501HCA27M0000DAGR

Frequency Stability:	±20ppm
Current - Supply (Disable) (Max):	4.9mA
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):	4.9mA
Operating Temperature:	-40°C ~ 85°C
Series:	Si501
Voltage - Supply:	1.7 V ~ 3.6 V
Output:	LVCMOS
Function:	Enable/Disable
Frequency:	27MHz
Type:	CMEMS®
Base Resonator:	MEMS
Part Status:	Obsolete
Packaging:	Tape & Reel (TR)

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Introduction to Oscillators

An oscillator is an electronic device used to generate alternating current (AC) signals of a certain frequency and amplitude. The signals are usually used for communication purposes, or to control and measure various physical phenomena such as temperature or pressure. Oscillators can also be used in timing circuits or for frequency control. Oscillators are designed to produce a stable, repetitive, and accurately determined output waveform.One type of oscillator is the 501HCA27M0000DAGR. It is a micro-electronics based device which employs a quartz crystal to provide a highly stable frequency. It is designed specifically for use in communication systems, where reliability and an accurate frequency are essential. The device is relatively small, making it ideal for portable and mobile applications.

The Application and Working Principle of the 501HCA27M0000DAGR

The 501HCA27M0000DAGR has a wide range of applications in communication, automation, telecommunication, and automotive electronics, among others. Due to its small size and highly stable output, it is particularly useful in portable and mobile applications.The working principle of the 501HCA27M0000DAGR is fairly simple. A quartz crystal is used as the frequency reference. The crystal is connected to an oscillator circuit, which uses positive feedback to produce a stable, repetitive, and accurately determined output waveform. The output waveform is then used to control the frequency of the oscillator.The oscillator consists of an amplifier, which amplifies the input signal, and a filter, which removes any unwanted high-frequency noise. The oscillator circuit is also able to adjust its frequency in order to ensure that the output waveform is kept stable and accurate.The 501HCA27M0000DAGR also includes a range of additional features. It is able to detect and compensate for temperature changes, and it can be used with various control signals, including power supply, external timing, and phase-locked loop signals. The device is also highly tolerant to input noise and voltage fluctuations.

Conclusion

The 501HCA27M0000DAGR is a highly reliable and accurate oscillator which is suitable for a wide range of applications. Its small size and robust design make it ideal for portable and mobile applications. The oscillator is based on a quartz crystal for highly stable frequency, and its circuit is able to adjust its frequency in order to ensure that the output waveform is kept stable and accurate. The device is also highly tolerant to input noise and voltage fluctuations.

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