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Panaflow
More blades and veins and efficiency. I've original stock specs. I
want better, the good stuff, although taking apart my stock Coolermaster heatsinks, next physical size up, the amount of contaminants is and will be considerable. I'm getting a radical Phenom II temperature difference, remounting, not to ignore significant cleaning, from the last Intel the Coolermaster serviced. Short of an alcohol soak and bath, which was properly indicated;- also have 220V 60gal air compressor that's pretty close to stock restoration. Same 95 wattage CPU reserve, which is tempting to think the Intel run the hotter CPU: fully loading down the PhenII in the background, I'm seeing nowhere near a 45F discrepancy the Intel would often dissipated at 140F+ across all four cores. (Provided that AMD "offset scheme" of sensors isn't biting me in the butt.) The fins around the heatwicks weren't exactly blocked, not more than 15 or 20%, prior to cleaning them. Anyway, this fan, the one I'll be looking for, is to update a newer and hybrid type of class-D "stage" amp, I leave at 2/3rd open volume, for a mixer boosted from vacuum tubes acting as a buffer between the mixer outputs and amp(s). Two buffering units, actually, which do a great job leveling out odd-harmonics, evenly "glassifying" all but bass, in balancing a "sort-of" a bi-amped setup running in an array of both 4- and 8-ohm speaker impedances. The other amp, it was supposed to have exploded its capacitors, into a white, nasty mess of inner-amp chassis lining. Decades ago, as opposed blueprints exported to Chinese production facilities for common two-, three-years operability. Going with stage quality production may, or not, mean more. How much, though, past a better fan, the least I can do for the amps sensor support LED readout on the output, at 45C, may be but a hopeful matter of conjecture. I've been regularly killing these new generation of things - amps and EQ units - on a pretty regular basis over the past decade;- A relatively cheap Behringer mixer being the exception;. . .6J1 tube buffering units being a relatively new extension, evidently a sole Chinese engineering offset of interests exposed to Western reserves and tradition for high-fidelity reproduction. |
#2
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Panaflow
Flasherly wrote:
More blades and veins and efficiency. I've original stock specs. I want better, the good stuff, although taking apart my stock Coolermaster heatsinks, next physical size up, the amount of contaminants is and will be considerable. I'm getting a radical Phenom II temperature difference, remounting, not to ignore significant cleaning, from the last Intel the Coolermaster serviced. Short of an alcohol soak and bath, which was properly indicated;- also have 220V 60gal air compressor that's pretty close to stock restoration. Same 95 wattage CPU reserve, which is tempting to think the Intel run the hotter CPU: fully loading down the PhenII in the background, I'm seeing nowhere near a 45F discrepancy the Intel would often dissipated at 140F+ across all four cores. (Provided that AMD "offset scheme" of sensors isn't biting me in the butt.) The fins around the heatwicks weren't exactly blocked, not more than 15 or 20%, prior to cleaning them. Anyway, this fan, the one I'll be looking for, is to update a newer and hybrid type of class-D "stage" amp, I leave at 2/3rd open volume, for a mixer boosted from vacuum tubes acting as a buffer between the mixer outputs and amp(s). Two buffering units, actually, which do a great job leveling out odd-harmonics, evenly "glassifying" all but bass, in balancing a "sort-of" a bi-amped setup running in an array of both 4- and 8-ohm speaker impedances. The other amp, it was supposed to have exploded its capacitors, into a white, nasty mess of inner-amp chassis lining. Decades ago, as opposed blueprints exported to Chinese production facilities for common two-, three-years operability. Going with stage quality production may, or not, mean more. How much, though, past a better fan, the least I can do for the amps sensor support LED readout on the output, at 45C, may be but a hopeful matter of conjecture. I've been regularly killing these new generation of things - amps and EQ units - on a pretty regular basis over the past decade;- A relatively cheap Behringer mixer being the exception;. . .6J1 tube buffering units being a relatively new extension, evidently a sole Chinese engineering offset of interests exposed to Western reserves and tradition for high-fidelity reproduction. The top cover on an Intel processor has a "different curve" then the top cover of an AMD processor. The Intel processors that used solder (like LGA775), the top is convex and the solder is under mechanical stress. If you de-lid one of those processors, it makes a "popping" sound when it lets go. (The de-lid procedure may use a blow torch to heat the solder, while the CPU is inverted in a holder.) If the fan/heatsink assembly doesn't meet the CPU flush, the contact area can be reduced and that affects the theta_R. It means the Intel just might be more sensitive to the type of paste used (to fill the gap). ******* And Panaflow is a fluid dynamic bearing, with a sealed portion to hold the couple drops of oil. It's probably one of the first fans to make that popular. Sleeve bearing and ball bearing fans are more open to the elements. Paul |
#3
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Panaflow
On Sat, 20 Oct 2018 00:54:24 -0400, Paul
wrote: The top cover on an Intel processor has a "different curve" then the top cover of an AMD processor. The Intel processors that used solder (like LGA775), the top is convex and the solder is under mechanical stress. If you de-lid one of those processors, it makes a "popping" sound when it lets go. (The de-lid procedure may use a blow torch to heat the solder, while the CPU is inverted in a holder.) If the fan/heatsink assembly doesn't meet the CPU flush, the contact area can be reduced and that affects the theta_R. It means the Intel just might be more sensitive to the type of paste used (to fill the gap). I prefer the premium mating compounds. Others are similar enough to be just as good, although I forgotten, from a baggie full of twenty or more tubes, usually just reaching for Arctic Silver brands. They've almost a metallic consistency for extending out a 5/16" snap-off (portions) of a box-cutting razor. True enough, I aim for thinner consistency to the spread than the Coolermaster deserves, with significant ridges between mating the aluminum and flattened copper heatwick pipes. I could probably spot it for "true" with a suitable flatedge and magnification. To be fair, the shape I found the whole cooler assembly, swapping the backplate, X-bracket, and heatsink over to the Phenom II on new MB, it would have been best to clean thoroughly, fresh with alcohol all mating surfaces, remounted carefully, then to first test for validity on the same encodes across quad-loads for 140-145F. I won't touch, despise creamy white silicon compounds almost as much as affixed tape compound;- Fine for somebody else, just not on my personal computers. I'll have to remember to look next time I mess with the Intel. There are decent looking manuf refurb Dell S775 MBs on an Ebay outlet. A gamble the Intel survived lightning, for a bit tattered for its age by comparison to PhenomII offerings, and not least to mention I'm gunshy of a bunch of goofy Dell proprietary workings. Not sure it was exactly a Panaflow I'd matched to the fan ratings in a Crown amplifier. I'd looked about a month ago, recognizing the brand. More blades and more CFM. One of the easiest thing, among electronic components, fans, to find from within review-ratings that surface for excellent. The Crown looks like it's going to play nice, so I should be nice and give it gifts. ******* And Panaflow is a fluid dynamic bearing, with a sealed portion to hold the couple drops of oil. It's probably one of the first fans to make that popular. Sleeve bearing and ball bearing fans are more open to the elements. |
#4
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Panaflow
On Sat, 20 Oct 2018 01:28:23 -0400, Flasherly
wrote: ....I'm gunshy of a bunch of goofy Dell proprietary workings. - I've old spare aluminum heatsink material, thinking I haven't a problem devising my own CPU cooler for that particular Dell MB (CPU mounted on corner quadrant at angles perpendicular to board edges). Extra heavy compound and a flat and not perpendicular MB placement. I've seen where people have used select automotive gasket-sealer material in CPU applications. A result, which I suspect, that could be hot to very, provided all that mini-monkey-shine business for an old Intel CPU that still has any inkling left to power up;- Prognosis: not, particularly, looking so good. Also may have, need check a mess of leftover but potentially compatible DDR3 modules suitable for these newer Gigabyte AMD3+ MBs;- Prognosis: yeppers, worth the shot for kitchen-sink and potluck assembly material. |
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