Select a customer from previous orders or Create a new customer record
Are you sure. This action can not be undone.
Quartz Oscillators, Resonators
Quartz Crystal
CYCY11
Master Frequency Control with Quartz Crystals: Precision and Stability for Every Circuit
Quartz Crystals: Precision Frequency Control for Electronic Devices
What is a Quartz Crystal?
A quartz crystal is a passive electronic component used to generate highly accurate frequency signals in a circuit. Due to its piezoelectric properties, quartz vibrates at a stable rate when voltage is applied, making it indispensable in clocks, communication devices, and computing hardware.
Main Applications of Quartz Crystals
Quartz crystals are utilised in a wide range of electronic applications, such as:
Frequency oscillators: Providing clock signals in microcontrollers and processors.
Resonators: Maintaining stable transmission frequencies in communication systems.
Signal filters: Selecting or rejecting specific frequency bands in radios and TVs.
Timing devices: Used in precise timekeeping instruments and GPS modules.
Key Technical Features to Consider
When selecting a quartz crystal, you should evaluate the following:
Resonant frequency: The primary operating frequency of the crystal.
Frequency tolerance and stability: Ensures consistent performance over time and environmental changes.
Package type: Choose from through-hole or surface-mount (SMD) depending on the PCB design.
Why Choose Quartz Crystals from Electrónica Embajadores?
At Electrónica Embajadores, our selection of quartz crystals offers:
High quality: Products from trusted manufacturers and tested for durability and precision.
Wide variety: A comprehensive range of frequencies, tolerances, and casing options.
Expert guidance: Our technical team can help you find the best match for your project requirements.
How to Select the Right Quartz Crystal
To choose the ideal quartz crystal for your application, consider:
Required frequency: Match the crystal’s frequency to your system specifications.
Environmental conditions: Check operating temperature ranges and environmental durability.
Design compatibility: Ensure it works with your oscillator circuit and component layout.
