Discover advanced energy-saving solutions designed to optimize your electrical systems
Advanced electromagnetic filtering technology designed to optimize your electrical system, reduce energy consumption, and protect your valuable equipment.
Reduce energy consumption by up to 20%
Extends lifespan of electrical equipment
Lower carbon footprint and environmental impact
Quick setup with no downtime
Main electromagnetic filtering plate
Detailed instructions and support
Full coverage and support
Not magic, but magnetics and materials physics. Each mechanism is scientifically quantifiable and engineered to combat conducted emissions in the 150 kHz – 30 MHz spectrum.
At frequencies above 150 kHz, Denka®'s Ceramic Materials Mixture-based composition increases conductor impedance by 5-8Ω per phase, effectively attenuating high-frequency currents through Ohm's Law (V = IZ).
Selective impedance increase reduces conducted emissions without affecting 50/60Hz power delivery
Segmented design limits loop area, suppressing eddy currents induced by Faraday's Law (dΦ/dt). This reduces parasitic heating and stray current losses measured at 0.2-0.4% of load power.
Less parasitic heating = better efficiency and extended equipment life
Resistive layer provides distributed loss, preventing resonance amplification. In testing, resonance peaks at 9 MHz were reduced from -11 dB to -17 dB (6 dB improvement).
Prevents dangerous resonances that can damage sensitive equipment
Nanocrystalline alloys maintain low-loss behavior up to 50 MHz, improving attenuation by 3-4 dB in the 10-20 MHz band without thermal penalty.
Superior electromagnetic absorption across entire conducted emissions spectrum
The invisible threat to power quality that traditional filters can't address
High-frequency currents (150 kHz – 30 MHz) that circulate along conductors, originating from switching devices such as VFDs, inverters, SMPS, and welding machines.
They don't appear as harmonic distortion (THD) at 50/60 Hz, but create hidden parasitic losses, disturb control signals, and accelerate insulation wear.
Low-pass harmonic filters target ≤2 kHz, EMI filters work at machine terminals. Neither addresses system-wide 150 kHz-30 MHz emissions. Denka® fills this critical gap.
Total Harmonic Distortion (THD):
Measures distortion at 50/60 Hz and multiples up to 2-3 kHz
Denka® v2 Range:
Works at 150 kHz-30 MHz — outside THD measurement range
Conclusion: THD analyzers show no difference, but energy meters detect lower kWh consumption due to suppressed high-frequency losses
Denka® Plates deliver proven results in diverse electrical environments
Manufacturing facilities, data centers, automation systems
Enhanced performance, reduced downtime, process stability
Offices, shops, retail spaces
Improved power quality, lower energy bills, equipment protection
Solar inverters, wind turbines, battery systems
Optimized performance, extended equipment life, compliance
Hospitals, clinics, laboratories
Interference-free operation of sensitive equipment
Quantified benefits from verified installations and monitored facilities
kWh consumption reduction (site-dependent)
Cooler panels and busbars
Reduction in EMI-related trips
Annually per 1MW facility at 10% savings
Test Evidence: Baseline plates average 8 dB attenuation with +4.8°C heat rise.
Denka® v2 achieves 12 dB attenuation with only +3.2°C rise — 6-7 dB peak improvement
Nano-crystalline technology engineered for maximum performance and longevity
Independently tested and certified by leading international organizations
Belgium
Test Report
Switzerland
Case Study Report
International
Case Study Report
EU
Certification
Europe
Safety Standards
IEC
EMC Compliance
Environmental responsibility through passive technology and extended equipment life
10% energy savings in a 1 MW facility = ~800 tons CO₂ avoided annually
No active circuits, zero energy consumption from the device itself
60-year lifespan means fewer replacements and less electronic waste
Lightweight, recyclable ceramic/metal composite — radiation, asbestos, and halogen-free
