TB-12.200MCE-T

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Oscillators are usually used in various applications resulting from their capability to generate periodic signals. The TB-12.200MCE-T oscillator is one such device that incorporates the standard quartz-based design, making it reliable and accurate in its operation. In this article, the application areas and working principle of this oscillator will be discussed.

Application of TB-12.200MCE-T

By virtue of being based on a quartz-based design, the TB-12.200MCE-T is capable of producing a wide range of applications. To begin with, one of the key areas of application will be in communication systems where it is typically used to generate a carrier signal.

Furthermore, this oscillator is also used in frequency control systems, such as for radio frequency broadcasting, television, and mobile telecommunications. Additionally, the device is popularly used in systems that require accurate timing synchronization, such as with industrial process control systems and in commercial quadrature clocks.

Another application for the TB-12.200MCE-T oscillator is in frequency synthesizer systems, which are utilized in systems like frequency hopping radios and digital keyers, in addition to navigational and positioning systems. Finally, this piece of technology can also be used in systems like medical equipment, measuring meters, and military tracking systems.

Working Principle of TB-12.200MCE-T

The TB-12.200MCE-T oscillator works based on a quartz crystal circuit technology. Quartz crystals are known to possess piezoelectric properties and when a direct current is applied to them, they cause the crystal to vibrate at a specific frequency. This, in turn, generates a stable and accurate frequency signal.

The TB-12.200MCE-T oscillator incorporates several components within its design. The quartz crystal is the core component, which is then connected to series terminations such as capacitors, along with differential resistances, in order to form the crystal resonator circuit. This crystal resonator circuit assists in generating a repetitive sine wave signal.

Following this, the signal then passes through a buffer amplifier before eventually reaching the output terminal. This output terminal is known as ”waveform output” where the signal can then be made to travel along other circuits where it is needed.

One other noteworthy component of the TB-12.200MCE-T oscillator is an oscillation frequency compensation circuit. This is useful for controlling the frequency accuracy of the device, allowing flexibility in terms of the frequency at which it operates.

Apart from that, the oscillator also has a temperature control circuit which helps to manage any temperature variations that may occur with the quartz crystal. In addition to that, the device also has a input/output rating of 20mA in its design and comes in a hermetically sealed package.

Conclusion

In conclusion, the oscillator TB-12.200MCE-T is known to be a reliable and accurate quartz-based oscillator that is useful for a wide variety of applications ranging from communication systems to frequency synthesizer systems. Through this article, the application areas and working principle for this device have been discussed and it is clear that they offer excellent stability, accuracy, and flexibility.

The specific data is subject to PDF, and the above content is for reference