Hi,

I built several amps with a switchable preamp by relays. Only thing, I got little hum while the relay was "on" (in my amps the gain channel and therefore not too bad).
In another thread of this forum, I recently learned not to share the ground of the relay coils with the signal ground to eliminate the hum. I haven't modified my circuits yet, but I surely will. At least I believe it wouldn't do any harm.
You can find the relais I'm using here:
http://catalog.tycoelectronics.com/T...-7&RQPN=C93402
According to Ohms law you should have less current while having a higher resistance in the coil.

Matt

I think Weber VST still sells a few mechanical relay board system kits.
One of these might work fine although they are a little clunky.

https://taweber.powweb.com/store/chansword.htm

I have a 5 channel amp that uses a whole slew of those relays (or one's prettymuch identical to them - from Mouser). I chose them because the coil resistance was high (yes, = less current draw). Running a bunch of them, I needed the lowest current draw possible.

Here's atrick to keep the relay hum from getting into your signal - Wire the relays so that the realy switches off for the active channel instead of switching on. That way the signal & the relay coil never pass the same place in the circuit. Simple, huh?

I did this on my 5 channel amp, it has everything from Fender & Bassman clean up to modded DR full on screaming gain & it is dead quiet.

Good Luck.

Chris

5 channel! Thats massive man. How many relays did you use? Keen on sharing the schematic? No worries if not, but I'm trying to make a 3 channel amp and its hard enough.

TX, I was looking at them as well, they look pretty similar.

Thanks for the tips guys, I'll go with the Fujitsu's.

Cheers,
C_S

Chris
I did that too, and I also switch a LED to indicate a channel is ON.
Tried that with a switchable master volume control too, but don't really got a clue how to do it.
Do you have a trick handy how to switch the first master volume OFF and at the same time make the LED light up to indicate the second master volume is ON? Maybe some sort of schematic?

I'd love to post a schematic (and someday will) but two small children & a busy job make it really hard to find the time (not to mention the endless tweaks that always change it anyway). The switching isn't anyhwere near perfect either. I don't make any claims that it is ready for prime time, there are definitely some small switching pops but for my uses it is perfect.

What I did is effective, although not terrible elegant.

I have what I call a "reversing relay" for each channel. The "reversing relay" is turned "on" and it, in turn, switches "off" the realys on the channel I am using. Any LED's are run off of the coil on the "reversing relay". That will free up both halves of your DPDT relay to switch a master volume in & out.

I have all of my LED's in my footswitch & they work perfectly. I actually just have the LED's in series with the voltage going to each coil (with a series protection diode as well to protect the LED's from reverse bias). Quick, dirty, effective. You just need enough voltage headroom in the circuit to make this work.

Something equally effective & more elegant could be done with transistors or digital logic but my whole amp is built on copper ground plane boards so there are no PC Boards at all for fancy stuff.

The way you use the reversing relay sounds pretty effective. If it's not elegant, what the heck?
I use the relay (DPDT) to switch the not needed channel to ground right after the first volume pot (over a 47K to ground) and the second half of the relay just to leave the signal path open right before the reverb recovery stage. That works great for the channel switching.
I thought of transistors for channel switching too but I'm not into electronics that much and would have to read and learn a lot about transistors to make things work. And as you stated: two kids and a busy job... me too.
I opened another thread for the master volume switching problem (also added a schematic how I think it could work) but nobody could help me along so far.

Post it again here. I'll see if I can't offer up something useful.

Well, my idea is to have two independent master volume controls switched by a relay. I'd like to find a way to switch the two pots in the same manner like the channels. That would mean the relay shunts one of the volume pots to ground while the other pot lets the signal pass. I added a schematic of the way I think about it. Would this work? And what should the values of R1 to R4 be?

That would work but it is not the best solution. The values of the resistors is where you will run into trouble. To have good isolation & keep the circuit from loading down the tone pots you want R1-R4 to be fairly large (like 470k - 1M). That is good for isolation & loading purposes but is not real good for your tone. Most times, the signal will start to sound pretty "flat" and spongy after running through too much resistance.

If you want to try it, I would start with 470k in each position. I don't think it will sound particularly good but you never know. It's all about the compromises that you can bear to make to get functionality vs. "perfect" tone.

Assuming all you have to work with are SPDT relays, I would make one small wiring change. Instead of having "Relay A" shunt the signal to ground, I would have it jumper around R1 or R2 to short that resistor out of the circuit on the channel that is active. Just move the wire that is currently going to ground over to the junction of R1/R2. You will likely have to reverse your NO / NC (Normally open / Normally closed) contacts as well so that when energized the relay shunts around the resistor for the MV that you want to be active.

With that arrangement, you can make R1 & R2 as large as you want (2.2M? 3.3M?) and pay no "tone penalty" becasue you are no longer passing active signal through them. The signal totally bypasses those resistors & goes through the relay instead. Leave R3 & R4 as 470k, they should work OK for this application (maybe even 220K if you prefer the tone you get).

Let me know how that works for you. I don't have a real quick program to work up schematics so I have to try to decribe them verbally. If I have to I can do something in AutoCAD but it is not exactly "schematic ready". If this isn't to your liking I'll see if I can draw up something using two DPDT relays instead, that will give you a lot more flexibility.

Good luck.

Chris

Chris
thank you for your detailed instruction. I know exactly what you mean (describing instead of drawing is pretty OK). I'm currently using one DPDT relay (no more space for two of them) but I unfortunately labelled each half relayA and relayB.
Your described way is a third version I haven't thought of yet. Up to now I switched the IN and OUT wipers of the different pots open (out of the circuit - see schematic) with either half of the relay (just a 1M resistor to calm the pop). But that makes the signal go THROUGH the relay and it might catch up some hum. Thats why I thought about switching either master pot to ground.
Do you see any sense in that?

Matt

Man, great thread, this is exactly what I'm trying to do as well...

I think you may be better off (from a switching noise perspective) if you change 'Relay B' back tothe way you had it before. Your new drawing definitely provides the best isolation but it is probably also the noisiest. It will probably 'pop' when switched.

If you want to keep this arrangement then I would go ahead and add 4 x 1M (or 2.2M) resistors around the relays. On each relay connect one end of 2 x 1M resistors to the relay center contact & the other ends to the NO/NC contacts of the relay, respectively. If you do this you can also get rid of the 1M relay to ground (the one before the first relay) because you will never lose continuity to ground if you are using the bypass resistors around the relay contacts. This setup should also help tame down the switching noise a little (or at least soften it). Changing the bypass resistors to 2.2M will give you better isolation but it may not be as quite as 1M. Try both and see what works best.

If you do what I described above to 'Relay A' and put 'Relay B' back like you had it before, you will probably have about the best comprimise between isolation & switching noise.

Let me know what you find.