Progskeet 1.0 / 1.1: Difference between revisions

From PS3 Developer wiki
Jump to navigation Jump to search
m (Dark Mode support)
m (Text replacement - "color:red" to "color:red!important")
 
Line 226: Line 226:
===Test shorts gives positives on shortcut detection===
===Test shorts gives positives on shortcut detection===
Set your digital multimeter to “Ohm” or “Shortcut detection” and probe the pins listed in the messagebox against each other.
Set your digital multimeter to “Ohm” or “Shortcut detection” and probe the pins listed in the messagebox against each other.
If you find no shorts, you have not correctly followed instructions which clearly state “<span style="color:red;">ONLY TEST PROGSKEET WHEN IT IS NOT CONNECTED TO ANYTHING BESIDE USB</span>”.
If you find no shorts, you have not correctly followed instructions which clearly state “<span style="color:red!important;">ONLY TEST PROGSKEET WHEN IT IS NOT CONNECTED TO ANYTHING BESIDE USB</span>”.


===Dumping either NOR or NAND freezes===
===Dumping either NOR or NAND freezes===

Latest revision as of 03:41, 1 July 2023

Progskeet Support[edit | edit source]

Live Support

ProgSkeet Tutorials[edit | edit source]

Set Up[edit | edit source]

Hardware part[edit | edit source]

We begin by correctly soldering the jumpers on ProgSkeet. R7, R8, R9 and R11 have to be soldered.

Before (in this case R7 and R8 already have a [0] bridge):

Progskeet Setup - Before.jpg

After (solderbridge added on R9 and R11 to enable 3.3V):

Progskeet Setup - After.jpg

Software part[edit | edit source]

Once this is done, connect to USB and install the drivers downloaded from the official website.

if you use old Winskeet (WinSkeet40000_111004 or older), you need the driver ´libusb0´
If you use new Winskeet (Winskeet111120 and newer), you select ´WinUSB´ with ZADIG.EXE

Open WinSkeet.


Proceed by clicking “Yes”.

Winskeet - Warning message.png

Winskeet - Opening screen.png


Go to “Tools” tab.

Winskeet - Tools TAB.png


Press “Test Shorts”.

Winskeet - Test for Shorts.png

Winskeet - No Shorts Found.png

If this fails, please refer to the “Troubleshooting” section.

Programming the Bitstream[edit | edit source]

Which bitstream to use:

Type solder solderless
NAND default SL 111126
NOR S 111006 SL 111106

Bitstreams[edit | edit source]

Changelog[edit | edit source]

111126[edit | edit source]
  • Fixed Solderless NAND
111006[edit | edit source]
  • Added solderless bitstreams
  • Added solder bistream for dev version of ProgSkeet (green pcb)
  • Added pullups on RDY, OE and WE. Resistors probably aren't necessary anymore.
default / never updated[edit | edit source]
Supports NOR soldered + NAND soldered
does not have anything of the above fixes

Updating Progskeet with Injectus in short[edit | edit source]

  • connect injectus to progskeet with very short wires (see File:Injectus_jtag_pinout.jpg File:Injectus-jtag-bottompads.png)
  • power injectus with usb
  • power progskeet with its own usb too (do NOT power the progskeet with the injectus!)
  • run injectus programmer software
    • click tools
    • open infectus (at bottom of pulldown)
    • load dat file
    • click program

Note: can be done when already connected to console flash.

Infectus Programmer[edit | edit source]

InfectusProgrammer-0.0.3.9.zip

Longer Picture guide[edit | edit source]

Browse to the directory where you have extracted Infectus Programmer 3.9.9.0

Browse for Infectus Programmer.png

Open “InfectusProgrammer_3.9.9.0.exe”

Infectus Programmer1.png

Infectus Programmer2.png

Infectus Programmer3.png


In the Actel Panel, click “Load DAT”.

Infectus Programmer - Actel Panel.png

This will spawn the following window.

Browse for DAT folder.png

Proceed by selecting the file for programming.

Select correct board file.png

Infectus Programmer - Updating DONE.png

See also : Update Progskeet with Injectus

Connecting the NAND clip(s)[edit | edit source]

First, make sure you disconnect ProgSkeet from your computer.

Connect Flatcable[edit | edit source]

Then, proceed by plugging in the correct 50 pin flat cable.

Connect NAND clips - connect 50pin flatcable.jpg

Caution: Make sure it’s the one with both blue endings on one side. Not one end shiny and the other blue.

Please pay attention to the marking of the first pin.
Not paying attention to this could potentially cause bodily harm,
damage to your ProgSkeet, damage to the device you are currently operating and your computer.

Connect subboard[edit | edit source]

Connect subboard

Connect NAND clips - connect Y-subboard.jpg

Connect NAND flatcable to subboard[edit | edit source]

Connect NAND flatcable to subboard

Connect NAND clips - connect NAND flatcable to Y-subboard.jpg

Connect Clip to NAND flatcable[edit | edit source]

Connect Clip to NAND flatcable

Connect NAND clips - connect clip to NAND flatcable.jpg

clip + NAND board[edit | edit source]

clip + NAND board (NAND board -> currently no specific use on PS3)

Connect NAND clips - clip + NAND board.jpg

NAND board[edit | edit source]

NAND board (NAND board -> currently no specific use on PS3)

Connect NAND clips - NAND board.jpg

Connect to PC[edit | edit source]

When done, connect to PC

Connect NAND clips - connect to PC.jpg

Dumping NAND[edit | edit source]

First, open Winskeet and go to the NAND tab.

Winskeet - NAND TAB.png


Then, click NAND 1.

Winskeet - Select NAND1.png


Then click Auto.

Winskeet - Click Auto.png


If this shows an inconsistent value or doesn’t correspond to the identification code found in the corresponding datasheet (this is obvious when the manufacturer on the NAND flash does not correspond to the one shown under “Auto”).

In our case, the settings do not correspond to the specifications given by the datasheet. This happens with big block Hynix NAND flash. So we readjust them

Winskeet - Readjust.png


and click “Dump”.

Winskeet - Click dump.png


Select destination for saving the dump.

Winskeet - Select Dump destination.png


At will, you can also select which range you want to choose using the “Custom Range” option.

Winskeet - Dump in progress.png

Flashing the NAND flash[edit | edit source]

Just like it was done with dumping, you set up the settings and click “Flash” and select the file you want to flash to your NAND flash.

Winskeet - Flashing.png

Troubleshooting[edit | edit source]

NAND reads obviously false/inconsistent data[edit | edit source]

Possible causes:

  1. NAND flash is not correctly connected to ProgSkeet/Clip.
  2. NAND flash has power supply pins unconnected or power supply to the NAND flash is missing.

Solutions:
Set your digital multimeter to Volts, Direct Current (V, DC. V with straight line above dotted line) and measure the voltage between 3.3 and GND on the blue adapter pcb (this has to be done when the device is in operation, correctly connected to NAND flash and computer!).

Measure between 3.3V and GND points on Y-subboard.jpg

If this doesn’t measure 3.3V, this has to be supplied externally using wires.

make sure you DO NOT power-on the console when using external PSU

Use “Auto” to read the identification code of the NAND flash in the programming software. If the result is 0000000000 or FFFFFFFFFF or inconsistent, the NAND flash is not correctly connected to ProgSkeet/Clip.

Test shorts gives positives on shortcut detection[edit | edit source]

Set your digital multimeter to “Ohm” or “Shortcut detection” and probe the pins listed in the messagebox against each other. If you find no shorts, you have not correctly followed instructions which clearly state “ONLY TEST PROGSKEET WHEN IT IS NOT CONNECTED TO ANYTHING BESIDE USB”.

Dumping either NOR or NAND freezes[edit | edit source]

Possible causes:

  1. NAND/NOR is not correctly connected to ProgSkeet/Clip.
  2. External interferences

Solutions:

  1. Make sure all connections are correct and there are no shortcuts.
  2. Uncheck “verify” in the “common” tab and make several consecutive dumps. If those do not compare correctly, your connections are incorrectly soldered/attached.
  3. Increase cycle time in the common tab (maximum is 333ns).
  4. Shorten wire length.

Soldering troubleshooting[edit | edit source]

Please always make sure that you use sufficient amounts of flux and that you remove the old tin before trying to solder again. After removing the old tin, reapply flux in decent amounts to make sure your soldering is good. Another way to do this is melt a lot of tin over the pcb using you soldering iron in quick and swift movements without excessive pressure. Clean the tip of your soldering iron after every pass to ensure maximum reliability, as different mixtures of tin (Sn) cause oxidation, especially when mixing lead-free and leaded tin. I recommend using 63 Sn/37 Pb tin for soldering, as lead-free and high contents of lead will lead to subpar soldering.