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Super Scope
The Nintendo Super Scope (without its sight)
Also known asNintendo Scope[1]
DeveloperNintendo
ManufacturerNintendo
TypeVideo game console peripheral
GenerationFourth generation
Released1992
Discontinued1997
MediaInput device

The Super Scope[a] known as the Nintendo Scope in Europe and Australia, is a light gun peripheral created by Nintendo for the Super Nintendo Entertainment System. It is able to aim and fire at targets on a screen by connecting to a small infrared receiver module placed on top of the television. The peripheral was released in 1992 and packaged with the video game Super Scope 6. However, only twelve total games were compatible with the device, all released between 1992 and 1994.

Overview

[edit]

Design

[edit]
European model with orange firing button
The inside of the Super Scope

The Super Scope is a bazooka-shaped device, just under 2 ft (61 cm) long.[1] Unlike its predecessor, the NES Zapper, the Super Scope does not use a wired connection to the system and instead requires six AA batteries for power.[1] Located about midway on top of the barrel are the "Fire" button, the "Pause" button, and the device's power switch, which can also be used to activate turbo fire.[2] In the middle on either side are two clips for attaching the sight.[2] At the far end of the gun, on the bottom, is a 6 in (15 cm) grip with another button labeled "Cursor"; holding this button and pressing "Fire" twice will reset any game to the title screen.[3]

On the end is the infrared receiver lens, approximately 1 inch (25 mm) in diameter, which picks up the light from a TV.[4] The sight mount is shaped like a wide, very shallow "U", about five inches long. The end that faces toward the shoulder mount end of the Super Scope has a round open cylinder holder, where the eyepiece goes. The other end has a short, narrow tube, which forms the sight when one looks through the eyepiece that is in-line across from it. The end of the eyepiece is very simple: it is a cylinder with the diameter of a quarter, with a removable rubber piece through which the shooter looks. The sight is designed so that the aim will be correct at a distance of 3 metres (10 ft).

The Super Scope comes packaged with a small infrared receiver module, 2.5 in × 2.5 in × 1 in (6.4 cm × 6.4 cm × 2.5 cm) in size, with a standard Super NES controller cord attached. On the front is an oval-shaped black area, receding back from the two sides to an infrared transmitter about the size of a dime. The receiver must be placed above the screen and connected to the system's second controller port for play.[3]

Functionality

[edit]
The receiver module that plugs into controller port, meant to sit on top of the TV

The Super Scope makes use of the scanning process used in cathode-ray-tube monitors, as CRTs were the only widely used TV monitors until the early 2000s. On a CRT, the screen is drawn by a scanning electron beam that travels horizontally across each line of the screen from top to bottom. A fast photodiode will see any particular area of the screen illuminated only briefly as that point is scanned, while the human eye will see a consistent image due to persistence of vision.[1]

The Super Scope interprets this by outputting a 0 signal when it sees the television raster scan and a 1 signal when it does not. Inside the console, this signal is delivered to the PPU, which notes which screen pixel it is outputting at the moment the signal transitions from 1 to 0. At the end of the frame, the game software can retrieve this stored position to determine where on the screen the gun was aimed.[1] Most licensed Super Scope games include a calibration mode to account for both electrical delays and maladjustment of the gunsight.[4]

The Super Scope ignores red light, as do many guns of this type because red phosphors have a much slower rate of decay than green or blue phosphors.[4] Since the Super Scope depends on the short persistence and scan pattern of CRT pixels, it will not function with modern displays (such as plasma screens or LCDs) that continuously light each pixel.[1]

History

[edit]

The Super Scope was released in North America and the PAL region in 1992, followed by a limited release in Japan in 1993.[2][5] The peripheral came bundled with the video game Super Scope 6, which was created to demonstrate the device's functionality.[2]

Compatible games

[edit]

Only 12 games were released that feature Super Scope compatibility, half of which require the accessory for play.[2] Certain games released after the Super Scope—such as Yoshi's Island and Kirby Super Star—display a warning message indicating that the game is incompatible if it detects the receiver is plugged in.[6]

Super Scope compatible games
Title Year Publisher Required Note
Battle Clash 1992 Nintendo Yes
Bazooka Blitzkrieg 1992 Bandai Yes
The Hunt for Red October 1993 Hi-Tech Expressions, Inc. No Only used for bonus games[2]
Lamborghini American Challenge 1993 Titus France No Features an optional Super Scope-exclusive mode[2]
Lemmings 2: The Tribes 1994 Psygnosis No A secret easter egg allows the Super Scope to destroy lemmings[2]
Metal Combat: Falcon's Revenge 1993 Nintendo Yes
Operation Thunderbolt 1994 Taito No Also compatible with a standard controller or the Super NES Mouse[2]
Super Scope 6 1992 Nintendo Yes Packaged with the Super Scope[2]
T2: The Arcade Game 1993 Acclaim Entertainment No Also compatible with a standard controller or the Super NES Mouse[2]
Tin Star 1994 Nintendo No Also compatible with a standard controller or the Super NES Mouse[2]
X-Zone 1993 Kemco Yes
Yoshi's Safari 1993 Nintendo Yes

Mario & Wario was also planned to support the accessory, but this was dropped before release.[7]

Legacy

[edit]

In response to the Super Scope, Sega would release their own light gun peripheral for the Sega Genesis, the Menacer, later the same year.[8]

A Super Scope was used as a prop in the live-action Super Mario Bros. film (1993), representing King Koopa's "Devo gun". Images from the film were used to promote the Super Scope's 1993 release in Japan.[5][9] In the 2026 animated film The Super Mario Galaxy Movie, Yoshi is seen wielding a blue Super Scope.[10]

During the 1993–94 United States Senate hearings on video games, Senator Joe Lieberman used the Super Scope as evidence of video games promoting violence among children, citing the peripheral's resemblance to a real assault weapon.[11]

The Super Scope has made cameo appearances in other Nintendo games, including as a recurring item in the Super Smash Bros. series beginning with Super Smash Bros. Melee (2001),[12][13][14][15] as a microgame element in the WarioWare series,[5] and as the visual inspiration for the S-BLAST weapons in Splatoon 3 (2022).[16][17]

In 2020, a hobbyist developer created a hardware mod to allow the Super Scope to be used with modern televisions.[18]

See also

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Notes

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Super Scope

View on Grokipedia
from Grokipedia
The Super Scope is a wireless light gun peripheral released by Nintendo for the Super Nintendo Entertainment System in North America in February 1992. Shaped like an over-the-shoulder bazooka and powered by six AA batteries, it measures nearly two feet in length and features an adjustable optical sight for aiming. The device operates by transmitting infrared signals from the gun to a receiver plugged into the console's second controller port upon trigger pull, prompting the television to flash a light pulse that the gun's photodiode sensor detects to calculate targeting position based on raster scan timing, functional exclusively on cathode-ray tube displays. Bundled with the Super Scope 6 multiscreen cartridge containing six mini-games—Blastris, Mole Patrol, LazerBlazer, Radar Target, Spot Race, and Fireworks—it supports around twelve total compatible titles, such as Battle Clash, Yoshi's Safari, and Metal Combat: Falcon's Revenge. While praised for advancing light gun ergonomics beyond the NES Zapper, its requirements for a darkened room, CRT compatibility, and sparse dedicated software limited widespread adoption and long-term viability.

Technical Specifications

Hardware Design

The Super Scope employs a bazooka-style form factor, approximately 60 cm in length, with a front and rear shoulder mount for stable aiming during . It requires six AA batteries loaded into a compartment secured by a clip-on , providing portable, operation without a direct cable to the console. The device features a trigger, two fire buttons enabling rapid or charged shots, a pause button, and a power switch, all transmitting commands via signals. At its core, the Super Scope functions as a using a in the barrel to detect visible pulses from the television screen, specifically sensitive to and phosphors while ignoring to filter ambient interference. Upon trigger activation, compatible games synchronize with the CRT display by blacking out non-target areas and flashing targets in white, allowing the to measure the timing of the raster scan's emission for precise horizontal and vertical hit detection. This light-pen-like mechanism relies on the sequential scanning of analog CRT televisions, rendering it incompatible with modern LCD or LED displays lacking such timed output. The peripheral includes a detachable optical sight for target alignment and pairs with a compact receiver unit (model SNS-014), measuring roughly 6.4 cm × 6.4 cm × 2.5 cm, which plugs into the SNES's second controller port. This receiver decodes IR signals from multiple LEDs—one per button—within the gun, effectively emulating controller inputs while coordinating the light detection protocol with the console. The design's wireless IR avoids tethering but occupies the secondary port, limiting multiplayer setups. Internally, the bisected unit reveals the positioned at the barrel's end, alongside IR emitters and battery contacts, emphasizing its reliance on line-of-sight communication and precise optical components for functionality.

Functionality and Operation

The Super Scope operates as a wireless light gun peripheral for the Super Nintendo Entertainment System (SNES), utilizing a photodiode sensor in its barrel to detect light pulses from a cathode-ray tube (CRT) television screen for target registration. When the trigger is pulled, the connected game software temporarily alters the screen's raster scan: it displays a black frame followed by a brief white flash on potential hit areas, synchronized with the electron beam's horizontal and vertical positioning. The photodiode captures the intensity and timing of this light, calculating the precise coordinates of the aimed point based on the known scan rate of NTSC or PAL CRT displays, typically achieving accuracy within a few pixels. This mechanism requires a CRT television, as modern flat-panel displays lack the sequential raster scanning necessary for positional detection. Communication between the Super Scope and the SNES occurs via infrared (IR) signals transmitted from light-emitting diodes (LEDs) on the front of the gun to a receiver unit plugged into the console's second controller port and positioned atop the television. The receiver decodes one of six distinct IR pulse codes corresponding to user inputs—such as trigger pull, cursor button for non-shooting modes, or pause—relaying them to the console as standard controller data. Powered by six AA batteries in a detachable pack, the device supports over 100 hours of continuous use, with a built-in speaker providing auditory feedback like firing sounds independent of the television audio. In operation, users shoulder the 62 cm (24.4 in) long bazooka-style unit, aligning the optical sight with on-screen targets while ensuring line-of-sight to the receiver for IR transmission, which has an effective range of up to 10 meters. The device lacks wired connectivity, emphasizing mobility but introducing potential interference from ambient IR sources like or remote controls, though Nintendo's encoding minimizes false inputs. Compatibility is limited to specific titles that implement the required screen-flashing protocol, with the receiver handling input polling at the SNES's 60 Hz .

Development and Release

Origins and Engineering

The Super Scope was developed by as the successor to the light gun, adapting shooting mechanics for the (SNES) with a focus on operation and enhanced for prolonged play. Released in in February 1992, it addressed the need for a dedicated peripheral to support emerging SNES titles emphasizing rail-shooter and targeting gameplay, amid competition from Sega's planned light gun offerings. 's design prioritized a bazooka-style form factor over traditional grips, enabling over-the-shoulder mounting to simulate heavier weaponry and reduce hand fatigue during extended sessions. Engineering-wise, the Super Scope operates as a hybrid and infrared transmitter, comprising three main components: the handheld transmitter unit (the gun itself), a detachable optical scope, and the receiver unit (SNS-014 Slight Sensor). The transmitter, powered by six AA batteries, features a elongated barrel with shoulder rest, a forward grip containing the primary fire button, and upper controls including power, pause, and cursor buttons for menu navigation. Unlike wired predecessors, button inputs are relayed wirelessly via LEDs on the transmitter's front, which emit encoded signals to the receiver placed atop the ; the receiver then interfaces with the SNES's second controller port to register actions like firing or pausing. Targeting accuracy relies on a photodiode sensor embedded in the adjustable scope, which detects light emissions from the CRT television screen rather than relying solely on infrared for position data. Upon trigger pull, the game software blanks the screen and emits timed white light pulses synchronized with the vertical refresh rate (typically 60 Hz in NTSC regions); the photodiode captures the precise timing of these pulses to calculate the horizontal and vertical coordinates of the aim point, enabling hit detection independent of traditional gun-to-console wiring. This mechanism demands a direct line-of-sight to the screen and functions optimally at distances of about 3 meters, as specified in operational guidelines, while the infrared link handles low-latency input transmission to minimize desync. The design's reliance on CRT phosphor glow and scanline timing inherently limits compatibility to raster-scan displays, rendering it inoperable on modern LCD or LED televisions without modifications. Nintendo engineered the system to support up to six distinct codes for varied input modes, allowing flexibility in game-specific implementations, such as rapid-fire toggles or sensitivity adjustments via the cursor button. Internal construction includes modular electronics for the array and IR emitter, with the bisected design exposing battery compartments and wiring harnesses optimized for durability in consumer handling. This , detailed in SNES peripheral interfacing protocols, ensured reliable performance in bundled titles like , though it required precise sensor calibration and ambient light minimization for peak accuracy.

Launch Details and Bundling

The Super Scope launched in North America in February 1992, shortly following the Super Nintendo Entertainment System's debut the previous year. This peripheral succeeded the NES Zapper and introduced wireless infrared light gun functionality to the platform. It was bundled exclusively with the Super Scope 6 cartridge, a compilation of six mini-games developed by Intelligent Systems, including Blaster 216, Battle Mode, and Scope: Mode 7. The bundle included the Super Scope gun, eyepiece sight, and sensor receiver, requiring six AA batteries for operation and compatibility limited to CRT televisions. Subsequent releases occurred in Europe later that year and in Japan on June 21, 1993, though the Japanese market saw limited distribution due to regulatory restrictions on toy guns. No console bundles or alternative packaging were offered at launch.

Software Compatibility

Supported Games

The Super Scope is compatible with twelve titles for the , a limited library reflecting its niche as a peripheral released in 1992. Six games require the device for core gameplay, primarily rail shooters and targeting mini-games developed or published by , including (released February 1992, featuring six built-in titles: , Coneヘッダー, Fire Works, Lazer Blazer, Radar Target, and Spot Race), (October 1992), (September 1993, a spin-off with as a mount), and Metal Combat: Falcon's Revenge (December 1993, a combat game adapted for light gun targeting). Additional required titles include T2: The Arcade Game and X-Zone. The remaining games offer optional full-game support, dedicated modes, bonus stages, or alternate access via the Super Scope, enabling light gun mechanics in otherwise controller-based titles. These encompass Bazooka Blitzkrieg, Tin Star (a Western-themed shooter with integrated Scope segments), The Hunt for Red October (bonus submarine targeting mini-games), Lamborghini American Challenge (unlocks a distinct racing-shooting mode), Operation Thunderbolt (arcade port with light gun adaptation), and Revolution X (run-and-gun shooter supporting Scope aiming). No further official compatibilities were developed post-1993, limiting the peripheral's software ecosystem despite third-party efforts to expand functionality.

Game-Specific Features

Super Scope 6, bundled with the peripheral and released in on August 13, 1992, comprised six mini-games designed to showcase targeting accuracy. Blastris presented two variants of puzzle-shooting where players cleared falling blocks by firing at matching colors to form lines, echoing mechanics but with light gun precision required to avoid overflow. Mole Patrol simulated whack-a-mole gameplay by shooting emerging targets before they retreated. LazerBlazer offered three modes focused on deflecting incoming missiles and destroying aircraft, emphasizing rapid aiming and sustained fire via the scope's . The remaining titles, Blaster Master Boy, Spin Attack, and Lazer Force, involved shooting galleries against moving enemies like robots and asteroids, with limited ammo in some segments to heighten tension. , released October 1, 1992, featured on-rails first-person mech duels against one boss per stage, where the Super Scope handled aiming for primary weapons like machine guns and charged plasma bolts, while controller buttons selected armaments and dodged attacks; successful hits built energy for power-ups, but misses left the player vulnerable to patterned enemy fire. Metal Combat: Falcon's Revenge, its 1993 sequel utilizing the OBC-1 graphics chip, expanded on this with persistent upgrades across stages, including stockable bombs and weapons like the for area denial; higher-powered shots provided broader defensive interception of projectiles, introducing tactical depth in boss fights against evolved standing tanks. Yoshi's Safari, launched September 1993, integrated scaling for pseudo-3D rail-shooting levels starring atop , who auto-advanced while players fired at enemies and obstacles; power-ups such as Fire Flowers extended continuous firing time before recharge pauses, and a two-player mode allowed a second user to strafe via controller, demanding careful aim to avoid damaging . Third-party exclusives like Kemco's X-Zone (December 1992) combined right-scrolling shooting with Mode 7 descents and turbo fire for horde clearance, while Tose's Bazooka Blitzkrieg (December 1992) delivered arcade rail-shooting with optional turbo for uninterrupted barrages against waves of foes. Optional implementations included full light gun compatibility in ports like Taito's Operation Thunderbolt (1994), replicating arcade run-and-gun stages with character selection, and Acclaim's T2: The Arcade Game (1993), which enforced ammo limits mirroring the film's scarcity theme. In Nintendo's Tin Star (October 1994), the scope substituted for controller or mouse in quick-time shootouts amid its western narrative. Titus's Lamborghini American Challenge (1993) added a sabotage mode for blasting opponents' cars during races, and Hi-Tech Expressions' The Hunt for Red October (1993) confined usage to bonus side-view shooting segments. An undocumented Easter egg in Psygnosis's Lemmings 2: The Tribes (1994) permitted firing at lemmings for target practice without deeper integration.

Reception and Evaluation

Commercial Outcomes

The Super Scope launched in North America on August 13, 1992, bundled exclusively with the multi-game cartridge Super Scope 6 at a suggested retail price of $89.99. The bundle's game shipped an estimated 1.65 million units globally by December 2003, reflecting moderate uptake driven by the peripheral's novelty as Nintendo's first for the . Nintendo supported the release with extensive promotional efforts, including multiple television commercials aired in and that emphasized its bazooka-style design and arcade-like shooting gameplay. Despite this visibility and the bundled game's solid shipment figures—outpacing many SNES peripherals like the Power Glove—the Super Scope failed to capture mainstream appeal or meet Nintendo's internal sales targets. Factors contributing to its underwhelming performance included its bulkiness, strict compatibility with CRT televisions, and a limited library of only about a dozen supported titles, which constrained long-term consumer interest. By the mid-1990s, production and sales of the Super Scope had effectively ended, with Nintendo redirecting resources toward more versatile accessories amid the transition to next-generation consoles. Retrospective analyses characterize it as a commercial disappointment relative to the hype, though its bundled shipments indicate niche viability rather than outright failure in an era when SNES hardware exceeded 49 million units sold.

Critical and Consumer Feedback

The Super Scope received mixed critical reception upon its 1992 release, with reviewers praising its technological ambition as Nintendo's first infrared-based light gun but critiquing its ergonomic shortcomings and limited precision. Hardware analysts highlighted the device's two-foot length and reliance on six AA batteries, which contributed to its unwieldy handling during extended play sessions. In retrospective evaluations, the peripheral's accuracy was deemed functional on period CRT televisions but inconsistent due to sensitivity to ambient light and screen scan patterns, often requiring recalibration for optimal performance. Software bundled with the device, such as , elicited varied responses; one analysis lauded its six mini-games for providing diverse shooting challenges, rating it highly for despite simplistic graphics. However, other assessments described the collection as uneven, with portions feeling dull or mechanically flawed, particularly in fast-moving target segments where hit detection faltered. Compatible titles like were occasionally singled out as highlights for tactical depth, though many games suffered from repetitive enemy patterns and underdeveloped mechanics that failed to fully leverage the gun's capabilities. Consumer feedback echoed these technical critiques, frequently citing the Super Scope's awkward aiming posture—which demanded holding the bazooka-shaped unit at arm's length—as a barrier to comfortable use, limiting appeal for prolonged gaming. Users reported calibration drift and reduced responsiveness in darker or brightly lit environments, exacerbating frustration in precision-dependent modes. A persistent complaint involved its incompatibility with modern flat-panel displays, as the infrared sensor depends on CRT phosphor persistence, rendering it obsolete without emulation workarounds or adapters. Despite these issues, some enthusiasts appreciated its novelty for short bursts of play, particularly in titles emphasizing power fantasy over finesse, though the sparse library of eight supported games diminished long-term engagement.

Legacy and Modern Context

Influence on Peripherals

The Super Scope introduced operation to console peripherals through technology for both aiming detection via the television's CRT phosphor flashes and control to a receiver unit connected to the SNES controller port. This battery-powered design, utilizing six AA batteries for up to 120 hours of play, enhanced player mobility compared to wired predecessors like the 1985 , which required a direct cable connection. Released on September 1, 1992, in , the peripheral's untethered functionality anticipated broader adoption of controllers in gaming, though its impact was constrained by the era's hardware limitations. Its market entry prompted competitive responses, notably Sega's rapid development of the light gun for the Genesis console, launched in late 1992 as a direct rival featuring similar controls and bundled games. The 's six-month development cycle was explicitly motivated by the Super Scope's debut, highlighting the latter's role in spurring innovation and short-term market expansion for 16-bit accessories amid the console wars. However, neither peripheral achieved widespread adoption, with the Super Scope supporting only seven official titles and facing criticism for limited game library and battery dependency. The Super Scope exemplified the peak and subsequent decline of dedicated light gun hardware, as it was among the last major console peripherals promoted as an "essential" accessory by a primary manufacturer before the genre's . The shift from CRT to flat-panel displays in the mid-1990s eliminated the raster scanning necessary for accurate light detection, rendering unmodified units incompatible without external signal emulation. This technological mismatch contributed to the pivot toward alternative aiming solutions, such as plastic gun shells for motion-pointing devices like the 2007 , which adapted light gun gameplay mechanics to infrared pointer emulation rather than true optical sensing. In contemporary contexts, hobbyist modifications have extended the Super Scope's viability by integrating compatible sensors or FPGA-based CRT signal generators to interface with LCD/LED screens, enabling play on modern setups as of 2020. These adaptations underscore the peripheral's enduring appeal among retro gaming communities but have not directly inspired commercial successors, reflecting broader industry trends toward versatile, multi-function controllers over specialized optical hardware.

Availability and Preservation

The Nintendo Super Scope, released in 1992, is no longer manufactured or officially supported by , making it available primarily through secondary markets such as and for collectors and retro gaming enthusiasts. Complete units including the light gun, receiver, and Super Scope 6 cartridge typically sell for $90 to $200 in tested, used condition based on recent auction data, with rarer new-old-stock bundles reaching $175 to $300. Prices fluctuate due to condition, completeness, and demand in the retro hardware market, where functional units command premiums over incomplete sets. Preservation of the Super Scope faces significant challenges due to its dependence on cathode-ray tube (CRT) televisions, as the device detects screen position by timing the and persistence unique to CRT technology. It is incompatible with modern (LCD) or (LED) screens, which lack the precise pixel illumination timing required for accurate aiming detection. Enthusiasts maintain functionality through original CRT setups or consumer CRT televisions sourced from secondhand markets, often requiring to avoid detection errors from refresh rates. Hardware modifications have emerged to adapt the Super Scope for modern displays, involving additional components like photodiodes and microcontrollers to emulate CRT scan emulation via HDMI converters or custom signal processing. These mods, demonstrated in community projects as early as 2020, preserve the peripheral's input while interfacing with LCD TVs but demand technical expertise and may alter original performance characteristics. Emulation of Super Scope-compatible games via SNES emulators on platforms like personal computers supports software preservation, with input mapped to mouse or touchscreen for light gun simulation, though this does not replicate the physical peripheral's ergonomics or infrared communication with the receiver. Overall, hardware-centric preservation remains prioritized in retro communities to retain authentic gameplay, supplemented by emulation for accessibility amid declining CRT availability.

References

  1. https://gamefaqs.gamespot.com/snes/575224-super-scope-6/data
  2. https://www.nintendolife.com/news/2016/01/hardware_classics_nintendo_super_scope
  3. https://snescentral.com/article.php?id=0017
  4. https://www.dkoldies.com/blog/list-of-snes-super-scope-games/
  5. https://forums.nesdev.org/viewtopic.php?t=12203
  6. https://sneslab.net/wiki/Super_Scope
  7. https://theoldschoolgamevault.com/blog/articles/1005-retro-light-zappers
  8. https://www.eruditorumpress.com/blog/the-mouse-and-the-gun-super-scope-6-mario-paint
  9. https://snes.nesdev.org/wiki/Super_Scope
  10. https://www.desktopgaming.com/how-the-super-nintendo-superscope-6-worked/
  11. https://www.oldschoolgamermagazine.com/a-closer-look-at-nintendos-official-super-nes-peripherals-super-scope/
  12. https://niwanetwork.org/wiki/Super_Scope
  13. https://mobilesyrup.com/2020/10/28/super-nintendo-superscope-modern-tvs/
  14. https://www.nintendo.com/en-za/News/2017/September/Nintendo-Classic-Mini-SNES-developer-interview-Volume-3-Super-Metroid-1285309.html
  15. https://j2games.com/products/super-nes-super-scope-bundle-super-nintendo
  16. https://www.retrorgb.com/every-super-scope-compatible-game-reviewed.html
  17. https://gamefaqs.gamespot.com/boards/916396-super-nintendo/79851497
  18. https://www.justgamesretro.com/snes/super-scope-6
  19. https://gamefaqs.gamespot.com/snes/563518-battle-clash/reviews/165799
  20. https://snesaday.com/2014/08/20/87-battle-clash/
  21. https://gamefaqs.gamespot.com/snes/588482-metal-combat-falcons-revenge/reviews/165840
  22. https://www.playerschoicevideogames.com/pd_yoshis_safari_snes.cfm
  23. https://www.pricecharting.com/game/super-nintendo/super-scope-sensor
  24. https://www.vgchartz.com/game/6460/super-scope-6/
  25. https://www.youtube.com/watch?v=vHe4SPutTk4
  26. https://www.svg.com/106677/gaming-flops-nintendo-sure-hit/
  27. https://www.timeextension.com/features/the-making-of-the-menacer-how-sega-rustled-up-a-super-scope-rival-in-just-six-months
  28. https://www.youtube.com/watch?v=5UklSpS-YVQ
  29. https://www.vgchartz.com/games/games.php?console=SNES
  30. https://gamefaqs.gamespot.com/snes/575224-super-scope-6/reviews/165751
  31. https://gamefaqs.gamespot.com/snes/575224-super-scope-6/reviews/162645
  32. https://indiegamerchick.com/2024/12/23/bang/
  33. https://gizmodo.com/a-massive-upgrade-makes-the-classic-super-nintendo-supe-1845493782
  34. https://www.techeblog.com/nintendo-super-scope-mod-work-on-modern-tv/
  35. https://www.ebay.com/b/nintendo-super-scope/bn_7024927734
  36. https://www.etsy.com/market/nintendo_super_scope
  37. https://www.pricecharting.com/game/super-nintendo/super-scope-6-gun-bundle
  38. https://theoldschoolgamevault.com/blog/articles/1007-super-nintendo-super-scope
  39. https://www.youtube.com/watch?v=_CQ7ApMLAM0
  40. https://digital.library.unt.edu/ark:/67531/metadc799755/m2/1/high_res_d/rosenthal-emulation-2015.pdf
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