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Implement new battery management system #306
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To be able to hot-swap batteries we need to define some parameters, assuming 50 W of power consumption under high workload for the NUC (nominal 30W, reference):
Connection scenariosParallel connection between the main battery and backup battery
Both (main and backup) are completely independent
Alternative solutionAlternative solution for "hot-swapping". Based on the youBot manual section 2.1 "[...] power plug (labeled as 24V IN) can be used to power the KUKA youBot and recharge the battery (at the same time)." what if at the time to swap the main battery we just plug in the power supply intro the port
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After a conversation with @vamsikalagaturu and @Akhilan-xd: RationaleThe main idea of a new battery manage system is to be able to carry batteries on international flights, due to airline limitations it is not possible to travel with the current battery (Derby Cycle Li-on 25.2V 625Wh), so the idea is to use multiple batteries equivalent to the current capacity. Airlines conditions
List of conditions EASA: More practical information – Lithium batteries For batteries exceeding 100 Wh but max. 160 Wh
For batteries less than 100 Wh:
Airlines batteries information (as reference): Regulations |
Battery Requirements
Current Battery Information
More details about the current battery in section 9 Technical Details - Original User Guide | Pedelec Impulse Evo |
Power ConsiderationsArm:
NUC:
Gripper:
MeasurementsIdle (mobile base not moving)
Mobile base running (max speed):
Base and arm moving:
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After a fruitful experience at the RoboCup German Open 2024 in which we won not only the first place but also gained experience, we were able to collaborate and talk with Christoph Steup from robOTTO and ask them about their cool hot swap battery system here are some insights:
Hardware Options
@Akhilan-xd if you can pin me in Slack or WhatsApp we can check about this. |
@harleylara Sure, Harley we can start working on this. I will also search about the battery type and costs. So, that we can further proceed on the battery hot swapping for youbot. |
Current Power DistributionThe following diagram represents the power distribution and the different voltage levels used in the robot. Proposed Power DistributionThe proposed distribution system allows battery replacement without rebooting the system, and even allows switching to an external power supply (for testing in lab) without rebooting. Proposed HardwareNew components:
Some NotesIn order to reduce costs with the DC-DC converter the RSD-300D-24 was proposed, the main disadvantage is that it is relatively bulky 40x96.5x216 mm but the footprint fits inside the robot. In case we want to reduce weight or space you could opt for more compact alternatives such as the TracoPower TEP 200WIR , the main problem is that the price increases by a factor of 3. |
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