Dobot AtomvsFANUC CRX-10iA
FANUC CRX-10iA leads on 4 of 7 dimensions — strongest on deployment readiness.
Atom
0 wins
CRX-10iA
3 wins
Category breakdown
Deploy & operate
Readiness, uptime, navigation & connectivity
- 62Deployment readiness88
- 60Maintenance confidence60
- Vision-led navigation (estimated)NavigationVision-led navigation (estimated)
- Wi-Fi / cloud fleet management (estimated)ConnectivityWi-Fi / cloud fleet management (estimated)
Cost & ROI
Price accessibility and ROI clarity
- 74Price accessibility61
- 48ROI clarity82
Capability
Payload, speed, runtime & labor replacement
- 55Labor replacement78
- 3.5 kg per armPayload10 kg
- 1.5 m/s (arm end speed & walking speed)SpeedMax joint speeds: J1–J2 360°/s, J3 540°/s, J4–J6 380°/s; operational speeds 120–180°/s across joints
- ≈2 hours (1-hour recharge time)BatteryN/A – mains-powered (100–240V AC)
Fit & future
Environment fit, footprint & long-term upside
- 65Environment fit85
- 72Future potential72
- Height 1530–1650 mmFootprintRobot arm width ~245 mm; teach pendant 335 × 176 × 120 mm
Atom · Best for
Automotive parts micro-assembly (sub-5mm tolerances) on compressed shop-floor footprint with <25 units per shift
CRX-10iA · Best for
CNC machine tending — load/unload parts from spindles in 5–50-second cycles
Final judgment
If immediate deployment is the priority, choose CRX-10iA. If the goal is to be ready when Atom's capabilities mature, track it.