SG-210STF 13.5600ML3

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Oscillators: SG-210STF 13.5600ML3 Application Field and Working Principle

Oscillators are a type of electronic-circuitry device used to generate a wide range of possible sinusoidal output signals. In many cases, they are used for the transmission or detections of radio signals. The SG-210STF 13.5600ML3 oscillator utilizes a coaxial crystal version of the SAW resonator technology to provide frequency stability, low noise, and compact size. The result is an oscillator that is suitable for a variety of applications, including radio frequency (RF) identification (RFID) and other radio-based applications.

Overview

The SG-210STF 13.5600ML3 oscillator is one of the first products to utilize coaxial crystal planar electrode (CPE) SAW resonator technology. This technology was developed to provide a source of frequency stability and low noise signals in radio-based applications such as RFID readers, in which the oscillator is used to generate a carrier wave. Furthermore, the oscillator utilizes a coaxial crystal to partiallt reduce the noise level inherent in traditional SAW devices. This added measure of noise reduction makes the oscillator suitable for use in critical applications requiring higher precision and accuracy (for instance, in some medical imaging and scanning applications).

Application Fields

The SG-210STF 13.5600ML3 is a radio-frequency (RF) oscillator that is designed for use in a variety of RFID-based applications. For example, the oscillator can be used to generate a SAW carrier wave in RF identification systems. Furthermore, the oscillator\'s low noise output makes it suitable for applications in which higher accuracy and precision is required, such as medical imaging and scanning. The oscillator is also an ideal choice for radio communications and remote sensing devices.

Working Principle

The SG-210STF 13.5600ML3 utilizes a CPE SAW resonator for frequency stability and low noise operation. A CPE SAW resonator consists of two electrodes created by bonding an array of cylindrical post electrodes onto a thin film of quartz or similar material. The CPE SAW resonator also employes a coaxial crystal to reduce the amount of noise generated in the operating frequency range. The oscillator is designed to be used as a frequency source in RFID and radio-based applications, and it converts energy from an external source (such as an electrical supply) into a SAW waveform for transmission or detection.

The oscillator has two operating modes: continuous-wave (CW) and switched-mode. The CW mode is used when a constant waveform is required, and when the oscillator is used for transmitting data or other information. In switched-mode, the output of the oscillator is turned on and off at a predetermined frequency and duty cycle according to the requirements of the particular application. The oscillator can also be optimized for a specific application by adjusting the parameters of the oscillator, such as frequency, noise level, and duty cycle.

In operation, the oscillator generates a SAW waveform in response to an alternating electric current. This waveform is then amplified and sent out for transmission or detection as necessary. The oscillator then converts the incoming waveform back to an electrical signal and supplies power to the application.

The SG-210STF 13.5600ML3 oscillator is designed for use in a variety of RF and radio-based applications. Its low-noise and frequency stabilization features give it superior performance in a range of applications, such as RF identification and medical imaging and scanning. Furthermore, the oscillator can be optimized by adjusting key parameters for a particular application.

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