DocScrutinizer05 | stable? mech or voltage? | 02:14 |
---|---|---|
buZz | DocScrutinizer05: would be weird if he didnt mean the latter ;) | 02:53 |
DocScrutinizer05 | yep | 06:32 |
sixwheeledbeast | voltage over current | 08:00 |
sixwheeledbeast | I.E 4.99Vdc@550mA - 5.02Vdc@90mA. Whereas no brand has high non/low load voltage 5.2V and drops exponentially over load 4.8V. | 08:08 |
sixwheeledbeast | Obviously with lithium the charger "controller" is part of the device, lithium doesn't take trickle charging. You are just supplying a fixed voltage/current to the device. | 08:15 |
DocScrutinizer05 | I got a few wallwarts that are really funny, with 4.7V@0mA, 5.2V@500mA [SIC!] | 11:36 |
drathir | DocScrutinizer05: yea [*] ;'( | 11:45 |
luke-jr | I am curious how zero mA works | 12:01 |
DocScrutinizer05 | by a meter that only takes fractions of one mA to probe the voltage | 13:30 |
DocScrutinizer05 | or what been the question? | 13:30 |
brolin_empey | I tried to answer my own question about using a Core 2 Duo ULV CPU on a Socket T/LGA775 motherboard. I found my own messages from this channel while searching the Internet. Apparently the Core 2 Duo ULV SU9xxx CPU, which has a TDP of only 10 W and is what was in the Dell Vostro V13 notebook computer I had, is indeed soldered on the motherboard instead of socketed. Apparently some medium-voltage Core 2 CPUs use Socket P but I do not yet know if a Socket P | 22:48 |
brolin_empey | CPU can be used on a Socket T motherboard. | 22:48 |
brolin_empey | I guess a Socket P CPU cannot fit in a Socket T/LGA775 because it would be like trying to connect two male connectors because Socket P uses a Pin Grid Array but Socket T uses a Land Grid Array. | 23:22 |
Generated by irclog2html.py 2.17.0 by Marius Gedminas - find it at https://mg.pov.lt/irclog2html/!