|Maker||Bastl Instruments Company|
|Form Factor||Modular - 5U|
|Signal Path||Analog Hardware|
|Made In||Brno, Czech Republic|
|Power Source||+12: <15mA, -12 <15mA|
|Notes||Tea kick is a universal analog circuit which is based on improved version of the twin T resonant structure, and mainly inspired by analog drum designs of Standa Filip. The basic principle or this drum is to create a virtual electronic membrane which you strike with electricity, the membrane vibrates and creates a very natural drum wave which, when outputted to a speaker (another membrane) sounds very authentic. To adjust thi membrane, we have the TUNE and RESONANCE control. Think of using those as if tuning an acoustic drum. There is a CV input for tuning the circuit so it can change character from a bass drum through all the toms to woodblock. There is main TUNE control knob for the tuning and also a CV Input with ATTENUATOR. |
There is a RESONANCE control which affects how resonant the circuit is. However, the resonance also affects the tuning: the more resonance, the lower the drum sound is. Add resonance to get longer decay drum sounds. The resonance range switch can limit resonance from self oscillating. When you switch it up, the resonance control makes the circuit self oscillate, so that it can be used as a kind of VCO.
Tea kick also has a click generator with tone control which is mixed into the signal. Think of the click as of a stick which you can use to strike an acoustic membrane of a drum – the resulting sound has different character. The click tone control also affects the spectrum of the twin T circuit. There is also SQUARE output and WTF input available for more fun experiments.
Beyond the drum:
Tea kick can be either used as predictable drum circuit or can go totally nuts as an experimental oscillator. There is several ways how to route inputs and outputs to generate feedback loops to generate signal. However there are several ways how you can use it to modify and filter signal from another VCO. We highly recommend to try routing any oscillator to the trigger input. There is a lot to explore here.