The maximum operating frequency of the 74LVC1G14GW-Q100 is typically around 100 MHz, but it can vary depending on the specific application and operating conditions.
To ensure signal integrity, it's essential to follow proper PCB design practices, such as using controlled impedance traces, minimizing signal routing distances, and adding termination resistors as needed. Additionally, consider using a buffer or repeater if the signal needs to travel a long distance.
Yes, the 74LVC1G14GW-Q100 can be used as a level shifter between different voltage domains, thanks to its wide operating voltage range (1.65 V to 5.5 V) and its ability to tolerate voltage differences between input and output. However, ensure that the input and output voltage levels are within the specified ranges to avoid damage or incorrect operation.
The power consumption of the 74LVC1G14GW-Q100 is typically very low, with a maximum quiescent current of around 10 μA and a dynamic power consumption of around 10 μW/MHz. This makes it suitable for low-power applications. However, the actual power consumption will depend on the specific operating conditions, such as frequency, voltage, and load capacitance.
The 74LVC1G14GW-Q100 has built-in ESD protection, but it's still essential to follow proper ESD handling and protection practices during manufacturing, assembly, and testing. This includes using ESD-safe materials, equipment, and procedures to prevent damage to the device.
74LVC1G14GW-Q100,1 datasheet
by NXP Semiconductors
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