Star Wars Roleplay: Chaos

Register a free account today to become a member! Once signed in, you'll be able to participate on this site by adding your own topics and posts, as well as connect with other members through your own private inbox!

Manufacturer: Primo Victorian Enterprises
Type: Mechanical
Market Status: Closed Market
Production: Minor
Weight: N/A
Size: N/A
TRINITY CORE COMPACT

OUT OF CHARACTER INFORMATION

  • Intent: To provide a crystal-regulated, compact variant of the KHR‑IV hypermatter reactor for advanced ships that prioritize efficiency, modularity, and long-term sustainability over massive raw output.
  • Image Source: N/A
  • Canon Link: Hypermatter Reactors, Coaxium, Kalkite-32
  • Permissions: N/A
  • Primary Source: CFIE, CIHR, ACS
PRODUCTION INFORMATION
  • Manufacturer: Primo Victorian Enterprises
  • Affiliation: Imperial Commonwealth of Dosuun
  • Market Status: Closed-Market
  • Model: CHR-KHR‑IVC-X1 “Trinity Core Compact”
  • Modularity: Yes
  • Production: Minor
  • Material:
    • Kyromite crystal regulator
    • Boreas thermal bleed shielding
    • Kalkite-coated lensing arrays
    • Synthek crystal optional channeling
    • Crystaplast-insulated fuel core
    • Coaxium canister injection port
    • Tritium-fusion subloop
SPECIAL FEATURES
  • Crystal Regulation Matrix: Kyromite core stabilizes reactor output, minimizing flux surges and annihilation variance.
  • Thermal Self-Stabilization: Boreas cooling elements maintain thermal balance in vacuum and combat environments.
  • Kalkite Lensing: Improves reactor-to-engine energy transmission with minimized loss.
  • Coaxium-Compatible: Accepts stabilized hypermatter fuel; modular injection ports prevent fuel shock events.
  • CIHR Integration: Fully compatible with CIHR power harmonics and Arbalest capacitor system for precise energy discharge.
STRENGTHS
  • Stable and Efficient: Designed to run for long durations with minimal regulation drift.
  • Compact Design: More adaptable to midsize ships, stealth vessels, and science cruisers.
  • Low Radiation Signature: Boreas and crystaplast shielding reduce EM/thermal bleed — ideal for recon.
  • Arbalest/CIHR Support: Harmonizes perfectly with crystal-driven engine and capacitor systems.
WEAKNESSES
  • Limited Output: Not suitable for superlaser or dreadnought-class vessels.
  • Complex Fuel Handling: Coaxium + tritium mixtures must be balanced and shielded.
  • Crystal Vulnerability: If Kyromite or Boreas layers are damaged, containment failure is possible.
  • Calibration-Heavy: Must be properly tuned to ship’s CIHR and capacitor frequency to avoid resonance lag.
DESCRIPTION
The KHR‑IVM “Trinity Core Compact” is a specialized hypermatter reactor designed for advanced vessels operating outside of traditional fleet logistics chains. It brings together the best of modern crystal-based energy regulation — Kyromite for phase stability, Boreas for cooling, and Kalkite for efficient transmission — into a modular and safer design compared to the full-scale KHR‑IV.

Supporting Coaxium fuel injection and secondary Tritium fusion loops, the KHR‑IVM can operate with extended range and minimal fuel shock risk. When paired with the CIHR regulator node and Arbalest Capacitor System, it enables burst-safe energy cycling, seamless hyperdrive synchronization, and crystal-fused engine precision across multiple systems.

Intended for flagship prototypes, stealth ships, elite recon units, and science-focused missions, this reactor prioritizes sustainability and safety without sacrificing the advanced harmonics necessary to operate next-gen energy networks.
 


Out Of Character Info


Intent: To provide a crystal-regulated, compact variant of the KHR‑IV hypermatter reactor for advanced ships that prioritize efficiency, modularity, and long-term sustainability over massive raw output.
Image Source(s): https://notaurl.com
Canon Link: Hypermatter Reactors, Coaxium, Kalkite-32
Permissions: N/A
Primary Source(s):

CFIE, CIHR, ACS


Technical Information


Affiliation: Imperial Commonwealth of Dosuun
Model: CHR-KHR‑IVC-X1 “Trinity Core Compact”
Modular: Yes
Material: Kyromite crystal regulator Boreas thermal bleed shielding Kalkite-coated lensing arrays Synthek crystal optional channeling Crystaplast-insulated fuel core Coaxium canister injection port Tritium-fusion subloop

Users who are viewing this thread

Top Bottom