
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(Ï•) = 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

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