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Inductors, Coils, Chokes (121274)
Integrated Circuits (ICs) (596888)
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Shenzhen shuoshi Technology Co., Ltd
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VLCF4020T-150MR68
FIXED IND 15UH 680MA 303MOHM SMD
TDK Corporation
LQW18CNR16J00D
FIXED IND 160NH 1A 100 MOHM SMD
Murata Electronics
LQM2HPN2R2MG0L
FIXED IND 2.2UH 1.3A 100MOHM SMD
Murata Electronics
LQG15HS22NJ02D
FIXED IND 22NH 350MA 420MOHM SMD
Murata Electronics
7443551111
FIXED IND 11.3UH 11A 9.1MOHM SMD
Würth Elektronik
7447714470
FIXED IND 47UH 2.2A 99 MOHM SMD
Würth Elektronik
VLCF4020T-150MR68
FIXED IND 15UH 680MA 303MOHM SMD
TDK Corporation
Details
LQW18CNR16J00D
FIXED IND 160NH 1A 100 MOHM SMD
Murata Electronics
Details
LQM2HPN2R2MG0L
FIXED IND 2.2UH 1.3A 100MOHM SMD
Murata Electronics
Details
LQG15HS22NJ02D
FIXED IND 22NH 350MA 420MOHM SMD
Murata Electronics
Details
7443551111
FIXED IND 11.3UH 11A 9.1MOHM SMD
Würth Elektronik
Details
7447714470
FIXED IND 47UH 2.2A 99 MOHM SMD
Würth Elektronik
Details
VLCF4020T-220MR56
FIXED IND 22UH 560MA 431MOHM SMD
DFE18SAN1R0MG0L
FIXED IND 1UH 1.7A 128 MOHM SMD
VLS252012HBX-2R2M-1
FIXED IND 2.2UH 2.3A 102MOHM SMD
MAMK2520T3R3M
FIXED IND 3.3UH 1.7A 156MOHM SMD
LQW15AN2N2C10D
FIXED IND 2.2NH 1A 27 MOHM SMD
LQW15AN15NH00D
FIXED IND 15NH 460MA 160MOHM SMD
LQW15AN12NJ00D
FIXED IND 12NH 500MA 140MOHM SMD
744311100
FIXED IND 1UH 15A 4.6 MOHM SMD
7443556680
FIXED IND 6.8UH 18.5A 4.1MOHM SM
744770133
FIXED IND 33UH 3.2A 64 MOHM SMD
74438356033
FIXED IND 3.3UH 3.6A 48 MOHM SMD
744025002
FIXED IND 2.2UH 1.8A 66 MOHM SMD
Littelfuse Inc.
KYOCERA AVX
TDK Corporation
Murata Electronics
KEMET
Taiyo Yuden
Susumu
EPCOS - TDK Electronics
Hammond Manufacturing
Würth Elektronik
Schurter Inc.
American Technical Ceramics
Abracon LLC
Vishay Dale
Eaton - Electronics Division
Chilisin Electronics
Bourns Inc.
Samsung Electro-Mechanics
What is the main application direction of Inductor?
2023-07-19
Learn more >
What are the latest Inductor manufacturing processes?
2023-07-15
Learn more >
Inductor product training considerations
2023-07-15
Learn more >
What are the popular Inductor product types?
2023-07-14
Learn more >
B82422H1103K000
VLS3012HBX-220M
IFSC1515AHER1R0M01
DFE252012PD-1R0M=P2
744761147C
VLS6045EX-4R7M
MCKK2012TR47M
NR4018T1R0N
TFM160808ALC-R47MTAA
VLS201612CX-4R7M-1
VLS252012HBX-2R2M-1
NR3015T470M
LQH2MCN100K02L
CBC3225T101KR
NLV32T-100J-EF
BRL3225T2R2M
CBC3225T100KR
CBC3225T330KR
LQM21PN2R2NGCD
CBMF1608T220K
NRS4018T1R0NDGJ
LQW15AN5N6C10D
744786147A
CB2518T102K
LBC3225T100KR
744784039A
LQW15AN6N8J00D
LQW15AN56NJ00D
MLZ2012N101LT000
MLZ2012P220WT000
L-07C18NJV6T
7443631500
74435584700
74439346068
7443551470
744314650
744311470
74437368047
7447779147
744771122
74477120
74404064221
What is the main application direction of Inductor?
On 2023-07-19 in
5
Title: The Versatile Applications of Inductors: Powering the FutureIntroduction (150 words) Inductors are passive electronic components that play a crucial role in a wide range of applications. These devices store energy in a magnetic field when an electric current passes through them. While often overshadowed by more prominent components like resistors and capacitors, inductors are essential for various industries, including power electronics, telecommunications, automotive, and renewable energy. This article explores the main application directions of inductors, highlighting their significance in powering the future.1. Power Electronics (300 words) Inductors are extensively used in power electronics, where they are employed in various applications such as voltage regulation, filtering, and energy storage. In power supplies, inductors help smooth out the output voltage by filtering out high-frequency noise and ripples. They also play a crucial role in DC-DC converters, where they store energy during the on-time of the switching transistor and release it during the off-time, ensuring efficient power transfer.2. Telecommunications (300 words) The telecommunications industry heavily relies on inductors for signal processing and filtering. Inductors are used in radio frequency (RF) circuits, antennas, and filters to control the flow of signals and eliminate unwanted frequencies. They are also essential in impedance matching, ensuring maximum power transfer between different components of a communication system.3. Automotive Industry (300 words) Inductors find extensive applications in the automotive industry, particularly in electronic control units (ECUs), ignition systems, and powertrain systems. In ECUs, inductors are used in voltage regulators, ensuring stable power supply to various electronic components. They are also employed in ignition coils, which generate high-voltage pulses to ignite the fuel-air mixture in internal combustion engines. Additionally, inductors are crucial in powertrain systems, where they help control the flow of current and voltage in electric and hybrid vehicles.4. Renewable Energy (300 words) The growing demand for renewable energy sources has led to increased utilization of inductors in solar and wind power systems. In solar inverters, inductors are used in DC-DC converters and DC-AC inverters to convert and regulate the energy generated by solar panels. They help optimize power transfer and ensure efficient operation of the system. Similarly, in wind turbines, inductors are employed in power converters and generators to control the flow of energy and maintain stable power output.5. Emerging Technologies (250 words) Inductors are also finding applications in emerging technologies such as wireless charging, electric vehicles, and Internet of Things (IoT) devices. In wireless charging systems, inductors are used in resonant circuits to transfer power wirelessly between a charging pad and a device. In electric vehicles, inductors play a crucial role in motor control, battery management, and power conversion. Moreover, in IoT devices, inductors are used in sensors, wireless communication modules, and power management circuits.Conclusion (100 words) In conclusion, inductors are versatile components that find applications in various industries, powering the future of technology. From power electronics to telecommunications, automotive systems to renewable energy, and emerging technologies, inductors play a crucial role in ensuring efficient power transfer, signal processing, and energy storage. As technology continues to advance, the demand for inductors will only increase, making them an indispensable component in the ever-evolving world of electronics.
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What are the latest Inductor manufacturing processes?
On 2023-07-15 in
5
Title: Advancements in Inductor Manufacturing Processes: Revolutionizing the Electronics IndustryIntroduction (100 words) Inductors are essential components in electronic devices, playing a crucial role in energy storage, filtering, and signal processing. Over the years, advancements in manufacturing processes have significantly improved the performance, efficiency, and miniaturization of inductors. This article explores the latest manufacturing processes that are revolutionizing the electronics industry, enabling the development of smaller, more efficient, and higher-performing inductors.1. Thin-Film Inductor Manufacturing (200 words) One of the latest manufacturing processes for inductors is thin-film technology. Thin-film inductors are fabricated by depositing multiple layers of conductive and insulating materials onto a substrate. This process allows for precise control over the inductor's dimensions, resulting in improved performance and reduced size. Thin-film inductors offer higher inductance values, lower resistance, and better high-frequency characteristics compared to traditional wire-wound inductors. They are widely used in applications such as RF circuits, power amplifiers, and high-speed data communication systems.2. 3D Printing of Inductors (250 words) The advent of 3D printing has revolutionized various industries, and inductor manufacturing is no exception. 3D printing enables the creation of complex geometries and customized designs, allowing for the production of inductors with unique shapes and sizes. This technology eliminates the need for traditional winding processes, reducing manufacturing time and costs. Additionally, 3D printing allows for the integration of multiple inductors and other electronic components into a single structure, leading to highly compact and integrated systems.3. MEMS-Based Inductor Fabrication (250 words) Microelectromechanical systems (MEMS) technology has gained significant attention in recent years due to its potential for miniaturization and integration. MEMS-based inductors are manufactured using semiconductor fabrication techniques, enabling the integration of inductors with other electronic components on a single chip. This integration reduces the parasitic effects and improves the overall performance of the inductor. MEMS-based inductors find applications in portable devices, wireless communication systems, and biomedical implants, where size and performance are critical factors.4. Laser Micromachining for Inductor Production (200 words) Laser micromachining is a precise and versatile manufacturing process that has found applications in inductor production. This process involves using lasers to selectively remove or modify material, allowing for the creation of intricate patterns and structures. Laser micromachining enables the fabrication of high-quality inductors with precise dimensions and tight tolerances. It also offers the flexibility to work with a wide range of materials, including metals, ceramics, and polymers. This process is particularly useful for manufacturing inductors with complex geometries, such as spiral or toroidal shapes, which are challenging to achieve using traditional methods.Conclusion (100 words) The continuous advancements in inductor manufacturing processes have revolutionized the electronics industry, enabling the development of smaller, more efficient, and higher-performing inductors. Thin-film technology, 3D printing, MEMS-based fabrication, and laser micromachining are some of the latest processes that have significantly contributed to the evolution of inductor manufacturing. These processes offer improved performance, reduced size, and increased integration capabilities, making inductors suitable for a wide range of applications. As technology continues to advance, it is expected that further innovations in manufacturing processes will continue to enhance the performance and functionality of inductors, driving the progress of the electronics industry.
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Inductor product training considerations
On 2023-07-15 in
14
Title: Essential Considerations for Inductor Product TrainingIntroduction (100 words) Inductors are vital components in electronic circuits, playing a crucial role in energy storage, filtering, and signal processing. To ensure optimal performance and reliability, it is essential for engineers and technicians to receive comprehensive product training. This article will explore the key considerations for inductor product training, including understanding the basics of inductor operation, selecting the right inductor for specific applications, and troubleshooting common issues.1. Basics of Inductor Operation (200 words) To effectively train individuals on inductor products, it is crucial to start with the fundamentals. This section should cover the basic principles of inductor operation, including the concept of inductance, magnetic fields, and the relationship between inductance, current, and voltage. Explaining the different types of inductors, such as air core, iron core, and toroidal, will help participants understand the variations in performance and applications.2. Selecting the Right Inductor (300 words) Inductor selection is a critical aspect of product training, as choosing the wrong inductor can lead to performance issues or even circuit failure. This section should focus on the factors to consider when selecting an inductor, such as inductance value, current rating, temperature stability, and size constraints. Discussing the impact of core material, wire gauge, and winding techniques on inductor performance will provide participants with a comprehensive understanding of the selection process.3. Inductor Applications and Design Considerations (300 words) Inductors find applications in various electronic systems, including power supplies, filters, and oscillators. This section should delve into the specific design considerations for different applications. For example, participants should learn about the importance of inductor saturation current in power supply design, the role of inductors in EMI/RFI filtering, and the impact of self-resonance on oscillator circuits. Real-world examples and case studies can be used to illustrate the practical implementation of inductors in different applications.4. Inductor Testing and Troubleshooting (300 words) Training on inductor products should also cover testing and troubleshooting techniques to ensure proper functionality and identify potential issues. This section should discuss the various methods for measuring inductance, resistance, and quality factor (Q-factor). Participants should also learn how to identify common problems, such as core saturation, winding shorts, and thermal issues, and how to rectify them effectively.5. Advanced Topics and Emerging Technologies (200 words) To provide a comprehensive training experience, it is beneficial to touch upon advanced topics and emerging technologies related to inductors. This section can cover subjects like high-frequency inductors, surface mount technology (SMT) inductors, and the impact of parasitic elements on inductor performance. Exploring the latest trends and developments in inductor technology will keep participants up-to-date with the industry's advancements.Conclusion (100 words) Inductor product training is essential for engineers and technicians to understand the intricacies of inductor operation, selection, and troubleshooting. By providing comprehensive training on the basics of inductor operation, selecting the right inductor for specific applications, and addressing common issues, participants will be equipped with the knowledge and skills necessary to design and troubleshoot electronic circuits effectively. Continuous learning and staying updated with emerging technologies will ensure that professionals can harness the full potential of inductors in their designs.
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What are the popular Inductor product types?
On 2023-07-14 in
14
Inductors are passive electronic components that store energy in the form of a magnetic field. They are widely used in various applications, including power supplies, filters, amplifiers, and oscillators. Inductors come in different types, each designed to meet specific requirements and applications. In this article, we will explore some of the popular inductor product types and their characteristics.1. Wirewound Inductors: Wirewound inductors are the most common type of inductors used in electronic circuits. They are made by winding a wire around a core material, such as ferrite or powdered iron. Wirewound inductors offer high inductance values and are capable of handling high currents. They are widely used in power supplies, filters, and RF circuits.2. Toroidal Inductors: Toroidal inductors are constructed by winding a wire around a donut-shaped core. The core material can be ferrite, powdered iron, or other magnetic materials. Toroidal inductors offer high inductance values and low electromagnetic interference (EMI). They are commonly used in power supplies, audio equipment, and RF circuits.3. Multilayer Chip Inductors: Multilayer chip inductors are compact inductors that are surface-mounted on a printed circuit board (PCB). They are made by stacking multiple layers of conductive material and insulating layers. Multilayer chip inductors are available in various sizes and inductance values. They are widely used in portable devices, such as smartphones, tablets, and laptops.4. SMD Power Inductors: Surface-mount device (SMD) power inductors are designed to handle high currents and power levels. They are commonly used in power supplies, voltage regulators, and DC-DC converters. SMD power inductors are available in various sizes and inductance values. They offer low resistance and high efficiency.5. High-Frequency Inductors: High-frequency inductors are specifically designed for applications that operate at high frequencies, such as RF circuits and wireless communication systems. They are made using specialized materials and construction techniques to minimize losses and maintain high performance at high frequencies. High-frequency inductors are available in various form factors, including chip, wirewound, and toroidal.6. Variable Inductors: Variable inductors, also known as adjustable inductors or tuning coils, allow the user to change the inductance value. They are commonly used in tuning circuits, oscillators, and radio receivers. Variable inductors can be air-core or have a ferrite core with a movable slug. By adjusting the position of the slug, the inductance value can be changed.7. Coupled Inductors: Coupled inductors, also known as transformers, consist of two or more inductors that are magnetically coupled. They are used for impedance matching, voltage transformation, and isolation in various applications, including power supplies, audio amplifiers, and communication systems. Coupled inductors can be designed with different turns ratios to achieve the desired voltage or current transformation.8. Power Choke Inductors: Power choke inductors, also known as power inductors or storage chokes, are designed to store energy and filter out high-frequency noise in power supply circuits. They are capable of handling high currents and are commonly used in DC-DC converters, voltage regulators, and motor drives. Power choke inductors are available in various sizes and inductance values.In conclusion, inductors are essential components in electronic circuits, and their popularity stems from their ability to store energy in the form of a magnetic field. The different types of inductors discussed in this article cater to various applications and requirements, ranging from high-frequency circuits to power supply systems. Understanding the characteristics and applications of these inductor product types is crucial for engineers and designers to select the most suitable component for their specific needs.
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