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| Brand Name: | ZXY |
| Model Number: | ZXY-6R8 |
| MOQ: | Negotiable |
| Price: | Negotiable |
| Packaging Details: | Carton |
| Payment Terms: | T/T |
The 6R8 SMD Shielded Power Inductor is a high - performance electronic component that plays a crucial role in power - related circuits. With an inductance value of 6.8 μH (6R8 represents 6.8 ohms in the context of inductance value notation in some industries), it is designed to handle specific power - management tasks efficiently. Its surface - mount - device (SMD) format allows for easy integration into printed circuit boards, saving valuable space, which is especially beneficial for modern, compact electronic devices. The shielding feature, typically made of magnetic or conductive materials, is a key advantage. It not only reduces the electromagnetic interference (EMI) that the inductor might emit, preventing it from disrupting other sensitive components on the circuit board, but also protects the inductor itself from external EMI sources. This makes it highly reliable in noisy electromagnetic environments. In power - supply circuits, it effectively stores and releases energy, helping to smooth out voltage fluctuations and filter out high - frequency noise, ensuring a stable and clean power output. Whether in consumer electronics like smartphones and tablets, or in industrial applications such as power converters and motor - control circuits, the 6R8 SMD Shielded Power Inductor proves to be an essential component for optimizing power - related performance and maintaining the overall stability of electronic systems.
| Feature | Description |
| Inductance Value | The 6R8 SMD Shielded Power Inductor has a nominal inductance value of 6.8 渭H. This specific inductance value makes it suitable for a wide range of applications where precise energy storage and release are required. In power - conversion circuits, such as DC - DC converters, this inductance value helps in maintaining a stable output voltage by efficiently storing and releasing electrical energy at the appropriate times. For example, in a smartphone's power - management system, the 6.8 渭H inductor can effectively regulate the power flow to different components, ensuring smooth operation even during high - load or low - load conditions. |
| SMD Package | Featuring a surface - mount - device (SMD) package, this inductor offers several advantages. Its compact size allows for easy integration into printed circuit boards (PCBs), saving valuable space. In modern, miniaturized electronic devices like wearable technology, where space is at a premium, the SMD design of the 6R8 inductor enables manufacturers to fit more components on a small PCB. The SMD package also simplifies the assembly process, as it can be easily soldered onto the PCB using automated surface - mount technology, increasing production efficiency and reducing the risk of human - error during assembly. |
| Shielded Structure | The inductor is equipped with a shielding structure, usually made of magnetic or conductive materials. This shielding plays a dual - role. Firstly, it significantly reduces the electromagnetic interference (EMI) emitted by the inductor. In a complex electronic system, such as a computer motherboard with multiple components in close proximity, the shielded 6R8 inductor prevents its own electromagnetic fields from interfering with other sensitive components, such as the Wi - Fi module or the Bluetooth chip. Secondly, the shielding protects the inductor from external EMI sources. In an industrial environment filled with strong electromagnetic fields generated by large motors and other heavy - duty equipment, the shielded inductor can maintain its performance without being affected by the external interference, ensuring reliable operation of the circuits it is part of. |
| Low Resistance | The 6R8 SMD Shielded Power Inductor is designed to have a low resistance. A low - resistance winding helps to minimize power losses in the form of heat generation. In power - supply circuits, where energy efficiency is crucial, the low resistance of this inductor allows for more efficient transfer of electrical power. For instance, in a high - power application like an industrial power converter, the low - resistance 6R8 inductor can reduce power losses, resulting in a more energy - efficient system. This not only saves electricity costs but also helps to keep the inductor and the surrounding components cool, enhancing the overall reliability and lifespan of the electronic device. |
| High Current Handling Capacity | It has a relatively high current handling capacity, which makes it suitable for applications that require the inductor to carry significant amounts of electrical current. In power - intensive devices such as high - end gaming laptops or power - hungry industrial motors, the 6R8 inductor can handle the large current demands without overheating or degrading in performance. The high current handling capacity is achieved through the use of high - quality materials and optimized winding designs, ensuring that the inductor can effectively store and release energy to meet the power requirements of these demanding applications. |
|
| Brand Name: | ZXY |
| Model Number: | ZXY-6R8 |
| MOQ: | Negotiable |
| Price: | Negotiable |
| Packaging Details: | Carton |
| Payment Terms: | T/T |
The 6R8 SMD Shielded Power Inductor is a high - performance electronic component that plays a crucial role in power - related circuits. With an inductance value of 6.8 μH (6R8 represents 6.8 ohms in the context of inductance value notation in some industries), it is designed to handle specific power - management tasks efficiently. Its surface - mount - device (SMD) format allows for easy integration into printed circuit boards, saving valuable space, which is especially beneficial for modern, compact electronic devices. The shielding feature, typically made of magnetic or conductive materials, is a key advantage. It not only reduces the electromagnetic interference (EMI) that the inductor might emit, preventing it from disrupting other sensitive components on the circuit board, but also protects the inductor itself from external EMI sources. This makes it highly reliable in noisy electromagnetic environments. In power - supply circuits, it effectively stores and releases energy, helping to smooth out voltage fluctuations and filter out high - frequency noise, ensuring a stable and clean power output. Whether in consumer electronics like smartphones and tablets, or in industrial applications such as power converters and motor - control circuits, the 6R8 SMD Shielded Power Inductor proves to be an essential component for optimizing power - related performance and maintaining the overall stability of electronic systems.
| Feature | Description |
| Inductance Value | The 6R8 SMD Shielded Power Inductor has a nominal inductance value of 6.8 渭H. This specific inductance value makes it suitable for a wide range of applications where precise energy storage and release are required. In power - conversion circuits, such as DC - DC converters, this inductance value helps in maintaining a stable output voltage by efficiently storing and releasing electrical energy at the appropriate times. For example, in a smartphone's power - management system, the 6.8 渭H inductor can effectively regulate the power flow to different components, ensuring smooth operation even during high - load or low - load conditions. |
| SMD Package | Featuring a surface - mount - device (SMD) package, this inductor offers several advantages. Its compact size allows for easy integration into printed circuit boards (PCBs), saving valuable space. In modern, miniaturized electronic devices like wearable technology, where space is at a premium, the SMD design of the 6R8 inductor enables manufacturers to fit more components on a small PCB. The SMD package also simplifies the assembly process, as it can be easily soldered onto the PCB using automated surface - mount technology, increasing production efficiency and reducing the risk of human - error during assembly. |
| Shielded Structure | The inductor is equipped with a shielding structure, usually made of magnetic or conductive materials. This shielding plays a dual - role. Firstly, it significantly reduces the electromagnetic interference (EMI) emitted by the inductor. In a complex electronic system, such as a computer motherboard with multiple components in close proximity, the shielded 6R8 inductor prevents its own electromagnetic fields from interfering with other sensitive components, such as the Wi - Fi module or the Bluetooth chip. Secondly, the shielding protects the inductor from external EMI sources. In an industrial environment filled with strong electromagnetic fields generated by large motors and other heavy - duty equipment, the shielded inductor can maintain its performance without being affected by the external interference, ensuring reliable operation of the circuits it is part of. |
| Low Resistance | The 6R8 SMD Shielded Power Inductor is designed to have a low resistance. A low - resistance winding helps to minimize power losses in the form of heat generation. In power - supply circuits, where energy efficiency is crucial, the low resistance of this inductor allows for more efficient transfer of electrical power. For instance, in a high - power application like an industrial power converter, the low - resistance 6R8 inductor can reduce power losses, resulting in a more energy - efficient system. This not only saves electricity costs but also helps to keep the inductor and the surrounding components cool, enhancing the overall reliability and lifespan of the electronic device. |
| High Current Handling Capacity | It has a relatively high current handling capacity, which makes it suitable for applications that require the inductor to carry significant amounts of electrical current. In power - intensive devices such as high - end gaming laptops or power - hungry industrial motors, the 6R8 inductor can handle the large current demands without overheating or degrading in performance. The high current handling capacity is achieved through the use of high - quality materials and optimized winding designs, ensuring that the inductor can effectively store and release energy to meet the power requirements of these demanding applications. |
