TinmanBN Posted February 18, 2021 Share Posted February 18, 2021 Driving Model: Option 1 - Analytical - Provide the mathematical parameters to define the car model (See this blog post for details). Option 2 - Data-Driven - Perform driving test at multiple speeds, and record efficiency or power draw from the pack. Option 3 - Direct Car Connection - Provide method of receiving telemetry directly from the car via OBD, API, or other means. Charging Model: Charge Curve - Provide a link to a chart or video detailing the charge power over time or by State of Charge % Good Morning! Is there any chance to get some electric Scooters implemented into ABRP? I'd like to start with mine, which is a ============================================================= TRINITY JUPITER 11, model year 2020, 10.8 kWh battery (7.6 kWh optional), Schuko charge plug (optional adapter cable to Type2 plug) max speed: 120 km/h possible range: - up to 90 km/h (20°C) => 230 km /// (5°C) => 190 km /// (-2°C) => 160 km - 100 km/h (20°C) => 205 km /// (5°C) => 170 km /// (-2°C) => 150 km - 110 km/h (20°C) => 180 km /// (5°C) => 155 km /// (-2°C) => 130 km - 120 km/h (20°C) => 150 km /// (5°C) => 125 km /// (-2°C) => 110 km charging speed(s): - 9A / ~1.9 kW (optional 6A / ~ 1.3 kW) linear from 5% to 90% => charging time from 10% to 80% = 4 hours (9A) / 6 hours (6A) ============================================================= If you need any additional information - don't hesitate to ask. Regards, Dirk. Link to comment Share on other sites More sharing options...