PACK OF 2000 PIECES
The NL2520T68NK is an inductor in a 1008 package size, featuring an inductance value of 6.8 microhenries (µH). It's designed for surface-mount technology (SMT) applications and is particularly suitable for various electronic circuits that require a moderately high inductance.
Key Features and Benefits:
Inductance (6.8µH): The inductance value of 6.8 microhenries is ideal for a range of applications, such as energy storage, filtering, and noise suppression in electronic circuits. It is especially effective in power supply circuits and RF applications where a higher inductance is required for efficient operation.
Package (1008 SMD): The 1008 package is a compact size for surface-mounted inductors, offering a balance between small physical size and adequate inductance capacity. This makes it versatile for use in space-constrained PCB designs.
Model (NL2520T68NK): This specific model number, NL2520T68NK, precisely identifies the inductor's characteristics, ensuring accurate selection for electronic designs that need specific inductance values.
In summary, the NL2520T68NK inductor, with its 6.8µH inductance and 1008 SMD package size, is a suitable and effective component for a wide range of electronic applications. Its size and inductance value make it particularly useful in power management systems and RF circuits.
PACK OF 2000 PIECES
The NL2520T39NK is an inductor in a 1008 package size, characterized by an inductance value of 3.9 microhenries (µH). This inductor is designed for surface-mount technology (SMT) applications and is well-suited for various electronic circuits where a moderate inductance value is required.
Key Features and Benefits:
Inductance (3.9µH): The 3.9 microhenry inductance is suitable for use in a range of applications, including filtering, energy storage, and noise suppression in electronic circuits. This value is particularly useful in power supply circuits and RF applications.
Package (1008 SMD): The 1008 package is a compact size for surface-mounted inductors, making it a good choice for space-constrained PCB designs. It offers a balance between physical size and inductance capacity, providing versatility in various electronic applications.
Model (NL2520T39NK): This specific model number identifies the inductor's characteristics, ensuring precise selection for electronic designs that require specific inductance values.
In summary, the NL2520T39NK inductor is a reliable and versatile component, ideal for a wide range of applications. Its 3.9µH inductance and 1008 SMD package size make it suitable for use in various electronic circuits, especially in power management and RF systems where a specific inductance value is essential for optimal performance.
COST PER PIECE
The T2 ETD 34 is an E-type ferrite core, a popular choice for use in transformers and inductors, particularly in power conversion and supply applications. The designation "34/17/11" refers to the core's dimensions, indicating its size and geometry.
E-Type Core: The "E" shape of the core is designed to provide optimal magnetic coupling and minimize magnetic flux leakage. This shape is efficient for inductors and transformers as it allows for easy winding of coils and effective magnetic path closure.
Dimensions (34/17/11): These numbers typically represent the dimensions of the core in millimeters. The first number (34) could indicate the length of the center limb, the second number (17) the width, and the third number (11) the height of the core, though the exact meaning may vary based on the manufacturer's specification.
Material (Ferrite): Made of ferrite, this core offers high magnetic permeability combined with low electrical conductivity, making it ideal for high-frequency applications where eddy current losses need to be minimized.
Applications: E-type ferrite cores like the T2 ETD 34 are widely used in switch-mode power supplies, power transformers, and various types of inductors. Their design is particularly suited for applications requiring efficient power transfer and compact size.
Model (T2 ETD 34): This specific model designation helps in identifying the core's particular design and material characteristics as defined by the manufacturer.
The T2 ETD 34 E-type ferrite core is essential in electronic designs where efficient magnetic performance and minimization of losses at high frequencies are crucial. Its specific design and material properties make it a versatile component in various power electronic applications.
The T2 EE 19 is an EE-type ferrite core, a common component in electronic circuits, particularly used in transformers and inductors. The designation 'EE' refers to the shape of the core, which is efficient for magnetic coupling and minimizing flux leakage.
EE-Type Core: The EE core shape consists of two 'E' shaped pieces that fit together, forming a closed magnetic path. This design is effective for creating transformers and inductors with high inductance values and is efficient in terms of magnetic flux management.
Model (T2 EE 19): The model number 'T2 EE 19' identifies the specific design, size, and material characteristics of the ferrite core as defined by the manufacturer. The exact dimensions and properties should be referenced from the manufacturer's datasheet.
Applications: EE-type ferrite cores like the T2 EE 19 are commonly utilized in making transformers and inductors for electronic devices. They are particularly suited for power transformers in switch-mode power supplies, as well as in various types of inductors in power electronic circuits.
Features: The EE core design is known for its ability to efficiently handle magnetic fields and minimize electromagnetic interference. This makes it a preferred choice in circuits where precise magnetic flux control is essential.
The T2 EE 19 ferrite core is essential in applications where efficient energy transfer and minimal magnetic losses are crucial. It's particularly valuable in compact power electronic devices where space efficiency and effective magnetic performance are key requirements.
PACK OF 500 PIECES
The T12.7X7.92X6.35C is a toroid core made of material P4, with dimensions of 12.7mm in outer diameter, 7.92mm in inner diameter, and a height of 6.35mm. Toroid cores are used in a variety of electronic applications, primarily for inductors and transformers.
Material (P4): The designation 'P4' refers to the specific material composition of the toroid core. The properties of this material, such as permeability, saturation, and frequency response, determine its suitability for different applications. P4 material is typically used for its magnetic properties that are well-suited to certain frequencies and power levels.
Dimensions:
Outer Diameter (12.7mm): The outer diameter of the toroid is 12.7mm.
Inner Diameter (7.92mm): The inner diameter is 7.92mm.
Height (6.35mm): The height or thickness of the toroid is 6.35mm.
Applications: Toroid cores made of P4 material are commonly used in making inductors and transformers in power supplies, RF circuits, and other electronic devices. They are preferred in applications where efficiency and minimal electromagnetic interference are crucial.
Efficiency and EMI Reduction: Toroid cores are efficient in containing the magnetic field within the core material, which minimizes electromagnetic interference (EMI). This makes them ideal for use in close proximity to sensitive electronic circuits.
Usage: These cores are particularly effective in high-frequency applications, where their shape and material properties help to maintain inductance with minimal losses.
The T12.7X7.92X6.35C toroid core, with its P4 material and specific dimensions, is suitable for a wide range of applications where efficient magnetic performance and minimal interference are required. The choice of the P4 material suggests it is tailored for applications where its particular magnetic properties are advantageous, such as in RF applications or power electronics.
PACK OF 1000 PIECES
The P4T9.53X4.75X3.2 is a toroid core made from P4 material, with dimensions of 9.53mm in outer diameter, 4.75mm in inner diameter, and a height of 3.2mm. Toroid cores of this kind are frequently utilized in various electronic applications, especially in the construction of inductors and transformers.
Material (P4): The 'P4' material designation refers to the specific magnetic properties of the toroid core. This material is typically chosen for its permeability and saturation characteristics, suited to specific electronic applications.
Dimensions:
Outer Diameter (9.53mm): The outer diameter of the toroid is 9.53mm, which indicates its overall size.
Inner Diameter (4.75mm): The inner diameter is 4.75mm, specifying the size of the central hole of the toroid.
Height (3.2mm): The height or thickness of the toroid is 3.2mm.
Applications: Toroid cores made from P4 material are often used in making inductors and transformers for applications such as power supplies, RF (Radio Frequency) circuits, and other electronic devices where efficient magnetic performance and minimal electromagnetic interference (EMI) are critical.
Efficiency and EMI Reduction: Due to their design, toroid cores are efficient at containing the magnetic field within the core material, which helps to minimize EMI. This is particularly advantageous in scenarios where the core is placed in proximity to sensitive electronic circuits.
Usage: The specific shape and material properties of these toroid cores make them suitable for high-frequency applications, aiding in maintaining inductance with minimal energy losses.
The P4T9.53X4.75X3.2 toroid core, with its P4 material and precise dimensions, is ideal for applications requiring efficient magnetic performance and reduced interference. The use of P4 material indicates its suitability for specific requirements, possibly including RF applications or power electronics, where its magnetic characteristics are beneficial.
PACK OF 2000 PIECES
The described component is a toroid core with an initial permeability (Al value) of 2090, coated with Parylene, and dimensions of 7.62x3.18x4.8 millimeters. Toroid cores are commonly used in electronic circuits for inductors and transformers.
Al Value (2090): The initial permeability (Al value) of 2090 indicates the magnetic permeability of the core material, which is a measure of the material’s ability to conduct magnetic flux. A higher Al value suggests that the core can support a higher magnetic field with less winding turns.
Parylene Coating: Parylene is a polymer used for coating electronic components, providing a protective layer that is chemically and mechanically stable. It offers excellent moisture, chemical, and dielectric barrier properties, making it suitable for enhancing the durability and performance of the core in harsh environments.
Dimensions (7.62x3.18x4.8mm): The dimensions specify the size of the toroid core. In this case, the toroid has an outer diameter of 7.62mm, an inner diameter of 3.18mm, and a height of 4.8mm. The size of the core affects its inductance and current handling capabilities.
Applications: Toroid cores like this are used in a variety of applications, including power supply transformers, inductors in electronic circuits, and noise suppression components. They are preferred for their efficiency in magnetic field containment and minimal electromagnetic interference.
Features: Toroid cores offer high inductance per turn, efficient energy use, and reduced electromagnetic interference compared to other core shapes. The Parylene coating enhances environmental protection and electrical insulation.
The P4T7.62X3.18X4.8 toroid core, with its specific Al value, Parylene coating, and compact dimensions, is a suitable choice for electronic applications requiring efficient and stable inductance with minimal interference and enhanced durability.
COST PER PIECE
The P4T25X15X10C is a toroid core made of P4 material, featuring dimensions of 25mm in outer diameter, 15mm in inner diameter, and a height of 10mm. Toroid cores of this type are commonly used in various electronic applications, particularly for constructing inductors and transformers.
Material (P4): The P4 material designation refers to the specific magnetic properties of the toroid core. This material is selected for its permeability, saturation, and frequency response characteristics, which are suitable for certain types of electronic applications.
Dimensions:
Outer Diameter (25mm): The outer diameter of the toroid is 25mm, indicating its overall size.
Inner Diameter (15mm): The inner diameter is 15mm, which is the size of the central opening of the toroid.
Height (10mm): The height or thickness of the toroid is 10mm.
Applications: Toroid cores made of P4 material are typically used in the construction of inductors and transformers in applications such as power supplies, RF circuits, and other electronic devices where efficiency and minimal electromagnetic interference (EMI) are important.
Efficiency and EMI Reduction: Toroid cores are known for their efficiency in containing the magnetic field within the core, which helps to reduce EMI. This feature is particularly beneficial in applications where the core is used near sensitive electronic components.
Usage: The shape and material properties of toroid cores make them effective for use in high-frequency applications, where they help to maintain inductance with minimal losses.
The P4T25X15X10C toroid core, with its P4 material and specified dimensions, is well-suited for applications requiring efficient magnetic performance and low interference. The selection of P4 material suggests that it is optimized for specific applications, potentially including RF applications or power electronics, where its magnetic properties provide an advantage.
PACK OF 280 PIECES
The P4EE25/19 is an EE-type ferrite core with an initial permeability (Al value) of 1800, sized at 1/4 inch. This specific type of core is frequently used in various electronic applications, particularly in transformers and inductors.
EE-Type Core: The EE shape is characterized by its paired E-shaped sections that form an efficient closed magnetic circuit, minimizing magnetic flux leakage. This design is beneficial for achieving high inductance with a lower number of coil turns.
Initial Permeability (Al-1800): The initial permeability (Al value) of 1800 indicates the core's ability to conduct magnetic flux. A higher Al value suggests better magnetic properties, making it suitable for applications requiring high inductance.
Size (1/4 inch): The size specification of 1/4 inch typically refers to the core's dimensions, though the exact meaning (such as length, width, or height) should be verified based on the manufacturer's datasheet.
Model (P4EE25/19): This model designation helps in identifying the specific design and material characteristics of the ferrite core, as defined by the manufacturer.
Applications: EE-type ferrite cores like the P4EE25/19 are widely used in power transformers, inductors, and other magnetic components in electronic circuits. Their closed-loop design is particularly effective for power transfer in switch-mode power supplies and other power electronic devices.
Features: EE-type cores are preferred for their efficient magnetic path, high inductance values, and minimal core losses, especially in high-frequency applications.
The P4EE25/19 EE-type ferrite core, with its high initial permeability and compact size, is a key component in electronic designs where efficient magnetic performance and inductance are required, especially in compact and efficient power supply circuits.
COST PER PIECE
The P47EE19 is a ferrite core, a type of magnetic core made of ferrite, which is used in electronic components such as transformers and inductors. Ferrite cores are widely chosen for their magnetic properties, particularly in high-frequency applications.
Material (Ferrite): Ferrite cores are made from a class of ceramic, ferromagnetic material composed of iron oxides combined with nickel, zinc, and/or manganese compounds. They are characterized by their high electrical resistivity and substantial magnetic permeability, which makes them efficient at preventing eddy current losses at high frequencies.
Core Type (P47EE19): The designation 'P47EE19' specifies a particular size and shape of the ferrite core. These specifications are important as they determine the core's inductance, maximum current capacity, and the type of applications it is suitable for.
Applications: Ferrite cores like the P47EE19 are commonly used in transformers, inductors, and other electromagnetic components within electronic devices. They are particularly effective in power supplies, RF applications, and for noise suppression purposes.
Efficiency in High-Frequency Circuits: Due to their high magnetic permeability and low electrical conductivity, ferrite cores are excellent for use in high-frequency applications. They help in reducing electromagnetic interference (EMI) and improving the efficiency of transformers and inductors by minimizing core losses.
Usage: In transformers and inductors, these cores serve to guide and confine magnetic fields, thus enhancing the efficiency of these components. They are particularly useful in switch-mode power supplies, antenna rods, and RF transformers.
The P47EE19 ferrite core is an essential component in the design of electronic circuits where managing high-frequency signals and minimizing EMI are crucial. Its specific material and design properties make it suitable for a variety of applications in both power electronics and signal processing.
PACK OF 1000 PIECES
The A121T7.62X3.18X4 is a toroid core characterized by its dimensions: an outer diameter of 7.62mm, an inner diameter of 3.18mm, and a height of 4.8mm. Toroid cores are commonly used in electronic circuits for applications such as inductors and transformers.
Dimensions:
Outer Diameter (7.62mm): The outer diameter of the toroid is 7.62mm.
Inner Diameter (3.18mm): The inner diameter is 3.18mm.
Height (4.8mm): The height or thickness of the toroid is 4.8mm.
Toroid Core Usage: Toroid cores are widely used in electronic circuits for constructing inductors, transformers, and other magnetic components. They are preferred for their high efficiency and minimal electromagnetic interference.
Applications: These cores are ideal for compact power supplies, electronic filters, and radio frequency (RF) devices. They are also used in noise reduction circuits and for energy storage in power electronics.
Material: While the specific material composition is not indicated in the description, toroid cores can be made from various magnetic materials, including ferrite, iron powder, or amorphous metals, each offering different magnetic properties suitable for specific applications.
Features: Toroid cores are known for their high inductance per turn, efficient containment of the magnetic field within the core, and reduced electromagnetic interference (EMI) compared to other core shapes.
The A121T7.62X3.18X4 toroid core, with its specific dimensions, is suitable for a range of electronic applications where compact and efficient magnetic components are required. The choice of material (not specified here) would further define its suitability for specific applications, particularly in terms of frequency response and power handling.
PACK OF 100 PIECES
The RLB0914-681KL is an inductor with a substantial inductance value of 680 millihenries (mH), a current rating of 1 ampere (A), a resistance of 0.49 ohms (Ω), and a tolerance of 20%. This inductor is designed for use in electronic circuits where a high inductance with moderate current handling and specific resistance is needed. The specifications of the RLB0914-681KL make it well-suited for a range of applications, particularly in scenarios requiring significant inductance, such as in filtering, signal processing, and energy storage applications.
Inductance (680mH): The high inductance of 680 millihenries is ideal for applications that require substantial energy storage, effective filtering, and impedance matching.
Current Rating (1A): With a current rating of 1 ampere, this inductor can handle moderate current loads, making it suitable for various power and signal processing applications.
Resistance (0.49Ω): The resistance of 0.49 ohms plays a role in the inductor's performance, particularly in power loss and efficiency considerations within the circuit.
Tolerance (20%): The 20% tolerance indicates the range of variation in the inductance value, providing flexibility in its application across various electronic designs.
Model (RLB0914-681KL): The model number RLB0914-681KL accurately specifies the inductor's characteristics, ensuring proper selection and integration into electronic circuits.
Applications: Often used in power supplies, RF circuits, and electronic devices requiring high inductance for filtering, energy storage, or impedance matching.
Features: Known for its high inductance value, moderate current rating, and specific resistance, the RLB0914-681KL inductor is designed to offer stable and efficient performance in targeted electronic applications.
In summary, the RLB0914-681KL inductor, with its 680mH inductance, 1A current rating, 0.49Ω resistance, and 20% tolerance, is a key component for electronic systems that require high inductance and efficient performance in specific electrical environments.
PACK OF 100 PIECES
The RL855-103K-RC is a radial inductor with a very high inductance value of 1000 millihenries (mH) and a tolerance of ±10%. It has a rated direct current (IDC) of 81 milliamperes (mA). This inductor is designed for applications that require a substantial inductance with precise tolerances, especially in scenarios where low current handling is sufficient. The radial design facilitates ease of mounting on printed circuit boards, making it suitable for various electronic circuits.
Inductance (1000mH, ±10%): The high inductance of 1000 millihenries with a tolerance of ±10% provides significant energy storage, filtering capabilities, and impedance matching in various circuit applications.
Rated Current (IDC 81mA): With a rated direct current of 81 milliamperes, this inductor is capable of handling low current levels, suitable for signal processing, RF applications, and power supply circuits with minimal current requirements.
Model (RL855-103K-RC): The model number RL855-103K-RC precisely identifies the inductor's specifications, ensuring the correct selection for compatibility and optimal performance in its intended application.
Applications: Commonly used in RF circuits, power supplies, signal processing, and electronic devices where high inductance at specific current levels is critical.
Features: Known for its high inductance value with a tight tolerance, low current rating, and radial form factor, the RL855-103K-RC inductor is designed for stable performance in electronic applications requiring significant inductance in low-current environments.
In summary, the RL855-103K-RC radial inductor, with its 1000mH inductance, 10% tolerance, and 81mA rated current, is an essential component for electronic designs that require precise high inductance in scenarios involving low current handling.
The HGL-0047 is an inductor with an inductance value of 47 microhenries (µH) with a tolerance of ±15%, designed to operate effectively at a frequency of 1kHz and with a rated DC current of 1.9 amperes (A). This inductor is suited for applications that require a moderate inductance with precise tolerances, particularly in scenarios where performance at a specific frequency and current handling capability are essential.
Inductance (47µH ±15%): The 47µH inductance, with a tolerance of ±15%, provides the necessary energy storage and filtering capabilities for a range of applications, ensuring flexibility and efficiency in circuit performance.
Frequency (1kHz): Optimized for operation at 1kHz, this inductor is ideal for applications that work within or around this frequency range, ensuring optimal performance in specific electrical environments.
Current Rating (1.9A): With a rated DC current of 1.9 amperes, the HGL-0047 can handle a significant amount of current, making it suitable for various power regulation and signal processing applications.
Model (HGL-0047): The model number HGL-0047 precisely identifies the inductor's specifications, ensuring the correct application and compatibility in its intended use.
Applications: Frequently used in power supplies, signal processing, RF applications, and electronic circuits where specific inductance values at certain frequencies and current handling are critical.
Features: Known for its specific inductance value with a tight tolerance, optimized frequency performance, and substantial current handling capability, the HGL-0047 inductor is designed for reliable and efficient performance in targeted electronic applications.
In summary, the HGL-0047 inductor, with its 47µH inductance at ±15% tolerance, optimized for 1kHz frequency and capable of handling 1.9A of DC current, is an essential component for electronic designs that require precise inductance performance in specific frequency and current conditions.
The HGB-0010 is a high-current inductor with an inductance value of 100 microhenries (µH) and a current rating of 20 amperes (A). This inductor is designed for applications that require a significant inductance with a high current carrying capacity. The specifications of the HGB-0010 make it well-suited for power supply and filtering applications, particularly in scenarios where efficient energy storage and high current handling are necessary. Inductance (100µH): The 100µH inductance is ideal for filtering, energy storage, and impedance matching in various electronic circuits, especially in power-related applications. Current Rating (20A): With a high current rating of 20A, this inductor can handle substantial current loads, making it suitable for power supply circuits, DC-DC converters, and other high-current applications. Model (HGB-0010): The model number HGB-0010 accurately identifies the inductor's specifications, ensuring the correct selection for compatibility and optimal performance in its intended application. Applications: Often used in power electronics, including power supplies, DC-DC converters, and high-current filtering applications. It's also suitable for industrial, automotive, and consumer electronic devices where robust power handling is crucial. Features: Known for its high inductance value, significant current handling capacity, and reliability, the HGB-0010 inductor is designed to offer effective performance in demanding electrical environments.In summary, the HGB-0010 inductor, with its 100µH inductance and 20A current rating, is a crucial component for electronic systems that demand efficient energy storage and high-current handling capabilities, particularly in power supply and filtering applications.
The 744 732100 is a fixed inductor with an inductance value of 10 microhenries (µH), a current rating of 4 amperes (A), and a resistance of 33 milliohms (mΩ). This inductor is designed for use in electronic circuits where precise inductance is necessary, especially in applications involving power supply, filtering, and signal processing.
Inductance (10µH): The 10µH inductance provides effective filtering, energy storage, and impedance matching capabilities in various circuit applications.
Current Rating (4A): With a current rating of 4 amperes, this inductor can handle significant current loads, making it suitable for power supply applications and other high-current scenarios.
Resistance (33mΩ): The low resistance value of 33 milliohms minimizes power loss and improves efficiency in the circuit, which is particularly important in power conversion and regulation applications.
Model (744 732100): The model number 744 732100 precisely identifies the inductor's specifications, ensuring proper selection for compatibility and optimal performance in its intended application.
Applications: Commonly used in power supplies, DC-DC converters, filtering applications, and signal processing circuits. It's suitable for industrial, automotive, and consumer electronic devices where power handling and efficiency are crucial.
Features: Known for its precise inductance value, high current handling capacity, and low resistance, the 744 732100 inductor is designed to provide stable inductance in a variety of electronic applications.
In summary, the 744 732100 fixed inductor, with its 10µH inductance, 4A current rating, and 33mΩ resistance, is a key component for electronic designs that require precise inductance, high current handling, and low power loss.
