160MT160KB Vishay Semiconductor Diodes Division RECT BRIDGE 1600V 160A MTK
Дыскрэтныя паўправадніковыя прыборы
Нумар вытворцы:
160MT160KB
Вытворца:
Катэгорыя прадукцыі:
Апісанне:
RECT BRIDGE 1600V 160A MTK
Стан RoHs:
Табліцы дадзеных:
160MT160KB Табліцы дадзеных(PDF)
Напружанне - наперад (Vf) (макс.) @ If :
-
Напружанне - пік зваротнага (макс.) :
1.6kV
Пакет / Чахол :
MTK
Пакет прылады пастаўшчыка :
MTK
Працоўная тэмпература :
-40°C ~ 150°C (TJ)
серыял :
-
Ток - зваротная ўцечка @ Vr :
10mA @ 1600V
Ток - Сярэдні выпрамлены (Io) :
160A
Тып мацавання :
Chassis Mount
Тэхналогія :
Standard
Ўпакоўка :
Bulk
Частка Статус :
Obsolete
Тып дыёда :
Three Phase
в наличии
55,459
Unit Price:
Звяжыцеся з намі Прапанова
160MT160KB Канкурэнтныя кошты
ChipIc мае унікальную крыніцу паставак. Мы можам прапанаваць 160MT160KB больш
канкурэнтаздольную цану для нашых кліентаў. Вы можаце атрымаць асалоду ад нашым лепшым
сэрвісам, купіўшы ChipIc 160MT160KB. Калі ласка, не саромейцеся звяртацца наконт
лепшай цаны на 160MT160KB. Націсніце, каб атрымаць прапанову
160MT160KB Асаблівасці
160MT160KB is produced by Vishay Semiconductor Diodes Division, belongs to Дыёды - Маставыя выпрамнікі.
160MT160KB Падрабязная інфармацыя аб прадукцыі
:
160MT160KB - гэта Дыёды - Маставыя выпрамнікі, буферныя ўзмацняльнікі, распрацаваныя і
вырабленыя
Vishay Semiconductor Diodes Division.
160MT160KB вытворчасці Vishay Semiconductor Diodes Division можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
160MT160KB 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 160MT160KB (PDF), кошт 160MT160KB, Распіноўка 160MT160KB, кіраўніцтва 160MT160KB і рашэнне на замену 160MT160KB.
160MT160KB вытворчасці Vishay Semiconductor Diodes Division можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
160MT160KB 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 160MT160KB (PDF), кошт 160MT160KB, Распіноўка 160MT160KB, кіраўніцтва 160MT160KB і рашэнне на замену 160MT160KB.
160MT160KB FAQ
:
1. What is a semiconductor?
A semiconductor is a material with electrical conductivity between that of a conductor and an insulator. It can be used in electronic devices to control the flow of current.
2. What are the key characteristics of a semiconductor?
Semiconductors have properties such as variable conductivity, bandgap energy, and mobility of charge carriers, which make them suitable for use in electronic devices.
3. How does a semiconductor diode work?
A semiconductor diode allows current to flow in one direction only. When a forward voltage is applied, it conducts, but when the voltage is reversed, it blocks the flow of current.
4. What is the role of doping in semiconductors?
Doping is the process of intentionally introducing impurities into a semiconductor to change its electrical properties. This is crucial for creating p-n junctions and controlling conductivity.
5. What is the difference between N-type and P-type semiconductors?
N-type semiconductors are doped with elements that provide extra electrons, while P-type semiconductors are doped with elements that create electron deficiencies or "holes."
6. How do semiconductors contribute to integrated circuits (ICs)?
Semiconductors are the foundation of ICs, serving as the base material for transistors, diodes, and other components that enable the miniaturization and integration of electronic circuits.
7. What are some common failure modes in semiconductors?
Common failure modes include thermal stress, electrical overstress, and aging-related degradation, which can lead to performance degradation or complete failure of the semiconductor device.
8. How is the reliability of semiconductors tested?
Reliability testing involves subjecting semiconductors to various stress conditions, such as temperature cycling, humidity exposure, and electrical stress, to assess their long-term performance and durability.
9. What advancements are being made in semiconductor technology?
Advancements in semiconductor technology include the development of new materials, such as wide-bandgap semiconductors, and innovative manufacturing processes to improve efficiency and performance.
10. How are semiconductors contributing to renewable energy applications?
Semiconductors play a critical role in renewable energy technologies like solar panels and wind turbines, where they help convert and manage electrical energy from sustainable sources.
I hope these answers are helpful!
A semiconductor is a material with electrical conductivity between that of a conductor and an insulator. It can be used in electronic devices to control the flow of current.
2. What are the key characteristics of a semiconductor?
Semiconductors have properties such as variable conductivity, bandgap energy, and mobility of charge carriers, which make them suitable for use in electronic devices.
3. How does a semiconductor diode work?
A semiconductor diode allows current to flow in one direction only. When a forward voltage is applied, it conducts, but when the voltage is reversed, it blocks the flow of current.
4. What is the role of doping in semiconductors?
Doping is the process of intentionally introducing impurities into a semiconductor to change its electrical properties. This is crucial for creating p-n junctions and controlling conductivity.
5. What is the difference between N-type and P-type semiconductors?
N-type semiconductors are doped with elements that provide extra electrons, while P-type semiconductors are doped with elements that create electron deficiencies or "holes."
6. How do semiconductors contribute to integrated circuits (ICs)?
Semiconductors are the foundation of ICs, serving as the base material for transistors, diodes, and other components that enable the miniaturization and integration of electronic circuits.
7. What are some common failure modes in semiconductors?
Common failure modes include thermal stress, electrical overstress, and aging-related degradation, which can lead to performance degradation or complete failure of the semiconductor device.
8. How is the reliability of semiconductors tested?
Reliability testing involves subjecting semiconductors to various stress conditions, such as temperature cycling, humidity exposure, and electrical stress, to assess their long-term performance and durability.
9. What advancements are being made in semiconductor technology?
Advancements in semiconductor technology include the development of new materials, such as wide-bandgap semiconductors, and innovative manufacturing processes to improve efficiency and performance.
10. How are semiconductors contributing to renewable energy applications?
Semiconductors play a critical role in renewable energy technologies like solar panels and wind turbines, where they help convert and manage electrical energy from sustainable sources.
I hope these answers are helpful!
160MT160KB Змяненні, ключавыя словы
:
160MT160KB Кошт
160MT160KB Малюнак
160MT160KB Напружанне на выснове
Акцыі: Хуткая праверка каціровак
Мінімальная замова: 1
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