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I've had a few people come to me with complaints about their current production amps. A common denominator seems to be that they all bought a new amp, thinking that it sounded great, and after they've lived with it for a while they've all decided that the amp was mid-heavy and didn't have enough LF response, so they brought it to me.
Now I have to admit, I don't particularly like working on new-production amps, and I seriously don't like re-engineering someone else's work, especially when it involves changing the very nature of their device. In recent cases they've designed the amp to act as a bandpass filter and the customer is coming to me asking to design the amp to change it into something new. To me that's kind of like saying, "I bought a cat but now I want a dog."
It's not at all uncommon to see aggressive bandpass filtration occurring in these amps, including things like the appearance of parallel RC circuits in every gain stage to aggressively re-shape frequency response. What amazes me is that these designers put these types of filters one after another in every stage, so that they typically roll off anyting below 500 or 1000 Hz. I can see where this would be useful in a gain channel, where you need to get rid of LF content to avoid fartiness and flubbiness as SPL goes up, but in a clean channel that doesn't make as much sense.
The result is that a lot of the amps I see end up being bandpass filters where LF gets discarded and only the harmonics get amplified. OK, I can see BW limiting at the high end to get rid of supersonic HF content and prevent oscillations under heavy gain, but why all of the fundamental roll-off below 1000 Hz?
I think that this gives the impression of a snappy bright amp, and it probably sells well in the showroom, but to me that tends to be a hard amp to live with as the shrill midrange grates on my ears. I find that I have to dial back the mids and treble on those amps, and dime the bass, and I still can't get any worthwhile LF response because it's all been filtered away.
Anyone else noticing this? On the user boards they seem to refer to this as a "mid-forward" sound, and it's selling a lot of inexpensive amps.
Now I have to admit, I don't particularly like working on new-production amps, and I seriously don't like re-engineering someone else's work, especially when it involves changing the very nature of their device. In recent cases they've designed the amp to act as a bandpass filter and the customer is coming to me asking to design the amp to change it into something new. To me that's kind of like saying, "I bought a cat but now I want a dog."
It's not at all uncommon to see aggressive bandpass filtration occurring in these amps, including things like the appearance of parallel RC circuits in every gain stage to aggressively re-shape frequency response. What amazes me is that these designers put these types of filters one after another in every stage, so that they typically roll off anyting below 500 or 1000 Hz. I can see where this would be useful in a gain channel, where you need to get rid of LF content to avoid fartiness and flubbiness as SPL goes up, but in a clean channel that doesn't make as much sense.
The result is that a lot of the amps I see end up being bandpass filters where LF gets discarded and only the harmonics get amplified. OK, I can see BW limiting at the high end to get rid of supersonic HF content and prevent oscillations under heavy gain, but why all of the fundamental roll-off below 1000 Hz?
I think that this gives the impression of a snappy bright amp, and it probably sells well in the showroom, but to me that tends to be a hard amp to live with as the shrill midrange grates on my ears. I find that I have to dial back the mids and treble on those amps, and dime the bass, and I still can't get any worthwhile LF response because it's all been filtered away.
Anyone else noticing this? On the user boards they seem to refer to this as a "mid-forward" sound, and it's selling a lot of inexpensive amps.
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