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Transformers
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
  • EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
EEL16 EEL19 CCFL Ferrite Core Flyback Transformer
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EEL16 EEL19 CCFL Ferrite Core Flyback Transformer

  • 10 - 999 Pieces
    $0.50
  • 1000 - 4999 Pieces
    $0.30
  • >= 5000 Pieces
    $0.20

Customization:

Customized logo(Min.Order: 10 pieces)
Customized packaging(Min.Order: 1000 pieces)
Graphic customization(Min.Order: 1000 pieces)
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EEL16 EEL19 CCFL Ferrite Core Flyback Transformer

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Frequency Power Conversion: Designed as a flyback transformer for efficient energy transfer in high-frequency circuits, ideal for applications like CCFL backlighting and power supply systems.
  • Autotransformer Configuration: Features a single-phase, copper-wound autotransformer structure for precise voltage regulation and minimal energy loss.
  • Toroidal Core Design: Utilizes a ferrite core in a toroidal configuration to minimize magnetic leakage and optimize inductive performance.

Key features

  • 1. Material Technology: Ferrite Core and Copper Windings

    • With a high-frequency-optimized ferrite core and copper windings, achieve minimal energy loss and superior thermal stability. The ferrite core reduces eddy current losses, making it ideal for high-frequency applications like CCFL backlighting, while copper ensures low resistance and efficient power transfer.

  • 2. Performance Parameters: Toroidal Structure for Enhanced Efficiency

    • With a toroidal coil design, reduce magnetic leakage by ~30% compared to conventional E-core transformers*, enabling higher efficiency and quieter operation. The flyback topology further supports fast energy storage and release, critical for power supplies and switching circuits.

  • 3. Scenario Solutions: Compact Design for Space-Constrained Applications

    • With a compact toroidal shape, integrate seamlessly into tight spaces in electronics like monitors, inverters, or LED drivers. The autotransformer configuration allows flexible voltage adjustments, adapting to varying power requirements without sacrificing performance.

  • 4. Interactive Design: Autotransformer Flexibility

    • With an autotransformer design, simplify voltage regulation by adjusting taps directly on the single winding. This eliminates the need for additional components, streamlining circuit design for applications such as adjustable power supplies or voltage stabilizers.

  • 5. Certification Standards: Industry-Compliant Materials

    • With materials meeting common safety and performance standards (e.g., RoHS compliance for lead-free soldering*), ensure compatibility with global electronics manufacturing requirements. The copper and ferrite core also align with eco-friendly material trends.

Product details

EEL16 EEL19 CCFL Ferrite Core Flyback Transformer

The EEL16/EEL19 CCFL Ferrite Core Flyback Transformer is a high-frequency power transformer designed for efficient energy storage and transmission in electronic circuits. Its toroidal coil structure and ferrite core ensure minimal magnetic leakage and optimal thermal performance, making it ideal for applications requiring precise power regulation and high-frequency operation.

Technical specifications

FeatureSpecificationBenefit
Material CompositionFerrite core, copper windingsHigh thermal stability and low energy loss
Coil StructureToroidal designReduced electromagnetic interference
Frequency RangeUp to 200 kHz (Pro Model)Supports high-frequency switching circuits
PhaseSingle phaseSimplified integration into standard systems
TopologyFlyback configurationEnables isolated power conversion
Inductance RangeCustomizable (10–100 µH)Adaptable to diverse power requirements

Customization guide

Adjustable inductance values and core materials to meet specific power density or thermal management requirements. For instance, modifying the ferrite core composition can enhance frequency response for high-speed applications.

Get inspired

Whether you're designing a compact power supply or a high-frequency circuit, the EEL series offers tailored solutions. Its toroidal design ensures minimal space占用 while maximizing efficiency, making it perfect for LED drivers, inverters, and industrial control systems.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Inductance Range10–50 µH+15% (10–57.5 µH)+30% (10–65 µH)*
Current Rating1 A1.5 A2 A
Frequency Response50 kHz100 kHz200 kHz
Saturation Current2 A3 A4 A
Thermal Resistance15°C/W12°C/W10°C/W

Supplier's note

  1. Technical Breakthroughs:

    • Ferrite Core Efficiency: The ferrite material reduces core losses by 25% compared to traditional iron cores, enabling stable operation at high frequencies.
    • Toroidal Geometry: The compact toroidal design cuts magnetic leakage by 40%, improving energy transfer efficiency.
    • Copper Windings: High-purity copper ensures minimal resistive losses, supporting up to 20% higher current capacity than aluminum alternatives.

  2. Version Selection Guidance:

    • Base Model: Ideal for standard power supplies (e.g., consumer electronics) where cost optimization is critical.
    • Advanced Model: Suited for high-frequency applications (e.g., LED backlighting) requiring enhanced thermal and current handling.
    • Pro Model: Designed for industrial systems (e.g., server power supplies) demanding extreme reliability and 40% higher frequency capability than industry benchmarks.

With the toroidal coil structure, you can minimize electromagnetic interference in sensitive circuits. With the Pro Model’s 200 kHz frequency response, you can achieve seamless operation in high-speed switching environments.

Frequently asked questions

  • Which EEL16 or EEL19 CCFL Ferrite Core Transformer is best suited for high-frequency power supply applications?

  • How do I maintain the ferrite core flyback transformer to prevent degradation in high-temperature environments?

  • What are the advantages of ferrite core material over iron cores in flyback transformers?

  • Can KAHOOLI customize the inductance or core material of the EEL series flyback transformers for specialized power systems?

  • Is the EEL19 flyback transformer RoHS-compliant and suitable for medical-grade power applications?

  • Are the EEL series autotransformers compatible with single-phase inverters in renewable energy systems?

  • Why are copper windings preferred in KAHOOLI’s ferrite core transformers over aluminum alternatives?

  • What applications are best suited for the toroidal coil structure of the EEL series transformers?

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