Jacks & Knobs
Attenuator for CH1
Atteneta on Channel 1
Attenuator for CH2
Channel 2's Atteneta
Attenuator for CH3
Channel 3's Atteneta
Attenuator for CH4
Channel 4 Atteneta
An offset button for entering CH1 and CH3.When it is turned on, the input signal will be 5V before it passes through the atteneta, and it can be converted to a unified LFO in the normal -5V - 5V range.
Input jack for each channel
Inverse input.The signal entered here will be reversed and the signal to the input jack above (that is, subtract it).The Atteneta will act on the signals that they subtract.
Individual Outputs
For each channel, the output jack of signals passing through the Atteneta.
1 & 2 Sum Out
This is Jack, which outputs the combined signals of the output of CH1 and CH2.
3 & 4/All Out
When 1 & 2 Sum Out is not patched, all output from CH1 to CH4 will be printed with the combined output.1 & 2 Sum the output of CH3 and CH4 when it is patched to Sum Out.
Min/Max Out
Prints the minimum and maximum voltages in the output of each channel
LEDs
LED that indicates the value of the output voltage
When you hover over a screen, the roles for each part are displayed in a popup.
MUSICAL FEATURES
Samara is a four-channel signal processor with a large number of basic voltage processing features such as Atteneta, Offset, Mix, Min/Max, and others.Both CV and audio can be processed.This is the company's 4CH LFO.
BatumiIt will be very valuable for creating complex waveforms, and will also be able to do the same for handling signals such as other orators and LFO.
The main function of each channel is the Atteneta, but with the addition of offset voltage, Inv input, and MIX or MIX/MAX output, a more advanced voltage process can be used.
Since CH1 and CH3 are equipped with buttons to add the 5V offset voltage before crossing the Atteneta, you can enter an LFO or orator to move in the -5V ~ 5V range and convert it to a unipolar signal that runs in 0 to 10V, and then it can be attenet.You can also simply output a constant offset voltage by offset ON instead of patching the input.Each channel is equipped with an Inv input, which is then subtracted from the input signal of each channel, and then passes through the Atteneta.
In addition to the individual output, there is a mix of two or four channels, the maximum value, the output of the minimum value, and the relatively simple input waveform can be combined to produce complex signals.