Kawasaki Robotics
MX350L
An extra-large 350 kg arm with 3018 mm reach featuring one of the highest wrist torque ratings in its class — Kawasaki's MX350L handles heavy stamped parts, large tooling and oversized material handling without counterweights.
Payload
350 kg
Reach
3,018 mm
Repeatability
±0.1 mm
💲 Price on application
Full specifications
Performance
How much it lifts, how far it reaches, how precisely it repeats.
- Payload
Maximum mass the robot can carry at the wrist flange, including the gripper/tool. Higher means it can handle heavier parts.
- 350 kg 91th pct in class
- Reach
Maximum horizontal distance from the base axis to the wrist — defines the size of the work area. Higher means a larger envelope.
- 3,018 mm 88th pct in class
- Repeatability
How close the robot returns to the same taught point on repeated tries (ISO 9283, ±). Lower is better — tighter precision.
- 0.1 mm 3th pct in class
- Axes (DOF)
Number of independently driven joints / degrees of freedom. 6 is standard for articulated arms; 4 for SCARA/palletizers; 7 adds elbow redundancy.
- 6
Physical
Size, mass and how it mounts.
- Robot weight
Mass of the manipulator (arm) without controller. Lighter eases mounting and mobile use; heavier often means stiffer/higher payload.
- 2,800 kg
- Mounting
Orientations the robot can be installed in (floor, ceiling/inverted, wall, tilted, mobile base).
- floor
Power & controller
Electrical supply and the control cabinet that drives it.
- Controller
The control cabinet / unit that runs the robot.
- F04 Controller
Safety
Standards met and collaborative-operation capability.
- Collaborative
Whether the robot is designed to work safely next to people without fencing (power-and-force-limited).
- No
- Safety standards
Certified safety standards (ISO 10218-1, ISO/TS 15066) and functional-safety level (PLd/PLe, SIL2/3).
- ISO 10218-1
Control & software
Programming, languages and ecosystem.
- Programming
How the robot is taught: pendant, hand-guiding (lead-through), block/flow-chart, scripting, offline simulation.
- teach-pendant, offline-sim
- Languages
Native robot programming language(s) — e.g. KRL (KUKA), RAPID (ABB), URScript (UR), INFORM (Yaskawa).
- AS
- Offline programming
Whether programs can be built and validated offline in a digital twin before deployment.
- Yes
Connectivity & I/O
Signals, fieldbuses and tooling interfaces.
- Fieldbus
Industrial networks supported for PLC/cell integration (PROFINET, EtherNet/IP, EtherCAT, Modbus TCP, CC-Link, etc.).
- PROFINET, EtherNet/IP, EtherCAT
Specifications sourced from Kawasaki Robotics official datasheet ↗. Specs last verified 2026-06-23.
Frequently asked questions
What is the payload of the Kawasaki Robotics MX350L? +
The Kawasaki Robotics MX350L has a maximum payload of 350 kg.
What is the reach of the Kawasaki Robotics MX350L? +
The Kawasaki Robotics MX350L has a maximum reach of 3,018 mm (3.02 m).
What is the repeatability of the Kawasaki Robotics MX350L? +
The Kawasaki Robotics MX350L has a pose repeatability of ±0.1 mm (ISO 9283), making it suitable for precision work.
How many axes does the Kawasaki Robotics MX350L have? +
The Kawasaki Robotics MX350L is a 6-axis articulated arm robot.
What is the Kawasaki Robotics MX350L used for? +
The Kawasaki Robotics MX350L is typically used for material-handling, machine-tending.
What controller does the Kawasaki Robotics MX350L use? +
The Kawasaki Robotics MX350L runs on the F04 Controller controller.
How much does the Kawasaki Robotics MX350L cost? +
Kawasaki Robotics MX350L: Price on application. Industrial robots are typically quoted per project through authorized distributors.
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