- [新闻资讯]遥遥领先的创新型奥斯康利OSC晶振有何差异化?2023年10月09日 15:45
遥遥领先的创新型奥斯康利OSC晶振有何差异化?,Oscilent Corporation是一家有着非凡影响力的频率控制设备制造商,致力于以最高水平的客户服务为客户提供低成本,高质量的产品。我们致力于丰富我们的客户和员工,并保持促进个人和职业发展的工作环境。我们认识到,盈利能力与我们以具有竞争力的价格为首要产品服务客户的能力直接相关,同时打磨创新型高质量的OSC晶振产品,以超越用户需求为最大的前提。
随着对于品质的追求越发高涨,也有会一个令人疑惑的点,那就是Oscilent公司的OSC晶振有何差异化的体现呢?
In the realm of electronics, precision is paramount. The accuracy of a device's operation often hinges on the stability of its frequency generation.
Nature, like a quartz crystal, is essential in pursuing precision. Modern electronics use a quartz crystal found in nature as a crystal oscillator. This blog post will explain the process of how this happens.
Understanding Quartz and Its Unique Properties Quartz is one of the most abundant minerals found on Earth. It's a semi-precious gemstone composed of silicon dioxide. Quartz crystals come in various types, including rock crystal, amethyst, citrine, rose quartz, smoky quartz, ametrine, jasper, carnelian, and agate. Beyond its aesthetic appeal, quartz has unique properties, making it a cornerstone of electronic devices.
Applying mechanical stress to quartz generates an electric charge, and people call this property piezoelectricity. Crystal oscillators, which many devices use, rely on the special properties of quartz crystals.
The Transformation Process
Turning a piece of raw crystal quartz into a functional crystal oscillator involves several steps. We perform each step meticulously to ensure that the resultant oscillator functions with the highest possible precision.
Cutting and Grinding
Start by cutting and grinding the raw quartz crystal into a thin wafer. Typically, it takes the shape of a rectangle or a tuning fork. The cutting of quartz affects the stability of its frequency due to its crystal lattice. Once cut, the wafer is further ground and lapped to achieve the desired thickness and parallelism.
Mounting and Encasing
After shaping the quartz wafer, we mount it between two electrodes, usually made of metal. These electrodes are essential for applying the voltage that will cause the quartz to vibrate. The quartz and electrode assembly is protected from temperature and humidity to maintain frequency stability.
Testing and Adjustment
The encased quartz crystal is now a basic crystal oscillator. However, engineers must test it for precision before using it in an electronic device. If the oscillator's frequency is off, we may need to adjust the thickness of the quartz wafer slightly. This testing and adjustment process continues until the oscillator operates at the desired frequency with an acceptable level of stability.
The Role of Quartz Oscillators in Electronics
Quartz crystal oscillators have become indispensable in the world of electronics. When electricity powers the quartz crystal, it vibrates at its special frequency, generating a signal with an exact frequency. This signal stabilizes clock signals in digital circuits, stabilizes frequencies in radios, and keeps time in wristwatches.
Quartz oscillators are everywhere, so you're probably always close to one, within a few feet, at any time. They exist in everything from cell phones and computers to car engines and satellite systems.
In Conclusion
From raw quartz crystal to electronic components, the journey combines nature and technology in a captivating way. It's a testament to human ingenuity that we've found ways to harness the unique properties of quartz for our purposes.
We provide high-quality quartz crystal oscillators for different purposes . We are excited to be a part of this journey.
The accuracy of our products depends on the quality of the quartz crystal we use. It also depends on how carefully we make them. You can learn more about our commitment to quality and the role of quartz in our products here.
When you use your phone or drive your car, think about the small piece of quartz. This small piece of quartz helps these devices work accurately. From raw quartz crystal to an indispensable part of modern electronics, it's truly a transformation journey.
在电子领域,精确度是最重要的。设备操作的准确性通常取决于其频率产生的稳定性。遥遥领先的创新型奥斯康利OSC晶振有何差异化?.
大自然就像石英晶体一样,在追求精确的过程中必不可少。现代电子学使用自然界中的石英晶体作为晶体振荡器。这篇博客文章将解释这是如何发生的过程。
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