Mid-drive motors are positioned near the bike's bottom bracket or drivetrain, allowing them to leverage the bike's existing gears. This results in efficient power delivery and better utilization of the motor's output, especially during acceleration and climbing hills.
Placing the motor near the center of the bike contributes to balanced weight distribution. This enhances stability and handling, critical for safe and enjoyable riding.
Electric two-wheelers often encounter diverse terrains. Mid-drive systems can adapt to varying conditions by using the bike's gears, making them well-suited for uphill climbs, rough roads, and different riding environments.
Many mid-drive systems incorporate advanced sensors, such as torque sensors, to measure the rider's pedal input. This results in responsive motor assistance that closely mimics natural pedaling, offering a smooth and intuitive riding experience
Mid-drive powertrains are particularly advantageous for tackling steep inclines. They can generate high torque at the crankshaft, making hill climbing easier and more efficient.
By using the bike's gears and adjusting power based on the rider's pedaling effort, mid-drive systems optimize energy consumption. This often leads to longer battery range compared to hub motor setups.
Placing the motor low on the frame contributes to a lower center of gravity, enhancing overall stability and control, especially during cornering
Mid-drive systems can be used in a range of electric two-wheelers, including bicycles, scooters, and motorcycles. They can be adapted to different power levels and performance requirements.
Mid-drive motors are usually easier to maintain and service due to their central position. Maintenance tasks like tire changes and chain adjustments are typically simpler.
Three-wheelers inherently have a wider footprint than traditional bicycles, which can make stability a concern, especially when carrying passengers or cargo. Mid-drive motors, positioned near the bottom bracket, contribute to a lower center of gravity, enhancing overall stability and reducing the risk of tipping.
Mid-drive systems help distribute the weight more evenly across the vehicle. This even weight distribution ensures better handling and control, particularly during cornering or sudden maneuvers.
Three-wheelers often encounter hills or inclines, especially in urban and suburban environments. Mid-drive motors are well-suited for such situations as they can deliver higher torque through the drivetrain, making uphill climbs smoother and more manageable.
Mid-drive systems utilize the bike's existing gears, allowing the motor to operate within its most efficient RPM range. This results in better energy utilization and longer battery life, crucial for electric three-wheelers that may need to travel longer distances or operate for extended periods.
Electric three-wheelers can be used for various purposes, from passenger transportation to cargo delivery. Mid-drive systems can adapt to different terrains and load requirements thanks to their ability to adjust assistance levels based on pedal input and gear selection.
Many mid-drive systems incorporate advanced sensors that measure rider input and adjust assistance accordingly. This provides a natural and responsive riding experience, crucial for maintaining control and balance on a three-wheeler.
The central positioning of mid-drive motors makes maintenance tasks more accessible. This simplifies tasks like tire changes, chain adjustments, and other routine upkeep.
Some mid-drive systems offer programmable settings, allowing you to tailor the power output and assistance levels to suit the specific requirements of your electric three-wheeler.
At TAV, we are driven by a bold and transformative mission – to redefine the electric vehicles industry by building cutting-edge powertrain technologies for electric bikes.
Headquarter – Australia
TAV Systems Pty Ltd
809/811 South Rd,
Clarence Gardens, S.A. 5039
Top Speed | Max Torque |
25km/hr | 80Nm |
Charging Status |
Speed |
Riding Mode |
Range |
Trip Distance |
Total Distance |
Motor Nominal Voltage | Motor Weight |
36V | 3.8kg |
Motor Peak power | Motor Efficiency |
380W | >85% |
Motor Rated power | Motor IP rating |
250W | IP65 |