Allicdata Part #: | 500DDAB100M000ACFR-ND |
Manufacturer Part#: |
500DDAB100M000ACFR |
Price: | $ 0.95 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | Silicon Labs |
Short Description: | SILICON OSC; DIFF; 0.9-200 MHZ |
More Detail: | 100MHz XO (Standard) HCSL Oscillator 3.3V Enable/D... |
DataSheet: | 500DDAB100M000ACFR Datasheet/PDF |
Quantity: | 1000 |
1000 +: | $ 0.85491 |
Frequency Stability: | ±10ppm |
Current - Supply (Disable) (Max): | 10.7mA |
Height - Seated (Max): | 0.035" (0.90mm) |
Size / Dimension: | 0.157" L x 0.126" W (4.00mm x 3.20mm) |
Package / Case: | 6-SMD, No Lead |
Mounting Type: | Surface Mount |
Ratings: | -- |
Current - Supply (Max): | 29.3mA |
Operating Temperature: | 0°C ~ 70°C |
Absolute Pull Range (APR): | -- |
Series: | Si500D |
Voltage - Supply: | 3.3V |
Output: | HCSL |
Function: | Enable/Disable |
Frequency: | 100MHz |
Type: | XO (Standard) |
Base Resonator: | Crystal |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
An oscillator is an electrical circuit or device capable of generating and sustaining steady sinusoidal electrical waves. Oscillators enable convert electricity in the form of regular, alternating current to oscillating electromagnetic waves. Oscillators can produce very low frequencies like a hundredth of a hertz up to very high frequencies, such as tens of gigahertz, and can be used in many practical applications.
A 500DDAB100M000ACFR oscillator is a type of electronic oscillator signal, typically used in data communication systems. The signal is created using Frequency Division Multiplexing (FDM), which divides an electrical signal into multiple signals by assigning different frequencies to each signal. It is essentially a standardized output signal used for transmitting information electronically over a carrier wave.
The 500DDAB100M000ACFR oscillator is composed of an amplifier, a mixer, an oscillator, a frequency multiplier, a filter and an attenuator. The amplifier boosts the input signal. The mixer combines the amplified signal with an oscillating signal from the oscillator to produce a higher frequency signal. The frequency multiplier then multiplies the frequency of the output of the mixer to produce a signal that is in a higher frequency range. The filter then passes the desired signal and rejects excess noise. Finally, the attenuator reduces the amplitude of the signal to match the output requirements of the process. This oscillator has a bandwidth of 500MHz and is capable of producing a signal up to 1 GHz.
The 500DDAB100M000ACFR oscillator is used in many practical applications such as measurement, control, and data communication. The oscillator is often used in telecommunications, where it is used to generate signals for synchronization between multiple devices. It is also used in medical equipment to produce clean, accurate signals for precise measurements. Additionally, the oscillator is used in wireless communication systems for time division multiplexing and frequency hopping.
The working principle of the 500DDAB100M000ACFR oscillator is based on the process of frequency division multiplexing. The oscillator first amplifies the input signal, then combines the amplified signal with an oscillating signal from the oscillator to produce a higher frequency signal. This signal is then multiplied by the frequency multiplier to produce a signal having a higher frequency. The filter then passes the desired signal and rejects the excess noise, before the attenuator reduces the amplitude of the signal to match the output requirements of the process.
In conclusion, the 500DDAB100M000ACFR oscillator is an essential tool in many applications and industries. It is capable of producing signals with frequencies up to 1 GHz, and is used in telecommunications, medical equipment, and wireless communication systems. Its working principle relies on the process of frequency division multiplexing, which involves amplifying the input signal, mixing it with an oscillating signal, multiplying the frequency, and then passing the desired signal and rejecting the excess noise.
The specific data is subject to PDF, and the above content is for reference
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