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EMP + Rugged Wi-Fi Go Kit — GamerzCrave
GO-BAG EMP-AWARE OFF-GRID NET

EMP + Rugged Wi-Fi Go Kit

Portable internet that eats blackouts for breakfast: 24 V LiFePO₄ core, LTE/5G failover, optional Starlink, EMP-aware shielding, and field-proof hardware.

Mission Profile

Battery: 24V 50Ah LiFePO₄ (≈1.28 kWh) Outputs: 12V DC / 120V AC / USB-C PD / PoE Runtime: 12–60h (load-dependent) Hardened: Faraday liner + TVS/MOV Case: IP54+ equipment case
Safety: Fuse near the battery, correct wire gauge, and never backfeed a building. Use listed components and follow your device manuals.

Parts to Buy (with Amperage Notes)

ComponentSpecAmps / FuseNotes
LiFePO₄ Battery 24 V 50 Ah (BMS inside) Charge ≤ 0.5C → ≤25 A Store 50–70% SOC; low-temp charge rules apply.
Pure-Sine Inverter 300–600 W, 24 V input DC ≈ 15–30 A @ 24 V Only needed for AC loads (e.g., Starlink PSU).
24→12 V Buck Adjustable, 20–30 A Fuse 40–60 A (input) Feeds 12 V rail: router/AP/USB-C/PoE injector.
PoE Injector/Switch 48–52 V PoE, ≥60 W Fuse 5–10 A @ 12 V For mesh AP or CPE that wants PoE.
USB-C PD Module 12 V in → 60–100 W PD Fuse 5–10 A Laptop/phone top-ups without AC.
Dual-WAN Router LTE/5G + WAN (Starlink) Draw 8–20 W Health checks + auto failover.
Battery Monitor (Shunt) 200–300 A All negatives after shunt Shows amps in/out and SOC.
DC Protection Class-T 125–200 A + 100–150 A DC breaker Fuse near + battery Main fuse then breaker to inverter leg.
Cables & Bars 2 AWG battery leads; 6–10 AWG branches 83 A peak capable Per ampacity & voltage-drop charts.
EMP / Surge Faraday bag/liner + TVS/MOV board DC 24–36 V clamp Bond liner to case ground lug.
Case & IO Pelican-style case, vents, glands Fans ~0.2–0.5 A ea IP shroud over vents; SMA bulkheads if needed.

Optional solar: 30–60 A MPPT, PV Voc ≤ controller limit, 2–4× “200 W 24 V-class” panels, 15 A string fuses when ≥2P.

Wiring Snapshot

24V Batt +  ->  Class-T 150–200A  ->  DC Breaker 100–150A  ->  Inverter + (AC loads)
24V Batt -  ------------------------------------------------->  Inverter -

24V Batt +  ->  40–60A Fuse  ->  24→12V Buck (20–30A) ->  12V Fuse Block -> [ Router | PoE | USB-C PD | Fans ]
24V Batt -  ------------------------------------------------->  Common Negative (post-shunt)

Battery Negative -> SHUNT -> Bus-   (ALL negatives after the shunt)

Optional Solar:
PV Strings -> Combiner (15A/string if ≥2P) -> PV Disconnect -> MPPT PV+
MPPT BAT+ -> 60–80A fuse -> Bus+ ; MPPT BAT- -> Bus-
Label clearly: AC IN (charge), AC OUT (use), 12V OUT, Breaker, SOC display.

Build Steps

  1. Layout & Dry-Fit: Battery low & centered; inverter near exhaust vent; short 2 AWG runs.
  2. Cut IO: Drill for AC inlet/outlet, DC glands, fans, and SMA pass-throughs; deburr; fit gaskets.
  3. Main DC: Strap battery; Class-T fuse within ~8–10″ of +; DC breaker on inverter leg; shunt on battery −.
  4. Crimping: Use proper die (no hammer crimps). Heat-shrink lugs. Torque to spec.
  5. 12 V Rail: 24→12 V buck to blade fuse block; branch to router, PoE, USB-C PD, fans. Label fuses.
  6. Networking: Dual-WAN router (WAN1 Starlink, WAN2 LTE). Health check + failover. PoE to AP/CPE.
  7. EMP Layer: Faraday liner or copper mesh panel bonded to case ground; add TVS/MOV on DC bus.
  8. Program Limits: Inverter LVC ≈ 22–22.4 V; charge ≤ 0.5C; buck set 12.2–12.6 V under load.
  9. Pre-Power: Breaker OFF, continuity check Bus+ ↔ Bus−; verify polarity on inverter posts.
  10. Power-Up: Breaker ON → inverter ON; check idle draw; measure 12 V rail; test LTE first, then Starlink.
  11. Load Tests: 20–50 W (router) → add AP → add Starlink; log watts for your runtime card.
  12. Tidy & Label: Edge trim, cable dress, “AC IN vs AC OUT” labels, lid quick-start card attached.

Capacity & Runtime Estimator

Adjust loads & duty cycle; estimates account for inverter/buck efficiency and usable DoD.

Battery & Losses

Presets

Presets overwrite the table. Tweak values after.

Device Watt Duty % Qty Avg W

Results

Total Average Load: 0 W Usable Capacity: 0 Wh Est. Runtime: 0 h 00 m DC Current: 0 A @ 24 V
Tip: DC-only runs longer. AC inverter adds idle/surge overhead.

Solar MPPT Add-On (Optional)

Controller & Array

  • MPPT: 24 V profile, 30–60 A, PV Voc max 100–150 V
  • Strings: 2× “200 W 24 V” panels in series (Vmp ≈ 72 V) → efficient for MPPT
  • Fusing: 15 A/string when ≥2 strings in parallel
  • Connect order: Battery to MPPT first; PV last. Reverse to shut down.
Daily harvest ≈ PV_W × SunHours × 0.75 (e.g., 400 W × 4 h × 0.75 ≈ 1.2 kWh).

Hookup

PV → Combiner (15A fuses) → PV Disconnect → MPPT PV+
MPPT BAT+ → 60–80A fuse → Bus+
MPPT BAT- → Bus-
Set Absorb ≈ 28.4–28.8 V; Float ≈ 27.0–27.6 V (or per battery manual)

EMP-Aware Hardening (Practical)

  • Faraday layer: Use a tested Faraday bag or copper mesh liner bonded to a ground lug on the case; ensure lid continuity (conductive gasket or braid).
  • Surge clamps: TVS diodes (e.g., 33–36 V working) across DC bus + MOVs; keep leads short.
  • Cable hygiene: Route IO through glands; add ferrite clamps; avoid giant loop areas.
  • Reality check: No portable kit is “EMP-proof”; aim for reasonable resilience, not invincibility.

Quick Start — Case Lid Card

Power Devices

  1. Flip Breaker ON.
  2. Press Inverter ON (if using AC).
  3. Router & AP are on 12 V rail (DC-only path = longer runtime).
  4. Plug AC loads (e.g., Starlink PSU) into AC OUT.

Charging

  1. Connect wall cord to AC IN.
  2. Charge current appears on shunt/inverter display.
  3. Unplug to stop charging.

WAN Failover

  • WAN1: Starlink (AC)
  • WAN2: LTE/5G
  • Health checks enabled → auto swap

Fast Runtime

  • Router 10 W → ~115 h
  • AP 12 W → ~96 h
  • Starlink 45 W → ~26 h
  • Mixed ~95 W → ~12–13 h

Based on 1.28 kWh, 90% DoD, 90% efficiency. Real life varies.

Never backfeed a building. Keep dry & ventilated. Store 50–70% SOC.

Pre-Flight Checklist

Mechanical

  • Battery strapped + padding
  • Fans clear; filters clean
  • Strain relief on all pass-throughs

Electrical

  • Class-T fuse near battery +
  • Shunt in negative; all returns post-shunt
  • Polarity confirmed at inverter posts

Network

  • WAN1 Starlink / WAN2 LTE set
  • Health checks enabled
  • SSID & password labeled

Sources & References

  1. OSHA — Portable Generator Safety (no backfeed). Link
  2. CPSC — Portable Generator Hazards (don’t backfeed). Link
  3. EC&M — NEC 702 Optional Standby overview (transfer equipment). Link
  4. Blue Sea — Class-T fuse specs & guidance. Link
  5. Blue Sea — Wire ampacity & voltage-drop charts (ABYC-based). Link
  6. Victron — SmartShunt/BMV manuals (all negatives after shunt). Link
  7. Victron — MPPT manuals (battery first; PV fusing). Link
  8. Battle Born / RELiON — LiFePO₄ charge setpoints (scale to 24 V). BB · RELiON

Always follow your specific device manuals; values here are typical.

© GamerzCrave — built for chaos, tuned for signal.
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