I'm sure you, like me, spent a great deal of your childhood shooting away at your parents' 24" Maganavox, dropping ducks like flies on Nintendo's eponymous gadget-accompanied shooter, "Duck Hunt." But have you ever wondered how exactly that worked, especially given that it was released in the mid 80s? The folks at Mental Floss appear to have given us a very nice answer for that.
How Did the Duck Hunt Gun Work?
If you’re a geek of a certain age, a good portion of your childhood probably revolved around sitting too close to the TV, clutching a plastic safety cone-colored hand gun and blasting waterfowl out of a pixilated sky in Duck Hunt (also, trying to blow that dog’s head off when he laughed at you). The Duck Hunt gun, officially called the Nintendo Entertainment System (NES) Zapper, seems downright primitive next to the Nintendo’s Wii and Microsoft’s Kinect, but in the late 80s, it filled plenty of young heads with wonder. How did that thing work?
Annie get your Zapper
The Zapper’s ancestry goes back to the mid 1930s, when the first so-called “light guns” appeared after the development of light-sensing vacuum tubes. In the first light gun game, Ray-O-Lite (developed in 1936 by Seeburg, a company that made parts and systems for jukeboxes), players shot at small moving targets mounted with light sensors using a gun that emitted a beam of light. When the beam struck a sensor, the targets – ducks, coincidentally – registered the “hit” and a point was scored.
Light guns hit home video game consoles with Shooting Gallery on the Magnavox Odyssey in 1972. Because the included shotgun-style light gun was only usable on a Magnavox television, the game flopped. The Nintendo Entertainment System (NES) Zapper then fell into the hands of American kids in October 1985, when it was released in a bundle with the NES, a controller and a few games. Early versions of the peripheral were dark gray, but the color of the sci-fi ray gun-inspired Zapper was changed a few years later when a federal regulation required that toy and imitation firearms be “blaze orange” (color #12199, to be exact) so they wouldn’t be mistaken for the real deal.
While there were a number of Zapper-compatible games released for the NES (when I was a kid and my dad worked from home, we wasted plenty of afternoons away playing Hogan’s Alley), most lived in the shadow of the iconic Duck Hunt, the most recognizable and popular Zapper game.
While older light guns like the Ray-O-Lite rifle emitted beams of light, the Zapper and many other recent light guns work by receiving light through a photodiode on or in the barrel and using that light to figure out where on the TV screen you're aiming.
When you point at a duck and pull the trigger, the computer in the NES blacks out the screen and the Zapper diode begins reception. Then, the computer flashes a solid white block around the targets you’re supposed to be shooting at. The photodiode in the Zapper detects the change in light intensity and tells the computer that it’s pointed at a lit target block — in others words, you should get a point because you hit a target. In the event of multiple targets, a white block is drawn around each potential target one at a time. The diode’s reception of light combined with the sequence of the drawing of the targets lets the computer know that you hit a target and which one it was. Of course, when you’re playing the game, you don’t notice the blackout and the targets flashing because it all happens in a fraction of a second.
This target flashing method helped Nintendo overcome a weakness of older light gun games: cheaters racking up high scores by pointing the gun at a steady light source, like a lamp, and hitting the first target right out of the gate.
If you’re hungry for a more technical depth, check out Nintendo's 1989 patent on the Zapper technology
Read for yourself at MentalFloss: How Did the Duck Hunt Gun Work?