PI6LC48S25BZBBIE belongs to the category of integrated circuits.
This product is commonly used in electronic devices for signal conditioning and clock generation.
PI6LC48S25BZBBIE is available in a compact and durable package, suitable for surface mount technology (SMT) applications.
The essence of PI6LC48S25BZBBIE lies in its ability to provide precise signal conditioning and clock generation functions within a single integrated circuit.
This product is typically packaged in reels or trays, with varying quantities depending on customer requirements.
For a detailed and complete pin configuration diagram, please refer to the manufacturer's datasheet.
PI6LC48S25BZBBIE offers the following functional characteristics:
PI6LC48S25BZBBIE is suitable for a wide range of electronic devices that require signal conditioning and clock generation capabilities. It finds applications in telecommunications, networking equipment, consumer electronics, and industrial automation systems.
The working principle of PI6LC48S25BZBBIE involves receiving input signals, conditioning them to improve their quality, and generating precise clock signals for synchronization purposes. This integrated circuit utilizes advanced circuitry and algorithms to achieve optimal performance.
PI6LC48S25BZBBIE can be applied in various fields, including:
Some alternative models to PI6LC48S25BZBBIE include:
Q: What is the maximum output frequency of PI6LC48S25BZBBIE? A: The maximum output frequency is 500MHz.
Q: Can PI6LC48S25BZBBIE operate with a supply voltage below 2.5V? A: No, the recommended input voltage range is 2.5V - 3.3V.
Q: Does PI6LC48S25BZBBIE require external components for signal conditioning? A: Yes, external components such as capacitors and resistors may be required depending on the specific application.
Q: What is the typical power consumption of PI6LC48S25BZBBIE? A: The typical supply current is 50mA.
Q: Is PI6LC48S25BZBBIE suitable for automotive applications? A: Yes, it can be used in automotive electronics for signal conditioning and clock generation purposes.
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