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| Brand Name: | ZXY |
| Model Number: | ZXY-EFD20 |
| MOQ: | Negotiable |
| Price: | Negotiable |
| Packaging Details: | Carton |
| Payment Terms: | T/T |
The EFD20 Horizontal HF Transformer with Iron Case is a specialized electrical component designed for high - frequency applications. With the EFD20 size designation, it offers a compact yet efficient form factor suitable for various circuit designs. Its horizontal configuration makes it convenient for integration into printed circuit boards, saving valuable space. The iron case not only provides robust mechanical protection to the internal winding and core but also acts as a shield, reducing electromagnetic interference (EMI) and enhancing the transformer's performance in noisy electrical environments. This type of transformer is widely used in power - conversion circuits, such as those in switching power supplies, inverters, and high - frequency communication equipment, where reliable and efficient high - frequency energy transfer is crucial.
| Material | Advantage |
| Core Material (e.g., Ferrite) | High Magnetic Permeability: Ferrite cores used in the EFD20 Horizontal HF Transformer have a high magnetic permeability. This property allows the core to efficiently guide and concentrate the magnetic flux generated by the winding. As a result, the transformer can transfer electrical energy at high frequencies with minimal loss. In high - frequency power - conversion circuits, such as those in switching power supplies, the high magnetic permeability of the ferrite core enables efficient transformation of electrical power, reducing energy wastage and improving overall power - conversion efficiency.Low Core Loss at High Frequencies: Ferrite materials are specifically designed to have low core losses at high frequencies. Core losses, which include hysteresis and eddy - current losses, can significantly impact the performance of a transformer operating at high frequencies. The low core loss of ferrite in this EFD20 transformer ensures that less energy is dissipated as heat, keeping the transformer cool during operation. This is crucial for maintaining the long - term reliability and stability of the transformer, especially in applications where continuous high - frequency operation is required, like in high - frequency communication equipment. |
| Winding Material (e.g., Copper) | High Electrical Conductivity: Copper is widely used for the winding of the EFD20 transformer due to its excellent electrical conductivity. With high conductivity, copper allows electrical current to flow through the winding with minimal resistance. This results in reduced power losses in the form of heat generation. In a switching power supply, the low - resistance copper winding helps to transfer electrical energy more efficiently, improving the overall efficiency of the power - supply system. The lower the resistance of the winding, the less power is wasted as heat, leading to a more energy - efficient transformer.Good Thermal Conductivity: Besides its electrical conductivity, copper also has good thermal conductivity. This property is beneficial for dissipating the heat generated during the transformer's operation. As the transformer conducts electrical current, some heat is inevitably produced due to the resistance of the winding. The good thermal conductivity of copper enables the heat to be quickly transferred away from the winding, helping to maintain the operating temperature of the transformer within a safe range. In high - power applications, such as inverters, the efficient heat dissipation provided by the copper winding helps to prevent overheating and ensures the reliable operation of the transformer. |
| Iron Case Material | Mechanical Protection: The iron case of the EFD20 Horizontal HF Transformer offers robust mechanical protection to the internal components. It can withstand external impacts, vibrations, and shocks, safeguarding the delicate winding and core from physical damage. In industrial applications, where the transformer may be subject to rough handling or vibrations from nearby machinery, the iron case provides a strong barrier, ensuring the integrity of the transformer and minimizing the risk of component failure due to mechanical stress.Electromagnetic Shielding: Iron is a ferromagnetic material with excellent electromagnetic shielding properties. The iron case acts as a shield, effectively reducing electromagnetic interference (EMI) both from the transformer to the surrounding environment and from external sources to the internal components of the transformer. In a noisy electrical environment, such as in a data - center power - distribution system, the electromagnetic shielding provided by the iron case helps to maintain the performance of the transformer by preventing external EMI from interfering with its operation and also prevents the transformer from emitting unwanted EMI that could disrupt other sensitive electronic devices in the vicinity. |
| Product Name | TYPE | Detailed Type |
| High frequency transformers | EE | EE8.3, EE10, EE13, EE16, EE19, EE20, EE25, EE28, EE30, EE33, EE40, EE42, EE49, EE50, EE55, EE60, EE65, EE70, EE75, EE80, EE85 |
| EC/ER | ER/EC20, ER/EC25, ER/EC28, ER/EC28, ER/EC29, ER/EC35, ER/EC40, ER/EC42, ER/EC49 | |
| ETD | ETD29, ETD35, ETD40, ETD49 | |
| EF | EF16, EF20, EF25 | |
| EFD | EFD15, EFD20/21, EFD25/26, EFD30 | |
| EDR | EDR2009, EDR2037, EDR2809, EDR2828, EDR3012, EDR3909, EDR4008 | |
| EP | EP7, EP10, EP13 | |
| EPC | EPC11.5, EPC13, EPC19, EPC25 | |
| EQ | EQ2512, EQ2610, EQ3209, EQ4013, | |
| POT | POT3016, POT3930 | |
| PQ | PQ2016, PQ2020, PQ2625, PQ2620, PQ3225, PQ3520, PQ3525, PQ3535, PQ4040, PQ49 | |
| RM | RM6, RM8, RM10, RM12, RM14 |
|
| Brand Name: | ZXY |
| Model Number: | ZXY-EFD20 |
| MOQ: | Negotiable |
| Price: | Negotiable |
| Packaging Details: | Carton |
| Payment Terms: | T/T |
The EFD20 Horizontal HF Transformer with Iron Case is a specialized electrical component designed for high - frequency applications. With the EFD20 size designation, it offers a compact yet efficient form factor suitable for various circuit designs. Its horizontal configuration makes it convenient for integration into printed circuit boards, saving valuable space. The iron case not only provides robust mechanical protection to the internal winding and core but also acts as a shield, reducing electromagnetic interference (EMI) and enhancing the transformer's performance in noisy electrical environments. This type of transformer is widely used in power - conversion circuits, such as those in switching power supplies, inverters, and high - frequency communication equipment, where reliable and efficient high - frequency energy transfer is crucial.
| Material | Advantage |
| Core Material (e.g., Ferrite) | High Magnetic Permeability: Ferrite cores used in the EFD20 Horizontal HF Transformer have a high magnetic permeability. This property allows the core to efficiently guide and concentrate the magnetic flux generated by the winding. As a result, the transformer can transfer electrical energy at high frequencies with minimal loss. In high - frequency power - conversion circuits, such as those in switching power supplies, the high magnetic permeability of the ferrite core enables efficient transformation of electrical power, reducing energy wastage and improving overall power - conversion efficiency.Low Core Loss at High Frequencies: Ferrite materials are specifically designed to have low core losses at high frequencies. Core losses, which include hysteresis and eddy - current losses, can significantly impact the performance of a transformer operating at high frequencies. The low core loss of ferrite in this EFD20 transformer ensures that less energy is dissipated as heat, keeping the transformer cool during operation. This is crucial for maintaining the long - term reliability and stability of the transformer, especially in applications where continuous high - frequency operation is required, like in high - frequency communication equipment. |
| Winding Material (e.g., Copper) | High Electrical Conductivity: Copper is widely used for the winding of the EFD20 transformer due to its excellent electrical conductivity. With high conductivity, copper allows electrical current to flow through the winding with minimal resistance. This results in reduced power losses in the form of heat generation. In a switching power supply, the low - resistance copper winding helps to transfer electrical energy more efficiently, improving the overall efficiency of the power - supply system. The lower the resistance of the winding, the less power is wasted as heat, leading to a more energy - efficient transformer.Good Thermal Conductivity: Besides its electrical conductivity, copper also has good thermal conductivity. This property is beneficial for dissipating the heat generated during the transformer's operation. As the transformer conducts electrical current, some heat is inevitably produced due to the resistance of the winding. The good thermal conductivity of copper enables the heat to be quickly transferred away from the winding, helping to maintain the operating temperature of the transformer within a safe range. In high - power applications, such as inverters, the efficient heat dissipation provided by the copper winding helps to prevent overheating and ensures the reliable operation of the transformer. |
| Iron Case Material | Mechanical Protection: The iron case of the EFD20 Horizontal HF Transformer offers robust mechanical protection to the internal components. It can withstand external impacts, vibrations, and shocks, safeguarding the delicate winding and core from physical damage. In industrial applications, where the transformer may be subject to rough handling or vibrations from nearby machinery, the iron case provides a strong barrier, ensuring the integrity of the transformer and minimizing the risk of component failure due to mechanical stress.Electromagnetic Shielding: Iron is a ferromagnetic material with excellent electromagnetic shielding properties. The iron case acts as a shield, effectively reducing electromagnetic interference (EMI) both from the transformer to the surrounding environment and from external sources to the internal components of the transformer. In a noisy electrical environment, such as in a data - center power - distribution system, the electromagnetic shielding provided by the iron case helps to maintain the performance of the transformer by preventing external EMI from interfering with its operation and also prevents the transformer from emitting unwanted EMI that could disrupt other sensitive electronic devices in the vicinity. |
| Product Name | TYPE | Detailed Type |
| High frequency transformers | EE | EE8.3, EE10, EE13, EE16, EE19, EE20, EE25, EE28, EE30, EE33, EE40, EE42, EE49, EE50, EE55, EE60, EE65, EE70, EE75, EE80, EE85 |
| EC/ER | ER/EC20, ER/EC25, ER/EC28, ER/EC28, ER/EC29, ER/EC35, ER/EC40, ER/EC42, ER/EC49 | |
| ETD | ETD29, ETD35, ETD40, ETD49 | |
| EF | EF16, EF20, EF25 | |
| EFD | EFD15, EFD20/21, EFD25/26, EFD30 | |
| EDR | EDR2009, EDR2037, EDR2809, EDR2828, EDR3012, EDR3909, EDR4008 | |
| EP | EP7, EP10, EP13 | |
| EPC | EPC11.5, EPC13, EPC19, EPC25 | |
| EQ | EQ2512, EQ2610, EQ3209, EQ4013, | |
| POT | POT3016, POT3930 | |
| PQ | PQ2016, PQ2020, PQ2625, PQ2620, PQ3225, PQ3520, PQ3525, PQ3535, PQ4040, PQ49 | |
| RM | RM6, RM8, RM10, RM12, RM14 |
