2003 Microsemi Corporation TRANS HBT RF BIPOLAR 55BT
Дискретные полупроводниковые приборы 55BT-1
Номер производителя:
2003
Производитель:
Категория продукции:
Описание:
TRANS HBT RF BIPOLAR 55BT
Состояние RoHs:
Таблицы данных:
2003 Таблицы данных(PDF)
Current - Collector (Ic) (Max) :
500mA
DC Current Gain (hFE) (Min) @ Ic, Vce :
10 @ 100mA, 5V
Frequency - Transition :
2GHz
Gain :
8.5dB
Mounting Type :
Chassis Mount
Noise Figure (dB Typ @ f) :
-
Operating Temperature :
200°C (TJ)
Package / Case :
55BT-1
Packaging :
Bulk
Part Status :
Obsolete
Power - Max :
12W
Series :
-
Supplier Device Package :
55BT-1
Transistor Type :
NPN
Voltage - Collector Emitter Breakdown (Max) :
50V
в наличии
45,439
Unit Price:
Свяжитесь с нами
Предложение
2003 Конкурентные цены
ChipMlcc имеет уникальный источник поставок. Мы можем предложить 2003 более
конкурентоспособную цену для наших клиентов. Вы можете насладиться нашим лучшим
сервисом, купив Chipmlcc 2003. Пожалуйста, не стесняйтесь обращаться по поводу
лучшей цены на 2003. Нажмите, чтобы получить предложение
2003 Особенности
2003 is produced by Microsemi Corporation, belongs to Транзисторы - биполярные (BJT) - RF, and its best working temperature is 200°C (TJ), the size is 55BT-1, and Bulk is its most common packaging method, which belongs to the - series, using 55BT-1.
2003 Подробная информация о продукции
:
2003 — это Транзисторы - биполярные (BJT) - RF, буферные усилители, разработанные и
произведенные
Microsemi Corporation.
2003 производства Microsemi Corporation можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
2003 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 2003 (PDF), цена 2003, Распиновка 2003, руководство 2003 и решение на замену 2003.
2003 производства Microsemi Corporation можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
2003 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 2003 (PDF), цена 2003, Распиновка 2003, руководство 2003 и решение на замену 2003.
2003 FAQ
:
1. Q: What is the difference between a diode and a transistor?
A: A diode is a two-terminal electronic component that allows current to flow in one direction only, while a transistor is a three-terminal device used for amplification and switching purposes.
2. Q: How does a semiconductor work as a conductor?
A: Semiconductors can conduct electricity under certain conditions due to their ability to change from insulating to conducting state when exposed to an electric field or light.
3. Q: What are the main challenges in fabricating high-quality silicon wafers?
A: The main challenges in fabricating high-quality silicon wafers include controlling impurities, achieving uniform crystal structure, and minimizing defects during the manufacturing process.
4. Q: Can you explain the concept of doping in semiconductors?
A: Doping involves intentionally introducing impurities into a semiconductor to alter its electrical properties, such as creating n-type or p-type regions to control conductivity.
5. Q: What are the key differences between CMOS and bipolar transistors?
A: CMOS transistors consume less power and have higher noise immunity compared to bipolar transistors, making them suitable for integrated circuits with low power requirements.
6. Q: How do photolithography techniques contribute to semiconductor manufacturing?
A: Photolithography is used to transfer patterns onto semiconductor wafers, allowing for precise etching and deposition processes to create intricate circuitry and components.
7. Q: What role does the cleanroom environment play in semiconductor fabrication?
A: Cleanrooms provide a controlled environment with low levels of airborne particles to prevent contamination during the delicate processes involved in semiconductor fabrication.
8. Q: Can you explain the concept of electron mobility in semiconductors?
A: Electron mobility refers to the speed at which electrons move through a semiconductor material under the influence of an electric field, impacting the material's overall conductivity.
9. Q: What are the primary methods for testing the quality and performance of semiconductor devices?
A: Semiconductor devices are typically tested using techniques such as electrical characterization, reliability testing, and failure analysis to ensure their functionality and durability.
10. Q: How do advancements in semiconductor technology impact the development of electronic devices?
A: Advancements in semiconductor technology enable the creation of smaller, more efficient, and higher-performing electronic devices, driving innovation across various industries.
A: A diode is a two-terminal electronic component that allows current to flow in one direction only, while a transistor is a three-terminal device used for amplification and switching purposes.
2. Q: How does a semiconductor work as a conductor?
A: Semiconductors can conduct electricity under certain conditions due to their ability to change from insulating to conducting state when exposed to an electric field or light.
3. Q: What are the main challenges in fabricating high-quality silicon wafers?
A: The main challenges in fabricating high-quality silicon wafers include controlling impurities, achieving uniform crystal structure, and minimizing defects during the manufacturing process.
4. Q: Can you explain the concept of doping in semiconductors?
A: Doping involves intentionally introducing impurities into a semiconductor to alter its electrical properties, such as creating n-type or p-type regions to control conductivity.
5. Q: What are the key differences between CMOS and bipolar transistors?
A: CMOS transistors consume less power and have higher noise immunity compared to bipolar transistors, making them suitable for integrated circuits with low power requirements.
6. Q: How do photolithography techniques contribute to semiconductor manufacturing?
A: Photolithography is used to transfer patterns onto semiconductor wafers, allowing for precise etching and deposition processes to create intricate circuitry and components.
7. Q: What role does the cleanroom environment play in semiconductor fabrication?
A: Cleanrooms provide a controlled environment with low levels of airborne particles to prevent contamination during the delicate processes involved in semiconductor fabrication.
8. Q: Can you explain the concept of electron mobility in semiconductors?
A: Electron mobility refers to the speed at which electrons move through a semiconductor material under the influence of an electric field, impacting the material's overall conductivity.
9. Q: What are the primary methods for testing the quality and performance of semiconductor devices?
A: Semiconductor devices are typically tested using techniques such as electrical characterization, reliability testing, and failure analysis to ensure their functionality and durability.
10. Q: How do advancements in semiconductor technology impact the development of electronic devices?
A: Advancements in semiconductor technology enable the creation of smaller, more efficient, and higher-performing electronic devices, driving innovation across various industries.
2003 Связанные ключевые слова
:
2003 Цена
2003 Картина
2003 Напряжение на выводе
Акции: Быстрая проверка котировок
Минимальный заказ: 1
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