hello, after one week off i'm back with some notes on several modules and some sound examples for the a101/1 vactrol steiner filter. the notes first: last week i've received two a152 modules. the a152 is a great tool and especially users with larger systems will love it. it offers lots of possibilities and functions. it is so much more versatile to use a cv to adress the active port, instead of cycling through the positions with a trigger pulse. but the true strength of the module is the track&hold part. used in conjunction with a bunch of vco's very interesting melodies can be generated. the a152 is also of great value when used with the a101/3 or several filters, lfo's and envelopes. i also got my old filters back, with a more sensitive input stage. my result is that the a120 lowpass filter greatly benefits from this modifcation. i can really recommend this and i like the new behaviour of the a120 a lot more than before. it sounds much more like a real moog filter now, very similar to my old moog prodigy some years ago. the a121 significantly changes in sound when it is overdriven. it starts to sound more harsh and it produces distortions which sound totally different than on the modified a120. so it is a matter of taste, if someone should modify the a121 or leave it as it is. i'm happy with the modification. the a122 can only barely improve the range of sound with the modification. the only thing is that now it is easier to handle low level input signals. in my opinion it isn't really necessary to modifiy the a122, unless someone has serious problems with processing of low level signals. finally, the a123 highpass filter cannot be modified to have a more sensitive audio input, despite what is said earlier. imho this wasn't really necessary for the a123 anyway. ok, now some short sound examples for the a101/1 vactrol steiner filter. each file is about 90 kb. example 1 uses different waveforms for each input. a111 pulsewave at the lowpass input, the sawtooth of a second a111 at the highpass input and the pulsewave of the second a111, divided by an a163 at the bandpass input. the filter cutoff was controlled by the pitch cv and a bit of negative a140 adsr. the filter was close to self-oscillation. http://www.selfoscillate.de/a100files/a101-1-example-1.mp3 example 2 uses an a111 pulsewave, panned manually with an a134 panning module between lowpass input and highpass input. http://www.selfoscillate.de/a100files/a101-1-example-2.mp3 example 3 uses the a111 pulsewave at the lowpass input. the same pulsewave is fed into an a125 phaser and then into the highpass input of the a101/1. only the phaser is swept by an a145 sinus, not the a101/1. http://www.selfoscillate.de/a100files/a101-1-example-3.mp3 in example 4 the same a111 pulsewave is fed into the bandpass input and also into an a196 pll and an a101/3 vactrol phaser. the pll output is going into the lowpass input, the phaser output (6-stage) is going to the highpass input. two a147 triangle lfo's modulate the a101/1 cutoff and the a101/3 phase shift. notice the change in the melody, this is caused by the pll. http://www.selfoscillate.de/a100files/a101-1-example-4.mp3 the last example shows an a101/1 with overdriven input stage and full resonance. the a111 pulsewave is sent into the lowpass and bandpass input. (lp in = 10, bp in = 5, hp in = 0, res = 10). filter cutoff is modulated by the pitch cv, an inverse a140 envelope and an a147 triangle wave. http://www.selfoscillate.de/a100files/a101-1-example-5.mp3 best wishes ingo