Frequency Stability:	±25ppm
Current - Supply (Disable) (Max):	--
Height - Seated (Max):	0.035" (0.90mm)
Size / Dimension:	0.098" L x 0.079" W (2.50mm x 2.00mm)
Package / Case:	4-SMD, No Lead
Mounting Type:	Surface Mount
Ratings:	--
Current - Supply (Max):	15mA
Operating Temperature:	-10°C ~ 70°C
Series:	8W
Voltage - Supply:	3.3V
Output:	CMOS
Function:	Enable/Disable
Frequency:	36MHz
Type:	XO (Standard)
Base Resonator:	Crystal
Part Status:	Active
Packaging:	Tape & Reel (TR)

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Oscillators: 8W-36000MBA-T Application Field and Working Principle

Oscillators are important components in electronic devices. Without these components, no electronic device can work properly. The 8W-36.000MBA-T oscillator is one of the most widely used oscillators in different industries. This section will explain its application field and working principle.

Application Field

The 8W-36.000MBA-T oscillator is mainly used in various military radio communication systems, as well as multi-species high-frequency signal processing applications. It is also a reliable way to generate accurate and stable signals in portable communication devices, such as vacuum tube pulse radio receivers, as well as other applications such as small, medium, and large-scale operations, high-speed signal frequency operations, and some power amplification circuits with large signal levels.

Working Principle

The 8W-36.000MBA-T oscillator uses a quartz crystal oscillator circuit as its core. The working principle of the oscillator relies on the electromechanical properties of the quartz crystal oscillator. When a signal of a specific frequency is applied to the oscillator, the quartz crystal vibrates at its resonant frequency, which is determined by the physical properties of the crystal. As a result, the oscillator can emit signals with precise frequency stability, long-term accuracy, and superior phase noise suppression. The oscillator consists of two main components: the resonator and the oscillation circuit. The resonator is usually a quartz crystal and consists of two electrodes and a metal layer. When a voltage is applied to the electrodes, the quartz crystal will resonate at its specific frequency according to its electromechanical properties. The oscillation circuit is used to convert the resonator\'s mechanical oscillations into electrical signal, and also to maintain a precise frequency. The oscillation circuit is usually composed of transistors, capacitors, and resistors. For example, in a Pierce circuit, the capacitance of the quartz crystal is a capacitor in series with two transistors, and the modulation of current is connected with a resistor. The oscillation circuit amplifies the signal generated by the resonator, and the amplified signal is then sent to the output terminal. The signal generated by the oscillator is further processed in the frequency synthesizer to produce different frequency signals. This is achieved by using Phase-Locked Loops (PLLs) to perform frequency division. PLLs are circuits that allow control and modulation of the signal output frequency by using feedback loops. Then, the oscillator is used to generate modulation signals which are used in communication systems, such as Wi-Fi, and in other applications where signal stability is paramount.

Conclusion

The 8W-36.000MBA-T oscillator is a powerful and reliable oscillator which is used in a wide range of applications. Its main components are the resonator and the oscillation circuit, and it relies on the electromechanical properties of the quartz crystal for its performance. The signal generated by the oscillator is further processed in the frequency synthesizer for different frequency applications.

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