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2176627-3
PWR RESISTOR 1475W 5% 10R
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PWR RESISTOR 525W 5% 100R
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PWR RESISTOR 650W 5% 33R
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PWR RESISTOR 400W 5% 33R
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SQB50 1K1 (WIRE) 5% FASTON
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SQB50 75R (WIRE) 5% FASTON
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HVLR1029B10K0K9
RES 10K OHM 0.1% 10W AXIAL
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TPAN0220D1R10K9
RES 1.1 OHM 50W 0.5% T0220
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RES 68M OHM 0.1% 0.7W AXIAL
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PWR RESISTOR 1475W 5% 10R
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Price :$397.5620
PWR RESISTOR 1230W 5% 33R
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Price :$300.2010
PWR RESISTOR 525W 5% 100R
inventory:
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Price :$150.3810
PWR RESISTOR 650W 5% 33R
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Price :$190.8720
PWR RESISTOR 400W 5% 33R
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Price :$119.8010
SQB50 1K1 (WIRE) 5% FASTON
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SQB60 15R (WIRE) 5% FASTON
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SQB50 75R (WIRE) 5% FASTON
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RES 10K OHM 0.1% 10W AXIAL
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RES 3.9M OHM 0.1% 10W AXIAL
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RES 2.4M OHM 0.1% 2W AXIAL
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RES 1.1 OHM 50W 0.5% T0220
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RES 68M OHM 0.1% 0.7W AXIAL
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RES 47K OHM 1% 1W AXIAL
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What are the Product Features of Load Resistors? I. Introduction A. Definition of Load Resistors Load resistors are passive electrical components designed to provide a specific resistance in a circuit. They are used to simulate a load in various applications, allowing engineers and technicians to test and calibrate electronic devices without needing the actual load. By dissipating electrical energy as heat, load resistors play a crucial role in ensuring the stability and reliability of electrical systems. B. Importance of Load Resistors in Electrical Circuits In electrical circuits, load resistors are essential for controlling current flow, managing voltage levels, and protecting sensitive components from damage. They are widely used in testing environments, power electronics, automotive applications, and audio equipment. Their ability to mimic real-world loads makes them invaluable for engineers who need to validate the performance of their designs. C. Purpose of the Article This article aims to explore the key product features of load resistors, providing insights into their functionality, types, and applications. By understanding these features, readers will be better equipped to select the appropriate load resistor for their specific needs. II. Basic Principles of Load Resistors A. Functionality of Load Resistors 1. Current Limiting One of the primary functions of load resistors is to limit the amount of current flowing through a circuit. By introducing a known resistance, they help prevent excessive current that could lead to overheating or damage to other components. 2. Voltage Division Load resistors can also be used in voltage divider circuits, where they help distribute voltage levels across different components. This is particularly useful in applications where specific voltage levels are required for proper operation. B. Types of Load Resistors 1. Fixed Load Resistors Fixed load resistors have a predetermined resistance value that does not change. They are commonly used in applications where a consistent load is required. 2. Variable Load Resistors Variable load resistors, or rheostats, allow users to adjust the resistance value. This flexibility makes them ideal for applications that require fine-tuning of current or voltage levels. 3. Electronic Load Resistors Electronic load resistors are more advanced and can simulate various load conditions electronically. They are often used in testing scenarios where dynamic load conditions are necessary. III. Key Product Features of Load Resistors A. Resistance Value 1. Ohmic Value Range Load resistors come in a wide range of resistance values, typically measured in ohms. The specific value needed depends on the application and the desired current flow. 2. Tolerance Levels Tolerance refers to the allowable deviation from the specified resistance value. Load resistors are available with different tolerance levels, which can affect their performance in precision applications. B. Power Rating 1. Wattage Specifications The power rating of a load resistor indicates the maximum amount of power it can dissipate without overheating. This is crucial for ensuring the resistor operates safely within its limits. 2. Thermal Management Effective thermal management is essential for load resistors, especially in high-power applications. Many resistors are designed with heat sinks or other cooling mechanisms to dissipate heat efficiently. C. Construction Material 1. Wirewound Resistors Wirewound resistors are made by winding a wire around a core. They are known for their high power ratings and stability, making them suitable for demanding applications. 2. Carbon Composition Resistors These resistors are made from a mixture of carbon and a binding material. They are typically used in low-power applications and are known for their low cost. 3. Metal Film Resistors Metal film resistors offer high precision and stability, making them ideal for applications requiring accurate resistance values. They are often used in audio and precision electronic circuits. D. Size and Form Factor 1. Physical Dimensions Load resistors come in various sizes, which can impact their application. Smaller resistors are suitable for compact devices, while larger ones may be needed for high-power applications. 2. Mounting Options (Through-hole, Surface Mount) Load resistors can be mounted in different ways, including through-hole and surface mount configurations. The choice of mounting method depends on the design of the circuit board and the available space. E. Temperature Coefficient 1. Impact on Performance The temperature coefficient of a resistor indicates how its resistance changes with temperature. A low temperature coefficient is desirable for applications requiring stable performance across varying temperatures. 2. Stability Over Temperature Variations Load resistors with stable performance over a wide temperature range are essential for applications in harsh environments, ensuring consistent operation. F. Load Stability 1. Performance Under Continuous Load Load stability refers to how well a resistor maintains its performance under continuous use. High-quality load resistors are designed to perform reliably over extended periods. 2. Short-term vs. Long-term Stability While some applications may only require short-term stability, others demand long-term reliability. Understanding the differences can help in selecting the right resistor for the job. G. Noise Characteristics 1. Thermal Noise All resistors generate thermal noise, which can affect the performance of sensitive circuits. Understanding the noise characteristics of load resistors is crucial for applications in audio and precision electronics. 2. Flicker Noise Flicker noise, or 1/f noise, can also be a concern in certain applications. Load resistors with low flicker noise are preferred in high-fidelity audio systems. H. Reliability and Lifespan 1. Failure Rates The reliability of load resistors is often measured by their failure rates. High-quality resistors are designed to minimize failures, ensuring long-term performance. 2. Environmental Resistance (Moisture, Dust, etc.) Load resistors should be resistant to environmental factors such as moisture and dust, especially in industrial applications. This resistance helps maintain performance and extends lifespan. IV. Applications of Load Resistors A. Testing and Calibration Load resistors are widely used in testing and calibration processes, allowing engineers to simulate real-world conditions and validate the performance of electronic devices. B. Power Electronics In power electronics, load resistors help manage current and voltage levels, ensuring the safe operation of devices such as inverters and converters. C. Automotive Applications Load resistors are used in automotive systems for testing and diagnostics, helping to ensure the reliability of critical components. D. Audio Equipment In audio applications, load resistors are essential for maintaining sound quality and preventing distortion, particularly in high-fidelity systems. E. Industrial Machinery Load resistors are employed in various industrial machinery applications, providing reliable performance in demanding environments. V. Selection Criteria for Load Resistors A. Application Requirements When selecting a load resistor, it is essential to consider the specific requirements of the application, including resistance value, power rating, and environmental conditions. B. Environmental Considerations Factors such as temperature, humidity, and exposure to dust should be taken into account to ensure the chosen resistor will perform reliably in its intended environment. C. Budget Constraints Cost is always a consideration in component selection. Balancing performance and budget is crucial for successful project outcomes. D. Manufacturer Reputation Choosing a reputable manufacturer can ensure the quality and reliability of load resistors, reducing the risk of failures and performance issues. VI. Conclusion A. Summary of Key Features Load resistors are vital components in electrical circuits, offering a range of features that impact their performance and suitability for various applications. Key features include resistance value, power rating, construction material, size, temperature coefficient, load stability, noise characteristics, and reliability. B. Importance of Choosing the Right Load Resistor Selecting the appropriate load resistor is critical for ensuring the reliability and performance of electronic devices. Understanding the specific requirements of an application can guide engineers in making informed decisions. C. Future Trends in Load Resistor Technology As technology continues to evolve, load resistors are likely to see advancements in materials, construction techniques, and performance characteristics. Staying informed about these trends will be essential for engineers and technicians in the field. VII. References A. Academic Journals - IEEE Transactions on Power Electronics - Journal of Electronic Materials B. Industry Standards - IEC 60115: Fixed Resistors for Use in Electronic Equipment - EIA-198: Standard for Resistor Networks C. Manufacturer Specifications - Vishay Resistors Product Catalog - Ohmite Manufacturing Company Resistor Guide By understanding the product features of load resistors, engineers and technicians can make informed decisions that enhance the performance and reliability of their electronic designs.
  In modern electronic technology and digital devices, Memory Integrated Circuit (IC) play a crucial role. Serving as the brains of electronic equipment, they are responsible for storing and processing data. This article will delve into the detailed specifications of a unique memory IC, the MB85R4M2TFN-G-ASE1, manufactured by Fujitsu. This chip belongs to the category of non-volatile memory, specifically ferroelectric random-access memory (FRAM). Below is a comprehensive analysis of its key specifications and parameters.   Basic Overview The MB85R4M2TFN-G-ASE1 is a 4Mbit (512K x 8 or 256K x 16) FRAM chip. FRAM combines the advantages of RAM and ROM, offering high-speed read and write capabilities while retaining data even after power is lost. This makes FRAM excellent for applications requiring fast read/write speeds and long-term data retention, such as industrial control, automotive systems, and consumer electronics.   Package and Physical Characteristics The MB85R4M2TFN-G-ASE1 comes in a thin small outline package (TSOP-44) with 44 pins, measuring 0.400 inches (10.16 mm) in width. This package provides good electrical performance and mechanical stability, suitable for surface-mount technology (SMT) applications in various electronic devices.   III. Electrical Performance Power Supply Voltage: The operating voltage range for this chip is 1.8V to 3.6V, making it suitable for low-power and portable devices. Access Time and Write Cycle Time: The MB85R4M2TFN-G-ASE1 boasts an access time and write cycle time of 150 nanoseconds (ns). This means data can be read and written extremely quickly, ideal for applications requiring rapid response. Interface Type: The chip uses a parallel interface, allowing data to be transmitted in parallel, enhancing data transfer efficiency and speed. Operating Environment The MB85R4M2TFN-G-ASE1 operates within a temperature range of -40°C to 85°C, ensuring reliable performance in various extreme environmental conditions. Whether in cold northern climates or hot southern regions, this chip maintains excellent performance.   Storage Capacity and Structure With a storage capacity of 4Mbit, the MB85R4M2TFN-G-ASE1 can be configured as 512K x 8 bits or 256K x 16 bits. This flexibility allows it to be optimized according to specific application needs, providing higher storage efficiency and performance.   Non-Volatile Characteristics As a non-volatile memory, the MB85R4M2TFN-G-ASE1 retains data even after power is lost. This feature makes it useful in applications requiring long-term data storage, such as medical equipment and industrial control systems.   VII. Application Fields Due to its outstanding performance and reliability, the MB85R4M2TFN-G-ASE1 is widely used in various fields. In industrial control, it can store critical parameters and configuration information, ensuring stable equipment operation. In automotive systems, it can be used to store vehicle operation data and fault information, contributing to improved vehicle safety and reliability. In consumer electronics, it can store user data and settings, enhancing user experience.   VIII. Market Availability and Pricing The MB85R4M2TFN-G-ASE1 is highly available in the market with multiple suppliers, including Shenzhen Yuhaoyang Technology Co., Ltd., and Shenzhen Wanyuan Electronic Technology Co., Ltd. Pricing varies based on purchase quantity and selected specifications. Generally, bulk purchases can enjoy more favorable pricing.   Conclusion The MB85R4M2TFN-G-ASE1 is a high-performance, reliable 4Mbit FRAM chip. It features a TSOP-44 package, a wide voltage range of 1.8V to 3.6V, 150ns access and write cycle times, and an operating temperature range of -40°C to 85°C. These characteristics make it excel in various applications. Additionally, its non-volatile nature, flexible storage capacity configuration, and wide range of applications further enhance its market competitiveness.   In summary, the MB85R4M2TFN-G-ASE1 is a trustworthy and recommended memory IC product. It is a dependable choice for both engineers and end-users.   ICAVENT Electronics is a hybrid IC distributor of electronic components. Established in March 2020 ,We have excellent global sales team and perfect sales network.We also have logistics warehouses in Hong Kong and Shenzhen.Our company is characterized by high-quality elite team and the business of our company has scattered more than 30 countries in all regions of the world.    
What are the Product Features of a Resistor Factory? I. Introduction A. Definition of Resistors Resistors are passive electronic components that limit the flow of electric current in a circuit. They are essential for controlling voltage and current levels, ensuring that electronic devices operate safely and effectively. By providing a specific resistance value, resistors help to manage the electrical energy within circuits, making them fundamental to the design and functionality of electronic systems. B. Importance of Resistors in Electronic Circuits In electronic circuits, resistors play a critical role in various applications, including voltage division, current limiting, and signal conditioning. They are used in everything from simple circuits to complex systems, such as computers and communication devices. Without resistors, circuits would be prone to overloads, leading to potential damage to components and failure of the entire system. C. Overview of Resistor Manufacturing The manufacturing of resistors involves a series of intricate processes that transform raw materials into reliable electronic components. Resistor factories utilize advanced technologies and quality control measures to ensure that their products meet the stringent requirements of modern electronics. This blog post will explore the various product features of a resistor factory, including types of resistors, manufacturing processes, and technological innovations. II. Types of Resistors A. Fixed Resistors Fixed resistors have a predetermined resistance value that cannot be changed. They are widely used in electronic circuits for their stability and reliability. 1. **Carbon Composition Resistors**: Made from a mixture of carbon and a binding material, these resistors are known for their high energy absorption and ability to withstand high temperatures. However, they have a higher tolerance and noise level compared to other types. 2. **Metal Film Resistors**: These resistors are constructed using a thin film of metal, providing excellent stability and low noise. They are favored in precision applications due to their tight tolerance levels. 3. **Wirewound Resistors**: Made by winding a metal wire around a ceramic or fiberglass core, wirewound resistors can handle high power levels and are often used in applications requiring high precision. B. Variable Resistors Variable resistors allow for the adjustment of resistance values, making them versatile components in electronic circuits. 1. **Potentiometers**: These are commonly used for volume control in audio equipment and as adjustable voltage dividers in various applications. 2. **Rheostats**: Similar to potentiometers, rheostats are used to control current flow in a circuit. They are often employed in applications requiring high power. C. Specialty Resistors Specialty resistors are designed for specific applications and offer unique characteristics. 1. **Thermistors**: These temperature-sensitive resistors change resistance with temperature variations, making them ideal for temperature sensing and control. 2. **Photoresistors**: Also known as light-dependent resistors (LDRs), these components change resistance based on light exposure, commonly used in light-sensing applications. 3. **Varistors**: Voltage-dependent resistors that protect circuits from voltage spikes by changing resistance with voltage levels. III. Manufacturing Processes A. Material Selection The selection of materials is crucial in resistor manufacturing, as it directly impacts performance and reliability. 1. **Conductive Materials**: Common conductive materials include carbon, metal films, and metal wires, each chosen based on the desired electrical characteristics. 2. **Insulating Materials**: Insulators are used to prevent unwanted current flow and ensure safety. Materials like ceramic and epoxy are commonly employed. B. Production Techniques Resistor factories utilize various production techniques to create different types of resistors. 1. **Thin Film Technology**: This technique involves depositing a thin layer of resistive material onto a substrate, allowing for precise control over resistance values and characteristics. 2. **Thick Film Technology**: In this method, a thicker layer of resistive paste is printed onto a substrate, providing a cost-effective solution for mass production. 3. **Wirewound Techniques**: Wirewound resistors are manufactured by winding a wire around a core, allowing for high power ratings and precision. C. Quality Control Measures Quality control is paramount in resistor manufacturing to ensure that products meet industry standards. 1. **Testing Procedures**: Resistors undergo rigorous testing for resistance values, tolerance, and power ratings to ensure they meet specifications. 2. **Compliance with Standards**: Resistor factories adhere to international standards such as ISO and RoHS to ensure product safety and environmental compliance. IV. Product Features A. Electrical Characteristics The electrical characteristics of resistors are critical for their performance in circuits. 1. **Resistance Value Range**: Resistors are available in a wide range of resistance values, from ohms to megaohms, catering to various applications. 2. **Tolerance Levels**: Tolerance indicates how much the actual resistance can vary from the specified value. High-precision applications require resistors with low tolerance levels. 3. **Power Rating**: The power rating indicates the maximum power a resistor can dissipate without overheating. This is crucial for ensuring reliability in high-power applications. B. Physical Characteristics The physical characteristics of resistors also play a significant role in their application. 1. **Size and Form Factor**: Resistors come in various sizes and shapes, including through-hole and surface-mount designs, allowing for flexibility in circuit design. 2. **Packaging Options**: Resistors are available in different packaging options, including bulk, tape and reel, and individual packaging, catering to different manufacturing needs. 3. **Environmental Resistance**: Many resistors are designed to withstand harsh environmental conditions, including temperature extremes and humidity, ensuring reliable performance in diverse applications. C. Performance Features Performance features are essential for ensuring that resistors function effectively in their intended applications. 1. **Noise Characteristics**: The noise generated by resistors can affect circuit performance. Low-noise resistors are crucial in sensitive applications, such as audio and precision measurement. 2. **Temperature Coefficient**: This feature indicates how much a resistor's resistance changes with temperature. Low-temperature coefficient resistors are preferred in precision applications. 3. **Stability and Reliability**: High-quality resistors exhibit excellent stability over time, ensuring consistent performance in electronic circuits. V. Customization Options A. Tailored Resistance Values Resistor factories often offer customization options, allowing customers to specify resistance values that meet their unique requirements. B. Custom Packaging Solutions Custom packaging solutions can be provided to accommodate specific manufacturing processes and supply chain needs. C. Specialized Testing and Certification Some applications require specialized testing and certification to meet industry standards, and resistor factories can provide these services to ensure compliance. VI. Technological Innovations A. Advances in Materials Science Recent advances in materials science have led to the development of new resistor materials that offer improved performance and reliability. B. Automation in Manufacturing Automation in manufacturing processes has increased efficiency and consistency in resistor production, reducing costs and improving quality. C. Integration of Smart Technologies The integration of smart technologies, such as IoT capabilities, is becoming more prevalent in resistor design, allowing for enhanced functionality and monitoring. VII. Applications of Resistors A. Consumer Electronics Resistors are ubiquitous in consumer electronics, from smartphones to televisions, where they help manage power and signal levels. B. Automotive Industry In the automotive industry, resistors are used in various applications, including engine control units and safety systems, ensuring reliable performance in demanding environments. C. Industrial Equipment Industrial equipment relies on resistors for control and monitoring, making them essential for automation and process control. D. Telecommunications In telecommunications, resistors are critical for signal processing and conditioning, ensuring clear and reliable communication. VIII. Conclusion A. Summary of Key Features Resistor factories produce a wide range of resistors with various electrical, physical, and performance characteristics. Understanding these features is essential for selecting the right resistor for specific applications. B. The Role of Resistor Factories in Modern Electronics Resistor factories play a vital role in the electronics industry, providing essential components that enable the functionality of countless devices and systems. C. Future Trends in Resistor Manufacturing As technology continues to evolve, resistor manufacturing will likely see advancements in materials, automation, and smart technologies, further enhancing the performance and capabilities of resistors in modern electronics. IX. References A. Academic Journals - Journal of Electronic Materials - IEEE Transactions on Components, Packaging and Manufacturing Technology B. Industry Reports - Resistor Market Analysis Report - Global Electronic Components Market Trends C. Manufacturer Specifications - Datasheets from leading resistor manufacturers - Industry standards documentation (ISO, RoHS) --- This blog post provides a comprehensive overview of the product features of a resistor factory, highlighting the importance of resistors in electronic circuits and the intricate processes involved in their manufacturing. By understanding these features, engineers and designers can make informed decisions when selecting resistors for their applications.
  The MJE3055T, a bipolar transistor widely utilized in audio amplifiers, switching regulators, and other fields, is manufactured by several semiconductor companies, including ST Microelectronics, ON Semiconductor, Fairchild (formerly Fairchild Semiconductor/National Semiconductor), and Motorola. This article delves into the primary specifications and technical parameters of the MJE3055T, aiding readers in better understanding and utilizing this component.   Manufacturer and Packaging The MJE3055T is produced by reputable semiconductor firms such as ST Microelectronics, ON Semiconductor, Fairchild, and Motorola. These manufacturers typically offer the MJE3055T in a TO-220 package, a common encapsulation for high-power devices. The TO-220 package allows for superior thermal dissipation, making it suitable for high-power applications.   Electrical Specifications The electrical specifications of the MJE3055T are among its most critical technical parameters, determining its performance and suitability for various scenarios.   Polarity: The MJE3055T is an NPN-type transistor. NPN transistors are characterized by current flowing into the base (B), exiting through the collector (C), with the emitter (E) providing the main current path. Voltage Ratings: The MJE3055T has a collector-emitter voltage (VCEO) of 60V, a collector-base voltage (VCBO) of 70V, and an emitter-base voltage (VEBO) of 5V. These voltage ratings ensure the transistor will not be damaged under normal operating conditions. Current Ratings: The MJE3055T has a continuous collector current (IC) of 10A, with a maximum DC collector current also of 10A. This makes it ideal for high-current applications. Power Dissipation: The power dissipation (PD) of the MJE3055T is 75W, meaning it can safely dissipate 75W of power under specified conditions. Frequency Characteristics: The MJE3055T has a gain-bandwidth product (fT) of 2MHz, a metric for measuring the transistor's amplification capability at high frequencies. DC Current Gain: The DC current gain (hFE) of the MJE3055T, at 4A and 4V, is a minimum of 20 and can reach a maximum of 400. This indicates that under specific conditions, the ratio of collector current to base current can vary between 20 and 400. Operating Temperature: The operating temperature range of the MJE3055T is -55°C to +150°C. This ensures the transistor can function normally within a wide temperature range. Physical Parameters Beyond electrical specifications, the physical parameters of the MJE3055T are also important factors to consider during design and use.   Dimensions: The MJE3055T measures 10.4mm in length, 4.6mm in width, and 9.15mm in height. These dimensions make it relatively easy to layout and mount on a PCB. Mounting Method: The MJE3055T is mounted through-hole (Through Hole), meaning it can be secured by soldering into through-holes on the PCB. Pin Configuration: The MJE3055T has three pins: collector (C), base (B), and emitter (E). These pins connect the external circuit through the TO-220 package. Applications and Characteristics With its high current, high power, and wide operating temperature range, the MJE3055T is an ideal choice for audio amplifiers, switching regulators, and other fields. Its excellent Safe Operating Area (SOA) makes it perform exceptionally well in high-fidelity audio amplifiers, while its high current-handling capability makes it suitable for switching regulators and other high-power applications.   Conclusion In summary, the MJE3055T is a high-performance NPN bipolar transistor with a wide range of applications and impressive electrical properties. By understanding its key electrical specifications and physical parameters, one can better design and utilize this component to meet the demands of various high-power and high-current applications. Whether in audio amplifiers or switching regulators, the MJE3055T demonstrates its superior performance and reliability, making it a trustworthy choice for engineers and designers.   ICAVENT Electronics is a hybrid IC distributor of electronic components. Established in March 2020 ,We have excellent global sales team and perfect sales network.We also have logistics warehouses in Hong Kong and Shenzhen.Our company is characterized by high-quality elite team and the business of our company has scattered more than 30 countries in all regions of the world.  
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