Brent is correct. What I think is important to remember is that the typical system arrangement where there is a limiter followed by the power amplifier is open loop. In other words, there is no feedback from the amplifier output to tell the limiter when to engage. This means that the output voltage of the amplifier is a function of the input signal level and the amplifier's gain:
output voltage = input voltage x gain
50v = 1.0v x 50
Using the recommended method for setting up a limiter, you first set the gain knobs to maximum which means no input attenuation and effectively the maximum gain. Then you adjust the limiter threshold to achieve the desired maximum voltage. This simply means that you are lowering the input signal with the limiter, so that at the maximum amplifier gain you have maximum desired voltage.
Now, after setting the limiter, if you then lower the gain knobs on the amp (which attenuates the input signal), the limiter will engage at the same point, but the output voltage of the amplifier will be lower because the gain is effectively lower.
output voltage = input voltage x gain x attenuation
35v = 1.0v x 50 x -6db
new to external amps
Re: new to external amps
4 x T39 - 20" - 3012LF (Built 2)
4 x OT12 - 2512 - Melded/D220Ti
1 x TAT - GTO804
4 x OT12 - 2512 - Melded/D220Ti
1 x TAT - GTO804
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Re: new to external amps
Arr, I understand what you're saying, and am now wondering if I read what Brent wrote incorrectly.kkip wrote:Brent is correct. What I think is important to remember is that the typical system arrangement where there is a limiter followed by the power amplifier is open loop. In other words, there is no feedback from the amplifier output to tell the limiter when to engage. This means that the output voltage of the amplifier is a function of the input signal level and the amplifier's gain:
output voltage = input voltage x gain
50v = 1.0v x 50
Using the recommended method for setting up a limiter, you first set the gain knobs to maximum which means no input attenuation and effectively the maximum gain. Then you adjust the limiter threshold to achieve the desired maximum voltage. This simply means that you are lowering the input signal with the limiter, so that at the maximum amplifier gain you have maximum desired voltage.
Now, after setting the limiter, if you then lower the gain knobs on the amp (which attenuates the input signal), the limiter will engage at the same point, but the output voltage of the amplifier will be lower because the gain is effectively lower.
output voltage = input voltage x gain x attenuation
35v = 1.0v x 50 x -6db
I thought Brent was talking about in amp peak limiter for example...
Built:
DR 250: x 2 melded array, 2x CD horn, March 2012 plans.
T39's: 4 x 20" KL3010LF , 2 x 28" 3012LF.
WH8: x 6 with melded array wired series/parallel.
Bunter's Audio and Lighting "like"s would be most appreciated...
DR 250: x 2 melded array, 2x CD horn, March 2012 plans.
T39's: 4 x 20" KL3010LF , 2 x 28" 3012LF.
WH8: x 6 with melded array wired series/parallel.
Bunter's Audio and Lighting "like"s would be most appreciated...
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- Joined: Thu Oct 09, 2008 10:38 am
- Location: Salisbury, NC
Re: new to external amps
In amp limiters may or may not work that way. You'd have to look at the schematic. Sometimes the limiter is after the input stage, sometimes not. On Crown XTI, it's post attenuator, and can be set by voltage (which is tres cool).Grant Bunter wrote:
Arr, I understand what you're saying, and am now wondering if I read what Brent wrote incorrectly.
I thought Brent was talking about in amp peak limiter for example...
99% of the time, things that aren't already being done aren't being done because they don't work. The other 1% is split evenly between fools and geniuses.