Ned3 Pro – 6 axis industrial robot

7000 

Ned3 Pro – 6 axis industrial robot

Ned3 Pro is a 6-axis robotic arm designed for industrial applications, aimed at professionals and industries. It assists operators with tasks such as textile assembly, fabric cutting, automated sewing, and material finishing, enhancing productivity and precision. With its versatile capabilities, Ned3 Pro is a valuable tool across various sectors, from textiles to chemicals, food processing, and more.

Custom Gripper incl.
Open Source
Made in France

7000 

7000 

Shipped within 48h

1 year warranty

An intuitive robot, suitable for a wide range of automation applications

NiryoStudio

Easy and intuitive Robotic programmation app.
Through Freemotion, blockly, Python or C++, program and explore all potential of your robots

Ned3 Pro logo

High-performance servomotors that deliver precision for a variety of industrial tasks. Ideal for automation, pick & place, and complex assembly applications.

A Plug & play companion with open source technology.

ROS2 offers improved hardware diversity support.
The Robot Operating System (ROS) is a set of software libraries and tools for building robot applications.

A wide variety of industrial applications.
Assembly
Dispensing
Finishing
Material Handling
Material
Removal
3D
Simulation
Variety of learning applications.
Programming
Robotics
Artificial Intelligence
Image recognition
Industry
5.0
3D
simulation
Marchine learning
Electronics
Automation

Ned3 Pro: The cutting-edge robotic solution for enhanced productivity

Payload

500g / 1,1 lbs
(z = 20mm TCP)

Reach

500 mm / 19,68 In

Repeatability

+-0,3mm

Wi-FI

2,4GHz & 5GHz

Ethernet

1Gb/s

USB

2.0 - 3.0

Bluetooth

5.0

In the box

Ned3 Pro
Power supply
Emergency stop
I/O Connectors
Start guide

in the box ned3pro

Control panel​

Custom button
This programmable button on the Ned3 Pro allows users to customize actions and functions for enhanced control.

Save button
A short press of this button saves the robot’s position directly in Niryo Studio.

Freemotion button
Pressing and holding this button deactivates motor torques and initiates the FreeMotion operation.

Gripper connector
This connector controls the Custom Gripper, Large Gripper, or Adaptive Gripper.

Electromagnet connector
This connector is designed for Niryo’s electromagnet and includes a digital input for sensors. Programming the input/output is managed through Niryo Studio.

Digital inputs : Type NPN
[DI1 – DI2 – DI3]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

5

mA

Digital Outputs : Type NPN
[DO1 – DO2 – DO3]

Settings
Min
Max
Units

Voltage

0

5

V

Current

-

250

mA

Analog inputs
[AI1 – AI2]

Settings
Min
Max
Units

Voltage

0

5

V

Current

-

20

mA

Resolution

-

12

Bit

Analog inputs
[AO1 – AO2]

Settings
Min
Max
Units

Voltage

0

5

V

Current

-

10

mA

Resolution

-

12

Bit

Connectivity

Wi-Fi: 2,4GHz & 5GHz 
USB: 2.0 (2) – 3.0 (2) 
Ethernet: RJ45 – 1Gb/s 
Emergency Stop: 1
Digital inputs: 3 
Analog inputs: 2 
Analog outputs: 2 
Conveyor interface: 2 
IR Sensor interface: 1 
Vacuum pump interface: 1

backpanel ned3pro

Digital inputs : Type NPN
[DI4]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

5

mA

Digital Outputs : Type PNP
[DO4]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

250

mA

Analog inputs
[AI1 – AI2]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

250

mA

Resolution

-

12

Bit

Analog outputs
[AO1, AO2]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

250

mA

Resolution

-

-

Bit

Interactivity

ROS2

An open-source framework designed for the development of advanced robotic software. It provides a robust and flexible environment for building, simulating, and deploying sophisticated robotic systems.

Python

A programming language celebrated for its simplicity and versatility, extensively used in various applications, including robotics.

Blockly

An open-source library for visual block-based programming, designed to simplify coding through intuitive drag-and-drop interfaces.

Matlab

A proprietary programming environment and language widely used in robotics for advanced numerical simulation and analysis.

PyNiryo

Library for controlling Niryo robots.

TensorFlow

An open-source framework used in robotics for machine learning tasks, enabling advanced model development and data analysis.

OpenCV

An open-source library for computer vision and image processing, offering powerful tools for analyzing and interpreting visual data.

Arduino

Electronics platform widely used in robotics for building
and controlling devices.

RoboDK

Software designed for robot simulation and programming, providing tools for offline programming, simulation, and optimization of robotic systems.

micro:bit

Hardware platform used in robotics and education for
programming and controlling devices.

Nvidia

Software and hardware solutions for robotics and AI.

Sizes and weight

Width: 200,00mm
Depth: 200mm
Height: 443,95mm
Weight: 7,4kg / 16,3 lbs

Width: 223,50mm
Depth: 436,22mm
Height: 223,50mm
Weight: 7kg

Robot: Ned2
Gripper: Custom
Power supply: 12V/7A
Emergency stop: Lorem
I/O Connectors: DI-DO/AO-A
Doc: Start guide

Wi-Fi: 2,4GHz & 5GHz
USB: 2.0 (1) – 3.0 (1)
Ethernet: RJ45 – 1Gb/s
Digital inputs: 3
Analog inputs: 2
Analog outputs: 2
Conveyor interface: 2
IR Sensor interface: 1
Vacuum pump interface: 1

Digital inputs : Type NPN
[DI1 – DI2 – DI3]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

5

mA

Analog input
[AI1 – AI2]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

20

mA

Resolution

-

12

bit

Digital inputs : Type NPN
[DI1 – DI2 – DI3]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

5

mA

Current

0

5

mA

Custom button
This button is programmable and allows the user to choose the type of action and the function of the button.

Save button A short press on this button saves the robot’s position on Niryo Studio.
Freemotion button Pressing and holding this button deactivates the torques in the motors and performs the FreeMotion operation
Gripper connector This connector is used to control the Custom Gripper, Large Gripper or Adaptive Gripper.
Electromagnet connector This connector is specifically for connecting Niryo’s electromagnet. There is also a digital input for connecting a sensor, for example. Programming the input/output can be done through Niryo Studio.

Digital inputs : Type NPN
[DI4]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

5

mA

Digital Outputs : Type PNP
[DO4]

Settings
Min
Max
Units

Voltage

0

5

V

Current

0

250

mA

ROS2

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Python

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Blockly

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Matlab

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PyNiryo

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TensorFlow

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OpenCV

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Arduino

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RoboDK

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micro:bit

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Nvidia

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