Jedi Temple Guard Armor
Type:
Armor
Category:
Medium Armor
Granted: Minor Cortosis Weave Construction
Armor Enhancement - I: Climate-Controlled Body Glove
Armor Enhancement - II: Sneakers
Armor Helmet Upgrade - II: Advanced Military H.U.D.
Armor Medium Resistance Upgrade - III: Ablative Plating
Item Aspect/Upgrade Slots available: 1
68,040
Owned by: Kaz Raith
Prototype: Jedi Temple Guard Armor
Slotted in: Wardrobe
The Jedi Temple Guard Armor is a modified set of Jedi robes that conceal the identity of the wearer. The armor features a distinctive mask that includes a comlink and in-helmet scanner. The robes incorporate layers of lightweight cortosis armorweave.
This Jedi Temple Guard Armor has been constructed with a minor amount of rare cortosis metal weaved into the main material. This minor cortosis weave gives Kaz Raith the ability to resist three to four strikes or glancing blows of a lightsaber using his Jedi Temple Guard Armor. Continuous contact begins to melt through in one second.
Jedi Temple Guard Armor is fitted with a climate-controlled body-glove, that allows the wearer of this Jedi Temple Guard Armor to operate in extreme temperature conditions without loss of function, or freezing or burning to death.
The boots on this Jedi Temple Guard Armor have been enhanced with incredibly sound absorbent soles, muting the wearer's footfalls unless they are moving faster than a jogging pace.
The helmet on this Jedi Temple Guard Armor has been fitted with an advanced military heads up display. All prevalent information about the user's ammo count, unit member individual ID tags and distance, and tactical information given by their commanding officer is displayed around the peripheral of the user's field range, for ease of use while keeping the center view unobstructed.
Jedi Temple Guard Armor has been reinforced with a special type of ablative plating, providing it with advanced protection from the removal of the original material from Jedi Temple Guard Armor by means of vaporization, chipping, scarring, and other erosive processes.