Amplifier_6C/04_documentation/ausound/sound-au.com/project62b.htm

<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd">
<html lang="en">
<head>
	<link rel="canonical" href="project62b.htm" />
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8">
	<meta name="description" content="Elliott Sound Products - The Audio Pages. Build a modular lighting controller, audio projects to build, and many other articles about audio topics.">
	<meta name="keywords" content="light,strobe,triac,dimmer,control,audio,amplifier,sound,hi-fi,schematic,electronic,xover,crossover,speaker,power,supply,projects,decoder">
	<meta name="Author" content="Rod Elliott - Elliott Sound Products">
	<title>Elliott Sound Products - Project 62b - LX-800 Lighting Controller</title>
	<link rel="StyleSheet" href="esp.css" type="text/css" media="screen, print">
	<style TYPE="text/css"><!-- td { font-size: 11pt } --> </style>
	<link rel="shortcut icon" type="image/ico" href="favicon.ico">
<script async src="https://pagead2.googlesyndication.com/pagead/js/adsbygoogle.js"></script>
<script>
     (adsbygoogle = window.adsbygoogle || []).push({
          google_ad_client: "ca-pub-1947877433449191",
          enable_page_level_ads: true
     });
</script>
</head>
<body>
<table style="width:100%"><tr><td><img src="esp.jpg" alt="ESP Logo" height="81" width="215">
<td align="right">

<script async src="https://pagead2.googlesyndication.com/pagead/js/adsbygoogle.js"></script>
	<!-- 468x60, created 20/08/10 -->
	<ins class="adsbygoogle"
	style="display:inline-block;width:468px;height:60px"
	data-ad-client="ca-pub-1947877433449191"
	data-ad-slot="7119701939"></ins>
	<script>
	(adsbygoogle = window.adsbygoogle || []).push({});
</script>

</td></table>

<table style="width:100%" class="tblblue"><tr><td class="hdrl">&nbsp;Elliott Sound Products</td>
<td align="right" class="hdrr">Project 62-B&nbsp;</td></tr></table>

<h1>LX-800 Chaser &amp; Strobe</h1>

<!-- AddThis Button BEGIN -->
	<div class="addthis_inline_share_toolbox"></div>
<!-- AddThis Button END -->

<hr /><b>Introduction</b>
<p>The strobe controller is essentially a stand-alone device, even though it is part of the console PCB.&nbsp; It connects through a two-wire cable to the remote strobe head.&nbsp; Control, input source selection and output routing are on the console.</p>

<table border="1" style="width:100%">
<tr class="tblyel"><td align="center" class="t_12b"><br /><b>WARNING</b> - Strobes can be DANGEROUS and can induce epileptic fits.&nbsp; Use sparingly and with caution.<br /><br /></td></tr></table>

<p>The input to the strobe controller and/or chaser is either through a bass-beat extractor circuit or a free-running oscillator, both of which are shared by the chaser and the strobe controller.</p>


<hr /><b>Bass Beat Extractor</b>
<p>The bass beat extractor is shown in Figure 5, and consists of an automatic gain control circuit followed by a low pass filter.&nbsp; The output from this circuit is fed to the next, which converts the beat into a sharp pulse suitable for triggering the strobe or chaser.</p>

<p class="t-pic"><img src="p62-f5.gif" alt="Figure 5" border="1" /><br />Figure 5 - Bass Beat Extractor</p>

<p>This circuit uses only the +12V supply.&nbsp; The limiter circuit will not win any prizes for linearity or distortion, but this is of no consequence for this purpose.&nbsp; The diodes are 1N4148, resistors are 1/4W.&nbsp; Capacitors should be rated at 25V minimum.</p>


<hr /><b>Strobe / Chaser Controller</b>
<p>The controller is based on a pair of 555 timers.&nbsp; One is used to clean up the bass signal into a suitable pulse, and the other is running as an astable oscillator.&nbsp; The maximum frequency can be limited by adjusting the trimmer and the speed control through the front-panel control.&nbsp; The switches select either the bass-beat extractor output, or the free-run oscillator described here.</p>

<p class="t-pic"><img src="p62-f6.gif" alt="Figure 6" border="1" /><br />Figure 6 - Strobe and Chaser Controller</p>

<p>The first section is used to capture the bass peaks.&nbsp; The sensitivity of the bass beat extractor is adjusted with VR1.&nbsp; The free running oscillator is based on U3, a 555 timer, and the speed is controlled by VR2.&nbsp; VR3 (a trimpot) is used to set the maximum frequency.&nbsp; The switching determines if the strobe and/or chaser are controlled by the oscillator or the bass beat, and each is independently selectable.&nbsp; The signal to either can also be switched off entirely.&nbsp; The Flash button is used to create a single strobe flash - really useful for creating lightning effects.&nbsp; Diodes are 1N4148, resistors are 1/4W.&nbsp; Capacitors should be rated at 25V minimum.</p>


<hr /><b>Chaser</b>
<p>The chaser was developed out of an urgent need by one of the directors of a show I was involved in.&nbsp; It was designed, de-bugged and constructed in a single evening - because the director wouldn't take no for an answer (show me a theatrical director who does!).&nbsp; Consequently, it is simple in the extreme - but still effective.</p>

<p>It is based on a CMOS 4017 decade counter, forced to reset at the nine count and resume from count 1.&nbsp; There are eight steps in each cycle before it repeats itself.&nbsp; Outputs are routed through the usual diode-coupled precedence hook-up.&nbsp; Input is either from the bass-beat extractor or from the free-run oscillator.</p>

<p>The chaser level control allows you to adjust the light level - if this is omitted, the lamps will flash at full brightness, which may not be desirable.&nbsp; With the level control shown, the maximum brightness will actually be a little lower than fully on - this is unlikely to be a limitation, as the light level difference will be barely noticeable.</p>

<p class="t-pic"><img src="p62-f7.gif" alt="Figure 7" border="1" /><br />Figure 7 - Chaser</p>

<p>The circuit uses transistors to buffer the outputs from the CMOS counter.&nbsp; This is done for three reasons.&nbsp; Firstly, the output current from a CMOS IC is not great, and the buffers provide protection from external static fields which will damage a CMOS device instantly.&nbsp; Last but by no means least, is that the level control would not be possible otherwise.&nbsp; All transistors are BC548 or similar (e.g. 2N2222), and diodes are 1N4148, resistors are 1/4W.&nbsp; Capacitors should be rated at 25V minimum.</p>

<hr /><b>Strobe Head</b>
<br /><br />

<table border="1" style="width:100%">
<tr class="tblyel"><td class="t_12b"><b>WARNING</b> - The circuitry in a strobe head operates at very high AC and DC levels.&nbsp; These voltages are LETHAL.&nbsp; Take adequate precautions when testing, fault-finding and so on.&nbsp; If you are unsure of how to work with potentially lethal voltages - <i>do not attempt to build this circuit</i>.&nbsp; Ask a competent person for help.</td>
</tr></table>

<p>Brian said that he is not at all comfortable designing, testing and building circuits like this.&nbsp; To quote his words at the time ... "The voltages are very high, with some potentially lethal potentials lurking behind capacitor terminals.&nbsp; So, in my typically cowardly fashion, I went looking for a solution on the web, and found something.&nbsp; It works well, is relatively simple and the parts are easily acquired."</p>

<p>The strobe circuit was not provided with the remaining circuits, but you may either browse the web to see what you can find, or look at <a href="project65.htm" target="_blank">Project 65</a>.&nbsp; The only requirement is that the strobe head can be triggered by a positive-going pulse of about 12V.&nbsp; Strobes that rely on a contact closure (for example a modified photo-flash) will not work without further modification.</p>


<hr /><b>Switched Outputs</b>
<p>In the main console drawing, there is a row of switches on the left hand side.&nbsp; These are used to switch any lamp fully on, and may be used on the main output bus (see below), or sent to a separate Dim-Rak 8 unit as shown earlier for a full system.&nbsp; While the circuitry for a row of switches is hardly challenging, it is included to complete the project.</p>

<p class="t-pic"><img src="p62-f8.gif" alt="Figure 8" border="1"><br />Figure 8 - Switched Output Circuit</p>

<p>There is a LED indicator for each output, and this adds an additional small load to the 10V regulator.&nbsp; Each LED draws around 4mA, so if all switches were on, that represents an extra 32mA from the 10V supply.&nbsp; The revised version will handle that with ease.</p>
<p>It is important to realise that the general limits imposed by outlet current ratings mean that you must be very careful not to exceed the maximum current.&nbsp; If you were to use 8 x 1000W lamps, then you would normally only be able to switch on two at any one time.&nbsp; It is more likely that the switched outputs would be used for low power lights (including perhaps specialty lighting such as small lasers, mirror balls and similar relatively low current devices).</p>

<table border="1" style="width:100%">
<tr><th width="16%"><a href="project62.htm">Overview</a></th>
<th width="16%"><a href="project62a.htm">Channels &amp; S2L</a></th>
<th width="16%">Chaser &amp; Strobe</th>
<th width="16%"><a href="project62c.htm">Power Control</a></th>
<th width="16%"><a href="project62d.htm">Connections</a></th>
<th width="16%"><a href="project62e.htm">Miscellaneous</a></th></tr>
</table><br /><br />

<center>&nbsp;
	<script async src="https://pagead2.googlesyndication.com/pagead/js/adsbygoogle.js"></script>
	<!-- 728x90 -->
	<ins class="adsbygoogle"
	style="display:inline-block;width:728px;height:90px"
	data-ad-client="ca-pub-1947877433449191"
	data-ad-slot="9701674198"></ins>
	<script>
	(adsbygoogle = window.adsbygoogle || []).push({});
	</script>
</center>

<hr /><span class="imgswap"><a href="index.html" style="display:block;"><img src="a1.gif" alt="Home"/><b class="bb">Main Index</b></a></span>
<span class="imgswap"><a href="projects.htm" style="display:block;"><img src="a1.gif" alt="Projects"/><b class="bb">Projects Index</b></a></span><br />

<table border="1" class="tblblk">
<tr><td class="t-wht"><a id="copyright"></a><b>Copyright Notice.</b> This article, including but not limited to all text and diagrams, is the intellectual property of Brian Connell and Rod Elliott, and is &copy;  2000.&nbsp; Reproduction or re-publication by any means whatsoever, whether electronic, mechanical or electro-mechanical, is strictly prohibited under International Copyright laws.&nbsp; The author/editor (Brian Connell/Rod Elliott) grants the reader the right to use this&nbsp; information for personal use only, and further allows that one (1) copy may be made for reference while constructing the project.&nbsp; Commercial use is prohibited without express written authorisation from Brian Connell and Rod Elliott.</td></tr>
</table>
<div class="t-sml">Page Created and Copyright (c) Rod Elliott/Brian Connell 14 Jul 2000</div><br />

<script type="text/javascript" src="https://s7.addthis.com/js/300/addthis_widget.js#pubid=ra-5cd8c929c555da1d"></script>
</body>
</html>