WF5041A1A-4 Datasheet PDF - NPC High-stability Crystal Oscillator Specs

WF5041A1A-4 - High-stability Crystal Oscillator

This page provides the datasheet information for the WF5041A1A-4, a member of the WF5041xxx-4 High-stability Crystal Oscillator family.

Datasheet Summary

Description

Pad dimensions [µm] Name Ampliﬁer input Ampliﬁer output (+) supply voltage Output (

) ground Output state control input Description X Crystal connection pins.

Crystal is connected between XT and XTN.

Output frequency determined by internal circuit to one of fO, fO/2, fO/4, fO/8, fO

Features

I I I I I Realizing frequency stability improvement with minimal additional process Temperature compensation range/ operating temperature range:.
40°C to +85°C Frequency adjustment functions built-in.
Frequency-temperature characteristics compensation function AT-cut crystal, 3rd order harmonic frequencytemperature characteristics compensation, with independent low-temperature and high-temperature range compensation settings - Center frequency adjustment function - Temperature.

Datasheet Details

Part number	WF5041A1A-4
Manufacturer	NPC
File Size	139.59 KB
Description	High-stability Crystal Oscillator
Datasheet	WF5041A1A-4 Datasheet
Additional preview pages of the WF5041A1A-4 datasheet.

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Full PDF Text Transcription

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5041 series High-stability Crystal Oscillator IC with Frequency Adjustment Function OVERVIEW The 5041 series are high-stability clock oscillator ICs with built-in frequency adjustment functions. The frequency adjustment functions can be optimized, by the addition of a minimal adjustment process, to improve the frequency stability. The function is implemented using frequency adjustment data written to a built-in EEPROM over a 1-wire serial interface. The ICs are ideal for compact crystal oscillators for use in applications such as WiMAX (Worldwide Interoperability for Microwave Access) and PLC (Power Line Communication) that require high frequency stability in the order of ±30 to ±10ppm. They use a pad layout suitable for ﬂip chip bonding mounting.

Published: Jan 15, 2014 |