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NablaBe Innovation B.V.

NablaBe Innovation B.V. provides tailor-made electromechanical design solutions for mechatronic systems. Our target customers are typically from high-tech industries such as semiconductor, medical, energy, transportation and consumer products. Our services range from consultancy support to full design and development projects.

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Competences

- Magnetic Levitation Systems
- High Precision System Actuators
- Magnetic & Electrostatic Systems
- Wireless Power Transfer
- Energy Harvesters
- Motors & Generator
- Mechatronics System Architecture

... and collaborating partners when complementary competences are needed

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...with expertise in

- Electromagnetics
- Mechatronics
- Finite Element Analysis
- Optimization & Numerical Methods
- Electrical motor/actuator control
- Drive Electronics
- Thermal Analysis

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Our services

Ranging from consultancy support to full design and development projects our services include:
-Design of Tailor-made Magnetic Levitation Actuators
-Design of Tailor-made High Precision System Actuators
-Magnetic and Electrostatic design for various applications
-Wireless Power Transfer System Design
-Energy Harvester Design
-Motor/Generator Design and Choice for your needs

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NablaBe? What does that mean?

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NablaBe is how the left-hand-side term of the second equation of the Maxwell's Equations system reads. The inverted Greek delta, referred to as Nabla in Hellenistic Greek, implies the mathematical divergence operator.

Also known as the Gauss's law for magnetics, this equation essentially defines the set of physical possibilities in magnetics.

NablaBe is how the left-hand-side term of the second equation of the Maxwell's Equations system reads. The inverted Greek delta, referred to as Nabla in Hellenistic Greek, implies the mathematical divergence operator.

Also known as the Gauss's law for magnetics, this equation essentially defines the set of physical possibilities in magnetics.

NablaBe is how the left-hand-side term of the second equation of the Maxwell's Equations system reads. The inverted Greek delta, referred to as Nabla in Hellenistic Greek, implies the mathematical divergence operator.

Also known as the Gauss's law for magnetics, this equation essentially defines the set of physical possibilities in magnetics.

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NablaBe Innovation provides tailor-made designs and expert advice for your choices of

Magnetic Levitation Actuators

High Precision System Actuators

Magnetic & Electrostatic Solutions

Energy Harvesters

Motors and Generators

Wireless Power Transfer Systems

Mechatronics System Architecture