Vaionic

Inverter

Get in touch

Ethernet + Automotive CAN

Enhances communication reliability, real-time data exchange, scalability, wiring simplicity and diagnostic capabilities

SiC Inverter Up To 80 kHz Switching Frequency

Reduces ripple currents and enables ultra-low impedance motors with ironless stator design

Low Switching And Conduction Losses

Results in higher overall efficiency, maximizing the amount of power delivered to the load and minimizing energy waste

Flexible Hardware Design With Various Topologies

Facilitates integration with different power sources and control systems, providing versatility and adaptability in diverse operating environments

Max. switching frequency

Max. current

Max. DC-voltage

80 kHz

100 Arms

800 V

PARAMETERS

Max. DC-Voltage

Max. current

Max. inverter power

Max. base frequency

Switching frequency

Technology

Topology

Motor choke

Cooling

Communication

800 V

100 Arms

110 kVA*

up to 2800 Hz

20 - 80 kHz

SiC MOSFET

open winding, star, delta

integrated (optional)

Water cooling

CAN, Ethernet

*Corresponds to 96 kW @ cos(ϕ) = 0,87

Max. switching frequency

Max. current

Max. DC-voltage

30 kHz

380 Arms

800 V

PARAMETERS

Under development.

Max. DC-Voltage

Max. current

Max. inverter power

Max. base frequency

Switching frequency

Technology

Topology

Cooling

Communication

800 V

380 Arms

370 kVA*

up to 2200 Hz

10 - 30 kHz

SiC MOSFET

star, delta

Water cooling

CAN, Ethernet

*Corresponds to 322 kW @ cos(ϕ) = 0,87

Vaionic Inverter

Engineered for high performance and modularity, they support a wide range of configurations for various applications. Complete in-house development from hardware to software. Designed in 2 configurations:

High switching frequency inverter

Our Software & System Design

In-house developed solution individually designed for each application.

Dual Core Software Architecture with Inter Processor Communication

Field Orientated Motor Control (FoC)

Including active compensation of current harmonics to reduce losses and enhance efficiency

64 kHz and above Current Control

0 to full torque within 100 µs

Incremental Rotary Position Sensor (RPS) Support

With isolated interface

Automotive CAN

1 Mbit/s - Embedded Bootloader

Measurement & Calibration Capabilities

Basic XCP implementation (STIM/Poll) via CAN

Proprietary extended calibration interface via ethernet

Multi CTU ready for Scalability

Optimized Switching Frequency Selection

Increased efficiency, reduced losses

Controller Software

System Design

Flexible Hardware Designs for Various Topologies

Full bridge topology, interleaved bridge, B6C, multi-level

Allows Control of Very Low-Impedance Motors

Ideal for ironless axial flux motors / Vaionic motor

Extensive & Validated System Simulations

For control parameters design and power loss determination

Extensively Tested

Open & closed loop load tests, double-pulse tests

Motor Filter Design

Custom design for each application

Individually Designed Heat Sinks

Design using thermal flow simulations

Individually Designed Housing

Get in Touch

Have a project in mind?

Complete the form, and we’ll be in touch with you shortly.

Vaionic Technologies GmbH

James-Franck-Str. 17

12489 Berlin

contact@vaionic.de

+49 (0) 30 6392 1081