Noisy FV-1?
Moderator: frank
Noisy FV-1?
I'm working on designing a very simple guitar reverb using the FV-1. So far it sounds good, but it's a bit noisy. Please take a look at my schematic and let me know if I'm doing something wrong or if there's something I can improve. Or is the FV-1 just kinda noisy?
You have the right output tied to ground, if unused it should be left open.
Layout has a lot to do with noise, post some pictures.
Layout has a lot to do with noise, post some pictures.
Frank Thomson
Experimental Noize
Experimental Noize
You never tie outputs directly together or to a power rail, that will damage a chip. If the output tries to go high but it is tied to ground (directly or through another output that is trying to go to ground) you have a short between power and ground through the pins and that will damage the chip.keithv wrote:Originally, I left both the right in and out open. Tying the outputs together caused some clipping, but aside from that, I didn't notice any difference as to whether or not the unused I/O was grounded, NC, or tied to the other.
You can generally tie inputs together since they are driven by an external signal.
At this point the FV-1 could be damaged or it may be a layout issue, pictures will help.
Frank Thomson
Experimental Noize
Experimental Noize
I think the chip is fine still. The outputs weren't initially tied together or to ground. I tried that later and it caused clipping or nothing at all, so I undid that and it went back to the way it was before.
The PCB is laid out almost like the schematic where the FV-1 is concerned. The 3.3V trace meanders around a bit, but the various components are about as close to their respective pins as can be. The audio signal is kept to the other half of the PCB and only intermingles with the FV-1 side of things to go to the I/Os.
First, sorry for not getting back to this. Been a crazy week, always gets this way from November till after NAMM.
As a general rule, all digital devices like hot inputs. You really want to drive the inputs of an ADC to just a few bits below clipping for best SNR.
As a general rule, all digital devices like hot inputs. You really want to drive the inputs of an ADC to just a few bits below clipping for best SNR.
Frank Thomson
Experimental Noize
Experimental Noize
I modified the input buffer to give a gain of +10 instead of +1 to drive the FV-1 input harder, and modified the output buffer to compensate to bring the dry level back to unity gain. The wet signal is now dead silent....I mean in terms of noise. The FV-1 is working perfectly and is extremely quiet. In fact, I'd go as far as to say it's actually reducing noise.
Do the app notes make mention that the FV-1 performs best with line level input rather than instrument level?
Do the app notes make mention that the FV-1 performs best with line level input rather than instrument level?
Don't you get a lot of clipping?keithv wrote:I modified the input buffer to give a gain of +10 instead of +1 to drive the FV-1 input harder, and modified the output buffer to compensate to bring the dry level back to unity gain. The wet signal is now dead silent....I mean in terms of noise. The FV-1 is working perfectly and is extremely quiet. In fact, I'd go as far as to say it's actually reducing noise.
Do the app notes make mention that the FV-1 performs best with line level input rather than instrument level?