MC3PHACVFAE NXP USA Inc. IC MOTOR CONTROLLER SER 32QFP
Інтэгральныя схемы (ІС)
Нумар вытворцы:
MC3PHACVFAE
Вытворца:
Катэгорыя прадукцыі:
Апісанне:
IC MOTOR CONTROLLER SER 32QFP
Стан RoHs:
Без свінцу / у адпаведнасці з RoHS Табліцы дадзеных:
MC3PHACVFAE Табліцы дадзеных(PDF)
Інтэрфейс :
Serial
Канфігурацыя вываду :
Pre-Driver - Half Bridge (3)
Крок дазволу :
-
Напружанне - нагрузка :
-
Напружанне - сілкаванне :
4.5 V ~ 5.5 V
Пакет / Чахол :
32-LQFP
Пакет прылады пастаўшчыка :
32-LQFP (7x7)
Працоўная тэмпература :
-40°C ~ 105°C (TA)
Прыкладанні :
General Purpose
серыял :
-
Ток - выхад :
-
Тып мацавання :
Surface Mount
Тып рухавіка - AC, DC :
AC, Synchronous
Тып рухавіка - крокавы :
-
Тэхналогія :
IGBT
Ўпакоўка :
Tray
Функцыя :
Controller - Commutation, Direction Management
Частка Статус :
Obsolete
в наличии
16,443
Unit Price:
Звяжыцеся з намі Прапанова
MC3PHACVFAE Канкурэнтныя кошты
ChipIc мае унікальную крыніцу паставак. Мы можам прапанаваць MC3PHACVFAE больш
канкурэнтаздольную цану для нашых кліентаў. Вы можаце атрымаць асалоду ад нашым лепшым
сэрвісам, купіўшы ChipIc MC3PHACVFAE. Калі ласка, не саромейцеся звяртацца наконт
лепшай цаны на MC3PHACVFAE. Націсніце, каб атрымаць прапанову
MC3PHACVFAE Асаблівасці
MC3PHACVFAE is produced by NXP USA Inc., belongs to PMIC - Маторныя драйверы, кантролеры.
MC3PHACVFAE Падрабязная інфармацыя аб прадукцыі
:
MC3PHACVFAE - гэта PMIC - Маторныя драйверы, кантролеры, буферныя ўзмацняльнікі, распрацаваныя і
вырабленыя
NXP USA Inc..
MC3PHACVFAE вытворчасці NXP USA Inc. можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
MC3PHACVFAE 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 MC3PHACVFAE (PDF), кошт MC3PHACVFAE, Распіноўка MC3PHACVFAE, кіраўніцтва MC3PHACVFAE і рашэнне на замену MC3PHACVFAE.
MC3PHACVFAE вытворчасці NXP USA Inc. можна набыць на сайце Chipic.
Тут вы можаце знайсці розныя віды электронных дэталяў ад вядучых вытворцаў свету.
MC3PHACVFAE 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 MC3PHACVFAE (PDF), кошт MC3PHACVFAE, Распіноўка MC3PHACVFAE, кіраўніцтва MC3PHACVFAE і рашэнне на замену MC3PHACVFAE.
MC3PHACVFAE FAQ
:
1. What is the maximum operating temperature for the MC3PHACVFAE semiconductor?
The maximum operating temperature for the MC3PHACVFAE semiconductor is 125°C.
2. What is the input voltage range for the MC3PHACVFAE semiconductor?
The input voltage range for the MC3PHACVFAE semiconductor is typically between 10V and 20V.
3. Can the MC3PHACVFAE semiconductor be used in high-power applications?
Yes, the MC3PHACVFAE semiconductor is suitable for high-power applications due to its robust design and performance capabilities.
4. What are the key protection features of the MC3PHACVFAE semiconductor?
The MC3PHACVFAE semiconductor includes overcurrent protection, overvoltage protection, and thermal shutdown features to ensure reliable operation and safeguard against potential faults.
5. Is the MC3PHACVFAE semiconductor compatible with common microcontrollers?
Yes, the MC3PHACVFAE semiconductor is designed to be compatible with a wide range of microcontrollers commonly used in industrial and automotive applications.
6. What is the typical switching frequency of the MC3PHACVFAE semiconductor?
The typical switching frequency of the MC3PHACVFAE semiconductor is in the range of 20kHz to 100kHz, depending on the specific application requirements.
7. Does the MC3PHACVFAE semiconductor support sensorless control of brushless DC motors?
Yes, the MC3PHACVFAE semiconductor is capable of sensorless control for brushless DC motors, offering greater flexibility in motor control applications.
8. What is the recommended method for thermal management when using the MC3PHACVFAE semiconductor?
It is recommended to use a combination of heatsinking and airflow to effectively manage the thermal performance of the MC3PHACVFAE semiconductor in high-power applications.
9. Can the MC3PHACVFAE semiconductor operate in harsh environmental conditions?
Yes, the MC3PHACVFAE semiconductor is designed to operate reliably in harsh environmental conditions, including wide temperature ranges and high humidity levels.
10. Are there any application notes or reference designs available for the MC3PHACVFAE semiconductor?
Yes, comprehensive application notes and reference designs are available to assist engineers in implementing the MC3PHACVFAE semiconductor in various motor control and power conversion applications.
The maximum operating temperature for the MC3PHACVFAE semiconductor is 125°C.
2. What is the input voltage range for the MC3PHACVFAE semiconductor?
The input voltage range for the MC3PHACVFAE semiconductor is typically between 10V and 20V.
3. Can the MC3PHACVFAE semiconductor be used in high-power applications?
Yes, the MC3PHACVFAE semiconductor is suitable for high-power applications due to its robust design and performance capabilities.
4. What are the key protection features of the MC3PHACVFAE semiconductor?
The MC3PHACVFAE semiconductor includes overcurrent protection, overvoltage protection, and thermal shutdown features to ensure reliable operation and safeguard against potential faults.
5. Is the MC3PHACVFAE semiconductor compatible with common microcontrollers?
Yes, the MC3PHACVFAE semiconductor is designed to be compatible with a wide range of microcontrollers commonly used in industrial and automotive applications.
6. What is the typical switching frequency of the MC3PHACVFAE semiconductor?
The typical switching frequency of the MC3PHACVFAE semiconductor is in the range of 20kHz to 100kHz, depending on the specific application requirements.
7. Does the MC3PHACVFAE semiconductor support sensorless control of brushless DC motors?
Yes, the MC3PHACVFAE semiconductor is capable of sensorless control for brushless DC motors, offering greater flexibility in motor control applications.
8. What is the recommended method for thermal management when using the MC3PHACVFAE semiconductor?
It is recommended to use a combination of heatsinking and airflow to effectively manage the thermal performance of the MC3PHACVFAE semiconductor in high-power applications.
9. Can the MC3PHACVFAE semiconductor operate in harsh environmental conditions?
Yes, the MC3PHACVFAE semiconductor is designed to operate reliably in harsh environmental conditions, including wide temperature ranges and high humidity levels.
10. Are there any application notes or reference designs available for the MC3PHACVFAE semiconductor?
Yes, comprehensive application notes and reference designs are available to assist engineers in implementing the MC3PHACVFAE semiconductor in various motor control and power conversion applications.
MC3PHACVFAE Змяненні, ключавыя словы
:
MC3PHACVFAE Кошт
MC3PHACVFAE Малюнак
MC3PHACVFAE Напружанне на выснове
Акцыі: Хуткая праверка каціровак
Мінімальная замова: 1
Змяшчае прадукты серыі "MC3P"
