Q 27,120-JXS21-9-10/15-T1-FU-WA-LF Crystals, Oscillators, Resonators

Crystals are solid materials characterized by a uniform and very symmetrical arrangement of their atoms, molecules, or ions. These materials are also known to be able to vibrate at precise frequencies, making them useful for a range of applications, including radio frequency tuning and timing devices. One such crystal application, Q 27,120-JXS21-9-10/15-T1-FU-WA-LF, is used in the telecommunication industry and employs a unique, low-frequency tuning principle.

Before looking into the particulars of the Q 27,120-JXS21-9-10/15-T1-FU-WA-LF application field and working principle, let\'s first explore the basics of crystalline materials. As mentioned, these materials are characterized by a uniform, symmetrical arrangement of their atoms, molecules, or ions in three-dimensional space. In order for a material to be considered a crystal, its atoms, molecules, or ions must be arranged repeated over the material in the same form.

The symmetry of a crystal is specified by its crystallographic system, which can be either of the seven possible types ranging from cubic to monoclinic. Each crystallographic system also possesses a specific number of axes, up to seven in some cases, which describe the crystal structure. The specific type of crystallographic system primarily depends on the material itself, as well as its temperature and pressure.

Crystals are also known to be able to produce electrical currents when they are vibrated. The vibrational frequencies at which a crystal can vibrate are determined by its crystallographic system, as well as its size, shape, and material. In order to make use of this phenomenon, electric charges are applied to one side of the crystal, which then oscillates as a result of the charges. These oscillations then cause changes in electrical conditions, which in turn can be used to transmit or receive data.

Now let\'s delve into the specifics of the Q 27,120-JXS21-9-10/15-T1-FU-WA-LF crystal application. This application employs a special material, which is a derivative of quartz, allowing it to vibrate at very low frequencies. This allowed for tuning, in which the crystal can be adjusted to a specific frequency and then kept there. This is achieved by applying electrical charges to the crystal, thereby adjusting its frequency.

The Q 27,120-JXS21-9-10/15-T1-FU-WA-LF application field is primarily found in telecommunication, where it is used to transmit and receive radio signals. This is done by tuning the crystal to the proper frequency at which the signal is broadcast or received, allowing the crystal to act as an oscillator and transmitter or receiver, depending on the applications.

To sum up, the Q 27,120-JXS21-9-10/15-T1-FU-WA-LF application field and working principle involves a unique crystal material, derived from quartz, which is used to tune radio frequency signals. This application field is mainly found in the telecommunications industry, where it is used for transmitting and receiving data. The crystal is adjusted to a precise frequency by applying electric charges and then oscillates to achieve its purpose.