74HC147N,652 NXP USA Inc. IC 10:4 LINE PRIORITY ENC 16DIP
Интегральные схемы (ИС)
Номер производителя:
74HC147N,652
Производитель:
Категория продукции:
Описание:
IC 10:4 LINE PRIORITY ENC 16DIP
Состояние RoHs:
Без свинца / в соответствии с RoHS Таблицы данных:
74HC147N,652 Таблицы данных(PDF)
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Operating Temperature :
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18,814
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74HC147N,652 Конкурентные цены
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74HC147N,652 Особенности
74HC147N,652 is produced by NXP USA Inc., belongs to Logic - Сигнальные коммутаторы, мультиплексоры, декодеры.
74HC147N,652 Подробная информация о продукции
:
74HC147N,652 — это Logic - Сигнальные коммутаторы, мультиплексоры, декодеры, буферные усилители, разработанные и
произведенные
NXP USA Inc..
74HC147N,652 производства NXP USA Inc. можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
74HC147N,652 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 74HC147N,652 (PDF), цена 74HC147N,652, Распиновка 74HC147N,652, руководство 74HC147N,652 и решение на замену 74HC147N,652.
74HC147N,652 производства NXP USA Inc. можно приобрести на сайте CHIPMLCC.
Здесь вы можете найти различные виды электронных деталей от ведущих производителей мира.
74HC147N,652 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 74HC147N,652 (PDF), цена 74HC147N,652, Распиновка 74HC147N,652, руководство 74HC147N,652 и решение на замену 74HC147N,652.
74HC147N,652 FAQ
:
1. What is the function of the 74HC147N,652 semiconductor?
The 74HC147N,652 is a 10-to-4 line priority encoder that converts the input binary data into a single output line in accordance with the priority of the inputs.
2. What are the typical applications for the 74HC147N,652 semiconductor?
This semiconductor is commonly used in electronic devices and systems where priority encoding of multiple inputs is required, such as in address decoding in microprocessor-based systems and in signal processing applications.
3. What is the operating voltage range of the 74HC147N,652 semiconductor?
The 74HC147N,652 operates within a voltage range of 2 to 6 volts, making it suitable for use in a variety of low-power and portable electronic devices.
4. Can the 74HC147N,652 be cascaded to encode more than 10 inputs?
Yes, the 74HC147N,652 can be cascaded to encode more than 10 inputs by connecting the outputs of one priority encoder to the inputs of another, allowing for expansion of the encoding capability.
5. What is the maximum frequency at which the 74HC147N,652 can operate?
The 74HC147N,652 has a maximum operating frequency of 30 MHz, enabling high-speed encoding and prioritization of input signals in time-critical applications.
6. What are the key features of the 74HC147N,652 semiconductor?
Key features of the 74HC147N,652 include low power consumption, high noise immunity, and compatibility with TTL levels, making it a versatile choice for various digital encoding tasks.
7. How does the 74HC147N,652 handle input priority when multiple inputs are active simultaneously?
When multiple inputs are active simultaneously, the 74HC147N,652 encodes the highest priority input, ignoring the others until the highest priority input becomes inactive.
8. What is the typical propagation delay of the 74HC147N,652 semiconductor?
The typical propagation delay of the 74HC147N,652 is 15 ns, ensuring efficient encoding and minimal delay in the output response to input changes.
9. Can the 74HC147N,652 be used in automotive electronics applications?
Yes, the 74HC147N,652 is suitable for use in automotive electronics applications due to its wide operating voltage range and robustness against environmental factors.
10. Are there any recommended precautions for handling and integrating the 74HC147N,652 into a circuit?
It is important to observe proper static discharge precautions and ensure correct power supply decoupling to prevent damage to the 74HC147N,652 during handling and integration into a circuit. Additionally, attention should be given to signal integrity and noise immunity in the design of the surrounding circuitry.
The 74HC147N,652 is a 10-to-4 line priority encoder that converts the input binary data into a single output line in accordance with the priority of the inputs.
2. What are the typical applications for the 74HC147N,652 semiconductor?
This semiconductor is commonly used in electronic devices and systems where priority encoding of multiple inputs is required, such as in address decoding in microprocessor-based systems and in signal processing applications.
3. What is the operating voltage range of the 74HC147N,652 semiconductor?
The 74HC147N,652 operates within a voltage range of 2 to 6 volts, making it suitable for use in a variety of low-power and portable electronic devices.
4. Can the 74HC147N,652 be cascaded to encode more than 10 inputs?
Yes, the 74HC147N,652 can be cascaded to encode more than 10 inputs by connecting the outputs of one priority encoder to the inputs of another, allowing for expansion of the encoding capability.
5. What is the maximum frequency at which the 74HC147N,652 can operate?
The 74HC147N,652 has a maximum operating frequency of 30 MHz, enabling high-speed encoding and prioritization of input signals in time-critical applications.
6. What are the key features of the 74HC147N,652 semiconductor?
Key features of the 74HC147N,652 include low power consumption, high noise immunity, and compatibility with TTL levels, making it a versatile choice for various digital encoding tasks.
7. How does the 74HC147N,652 handle input priority when multiple inputs are active simultaneously?
When multiple inputs are active simultaneously, the 74HC147N,652 encodes the highest priority input, ignoring the others until the highest priority input becomes inactive.
8. What is the typical propagation delay of the 74HC147N,652 semiconductor?
The typical propagation delay of the 74HC147N,652 is 15 ns, ensuring efficient encoding and minimal delay in the output response to input changes.
9. Can the 74HC147N,652 be used in automotive electronics applications?
Yes, the 74HC147N,652 is suitable for use in automotive electronics applications due to its wide operating voltage range and robustness against environmental factors.
10. Are there any recommended precautions for handling and integrating the 74HC147N,652 into a circuit?
It is important to observe proper static discharge precautions and ensure correct power supply decoupling to prevent damage to the 74HC147N,652 during handling and integration into a circuit. Additionally, attention should be given to signal integrity and noise immunity in the design of the surrounding circuitry.
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