tag:blogger.com,1999:blog-69188955971204479592024-03-12T15:51:03.821-07:00nonlinearcircuitsnonlinearcircuits -<br>
ANALOGUE modular synthesizers<br>
(no midi, no software, no microprocessors)<br>
<a href="http://nonlinearcircuits.blogspot.com.au/2013/11/pcbs-for-sale-updated-9-nov-2013.html">PCBs and Modules LIST</a>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.comBlogger319125tag:blogger.com,1999:blog-6918895597120447959.post-89502957075803961482020-03-28T05:33:00.002-07:002020-03-29T04:48:42.789-07:00NLC store open<span style="background-color: yellow;"><span style="font-size: x-large;">This blog will no longer be updated.</span></span><br />
<span style="background-color: yellow;"><span style="font-size: x-large;">Please go to </span></span><br />
<span style="background-color: yellow;"><span style="font-size: x-large;"><a href="https://www.nonlinearcircuits.com/modules">https://www.nonlinearcircuits.com/modules</a></span></span><br />
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<span style="font-size: large;">Also blog will continue here</span><br />
<span style="font-size: large;"><a href="https://www.nonlinearcircuits.com/blog">https://www.nonlinearcircuits.com/blog</a></span>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-11946260541675521012020-02-05T23:00:00.001-08:002020-02-06T00:02:34.858-08:001U PiLLs<span style="font-family: "courier new" , "courier" , monospace;">This is a raw 12HP 1U version of the Mobius PiLL. It uses two
cross-coupled Phase locked loop (PLL) ICs that go in and out of chaotic zones
at audio rates. If you like making electronic noise, this module is for
you. Oh yeh, it has vactrols.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">It is a pretty simple build and capable of a wide variety of sounds. The demo below is my usual noisy effort but it can be tamed if you choose to feed it CVs from sequencers.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">There are 5 inputs, everything affects everything:</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">FM IN - feeds both PLL ICs</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">CV Range 1 & 2 - these control the vactrols. The control circuits are very simple.....a resistor and a vactrol!</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">CV 1 & 2 - these inject a signal into the VCO control input, shove in anything from audio to CV rates and see what you get.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The 4 outputs are from the PLL VCOs and the phase comparators, all are pulse/square waves running from 0-approx 5V.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">Matte black and white panels for Pulp Logic and Intellijel formats are available, please specify when ordering.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">Please note the white Pulp Logic panel has the manufacturing code on the front, I paid extra for this not to happen but the manufacturer did it anyway and gave me my $1.50 back. It would be a greater crime to chuck the panels because of this, so it is there, use some whiteout if you really hate it. In the same order I specified gloss black panels and got matte, also specified white PCBs and got one batch of white and one batch of green. Somebody was a bit unfocused that day.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:1upill">BUILD GUIDE on NLC wiki</a> </span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB set and panel = USD12</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD60 </span><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-26426772199938684282019-10-17T07:19:00.001-07:002019-11-02T07:10:11.395-07:00Dual LFO/VCOThis is an upgrade for the NLC thru-hole dual LFO and the thru-hole dual VCO.<br />
The circuit is based on the thru-hole dual VCO but can be switched to operate in 3 ranges; 15Hz-10kHz, 1 minute per cycle to 25Hz (approx) and down to 20 minutes per cycle for the slowest.<br />
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Both have CV inputs with attenuating pots and sync inputs. The sync is quite hard and attempts to momentarily ground the timing capacitor, how successful this is depends on what else is going on. At slow LFO rates it works more like a wave-shaper.<br />
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The outputs are sine, stepped, square and triangle. The stepped outputs are S&H circuits sampling the sine-waves. They are clocked by the other oscillator, there is no external clock input :)<br />
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There is provision to install 1k tempco resistors if you want to try for 1V/oct tracking. Don't expect good tracking over more than 2 octaves tho, there are no matched transistors onboard. If such niceties are not so important, simply leave off the 1k tempcos and install regular 1k 0805 resistors on the bottom of the engine PCB.<br />
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PCB set = USD20<br />
panel = USD20<br />
Assembled = USD180<br />
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<a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:duallfovco">Build guide on wiki </a><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-88009584753592492262019-09-07T01:42:00.002-07:002019-09-24T06:53:15.141-07:00Mobius PiLL<span style="font-family: "courier new" , "courier" , monospace;">This is a chaotic noise module, it is generally not very nice unless you are into noise. In which case, hello!!</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">There are several papers describing ways to couple PLL (phase locked loop) ICs to create chaos. I have been sitting on a stack of them for years but found the actual circuits quite limited in a synth.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">Eventually it clicked that the low-pass filter needed to be a bit fancier than a pot and a capacitor, so this version gets two Buchla style low pass gate/filters.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The circuit contains two PLL chips and two low pass filters. The PLLs are voltage controlled together, the filters are controlled individually.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">Normally in a PLL circuit, the output of the phase detector goes thru a low pass stage and then the output of this is used to control the VCO. In this version, the low pass filter outputs are fed to the non-inverting input of an op amp for it's own VCO and the inverting input of an op amp for the other VCO. Maybe the pic describes it best, this is from <span class="fontstyle0">Intermittent Chaos </span><span class="fontstyle0"><span class="fontstyle0">in a Mutually Coupled PLL’s </span></span></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><span class="fontstyle0"><span class="fontstyle0"><span class="fontstyle0">System (Shirahama et al), tho I have seen similar circuits in other papers.</span></span></span></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">It doesn't need an input signal to lock to, it can run on its own, but it can be fun to give it a signal anyway. The other inputs are for Freq CV, LPG1 CV and LPG2 CV. Two of the outputs are from the LPGs and two are from the PLL VCO, these two are pulse/squarewaves, very nice for feeding into filters.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The PLLs and filters are all vactrol controlled but the PCB is a unpatented NLC black-box design, so no need to buy any expensive vactrols.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB set = USD23</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD22</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD200</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:mobius_pill" target="_blank">Build Guide on NLC wiki</a> </span><br />
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<br style="-webkit-text-size-adjust: auto; -webkit-text-stroke-width: 0px; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-align: -webkit-auto; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px;" />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-35852007582880701122019-08-20T22:33:00.001-07:002019-08-23T06:25:37.725-07:00Sloth DK<span style="font-family: "courier new" , "courier" , monospace;">6HP Sloth DK</span><br />
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<br />
<span style="font-family: "courier new" , "courier" , monospace;">For those that have not seen the Sloth before - this module is a simple chaos circuit that puts out 3 slowly varying and never repeating CV signals. It is not random as the chaos occurs within a bounded region and generally moves in or between two strange attractors or wells.</span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">It is really slow and can take from 8-20 hours to complete a chaotic orbit.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Generally the output signals range between +/-4V, tho mostly around +/-2V.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">The middle output is simply a mix of the two main outs, passing through the pot to attenuate the signal if you wish (and it helps hold the PCB to the panel). It is a little hotter and more complex that the individual outs.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">There are no inputs and no way to control it.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">The large capacitors sticking through the panel never see more than +/-0.15V in normal use. Nevertheless you probably should not take the module out of the case and rest your tongue across their leads.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB = USD12</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD20</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD100 </span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:slothdk" target="_blank">Build guide on wiki </a></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">flamingo situation.......</span>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com2tag:blogger.com,1999:blog-6918895597120447959.post-72458283896050142672019-08-20T05:49:00.002-07:002019-08-23T06:23:52.842-07:001U Signum<span style="font-family: "courier new" , "courier" , monospace;">In the simplest sense, this is a switching module. It is a little different though because it has 3 states rather than just on/off:</span><br />
<dl><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><span class="mwe-math-mathml-inline mwe-math-mathml-a11y" style="display: none;"><math xmlns="http://www.w3.org/1998/Math/MathML">
<semantics>
<mrow>
<mstyle displaystyle="true" scriptlevel="0">
<mi>sgn</mi>
<mo></mo>
<mo stretchy="false">(</mo>
<mi>x</mi>
<mo stretchy="false">)</mo>
<mo>:=</mo>
<mrow>
<mrow>
<mo>{</mo>
<mtable columnalign="left left" columnspacing="1em" displaystyle="false" rowspacing=".2em">
<mtr>
<mtd>
<mo>−</mo>
<mn>1</mn>
</mtd>
<mtd>
<mrow>
<mtext>if </mtext>
</mrow>
<mi>x</mi>
<mo><</mo>
<mn>0</mn>
<mo>,</mo>
</mtd>
</mtr>
<mtr>
<mtd>
<mn>0</mn>
</mtd>
<mtd>
<mrow>
<mtext>if </mtext>
</mrow>
<mi>x</mi>
<mo>=</mo>
<mn>0</mn>
<mo>,</mo>
</mtd>
</mtr>
<mtr>
<mtd>
<mn>1</mn>
</mtd>
<mtd>
<mrow>
<mtext>if </mtext>
</mrow>
<mi>x</mi>
<mo>></mo>
<mn>0.</mn>
</mtd>
</mtr>
</mtable>
<mo fence="true" stretchy="true" symmetric="true"></mo>
</mrow>
</mrow>
</mstyle>
</mrow>
<annotation encoding="application/x-tex">{\displaystyle
\operatorname {sgn} (x):={\begin{cases}-1&{\text{if
}}x<0 amp="" if="" text="" x="">0.\end{cases}}}</0></annotation>
</semantics>
</math></span></span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"></span></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><a href="https://1.bp.blogspot.com/-cF5d2T7-mkg/XV_e3j-fH7I/AAAAAAAAOlY/2kZNLJ27u8cHW3f043rGdtrrQUaX3odWQCLcBGAs/s1600/eq.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="76" data-original-width="234" src="https://1.bp.blogspot.com/-cF5d2T7-mkg/XV_e3j-fH7I/AAAAAAAAOlY/2kZNLJ27u8cHW3f043rGdtrrQUaX3odWQCLcBGAs/s1600/eq.jpg" /></a></span></span></div>
<span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"> </span></span></dd><dd></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">In this case, the module uses approx 1V, rather than 0V, as the switching point, so that it can be controlled by gates. It is simple to bring it back to 0V for those who think it should be.</span></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">Also the '0' state is really a result of the diode voltage drops rather than any circuit design trickery.</span></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">The signal on the bottom input is fed to the switch of the Switch jack (oh yes) so the incoming signal can switch itself without any help.</span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">The three states actually mean there is a flat spot at the switching point, so the circuit can be used for audio but at slow rates there is a click, so it is far better suited for CV processing.</span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><br /></span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">This circuit originally was used as the nonlinear element in the Primal Hyperchaos and two of them in the Hyperchaos Deluxe. I quite like it on its own, so the Signum Hyperchaos brought the signum section to the panel where it could be used as a stand-alone module. This version drops the chaos and just has the Signum.</span></span></dd><dd></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">The switching is done by diodes rather than a dedicated IC. </span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><br /></span></span></dd><dd><b><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">The panels are available in white/gold and black/gold in both Pulp Logic and Intellijel formats. Please specify which colour and which format you want when ordering.</span></span></b></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><br /></span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">Also the PCBs are the same for both panel formats and use a standard Eurorack power connector. There is no provision for the Pulp Logic 3 pin power connector.</span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><br /></span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">PCB and panel set = USD10</span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element">Assembled = USD55</span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><br /></span></span></dd><dd><span style="font-family: "courier new" , "courier" , monospace;"><span class="mwe-math-element"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:1u_signum" target="_blank">Build Guide on wiki</a></span></span></dd><dd><span class="mwe-math-element"><br /></span></dd><div class="separator" style="clear: both; text-align: center;">
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nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-43052973908257773022019-08-20T05:28:00.001-07:002019-08-27T00:39:23.294-07:00VCAs<span style="font-family: "courier new" , "courier" , monospace;">This 8HP module contains 3 VCAs and a fuzz/distortion. The VCAs are similar to the ones used in the NLC Cluster; simple OTA based but work very well.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">The fuzz/distortion is part of the bottom VCA and is a typical diode based affair, on the PCB the space for these are thru-hole so you can install Si or Ge diodes or LEDs. Turn the Fuzz pot to 0 if you just want VCA.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">PCB = USD18</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD20</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD160</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:vcas" target="_blank">Build guide on NLC wiki</a> </span><br />
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<a href="https://1.bp.blogspot.com/--1-5n5MVt0g/XVvnTvzr-gI/AAAAAAAAOj4/k48jhvJZGCcqXbKjI0WEsLYNset0wMeDACLcBGAs/s1600/20190820_154859.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1600" data-original-width="656" height="320" src="https://1.bp.blogspot.com/--1-5n5MVt0g/XVvnTvzr-gI/AAAAAAAAOj4/k48jhvJZGCcqXbKjI0WEsLYNset0wMeDACLcBGAs/s320/20190820_154859.jpg" width="131" /></a></div>
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-54649141056277373632019-08-20T05:12:00.001-07:002019-08-24T23:14:17.849-07:00Beat Freq<span style="font-family: "courier new" , "courier" , monospace;">The idea for this module came from a schematic that has been floating around the web for years - 'beat frequency indicator'</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">The idea is to feed the circuit two signals and depending upon which one had the higher frequency the ring of 4 LEDs would light up in a clockwise or anti-clockwise direction. The speed of rotation would indicate how close or disparate the frequencies are. If the signals have the same frequency then just one LED is lit.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">The original circuit used 74xxx series ICs for the logic, so it was simple enough to find the CMOS equivalents (sort of), then add gates corresponding to the LEDs and use the spare outputs of one chip to feed pots to make sequences. Then for good measure a discrete XNOR circuit was added to give a pseudo ring-modulator output based on the 2 incoming signals.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">In operation this module is quite unique; the CV signals return to 0 between each step, the length of each step can vary depending on the incoming signals. Gates come in spurts. The circular LED display jerks around, sometimes it completes several revolutions confidently and then stutters between two stages, sometimes it shimmers on one spot.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">At both audio rates and clock rates, this module is quite unpredictable but always seems to be putting out useful signals.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">PCB = USD18</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD20</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD160</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:beat_freq" target="_blank">Build guide on NLC wiki </a></span><br />
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<a href="https://1.bp.blogspot.com/-OtuM1CmmZB0/XVvjPqsXW3I/AAAAAAAAOjg/50IGf38zitYN8idksMqHbJ9cMMYqw8ahQCLcBGAs/s1600/20190820_155024%2Bcrop.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1600" data-original-width="493" height="320" src="https://1.bp.blogspot.com/-OtuM1CmmZB0/XVvjPqsXW3I/AAAAAAAAOjg/50IGf38zitYN8idksMqHbJ9cMMYqw8ahQCLcBGAs/s320/20190820_155024%2Bcrop.jpg" width="98" /></a></div>
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<span style="font-family: "courier new" , "courier" , monospace;">This video is from the 1st version proto-type, tho little was changed in the production version -</span><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-78053160557246836182019-08-12T01:50:00.000-07:002019-08-23T06:24:54.908-07:001U 6HP Difference Rectifier<span style="font-family: "courier new" , "courier" , monospace;">Those that build a lot of NLC modules will know this is one of my favorite circuits. The diff-rect has appeared on the Neuron, 1050 mix/sequencer, triple Sloth, GENiE and 8 of them make up the Let's Splosh.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">It is great for mixing audio and/or CV signals to get all kinds of unexpected and interesting results. <a href="http://www.sdiy.org/pinky/data/dif.html" target="_blank">This page from 2012 on my old Pinky site has some more details.</a></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;"><b>The panels are available in Pulp and Intellijel formats <u>and</u> in white/gold or black/gold, please specify when ordering.</b></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><b> </b></span>
<span style="font-family: "courier new" , "courier" , monospace;"><b>Please note, the PCBs only have eurorack 10 pin power connectors, not the Pulp Logic 3 pin type.</b></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><b><span style="font-family: "courier new" , "courier" , monospace;">PCB & panel set = USD10</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD55</span></b></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><b><span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:1u_diff_rect" target="_blank">Build guide on wiki </a></span></b></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><b><span style="font-family: "courier new" , "courier" , monospace;"> </span> </b></span>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-41851942583465811012019-07-14T23:11:00.002-07:002019-07-14T23:11:34.940-07:00Gift cardsNot sure what to give your loved one for that special occasion?<br />
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NLC giftcards are sure to put a smile on everybody's face, probably.<br />
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Anyway, paypal thru the value you would like on it and I will send you one.<br />
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Post by regular mail is free.<br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-30773595940124829732019-07-10T00:54:00.001-07:002019-07-14T23:00:42.469-07:00Cellular Automata<span style="font-family: "courier new" , "courier" , monospace;">This is a 16 cell gate and pattern generator using cellular automata rules 90 & 150. It will run thru a process driven by a clock signal and requires a signal on one of the seed inputs (anything crossing 1V) to start a new process or alter the current one.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">A process without seeds may run for hours or minutes, depending upon the start point and clock rate.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">There are 3 CV outputs, two based on what is happening on each half of the circuit, one reflects the pattern created by the active cells. Each cell has a gate output.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">The circuit uses CMOS chips and op amps, no microprocessors. It is a big build! </span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">PCB set = USD25</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">panel = USD23</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD280</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:cellular_automata" target="_blank">Build Guide & BOM</a> on the NLC wiki </span><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-64759618394528627402019-06-14T05:57:00.001-07:002019-07-28T00:05:20.494-07:001U Sloth Chaos<span style="font-family: "courier new" , "courier" , monospace;">These are Sloth chaos modules available in 1U 6HP panels.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<b><span style="font-family: "courier new" , "courier" , monospace;">The panels are available in Pulp and Intellijel formats <u>and</u> in white/gold or black/gold, please specify when ordering.</span></b><br />
<b><span style="font-family: "courier new" , "courier" , monospace;">Please note, the PCBs only have eurorack 10 pin power connectors, not the Pulp Logic 3 pin type.</span></b><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">They are available in 3 variations, the same as on the triple Sloth panel; Torpor (15-20 second orbits), Apathy (1-3 minute orbits) and Inertia (15-20 minute orbits). The same PCB is used for all 3 variations.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">Each has 2 outputs which supply different signals drawn from different stages of the circuit. The input can be used to inject a signal into the circuit, some signals will have no effect, others will cause periodicity at different stages, others will alter the chaotic orbits. I find very slow sine signals, from the Feague, are very good. Of course you do not have to input any signal, the sloths will happily meander along without any help.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><b>Please note version 1 (V1) of the bottom PCB has the printing on the wrong side. Install the jacks and LED on the blank/unprinted side of the PCB.<br />See pics below as an example on how to connect the PCBs. </b></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">PCB & panel set = USD10</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD55</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:1u_sloth" target="_blank">Build Guide on the NLC wiki </a></span><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com1tag:blogger.com,1999:blog-6918895597120447959.post-74992290772111732182019-05-23T08:11:00.000-07:002019-09-02T21:46:19.896-07:00Dispersion DelayThis module is based on ideas suggested by <a href="http://dualplover.com/abela/" target="_blank">Lucas Abela</a>.<br />
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It is three vactrol based bandpass filters in parallel, each filter is fed into a voltage controlled delay stage. The outputs are available individually or there is an OUT ALL where all 3 signals are mixed.<br />
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Me being me designed the delays to go into stutter/zipper/breakdown territory to create the usual noise I love. If desired the delays can be built to remain in their normal operating regions.<br />
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PCB set = USD25<br />
Panel = USD26<br />
Assembled = USD260<br />
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<a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:dispersion_delay" target="_blank">Build info on the NLC wiki</a><br />
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<a href="https://soundcloud.com/subconsciousinclination/nlc-dispersion-delay-demo" target="_blank">Steve's soundcloud demo</a><br />
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<iframe allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen="" frameborder="0" height="315" src="https://www.youtube.com/embed/u33SGrmgZ-I" width="560"></iframe>
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<span style="font-size: xx-small;"><a href="https://chaser.com.au/general-news/i-know-how-bathrooms-should-be-used-says-guy-who-shat-his-pants-in-engadine-maccas-in-1997/" target="_blank">Engadine Maccas 97</a></span><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com1tag:blogger.com,1999:blog-6918895597120447959.post-88707133909117491392019-05-23T07:51:00.002-07:002019-06-06T06:24:20.423-07:00DelayNoMore 3<span style="font-family: "courier new" , "courier" , monospace;">This module contains three PT2399 delay chips that feed into each other to create a loop.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">The delay time for each stage is individually CV controlled and each stage has feedback controls to itself and the previous stage.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">Each delay stage can be isolated and used on its own so the module can be used as a triple delay or a 3 stage delay.....kind of: </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">If you are familiar with the original DelayNoMore, you will know it is a crap delay but an excellent noise module, this one is designed to be much the same. The big differences being 3 delay stages instead of 2, CV control over all 3 stages instead of 1 and, as mentioned, the stages can be used individually.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">To use, the input signal(s) can be patched into the 1-3 inputs and the three outputs can ll be used to get different signals. The 2nd row of inputs use the jack switches to forward the output of each stage to the input of the next, so if you wish to use the delays individually, use these inputs to break the loop.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">There are pads on the PCB to place resistors in parallel with the LDRs in the vactrols, this is to tame the delay times somewhat. It is up to the builder to decide how lame or how out of control they want this module to be.</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;">PCB = USD22</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD26</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD240</span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:delaynomore3" target="_blank">build info on NLC wiki</a></span><br />
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<a href="https://soundcloud.com/subconsciousinclination/nlc-delay-no-more-3-demo" target="_blank">Steve's soundcloud demo</a><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-62622147902720026202019-05-08T05:32:00.003-07:002019-05-08T05:35:58.655-07:004HP MIXThe simplest module in the NLC range, a 4 input mixer. It has just 14 components to solder onto the PCB, so a very gentle intro to surface mount soldering.<br />
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The pots are 0 at centre, -1x gain to the left (inverts) and 1x gain to the right.<br />
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Pot 4 will act as a voltage offset if nothing is patched into input 4. It can supply -5V to +5V of offset. If you do not want any offset, leave pot 4 at midpoint, or patch your signal into input 4.<br />
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The module will work with audio and CV signals. It is useful for creating sequences from logic modules such as the Divide&Conquer, BOOLs or 1/n.<br />
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PCB & panel set = USD12<br />
assembled = USD60<br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-53577466904883207792019-04-29T06:48:00.004-07:002019-04-29T06:51:51.333-07:00Bi-di Choppers<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">This is a dual stripped version of the original Chopper. A very easy build with few components. It can be used as a 1 into 2 switch or 2 into 1. A CV signal can be used to help control the switching point, tho Choppers are different from regular switches as the signals being switched also control the switching.</span></span><br />
<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">It can be used to process CV and audio signals.</span></span><br />
<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">The basic idea for the Chopper is from</span></span><span style="font-family: "times new roman" , "serif"; font-size: large; line-height: 115%;"><span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;"> a 1975 paper titled – ‘A
nonlinear modulator using delta principles’ by S.K. Mullick and K.R Srivathsan, although this version drops the comparator output, makes the slew stage adjustable, converts the 2 inputs so they can also be outputs and adds an in/out stage before the slew section.</span></span></span><br />
<span style="font-size: large;"><br /></span>
<span style="font-family: "courier new" , "courier" , monospace; font-size: large;">PCB = USD15</span><br />
<span style="font-family: "courier new" , "courier" , monospace; font-size: large;">panel = USD20</span><br />
<span style="font-family: "courier new" , "courier" , monospace; font-size: large;">assembled = USD160</span><br />
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nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-77836729183915776832019-04-29T06:06:00.001-07:002019-05-08T06:57:24.389-07:001/nThis module is straight out of the Lunetta playbook. It is simply a CMOS 4018 with buffers on all of its inputs and outputs, along with a 4081 to enable further divisions.<br />
The divide by is patch-programmable, simply patch whichever number you wish to divide by back into the input and feed it a clock. The other outputs will follow the 1/n at various phase differences depending upon what is going on.<br />
You can get quite silly by feeding signals into the J1-J5 inputs (jam) and sending a high signal (anything over 1V) to the preset enable.<br />
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PCB set = USD22<br />
8HP Panel = USD20<br />
assembled = USD190<br />
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<a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:divide_by_n" target="_blank">Build guide and panel template on the NLC wiki </a><br />
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nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-89600077459222195352019-04-10T07:27:00.000-07:002019-04-12T06:45:18.345-07:00I can't believe it's not a VCOPCB set = USD20<br />
panel = USD20<br />
assembled = USD180<br />
<br />
This module is based on ideas presented in Electronotes #132. It is a VCF with a 'filter exciter' section to allow a wide variety of acoustic, semi-acoustic and not-acoustic-at-all sounds. In a sense it takes the concept of pinging the LPG or ringing a VCF one step (or 2) further. The decaying sound is fed back into the input via a VCA. The VCA can be controlled by a gate or an envelope (or both).<br />
Another interesting point is higher frequency sounds tend to be louder.....which is what happens naturally in the big room.<br />
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<a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:icbinav" target="_blank">Build guide & panel template on the NLC wiki </a><br />
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com2tag:blogger.com,1999:blog-6918895597120447959.post-26156726907660458792018-12-31T23:17:00.000-08:002019-01-08T18:18:06.715-08:00Signum Hyperchaos<span style="font-family: "courier new" , "courier" , monospace;">This is an expansion of Primal Hyperchaos, based on the description in a
paper by C Li, et al. The internal signum switch has been brought out
to the panel. It can be used as a stand-alone switch (don’t expect it to
be clean and nice) or it can be used to inject signals into the
hyperchaos circuit or control the switching of the hyperchaos. Some
actions will make the oscillations stop; others will make them go nuts;
experiment! </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">
</span><span style="font-family: "courier new" , "courier" , monospace;">
It can be built to run at different speeds simply by installing
different capacitors. Very easy build, no special components needed.
</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">
</span><span style="font-family: "courier new" , "courier" , monospace;">
There are 5 different CV outputs and 1 gate output. The CV IN is
associated with the CLIMAX pot which determines how high the peaks go.
The module can be greatly influenced by the CV in signal and can exhibit
some fairly nutty responses at times. </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">
</span><span style="font-family: "courier new" , "courier" , monospace;">
IN1 and IN2 are the inputs for the Signum switch, they are also
connected via their switching pins to the internal workings of the
hyperchaos circuit. SW2 is also the internal switch for the hyperchaos
circuit so if you use this input you will find that switching only
occurs with an external signal. Use SW1 if you want to control the
switching of the hyperchaos with an external signal.</span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">
</span><span style="font-family: "courier new" , "courier" , monospace;">
As ‘signum’ implies, the switching signal is +1 or -1. This means you
need a signal crossing 0 to make switching occur. A regular gate may or
may not work, depending whatever else is going on at the time.
The signum output is also the W output, as indicated on the panel. </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:signum_hyperchaos" target="_blank">Build guide & panel template </a></span><br />
<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>
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<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-36468186003086443002018-12-31T21:47:00.003-08:002019-01-04T19:46:47.022-08:00GENiE - GEneralized Nonlinear Extrapolator<!--[if gte mso 9]><xml>
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<![endif]--><span style="font-family: "courier new" , "courier" , monospace;">GEneralized Nonlinear Extrapolator </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">This module is made of 3 neuron circuits and a difference rectifier. The
neuron outputs are fed to the switching pins of the next neuron’s
attenuated input; 1>2, 2>3, 3>1. This means the circuit will
work with a single input signal, delivering all kinds of mayhem at the
outputs. </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">There are also 4 shared inputs so that the same signals can be fed to
neurons 1&2 and neurons 2&3.
The Difference Rectifier compares the outputs of neurons 1&3 to the
output of neuron 2.
If you want to use the neurons individually then turn down the input
pots or use the upper neuron specific inputs to disconnect the signals
coming from its neighbour. </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">Just like a set of synaptically connected neurons, this module is noisy
and unruly. It is never going to learn anything it lives in and for the
moment.
It can be used to process audio, CV or audio and CV……do whatever you
like to it. </span><br />
<br />
<span style="font-family: "courier new" , "courier" , monospace;">The name is from the computer described in the 1964 Keith Laumer novel –
The Great Time Machine Hoax, although this module differs in ability
(can’t time travel or get married ….. afaik), the name is quite
suitable. </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">PCB = USD20 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD22 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD200 </span><br />
<br />
<br />
<span style="font-family: "lucida console";"><span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:genie" target="_blank">Build guide and panel template </a></span></span><br />
<br />
<div class="separator" style="clear: both; text-align: center;">
</div>
<div class="separator" style="clear: both; text-align: center;">
<a href="https://2.bp.blogspot.com/-qBlHwGtYmkc/XCr--ALbcvI/AAAAAAAAOJY/mHWN97xcGNA_LgnT8ZEXatsQZI7h8nR9gCLcBGAs/s1600/20181231_151619.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1600" data-original-width="900" height="320" src="https://2.bp.blogspot.com/-qBlHwGtYmkc/XCr--ALbcvI/AAAAAAAAOJY/mHWN97xcGNA_LgnT8ZEXatsQZI7h8nR9gCLcBGAs/s320/20181231_151619.jpg" width="180" /></a></div>
<div style="text-align: center;">
<br /></div>
<div style="text-align: center;">
<span style="background-color: yellow;"><a href="https://soundcloud.com/subconsciousinclination/nlc-genie-demo" target="_blank">Steve's GENiE demo on soundcloud</a></span></div>
<div style="text-align: center;">
<span style="background-color: yellow;"> </span></div>
<div class="separator" style="clear: both; text-align: center;">
<a href="https://1.bp.blogspot.com/-iIwQf5cddNw/XCr-9CcmFAI/AAAAAAAAOJU/LWnkUx3proEup6PSYC31Amj69DP9D8X-wCLcBGAs/s1600/20181231_151631.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="1600" data-original-width="741" height="320" src="https://1.bp.blogspot.com/-iIwQf5cddNw/XCr-9CcmFAI/AAAAAAAAOJU/LWnkUx3proEup6PSYC31Amj69DP9D8X-wCLcBGAs/s320/20181231_151631.jpg" width="148" /></a></div>
<br />
<br />
<iframe allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen="" frameborder="0" height="315" src="https://www.youtube.com/embed/XeeDYQ4c96Q" width="560"></iframe>
<br />
<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-61771757989773243542018-12-31T21:03:00.001-08:002019-01-04T06:32:59.348-08:00SPASM - LDR controlled jerk chaos<!--[if gte mso 9]><xml>
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<br />
<span style="font-family: "lucida console";">This module takes the classic
Sprott jerk circuit and replaces all the resistors with LDRs.....a 7 way
vactrol. This means the brightness of the LED in the giant vactrol controls the
frequency of the circuit.</span><br />
<span style="font-family: "lucida console";">It is a very easy build and will
give you a very flexible chaotic circuit. The CV inject jack allows you to
control the chaos with gates and CV, some signals will cause it to pause or
stall, others will make it glitch & freak out. CV freq controls the LED
which, in turn, controls the resistance in the LDRs.</span><br />
<span style="font-family: "lucida console";">It is a very flexible build; you
can use any LDRs you like, so long as they are the same. You can also use any
capacitors you like for CAP, so long as they are the same.</span><br />
<span style="font-family: "lucida console";">Of course, the LDRs and
capacitors you choose will affect the behaviour & frequency range of the
circuit. GL5516 LDRs go to 500kΩ off resistance whereas GL5549 go to 10MΩ+
(anywhere from 10MΩ to 20MΩ), so will be a lot slower but will give a much
wider frequency range and some very unpredictable outputs. Similarly with
capacitors 10uF will be a lot slower than 10nF.</span><br />
<span style="font-family: "lucida console";">If going for the more extremely
slow values, GL5549 LDRs and 10uF caps, the module will stall at minimum pot
settings and generally needs a CV on the CV freq input to make it operate. This
is actually a good thing as you can turn the signals on and off with CV or
gates.</span><br />
<br />
<span style="font-family: "lucida console";">PCB set = USD20</span><br />
<span style="font-family: "lucida console";">Panel = USD20</span><br />
<span style="font-family: "lucida console";">assembled = USD160</span><br />
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<span style="font-family: "lucida console";"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:spasm" target="_blank">Build guide and panel template </a></span><br />
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<iframe width="560" height="315" src="https://www.youtube.com/embed/AxIyhGfskn4" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe>
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nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-24246219077891179332018-12-31T19:24:00.001-08:002019-01-03T07:09:05.415-08:00(bad) Digital Filter Simulator<span style="font-family: "courier new" , "courier" , monospace;">This module is based on ideas presented in a 1969 IEEE paper titled - Hybrid Implementation for Sampled-data controllers. The paper presents the canonical form of a generalised digital filter made using analogue elements.....yes this is an analogue circuit; all CMOS and op amps. I played around with various versions for a few years and, as usual, settled on the simplest and cheapest version.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">Incoming audio signals (or CV if you want to use it as a pattern generator) are fed to a 4 bit A/D stage, these 4 bits then go thru a 4 stage delay (shift registers). Each delayed bit is re-united with its siblings via four D/A stages and the stepped signals are then fed back to the input via an attenuator/inverter stage and are fed to the summed output, again via an attenuator/inverter stage.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The circuit is controlled by the clock input that ticks over the shift registers. CV controlling the VCO that supplies the clock signal will in turn control the filter. The Range pot needs to be set to a suitable level, I like it when the peak LED is flickering. Range can also be controlled by CV which will allow you to shift from a 1 bit signal to a 4 bit or overdrive the crap out of it and lock everything up. It is interesting to supply clock signals that are multiples or divisions of the audio signal, but like all NLC modules, feel free to do whatever you like. As mentioned, supplied with a gate and a CV it will perform as a complex pattern generator as well.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">I will get a demo up soon, but will promise this doesn't sound like a filter......it is very noisy and splatty.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB set = USD22</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD22</span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Assembled = USD220</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:digi_filter_simulator" target="_blank">Wiki page with build guide</a> </span><br />
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<iframe width="560" height="315" src="https://www.youtube.com/embed/WAOG4oIaIm4" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe>
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<iframe width="100%" height="300" scrolling="no" frameborder="no" allow="autoplay" src="https://w.soundcloud.com/player/?url=https%3A//api.soundcloud.com/tracks/553523982&color=%23ff5500&auto_play=false&hide_related=false&show_comments=true&show_user=true&show_reposts=false&show_teaser=true&visual=true"></iframe>
<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-34664615833440107762018-11-02T05:15:00.000-07:002018-11-02T08:48:49.245-07:00Balter - Dual VC Gate Delay<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">Are your beats tighter than a gnat's chuff? Whynot loosen off that ponytail and balter with a VC gate delay?</span></span><br />
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<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">CV controlled delay ranges from 7 milli-seconds to 1 minute.</span></span><br />
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<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">PCB - USD15</span></span><br />
<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">8HP panel - USD20</span></span><br />
<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;">assembled - USD150</span></span><br />
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<span style="font-size: large;"><span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:balter" target="_blank">Build guide on NLC wiki</a> </span></span><br />
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nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0tag:blogger.com,1999:blog-6918895597120447959.post-22206520053958558872018-10-30T07:26:00.001-07:002018-11-09T02:52:25.349-08:00The Big Room (Reverb)<span style="font-family: "courier new" , "courier" , monospace;">This module merges the Polyfusion reverb driver circuit with the NLC Segue for VC panning between wet and dry signals. It also has a VC feedback circuit....be careful with that one 😁</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The driver circuit was used in the NLC CellF Voice panel, I always liked it and received good feedback from people who owned these panels, so stuck with the design. The downside is it rquires a particular reverb tank, <a href="https://www.tubesandmore.com/products/reverb-tank-mod-4fb3a1b" target="_blank">which is easily available for USD19</a>, so not really a big deal. Builders could try experimenting with the driver circuit to make it work with other tanks but imho it sounds thick and cavernous with the tank it is designed for.</span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">The PCBs form a giant vactrol case for the LDRs used in the panning circuit. </span><br />
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<span style="font-family: "courier new" , "courier" , monospace;"><a href="https://www.nonlinearcircuits.com/wiki/doku.php?id=modules:the_big_room" target="_blank">Build Guide and other info on the NLC wiki </a></span><br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB set = USD24 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD22 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD200 (Reverb tank not included, it will be much cheaper to order your own directly from <a href="https://www.tubesandmore.com/products/reverb-tank-mod-4fb3a1b" target="_blank">the supplier</a>) If in EU, <a href="https://www.tube-town.net/ttstore/Parts-for-Amps/Reverb-Tanks/Reverb-Tanks/MOD-Reverb-Tank-4FB3A1B::6858.html?language=en&fbclid=IwAR3V-fNhH41uAoT0M9H_6aY-TikXiPnVqKzwX_X2QiQ4naq1AodyXfMwu_A" target="_blank">maybe cheapest from here</a>.</span><br />
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<span style="color: red;"><a href="https://soundcloud.com/subconsciousinclination/nlc-the-big-room-reverb-demo" target="_blank">DEMO by Steve</a></span></div>
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<span style="font-family: "courier new" , "courier" , monospace;"><br /></span>nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com4tag:blogger.com,1999:blog-6918895597120447959.post-78828847860272993182018-10-04T22:03:00.001-07:002018-10-05T00:31:23.179-07:00Dual LPGDual Low Pass Gate - pretty standard except it uses the black box vactrol method seen in the Shat-noir Phaser and Noiro-ze VCF/VCA. DG analogue switches are used for changing between filter and gate modes.<br />
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<span style="font-family: "courier new" , "courier" , monospace;">PCB set = USD24 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">Panel = USD22 </span><br />
<span style="font-family: "courier new" , "courier" , monospace;">assembled = USD200</span> <br />
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<a href="https://soundcloud.com/subconsciousinclination/nlc-dual-lpg-demo" target="_blank"><br /></a>
<a href="https://soundcloud.com/subconsciousinclination/nlc-dual-lpg-demo" target="_blank">soundcloud demo by Steve</a><br />
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<iframe allow="autoplay; encrypted-media" allowfullscreen="" frameborder="0" height="315" src="https://www.youtube.com/embed/jtALqjCFgnY" width="560"></iframe>
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<br />nonlinearcircuitshttp://www.blogger.com/profile/00896502536998910040noreply@blogger.com0