| Customization: | Available |
|---|---|
| Application: | Power |
| Phase: | Three |
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At the heart of this transformative technology lies an amorphous alloy three-phase three-column structure, engineered to dramatically decrease no-load loss. This innovation effectively curtails the temperature-induced stress on transformer windings, slowing down the insulation medium's aging process. Furthermore, it minimizes the release of harmful gases such as CO, SO, and NO, rendering it a pivotal solution in the quest to reduce environmental pollution. Embrace a cleaner, more sustainable future with our advanced transformer technology.
Product Features
1. Discover the unparalleled efficiency of the CEEG Zig-Zag type amorphous alloy filter transformer, which employs proprietary "phase-shifting" technology to eradicate harmonics:
The ingenious "phase-shifting" process divides the power input into multiple outputs, each strategically angled to neutralize the targeted harmonics, achieving unparalleled harmonic filtration.
A meticulous phase shift of 60° is meticulously applied to eliminate the 3rd harmonic current between two three-phase outputs. To address the 5th and 7th harmonic currents, a precise phase shift of 30° is implemented, while a refined 15° phase shift is utilized for the 11th and 13th harmonic currents.
2. Embodying energy efficiency and high performance, this transformer incorporates an amorphous alloy core that slashes no-load loss by over 75% when compared to traditional transformers, setting a new standard in energy conservation.
3. Effortless operation and maintenance are assured with our innovative three-phase three-column technology, secured by patents, ensuring a user-friendly interface and seamless maintenance.
4. Ensuring paramount safety and reliability, this transformer is crafted for H-grade temperature rise, utilizing DuPont C-grade Nomex Paper as the core insulation material. Its robust overload capacity ensures consistent performance even under demanding conditions.
5. Prioritizing environmental sustainability, the transformer is designed for easy recyclability. Post-lifespan, valuable components like copper and iron are effortlessly recoverable, while other insulating materials are designed for natural degradation, aligning with eco-friendly practices.
6. Implementing neutral current suppression techniques, this transformer effectively curbs the adverse impact of unbalanced loads, enhancing system stability and efficiency.
7. Experience the marked reduction of harmonic current in the neutral line of low-voltage distribution systems, optimizing overall energy distribution and minimizing potential disruptions.
8. Significantly diminish the harmonic current content within the neutral line of a low-voltage distribution system, ensuring a more stable and efficient energy flow.
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