02 20040510-114148_32918_06_avl_48zoll erl.jpg

AVL ROADSIM 48” MIM CAR Chassis Dynamometer

The AVL ROADSIM 48" MIM Chassis Dynamometer is designed for testing passenger cars in applications like emission analysis, mileage accumulation or fuel consumption testing.

AVL Approach

The cradled AC motor is arranged between two fixed rollers. It is designed for ideal road load simulation of vehicles. The mass simulation is realized electrically by the AC motor with a mechanical base inertia of the two rollers. A single or twin axle configuration is available.


Benefits at a Glance

  • Cast frame for high rigidtiy
  • Driven bearings for highly repeatable parasitic losses
  • Service and maintenance work completely executable from above the floor
  • Highly accurate force and speed measurement chain through modern sensor equipment
  • Dead weight calibration through zero without demounting of calibration device and zero-point shifting

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 axle)

5,870N @ v≤92km/h

Nominal power in motor mode (per axle)

150kW @ v≥92km/h<189km/h

Max. speed

200km/h

Dimensions

 

Roller diameter

1,219.2mm

Distance between outer roller edges

2,300mm

Inertia simulation range

 

Inertia simulation range (2WD)

454kg … 2,500kg

Inertia simulation range (4WD)

800kg … 2,500kg

Roller set axle load

 

Max. axle load

2,000kg

Measurement accuracy data

 

Tolerance of tractive force measurement

±0.1% of full scale

Tolerance of speed measurement

±0.02km/h

Control accuracy data

 

Tolerance of tractive force control

 ±0.2% of full scale

Road load simulation

 

Tolerance of inertia and road load simulation

±1% 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.