Team Details
PWR Racing Team
| University | Wroclaw University of Technology
PL Wrocław TU short 624 |
 |
|---|---|---|
| Location | Wrocław, Poland | |
| Homepage | https://racing-pwr.pl/ | |
| Social Media |
    
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| CV Team | PWR Racing Team | |
| DV Team | PWR Racing Team Driverless | |
| Short Link | tid.fsg.one/1258 | |
Team Description
PWR Racing Team, the Formula Student Team from Wrocław University of Science and Technology, has been pushing the limits of engineering and motorsport innovation since 2009. As the most successful and experienced Polish Formula Student team, we have built a legacy of 15 racecars over the past 15 years - starting with 12 internal combustion cars before transitioning to electric vehicles equipped with autonomous driving systems.
With a dedicated team of 82 passionate and ambitious students, we constantly strive for excellence on the global stage. Our achievements speak for themselves:
We became the winners of the general classification at SAE Italy 2017 and the first Polish Formula Student competition in 2023, as well as we took second place at SAE Michigan 2023 against over 100 teams from around the world.
Formula Student is more than just a competition for us, it’s a journey of innovation, where engineering precision meets the thrill of racing.
Event Profile
Past Events
2026
No media information available for this year.
2024
Info
PWR Racing Team is the most established Polish Formula Student Team. They have been based in Wrocław at the Technical University of Science and Technology since 2009. In their 15th anniversary, they are competing with 3rd electric car with autonomous driving systems – RT14e. Their greatest accomplishments are winning the 2017 Formula SAE Italy and 2023 Formula Student Poland. They are known for their professionalism, hard work, and taking things to the next level.
Engineering Design Priorities:
Reliability
High quality
Driverless
Lightweight
Rear-wheel drive
Carbon fibre monocoque
Car Specifications
General
| Frame Construction | Full CFRP Monocoque |
|---|---|
| Material | CFRP with aluminium Honeycomb and Rohacell |
| Overall Length (mm) | 2987 |
| Overall Width (mm) | 1489 |
| Overall Height (mm) | 1179 |
| Wheelbase (mm) | 1525 |
| Track Front (mm) | 1200 |
| Track Rear (mm) | 1180 |
| Weight Front (kg) | 156 |
| Weight Rear (kg) | 156 |
| Suspension | Double unequal length A-arm. Push rod actuated horizontally oriented spring and damper |
| Tyres | 190.5x40 R10, Hoosier R20 / 190.5x40 R10, Hoosier R20 |
| Wheels | 7.5x10, 59mm offset, 2pc Carbon Rim / 7.5x10, 62mm offset, 1pc Carbon Rim |
| Drive Type | compound planetary gearbox in hubs |
| Differential | - |
| Cooling | Twin under body mounted radiators with sensor based controlled electric fans |
| Brake System | 4-disc system, self developed mono-block calipers, adjustable brake balance |
| Electronics | Self-designed multifunctional wheel, self-developed live telemetry, motorsport harness |
Powertrain
| Number of Motors | 2 |
|---|---|
| Motor Location | Rear Right, Rear Left |
| Max Motor Power | 35.4 kW, 35.4 kW |
| Motor Type | Fischer TI085-052-070-04B7S-07S04BE2 |
| Max Motor RPM | RR,RL: 20.000 |
| Motor Controller | AMK Motion |
| Max System Voltage (V) | 538V |
| Electrode Materials | Lithium Ion |
| Accumulator Capacity | 6.221kWh |
| Transmission Ratio Primary | 1:12.87 |
| Transmission Ratio Secondary | - |
Driverless System
| Processing Units | Speedgoat real-time target machine, NVIDIA Jetson |
|---|---|
| Processing Units FLOPS | 275000 |
| Processing Units Power (W) | 600 |
| Cameras | 1, n/a, 120 degrees, Arducam 30fps 1080p |
| Radar Sensors | - |
| LiDAR Sensors | 1, 30m, 120 degrees, Velodyne Velarray m1600 |
| Other Sensors | Xsens MTI670, Xsens MTI680G, Bosch m5.10, steering encoder and potentiometer, wheel speed sensors |
| DV System Highlights | - Pointcloud - image projection, MPC based movement control, innovative path planner based on 3 algorithms, FastSLAM 2.0, Monte Carlo Localization, braking controlled using Preview Controller, YoloV8 image detection, GPU clustering of pointcloud |
2023
No media information available for this year.
Car Specifications
2022
Info
Wrocław University of Science and Technology. PWR Racing Team. PWR Racing Team was formed in 2009 and since then has built 11 combustion cars. We are the most recognizable science club in Poland. This year we took a challenge and our RT12e will take part in EV class and DV Cup. In previous years we were winning and standing on podiums several times. We're still looking for opportunities to develop our skills and knowledge. Checkout our self-designed electric motors. See You on the track!
Engineering Design Priorities:
self-designed motors
switchtoelectric
autonomus
developmentplatformcar
speedgoat
EVandDVCup
Car Specifications
General
| Frame Construction | Full monocoque |
|---|---|
| Material | Carbon fiber, rohacell, aluminum honeycomb |
| Overall Length (mm) | 3045 |
| Overall Width (mm) | 1478 |
| Overall Height (mm) | 1190 |
| Wheelbase (mm) | 1525 |
| Track Front (mm) | 1200 |
| Track Rear (mm) | 1180 |
| Weight Front (kg) | 145 |
| Weight Rear (kg) | 185 |
| Suspension | Double A-Arm, pushrod actuated, U-bar stabilizer. Front and Rear |
| Tyres | 16.0/7.5-10, Hoosier R25B / 16.0/7.5-10, Hoosier R25B |
| Wheels | Seflmade CFRP rims with aluminum rotors |
| Drive Type | 2-stage planetary gear inside rear wheel |
| Differential | - |
| Cooling | Twin side rear mounted radiators with sensor based controlled electric fans |
| Brake System | 4-disc system, self developed calipers. Adjustable brake balance. |
| Electronics | Self-developed Live-Telemetry, Multifuncional Steering Wheel, Motorsport wiring harness |
Powertrain
| Number of Motors | 2 |
|---|---|
| Motor Location | Rear left and right wheel |
| Max Motor Power | 47 |
| Motor Type | self-Designed motors |
| Max Motor RPM | 15.000 |
| Motor Controller | Cascadia Motion |
| Max System Voltage (V) | 508 |
| Electrode Materials | Litium-Ion |
| Accumulator Capacity | 8,54 |
| Transmission Ratio Primary | 9,8 |
| Transmission Ratio Secondary | - |
Driverless System
| Processing Units | Speedgoat baseline real-time target machine, NVIDIA Jetson |
|---|---|
| Processing Units FLOPS | 32000 |
| Processing Units Power (W) | 425.00 |
| Cameras | 2 stereoscopic cameras, Range 20m, System operating angle 160 deegres, StereoLabs ZED2 |
| Radar Sensors | - |
| LiDAR Sensors | 1, Range 100m, Operating angle 360 degrees, Velodyne Puck Hi-Res |
| Other Sensors | - |
| DV System Highlights | First-year autonomous system. ROS2 based software. Cameras and LiDAR recognition accelerated with NVIDIA hardware. FastSLAM 2.0 based mapping. Team-developed BLDC controller for steering actuator using 6-step algorithm. 2 line pneumatic EBS and servobased brake actuator. |
FS past achievements due to World Ranking Data Base
| Date | Event | Teams | Rank | BP | CM | ED | SP | DV SP | AC | DV AC | AX | EN | EF | Pe | Total |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 2025.08 | 53 |
11. |
31. |
10. |
15. |
21. |
- |
28. |
- |
19. |
9. |
5. |
-20.00 |
505.68 |
|
| 2025.07 | 40 |
24. |
2. |
21. |
14. |
18. |
- |
22. |
- |
21. |
- |
- |
0.00 |
356.60 |
|
| 2025.07 | 44 |
8. |
15. |
30. |
16. |
7. |
- |
10. |
- |
8. |
7. |
8. |
0.00 |
484.60 |
|
| 2024.09 | 34 |
15. |
22. |
27. |
9. |
9. |
- |
16. |
- |
7. |
- |
- |
0.00 |
364.97 |
|
| 2024.08 | 79 |
55. |
55. |
46. |
18. |
44. |
- |
48. |
- |
- |
- |
- |
0.00 |
208.80 |
|
| 2024.08 | 47 |
20. |
32. |
32. |
6. |
7. |
- |
20. |
- |
12. |
- |
- |
0.00 |
271.58 |
|
| 2024.07 | 31 |
15. |
28. |
13. |
5. |
- |
- |
15. |
- |
- |
- |
- |
0.00 |
237.23 |
|
| 2023.08 | 70 |
44. |
12. |
52. |
24. |
- |
- |
36. |
- |
31. |
- |
- |
-10.00 |
216.87 |
|
| 2023.07 | 29 |
10. |
6. |
9. |
6. |
- |
- |
- |
- |
9. |
- |
- |
0.00 |
293.44 |
|
| 2022.08 | 25 |
17. |
6. |
12. |
18. |
- |
- |
- |
- |
- |
- |
- |
0.00 |
222.00 |
|
| 2022.08 | 63 |
35. |
26. |
13. |
8. |
- |
- |
- |
- |
- |
- |
- |
-20.00 |
226.11 |
|
| x 11 | |||||||||||||||