# Configuration file general { S:circuitsUsing= # True if you want CEU & CEF to accept batteries with same voltage as CEU/CEF's. False if you want CEU & CEF to accept any tier of batteries. B:exactVoltage=false ceu { ulv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } lv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } mv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } hv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } ev { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } iv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } luv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } zpm { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } uv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:4 B:disable=false } } cef { ulv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } lv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } mv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } hv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } ev { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } iv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } luv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } zpm { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } uv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=4:1 B:disable=false } } iceu { lv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } mv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } hv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } ev { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } } icef { lv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } mv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } hv { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } ev { # Conversion ratio between two energy units (INPUT:OUTPUT) S:conversionRatio=1:1 B:disable=true } } infinite_energy_emitter { B:disableFEEmitter=false B:disableGTEUEmitter=false B:disableIC2EUEmitter=true } infinite_energy_receiver { B:disableFEReceiver=false B:disableGTEUReceiver=false B:disableIC2EUReceiver=true } }