) X is clock input Y is gate input Z sets the envelope shape A is envelope output B is envelope output Tap tempo enabled ? Parameters 0: Output Attenuverter CLOCKABLE AD ENVELOPE (WITH TRIGGER) X is clock input Y is trigger input Z sets the envelope shape A is envelope output B is envelope output Tap tempo enabled ? Parameters 0: Output Attenuverter CLOCKABLE AD ENVELOPE & VCA X is clock input Y is VCA input Z sets the envelope shape A is envelope output B is VCA output Tap tempo enabled ? Parameters 0: Output Attenuverter SHIFT REGISTER RANDOM CVS X is clock input Y is modify input Z sets the randomness A is unipolar output B is bipolar output ? Parameters 0: Direction 1: Length 2: Slew rate 3: Output attenuator SHIFT REGISTER RANDOM QUANTIZED CVS X is clock input Y is modify input Z sets the randomness A is quantized CV output B is trigger output ? Parameters 0: Direction 1: Length 2: Scale 3: Output attenuator SHIFT REGISTER RANDOM TRIGGERS X is clock input Y is modify input Z sets the randomness A is trigger output B is inverse trigger output Press Z to modify sequence ? Parameters 0: Length SHIFT REGISTER RANDOM DUAL TRIGGERS X is clock input Y is modify input Z sets the randomness A is trigger output A B is trigger output B ? Parameters 0: Length A 1: Length B ES-1 EMULATION X is input 1 Y is input 2 Z is trim A is output 1 B is output 2 ES-2 EMULATION X is input 1 Y is input 2 Z is trim A is output 1 B is output 2 DUAL QUANTIZER (Z SCALE) A = quantized( X ) B = quantized( Y ) Z chooses scale ? Parameters 0: X Attenuation 1: Y Attenuation 2: X Transpose 3: Y Transpose DUAL QUANTIZER A = quantized( X ) B = quantized( Y ) Z is trigger ? Parameters 0: X Attenuation 1: Y Attenuation 2: X Scale 3: Y Scale DUAL DELAYED PULSE GENERATOR A is pulse triggered by X B is pulse triggered by Y Z function depends on parameter settting ? Parameters 0: Z Mode 1: Range 2: Delay 3: Length NOISE A is noise, optionally scaled by X B is noise, optionally scaled by Y Z is blend ? Parameters 0: Type A 1: Type B 2: Attenuation A 3:: Attenuation B CROSSFADE/PAN A = Mix of X & Y according to Z B = Inverted mix of X & Y according to Z Knob recorder enabled ? Parameters 0: Crossfade/pan law DUAL SAMPLE AND HOLD A = X when Z exceeds 1V B = Y when Z exceeds 1V ? Parameters 0: Sample or Track DUAL EUCLIDEAN PATTERNS A is pattern 1 out B is pattern 2 out Z sets the 'pulses' for pattern 2 X is clock input Y is reset input ? Parameters 0: Steps 1: Pulses 1 2: Rotation 3: Pulse length AUDIO PLAYBACK X is retrigger CV Y is start position CV Z selects the sample A is left audio output B is right audio output AUDIO PLAYBACK WITH V/OCT X is retrigger CV Y is V/octave pitch CV Z selects the sample A is left audio output B is right audio output ? Parameters 0: Octave shift AUDIO PLAYBACK WITH Z SPEED X is retrigger CV Y is start position CV Z sets the playback speed A is left audio output B is right audio output ? Parameters 0: Sample selection MIDI FILE PLAYBACK (CLOCKED) X is clock Y is retrigger CV Z selects the MIDI file A is pitch CV output B is gate output MIDI FILE PLAYBACK (FREE RUNNING) X is V/octave speed CV Y is retrigger CV Z sets the playback speed A is pitch CV output B is gate output ? Parameters 0: MIDI File selection AUDIO PLAYBACK WITH END CV X is retrigger or end position CV Y is start position CV Z is end position or retrigger CV A is left audio output B is right audio output ? Parameters 0: Sample selection CLOCKED AUDIO PLAYBACK X is retrigger CV Y is clock Z selects the sample A is left audio output B is right audio output AUDIO RECORDER X is left audio input Y is right audio input Z controls recording A is left audio output B is right audio output WAVETABLE VCO X is V/Oct pitch input Y is wavetable input Z is tune ±0.5 octaves A is wavetable output B is sub-octave square output ? Parameters 0: Wavetable 1: Octave shift 2: Y offset STEREO REVERB X is left input Y is right input Z is wet / dry A is left output B is right output ? Parameters 0: Size 1: Feedback 2: Character 3: Lowpass flter MONO-TO-STEREO REVERB X is audio input Y is feedback CV Z is wet / dry A is left output B is right output ? Parameters 0: Size 1: Feedback 2: Character 3: Lowpass flter DUAL REVERB A is X plus reverb B is Y plus reverb Z is wet / dry ? Parameters 0: Size 1: Feedback 2: Character 3: Lowpass flter STEREO CHORUS X is audio input Y is LFO rate Z is wet / dry A is left output B is right output ? Parameters 0: LFO depth 1: Y offset 2: Feedback 3: Lowpass flter MONO CHORUS X is audio input Y is LFO rate Z is wet / dry A is blended output B is wet output ? Parameters 0: LFO depth 1: Y offset 2: Feedback 3: Lowpass flter