MG400
Desktop Grade Industrial Collaborative Robot
MG400 Collaborative Robot
The MG400 is an ultra compact desktop grade robotic arm with footprint smaller than a piece of A4 size paper. It is safe for human collaboration, easy to use, and quick to deploy, making it perfect to automate small batch flexible productions. With 750 g maximum payload, 440 mm maximum reach, drag-to-teach and collision detection features, MG400 is a cost effective option for smart automation tasks.
190 x 190 mm
making it compact and easy to install
in any production environment.
Desktop Grade
Compact
The MG400 has an all-in-one design that effortlessly fits into a 190 mm x 190 mm space. It is highly portable and is ideal for flexible production.
Industrial Grade
Performance
The MG400 is equipped with a servo motor having a high-precision encoder, proprietary drive and controller, to achieve ±0.05 mm repeatability. Vibration suppression algorithm increases multi-joint motion stability time by 60% and reduces residual vibration by 70%.
Simplicity for Usability
With drag-to-teach, the MG400 is designed to be easy to use. The MG400 lowers the barrier of entry into automation and is favored by numerous small and medium enterprises.
Wide Array of
Programming Options
In addition to drag-to-teach, the MG400 can also be programmed using Lua and graphical interface, suitable for developers of all levels.
Product Information
Specification
| DOBOT | MG 400 | |
| Number of Axes | 4 | |
| Payload | 500g (Max. 750g) | |
| Working Radius | 440 mm | |
| Repeatability | ±0.05 mm | |
| Range of Motion | J1 | ±160° |
| J2 | -25° ∼ 85° | |
| J3 | -25° ∼ 105° | |
| J4 | ±360° | |
| Maximum Joint Speed | J1 | 300° / s |
| J2 | 300° / s | |
| J3 | 300° / s | |
| J4 | 300° / s | |
| Power | 100 ∼ 240V AC, 50/60 Hz | |
| Rated Voltage | 48V | |
| Power Consumption | 150W | |
| Communication Interface | TCP / IP, Modbus TCP | |
| Installation | Desktop | |
| Weight | 8 kg | |
| Base Size | 190 mm x 190 mm | |
| Environment | 0° ∼ 40° C | |
* The above data is the test results obtained by Dobot Laboratory under controlled experimental conditions, which may have slight differences from those in actual application scenarios.
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