Difference between revisions of "Coefficients/Potentiometers"

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'''Coefficients''' are quantitative parameters that enter analog computations in a multiplicative fashion. [[The Analog Thing]] features eight coefficient potentiometers, allowing the use of up to eight coefficients in an analog computation. Using the potentiometers, each coefficient can be set to any value between <code>0</code> and <code>+1</code>. An input to a coefficient potentiometer is multiplied by the value the coefficient potentiometer is set to such that their output is given by <code>output = coefficient * input</code>.
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'''Coefficients''' are the quantitative parameters of analog computations. [[The Analog Thing]] features eight coefficient potentiometers, allowing the use of up to eight coefficients in an analog program on a single THAT.
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Using the potentiometers, each coefficient can be set to any value between <code>0</code> and <code>1</code>. An input to a coefficient potentiometer is multiplied by the value the coefficient potentiometer is set, such that their output is given by <code>output = coefficient * input</code>, with the coefficient being a value between 0 and 1 as said before.
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For example a variable A is patched into a potentiometer set to 0.123. The output of the potentiometer would be A*0.123, with the same sign as A. No sign reversal is possible with "normal" potentiometer, though tricks have been developed to allow such a thing.  
  
 
Several sections of the THAT user interface relate to the use of coefficient potentiometers, as shown in Figure 1:
 
Several sections of the THAT user interface relate to the use of coefficient potentiometers, as shown in Figure 1:
  
* The <code>COEFFICIENTS</code> section. This is the area labelled <code>COEFF</code> on your THAT. It contains the inputs and output sockets for the coefficient potentiometers.
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* The <code>COEFFICIENTS</code> section. This is the area labelled <code>COEFF</code> on your THAT. It contains the input and output sockets for the coefficient potentiometers.
* The <code>COEFFICIENT POTENTIOMETERS</code> section.
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* The <code>COEFFICIENT POTENTIOMETERS</code> section. It contains the eight rotary knobs by which coefficients can be set.
* The <code>MODE</code> selector.
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* The <code>MODE SELECTOR</code>.
* The <code>COEFFICIENT</code> selector.
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* The <code>COEFFICIENT SELECTOR</code>. It is used to select the coefficient value to display on the <code>PANEL METER</code> when the <code>MODE SELECTOR</code> is in the <code>COEFF</code> position.
* The digital voltmeter.
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* The <code>PANEL METER</code>.
  
 
To familiarize yourself with the use of coefficient potentiometers, follow these steps:
 
To familiarize yourself with the use of coefficient potentiometers, follow these steps:
  
# Set the <code>MODE</code> selector to position <code>COEFF</code> and set the <code>COEFFICIENT</code> selector to position <code>1</code>. This connects the output of potentiometer <code>COEFF 1</code> to the digital voltmeter.
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# Set the <code>MODE SELECTOR</code> to position <code>COEFF</code> and set the <code>COEFFICIENT SELECTOR</code> to position <code>1</code>. This connects the output of potentiometer <code>COEFF 1</code> to the <code>PANEL METER</code>.
# Use a patch cable to connect one of the <code>+1</code> jacks in the <code> STABILIZED &#177;1</code> section to the input (circle) associated with potentiometer <code>COEFF 1</code> in the <code>COEFFICIENTS</code> section (i.e., the uppermost circled jack in the section labelled <code>COEFF</code> on your THAT).
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# Use a patch cable to connect one of the <code>+1</code> sockets in the <code> STABILIZED &#177;1</code> section to the input (circle) associated with potentiometer <code>COEFF 1</code> in the <code>COEFFICIENTS</code> section (i.e., the uppermost circled socket in the section labelled <code>COEFF</code> on your THAT).
# Change the position of the <code>COEFF 1</code> knob in the <code>COEFFICIENT POTENTIOMETERS</code> section and observe the value displayed on the digital voltmeter. The displayed value is available at the output (triangle) associated with potentiometer <code>COEFF 1</code> in the <code>COEFFICIENT</code> section.
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# Change the position of the <code>COEFF 1</code> knob in the <code>COEFFICIENT POTENTIOMETERS</code> section and observe the value displayed on the <code>PANEL METER</code>. The displayed value is available at the output (triangle) associated with potentiometer <code>COEFF 1</code> in the <code>COEFFICIENT</code> section.
# Remove the patch cable plug from the <code>+1</code> jack in the <code> STABILIZED &#177;1</code> section and plug it into one of the <code>-1</code> jacks in in the <code> STABILIZED &#177;1</code>.
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# Remove the patch cable plug from the <code>+1</code> socket in the <code> STABILIZED &#177;1</code> section and plug it into one of the <code>-1</code> sockets in in the <code> STABILIZED &#177;1</code>.
# Again, change the position of the <code>COEFF 1</code> knob in the potentiometer section and observe the value displayed on the digital voltmeter.
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# Again, change the position of the <code>COEFF 1</code> knob in the potentiometer section and observe the value displayed on the <code>PANEL METER</code>.
# Set the <code>COEFFICIENT</code> selector to any one of the other potentiometers (say, 4).
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# Set the <code>COEFFICIENT SELECTOR</code> to any one of the other potentiometers (say, 4).
# Use a patch cable to connect either of the <code>-1</code> jacks in the <code> STABILIZED &#177;1</code> with the input (circle) associated with the with the coefficient potentiometer you have chosen using the <code>COEFFICIENT</code> selector (say, 4).
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# Use a patch cable to connect either of the <code>-1</code> sockets in the <code> STABILIZED &#177;1</code> with the input (circle) associated with the with the coefficient potentiometer you have chosen using the <code>COEFFICIENT SELECTOR</code> (say, 4).
# Change the position of the coefficient potentiometer knob associated with the coefficient you have chosen using the <code>COEFFICIENT</code> selector (say, 4) and again observe the value displayed on the digital voltmeter.
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# Change the position of the coefficient potentiometer knob associated with the coefficient you have chosen using the <code>COEFFICIENT SELECTOR</code> (say, 4) and again observe the value displayed on the <code>PANEL METER</code>.
  
 
[[File:THAT_legend_potentiometers_s.png|thumb|left|800px|Figure 1: Parts of the THAT user interface that relate to the familiarization steps described above]]
 
[[File:THAT_legend_potentiometers_s.png|thumb|left|800px|Figure 1: Parts of the THAT user interface that relate to the familiarization steps described above]]
  
 
[[Category:Components of The Analog Thing]]
 
[[Category:Components of The Analog Thing]]

Latest revision as of 16:54, 30 December 2024

Coefficients are the quantitative parameters of analog computations. The Analog Thing features eight coefficient potentiometers, allowing the use of up to eight coefficients in an analog program on a single THAT. Using the potentiometers, each coefficient can be set to any value between 0 and 1. An input to a coefficient potentiometer is multiplied by the value the coefficient potentiometer is set, such that their output is given by output = coefficient * input, with the coefficient being a value between 0 and 1 as said before.

For example a variable A is patched into a potentiometer set to 0.123. The output of the potentiometer would be A*0.123, with the same sign as A. No sign reversal is possible with "normal" potentiometer, though tricks have been developed to allow such a thing.

Several sections of the THAT user interface relate to the use of coefficient potentiometers, as shown in Figure 1:

  • The COEFFICIENTS section. This is the area labelled COEFF on your THAT. It contains the input and output sockets for the coefficient potentiometers.
  • The COEFFICIENT POTENTIOMETERS section. It contains the eight rotary knobs by which coefficients can be set.
  • The MODE SELECTOR.
  • The COEFFICIENT SELECTOR. It is used to select the coefficient value to display on the PANEL METER when the MODE SELECTOR is in the COEFF position.
  • The PANEL METER.

To familiarize yourself with the use of coefficient potentiometers, follow these steps:

  1. Set the MODE SELECTOR to position COEFF and set the COEFFICIENT SELECTOR to position 1. This connects the output of potentiometer COEFF 1 to the PANEL METER.
  2. Use a patch cable to connect one of the +1 sockets in the STABILIZED ±1 section to the input (circle) associated with potentiometer COEFF 1 in the COEFFICIENTS section (i.e., the uppermost circled socket in the section labelled COEFF on your THAT).
  3. Change the position of the COEFF 1 knob in the COEFFICIENT POTENTIOMETERS section and observe the value displayed on the PANEL METER. The displayed value is available at the output (triangle) associated with potentiometer COEFF 1 in the COEFFICIENT section.
  4. Remove the patch cable plug from the +1 socket in the STABILIZED ±1 section and plug it into one of the -1 sockets in in the STABILIZED ±1.
  5. Again, change the position of the COEFF 1 knob in the potentiometer section and observe the value displayed on the PANEL METER.
  6. Set the COEFFICIENT SELECTOR to any one of the other potentiometers (say, 4).
  7. Use a patch cable to connect either of the -1 sockets in the STABILIZED ±1 with the input (circle) associated with the with the coefficient potentiometer you have chosen using the COEFFICIENT SELECTOR (say, 4).
  8. Change the position of the coefficient potentiometer knob associated with the coefficient you have chosen using the COEFFICIENT SELECTOR (say, 4) and again observe the value displayed on the PANEL METER.
Figure 1: Parts of the THAT user interface that relate to the familiarization steps described above
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