2A5 Microsemi Corporation TRANS BIPO 55ET-2
Дыскрэтныя паўправадніковыя прыборы
Нумар вытворцы:
2A5
Вытворца:
Катэгорыя прадукцыі:
Апісанне:
TRANS BIPO 55ET-2
Стан RoHs:
Без свінцу / у адпаведнасці з RoHS Табліцы дадзеных:
2A5 Табліцы дадзеных(PDF)
Выйгрыш :
7dB ~ 9dB
Каэфіцыент узмацнення пастаяннага току (hFE) (мінімум) @ Ic, Vce :
20 @ 100mA, 5V
Каэфіцыент шуму (дБ Typ @ f) :
-
Магутнасць - Макс :
5.3W
Напружанне - прабой эмітэра калектара (макс.) :
22V
Пакет / Чахол :
55ET
Пакет прылады пастаўшчыка :
55ET
Працоўная тэмпература :
200°C (TJ)
серыял :
-
Ток - калектар (Ic) (макс.) :
3mA
Тып мацавання :
Stud Mount
Тып транзістара :
NPN
Ўпакоўка :
Bulk
Частата - Пераход :
3.4GHz ~ 3.7GHz
Частка Статус :
Obsolete
в наличии
20,493
Unit Price:
Звяжыцеся з намі Прапанова
2A5 Канкурэнтныя кошты
ChipIc мае унікальную крыніцу паставак. Мы можам прапанаваць 2A5 больш
канкурэнтаздольную цану для нашых кліентаў. Вы можаце атрымаць асалоду ад нашым лепшым
сэрвісам, купіўшы ChipIc 2A5. Калі ласка, не саромейцеся звяртацца наконт
лепшай цаны на 2A5. Націсніце, каб атрымаць прапанову
2A5 Асаблівасці
2A5 is produced by Microsemi Corporation, belongs to Транзістары - біпалярныя (BJT) - RF.
2A5 Падрабязная інфармацыя аб прадукцыі
:
2A5 - гэта Транзістары - біпалярныя (BJT) - RF, буферныя ўзмацняльнікі, распрацаваныя і
вырабленыя
Microsemi Corporation.
2A5 вытворчасці Microsemi Corporation можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
2A5 кампаніі Chipic прайшоў строгі кантроль якасці і адпавядае усім патрабаванням.
Статус запасаў, пазначаны на Chipic, прызначаны толькі для даведкі.
Калі вы не знайшлі запчастку, якую шукаеце, вы можаце звязацца з намі для атрымання дадатковай інфармацыі, такі як колькасць запасаў у табліцы дадзеных 2A5 (PDF), кошт 2A5, Распіноўка 2A5, кіраўніцтва 2A5 і рашэнне на замену 2A5.
2A5 вытворчасці Microsemi Corporation можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
2A5 кампаніі Chipic прайшоў строгі кантроль якасці і адпавядае усім патрабаванням.
Статус запасаў, пазначаны на Chipic, прызначаны толькі для даведкі.
Калі вы не знайшлі запчастку, якую шукаеце, вы можаце звязацца з намі для атрымання дадатковай інфармацыі, такі як колькасць запасаў у табліцы дадзеных 2A5 (PDF), кошт 2A5, Распіноўка 2A5, кіраўніцтва 2A5 і рашэнне на замену 2A5.
2A5 FAQ
:
1. What is the typical application of the 2A5 discrete semiconductor?
The 2A5 discrete semiconductor is commonly used in power supply and motor control circuits due to its high current and voltage capabilities.
2. What are the key electrical characteristics of the 2A5 discrete semiconductor?
The 2A5 typically has a maximum collector current of 2A, a maximum collector-emitter voltage of 50V, and a low saturation voltage, making it suitable for various power applications.
3. How does the 2A5 compare to other similar discrete semiconductors in terms of performance?
Compared to similar discrete semiconductors, the 2A5 offers higher current and voltage ratings, lower saturation voltage, and improved thermal characteristics, making it a preferred choice for demanding applications.
4. What are the recommended operating conditions for the 2A5 discrete semiconductor?
The 2A5 is typically operated within a temperature range of -55°C to 150°C and at a maximum junction temperature of 150°C to ensure reliable performance and longevity.
5. Can the 2A5 be used in switching applications?
Yes, the 2A5 is suitable for switching applications due to its fast switching speed and low on-state resistance, making it ideal for power management and control purposes.
6. What are the key considerations for designing a circuit using the 2A5 discrete semiconductor?
When designing a circuit with the 2A5, it's important to consider proper heat dissipation, current and voltage ratings, as well as protection measures to ensure safe and efficient operation.
7. Are there any specific layout or PCB design guidelines for integrating the 2A5 into a circuit?
It's recommended to minimize the length of high-current traces, provide adequate thermal vias for heat dissipation, and maintain proper isolation between high-voltage and low-voltage components in the PCB layout.
8. What are the common failure modes associated with the 2A5 discrete semiconductor?
Common failure modes include overcurrent stress leading to thermal runaway, voltage spikes causing breakdown, and inadequate heat dissipation resulting in junction temperature exceeding limits.
9. Can the 2A5 be used in automotive applications?
Yes, the 2A5 is suitable for automotive applications such as electronic control units (ECUs), motor drives, and power distribution systems, provided it meets the required automotive standards.
10. Are there any potential reliability issues to be aware of when using the 2A5 discrete semiconductor?
Ensuring proper derating, thermal management, and adherence to manufacturer specifications are crucial to maintaining the long-term reliability of the 2A5 in various applications.
The 2A5 discrete semiconductor is commonly used in power supply and motor control circuits due to its high current and voltage capabilities.
2. What are the key electrical characteristics of the 2A5 discrete semiconductor?
The 2A5 typically has a maximum collector current of 2A, a maximum collector-emitter voltage of 50V, and a low saturation voltage, making it suitable for various power applications.
3. How does the 2A5 compare to other similar discrete semiconductors in terms of performance?
Compared to similar discrete semiconductors, the 2A5 offers higher current and voltage ratings, lower saturation voltage, and improved thermal characteristics, making it a preferred choice for demanding applications.
4. What are the recommended operating conditions for the 2A5 discrete semiconductor?
The 2A5 is typically operated within a temperature range of -55°C to 150°C and at a maximum junction temperature of 150°C to ensure reliable performance and longevity.
5. Can the 2A5 be used in switching applications?
Yes, the 2A5 is suitable for switching applications due to its fast switching speed and low on-state resistance, making it ideal for power management and control purposes.
6. What are the key considerations for designing a circuit using the 2A5 discrete semiconductor?
When designing a circuit with the 2A5, it's important to consider proper heat dissipation, current and voltage ratings, as well as protection measures to ensure safe and efficient operation.
7. Are there any specific layout or PCB design guidelines for integrating the 2A5 into a circuit?
It's recommended to minimize the length of high-current traces, provide adequate thermal vias for heat dissipation, and maintain proper isolation between high-voltage and low-voltage components in the PCB layout.
8. What are the common failure modes associated with the 2A5 discrete semiconductor?
Common failure modes include overcurrent stress leading to thermal runaway, voltage spikes causing breakdown, and inadequate heat dissipation resulting in junction temperature exceeding limits.
9. Can the 2A5 be used in automotive applications?
Yes, the 2A5 is suitable for automotive applications such as electronic control units (ECUs), motor drives, and power distribution systems, provided it meets the required automotive standards.
10. Are there any potential reliability issues to be aware of when using the 2A5 discrete semiconductor?
Ensuring proper derating, thermal management, and adherence to manufacturer specifications are crucial to maintaining the long-term reliability of the 2A5 in various applications.
2A5 Змяненні, ключавыя словы
:
2A5 Кошт
2A5 Малюнак
2A5 Напружанне на выснове
Акцыі: Хуткая праверка каціровак
Мінімальная замова: 1