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<div style="float:right">[[File:Teensy++2.0 persp.png|210px|thumb|right|Teensy++ 2.0 perspective view]]<br />[[File:Teensy++2.0 top.png|210px|thumb|right|Teensy++ 2.0 top view]]<br />[[File:Teensy++2.0 bottom.png|210px|thumb|right|Teensy++ 2.0 bottom view]]<br />[[File:Teensy++ 2.0 schematic.jpg|210px|thumb|right|Teensy++ 2.0 schematic]]<br />[[File:Atmel AT90USB128 pinout.jpg|210px|thumb|right|Atmel AT90USB128 pinout]]<br />[[File:Usb-pinout.png|210px|thumb|right|USB pinout]]</div>
<div style="float:right">[[File:Teensy++2.0 persp.png|210px|thumb|right|Teensy++ 2.0 perspective view]]<br />[[File:Teensy++2.0 top.png|210px|thumb|right|Teensy++ 2.0 top view]]<br />[[File:Teensy++2.0 bottom.png|210px|thumb|right|Teensy++ 2.0 bottom view]]<br />[[File:Teensy++ 2.0 schematic.jpg|210px|thumb|right|Teensy++ 2.0 schematic]]<br />[[File:Usb-pinout.png|210px|thumb|right|USB pinout]]</div>


== Description ==
= Description =
The Teensy is a complete USB-based microcontroller development system, in a very small footprint, capable of implementing [https://www.pjrc.com/teensy/projects.html many types of projects]. All programming is done via the USB port. No special programmer is needed
The Teensy is a complete USB-based microcontroller development system, in a very small footprint, capable of implementing [https://www.pjrc.com/teensy/projects.html many types of projects]. All programming is done via the USB port. No special programmer is needed


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<!-- gap between motherboard, and motherboard metal shields varies, with 4 milimeter in some areas and 3.5 milimeter in others -->
<!-- gap between motherboard, and motherboard metal shields varies, with 4 milimeter in some areas and 3.5 milimeter in others -->


== Teensy Related Software ==
= Teensy Software =


=== Teensy drivers ===
== Windows Drivers and Linux UDEV Rules ==
Teensy 2.0++ needs windows drivers and linux udev rules to be recognized fully as it was meant to, as explained here http://www.pjrc.com/teensy/usb_serial.html
The Teensy 2.0++ needs windows drivers and linux udev rules to be recognized fully as it was meant to, as explained here http://www.pjrc.com/teensy/usb_serial.html


* Windows driver: [http://www.pjrc.com/teensy/serial_install.exe serial_install.exe]
* Windows driver: [http://www.pjrc.com/teensy/serial_install.exe serial_install.exe]
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* FreeBSD device conf: [https://www.pjrc.com/teensy/freebsd-teensy.conf freebsd-teensy.conf]
* FreeBSD device conf: [https://www.pjrc.com/teensy/freebsd-teensy.conf freebsd-teensy.conf]


=== Teensy loader ===
== Teensy loader ==
Program used to load the compiled hex-file for the Teensy++ 2.0 microcontroller ([http://www.atmel.com/devices/AT90USB1286.aspx AT90USB1286]), as explained here: http://www.pjrc.com/teensy/loader.html
Program used to load the compiled hex-file for the Teensy++ 2.0 ([http://www.atmel.com/devices/AT90USB1286.aspx AT90USB1286]), as explained here: http://www.pjrc.com/teensy/loader.html
*Windows: [https://www.pjrc.com/teensy/teensy.exe teensy.exe]
*Windows: [https://www.pjrc.com/teensy/teensy.exe teensy.exe]
*Ubuntu linux x32: [https://www.pjrc.com/teensy/teensy.gz teensy.gz]
*Ubuntu linux x32: [https://www.pjrc.com/teensy/teensy.gz teensy.gz]
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*Command line source code on github: https://github.com/PaulStoffregen/teensy_loader_cli
*Command line source code on github: https://github.com/PaulStoffregen/teensy_loader_cli


==== Loading programs to teensy microcontroller ====
=== Programming teensy with NORway or NANDway ===
See the project home: [https://github.com/hjudges/NORway NORway git], (previously [https://github.com/Effleurage/NORway-and-NANDway NORway-and-NANDway] but now merged in main git)
The program needed to be loaded to the teensy to use it as a PS3 flasher (choose one based on your flash type or installation wiring):
*[https://github.com/hjudges/NORway/blob/master/NORway/default/NORway.hex NORway.hex] (for NOR flash PS3 models)
*[https://github.com/hjudges/NORway/blob/master/NANDway/Dual%20NAND%20Edition/NANDway_DualNANDEdition.hex NANDway_DualNANDEdition.hex] (for NAND flash PS3 models with both NANDS connected to teensy)
*[https://github.com/hjudges/NORway/blob/master/NANDway/Signal%20Booster%20Edition/NANDway_SignalBoosterEdition.hex NANDway_SignalBoosterEdition.hex] (for NAND flash PS3 models with a single NAND connected to teensy)


And download the whole git project from: [https://github.com/hjudges/NORway/archive/master.zip master.zip]
== Python and Pyserial (only windows) ==
*Python 2.7.2 : [http://www.python.org/ftp/python/2.7.2/python-2.7.2.msi python-2.7.2.msi]
*Pyserial 2.5 : [http://pypi.python.org/packages/any/p/pyserial/pyserial-2.5.win32.exe pyserial-2.5.win32.exe]


Choose one of the programs needed to be loaded to the teensy to use it as a PS3 flasher (based on your flash type and/or installation type and wiring):
== NORway ==
*'''NORway.hex''' (for NOR flash PS3 models)
NOR PC Python client [https://github.com/hjudges/NORway/blob/master/NORway.py NORway.py]
*'''NANDway_DualNANDEdition.hex''' (for NAND flash PS3 models with both NANDS connected to teensy)
*'''NANDway_SignalBoosterEdition.hex''' (for NAND flash PS3 models with a single NAND connected to teensy)


=== PC Clients ===
Used to analyze dumps and also contains hex files to program the Teensy itself.
*To run the PC clients in windows (NORway.py or NANDway.py) is needed to install Python and Pyserial
**Python 2.7.2 : [http://www.python.org/ftp/python/2.7.2/python-2.7.2.msi python-2.7.2.msi]
**Pyserial 2.5 : [http://pypi.python.org/packages/any/p/pyserial/pyserial-2.5.win32.exe pyserial-2.5.win32.exe]


==== NORway.py ====
* [https://github.com/hjudges/NORway NORway git]
Usage:
** [https://github.com/hjudges/NORway/archive/master.zip]
{{Keyboard|content=<syntaxhighlight lang="bash">
 
C:\>NORway.py
=== Mac OS-X patch ===
NORway.py v0.8 - Teensy++ 2.0 NOR flasher for PS3 ([email protected])
if you are on Mac OS-X and having problems with timeouts:
<MikeM64> hahaha, it's a dirty fix, but it seems to work XD
<MikeM64> lemme compile diffs, I got perfect writes happening on my mac now
<MikeM64> 10 writes and 2 timeouts; not bad. better than 20 timeouts / write
<MikeM64> http://pastie.org/8570558 if anyone needs it
 
=== NORway usage ===
{{Keyboard|content=
'''C:\>NORway.py'''
NORway.py v0.7 - Teensy++ 2.0 NOR flasher for PS3 ([email protected])
(Original noralizer.py by Hector Martin "marcan" <[email protected]>)
(Original noralizer.py by Hector Martin "marcan" <[email protected]>)


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           release      Releases NOR interface, so the PS3 can boot
           release      Releases NOR interface, so the PS3 can boot
           bootloader    Enters Teensy's bootloader mode
           bootloader    Enters Teensy's bootloader mode
   filename              Filename for [dump|(v)write|(v)writeword|(v)writewordubm|verify]
   filename              Filename for [dump<nowiki>|</nowiki>(v)write<nowiki>|</nowiki>(v)writeword<nowiki>|</nowiki>(v)writewordubm<nowiki>|</nowiki>verify]
   address                Address for [erase|(v)write|(v)writeword|(v)writewordubm|verify]. Default is 0x0, address must be aligned (multiple of 0x20000)
   address                Address for [erase<nowiki>|</nowiki>(v)write<nowiki>|</nowiki>(v)writeword<nowiki>|</nowiki>(v)writewordubm<nowiki>|</nowiki>verify]. Default is 0x0, address must be aligned (multiple of 0x20000)


Examples:
Examples:
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   C:\NORway.py COM1 verify d:\myflash.bin
   C:\NORway.py COM1 verify d:\myflash.bin
   C:\NORway.py COM1 release
   C:\NORway.py COM1 release
</syntaxhighlight>}}
}}
 
== NANDway ==
NAND PC Python client [https://github.com/hjudges/NORway/blob/master/NANDway.py NANDway.py]
 
Project home:
* https://github.com/hjudges/NORway (previously https://github.com/Effleurage/NORway-and-NANDway but now merged in main git)


*For Mac OS-X users with problems of timeouts there is an unnofficial<!-- im not really sure if this patch was included in official or deprecated --> patch available in {{talk}} page
precompiled by judges : http://www.mediafire.com/?i5y1mhhh5lz62xu


==== NANDway.py ====
=== NANDway usage ===
Usage:
{{Keyboard|content=
{{Keyboard|content=<syntaxhighlight lang="bash">
'''C:\>NANDway.py'''
C:\>NANDway.py
NANDway v0.64 - Teensy++ 2.0 NAND Flasher for PS3/Xbox/Wii
NANDway v0.64 - Teensy++ 2.0 NAND Flasher for PS3/Xbox/Wii
(Original NORway.py by judges <[email protected]>)
(Original NORway.py by judges <[email protected]>)
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   NANDway.py COM1 0 bootloader
   NANDway.py COM1 0 bootloader
   NANDway.py ps3badblocks d:\myflash.bin
   NANDway.py ps3badblocks d:\myflash.bin
</syntaxhighlight>}}
}}


Notes:
Notes:
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* Vcc: Teensy 3.3V regulator cannot power the NANDs on the PS3. The drain of the motherboard summed by the other peripherals draw too much current (~1.8A). The NANDs can be powered from external 3.3V power supply like ATX power supply (the orange 3.3V line of the ATX main connector).
* Vcc: Teensy 3.3V regulator cannot power the NANDs on the PS3. The drain of the motherboard summed by the other peripherals draw too much current (~1.8A). The NANDs can be powered from external 3.3V power supply like ATX power supply (the orange 3.3V line of the ATX main connector).


=== Others ===
== WAY-launchers ==
==== WAY-launchers ====
Simple GUI to run NORway, NANDway and SPIway.
Simple GUI to run NORway, NANDway and SPIway.


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*http://www.psx-place.com/forum/downgrading/launchers-325.html
*http://www.psx-place.com/forum/downgrading/launchers-325.html


==== norpatch.exe ====
= Installation Requirements =
Small tool to verify content of NOR dump (recognizes any OFW), replace ros0/ros1 with new core os (.NET 2.0 required)


==== Dump integrity validators ====
You are going to need a lot parts to accomplish such a task.  This takes a lot of patience, and steady hands.<br>
See also: [[Validating flash dumps]]
This is a difficult installation!  If a part is not needed below it will be specified per model so check there as well.<br>


== Pre-Installation Requirements ==
== Parts ==
 
The following is a list of good tools you could use to perform the installation of the Teensy++
=== Tools ==<!--section proposed for splitting, but by now is too much specific for teensy-->
The following is a list of suggested good tools and parts you could use to perform the installation of the Teensy++ 2.0 in a PS3


* PS3 disassembling tools:
* PS3 disassembling tools:
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**1x Single side thermal resistant tape over 300{{degree}}C, known as polyimide or [https://en.wikipedia.org/wiki/Kapton kapton] tape (to stick wires in place, and [http://ultrakeet.com.au/write-ups/kaptonMasking other uses])
**1x Single side thermal resistant tape over 300{{degree}}C, known as polyimide or [https://en.wikipedia.org/wiki/Kapton kapton] tape (to stick wires in place, and [http://ultrakeet.com.au/write-ups/kaptonMasking other uses])
**1x Single side aluminium tape (glued), or alufoil (not glued), to create interference shields [https://en.wikipedia.org/wiki/Shielded_cable 1] [https://en.wikipedia.org/wiki/Electromagnetic_shielding 2] for data wires and to cover [https://en.wikipedia.org/wiki/Printed_circuit_board PCB's] (aluminium protects against interferences but is conductive for this reason is needed to isolate aluminium layers at top and bottom with non-conductive layers as kapton to avoid shorcuts, like a sandwich). Note for correct shielding of wires the shield needs to be connected to ground in both extremes of the "cable" and is posible to [https://www.youtube.com/watch?v=_mYkM9lHMho solder in aluminium tape]
**1x Single side aluminium tape (glued), or alufoil (not glued), to create interference shields [https://en.wikipedia.org/wiki/Shielded_cable 1] [https://en.wikipedia.org/wiki/Electromagnetic_shielding 2] for data wires and to cover [https://en.wikipedia.org/wiki/Printed_circuit_board PCB's] (aluminium protects against interferences but is conductive for this reason is needed to isolate aluminium layers at top and bottom with non-conductive layers as kapton to avoid shorcuts, like a sandwich). Note for correct shielding of wires the shield needs to be connected to ground in both extremes of the "cable" and is posible to [https://www.youtube.com/watch?v=_mYkM9lHMho solder in aluminium tape]
**1x Fiberglass Scratch Brush or alternatively sandpaper and a needle (to expose [https://en.wikipedia.org/wiki/Via_(electronics) vias] by removing the green varnish masking layer that covers both sides of the motherboard, needed for some alternative points in NAND motherboards installations)
**1x Fiberglass Scratch Brush or alternatively sandpaper and a needle (to expose copper pads by removing the green varnish masking layer that covers both sides of the motherboard, needed for some alternative points in NAND motherboards installations)
**1x Bottle of flux, lead-free, no-clean
**1x Bottle of flux, lead-free, no-clean
**1x Bottle of 99% Isopropyl alcohol, aka Isopropanol (to clean residues from rosin core of tin, or flux)
**1x Bottle of 99% Isopropyl alcohol, aka Isopropanol (to clean residues from rosin core of tin, or flux)
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As you can see it requires a lot of materials to perform this kind of job.  If you do not already have the parts for this kind of project, it will probably be cheaper to pay someone else to do it and ship it to and from them.  Also if you are not confident in your soldering technique, it is a very realistic possibility that you will damage your PlayStation 3 Console during this process as there are a LOT of soldering joints that need to be perfectly made.
As you can see it requires a lot of materials to perform this kind of job.  If you do not already have the parts for this kind of project, it will probably be cheaper to pay someone else to do it and ship it to and from them.  Also if you are not confident in your soldering technique, it is a very realistic possibility that you will damage your PlayStation 3 Console during this process as there are a LOT of soldering joints that need to be perfectly made.


=== Install options ===
== Teensy 2.0 ++ Powering options ==
==== Powering options ====
Teensy can work in a wide range of voltages up to 5v, but the same voltages that feeds the teensy are used in the data lines (traveling along the wires connected to PS3 flash)
<Gallery>
File:Atmel AT90USB128 bus powered with 3V IO.jpg|Atmel AT90USB128 typical bus powered application with 3V I/O
File:Atmel AT90USB128 bus powered with 5V IO.jpg|Atmel AT90USB128 typical bus powered application with 5V I/O
</Gallery>


The Atmel AT90USB1286 microcontroller on the teensy has a voltage operation range from 2.7v up to 5.5v, but the same voltages that feeds the teensy are used in the data lines (traveling along the wires connected to PS3 flash)
All PS3 flash models included NAND and NOR works at a range of around 3.3 volts


All PS3 flash models included NAND and NOR works at a range of around 3 volts
For this reason is mandatory to cut the 5v trace at the bottom of the teensy board and short the 3.3v pads to feed the teensy with 3.3v, this way teensy and the PS3 flash chips will work at the same 3.3 voltage levels
 
For this reason is mandatory to cut the 5v trace at the bottom of the teensy board to feed the teensy with 3.3v, this way teensy and the PS3 flash chips will work at the same 3.3 voltage levels


{| class="wikitable"
{| class="wikitable"
|-
|-
| [[File:Teensy adapter Board for NANDway - prepare the Teensy.jpg|350px|thumb|left|Prepare the Teensy and the cutting tool]] || [[File:Teensy adapter Board for NANDway - cut 5V bridge.jpg|350px|thumb|left|Cut the bridge on the bottom side of the Teensy, so the Teensy no longer gets a 5v input from the USB cable/PC]]  
| [[File:Teensy adapter Board for NANDway - prepare the Teensy.jpg|300px|thumb|left|Prepare the Teensy]] || [[File:Teensy adapter Board for NANDway - cut 5V bridge.jpg|300px|thumb|left|First of all, we cut the following bridge on the bottom side of the Teensy so that the Teensy no longer works with 5V]] || [[File:Teensy adapter Board for NANDway - solder 3V bridge.jpg|300px|thumb|left|now, we solder a bridge between the middle common solder pad and the 3,3V pad]]
|}
|}


===== Teensy powered by USB with onboard voltage regulator =====
=== Teensy powered by USB with the onboard voltage regulator ===
Cut the 5V bridge and solder the voltage regulator on the Teensy, then join the 3V bridge as shown in the picture.
After cutting the 5v bridge and soldering the 3.3v bridge, we solder the voltage regulator on the Teensy


With this method there is no need to provide the teensy with external power on the 5v pin next to B6 pin. It will get its power from the usb cable and convert it to 3.3v with the regulator to power the teensy logic.
This is the standard way of powering the teensy with 3.3v, by soldering a 3.3v regulator as explained in https://www.pjrc.com/teensy/3volt.html


<table style="width:100%;">[[File:Teensy adapter Board for NANDway - solder regulator on teensy.jpg|350px|thumb|left|Solder regulator on Teensy]]</table>
DON'T CONNECT THE +5V SOLDER PAD IN A CORNER OF THE TEENSY TO ANYTHING !


===== Teensy powered externally by PS3 or PSU/adaptor =====
[[File:Teensy adapter Board for NANDway - solder regulator on teensy.jpg|300px|Teensy adapter Board for NANDway - solder regulator on Teensy]]
After cutting the 5v bridge, solder the 3V bridge, in order to feed the teensy with the 3.3v are several options. Using either an external power supply taking a 3.3v line from the power supply or from a 3.3v point of the PS3 motherboard and connecting it to the +5V pad in a corner of the teensy. Note using a on/off switch in this wire is suggested otherway teensy will be powered up permanently.
<table style="width:100%;">[[File:Teensy adapter Board for NANDway - solder 3V bridge.jpg|350px|thumb|left|Solder a bridge between the middle common pad and the 3V pad]]</table>


==== Tristate options ====
=== Teensy powered externally by PS3 or adaptor ===
Tristate, or as it is referred to in the service manuals SB_DISABLE exists solely for the purpose of placing the [[South Bridge]] pins into high-impedance (aka the [https://en.wikipedia.org/wiki/Three-state_logic third state logic]) so that we can access the flash without the [[South Bridge]] interfering.
Same as before, first is needed to cut the 5v bridge and solder the 3.3v bridge, but here is not used a voltage regulator


When the southbridge pins are in tristate is like if southbridge (and all peripherals connected to it) where disconnected from the main circuit, the PS3 powers up normally (fans, etc) but it won't boot up to the XMB screen because some components of the motherboard are not found, it just sits there with a black screen
To feed the teensy with the 3.3v are several options, as using an external power supply, taking a 3.3v line from the power supply or from some point of the motherboard... info about this methods can be moved here


Because the tristate pin is not connected to the [[Flash (Hardware) | Flash]] TSOP package, but to the [[South Bridge]] BGA package, this makes tracing the pin quite difficult. One should be able to locate it by having the running you could ground out the unknown pins whilst checking the continuity of a known address or data line against ground. These should enter high-impedance or no-continuity when you ground out SB_DISABLE.
In all cases, there is a wire connected from the 3.3 voltage power source to the +5V pad in a corner of the teensy. Note using a on/off switch in this wire is suggested otherway teensy will be powered up permanentlly


===== Tristate Question ====<!--Taken from a conversation between judges and tiago95-->
DON'T INSTALL VOLTAGE REGULATOR!
 
 
==== Tristate Question (by tiago95) ====
Q: Just one thing, those anyone know if the teensy sets automatically Tristate to ground on version v0.64 without any usb plugged in?
Q: Just one thing, those anyone know if the teensy sets automatically Tristate to ground on version v0.64 without any usb plugged in?


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::* When usb is disconnected, Teensy isn't powered by usb anymore, but might receive some voltage through signal lines, which can lead to unpredictable behaviour because Teensy is running in an undefined state
::* When usb is disconnected, Teensy isn't powered by usb anymore, but might receive some voltage through signal lines, which can lead to unpredictable behaviour because Teensy is running in an undefined state


==== LED options ====
== Teensy 2.0 ++ Pinout by flash type ==
http://www.psx-place.com/forum/downgrading/launchers-325-post25084.html#post25084
 
===== Removing onboard teensy LED =====
<div style="float:right">[[File:Teensy++ 2.0 schematic.jpg|210px|thumb|right|Teensy++ 2.0 schematic]]</div>
Teensy has an onboard led connected to D6 data line, the led blinks '''only''' when there is activity on the D6 line
 
There is no other software control over the onboard led, if teensy does a write/read on other data lines (not D6) the led is not going to blink
 
Following the schematics for the led is posible to add one more led for every data line. But this is not a good idea, has been discussed and reported that the onboard led is problematic and can cause reading/writing problems, so adding more leds is just going to cause even more problems, actually the best thing you can do with the onboard leds is to disable it
 
To disable the led is posible to desolder it, or desolder its resistor, but technically the best way is by cutting its trace because we dont want the led but we dont want the trace either (a trace that goes nowhere is a bad idea and can cause interferences)
 
The best place to make the cut is '''at bottom of teensy cutting around the D6 pad''', the trace that goes out of D6 pad at bottom is specific for the led. '''WARNING: dont cut the trace at top of the teensy that connects D6 pad with the atmel chip !'''
 
===== Adding an extra LED for teensy =====
Starting at norway v0.8 has been added a new function to controll an external led connected to pad B7 of teensy
 
This external LED emits blinks much more informative than the onboard LED, is intended to give much better feedback to the user, it does a flash blink when teensy connects to the PC client (norway.py) at the same time it shows the version on the PC, also the blinking when reading/writing operations are performed is now accurate
 
This new led functions mapped to pad B7 allows to move the led to any place, handy for permanent installations of teensy because you can place the led on the outside of the PS3 case to see how it blinks, or you can repurpose one/some of the original leds of the PS3 case to be controlled by teensy, as explained here: [[Switch_boards#HSW-001_Contour_backlight_controlled_by_teensy | HSW-001 Contour backlight controlled by teensy]]
 
=== Pinouts and schematics ===
==== Pinouts by flash type ====
See [[Hardware flashing]] page
See [[Hardware flashing]] page


{{Flash types and models used by PS3}}
{{Flash types and models used by PS3}}


===== NORway =====
=== Teensy NOR pinout ===
<table style="width:100%;">[[File:Teensy++ 2.0 to PS3 flash interface for NORway.jpg|850px|left]]</table>
<!--  OLD
{| class="wikitable"
{| class="wikitable"
|-
|-
| [[File:Teensy2.0++.jpg|500px|thumb|left|Teensy NOR pinout]] || [[File:TOSP1-56pin.png|500px|thumb|left|NOR Flash pinout]]  
| [[File:Teensy2.0++.jpg|500px|thumb|left|Teensy NOR pinout]] || [[File:TOSP1-56pin.png|500px|thumb|left|NOR Flash pinout]]  
|}
|}
-->


===== NANDway Dual NAND Edition =====
=== Teensy NAND Pinout ===
<table style="width:100%;">[[File:Teensy++ 2.0 to PS3 flash interface for NANDway dual NAND edition.jpg|850px|left]]</table>
<!--  OLD
{| class="wikitable"
{| class="wikitable"
|-
|-
| [[File:TeensyNAND.png|500px|thumb|left|Teensy DUAL NAND pinout]] || [[File:NANDway-dualNAND-diagram.jpg|500px|thumb|left|Dual NAND flash pinout]]
| [[File:TeensyNAND.png|500px|thumb|left|Teensy DUAL NAND pinout]] || [[File:NANDway-dualNAND-diagram.jpg|500px|thumb|left|Dual NAND flash pinout]]
|}
|}
-->


===== NANDway Signal Booster Edition =====
<table style="width:100%;">[[File:Teensy++ 2.0 to PS3 flash interface for NANDway signal booster edition.jpg|850px|left]]</table>
<!--  OLD
{| class="wikitable"
{| class="wikitable"
|-
|-
| [[File:NANDway-SignalBoosterEdition.jpg|500px|thumb|left|Teensy NAND Booster edition pinout]] || [[File:TOSP1-48pin.png|500px|thumb|left|NAND flash pinout]]
| [[File:NANDway-SignalBoosterEdition.jpg|500px|thumb|left|Teensy NAND Booster edition pinout]] || [[File:TOSP1-48pin.png|500px|thumb|left|NAND flash pinout]]
|}
|}
-->
==== Schematics by motherboard (retail) ====
The official purpose of this testpoints is to connect the motherboard to a ''JIG machine'' that uses adapters with [https://en.wikipedia.org/wiki/Pogo_pin Pogo pins]
===== NAND layout 1 =====
'''Labeled with motherboard testpoint names'''
<Gallery>
File:COK-001 NAND traces.jpg|COK-001 boardtraces (NAND board) confirmed
File:COK-002 NAND traces.jpg|COK-002 boardtraces (NAND board) confirmed
File:SEM-001 NAND traces.jpg|SEM-001 boardtraces (NAND board) confirmed
</Gallery>
===== NOR layout 1 =====
'''Labeled with motherboard testpoint names'''
<Gallery>
File:DIA-001_NOR.JPG|DIA-001 NOR Testpoints (NOR layout 1)
File:DIA-002_by_DiscoBear.jpg|DIA-002 NOR Testpoints (NOR layout 1)
</Gallery>
===== NOR layout 2 =====
'''Labeled with teensy pad names'''
<Gallery>
File:VER-001_TEENSY_External_Power.jpg|Schematic for VER-001 - Teensy 2++  with '''External Power Only'''
</Gallery>
'''Labeled with motherboard testpoint names'''
<Gallery>
File:VER-001_NOR-3.3V.JPG|VER-001 NOR Testpoints (NOR layout 2)
File:Ver-001 nor-rev.jpg|VER-001 NOR Testpoints - trisaster.de, '''missing Tristate''' (NOR layout 2)
</Gallery>
===== NOR layout 3 =====
'''Labeled with motherboard testpoint names'''
<Gallery>
File:DYN-001_NOR.JPG|DYN-001 NOR Testpoints (NOR layout 3)
File:DYN-001_NOR_-_E3-dual-boot.jpg|DYN-001 NOR Testpoints + dualboot 'AB mod' (NOR layout 3)
File:Dyn 001-progskeet.jpg|DYN-001 NOR Testpoints with progskeet labeling (NOR layout 3)
</Gallery>
===== NOR layout 4 =====
'''Labeled with teensy pad names'''
<Gallery>
File:Teensy++2.0 NOR testpoints layout 4.png|Teensy++2.0 NOR testpoints layout 4
File:Teensy++2.0 SUR-001 NOR testpoints.png|Teensy++2.0 SUR-001 NOR testpoints
File:Teensy++2.0 JTP-001 NOR testpoints.png|Teensy++2.0 JTP-001 NOR testpoints
File:Teensy++2.0 JSD-001 NOR testpoints.png|Teensy++2.0 JSD-001 NOR testpoints
File:Teensy++2.0 KTE-001 NOR testpoints.png|Teensy++2.0 KTE-001 NOR testpoints
File:JSD-001, Teensy2.0++ Connection Diagram.jpg|JSD-001, Teensy++ 2.0 Connection Diagram
</Gallery>
'''Labeled with motherboard testpoint names'''
<Gallery>
File:Jtp jsd kte-progskeet.jpg|JSD-001, JTP-001, KTE-001 NOR Testpoints with Progskeet labeling (NOR layout 4)
File:Progskeet-1.2 - JTP001-JSD001-KTE001.jpg|JSD-001, JTP-001, KTE-001 NOR Testpoints with Progskeet 1.2 labeling (NOR layout 4)
File:JSD-001_NOR.JPG|JSD-001 NOR Testpoints (NOR layout 4)
File:JSD-001_NOR_-_nor_testpoints.png|JSD-001 Testpoints - orig. marcan/noraliser (NOR layout 4)
</Gallery>


==== Schematics by motherboard (non retail) ====
= Teensy Solder Install Notes by Motherboard Model =
===== NOR DEB-001 =====
<Gallery>
File:Teensy++_2.0_DEB-001_NOR_testpoints.jpg|Teensy++ 2.0 DEB-001 NOR testpoints
</Gallery>
 
== Teensy Solder Install Notes by Motherboard Model ==
First open the PS3.  Follow youtube videos to learn how (Just search).
First open the PS3.  Follow youtube videos to learn how (Just search).


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2.) Internal Case Modifications.  This is the best way to go as you can install the teensy inside of the PS3 for later use.  This is the advantage of using a Teensy 2.0++ because it's just small enough to install inside the PS3 with a little case modification.  Other flashers are generally too large to do this with the PS3 closed up.  You will find there is just no room for it.
2.) Internal Case Modifications.  This is the best way to go as you can install the teensy inside of the PS3 for later use.  This is the advantage of using a Teensy 2.0++ because it's just small enough to install inside the PS3 with a little case modification.  Other flashers are generally too large to do this with the PS3 closed up.  You will find there is just no room for it.


=== COK-001, COK-002, COK-002W, SEM-001 ===
== COK-001, COK-002, COK-002W, SEM-001 ==


I used the image for the Progskeet, along with an image of which Progskeet pin(GP1 etc.) corresponds to which NAND chip pin name (WP, ALE, CLE, I/O1 etc.) to create a diagram of which testpoint on the mainboard goes to which leg of the NAND chips made by Samsung.
I used the image for the Progskeet, along with an image of which Progskeet pin(GP1 etc.) corresponds to which NAND chip pin name (WP, ALE, CLE, I/O1 etc.) to create a diagram of which testpoint on the mainboard goes to which leg of the NAND chips made by Samsung.


<table style="width:100%;">
[http://ptodorov.com/files/diy/cok002-NAND-TEENSY.jpg Diagram for wiring Teensy++ 2.0 to a PS3 COK-002 mainboard]
  <tr>
      <td>[[File:Cok002-NAND-TEENSY.jpg|250px|thumb|left|Diagram for wiring Teensy++ 2.0 to a PS3 COK-002 mainboard.]]</td>
  </tr>
</table>


So now you can use this diagram not only for downgrading/dumping/writing the NANDs with a Teensy++ 2.0 board, but with any other board available on the Internet.
So now you can use this diagram not only for downgrading/dumping/writing the NANDs with a Teensy++ 2.0 board, but with any other board available on the Internet.
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'''Important:''' You must provide a stable 3.3V PSU to both the PS3 board and the Teensy, and don’t forget to unite the GNDs. You can use any PSU which outputs 3.3V @ 1.8A+, the easiest option will be to use a PC PSU.
'''Important:''' You must provide a stable 3.3V PSU to both the PS3 board and the Teensy, and don’t forget to unite the GNDs. You can use any PSU which outputs 3.3V @ 1.8A+, the easiest option will be to use a PC PSU.


=== DIA-001, DIA-002 ===
== DIA-001, DIA-002 ==
Parts not needed?  Submitter please list here.<br>
Parts not needed?  Submitter please list here.<br>




==== Installation and Case Modification ====
=== Installation and Case Modification ===
This installation the case was not modified.  It was flashed while opened, and removed.
This installation the case was not modified.  It was flashed while opened, and removed.
<table style="width:100%;">
<table style="width:100%;">
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</table>
</table>


=== VER-001 ===
== VER-001 ==


Usage :
Usage :
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</gallery>
</gallery>


==== Installation and case modification ====
=== Installation and case modification ===
In this installation, the cables were strategically soldered to fit better and not break or short when the power supply was placed, so no external power was needed.
In this installation, the cables were strategically soldered to fit better and not break or short when the power supply was placed, so no external power was needed.
<table style="width:100%;">
<table style="width:100%;">
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</table>
</table>


=== DYN-001 ===
== DYN-001 ==


Parts not needed - Torque T-10 Screwdriver.  (T-8 IS still needed!)<br>
Parts not needed - Torque T-10 Screwdriver.  (T-8 IS still needed!)<br>
<br>
<br>


==== Installation and Case Modifications ====
=== Installation and Case Modifications ===


Be sure to make a screw map when disassembling the PS3, there are a lot of screws, and you will not remember where they go.
Be sure to make a screw map when disassembling the PS3, there are a lot of screws, and you will not remember where they go.
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You can test your work before putting the cover top back on.  Just make sure blu-ray and power-supply are connected and everything else before trying.  This is so you know that everything is fitting okay and that the install has worked for you.  Take 3 dumps (Read above on how to take a dump of NOR) and compare them.  Do md5sum and sha1sum, and then try and unpack them with norunpack from f0f tools.  If they all match, and it unpackages, congratulations you have a good dump!
You can test your work before putting the cover top back on.  Just make sure blu-ray and power-supply are connected and everything else before trying.  This is so you know that everything is fitting okay and that the install has worked for you.  Take 3 dumps (Read above on how to take a dump of NOR) and compare them.  Do md5sum and sha1sum, and then try and unpack them with norunpack from f0f tools.  If they all match, and it unpackages, congratulations you have a good dump!


=== JSD-001 ===
== JSD-001 ==
No dremel required.  Design of this CECH 2500 series has an opened hole area to put wires through.<br>
No dremel required.  Design of this CECH 2500 series has an opened hole area to put wires through.<br>




==== Installation and Case Modification ====
=== Installation and Case Modification ===
<table style="width:100%;">
<table style="width:100%;">
   <tr>
   <tr>
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       <td>[[File:install-3.jpg|250px|thumb|left|JSD-001 Post wire job from motherboard view with wire wrap.]]<br />
       <td>[[File:install-3.jpg|250px|thumb|left|JSD-001 Post wire job from motherboard view with wire wrap.]]<br />
           [[File:install-4.jpg|250px|thumb|left|JSD-001 Teensy placement and wired up. Notice open space.]]</td>
           [[File:install-4.jpg|250px|thumb|left|JSD-001 Teensy placement and wired up. Notice open space.]]</td>
      <td>[[File:JSD-001 testpoints.png|250px|thumb|left|JSD-001 Motherboard NOR Test Points.]]<br />
          [[File:JSD-001, Teensy2.0++ Connection Diagram.jpg|250px|thumb|left|JSD-001, Teensy2.0++ Connection Diagram]]</td>
   </tr>
   </tr>
</table>
</table>


=== SUR-001/JTP-001/KTE-001 ===
== SUR-001/JTP-001/KTE-001 ==


*** Need submissions...
*** Need submissions...


== Teensy Flash Clip adapters ==
= Teensy Flash Clip adapters =


=== Teensy clip adapter Board for NANDway v1 ===
== Teensy clip adapter Board for NANDway v1 ==
Layout for a PCB without external Voltage-source (this was the first version without capacitors, Voltageregulator and two bridges)
Layout for a PCB without external Voltage-source (this was the first version without capacitors, Voltageregulator and two bridges)


deprecated, use v2 instead
deprecated, use v2 instead


==== Gallery ====
=== Gallery ===
<gallery>
<gallery>
File:Teensy adapter Board for NANDway v1 - top.jpg|Teensy adapter Board for NANDway v1 - top
File:Teensy adapter Board for NANDway v1 - top.jpg|Teensy adapter Board for NANDway v1 - top
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</gallery>
</gallery>


==== Download ====
=== Download ===
[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=53 Teensy2Clip - Folie.pdf] [https://mega.co.nz/#!Dls10aqQ!yawLBI-hRRksCJmExqwi4B6MQV7Hk8NEfspxAnOu-EQ mirror]
[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=53 Teensy2Clip - Folie.pdf] [https://mega.co.nz/#!Dls10aqQ!yawLBI-hRRksCJmExqwi4B6MQV7Hk8NEfspxAnOu-EQ mirror]


=== Teensy clip adapter Board for NANDway v2.1 ===
== Teensy clip adapter Board for NANDway v2.1 ==
Allows to connect a [http://www.pjrc.com/store/teensypp.html Teensy++ 2.0] to a [http://www.360-clip.com/ 360-NAND Clip]<br />
[[File:Teensy adapter Board for NANDway - intro.jpg|Teensy adapter Board for NANDway]]<br />
'''Source article:''' http://playstationhax.it/forums/topic/1149-teensy-adapter-board-for-nandway/<br />
'''Source article:''' http://playstationhax.it/forums/topic/1149-teensy-adapter-board-for-nandway/
[[File:Teensy adapter Board for NANDway - intro.jpg|Teensy adapter Board for NANDway]][[File:360-clip-nand.jpg|360-clip for NAND flash]]
   
   
Hey. in the past, i create a simple adapter board to connect the Teensy to a "360-clip NAND Clip" (the classic kind of NAND Clips). It's easier and faster to solder a board than [[:File:Teensy NANDway - wired Clip.jpg|wire the cables]], no more problems with cable breaks and a good connection. An english speaking user ask me for a solder tutorial, so I thought on this occasion, i can write directly to the community. :)
Hey. in the past, i create a simple adapter board to connect the Teensy to a "360-clip NAND Clip" (the classic kind of NAND Clips). It's easier and faster to solder a board than [[:File:Teensy NANDway - wired Clip.jpg|wire the cables]], no more problems with cable breaks and a good connection. An english speaking user ask me for a solder tutorial, so I thought on this occasion, i can write directly to the community. :)
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But now the tutorial with some words (the most things should be self-explanatory).
But now the tutorial with some words (the most things should be self-explanatory).
   
   
==== What you need ====
=== What you need ===
[[File:Teensy adapter Board for NANDway - what you need.jpg|300px|Teensy adapter Board for NANDway - what you need]]
[[File:Teensy adapter Board for NANDway - what you need.jpg|300px|Teensy adapter Board for NANDway - what you need]]


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* 1x Teensy++ 2.0
* 1x Teensy++ 2.0
* 1x 5V to 3,3V Voltage Regulator for the Teensy ([https://www.pjrc.com/store/mcp1825.html MCP1825], [https://www.reichelt.de/ICs-LM-2000-LM-25576/LM-3940-IMP-3-3/3/index.html?&ACTION=3&LA=5000&GROUP=A2153&GROUPID=5466&ARTICLE=109407&START=0&SORT=preis&OFFSET=500 LM3940] or Pin-compatible)
* 1x 5V to 3,3V Voltage Regulator for the Teensy ([https://www.pjrc.com/store/mcp1825.html MCP1825], [https://www.reichelt.de/ICs-LM-2000-LM-25576/LM-3940-IMP-3-3/3/index.html?&ACTION=3&LA=5000&GROUP=A2153&GROUPID=5466&ARTICLE=109407&START=0&SORT=preis&OFFSET=500 LM3940] or Pin-compatible)
* 1x [http://www.360-clip.com/360-CLIP_12.jpg TSSOP 48 NAND-Clip] (360-Clip) with equipment (Flat-cable, Pin-header (2x11) and the red adapter board (you get always all these things when you buy a new NAND Clip)
* 1x [http://wii-clip.com/360/360-CLIP_12.jpg TSSOP 32 NAND-Clip] (360-Clip) with equipment (Flat-cable, Pin-header (2x11) and the red adapter board (you get always all these things when you buy a new NAND Clip))
* 2x [https://www.reichelt.de/Stiftleisten/MPE-087-1-020/3/index.html?&ACTION=3&LA=5000&GROUP=C141&GROUPID=3220&ARTICLE=119888&START=0&SORT=preis&OFFSET=500 Pin-header (1x20)]
* 2x [https://www.reichelt.de/Stiftleisten/MPE-087-1-020/3/index.html?&ACTION=3&LA=5000&GROUP=C141&GROUPID=3220&ARTICLE=119888&START=0&SORT=preis&OFFSET=500 Pin-header (1x20)]
* 1x [https://www.reichelt.de/Stiftleisten/MPE-087-2-008/3/index.html?&ACTION=3&LA=5000&GROUP=C141&GROUPID=3220&ARTICLE=119894&START=0&SORT=preis&OFFSET=500 Pin-header (2x4)]
* 1x [https://www.reichelt.de/Stiftleisten/MPE-087-2-008/3/index.html?&ACTION=3&LA=5000&GROUP=C141&GROUPID=3220&ARTICLE=119894&START=0&SORT=preis&OFFSET=500 Pin-header (2x4)]
   
   
===== optional but recommendable =====
==== optional but recommendable ====
* 2x [https://www.reichelt.de/Buchsenleisten/BL-1X20G8-2-54/3/index.html?&ACTION=3&LA=5000&GROUP=C142&GROUPID=3221&ARTICLE=51827&START=0&SORT=preis&OFFSET=500 female connector (1x20)]
* 2x [https://www.reichelt.de/Buchsenleisten/BL-1X20G8-2-54/3/index.html?&ACTION=3&LA=5000&GROUP=C142&GROUPID=3221&ARTICLE=51827&START=0&SORT=preis&OFFSET=500 female connector (1x20)]
* 1x [https://www.reichelt.de/Buchsenleisten/MPE-094-2-008/3/index.html?&ACTION=3&LA=5000&GROUP=C142&GROUPID=3221&ARTICLE=119928&START=0&SORT=preis&OFFSET=500 female connector (2x4)]
* 1x [https://www.reichelt.de/Buchsenleisten/MPE-094-2-008/3/index.html?&ACTION=3&LA=5000&GROUP=C142&GROUPID=3221&ARTICLE=119928&START=0&SORT=preis&OFFSET=500 female connector (2x4)]
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* 1x Capacitor 10µF SMD-0805
* 1x Capacitor 10µF SMD-0805
   
   
===== Optional (if you want power the NAND with external Power) =====
==== Optional (if you want power the NAND with external Power) ====
* 1x 5V to 3,3V Voltage Regulator ([https://www.reichelt.de/ICs-LMC-LS-/LMS-1587-CS-3-3/3/index.html?&ACTION=3&LA=5000&GROUP=A2154&GROUPID=5467&ARTICLE=109422&START=0&SORT=preis&OFFSET=500 LMS1587CS-3.3] or Pin-compatible)
* 1x 5V to 3,3V Voltage Regulator ([https://www.reichelt.de/ICs-LMC-LS-/LMS-1587-CS-3-3/3/index.html?&ACTION=3&LA=5000&GROUP=A2154&GROUPID=5467&ARTICLE=109422&START=0&SORT=preis&OFFSET=500 LMS1587CS-3.3] or Pin-compatible)
* 1x 5V Powersupply (minimum 3A)
* 1x 5V Powersupply (minimum 3A)


See section above to cut the 5v trace on teensy and how to solder the 3.3v regulator at the bottom of teensy board
See section above to cut the 5v trace on teensy and how to solder the 3.3v regulator at the bottom of teensy board
 
==== Solder the adapter board ====
=== Solder the adapter board ===
===== Solder pinheaders on adapterboard =====
==== Solder pinheaders on adapterboard ====
Solder the pin-header on the board (be careful, the plastic of the pin-header could melt fast)<br />
Solder the pin-header on the board (be careful, the plastic of the pin-header could melt fast)<br />


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now, plug the red adapter board (which was at the NAND-clip) on the pin-header, solder the pins and cut them if they are too long.<br />
now, plug the red adapter board (which was at the NAND-clip) on the pin-header, solder the pins and cut them if they are too long.<br />


===== Solder adapterboard on pinheader =====
==== Solder adapterboard on pinheader ====
[[File:Teensy adapter Board for NANDway - solder adapterboard on pinheader.jpg|300px|Teensy adapter Board for NANDway - solder adapterboard on pinheader]]
[[File:Teensy adapter Board for NANDway - solder adapterboard on pinheader.jpg|300px|Teensy adapter Board for NANDway - solder adapterboard on pinheader]]


===== Mount Teensy to board =====
==== Mount Teensy to board ====
You can choose, if you want solder the Teensy fixed on the board....<br />
You can choose, if you want solder the Teensy fixed on the board....<br />


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[[File:Teensy adapter Board for NANDway - solder teensy on female pinheader.jpg|300px|Teensy adapter Board for NANDway - solder teensy on female pinheader]]
[[File:Teensy adapter Board for NANDway - solder teensy on female pinheader.jpg|300px|Teensy adapter Board for NANDway - solder teensy on female pinheader]]


===== Powersource 1x3 pinheader =====
==== Powersource 1x3 pinheader ====
with the following 1x3 pin-header, you can choose the Powersource for the NAND (external, or USB) (sometimes it can cause problems, when you use the USB as Power Supply)<br />
with the following 1x3 pin-header, you can choose the Powersource for the NAND (external, or USB) (sometimes it can cause problems, when you use the USB as Power Supply)<br />


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[[File:Teensy adapter Board for NANDway - 1x3 Pinheader Powersource by USB.jpg|300px|Teensy adapter Board for NANDway - 1x3 Pinheader Powersource by USB]]
[[File:Teensy adapter Board for NANDway - 1x3 Pinheader Powersource by USB.jpg|300px|Teensy adapter Board for NANDway - 1x3 Pinheader Powersource by USB]]
   
   
===== Optional things: =====
==== Optional things: ====
====== Filtering ======
===== Filtering =====
for a cleaner voltage, you should solder the capacitors<br />
for a cleaner voltage, you should solder the capacitors<br />


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[[File:Teensy adapter Board for NANDway - Soldered capacitors for cleaner voltage.jpg|300px|Teensy adapter Board for NANDway - Soldered capacitors for cleaner voltage]]
[[File:Teensy adapter Board for NANDway - Soldered capacitors for cleaner voltage.jpg|300px|Teensy adapter Board for NANDway - Soldered capacitors for cleaner voltage]]
    
    
====== External regulator ======
===== External regulator =====
you can also solder a stronger voltage-regulator (than the one on the Teensy)  to connect a stronger 5V power supply (than your USB Port).
you can also solder a stronger voltage-regulator (than the one on the Teensy)  to connect a stronger 5V power supply (than your USB Port).


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[[File:Teensy adapter Board for NANDway - Soldered Regulator.jpg|300px|Teensy adapter Board for NANDway - Soldered Regulator]]
[[File:Teensy adapter Board for NANDway - Soldered Regulator.jpg|300px|Teensy adapter Board for NANDway - Soldered Regulator]]


====== DC connector ======
===== DC connector =====
you can connect your 5V Power supply on the marked solder points. I used a DC-coupling for a better handling<br />
you can connect your 5V Power supply on the marked solder points. I used a DC-coupling for a better handling<br />


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when you want use the external voltage, you must reposition the jumper (like you can see on the picture), but you can always change the powersource with the jumper
when you want use the external voltage, you must reposition the jumper (like you can see on the picture), but you can always change the powersource with the jumper


==== Where you can buy this boards? ====
=== Where you can buy this boards? ===
You can find a zip-file to download below. in this file, you find the complete project folder. You can use the files to view and change the Layout or the circuit diagram, but if you only want a board, you can send this zip-file to a PCB service. I order my boards always at [http://elecrow.com/ elecrow.com]. The board has a size of 55mm x 45mm, so you must order the boards on [http://www.elecrow.com/2-layer-10cm-10cm-max-pcb-510pcs-color-free-p-328.html this page].
You can find a zip-file to download below. in this file, you find the complete project folder. You can use the files to view and change the Layout or the circuit diagram, but if you only want a board, you can send this zip-file to a PCB service. I order my boards always at [http://elecrow.com/ elecrow.com]. The board has a size of 55mm x 45mm, so you must order the boards on [http://www.elecrow.com/2-layer-10cm-10cm-max-pcb-510pcs-color-free-p-328.html this page].


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[[File:Teensy adapter Board for NANDway - Elecrow.jpg|300px|Teensy adapter Board for NANDway - Elecrow]]
[[File:Teensy adapter Board for NANDway - Elecrow.jpg|300px|Teensy adapter Board for NANDway - Elecrow]]


===== Download ====  
==== Download ====  
[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=46 Teensy Adapter Platine V2.zip] / [https://mega.co.nz/#!bs00XYCY!9o5YOJ4ellYZmH2Imnep5eNpJl3lNal_ngf_2Z0VOg8 mirror]
[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=46 Teensy Adapter Platine V2.zip] / [https://mega.co.nz/#!bs00XYCY!9o5YOJ4ellYZmH2Imnep5eNpJl3lNal_ngf_2Z0VOg8 mirror]


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[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=47 Teensy Adapter Platine V2.pdf] [https://mega.co.nz/#!vpsj0SCK!7R9SxOU162E7HvG0Utack2slqYetKpr3oJoYrwgeRuc mirror]
[http://playstationhax.it/forums/index.php?app=core&module=attach&section=attach&attach_id=47 Teensy Adapter Platine V2.pdf] [https://mega.co.nz/#!vpsj0SCK!7R9SxOU162E7HvG0Utack2slqYetKpr3oJoYrwgeRuc mirror]


=== TEENSY2PS3 ===
== TEENSY2PS3 ==
http://www.psx-place.com/forum/downgrading/teensy2ps3-pcb-linker-teensy-2-0-ps3-1728.html
http://www.psx-place.com/forum/downgrading/teensy2ps3-pcb-linker-teensy-2-0-ps3-1728.html


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http://www.mediafire.com/download/i9tma7gkft84442/TEENSY2PS3_v1.00.zip  
http://www.mediafire.com/download/i9tma7gkft84442/TEENSY2PS3_v1.00.zip  
== Offboard flashing ==
Using flash [https://en.wikipedia.org/wiki/Zero_insertion_force ZIF] sockets
=== TSOP48 ZIF socket (for NAND) ===
=== TSOP56 ZIF socket (for NOR) ===
*REMARK >> WP(pin 16) to Vcc  and BYTE(pin 53) to Vcc
== Teensy Official Distributors ==
https://forum.pjrc.com/threads/23601-Official-Distributors
* PJRC (USA, Oregon) : http://www.pjrc.com/store/teensypp.html + http://www.pjrc.com/store/mcp1825.html
* Adafruit (USA, New York) : http://www.adafruit.com/products/731 +
* Floris.cc (Netherlands) : http://floris.cc/shop/en/teensy/951-teensy-20-usb-development-board.html + http://floris.cc/shop/en/teensy/89-mcp1825s-33-volt-voltage-regulator-for-teensy-2.html
* MindKits (New Zealand) : http://www.mindkits.co.nz/store/arduino-compatible/teensy-2-0 + ? http://www.mindkits.co.nz/store/components-ics-breakout-boards/voltage-regulator-3v3 (not SOT-223) or http://www.mindkits.co.nz/store/components-ics-breakout-boards/voltage-regulator-adjustable-lm1117-smd (not fixated: requires two external resistors for trimming it to 3.3V)
* HiTech Store (Germany) : http://www.hitechstore.de/produkt/teensypp/ + http://www.hitechstore.de/produkt/mcp1825s33/
* Watterott (Germany) http://www.watterott.com/de/Teensy-v20-AT90USB1286
* Boxtec (Switzerland) : http://shop.boxtec.ch/teensy-board-p-40725.html + ? http://shop.boxtec.ch/ams1117-voltage-regulator-p-40516.html  '''out of catalog'''
* Teague (as part of Teagueduino) : '''no stock'''
* Sound Art Lab (South Korea) : '''no stock'''
* Little Bird Electronics (Australia) : http://littlebirdelectronics.com.au/products/teensy-2-0
* Hobbytronics (UK) : http://www.hobbytronics.co.uk/teensy-pp2
* Proto-pic (UK) : http://proto-pic.co.uk/teensy-2-0/
* PT-robotics (Portugal) : http://www.ptrobotics.com/modulos-teensy/2539-teensy-20.html
{{Hardware Flashers}}<noinclude>[[Category:Main]]</noinclude>
{{Hardware Flashers}}<noinclude>[[Category:Main]]</noinclude>
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