glados.no/_files/sound/bss/london/manual/MAIN/Crossover.html

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			<h1 class="firstHeading">Crossover</h1>
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				<p id="siteSub"><img src="Crossover.JPG" alt="" border="0"></p>
				<p>A fully featured loudspeaker management processor consisting 
				 of various alignments of crossover filters, <a href="MAINGainMute.htm">gain</a> 
				 controls, and mid-band <a href="Limiter.html">limiters</a>. 
				 The limiter is a two-stage protection limiter for protecting 
				 against amplifier clipping and loudspeaker damage. The 
				 first stage has ballistics suitable for long term protection 
				 whilst retaining transparency and minimising signal level 
				 loss. The second stage has much faster ballistics to protect 
				 against loudspeaker over-excursion. Limiter ballistics 
				 are automatically set by the system to give the optimum 
				 performance based on the high-pass frequency of the band. 
				 Options include <a href="Delay.html">delays</a>, <a href="MAINPhase_Filter.htm">phase 
				 filters</a> and limiter metering.</p>
				<p>&#160;</p>
				<h2>Inputs and Outputs</h2>
				<p>The single channel crossover has</p>
				<ul>
					<li class="p"><p class="hcp1">One audio 
					 output per band</p></li>
					<li class="p"><p class="hcp1">One common 
					 audio input.</p></li>
					<li>When the option for Inserts On is selected, there 
					 is one input per band.</li>
				</ul>
				<p>&#160;<br>
				The stereo crossover has</p>
				<ul>
					<li class="p"><p class="hcp1">2 audio 
					 outputs per band</p></li>
					<li class="p"><p class="hcp1">2 audio 
					 inputs.</p></li>
					<li>When the option for Inserts On is selected, there 
					 are 2 inputs per band.</li>
				</ul>
				<p>Adjustment of controls has the same effect on both input 
				 channels and the corresponding band output channels.</p>
				<div class="editsection" style="float: right; margin-left: 5px;">
					<p>&#160;</p>
					<h2>Properties</h2>
					<h4>Number of Bands (1-6)</h4>
					<ul>
						<li class="p"><p>Select the number of output bands 
						 in the crossover.</p></li>
					</ul>
					<h4>Delay (off/on)</h4>
					<ul>
						<li class="p"><p>A delay-line may be inserted into 
						 each band for aligning loudspeaker drivers in 
						 time.</p></li>
					</ul>
					<h4>Meters (off/on)</h4>
					<ul>
						<li class="p"><p>Metering may be added to monitor 
						 the action of the limiters.</p></li>
					</ul>
					<h4>Phase Filters (off/on)</h4>
					<ul>
						<li class="p"><p>Phase filters may be included 
						 to apply phase shifts between adjacent bands for 
						 fine-tuning alignment.</p></li>
					</ul>
					<h4>Inserts (off/on)</h4>
					<ul>
						<li class="p"><p>The input feeds to the crossover 
						 filters are normally internally connected together 
						 to form a single common input, they may optionally 
						 be split into separate inputs so that <a href="Equalisation.htm">equalisation</a> 
						 (for example) can be uniquely applied to individual 
						 outputs without disturbing the calibration of 
						 the limiter.</p></li>
					</ul>
					<h4>Filters (out/24dB/48dB)</h4>
					<ul>
						<li class="p"><p>For each band the high and low 
						 filter roll-off slopes can be set individually.</p></li>
					</ul>
					<h4>Signal Names</h4>
					<ul type="disc">
						<li class="p"><p>Custom signal names can be inserted 
						 for each output band. Placing the '$' symbol in 
						 front of the name will cause that output name 
						 to be preceded by the signal name at the input</p></li>
					</ul>
					<h4>Low Frequency Optimisation</h4>
					<ul type="disc">
						<li class="p"><p>Defaults to YES. &#160;Optimised 
						 IIR filter for improved low frequency performance. 
						 &#160;This is optional to maintain backwards compatibility 
						 with existing designs.</p></li>
					</ul>
					<h2>Control Panel</h2>
					<p><img src="Crossovercp.JPG" alt="image:crossovercp.JPG" title="image:crossovercp.JPG" style="border-width: 2px; 
							 border-style: solid; margin-top: 0px; margin-bottom: 0px; 
							 margin-left: 0px; margin-right: 0px;" width="665" height="654" border="2"></p>
					<p>The graphical representation of crossover areas 
					 indicates what part of the frequency range each band 
					 occupies. Each band is represented by a different 
					 colour curve. A triangular control handle is provided 
					 at each band edge, an upward triangle for the lower 
					 band edge and a downward triangle for the upper band 
					 edge. These are initially paired with the corresponding 
					 control handle of the adjacent band edge at thge same 
					 frequency, but can be split to provide a frequency 
					 offset between bands. A further set of control handles 
					 allow the crossover point of both bands to be adjusted 
					 together maintaining any offset.</p>
					<p>&#160;</p>
					<h2>Parameters</h2>
					<h4>Filter Type</h4>
					<ul>
						<li class="p"><p class="hcp1">This 
						 combo box selects the type of response for a crossover 
						 band edge (the crossover filter 'shape').</p></li>
						<li>Note that the shape can be set differently 
						 on each band edge and, even on adjacent band edges, 
						 although this latter situation is probably best 
						 avoided in audio terms.</li>
					</ul>
					<p>The filter types available are:</p>
					<ul>
						<li class="p"><p class="hcp1">Butterworth 
						 6dB/Octave</p></li>
						<li class="p"><p class="hcp1">Butterworth 
						 12dB/Octave</p></li>
						<li class="p"><p class="hcp1">Bessel 
						 12dB/Octave</p></li>
						<li class="p"><p class="hcp1">Linkwitz-Riley 
						 12dB/Octave</p></li>
						<li class="p"><p class="hcp1">Butterworth 
						 18dB/Octave</p></li>
						<li class="p"><p class="hcp1">Butterworth 
						 24dB/Octave</p></li>
						<li class="p"><p class="hcp1">Bessel 
						 24dB/Octave</p></li>
						<li class="p"><p class="hcp1">Linkwitz-Riley 
						 24dB/Octave</p></li>
						<li class="p"><p class="hcp1">Neville 
						 Thiele Method 36dB/Octave</p></li>
						<li class="p"><p class="hcp1">Butterworth 
						 48dB/Octave</p></li>
						<li class="p"><p class="hcp1">Butterworth 
						 48dB/Octave</p></li>
						<li>Neville Thiele Method 52dB/Octave</li>
					</ul>
					<h4>Frequency</h4>
					<ul>
						<li class="p"><p class="hcp1">Drag 
						 nodes horizontally with the mouse to change the 
						 crossover frequency. Normally the node at the 
						 intersection of two adjacent bands would be moved 
						 so that the adjacent bands track together.</p></li>
						<li class="p"><p class="hcp1">Some 
						 applications require adjacent crossover frequencies 
						 to be offset (overlapped for example). This can 
						 be done by selecting one band edge so it can be 
						 moved independently.</p></li>
						<li>Alternatively, the Frequency control below 
						 the window may be adjusted.</li>
					</ul>
					<h4>Gain control</h4>
					<ul>
						<li class="p"><p class="hcp1">Trims 
						 the output level of the band.</p></li>
						<li>The gain control is before the limiter, so 
						 does not alter the calibration of the limiter 
						 threshold.</li>
					</ul>
					<p><span style="font-weight: bold;">!</span> This control 
					 is capable of raising signal levels beyond the clipping 
					 point; so, care should be exercised when using positive 
					 gain values.</p>
					<h4>Delay spin box (for each band)</h4>
					<ul>
						<li class="p"><p>This sets a delay time on the 
						 band with default units in milliseconds. Units 
						 may be changed in the properties grid to metres, 
						 feet or frames.</p></li>
					</ul>
					<h4>Polarity button</h4>
					<p>Reverses the polarity of the band.</p>
					<h4>Mute button</h4>
					<ul>
						<li class="p"><p>Silences the band output.</p></li>
					</ul>
					<h4>Limiter Threshold control</h4>
					<ul>
						<li class="p"><p class="hcp1">Adjusts 
						 the level threshold above which limiting will 
						 take place.</p></li>
						<li>If other processing objects are connected between 
						 the output of the crossover and the output, the 
						 limiter threshold setting may be inaccurate, and 
						 the user must compensate for level changes which 
						 occur in these objects.</li>
					</ul>
					<h4>Meter</h4>
					<ul>
						<li class="p"><p>Displays the input signal level 
						 relative to the limiter threshold.</p></li>
					</ul>
					<p>A reading of 0dB corresponds to the limit threshold, 
					 whereas a reading of +6dB for instance means the signal 
					 is exceeding the threshold by 6dB, and is being compressed 
					 by 6dB.</p>
					<h4>Phase spin box (on control panel)</h4>
					<ul>
						<li class="p"><p class="hcp1">Adjusts 
						 the phase shift applied between a pair of bands.</p></li>
						<li>As there is some interaction between the phase 
						 controls, it is recommended that the highest frequency 
						 band phase be adjusted first, and then successively 
						 lower ones.</li>
					</ul>
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<p class="hcp1">&#160;</p>
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