Building a lightsaber fit for Obi-Wan (pictures)
We take a closer look at how visual-effects artist Brad Lewis custom-built a real lightsaber that looks just like Obi-Wan Kenobi's weapon of choice.
"This is the weapon of a Jedi Knight. Not as random or as clumsy as a blaster; an elegant weapon for a more civilized age," an elder Obi-Wan Kenobi once said to a youthful Luke Skywalker.
Of all the things that stand out from "Star Wars," perhaps nothing's as recognizable as the lightsaber, the preferred energy sword of Jedi and Sith across the fictional sci-fi universe.
Brad Lewis, a BioWare senior visual-effects artist (who primarily works on "Star Wars: The Old Republic"), set off to create a near-perfect replica of Obi-Wan Kenobi's lightsaber as featured in "Star Wars: A New Hope." While this lightsaber won't chop off arms or heads anytime soon, it does look extremely realistic, shines brightly, and plays a variety of sound effects. The image above, sketched by Lewis, acts as an early reference for the construction of the lightsaber.
"When I first started building 'sabers, I built another version of this 'saber as my first one but never thought I could do a 'reveal,' or detachable-blade version, of the 'A New Hope' Obi-Wan 'saber," Lewis told Crave in an e-mail. "It has been a personal challenge since I started this hobby to complete this newest reveal 'saber, and as such, I have been designing it in the back of my head for years. It wasn't until last year when I figured out actually how I would accomplish it that I brought the project off the back burner and focused on building it."
|The heart of any custom-built lightsaber surely resides in the Crystal Focus Saber Core, a custom board built by Plecter Labs that controls the lights and sounds. The Crystal Focus chip outperforms the commonly seen Master Replica FX lightsabers by offering these features: consistent brightness, a variety of unique light and sound effects, vibration, and more. Lewis used a custom-made Crystal Focus LED String soundboard, which we explain further later in this gallery.|
|Lewis made a hole in a Russrep aluminum ANM2 booster to fit the Crystal Focus soundboard and battery canister within. The metal tube features a chamber release lever to view the internals, with several decorative additions to make it appear more real.|
According to the Star Wars Wiki, "at the heart of every lightsaber was a set of crystals that resonated to produce the efficient, powerful blade."
In keeping with traditional lightsaber construction techniques (hinted at in the movies and described throughout the expanded universe), Lewis incorporated a real crystal into the lightsaber (housed in a brass chamber).
"After an evening of milling, drilling, and tapping, I got the three 4-40 support rods evenly spaced, the three LED holes set, and the channels for the wire. I also had to keyhole mill the slots for the crystal," Lewis says on his blog.
The "radiator fins" for the crystal chamber differ from those of Lewis' previous designs, which usually were kept circular. These domed fins closely resemble the internals of Obi-Wan's lightsaber, but creating each piece took a great deal of effort.
"It's a process that involves facing off the brass rod, using an end mill to cut my three-eighths internal hole, setting up the radius cutter, getting it in the right spot, making my concave radius, taking the radius cutter off the tool mount, setting up the part off tool, parting off the blank, facing off the back of the blank," Lewis says on his blog. "Rinse and repeat four times (or more) and then I have to transfer my hole pattern from the crystal mount to the blank. Once I am done with that, I have to flip them all over and cut the convex radius."
Lewis then cuts those circular pieces into half shapes as seen here.
|Lewis sketched this conceptual crystal chamber for the mock Obi-Wan lightsaber.|
|An image of the nearly complete lightsaber, which still needed a few touch-ups at this phase of the build. Lewis eventually shaved off some of the crystal chamber for a more flush fit, and wrapped the wires in some braided steel hose.|
|Lewis cut a hole into the supporting Graflex clamp and added a recharge port for the lightsaber's two 18350 1200mAh 3.7V batteries.|
|After installing a group of bright blue LED lights, Lewis did some fine-tuning to the internals in his portable workstation, which he says consists of "a big steel plank with a panavise and a frankenthirdhand attached to it."|
|To finish the look, Lewis added artificial weathering to the various components, and completed the emitter section and overall lightsaber blade assembly.|
|A close-up image of the crystal illuminated by a series of bright blue LED lights.|
The finished lightsaber. "The Obi Reveal 'saber took just over a year and a half to build, perhaps six months of that was focused planning," Lewis says. "Once I started production, I'd say more than 100 hours all stacked up, in nights after work and weekends from June 2011 till July 2012."
A video of the luminous lightsaber in action:
An image of the fully illuminated lightsaber.
"The blade is made up of 84 high-brightness blue LEDs, 14 per segment, in what we call a 'string blade' in the hobby," Lewis says. "A string blade such as the ones I make allow the blade to progressively light up along the length, and maintain even brightness along the length from base of the blade to the tip. This lets me also do the bar-graph MP3 player mode."
Using a string of LEDs gives the 'saber a shine unlike conventional builds. "Most custom-lightsaber builders use a single, extremely high-brightness LED in the base of the blade, shining up into a hollow diffused polycarbonate tube," Lewis notes. "The advantages of this are ease of assembly and [being] more affordable, but the light tends to be brighter at the base, and dim by the time it gets to the tip."
The enthusiastic 'saber builder explains why the Crystal Focus LED String (CF-LS) soundboard works so effectively. "String blades are very tedious to build, and require a slightly different power source and driver than most single LED lightsaber configurations," Lewis says. "The soundboard must be able to light up each segment progressively to simulate the extending of the blade. Previous to the CF-LS, this was done by harvesting circuitry from Hasbro Force FX lightsabers, and hot-rodding them to drive better and more LEDs."
Enjoy another video showing the completed movie prop replica and its innards: