• Ensure maximum regen are in settings.
• This value can almost never be more than the total output in kW.
• Probably some efficiency loss here, 0.9?

• Standard around 95%
• SiC around 97.5%

• EPact 84% - 92.5%
• NEMA Premium and Super Premium 86.5% - 94.1%
• Permanent Magnet efficiency = 92% - 97%

• Car tire: 0.010 - 0.015
• Rain on road: 0.02
• Snow on road: 0.05 - 0.075
• Gravel road: 0.020 - 0.035

• Calculate watts required to maintain cabin temperature compared to ambient temperature.
• Calculate watts required to maintain battery at 15-35° (20-25°C I think is best)
• Wind chill on cabin?

Heat pumps generally are around 700W - 1000W and will generate heat around 2-3kW

Resistance heat: Around 20C - 0W Around 10C - 300W Around 0C (freezing point) 1000W Around -10C - 2000W Around -20C - 3000W

With heat pump: Around 20C - 0W Around 10C - 100W Around 0C (freezing point) 200W Around -10C - 700W Around -20C - 3000W

• Speed (km/h)
• Incline (%)
• Temperature (C°)
• Humidity (%)
• Wind Speed (head, m/s)
• Air Pressure (absolute, pascal)
• Reference height (above sea level, m)

• Mass (kg)
• Load (kg)
• Motor (watts)
• Maximum regen (watts)
• Drag coefficient
• Rolling coefficient
  • wheel size, paving type
• Drag reference area (m2)
• DC-AC motor inverter efficiency (%)
  • presets: standard, SiC
• Motor efficiency
  • min (%)
  • max (%)
  • speed at max (km/h)
  • presets: EPact, NEMA, Permanent Magnet
• Heater (watts)
  • heated seats (50W per seat)

• Weight (kg)
• Drag coefficient
• Drag reference area (m2)