Approved Tech Trinity Core: Sakerstrike

[Ethanael Halscott]

Sakerstrike Core​

OUT OF CHARACTER INFORMATION

• Intent: To create an engine for starfighters, bombers, and singlecraft vessels less than 50m in length.
• Image Source: N/A
• Canon Link: N/A
• Permissions: N/A
• Primary Source: Trinity Core Compact, Deltawake Core, Blackwake Core

PRODUCTION INFORMATION

• Manufacturer: Primo Victorian Enterprises
• Affiliation: Imperial Commonwealth of Dosuun
• Market Status: Closed-Market
• Model: CHR-KHR‑IVR-X5 “Sakerstrike”
• Modularity: Yes
• Production:Minor
• Material:
  
  • Reinforced Durasteel Reactor Casing
  • Electrofrost Regulation Coils
  • Strike-Grade Power Routing Lattice
  • Ceramic-Insulated Thermal Buffer Vanes
  • Miniaturized Canarocite waveform lattice
  • Kyromite-structured crystal fuel cell
  • Crystaplast outer casing
  • Boreas-cooled containment plate
  • Synthek harmonics buffer ring
  • Agrinium radiation shielding

SPECIAL FEATURES

• Strike-Optimized Output Profile: Tuned to support repeated short-duration high-draw events typical of bomber and heavy strike operations rather than continuous overclocking.
• Single-Point Reactor Architecture: Lacks redundant or supplemental cores, reinforcing doctrinal risk and preventing endurance creep.
• Integrated Thermal Delay Buffering: Allows brief tolerance of combat spikes before thermal saturation, encouraging decisive attack-and-withdrawal behavior.
• Combat-Hardened Power Stability: Maintains clean power delivery to weapons, ECM, and fire-control systems during attack runs, reducing misfires or guidance degradation under stress.
• Failure-Intolerant Design Philosophy: Exceeding operational limits risks cascading shutdown or catastrophic failure, discouraging prolonged engagement or misuse.

STRENGTHS

• Supports repeated high-output weapon and ECM draw cycles
• Stable performance under combat stress compared to Compact variant
• Strike-optimized power routing improves system reliability during attack runs
• Lighter and more widely deployable than Deltawake

WEAKNESSES

• Lacks the reinforced tolerances and elite survivability of Deltawake
• No supplemental or redundant reactor support
• Thermal saturation occurs if overdraw is sustained
• Catastrophic failure possible if pushed beyond strike doctrine

DESCRIPTION
The Trinity Core: Sakerstrike represents the strike-grade standardization of the Trinity reactor architecture, positioned between the lightweight Compact variant and the reinforced Deltawake configuration. The Saker core is engineered to support sustained combat operations typical of bombers and heavy strike craft without entering elite or experimental territory.

Unlike the Trinity Core Compact, which prioritizes efficiency and minimal mass, the Sakerstrike variant is built to tolerate repeated high-draw cycles from weapons systems, electronic countermeasures, and propulsion bursts. At the same time, it deliberately lacks the structural reinforcement, redundancy margins, and extreme stress tolerance of the Deltawake core. This ensures that while the Saker can operate reliably under combat conditions, misuse or prolonged overdraw will still result in cascading failures.

The Sakerstrike core is designed as a single-point reactor, discouraging redundancy stacking and reinforcing doctrinal risk. It excels in platforms that must deliver payloads, absorb brief punishment, and withdraw, making it ideal for strategic bombers such as the ISB-79A Cataclysm.

 

[Darth Prazutis]

Under Review.

 

[Darth Prazutis]

Ethanael Halscott

Looks good. Approved.