Description
PACK OF 50 PIECES
The NXE8.000AC20F is a crystal oscillator designed to operate at a frequency of 8.000 MHz. It comes in a 49US/SMD (Surface-Mount Device) package and features a series resistance of 80 ohms with a load capacitance of 20 picofarads (pF). This type of crystal oscillator is commonly used in various electronic circuits for providing a stable and precise frequency reference.
-
Frequency (8.000 MHz): The 8.000 MHz frequency is suitable for a range of applications that require a moderately high clock speed, such as in microprocessors, communication devices, and timing reference sources.
-
Package (49US/SMD): The 49US/SMD package is a compact, surface-mount format ideal for modern electronic designs where space is at a premium and components are mounted directly onto the surface of printed circuit boards.
-
Series Resistance (80 Ohms): The series resistance of 80 ohms is the internal resistance of the crystal, affecting its operational characteristics like start-up time and power consumption.
-
Load Capacitance (20pF): The 20pF load capacitance is the external capacitance that must be present in the circuit for the crystal to oscillate at its optimal frequency, ensuring stable and accurate operation.
-
Applications: This crystal oscillator can be used in various electronic applications where a precise and stable 8 MHz clock signal is required, including computing devices, digital communication systems, and precision timing devices.
-
Features: Crystal oscillators like the NXE8.000AC20F are chosen for their high frequency stability and precision, low power consumption, and durability. They are essential in circuits where a stable and accurate clock source is critical.
The NXE8.000AC20F crystal oscillator, with its 8.000 MHz frequency in a compact SMD package, is a reliable and effective component for providing accurate frequency control in various electronic applications. Its 80-ohm series resistance and 20pF load capacitance make it suitable for a wide range of high-performance and space-efficient electronic designs.