Allicdata Part #: | DSC557-0341FE1-ND |
Manufacturer Part#: |
DSC557-0341FE1 |
Price: | $ 0.00 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | Microchip Technology |
Short Description: | OSC MEMS 100.000MHZ PCIE SMD |
More Detail: | 100MHz XO (Standard) HCSL, LVCMOS Oscillator 2.25 ... |
DataSheet: | DSC557-0341FE1 Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Frequency Stability: | ±50ppm |
Current - Supply (Disable) (Max): | 23mA |
Height - Seated (Max): | 0.035" (0.90mm) |
Size / Dimension: | 0.126" L x 0.098" W (3.20mm x 2.50mm) |
Package / Case: | 14-SMD, No Lead |
Mounting Type: | Surface Mount |
Ratings: | -- |
Current - Supply (Max): | 60mA (Typ) |
Operating Temperature: | -20°C ~ 70°C |
Series: | DSC557-03 |
Voltage - Supply: | 2.25 V ~ 3.6 V |
Output: | HCSL, LVCMOS |
Function: | Enable/Disable |
Frequency: | 100MHz |
Type: | XO (Standard) |
Base Resonator: | MEMS |
Part Status: | Active |
Packaging: | Tube |
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Oscillators are electronic tools that vibrate with a frequency that is determined by a circuit within. Oscillating circuits are employed in a variety of applications, including frequency synthesis, processing of communication signals, monitoring of system parameters, and converting analog signals to digital signals. The DSC557-0341FE1 Oscillator is designed to produce a square waveform with low distortion, low output impedance, and precise frequency control. This article is focused on the application field and working principle of DSC557-0341FE1 Oscillator.
Application Field of DSC557-0341FE1 Oscillator
Due to its special design and square wave applications, the DSC557-0341FE1 oscillator is particularly useful for low power two-wire digital communication applications. This oscillator is highly suitable for the specific requirement of two-wire bus systems, such as I2C, SPI, and CAN bus. It is also useful in other communication systems as a bit-rate controller in receiving and transmitting paths. Additionally, this oscillator can be used for testing purposes, where standard frequencies are used to introduce and detect errors. It can also be used in dynamic processes, where the frequency of a signal needs to be accurately controlled.
Working Principle of the DSC557-0341FE1 Oscillator
The DSC557-0341FE1 Oscillator uses a square waveform, which is generated through several stages. First, a high-precision crystal resonator is used to provide a consistent frequency that is determined by the capacitance of the resonator. This signal is then amplified by an amplifier to produce enough energy to be converted into a square wave. The output of the amplifier is then sent through a set of flip-flops to produce a square waveform. Finally, the output of the flip-flops is then sent through a low-pass filter to remove any unwanted noise from the signal.
The frequency of the output signal from the DSC557-0341FE1 can be precisely controlled by adjusting the capacitance of the oscillator\'s resonator. This is done by changing the frequency of the crystal oscillator, which will cause the output signal to correspondingly change. This circuit also allows for fine-tuning of the frequency to ensure the highest accuracy. The output of the oscillator is then sent to the application that needs it.
In addition, the DSC557-0341FE1 oscillator features a low-power design which is ideal for communication systems where energy conservation is important. This is achieved by using CMOS technology and only consuming the energy necessary to produce the square waveform. This not only ensures an efficient oscillation but also a reliable output with low power consumption.
Conclusion
The DSC557-0341FE1 Oscillator is an ideal choice for applications that require consistent frequency with precision control and low-power operation. This oscillator is designed to provide a low-distortion, low-output impedance, and square waveform output with precise frequency control. The oscillator is also suitable for two-wire digital communication application such as I2C, SPI, and CAN bus, and can be used for frequency synthesis, signal processing, and in dynamic systems to accurately control the frequency of a signal.
The specific data is subject to PDF, and the above content is for reference
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