Oscillators are electrical components that generate an electrical signal of a certain frequency. Oscillators are used to provide stable and accurate signals for radio receivers, transmitters, integrated circuits, and other electronic equipment.SG-8002CE 24.5760M-PCMB oscillators are one of the types of oscillators available. This article will discuss the application field and working principle of SG-8002CE 24.5760M-PCMB oscillators.
Application Field
SG-8002CE 24.5760M-PCMB oscillators are suited for applications requiring stability and accuracy over the wide range of temperatures in both commercial (0°C to +70°C) and industrial (-20°C to +85°C) grade conditions, from broadcast to communications and measuring systems. This oscillator can be used as a frequency reference in almost any application that requires a highly stable signal as a reference clock. Some applications include cellular base station, microwave radio, medical and industrial measurement equipment, digital signal processing (DSP) systems, and Servers.
Working Principle
SG-8002CE 24.5760M-PCMB oscillators consist of an oscillator circuit including an amplifier, a resonator, and a feedback resistor. The frequency of the oscillation is determined by the resonator, which is typically a quartz crystal. The feedback resistor is used to provide a positive feedback signal to the amplifier, which then amplifies the signal and sends it back to the resonator, creating a repeated cycle of oscillation. This cycle of oscillation is then output from the oscillator circuit.
The frequency of oscillation can be adjusted by changing the value of the feedback resistor, thus changing the amount of positive feedback and the frequency of oscillation. SG-8002CE 24.5760MHz oscillators are designed for frequency stability over temperature. This stability is provided by the use of a temperature compensating resistor that alters the frequency of oscillation as the temperature changes in order to maintain consistency.
Conclusion
SG-8002CE 24.5760MHz oscillators are used in a wide range of applications that require stable and accurate signals over a wide range of temperatures. The oscillator circuit includes an amplifier, a resonator, and a feedback resistor, with the frequency determined by the resonator. The feedback resistor is used to ensure a positive feedback signal is sent back to the amplifier. The oscillator also includes a temperature compensation resistor, which is used to keep the frequency consistent over various temperatures.