Albany? I raised my kids in central Jersey, I would never go back. $13k property taxes on 1800sq/ft ranch. No room for stereo, tons of snow...and upstate NY is much worse wrt that. I m all done with the east coast. 😉 😀
Ok, thanks, glad you like the updates.
So I'm just wondering are you planning on providing feedback any of the other posts that myself and others have made during the past few weeks as I really wondering what's happening with this project.
Are we looking further into TPC ?
Maybe sidetracked ??
We should first finalize and wrap up the EF3.
Pick 2 final IPS's to submit and build.
PS - wolverine could be fully redesigned for a future IPS.
The current designs have been built and work.
OS
We should first finalize and wrap up the EF3.
Pick 2 final IPS's to submit and build.
PS - wolverine could be fully redesigned for a future IPS.
The current designs have been built and work.
OS
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Or
Please post a updated schematic on how you think we can best implement TPC and I'll see if I can get it to fit.
Please post a updated schematic on how you think we can best implement TPC and I'll see if I can get it to fit.
Maybe add a 4-pin header to the PCB so we can dedicate a whole extra PCB to the new compensation network? That is a lot of parts for compensation...
That is asking for trouble. I would not route the compensation network to another "option" PCB, the compensation network has to work into the MHz introducing more parasitic might equal something that can not be tamed. A simple soldered in jumper on the Wolverine selecting between TMC or TPC would be as far as I would go.
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Just the caps in parallel with the driver base resistors, or is there more? I really see the benefit to adding those caps for smoothing out the high frequency phase and increasing the gain margin.
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Yes, the driver base resistors with caps in parallel. I guess there's the 2pF and 1k in the feedback network too. If we give those provisions, the driver base resistors could be replaced with a jumper wire and you will end up with OS's original schematic.
In your schematic it looks like R20 (the Loop Gain Enhancement Resistor) is going to Ground, not VEE. I did ask the question before as I have seen that resistors running to VEE in some schematics and in other schematics running to Ground.
What's the difference and does it matter?
What's the difference and does it matter?
For TPC resistor connection See post #1032 by Keantoken, he says to connect it to the VAS rail and provides his reasoning. I agree with him.
I think you are confusing me with jpc2001, he did TPC proposal and the schematic on post #1041.
I think you are confusing me with jpc2001, he did TPC proposal and the schematic on post #1041.
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I don't have the latest ltspice files. Is the schematic on post #1041 not readable for you??? The only thing that really needs to change on that schematic is to connect the TPC resistor (R20) to the negative rail. So basically R20 has a jumper and gets connected to the negative rail for TPC or to the Output NFB for TMC.
Or you can wait and see what the other guys opinions are.
Or you can wait and see what the other guys opinions are.
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If it was me. I would not go extravagant on the base design. Keep it clean and clear for builders. Then go where u please on additional ips boards.
Just my thoughts.
Just my thoughts.
Granted but the caps going to Q107 and Q108 are on the EF3 board so they need to be there as an option to begin with. The IPS boad well lets just see how messy it looks as an option and if its possible at all to fit the extra resistor and cap around the feedback resistor as an option. The HB had a few options so what's the big deal. As long as we have good documentation there should be no confusion.
Stuart,
I don't believe OS's original schematic had base resistors on Q107 an Q108 so you'll have to add those too along with the parallel caps. Hopefully you can get those to fit. What were you thinking for the cap, silver mica or film?
Jeremy
I don't believe OS's original schematic had base resistors on Q107 an Q108 so you'll have to add those too along with the parallel caps. Hopefully you can get those to fit. What were you thinking for the cap, silver mica or film?
Jeremy
I aimed for >60 degrees of phase margin, >15dB of gain margin with 20dB being even better, and gentle curves in the loopgain plot with no asymptotes, shelves, or sharp swings in phase -- not until far below unity loop gain anyway. There was no specific target for ULGF which came out to something like 850kHz for the circuit from #1041.