Make-noise MATHS Uživatelský manuál

MATHS

SUM and OR Bus (cont’d)7. CH. 1 Variable OUT: The applied signal as processed by CH. 1 controls. Normalized to the SUM and OR busses. Inserting a pa

MATHS is laid out top to bottom, with symmetrical features between CH. 1 and 4. The signal inputs are at the top, followed by the panel controls and c

RISE/ FALL/ Vari-Response These controls shape the signal that is output at the Unity Signal OUT and Variable OUT for CH. 1 and 4. The RISE and FALL c

Signal OUTS There are many different signal outputs on the MATHS. All of them are situated at the bottom of the module. Many of them have LEDs situate

Tips & Tricks -Longer cycles will be achieved with more Logarithmic response curves. The fastest, sharpest functions will be achieved with extrem

Patch Ideas: Analog Voltages, Low Frequency OscillatorsTypical Voltage Controlled Triangle Function (Triangle LFO)Set CH. 1 (or 4) to Cycle. Set RISE

Patch Ideas: Analog Voltages, Triggered Functions/ Envelopes Voltage Controlled Transient Function Generator (Attack/ Decay EG) A pulse or gate appli

Patch Ideas: Analog Signal Processing, Voltage MATHS!ADD, Subtract Control SignalsApply signals to be added/ subtracted to any combination of Signal I

Pseudo-VCA with clipping - Thanx to Walker FarrellPatch audio signal to CH. 1, with RISE and FALL at full CCW, or cycle CH. 1 at audio rate. Take outp

Limited WARRANTY:Make Noise warrants this product to be free of defects in materials or construction for a period of one year from the date of purchas

Installation:The Make Noise MATHS is an electronic signal generator requiring 60mA of +12V and 60ma of -12V regulated power and properly formatted dis

Overview:MATHS is an analog computer designed for musical purposes. Amongst other things, it will allow you to:1. Generate a variety of linear, logari

MATHS Channel 11. Signal IN: Direct Coupled input to circuit. Use for Lag, Portamento, ASR (Attack Sustain Release type envelopes). Also input to SUM/

MATHS Channel 1 (Cont’d)8. BOTH CV IN: Bi-Polar Exponential control signal input for ENTIRE function. Contrary to the Rise and Fall CV IN, BOTH has a

MATHS Channel 41. Signal IN: Direct Coupled input to circuit. Use for Lag, Portamento, ASR (Attack Sustain Release type envelopes). Also input to SUM/

MATHS Channel 4 (cont’d)8. BOTH CV IN: Bi-Polar Exponential control signal input for ENTIRE function. Contrary to the Rise and Fall CV IN, BOTH has a

SUM and OR Bus1. Signal IN Channel 2: Direct Coupled input to Attenuvertor and SUM/ OR Bus. Normalized to a +10V reference for generation of voltage o