Canon

FIREFALL-class Mjolnir

From Halopedia, the Halo wiki

Firefall
HINF FIREFALL Helmet Icon.png
Production overview

Manufacturer(s):

Cascade Stronghold Technologies[1]

Type:

MJOLNIR [GEN3][1]

Role(s):

Orbital insertion[1]

 

FIREFALL-class Mjolnir is a variant of the MJOLNIR Powered Assault Armor, manufactured by Cascade Stronghold Technologies.[1]

Overview[edit]

Design details[edit]

Firefall is the first component of an ensemble that aims to eliminate the need for drop pods in Spartan orbital insertions. The helmet bears some similarities to Cascade's earlier GEN2 HELLJUMPER-class Mjolnir.[1]

Development history[edit]

Manufactured by Cascade Stronghold Technologies, Firefall is a radical offshoot of other ODST armor development projects.[1] Spartan Eusebio made use of this armor

In-game information[edit]

Halo Infinite[edit]

The Firefall helmet and its attachments are available for multiplayer Spartan armor customization on the Mark VII armor core in Halo Infinite.

Helmet Manufacturer Lore Rarity Unlock Requirements
HINF FIREFALL Helmet Icon.png
Firefall
Cascade Stronghold Technologies A radical offshoot of other ODST armor development projects at Cascade, the FIREFALL is the first component of an ensemble that aims to eliminate the need for drop pods in Spartan orbital insertions. Legendary Purchase from the Shop for 700 cR
Customization Icon
MK62 CBRN/ISES
Misriah Armory Rebreather system for extended-duration operations in underwater, airless, or toxic environments. Legendary Play Halo Infinite during Season 03: Echoes Within

Attachments[edit]

The following attachments are not exclusive to Firefall, and are compatible with other helmets on the Mark VII core.

Gallery[edit]

Concept art[edit]

Screenshots[edit]

List of appearances[edit]

Sources[edit]

  1. ^ a b c d e f Halo Infinite, Armor Hall: Firefall - Helmet Description "A radical offshoot of other ODST armor development projects at Cascade, the FIREFALL is the first component of an ensemble that aims to eliminate the need for drop pods in Spartan orbital insertions."