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ASV-10.000MHZ-EJ-T

ASV-10.000MHZ-EJ-T

Abracon LLC
10 MHz XO (Standard) HCMOS Oscillator 3.3V Enable/Disable 4-SMD, No Lead
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Overview

The ASV-10.000MHZ-EJ-T is a 10 MHz crystal-based surface-mount oscillator providing a stable HCMOS output. It operates at 3.3V and features an enable/disable function for power management in embedded designs. This component is housed in a standard 7.0mm x 5.08mm 4-SMD package suitable for high-density PCB layouts.

Why Choose This Part

This oscillator offers a high frequency stability of +/-20ppm across an operating temperature range of -20C to +70C. Its integrated enable/disable functionality allows engineers to reduce system power consumption by tri-stating the output when the clock is not required.

Applications

Microcontroller Clocking
Provides a precise 10 MHz reference clock for MCUs that require a stable external source for high-speed peripherals.
Communications Hardware
Used in networking equipment to synchronize data transmission cycles in HCMOS-compatible digital circuits.
Industrial Control Systems
Acts as a reliable timing source for PLC modules and automated control logic operating in environments up to 70C.
Digital Signal Processing
Serves as a sampling clock for ADCs and DACs requiring low frequency jitter and +/-20ppm stability.

Key Specifications

Type XO (Standard)
Output HCMOS
Function Enable/Disable
Frequency 10 MHz
Mounting Type Surface Mount
Base Resonator Crystal
Package / Case 4-SMD, No Lead
Size / Dimension 0.276" L x 0.200" W (7.00mm x 5.08mm)
Voltage - Supply 3.3V
Frequency Stability +/-20ppm
Height - Seated (Max) 0.071" (1.80mm)
Operating Temperature -20degC ~ 70degC
Current - Supply (Max) 10mA
Supplier Device Package 4-SMD (7x5.08)

Getting Started

To implement this device, connect the 3.3V supply to Pin 4 and GND to Pin 2, ensuring a 0.01uF to 0.1uF bypass capacitor is placed nearby. Pin 1 serves as the control input; pull it high to enable the 10 MHz output or low to enter a high-impedance state. Ensure the PCB traces for the HCMOS output are kept short to minimize electromagnetic interference and signal degradation.