TC-3.6864MDE-T

Frequency Stability:	±50ppm
Current - Supply (Disable) (Max):	--
Height - Seated (Max):	0.032" (0.80mm)
Size / Dimension:	0.126" L x 0.098" W (3.20mm x 2.50mm)
Package / Case:	4-SMD, No Lead
Mounting Type:	Surface Mount
Ratings:	--
Current - Supply (Max):	--
Operating Temperature:	-40°C ~ 85°C
Series:	TC
Voltage - Supply:	1.8V
Output:	CMOS
Function:	Enable/Disable
Frequency:	3.6864MHz
Type:	XO (Standard)
Base Resonator:	MEMS
Part Status:	Obsolete
Packaging:	Tape & Reel (TR)

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Oscillators: TC-3.6864MDE-T Application Field and Working Principle

Oscillators are an essential component in the design and engineering of electrical equipment. They are used in many electronic devices, from communication systems to power conversion systems. The applications of oscillators depend on the type of frequency generator used, and the purpose for which it is needed. One oscillator which has become increasingly popular in the industry is the TC-3.6864MDE-T, a crystal oscillator used for high frequency applications. This article will explore the application field and the working principle of the TC-3.6864MDE-T oscillator. The most common application field for the TC-3.6864MDE-T is in the communications industry. These oscillators are used in modem circuits, cellular telephones, cable and satellite TV receivers, and radio receivers for both frequencies sites as FM and AM. They are also used in aerospace applications, including navigational systems and aerospace instrumentation. Additionally, this type of oscillator is also used in digital signal processors (DSPs), microcontroller applications, and test and measurement equipment. The frequency of operation for this type of oscillator can be configured over a wide range. It can operate from as low as 40 kHz all the way up to 1 GHz. This wide range of frequency means it can be used in applications such as low frequency AM, mid range FM, and high frequency communication systems. It is also designed to have precise frequency generation, meaning it can be used for medical, precision scientific, and radar applications. Now that we have explored the application field of the TC-3.6864MDE-T, we can look closer at its working principle. As with other crystal oscillators the TC-3.6864MDE-T uses an oscillator circuit to convert a quartz crystal into an electrical signal. The quartz crystal has a frequency of its own determined by its geometric structure, and this underlying frequency is used as the reference signal for the oscillator circuit. The circuitry of the oscillator amplifies the electrical signal from the crystal in order to create useable signals for the applications it is intended for. This can be done by either an RC or LC oscillator circuit, both of which will produce a steady sine wave signal. If the oscillation frequency needs to be adjusted, it is done with the LC circuit by changing the values of the capacitors and inductors that form the circuit. Finally, the signal from the oscillator must pass through a resonance filter before it is used in the intended application. This filter will reject any unwanted noise interference picked up by the circuit while allowing only the desired frequency to pass through. In conclusion, the TC-3.6864MDE-T crystal oscillator is a versatile component for use in communications, aerospace, and precision scientific applications. Its wide range of frequency makes it useful in a variety of scenarios and its oscillator circuit is capable of producing precise signals. It is then filtered to isolate the desired frequency and make it usable for the application it was intended for.

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