Yes, I'll make sure to get the polarity right 🙂 I always use multimeter to make sure. These were the only leads small enough I had on hand, didn't want to use 99,99% pure silverwire in PTFE tubing(would have to be several strands in this application) that I normally use for signal wiring.
On the regulator schematic I PM'd you, where would I fit a 5K multiturn pot?
Wasn't that hard to fit the wimas, I've handsoldered 0805 SMD's in the past.
It was a bit tricky to remove the SMD's though as they were glued to the pcb 🙂
Finding 470uF Rubycon ZLH or 470uF Rubycon ZLG is proving to be a major headache here in Sweden 😡
What are these? Oscon sepc? Googled it without getting much wiser 😱
What are these? Oscon sepc? Googled it without getting much wiser 😱
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UV101 said:
I'd build the ones with the LED's!! The pot would be to adjust the output voltage, but the LED's are doing the job here. Make sure you heatsink the output device if its for the 7220 chip 😉
I'll answer the PM seperately 😉
I've offered previously to get components for you at cost + p&p if you are having issues. 10 x 470uF ZLG cost less than £5 as does 10 x 330uF 6.3v NS AL Solidpolymer by Nichicon
The reason I have suggested these types is primarily because they are suited to this application but secondly they cost a fraction of the boutique parts that may or mat not be better dependant on application.
Yes, its a bit more complicated but also very good.
I'm posting from my iPhone, write more later.
I'd grately appreciate if you could get me those caps, both types.
Can't afford then until the 19th though.
I'd grately appreciate if you could get me those caps, both types.
Can't afford then until the 19th though.
after just 20min or so at low volume(but my dipoles sounds good then too), the fiance is sleeping, I'm impressed!
You were right about removing the smd's under the wima's too.
I'd say it sound less rugged, softer without losing detail. Relaxed, dynamic, more details, instruments doesn't sound as "electronic", less grunge in lack of a better word 😀
EDIT: It's actually like cleaning a dirty window to use a borrowed expression.
amazing improvements at a very low cost, and it's not yet settled as you point out 🙂
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Just for fun I tested the old regulated PS I built years ago.
Used a 6-0-6V/ ?VA EI.
This says nothing about noise etc, I know.
Used a 6-0-6V/ ?VA EI.
This says nothing about noise etc, I know.
An externally hosted image should be here but it was not working when we last tested it.
Schematic is designed by R. Meijer, not mine. But sounds good.
Some pics:
Alst pic: On the left the 317's (current limiter)
On the right the 2 shunt reg for 7210 an 7220
Thanks!
Saved the pic with the schematics 🙂
Why would one need a current limiter?
What are the values in ()?
Saved the pic with the schematics 🙂
Why would one need a current limiter?
What are the values in ()?
Values of R are ondrawing. 7220 draws about 200mA.
A current limiter is to reduce power consumption on the shunt schematic, and to be safer.
A current limiter is to reduce power consumption on the shunt schematic, and to be safer.
Ok, thanks!
Was wondering about the ones that have one value ie 100 followed by (475), 100(470) as an example.
Was wondering about the ones that have one value ie 100 followed by (475), 100(470) as an example.
100 is for the saa7220 and 7210
The higher value Resistors between () and small transistor are for smaller digital chips, eg: memory, dividers
The higher value Resistors between () and small transistor are for smaller digital chips, eg: memory, dividers
Got some veroboards for regulators(and other stuff I might want to build) and 8pcs goldplated DIP8 sockets(for swapping opamps) today 🙂
In you guys opinion, is OPA2134 better then NE5532(original opamp) or should I wait and order LM4562's? Just wondering if the LM4562 is that much better then the OPA2134 I've got at home already?
I've just put a LM4562 in my Lehmann BCL clone, and this is my first experience with this opamp.
It's not nearly settled yet, so I can't say how it compares to the stock NE5532.
As for regulator to the SAA7220, I'm thinking of going with the tracking preregulator, that's got to be an improvement to stock and seems easy enough to asseble on veroboard.
In you guys opinion, is OPA2134 better then NE5532(original opamp) or should I wait and order LM4562's? Just wondering if the LM4562 is that much better then the OPA2134 I've got at home already?
I've just put a LM4562 in my Lehmann BCL clone, and this is my first experience with this opamp.
It's not nearly settled yet, so I can't say how it compares to the stock NE5532.
An externally hosted image should be here but it was not working when we last tested it.
An externally hosted image should be here but it was not working when we last tested it.
As for regulator to the SAA7220, I'm thinking of going with the tracking preregulator, that's got to be an improvement to stock and seems easy enough to asseble on veroboard.
If I use a regulated ps that gives 15Vdc(from a 2x120Vac ,with primaries in series, 2x15Vac 10VA PCB transformer)
Use this schematic with an ELNA Cerafine 22uF for C2, didn't use C1, regulator fed from 2200uF Nichicon MUSE (get 25Vdc unloaded across this cap?!?)
Rectifying done by 1N4007, one rectifier per secondary so I can feed two regulator boards from this regulated PSU.
If this is a crappy idea, let me know and I'll go a different route.
For SAA7220 I was thinking this fed by the above PS.
I've also got 3 other transformers:
12-0-12Vac/1500mA
12-0-12Vac/500mA
6-0-6Vac/? mA, but it's a bit heavier then the 12Vac transformers.
Again, sorry if I'm asking for the ? time on any of this, or if I'm assault posting.
Use this schematic with an ELNA Cerafine 22uF for C2, didn't use C1, regulator fed from 2200uF Nichicon MUSE (get 25Vdc unloaded across this cap?!?)
Rectifying done by 1N4007, one rectifier per secondary so I can feed two regulator boards from this regulated PSU.
If this is a crappy idea, let me know and I'll go a different route.
For SAA7220 I was thinking this fed by the above PS.
I've also got 3 other transformers:
12-0-12Vac/1500mA
12-0-12Vac/500mA
6-0-6Vac/? mA, but it's a bit heavier then the 12Vac transformers.
Again, sorry if I'm asking for the ? time on any of this, or if I'm assault posting.
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