DSC1001BL2-048.0000T

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Oscillators: DSC1001BL2-048.0000T

An oscillator, as the name implies, oscillates. The way in which it does this is by a frequency, or cycle of time, continuous through a circuit\'s passive components. Oscillators are components used to create an electronic signal that is regularly and consistently sustained between two levels of a given voltage range.

In this article, we will discuss the application field and working principle of the DSC1001BL2-048.0000T oscillator.

Application Field

The DSC1001BL2-048.0000T oscillator is primarily used in industrial and commercial applications, such as in radio, television, and computer systems. It is also suited for temperature, pressure, and flow monitors in the automotive and aviation sectors, in addition to systems that require frequency synthesizers.

Working Principle

The DSC1001BL2-048.0000T oscillator works by transferring electric current through a flow integrating transformer. When the oscillator starts, electric current starts flowing through the transmission line and the transformer core. The magnetic field that is produced is proportional to the current that passes through the transformer core. The magnetic field produced is then used to create an electric current on the opposite side of the transformer, which is repeatedly transferred back and forth until the oscillation dampens.

The generated electric current passes through a resistor-capacitor (RC) network, which helps maintain the oscillation frequency. The resistor-capacitor network works by controlling the current flow so that the magnetic field is “refreshed” each time the oscillation passes through it. This continuous redistribution of energy enables the oscillator to continue oscillating, thus creating a stable electrical frequency.

Finally, the output current is sent to the load connected to it, providing voltage and current necessary for the specific application.

Benefit

The DSC1001BL2-048.0000T oscillator offers many advantages, such as:

• High working frequency range
• Excellent crosstalk and isolation between outputs
• Low phase jitter and noise level
• High stability over temperature
• Excellent power supply rejection ratio

The oscillator is extremely reliable, featuring excellent shock and vibration immunity. It is also highly immune to EMI, making it a great choice for applications in a wide range of industries.

Conclusion

The DSC1001BL2-048.0000T is an oscillator designed for industrial and commercial applications. It works by transferring electric current through a flow integrating transformer and an RC network, and provides a stable electrical frequency with low phase jitter and noise. It is reliable and can withstand shock and vibration, as well as EMI. All in all, the oscillator is an excellent choice for many industrial applications.

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