Difference between revisions of "Super NES"

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The Super Nintendo, or SNES, was Nintendo’s follow up to the phenomenally successful NES console. Just as the NES is known as the Famicom in Japan, the Super Nintendo is known as the Super Famicom over in Japan too. While the SNES didn't gain the same levels of popularity as the original NES, it was still a very successful console globally, shifting nearly 50 million units worldwide.
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== Models ==
 
== Models ==
  
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There were two main revisions of the hardware. The first revision outputs RGB natively, while the revised Junior or Mini edition requires a RGB mod.
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Later models of the SNES and all SNES/Super Famicom Junior units are known for having a slightly sharper RGB output than earlier models. Enthusiasts refer to these better models as "1 Chip", in reference to the single RGB encoder chip present on the later design motherboards. The 1 chip revision Super Nintendo/Super Famicoms are highly sought after and many gamers will go to the effort to get a SNES/Super Famicom Junior RGB modded to ensure that they are getting a unit with the very best possible quality RGB output.
  
 
=== Models tested ===
 
=== Models tested ===
  
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HVC-002 (Tested with XRGB3, Mini and OSSC).
  
 
== [[XRGB-2]] Specific settings ==
 
== [[XRGB-2]] Specific settings ==
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== [[XRGB-3]] Specific settings ==
 
== [[XRGB-3]] Specific settings ==
  
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No special settings are required. Using a cable wired for clean composite sync, or at least luma for sync is highly recommended.
  
 
== [[XRGB-Mini]] Specific settings ==
 
== [[XRGB-Mini]] Specific settings ==
  
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No special settings are required. Using a cable wired for clean composite sync, or luma for sync may occasionally be required.
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== [[OSSC]] Specific settings ==
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SNES compatibility is often regarded as the Achilles heel of the OSSC. While every other system works with little or no fine-tuning, the SNES continues to cause problems on some displays.
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Thus far, all computer monitors that have been tested work just fine with the SNES and OSSC, but a number of televisions do not. If your display constantly loses sync with your SNES when running via the OSSC, there's currently no simple workaround. You can chain your OSSC through a secondary video processor such as a DVDO Edge/VP50 or simply use another display.
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Research into this problem is on-going and hopefully a better solution will present itself in time.
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A number of SNES games are compatible with the 256×240 optimal line triple mode, though this does not apply to every title. If you try this setting and the image appears to be missing pixels, your game is probably running in the SNES' horizontal hi-res (512×240) screen mode and is therefore not compatible.
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[[Category:Game Consoles]]
 
[[Category:Game Consoles]]
 
[[Category:RGB Mods]]
 
[[Category:RGB Mods]]

Revision as of 13:56, 10 May 2016

The Super Nintendo, or SNES, was Nintendo’s follow up to the phenomenally successful NES console. Just as the NES is known as the Famicom in Japan, the Super Nintendo is known as the Super Famicom over in Japan too. While the SNES didn't gain the same levels of popularity as the original NES, it was still a very successful console globally, shifting nearly 50 million units worldwide.

Models

There were two main revisions of the hardware. The first revision outputs RGB natively, while the revised Junior or Mini edition requires a RGB mod.

Later models of the SNES and all SNES/Super Famicom Junior units are known for having a slightly sharper RGB output than earlier models. Enthusiasts refer to these better models as "1 Chip", in reference to the single RGB encoder chip present on the later design motherboards. The 1 chip revision Super Nintendo/Super Famicoms are highly sought after and many gamers will go to the effort to get a SNES/Super Famicom Junior RGB modded to ensure that they are getting a unit with the very best possible quality RGB output.

Models tested

HVC-002 (Tested with XRGB3, Mini and OSSC).

XRGB-2 Specific settings

insert data

XRGB-3 Specific settings

No special settings are required. Using a cable wired for clean composite sync, or at least luma for sync is highly recommended.

XRGB-Mini Specific settings

No special settings are required. Using a cable wired for clean composite sync, or luma for sync may occasionally be required.

OSSC Specific settings

SNES compatibility is often regarded as the Achilles heel of the OSSC. While every other system works with little or no fine-tuning, the SNES continues to cause problems on some displays.

Thus far, all computer monitors that have been tested work just fine with the SNES and OSSC, but a number of televisions do not. If your display constantly loses sync with your SNES when running via the OSSC, there's currently no simple workaround. You can chain your OSSC through a secondary video processor such as a DVDO Edge/VP50 or simply use another display.

Research into this problem is on-going and hopefully a better solution will present itself in time.

A number of SNES games are compatible with the 256×240 optimal line triple mode, though this does not apply to every title. If you try this setting and the image appears to be missing pixels, your game is probably running in the SNES' horizontal hi-res (512×240) screen mode and is therefore not compatible.