From measurement to optimized power systems
Monitoring and control provide the intelligence behind active capacitors, magnetics, and hybrid systems—enabling continuous optimization based on real system conditions.
Key messages
Real-time insight into system behavior
Adaptive optimization of DC-link performance
Enables full value of active technologies
What is Monitoring & Control?
Traditional power electronic systems operate with fixed component values and limited visibility into real operating conditions. This means performance is defined during design, not during operation.
Monitoring replaces this static approach by introducing:
real-time measurement
continuous data analysis
adaptive system control
The system actively tracks voltage, current, ripple, and harmonics, and uses this data to optimize performance dynamically.
In short:
Monitoring enables power electronics systems to understand their own behavior and continuously optimize operation in real time.
Beyond Passive – Data-Driven Control
Monitoring enables a fundamental shift:
From predefined behavior → to adaptive optimization
Key capabilities
Real-time tuning of inductance and capacitance
Detection of abnormal operating conditions
Optimization under load changes
Compensation for grid disturbances
Impact
higher performance consistency
reduced component stress
improved system efficiency
Monitoring is what enables intelligent power electronics
Application in Active Technologies
Active Capacitors
Monitoring enables:
voltage ripple detection
dynamic energy compensation
Value
reduced required capacitance
extended component lifetime
Active Magnetics
Monitoring enables:
current ripple tracking
harmonic control
Value
adaptive inductance
improved power quality
Monitoring ensures that all technologies operate at optimal performance at all times
Hybrid Systems
Monitoring enables:
coordination between current and voltage control
system-level optimization
Value
full DC-link optimization
maximum performance improvement
Work with us
Monitoring and control unlock the full potential of active capacitors, magnetics, and hybrid systems by enabling continuous optimization based on real operating data.
We work with partners to implement intelligent power systems where performance is defined by control—not by static component limits.