Wireless autonomous charging for robots, devices, and fleets.
Joined July 2016
- Tweets 708
- Following 139
- Followers 333
- Likes 673
403 Photos and videos
WiBotic systems are certified to FCC, CE, & Giteki standards, helping organizations deploy charging infrastructure across North America, Europe, and Japan with confidence.
#Robotics #AMR #IndustrialAutomation #WirelessCharging #FleetManagement
9
A robot ends a shift with less battery than expected. A mobile cart suddenly isn't making it through the day.
As fleets grow, visibility becomes as important as the charging.
That's why charging data matters.
#Robotics #Automation #FleetManagement #IndustrialTechnology #AMR
9
Every docking event is a cycle on a physical connector. Over time, those need inspection, replacement, and maintenance. Removing the connector removes a wear item, helping charging infrastructure scale.
#AMR #WarehouseAutomation #IndustrialAutomation #Robotics #SupplyChain
23
Our IP-rated products are designed for real-world conditions. The goal to create the confidence that the charging system will do its job even when the environment isn't cooperating. The same on day 1 & day 1000
#WirelessCharging #Automation #Robotics #IndustrialAutomation #AMR
18
Whenever an #ROV or #AUV has to surface for charging, the windows for inspection, mapping, or monitoring shrink.
A vehicle that charges and transfers data without being physically recovered changes the operational rhythm.
#WirelessCharging #UnderwaterRobotics #AutonomousSystems
1
234
What happens when you scale #HumanoidRobots across different facilities, shifts, & uptime needs?
The conversation is centered on intelligence right now, but long-term adoption will depend on how flexible their infrastructure is.
#Robotics #Automation #IndustrialAutomation #AI
18
A hidden cost in robotics is connector wear. Over time, it becomes another maintenance item to monitor, replace, and troubleshoot.
By switching to wireless, teams can simplify maintenance and improve reliability.
#Robotics #Automation #WirelessCharging #AMR #IndustrialAutomation
20
A surprising amount of autonomous workflow design still assumes someone will stop what they’re doing to plug in equipment.
Charging infrastructure should be part of the operational strategy!
#Robotics #Automation #AMR #WarehouseAutomation #IndustrialAutomation
18
Physical connectors are wear items. Every docking cycle adds a little more fatigue, contamination, & stress to the system.
With no connectors to degrade, teams spend less time with the wear that comes from repeated contact.
#WirelessCharging #Automation #Robotics #Maintenance
1
1
19
If the coffee pot is empty, everything slows down. People begin managing caffeine instead of doing real work.
Good autonomous infrastructure should have an energy supply built into the background so the team can stay focused.
#Robotics #Automation #AMR #IndustrialAutomation
1
18
April’s robotics headlines show where the industry is heading. @techradar, @therobotreport, @govtechnology, @DistStrategyGrp, & @BusinessInsider captured these trends well.
It's beginning to feel less like emerging tech & more like foundational infrastructure.
#Robotics
1
30
Articles (2/3):
Government Technology (Sidewalk Delivery Robots) govtech.com/transportation/s…
The Robot Report (Healthcare Robotics / Medical AMRs) therobotreport.com/category/…
1
14
Articles (3/3):
Distribution Strategy Group (Retail Automation / Home Depot SIMPL) distributionstrategy.com/202…
Millfac (Autonomous Floor Scrubbers) millfac.com/blog/autonomous-…
11
It's one thing for a wireless power system to perform on a bench, but to understand how it behaves when alignment isn't perfect, assets move unpredictably, and access for troubleshooting is limited?
Priceless.
#WirelessPower #Robotics #Autonomy #Infrastructure #SeattleTech
1
26
Cables get bent. Pins wear down. Contacts degrade. It’s a steady stream of small maintenance events that add up.
Transitioning from physical connectors to wireless = fewer failure points, replacements, and interruptions
#ROI #Automation #Robotics #Maintenance #Operations
31
UW APL, Blue Robotics, @SMTPSF, & WiBotic validated their wireless power & data transfer system at @SeattleAquarium!
When vehicles no longer need to be recovered, that equals less downtime and more continuous data.
#UnderwaterRobotics #AutonomousSystems #OceanTech #Robotics
19
Dust, moisture, temperature swings, and constant movement are the norm.
This is why ruggedization is a priority. WiBotic is charging infrastructure that is designed to meet real-world conditions.
#WirelessPower #RoboticsInfrastructure #IndustrialAutomation #RuggedDesign
32