Sometimes you get chips that are particularly cool and others are particularly hot. And if that is exactly what SONY did in refurbished units, then perhaps they decided it was fine to relax the threshold.Ĭlick to expand.If this is referring to the process of binning processors, then some chips are more efficient off the assembly line than others, due to small variances in manufacturing. Could it cause freezes or artifacting? GLOD? I'm not sure this would be a good idea, but I need to do more research on the function of this controller. If it is, then instead of allowing 100mV drop this would allow 300mV drops! I wonder what potential consequence that has for system stability though. Perhaps that's the mechanism behind the 1002 error. If bulk filtering isn't sufficient, the voltage drops below threshold, triggering PWRGOOD. That controller is part of VDDC and the 1002 errors we tend to see associated with bad NEC/TOKIN bulk filter caps may be voltage drop's triggering PowerGood. So what suggests lowers the allowable voltage drop. To be clear, this only lowers the amount the voltage can drop below nominal. Just to show the math for those wondering and to work through it myself. Runtime: 25 Days, 13 Hours, 53 Minutes, 41 SecondsĬlick to expand.That is an interesting hypothesis. Sony's method replaces the SYSCON chip so it's SYSCON FW version should be different.
Rvg trophy with 26 pinout ps3#
Rvg trophy with 26 pinout how to#
Since your console is jailbroken already I assume you know how to instal packages.
Rvg trophy with 26 pinout install#
To find out, install pre-compiled build of PS3 Advanced Tools. To answer your question, I doubt you have a 40nm RSX. But that now seems it was probably the Indium foil I was using didn't fill in the imperfection on the Heatsink very well. In this case I thought my CPU ran hotter than others. I was talking about it here because I was trying to make the point that some components run different. The console I'm talking about here is PS3#7 (90nm RSX/CPU, reballed, tantalum). But resistors look like they have indeed been resoldered. For me R6111 is 7.4 kΩ and R6112 is 4 kΩ, but, again, measurements most likely incorrect. Knowing real VDDR and that LDO controller is BD3504FVM is enough to deduce R1/R2.Īs for PWRGOOD modification, it's hard to measure R6111 and R6112 without desoldering them because NCP5318FTR2G own internal resistance comes into play. Also I'll try to measure actual VDDR and post results later. I'll try to make a measurements with LCR meter, maybe it will make any difference, but I'm not going to desolder R1/R2, sorry, too much pain in the ass. VDDR controller is BD3504FVM, but it's hard to measure R1/R2 values while resistors are soldered to PCB. I can confirm that diagonal resistor is indeed 10 kΩ, and it's also a pull-down resistor connected to GND plane. R2001 is gone, R2002 is 15 kΩ, but value doesn't matter much because w/o R2001, R2002 becomes a pull-down resistor for GSCLKI, no more voltage divider. I've posted pictures and measurements for voltage divider at GSCLKI and VDDR "official" voltmod on a separate thread: and