Power Systems — Federated Battery Architecture
Energy transduction, voltage topology, SoC estimation, and federated power routing for wearable and vehicle power systems. 7 micrograms + 3 chains covering physics through BMS firmware logic.
7 toolspower-systems
Classify Transducer
Classify a physical transducer by energy domain mapping (mechanical/thermal/optical/chemical/electromagnetic/acoustic/nu
input_energyoutput_energy
Calculate Casimir Energy
Compute Casimir extractable energy for parallel plate geometry. E/A = -π²ℏc/(720·d³). Routes by gap size to determine pr
gap_nmarea_cm2
Query Vacuum Energy Discrepancy
The 10^120 vacuum energy discrepancy — worst prediction in physics. Compare QFT prediction vs cosmological observation v
framework
Evaluate Voltage Topology
Evaluate bus voltage topology for wearable/vehicle power systems. Routes by voltage level and computes wire gauge, insul
bus_voltage_vmax_power_kw
Estimate Soc
State-of-Charge estimator using fused EKF + OCV + coulomb counting. Routes by available sensor data quality. Handles the
voltage_v
Route Power Load
Route power demand to the correct energy tier in a federated battery architecture. 4 tiers: main NMC (bulk), ultracap (b
demand_kwduration_s
Schedule Limb Charge
Schedule per-limb buffer charging from main bus. Prioritizes lowest-SoC limb. Throttles when bus load rises. Prevents si
main_bus_load_pct