DCP54-16-13 Diodes Incorporated TRANS NPN 45V 1A SOT-223
Дискретные полупроводниковые приборы TO-261-4, TO-261AA
Номер производителя:
DCP54-16-13
Производитель:
Категория продукции:
Описание:
TRANS NPN 45V 1A SOT-223
Состояние RoHs:
Без свинца / в соответствии с RoHS Таблицы данных:
DCP54-16-13 Таблицы данных(PDF)
Current - Collector (Ic) (Max) :
1A
Current - Collector Cutoff (Max) :
100nA (ICBO)
DC Current Gain (hFE) (Min) @ Ic, Vce :
100 @ 150mA, 2V
Frequency - Transition :
200MHz
Mounting Type :
Surface Mount
Operating Temperature :
-55°C ~ 150°C (TJ)
Package / Case :
TO-261-4, TO-261AA
Packaging :
Cut Tape (CT)
Part Status :
Discontinued at Digi-Key
Power - Max :
1W
Series :
-
Supplier Device Package :
SOT-223
Transistor Type :
NPN
Vce Saturation (Max) @ Ib, Ic :
500mV @ 50mA, 500mA
Voltage - Collector Emitter Breakdown (Max) :
45V
в наличии
62,450
Unit Price:
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Предложение
DCP54-16-13 Конкурентные цены
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конкурентоспособную цену для наших клиентов. Вы можете насладиться нашим лучшим
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лучшей цены на DCP54-16-13. Нажмите, чтобы получить предложение
DCP54-16-13 Особенности
DCP54-16-13 is produced by Diodes Incorporated, belongs to Транзисторы - биполярные (BJT) - одиночные, and its best working temperature is -55°C ~ 150°C (TJ), the size is TO-261-4, TO-261AA, and Cut Tape (CT) is its most common packaging method, which belongs to the - series, using SOT-223.
DCP54-16-13 Подробная информация о продукции
:
DCP54-16-13 — это Транзисторы - биполярные (BJT) - одиночные, буферные усилители, разработанные и
произведенные
Diodes Incorporated.
DCP54-16-13 производства Diodes Incorporated можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
DCP54-16-13 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 DCP54-16-13 (PDF), цена DCP54-16-13, Распиновка DCP54-16-13, руководство DCP54-16-13 и решение на замену DCP54-16-13.
DCP54-16-13 производства Diodes Incorporated можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
DCP54-16-13 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 DCP54-16-13 (PDF), цена DCP54-16-13, Распиновка DCP54-16-13, руководство DCP54-16-13 и решение на замену DCP54-16-13.
DCP54-16-13 FAQ
:
1. What is the maximum voltage rating for the DCP54-16-13 semiconductor device?
The maximum voltage rating for the DCP54-16-13 semiconductor device is 100V.
2. What is the typical forward voltage drop for the DCP54-16-13 at its rated current?
The typical forward voltage drop for the DCP54-16-13 at its rated current is 0.7V.
3. What is the maximum continuous forward current rating for the DCP54-16-13?
The maximum continuous forward current rating for the DCP54-16-13 is 10A.
4. Can the DCP54-16-13 be used in high-temperature environments?
Yes, the DCP54-16-13 is designed to operate in high-temperature environments with a maximum junction temperature of 150°C.
5. What is the typical reverse recovery time for the DCP54-16-13?
The typical reverse recovery time for the DCP54-16-13 is 35ns.
6. Is the DCP54-16-13 suitable for use in switching power supply applications?
Yes, the DCP54-16-13 is well-suited for use in switching power supply applications due to its fast switching characteristics.
7. Does the DCP54-16-13 require a heat sink for proper thermal management?
It is recommended to use a heat sink with the DCP54-16-13 to ensure proper thermal management, especially in high-power applications.
8. What is the typical junction-to-case thermal resistance for the DCP54-16-13?
The typical junction-to-case thermal resistance for the DCP54-16-13 is 2.5°C/W.
9. Can the DCP54-16-13 be operated in parallel for higher current applications?
Yes, the DCP54-16-13 can be operated in parallel to achieve higher current capabilities while maintaining proper current sharing.
10. What are the common failure modes for the DCP54-16-13 and how can they be mitigated?
Common failure modes for the DCP54-16-13 include overcurrent and overtemperature conditions. These can be mitigated by implementing proper current limiting and thermal management measures in the circuit design.
The maximum voltage rating for the DCP54-16-13 semiconductor device is 100V.
2. What is the typical forward voltage drop for the DCP54-16-13 at its rated current?
The typical forward voltage drop for the DCP54-16-13 at its rated current is 0.7V.
3. What is the maximum continuous forward current rating for the DCP54-16-13?
The maximum continuous forward current rating for the DCP54-16-13 is 10A.
4. Can the DCP54-16-13 be used in high-temperature environments?
Yes, the DCP54-16-13 is designed to operate in high-temperature environments with a maximum junction temperature of 150°C.
5. What is the typical reverse recovery time for the DCP54-16-13?
The typical reverse recovery time for the DCP54-16-13 is 35ns.
6. Is the DCP54-16-13 suitable for use in switching power supply applications?
Yes, the DCP54-16-13 is well-suited for use in switching power supply applications due to its fast switching characteristics.
7. Does the DCP54-16-13 require a heat sink for proper thermal management?
It is recommended to use a heat sink with the DCP54-16-13 to ensure proper thermal management, especially in high-power applications.
8. What is the typical junction-to-case thermal resistance for the DCP54-16-13?
The typical junction-to-case thermal resistance for the DCP54-16-13 is 2.5°C/W.
9. Can the DCP54-16-13 be operated in parallel for higher current applications?
Yes, the DCP54-16-13 can be operated in parallel to achieve higher current capabilities while maintaining proper current sharing.
10. What are the common failure modes for the DCP54-16-13 and how can they be mitigated?
Common failure modes for the DCP54-16-13 include overcurrent and overtemperature conditions. These can be mitigated by implementing proper current limiting and thermal management measures in the circuit design.
DCP54-16-13 Связанные ключевые слова
:
DCP54-16-13 Цена
DCP54-16-13 Картина
DCP54-16-13 Напряжение на выводе
Акции: Быстрая проверка котировок
Минимальный заказ: 1
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