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[[Category:RetroRGB Migration WIP]] Ewok
[[Category:N64]]
**N64 RGB Mod - Basic Amp Install**
{{warning|'''WARNING:''' ''Before'' starting this mod, [[N64:RGB-Compatible_Systems|make ''sure'' your N64 can be modded for a basic RGB amp]]. If your system is an NTSC N64 with the proper VDC-NUS chip, you can proceed.}}
[[File:N64AmpChoices.jpg|thumb]]
This guide shows RGB mod instructions using a pre-made RGB amp. There are a few different ones available now (some examples shown above), but the installation is similar for all. Any specific differences will be mentioned below.


**Warning:**  _Before_ starting this mod, make _sure_ your N64 can be modded for RGB and that this is the correct mod for your system!: [http://www.retrorgb.com/n64rgbcompatible.html http://www.retrorgb.com/n64rgbcompatible.html]. If your system is an NTSC N64 with the proper VDC-NUS chip, you can proceed:
* [https://github.com/borti4938/n64rgb_project_overview Borti's RGB Amp (Some models)]
* [https://voultar.com/index.php?route=product/product&product_id=50 Voultar's RGB Amp with sync stripper (some models)]
* [http://store.retrofixes.com/collections/upgrade-diy-kits/products/snes-jr-n64-rgb-upgrade-kit? Retrofixes THS7314 Amplifier Board]
* [http://etim.net.au/n64rgb/instructions-new/ N64RGB Board (All Models)]


[[File:N64AmpChoices.jpg]]
== RGB Cable / Sync ==
[[N64:RGB_Cable_/_csync|This page describes the cables you'd need for use with an N64 RGB mod, as well as discusses sync requirements.]]


**RGB Amp:** This guide shows RGB mod instructions using a pre-made RGB amp. There are a few different ones available now (some examples shown above), but the installation is similar for all. Any specific differences will be mentioned below.
== Materials and Tools Required ==
<small>'''You'll need a few tools for this mod (more info on the tools can be found in [[N64:Repair Tools|the repair tools section]]):'''</small>


[http://voultar.com/index.php?route=product/product&product_id=50&tracking=5824d766cf098 Voultar's THS7374 amp with built-in sync stripper]
* 4.5 mm gamebit screwdriver
* Phillips head/JIS screwdriver
* Soldering iron
* Leaded solder
* 26-30 AWG wire
* Wire cutters and stripper
* Flux (optional but highly recommended)


[http://store.retrofixes.com/collections/upgrade-diy-kits/products/snes-jr-n64-rgb-upgrade-kit?rfsn=255623.6664d Retrofixes THS7314 Amplifier Board]
== Modding Services ==
<small>'''If after reading this guide, you decide you'd rather have a professional do it for you, try these services:'''</small>
:*[http://store.retrofixes.com Retrofixes N64 RGB Mod Service(US)]
:*[http://www.voultar.com/ Voultar's Mod Shop]
:*[mailto://leonki@gmail.com Leon Kiriliuk's Console Mods and restorations(CA)]**


[thsamps.html DIY THS7314 board]
== Installation Video ==
<small>'''This is a video demonstrating everything shown in this guide.'''</small>
<youtube>https://www.youtube.com/watch?v=xlSD6OTBiwE</youtube>


 
== Installation Procedure ==
# Remove the Jumper Pak or Expansion Pak, then use a 4.5 mm gamebit screwdriver to remove the six screws holding together the console shell.   
# With the top shell removed, undo only the Phillips head/JIS screws that are circled in the picture below. Note that the screws for the memory expansion port have a smaller head and will require a smaller screwdriver to remove. <br> [[File:N64ShieldRemoval.jpg]]
# After removing just those screws, the heat sink and top RF shield will lift off as one piece, exposing the motherboard.
# Once it’s disassembled, look for a chip that says "VDC-NUS" or "VDC-NUS A" (pictured below). 
#* If you find this chip, you can proceed with the RGB mod.''
#* If not, please see the [[N64:RGB-Compatible_Systems|N64 RGB mods page]] for other options, as your console is not compatible: <br> [[File:N64Page03.jpg]]
# Remove the motherboard and set the bottom RF shielding aside. Flip it over and look for the RGB vias (holes) near resistors R8, R9 and R10. 
# Add a bit of flux to each hole, then solder a wire to each. 
#* R8 = Red   
#* R9 = Green   
#* R10 = Blue
#* Make sure the stripped wire going through the holes is '''extremely''' short! If the wire sticks out past the other side of the motherboard, it will actually touch the VDC-NUS chip and possibly hit one of the pins.}} <br> [[File:N64RGBMod04.jpg]]
# Here's an example of what happens if the RGB wires are fed in too far. Luckily this N64 wasn't permanently damaged and was able to be fixed, but it was shorting pins together and could have potentially ruined the system: <br> [[File:N64_Bad_Installation.jpg]]
# Next, prepare the pre-made amp by adding a piece of non-conductive tape (preferably Kapton tape) to the bottom, just to make sure no connections on the amp touch the motherboard. <br> [[File:SNESMiniRGBPage02.jpg]]
# Slide the amp over the multi-out and solder the pins.
# Run the RGB wires through a bit of heat shrink tubing to keep them neat, then cut them to size and solder them to the RGB board. <br> [[File:VoultarN64BasicInstall2020.jpg]]
# Test the installation by launching an N64 game. ''Super Mario 64'' is a good test game, since you can clearly see the red, green and blue colors right at the title screen, both in the letters and on Mario.
#* Remember to reinsert the Jumper Pak or Expansion Pak or the N64 will not boot.
#* Don't leave the console powered on too long with the heat sink off, or thermal damage to the main chips may result. <br> [[File:N64TestAfterMod.jpg]]
# If the installation didn't work properly, it's most likely the connection to the vias:
#* Double check that the wires aren't sticking through to the other side of the board. Also, if you didn't use flux, go back and use some.this fixes about 90% of all installation issues.
#* As a last resort, you can try soldering directly to the VDC-NUS chip, instead of using the vias. Use pins 17 (Red), 19 (Green) and 21 (Blue). Then, make sure to run the wires cleanly around the board, so that no wires will be pinched when you re-assemble the RF shielding. <br> [[File:N64RGBMod3.jpg]]


**RGB Cable / Sync:** This page describes the cables you'd need for use with an N64 RGB mod, as well as discusses sync requirements: [http://www.retrorgb.com/n64cablecsync.html http://www.retrorgb.com/n64cablecsync.html]
== Boards That Support CSYNC ==
If your RGB board deals with sync, then you can enable clean composite sync (CSYNC) output and use a typical SNES CSYNC cable by wiring the RGB amp's CSYNC output to the multiout connector.


**Tools:** You'll need a few tools for this mod (more info on the tools can be found in [tools.html the tools section]):
Note that not all early N64 board revisions have composite sync (CSYNC) present on the multiout. '''If you have a NUS-CPU-04 board revision, you do not need to follow the component removal steps outlined below as these components were not populated at the factory.'''


\- [n64cablecsync.html An RGB cable] - Soldering skills! - The [http://rover.ebay.com/rover/1/711-53200-19255-0/1?icep_ff3=9&pub=5575041517&toolid=10001&campid=5337251560&customid=&icep_uq=4.5MM+Game+Tool&icep_sellerId=&icep_ex_kw=&icep_sortBy=12&icep_catId=&icep_minPrice=&icep_maxPrice=&ipn=psmain&icep_vectorid=229466&kwid=902099&mtid=824&kw=lg 4.5mm tool] that opens the N64 - Philips head screwdriver - Soldering iron / solder - Thin gauge wire - Flux or flux pen; Not required, but _strongly_ recommended!
# First and most importantly, make ''sure'' there isn't a signal already traveling to pin 3 (CSYNC) on the multiout connector. The easiest and safest way to do this is to remove the three SMD components pictured below that are connected to pin 3:
#* Capacitor "C22"  /  Resistor "R1"  /  Resistor "R14"
#* Alternatively, you can cut the trace on the motherboard, but removing the capacitor is safer, reversible, and debatably easier. Either way, verify the connection has been severed by testing with a multimeter. <br> [[File:N64csynctraces_small.jpg]]
# Then, follow the instructions that match your board:
#* For boards with a sync stripper circuit, simply short the CSYNC jumper by adding solder to both pads and dragging them together.  Once again, verify the connection with a multimeter. <br> [[File:N64VoultarCsyncJumper.jpg]]
#* For boards that process the N64's own sync, resistors R15 & R16 need to be removed and wire must be added to the via just above R16, as shown in this picture. <br>[[File:N64_Voultar_v3.69_small.jpg]]


**Modding Service:** If after reading this guide, you decide you'd rather have a professional do it for you, try these services:
== Reassembly / Shielding Mods ==


**USA:** [http://store.retrofixes.com **Retrofixes N64 RGB Mod Service**]
# If the installation tested fine, replace all the metal shielding (and if any cables are run along the side, make sure they're not getting pinched).  If you're using a longer amp board, you'll need to bend the tab on the bottom metal shield so it doesn't hit the board. <br> [[File:N64BendBottomShield.jpg]]
 
# The smaller pre-made amps should allow just enough space so the metal isn't touching the board and the wires aren't pinched.  If you wanted to be safe, you could bend the shield as shown above: <br> [[File:N64RGBMod07.jpg]]
[http://www.voultar.com/ **Voultar's Mod Shop**]
# Reassemble everything else back in the order they were removed and give it another try.  Remember, the Expansion Pak/Jumper Pak has to be plugged in, or the N64 won't boot.
 
#* If you have any trouble, test with a composite video cable to see if the issues occur on composite, or just RGB.
**Canada (Toronto): [mailto://[email protected] Leon Kiriliuk's Console Mods and restorations]**
 
 
 
**Installation Video:** This is a video demonstrating everything shown in this guide.  It may help in your installation:
 
\[iframe width="560" height="315" src="https://www.youtube.com/embed/xlSD6OTBiwE?rel=0" frameborder="0" allowfullscreen=""\]
 
 
 
**RGB Mod:**
 
\- First, remove the memory module, then unbolt the plastic cover using the 4.5mm game tool.  Then, unbolt only the screws that are circled in the picture below.  After removing just those, the entire metal heat shielding will lift off as one piece, exposing the motherboard: [[File:N64ShieldRemoval.jpg]]
 
\- Once it’s disassembled, look for a chip that says "VDC-NUS" or "VDC-NUS A" (pictured below).  If you find it, you can proceed with the RGB mod.  If not, please see the [n64rgbcompatible.html N64 RGB mods page] for other options, as your console is not compatible: [[File:N64Page03.jpg]]
 
Flip the motherboard over and look for the RGB via's (holes) labeled R8, R9 and R10.  Add a bit of flux to each hole, then solder a wire to each.  Here's the pinout: R8 = Red    R9 = Green    R10 = Blue **Warning**:  Make sure the stripped wire going through the holes is _extremely_ short!!!  If the wire sticks out past the other side of the motherboard, it will actually touch the VDC-NUS chip and possibly hit one of the pins!: [[File:N64RGBMod04.jpg]]
 
Here's an example of what happens if you feed the RGB cables in too far.  Luckily this person's N64 wasn't permanently damaged and I was able to fix it, but it was shorting pins together and could have potentially ruined the system: [[File:N64%20Bad%20Installation.jpg]]
 
\- Next, prepare the pre-made amp by adding a piece of non-conductive tape to the bottom, just to make sure no connections touch the motherboard.  Some boards don't require it, but I'd rather not take the chance: [[File:SNESMiniRGBPage02.jpg]]
 
\- Then, slide the amp over the multi-out and solder the pins. I also like to run the RGB wires through a bit of heat shrink tubing to keep them neat, then cut them to size and solder them to the RGB board (click for full-sized): [[[File:VoultarN64BasicInstall2020.jpg)](https://admin.retrorgb.com/wp-content/uploads/2020/12/VoultarN64BasicInstall2020.jpg]]
 
\- Next, test the installation by launching an N64 game. I like using Mario 64, since you can clearly see the red, green and blue colors right at the title screen, both in the letters and on Mario. DON'T FORGET - You need to plug the memory module back in, or the N64 won't boot! A few times I forgot and thought I may have done the mod wrong. Also, don't leave it powered on too long if you have the heatsink off, or you can damage the chips: [[File:N64TestAfterMod.jpg]]
 
\- If the installation didn't work properly, it's most likely the connection to the via's:
 
Double check that your wires aren't sticking through to the other side of the board. Also, if you didn't use flux, go back and use some...this fixes about 90% of all installation issues.
 
As a last resort, you can try soldering directly to the VDC-NUS chip, instead of using the via's. Use pins 17 (Red), 19 (Green) and 21 (Blue). Then, make sure to run the wires cleanly around the board, so that no wires will be pinched when you re-assemble the metal casing. I find this method to be much more of a pain then using the via's, but it will work: [[File:N64RGBMod3.jpg]]
 
**Boards That Support Csync (not all boards have this option)**
 
If your RGB board deals with sync, then you can enable clean csync output and use a typical SNES csync cable!  First and most importantly, make _SURE_ there isn't a signal already traveling to pin 3 (csync) on the multi-out!!!  The easiest and safest way to do this, is simply by removing the three SMD components pictured below that are connected to pin 3:
 
Capacitor "C22"  /  Resistor "R1"  /  Resistor "R14"
 
Alternatively, you can cut the trace on the motherboard, but removing the capacitor is safer, reversible and in my opinion, easier.  Either way, verify the connection has been severed by testing with a multimeter.  Click for full-sized: [[[File:N64csynctraces_small.jpg)](https://cdn.retrorgb.com/images/N64csynctraces.jpg]]
 
Then, follow the instructions that match your board:
 
For boards with a sync stripper circuit, simply short the CSYNC jumper by adding solder to both pads and dragging them together.  Once again, verify the connection with a multimeter. [[File:N64VoultarCsyncJumper.jpg]]
 
For boards that process the N64's own sync, you'll need to remove resistors R15 & R16 and solder a wire to the via just above R16, as shown in this picture (click for full-sized): [[[File:N64_Voultar_v3.69_small.jpg)](https://cdn.retrorgb.com/images/N64_Voultar_v3.69.jpg]]
 
That's it!  A super easy way to add noise-free csync to an N64!
 
**Reassembly / Shielding Mods:**
 
\- If the installation tested fine, start replacing all the metal shielding (and if any cables are run along the side, make sure they're not getting pinched).  If you're using a longer amp board, you'll need to bend the tab on the bottom metal shield, so it doesn't hit the board.  I just used a pair of pliers and it left plenty of room between the metal and the chips: [[File:N64BendBottomShield.jpg]]
 
The smaller pre-made amps should allow just enough space so the metal isn't touching the board and the wires aren't pinched (please ignore the blue wire in the pic, that was from a csync mod).  If you wanted to be safe, you could bend the shield as shown above: [[File:N64RGBMod07.jpg]]
 
\- Lastly, bolt everything else back in the order you removed it and give it another try.  Remember, the memory module has to be plugged in, or the N64 won't boot.
 
**Some quick tips:**
 
\- If you have any trouble, test with a composite video cable to see if the issues occur on composite, or just RGB.
 
\- I've seen people just connect the RGB pins to the multi-out with no amp.  While technically it would work on some RGB monitors, it will most likely damage your console.  Definitely don't try it!  Here's an example comparing with and without the amp:
 
[[[File:N64%20Cable%20Compare%2001%20-%20Small.jpg)](https://cdn.retrorgb.com/images/N64%20Cable%20Compare%20-%2001.jpg]]
 
 
 
Well, that's it! Feel free to go back to [/n64.html the main N64 page]. If you'd like info on mods for other systems, head to the [/systems.html Getting RGB From Each System page] or check out [/ the main page] for more retro-awesomeness.

Latest revision as of 06:59, 2 September 2023

Exclamation-triangle-fill.svgWARNING: Before starting this mod, make sure your N64 can be modded for a basic RGB amp. If your system is an NTSC N64 with the proper VDC-NUS chip, you can proceed.


N64AmpChoices.jpg

This guide shows RGB mod instructions using a pre-made RGB amp. There are a few different ones available now (some examples shown above), but the installation is similar for all. Any specific differences will be mentioned below.

RGB Cable / Sync

This page describes the cables you'd need for use with an N64 RGB mod, as well as discusses sync requirements.

Materials and Tools Required

You'll need a few tools for this mod (more info on the tools can be found in the repair tools section):

  • 4.5 mm gamebit screwdriver
  • Phillips head/JIS screwdriver
  • Soldering iron
  • Leaded solder
  • 26-30 AWG wire
  • Wire cutters and stripper
  • Flux (optional but highly recommended)

Modding Services

If after reading this guide, you decide you'd rather have a professional do it for you, try these services:

Installation Video

This is a video demonstrating everything shown in this guide.

Installation Procedure

  1. Remove the Jumper Pak or Expansion Pak, then use a 4.5 mm gamebit screwdriver to remove the six screws holding together the console shell. 
  2. With the top shell removed, undo only the Phillips head/JIS screws that are circled in the picture below. Note that the screws for the memory expansion port have a smaller head and will require a smaller screwdriver to remove. 
    N64ShieldRemoval.jpg
  3. After removing just those screws, the heat sink and top RF shield will lift off as one piece, exposing the motherboard.
  4. Once it’s disassembled, look for a chip that says "VDC-NUS" or "VDC-NUS A" (pictured below). 
    • If you find this chip, you can proceed with the RGB mod.
    • If not, please see the N64 RGB mods page for other options, as your console is not compatible:
      N64Page03.jpg
  5. Remove the motherboard and set the bottom RF shielding aside. Flip it over and look for the RGB vias (holes) near resistors R8, R9 and R10. 
  6. Add a bit of flux to each hole, then solder a wire to each. 
    • R8 = Red   
    • R9 = Green   
    • R10 = Blue
    • Make sure the stripped wire going through the holes is extremely short! If the wire sticks out past the other side of the motherboard, it will actually touch the VDC-NUS chip and possibly hit one of the pins.}}
      N64RGBMod04.jpg
  7. Here's an example of what happens if the RGB wires are fed in too far. Luckily this N64 wasn't permanently damaged and was able to be fixed, but it was shorting pins together and could have potentially ruined the system:
    N64 Bad Installation.jpg
  8. Next, prepare the pre-made amp by adding a piece of non-conductive tape (preferably Kapton tape) to the bottom, just to make sure no connections on the amp touch the motherboard.
    SNESMiniRGBPage02.jpg
  9. Slide the amp over the multi-out and solder the pins.
  10. Run the RGB wires through a bit of heat shrink tubing to keep them neat, then cut them to size and solder them to the RGB board.
    VoultarN64BasicInstall2020.jpg
  11. Test the installation by launching an N64 game. Super Mario 64 is a good test game, since you can clearly see the red, green and blue colors right at the title screen, both in the letters and on Mario.
    • Remember to reinsert the Jumper Pak or Expansion Pak or the N64 will not boot.
    • Don't leave the console powered on too long with the heat sink off, or thermal damage to the main chips may result.
      N64TestAfterMod.jpg
  12. If the installation didn't work properly, it's most likely the connection to the vias:
    • Double check that the wires aren't sticking through to the other side of the board. Also, if you didn't use flux, go back and use some.this fixes about 90% of all installation issues.
    • As a last resort, you can try soldering directly to the VDC-NUS chip, instead of using the vias. Use pins 17 (Red), 19 (Green) and 21 (Blue). Then, make sure to run the wires cleanly around the board, so that no wires will be pinched when you re-assemble the RF shielding.
      N64RGBMod3.jpg

Boards That Support CSYNC 

If your RGB board deals with sync, then you can enable clean composite sync (CSYNC) output and use a typical SNES CSYNC cable by wiring the RGB amp's CSYNC output to the multiout connector.

Note that not all early N64 board revisions have composite sync (CSYNC) present on the multiout. If you have a NUS-CPU-04 board revision, you do not need to follow the component removal steps outlined below as these components were not populated at the factory.

  1. First and most importantly, make sure there isn't a signal already traveling to pin 3 (CSYNC) on the multiout connector. The easiest and safest way to do this is to remove the three SMD components pictured below that are connected to pin 3:
    • Capacitor "C22"  /  Resistor "R1"  /  Resistor "R14"
    • Alternatively, you can cut the trace on the motherboard, but removing the capacitor is safer, reversible, and debatably easier. Either way, verify the connection has been severed by testing with a multimeter.
      N64csynctraces small.jpg
  2. Then, follow the instructions that match your board:
    • For boards with a sync stripper circuit, simply short the CSYNC jumper by adding solder to both pads and dragging them together.  Once again, verify the connection with a multimeter.
      N64VoultarCsyncJumper.jpg
    • For boards that process the N64's own sync, resistors R15 & R16 need to be removed and wire must be added to the via just above R16, as shown in this picture.
      N64 Voultar v3.69 small.jpg

Reassembly / Shielding Mods

  1. If the installation tested fine, replace all the metal shielding (and if any cables are run along the side, make sure they're not getting pinched).  If you're using a longer amp board, you'll need to bend the tab on the bottom metal shield so it doesn't hit the board. 
    N64BendBottomShield.jpg
  2. The smaller pre-made amps should allow just enough space so the metal isn't touching the board and the wires aren't pinched.  If you wanted to be safe, you could bend the shield as shown above:
    N64RGBMod07.jpg
  3. Reassemble everything else back in the order they were removed and give it another try.  Remember, the Expansion Pak/Jumper Pak has to be plugged in, or the N64 won't boot.
    • If you have any trouble, test with a composite video cable to see if the issues occur on composite, or just RGB.