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2220Y5K00152KXR
CAP CER 1500PF 5KV X7R 2220
Knowles Syfer
2220Y5K00680GCR
CAP CER 68PF 5KV C0G/NP0 2220
Knowles Syfer
2220Y6300100KCR
CAP CER 10PF 630V C0G/NP0 2220
Knowles Syfer
2220Y6300181FCR
CAP CER 180PF 630V C0G/NP0 2220
Knowles Syfer
2225J0100182FCR
CAP CER 1800PF 10V C0G/NP0 2225
Knowles Syfer
2225J0100332JCR
CAP CER 3300PF 10V C0G/NP0 2225
Knowles Syfer
2220Y5K00152KXR
CAP CER 1500PF 5KV X7R 2220
Knowles Syfer
Details
2220Y5K00680GCR
CAP CER 68PF 5KV C0G/NP0 2220
Knowles Syfer
Details
2220Y6300100KCR
CAP CER 10PF 630V C0G/NP0 2220
Knowles Syfer
Details
2220Y6300181FCR
CAP CER 180PF 630V C0G/NP0 2220
Knowles Syfer
Details
2225J0100182FCR
CAP CER 1800PF 10V C0G/NP0 2225
Knowles Syfer
Details
2225J0100332JCR
CAP CER 3300PF 10V C0G/NP0 2225
Knowles Syfer
Details
SIT3373AC-1E2-25NC364.800000
MEMS OSC VCXO 364.8000MHZ LVPECL
SIT3373AC-4B2-25NE614.400000
MEMS OSC VCXO 614.4000MHZ HCSL
2220Y5000222JDR
CAP CER 2200PF 500V X7R 2220
2220Y5000391FFT
CAP CER 390PF 500V C0G/NP0 2220
2220Y5000473JDR
CAP CER 0.047UF 500V X7R 2220
2220Y5000562FCR
CAP CER 5600PF 500V C0G/NP0 2220
2220Y5000821GCR
CAP CER 820PF 500V C0G/NP0 2220
2220Y6300101FCR
CAP CER 100PF 630V C0G/NP0 2220
2220Y6300270KCR
CAP CER 27PF 630V C0G/NP0 2220
2220Y6K00391KXR
CAP CER 390PF 6KV X7R 2220
2225J0100153JCR
CAP CER 0.015UF 10V C0G/NP0 2225
2225J0100270JCR
CAP CER 27PF 10V C0G/NP0 2225
Molex
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What is the main application direction of Fixed Inductors?
2023-06-08
Learn more >
What are the top 10 Data Acquisition - Digital Potentiometers popular models in the mainstream?
2023-06-07
Learn more >
Integrated Circuits (ICs) product training considerations
2023-06-06
Learn more >
What are the latest Integrated Circuits (ICs) manufacturing processes?
2023-06-05
Learn more >
SIT3373AC-2E2-25NZ500.000000
SIT3373AC-2E2-33NX432.000000
SIT3373AC-1E2-30NG250.000000
SIT3373AC-2E2-33NY222.750000
SIT3373AC-2B2-30NX245.760000
SIT3373AC-2B2-30NC222.527472
SIT3373AC-4B2-25NY281.000000
SIT3373AC-2B2-30NY280.550000
SIT3373AC-4B2-30NC614.000000
SIT3373AC-4B2-25NE500.000000
SIT3373AC-2B2-33NH614.400000
SIT3373AC-2E2-33NY622.000000
SIT3373AC-2E2-25NH240.000000
2220Y5000221KFR
2220Y5000222FFT
2220Y5000223MDR
2220Y5000270FFR
2220Y5000273KDR
2220Y5000390FCR
2220Y5000560GCR
2220Y5000562FCR
2220Y5000563MDT
2220Y5000682KXR
2220Y5000821FFR
2220Y5000821GFR
2220Y5000821JFR
2220Y5000822KFR
2220Y5000823JDR
2220Y6300272JXR
2220Y6300272KCR
2220Y6300331KCR
2220Y6K00271KXR
2220Y6K00330JCR
2220Y6K00391KXR
2220YA250181JXTB16
2220YA250682KXRB17
2225J0100104KXT
2225J0100150FCR
2225J0100332JCR
2225J0100561GCR
2225J0160100KFT
2225J0160102JFT
What is the main application direction of Fixed Inductors?
On 2023-06-08 in
Fixed inductors are passive electronic components that are used in a wide range of applications. They are used to store energy in a magnetic field and are commonly used in electronic circuits to filter, store, and regulate electrical energy. Fixed inductors are also known as coil inductors or simply inductors. They are made up of a coil of wire wound around a core made of a magnetic material such as iron, ferrite, or powdered iron. The main application direction of fixed inductors is in electronic circuits, where they are used for a variety of purposes.One of the main applications of fixed inductors is in power supplies. In power supplies, inductors are used to filter out unwanted noise and ripple from the output voltage. This is important because electronic devices require a stable and clean power supply to function properly. Inductors are also used in voltage regulators to smooth out the output voltage and prevent voltage spikes.Another important application of fixed inductors is in audio circuits. In audio circuits, inductors are used in filters to remove unwanted frequencies from the audio signal. This is important because unwanted frequencies can cause distortion and reduce the quality of the audio signal. Inductors are also used in crossover networks in speakers to separate the audio signal into different frequency ranges.Fixed inductors are also used in radio frequency (RF) circuits. In RF circuits, inductors are used in filters to remove unwanted frequencies from the RF signal. They are also used in matching networks to match the impedance of the circuit to the antenna. This is important because a mismatched impedance can cause signal loss and reduce the range of the RF signal.Inductors are also used in lighting circuits. In lighting circuits, inductors are used in ballasts to regulate the current flowing through the light bulb. This is important because light bulbs require a specific amount of current to function properly. Inductors are also used in fluorescent lighting to regulate the current flowing through the fluorescent tube.Fixed inductors are also used in motor control circuits. In motor control circuits, inductors are used in filters to remove unwanted noise from the motor control signal. They are also used in motor drivers to regulate the current flowing through the motor. This is important because motors require a specific amount of current to function properly.Inductors are also used in communication circuits. In communication circuits, inductors are used in filters to remove unwanted frequencies from the communication signal. They are also used in matching networks to match the impedance of the circuit to the transmission line. This is important because a mismatched impedance can cause signal loss and reduce the range of the communication signal.Fixed inductors are also used in automotive circuits. In automotive circuits, inductors are used in filters to remove unwanted noise from the power supply and communication signals. They are also used in ignition systems to regulate the current flowing through the ignition coil. This is important because the ignition coil requires a specific amount of current to generate the spark that ignites the fuel in the engine.In conclusion, fixed inductors are used in a wide range of applications in electronic circuits. They are used to filter, store, and regulate electrical energy. The main application direction of fixed inductors is in power supplies, audio circuits, RF circuits, lighting circuits, motor control circuits, communication circuits, and automotive circuits. Fixed inductors are essential components in electronic circuits and are used to ensure the proper functioning of electronic devices.
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What are the top 10 Data Acquisition - Digital Potentiometers popular models in the mainstream?
On 2023-06-07 in
Data acquisition is an essential process in many industries, including automotive, aerospace, and telecommunications. Digital potentiometers are popular devices used in data acquisition systems to control the voltage or current in a circuit. They are also used in audio equipment, instrumentation, and other applications that require precise control of resistance.In this article, we will discuss the top 10 digital potentiometers popular models in the mainstream.1. MCP41HV31-103E/MLThe MCP41HV31-103E/ML is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.2. AD5292BRUZ-10The AD5292BRUZ-10 is a 10kΩ digital potentiometer with a 1024-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require high accuracy and low power consumption.3. MAX5481EUD+The MAX5481EUD+ is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.4. MCP4018T-103E/LTThe MCP4018T-103E/LT is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 1.8V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.5. AD8403ARUZ10The AD8403ARUZ10 is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require high accuracy and low power consumption.6. MAX5486EUG+The MAX5486EUG+ is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.7. MCP4017T-103E/LTThe MCP4017T-103E/LT is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 1.8V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.8. AD5263BRUZ10The AD5263BRUZ10 is a 10kΩ digital potentiometer with a 1024-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require high accuracy and low power consumption.9. MAX5483EUG+The MAX5483EUG+ is a 10kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 2.7V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.10. MCP4018T-503E/LTThe MCP4018T-503E/LT is a 50kΩ digital potentiometer with a 256-tap resolution. It operates at a voltage range of 1.8V to 5.5V and has a low power consumption of 1.5µA. This device is ideal for applications that require low power consumption and high accuracy.ConclusionDigital potentiometers are essential devices in data acquisition systems, audio equipment, instrumentation, and other applications that require precise control of resistance. The top 10 digital potentiometers popular models in the mainstream are MCP41HV31-103E/ML, AD5292BRUZ-10, MAX5481EUD+, MCP4018T-103E/LT, AD8403ARUZ10, MAX5486EUG+, MCP4017T-103E/LT, AD5263BRUZ10, MAX5483EUG+, and MCP4018T-503E/LT. These devices offer high accuracy, low power consumption, and a wide voltage range, making them ideal for various applications.
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Integrated Circuits (ICs) product training considerations
On 2023-06-06 in
Integrated circuits (ICs) are the building blocks of modern electronics. They are used in a wide range of applications, from smartphones and computers to cars and medical devices. As the demand for ICs continues to grow, it is important for manufacturers to provide effective product training to their employees and customers. In this article, we will discuss some of the key considerations for ICs product training.1. Understanding the Basics of ICsThe first step in ICs product training is to ensure that employees and customers have a solid understanding of the basics of ICs. This includes understanding the different types of ICs, such as analog, digital, and mixed-signal ICs, as well as the different components that make up an IC, such as transistors, diodes, and capacitors.It is also important to understand the different manufacturing processes used to produce ICs, such as photolithography, etching, and doping. This knowledge will help employees and customers understand how ICs are made and how they function.2. Understanding the Applications of ICsICs are used in a wide range of applications, from consumer electronics to industrial automation. It is important for employees and customers to understand the different applications of ICs and how they are used in various industries.For example, employees and customers in the automotive industry may need to understand how ICs are used in engine control units (ECUs) and other automotive systems. Similarly, employees and customers in the medical industry may need to understand how ICs are used in medical devices such as pacemakers and insulin pumps.3. Understanding the Features and Benefits of ICsICs come with a wide range of features and benefits, such as low power consumption, high speed, and high accuracy. It is important for employees and customers to understand these features and benefits and how they can be used to improve the performance of their products.For example, a customer designing a smartphone may be interested in ICs with low power consumption to extend battery life, while a customer designing a high-speed data acquisition system may be interested in ICs with high-speed capabilities.4. Understanding the Design and Development ProcessDesigning and developing products using ICs can be a complex process. It is important for employees and customers to understand the design and development process and the tools and resources available to them.This includes understanding the different design tools available, such as simulation software and development kits, as well as the different resources available, such as technical support and training programs.5. Understanding the Testing and Validation ProcessTesting and validation are critical steps in the ICs product development process. It is important for employees and customers to understand the testing and validation process and the different tools and techniques used to ensure the quality and reliability of ICs.This includes understanding the different types of testing, such as functional testing and reliability testing, as well as the different tools and techniques used, such as automated testing and statistical analysis.6. Understanding the Regulatory and Compliance RequirementsICs are subject to a wide range of regulatory and compliance requirements, such as RoHS and REACH. It is important for employees and customers to understand these requirements and how they can ensure compliance.This includes understanding the different regulations and requirements, as well as the different tools and resources available to ensure compliance, such as compliance software and testing services.7. Providing Effective Training and SupportFinally, it is important for manufacturers to provide effective training and support to their employees and customers. This includes providing comprehensive product training, technical support, and access to resources such as datasheets, application notes, and design guides.Manufacturers should also provide ongoing training and support to ensure that employees and customers are up-to-date with the latest developments in ICs technology and applications.ConclusionICs are the building blocks of modern electronics, and effective product training is essential to ensure that employees and customers have the knowledge and skills to design and develop products using ICs. By understanding the basics of ICs, their applications, features and benefits, design and development process, testing and validation process, regulatory and compliance requirements, and providing effective training and support, manufacturers can ensure that their employees and customers are equipped with the knowledge and skills to succeed in the fast-paced world of ICs technology.
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What are the latest Integrated Circuits (ICs) manufacturing processes?
On 2023-06-05 in
Integrated circuits (ICs) are the building blocks of modern electronics. They are used in everything from smartphones and computers to cars and medical devices. The manufacturing process for ICs has evolved significantly over the years, with new technologies and techniques being developed to improve performance, reduce costs, and increase efficiency. In this article, we will explore the latest ICs manufacturing processes and their impact on the electronics industry.The Evolution of ICs Manufacturing ProcessesThe first ICs were manufactured using a process called bipolar technology. This involved creating a series of layers on a silicon wafer, each of which was doped with impurities to create either a positive or negative charge. The layers were then etched to create the desired circuit pattern. This process was slow and expensive, and the resulting ICs were relatively large and power-hungry.In the 1980s, a new manufacturing process called complementary metal-oxide-semiconductor (CMOS) was developed. This process used a combination of p-type and n-type transistors to create a more efficient and compact IC. CMOS quickly became the dominant IC manufacturing process and is still widely used today.In recent years, new manufacturing processes have emerged that offer even greater performance and efficiency. These include FinFET, 3D ICs, and extreme ultraviolet (EUV) lithography.FinFETFinFET is a type of transistor that has a three-dimensional structure, with the gate wrapped around a thin silicon fin. This design allows for better control of the transistor's behavior, resulting in faster switching speeds and lower power consumption. FinFETs are used in high-performance processors and graphics cards, where speed and efficiency are critical.3D ICs3D ICs are a new type of IC that uses multiple layers of transistors stacked on top of each other. This allows for more complex circuits to be created in a smaller space, resulting in higher performance and lower power consumption. 3D ICs are used in applications such as memory chips and image sensors.EUV LithographyEUV lithography is a new manufacturing process that uses extreme ultraviolet light to create the circuit patterns on a silicon wafer. This process allows for smaller and more complex circuits to be created, resulting in higher performance and lower power consumption. EUV lithography is still in the early stages of development but is expected to become the dominant IC manufacturing process in the coming years.The Impact of New ICs Manufacturing ProcessesThe development of new ICs manufacturing processes has had a significant impact on the electronics industry. These processes have enabled the creation of smaller, faster, and more efficient devices, which has driven innovation and growth in a wide range of industries.For example, the development of FinFET transistors has enabled the creation of high-performance processors and graphics cards, which are essential for applications such as gaming, artificial intelligence, and scientific research. The use of 3D ICs has enabled the creation of smaller and more efficient memory chips, which are used in smartphones, tablets, and other mobile devices.The development of EUV lithography is expected to have an even greater impact on the electronics industry. This process will enable the creation of even smaller and more complex circuits, which will drive innovation in areas such as artificial intelligence, autonomous vehicles, and the Internet of Things.In addition to driving innovation, new ICs manufacturing processes have also had a significant impact on the cost of electronics. As the cost of manufacturing ICs has decreased, the cost of electronics has also decreased, making them more accessible to a wider range of consumers.Challenges and Future DevelopmentsDespite the many benefits of new ICs manufacturing processes, there are also significant challenges that must be overcome. One of the biggest challenges is the cost of developing and implementing these processes. The development of new manufacturing processes requires significant investment in research and development, as well as in new equipment and facilities.Another challenge is the complexity of these processes. As ICs become smaller and more complex, the manufacturing process becomes more difficult and requires greater precision and control. This can lead to higher failure rates and lower yields, which can drive up costs and reduce profitability.Looking to the future, there are several developments that are expected to drive further innovation in ICs manufacturing processes. These include the development of new materials, such as graphene and carbon nanotubes, which offer even greater performance and efficiency than silicon. There is also ongoing research into new manufacturing techniques, such as self-assembly and 3D printing, which could revolutionize the way ICs are manufactured.ConclusionIn conclusion, the development of new ICs manufacturing processes has had a significant impact on the electronics industry. These processes have enabled the creation of smaller, faster, and more efficient devices, which has driven innovation and growth in a wide range of industries. While there are significant challenges to overcome, the ongoing development of new materials and manufacturing techniques is expected to drive further innovation in the years to come.
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