1014-12 Microsemi Corporation TRANS RF BIPO 39W 5A 55LT1
Дискретные полупроводниковые приборы
Номер производителя:
1014-12
Производитель:
Категория продукции:
Описание:
TRANS RF BIPO 39W 5A 55LT1
Состояние RoHs:
Без свинца / в соответствии с RoHS
Таблицы данных:
Current - Collector (Ic) (Max) :
DC Current Gain (hFE) (Min) @ Ic, Vce :
Frequency - Transition :
Gain :
Mounting Type :
Noise Figure (dB Typ @ f) :
Operating Temperature :
Package / Case :
Packaging :
Part Status :
Power - Max :
Series :
Supplier Device Package :
Transistor Type :
Voltage - Collector Emitter Breakdown (Max) :
в наличии
59,381
Unit Price:
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1014-12 Конкурентные цены
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1014-12 Особенности
1014-12 is produced by Microsemi Corporation, belongs to Транзисторы - биполярные (BJT) - RF.
1014-12 Подробная информация о продукции
:
1014-12 — это Транзисторы - биполярные (BJT) - RF, буферные усилители, разработанные и
произведенные
Microsemi Corporation.
1014-12 производства Microsemi Corporation можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
1014-12 компании CHIPMLCC прошел строгий контроль качества и соответствует всем требованиям.
Статус запасов, отмеченный на CHIPMLCC, предназначен только для справки.
Если вы не нашли запчасть, которую ищете, вы можете связаться с нами для получения дополнительной информации, такой как количество запасов в таблице данных 1014-12 (PDF), цена 1014-12, Распиновка 1014-12, руководство 1014-12 и решение на замену 1014-12.
1014-12 производства Microsemi Corporation можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
1014-12 компании CHIPMLCC прошел строгий контроль качества и соответствует всем требованиям.
Статус запасов, отмеченный на CHIPMLCC, предназначен только для справки.
Если вы не нашли запчасть, которую ищете, вы можете связаться с нами для получения дополнительной информации, такой как количество запасов в таблице данных 1014-12 (PDF), цена 1014-12, Распиновка 1014-12, руководство 1014-12 и решение на замену 1014-12.
1014-12 FAQ
:
1. What is a discrete semiconductor?
A discrete semiconductor is an individual electronic component, such as a diode or transistor, that performs a specific function within an electronic circuit.
2. What are the common types of discrete semiconductors?
The common types of discrete semiconductors include diodes, transistors (bipolar junction transistors and field-effect transistors), rectifiers, thyristors, and voltage regulators.
3. How do discrete semiconductors differ from integrated circuits?
Discrete semiconductors are individual components that perform specific functions, while integrated circuits contain multiple interconnected components on a single semiconductor chip.
4. What are the key characteristics to consider when selecting a discrete semiconductor for a specific application?
When selecting a discrete semiconductor, it's important to consider parameters such as voltage rating, current rating, power dissipation, switching speed, and package type to ensure compatibility with the application requirements.
5. What are the typical applications of discrete semiconductors?
Discrete semiconductors are commonly used in power supplies, amplifiers, signal processing circuits, motor control, lighting, and various other electronic systems.
6. How can I identify the pinout of a discrete semiconductor component?
The pinout of a discrete semiconductor component can typically be found in the component's datasheet, which provides detailed information about the pin configuration and electrical characteristics.
7. What precautions should be taken when handling and soldering discrete semiconductors?
When handling and soldering discrete semiconductors, it's important to observe ESD (electrostatic discharge) precautions, use appropriate soldering techniques, and avoid subjecting the components to excessive heat to prevent damage.
8. What factors contribute to the failure of discrete semiconductors?
Common factors contributing to the failure of discrete semiconductors include overvoltage, overcurrent, thermal stress, ESD events, and improper handling during assembly or operation.
9. How can I test the functionality of a discrete semiconductor component?
The functionality of a discrete semiconductor component can be tested using multimeters, oscilloscopes, and specialized semiconductor test equipment to measure parameters such as voltage drop, current flow, and switching behavior.
10. What advancements are being made in the field of discrete semiconductors?
Advancements in discrete semiconductors include improvements in efficiency, miniaturization, and integration of additional features, as well as the development of new materials and packaging technologies to meet evolving industry demands.
A discrete semiconductor is an individual electronic component, such as a diode or transistor, that performs a specific function within an electronic circuit.
2. What are the common types of discrete semiconductors?
The common types of discrete semiconductors include diodes, transistors (bipolar junction transistors and field-effect transistors), rectifiers, thyristors, and voltage regulators.
3. How do discrete semiconductors differ from integrated circuits?
Discrete semiconductors are individual components that perform specific functions, while integrated circuits contain multiple interconnected components on a single semiconductor chip.
4. What are the key characteristics to consider when selecting a discrete semiconductor for a specific application?
When selecting a discrete semiconductor, it's important to consider parameters such as voltage rating, current rating, power dissipation, switching speed, and package type to ensure compatibility with the application requirements.
5. What are the typical applications of discrete semiconductors?
Discrete semiconductors are commonly used in power supplies, amplifiers, signal processing circuits, motor control, lighting, and various other electronic systems.
6. How can I identify the pinout of a discrete semiconductor component?
The pinout of a discrete semiconductor component can typically be found in the component's datasheet, which provides detailed information about the pin configuration and electrical characteristics.
7. What precautions should be taken when handling and soldering discrete semiconductors?
When handling and soldering discrete semiconductors, it's important to observe ESD (electrostatic discharge) precautions, use appropriate soldering techniques, and avoid subjecting the components to excessive heat to prevent damage.
8. What factors contribute to the failure of discrete semiconductors?
Common factors contributing to the failure of discrete semiconductors include overvoltage, overcurrent, thermal stress, ESD events, and improper handling during assembly or operation.
9. How can I test the functionality of a discrete semiconductor component?
The functionality of a discrete semiconductor component can be tested using multimeters, oscilloscopes, and specialized semiconductor test equipment to measure parameters such as voltage drop, current flow, and switching behavior.
10. What advancements are being made in the field of discrete semiconductors?
Advancements in discrete semiconductors include improvements in efficiency, miniaturization, and integration of additional features, as well as the development of new materials and packaging technologies to meet evolving industry demands.
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