Техническая документация
Характеристики
Тип
Чиповые
Материал
Феррит
Длина
2мм
Глубина
1.25мм
Высота
0.9мм
Импеданс при 100 МГц
1000Ом
Применение
Подавление электромагнитных помех
Номинальный ток
500mA
Тип корпуса
0805 (2012M)
Максимальное сопротивление пост. тока
400мОм
Серия
CIM21
Размеры
2 x 1.25 x 0.9мм
Страна происхождения
Korea, Republic Of
Информация о товаре
32-Bit AVR UC3 Microcontrollers
AVR32 is a high-performance 32-bit RISC microprocessor core, designed for cost-sensitive embedded applications, with particular emphasis on low power consumption, high code density and high performance. The processor implements a Memory Protection Unit (MPU) and a fast and flexible interrupt controller for supporting modern operating systems and real-time operating systems. Higher computation capabilities are achievable using a rich set of DSP instructions.
To fully exploit the power of a 32-bit architecture, the AVR32 is not binary compatible with earlier AVR architectures. In order to achieve high code density, the instruction format is flexible providing both compact 16-bit and extended 32-bit instructions. While most instructions are 16-bit, powerful 32-bit instructions are implemented to further increase performance. Compact and extended instructions can be freely mixed in the instruction stream.
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P.O.A.
10000
P.O.A.
10000
Техническая документация
Характеристики
Тип
Чиповые
Материал
Феррит
Длина
2мм
Глубина
1.25мм
Высота
0.9мм
Импеданс при 100 МГц
1000Ом
Применение
Подавление электромагнитных помех
Номинальный ток
500mA
Тип корпуса
0805 (2012M)
Максимальное сопротивление пост. тока
400мОм
Серия
CIM21
Размеры
2 x 1.25 x 0.9мм
Страна происхождения
Korea, Republic Of
Информация о товаре
32-Bit AVR UC3 Microcontrollers
AVR32 is a high-performance 32-bit RISC microprocessor core, designed for cost-sensitive embedded applications, with particular emphasis on low power consumption, high code density and high performance. The processor implements a Memory Protection Unit (MPU) and a fast and flexible interrupt controller for supporting modern operating systems and real-time operating systems. Higher computation capabilities are achievable using a rich set of DSP instructions.
To fully exploit the power of a 32-bit architecture, the AVR32 is not binary compatible with earlier AVR architectures. In order to achieve high code density, the instruction format is flexible providing both compact 16-bit and extended 32-bit instructions. While most instructions are 16-bit, powerful 32-bit instructions are implemented to further increase performance. Compact and extended instructions can be freely mixed in the instruction stream.