AVL ROADSIM EMC ATV.jpg

AVL ROADSIM EMC ATV™ Chassis Dynamometer

The AVL ROADSIM EMC ATV™ Chassis Dynamometer is designed for testing motorcycles, three-wheelers and ATVs in applications like EMC analysis.

AVL Approach

The cradle mounted DC motors are arranged beside the roller sets. The whole chassis dynamometer can be rotated to align the vehicle to, for example, the electromagnetic field. The road load simulation uses the mechanical base inertia together with electrical inertia simulation.


Benefits at a Glance

  • Extreme low electromagnetic emissions chassis dynamometer
  • Reliable EMC optimized components ensure immunity to interference
  • Proven record of numerous installations worldwide (more than 25 years experience)
  • Excellent working relationship with all major chamber suppliers
  • Local service capability with short response time

Technical Data

The following specification shows typical values and is subject to change. Alternative technical configurations are available upon request.

Performance

 

Nominal tractive force in motor mode (per roller)

6,483N @ v≤60km/h

Nominal power in motor mode (per roller)

108kW @ v≥60km/h

Max. speed

160km/h

Dimensions

 

Roller diameter

630mm

Distance between outer roller edges

1,500mm

Wheel base

1,100mm … 2,200mm

Axle load

 

Max. axle load

1,000kg

Inertia simulation range

 

Inertia simulation range

250kg … 2,000kg

Measurement accuracy data

 

Tolerance of tractive force measurement

±0.2% of full scale

Tolerance of speed measurement

±0.02km/h

Control accuracy data

 

Tolerance of tractive force control

±0.22% of full scale

Tolerance of speed control

±0.03km/h

Road load simulation

 

Tolerance of inertia and road load simulation

≤+2% of calculated value (but not better than force control)

 


Measuring Principle

Tractive force
The tractive force is measured by a strain gauge sensor supporting the cradle mounted motor.

Speed
The speed is measured by an incremental encoder with two 90° shifted tracks with detection of the direction of rotation.