All you need to do is go to my website Howie, all the parts are listed there. Website & handle are the same. BBS rules prohibit me selling, so I don't list prices here.
As to the pics, itisn't a very photogenic mod. For a V5 there isn't much to do and my first post in this thread covers it. SW4 is above the SODIMM socket, open both positions to set core voltage to 2V.
Here are a few details from the V3 hack that are the same in the V4/V5:
Solder .012 ohm SMT resistor on top of R302 located to the left of the power plug.
Set up for 100 Mhz FSB
Remove modem daughter board by removing 4 screws and removing board to gain access to the dip switch area. Be careful of the connector. This may be removed or left connected as long as care is taken not to damage it.
Tin the solder pads for SW2 at the upper right of where the modem board was.
Solder 4 position dip switch in place going 1234 left to right. Solder wick can be used to clean up the connection if solder bridges form. Set 123 to ON and 4 to OFF. Replace modem and connector if needed.
Replace the CPU & Lasagna cooler and test for booting to sandisk. It should work at this point.
Remove the power plug.
Add Cooling resistor:
Form the leads to allow the .13 ohm 10 watt resistor to run parallel to the SODIMM socket and reach to pin 3 of Q16. This is a little tricky, but you’ll figure it out. Insulate excess leads with heat shrink tubing.
Heat pin 3 of Q16 and carefully bend it up once the solder melts. Solder one lead of the resistor to the pad and one end to the lead of pin 3 of Q16. This inserts the cooling resistor in series with the drain of Q16. Gently bend the cooling resistor up so it does not rest on the SODIMM socket. This should come in contact with the RF shield when replaced but nothing conducting electricity should be exposed on the resistor.
Add the heat sink:
This is the most tedious part: Solder the 1/4” wide copper strip standing strait up to the tab on Q16 next to C166. Once cool, bend the tab while holding it firm with a needle nose so it is the same height as C166 and goes to the left. This will reduce board temperature by 10 degrees F. Without the heat sink speeds no faster than 400Mhz should be attempted. Temps with no heat sink at 400 are around 158F and with heat sink, the same at 450.