Allicdata Part #: | SIT1618AE-23-33E-12.000000D-ND |
Manufacturer Part#: |
SIT1618AE-23-33E-12.000000D |
Price: | $ 0.45 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | SiTime |
Short Description: | OSC MEMS 12.0000MHZ LVCMOS LVTTL |
More Detail: | 12MHz XO (Standard) LVCMOS, LVTTL Oscillator 3.3V ... |
DataSheet: | SIT1618AE-23-33E-12.000000D Datasheet/PDF |
Quantity: | 1000 |
3000 +: | $ 0.40439 |
Frequency Stability: | ±50ppm |
Current - Supply (Disable) (Max): | 4.5mA |
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): | 4.7mA |
Operating Temperature: | -40°C ~ 105°C |
Series: | SiT1618 |
Voltage - Supply: | 3.3V |
Output: | LVCMOS, LVTTL |
Function: | Enable/Disable |
Frequency: | 12MHz |
Type: | XO (Standard) |
Base Resonator: | MEMS |
Part Status: | Not For New Designs |
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
Oscillators
Oscillators are electronic circuits that have multiple stages of feedback configured to produce a regular alternating waveform output. The regular output of an oscillator is used in numerous different applications in the modern world, including to provide a precise source of timing and frequency signals for control and communication applications. One particular type of oscillator used frequently today is the SIT1618AE-23-33E-12.000000D oscillator.
Application Field
The SIT1618AE-23-33E-12.000000D oscillator is designed to be used in a wide range of pure digital applications, with a primary use for generating a clock signal of very precise and consistent frequency and phase. It is used particularly in radio systems, telecommunications, medical imaging systems, satellite communications, Gigabit Ethernet networks, and data storage systems.
In all of these applications, a regular clock signal of precise and consistent frequency and phase is essential for optimum operation. The SIT1618AE-23-33E-12.000000D oscillator is well suited to these applications owing to its low jitter and tight tolerance specifications, which guarantee a stable and reliable output signal.
Working Principle
The working principle of the SIT1618AE-23-33E-12.000000D oscillator is based on the Miller effect, where an capacitance and inductance is used to generate an oscillatory system. This system is composed of an amplifier circuit, with the negative feedback network constructed of two RC branches that form a T-network. This T-network is located between the output and inverting input of the amplifier, and it’s initial conditions are set so that the amplifier starts off in a condition which leads to oscillation.
The oscillator is designed to operate at a specific frequency. This frequency is determined by the Miller effect, and it is set by adjusting the capacitor-resistor value of the T-network. This is the frequency at which the oscillator clock will generate a signal with zero phase distortion.
The feedback path also plays an important role in maintaining the quality of the signal output from the SIT1618AE-23-33E-12.000000D oscillator. This path refers to the connection from the output of the amplifier back to the inverting input of the amplifier. This allows the oscillator to remain running at its normal frequency even when the signal from the amplifier output is subject to external interference and distortion.
Conclusion
The SIT1618AE-23-33E-12.000000D oscillator is an example of state-of-the-art circuitry used in digital applications to provide stable and reliable clock signals of very precise and consistent frequency and phase for numerous applications, including radio systems, telecommunications, medical imaging systems, satellite communications, Gigabit Ethernet networks, and data storage systems. Such oscillators rely on the Miller effect to generate a regular oscillatory output, with the frequency of the signal determined by the capacitor-resistor value of the feedback path. The feedback path of the oscillator also plays an important role in ensuring the quality of the signal output is maintained in the presence of external interference.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
SIT1602BI-72-30S-33.300000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-33.330000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-33.333000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-33.333300D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-33.333330D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-35.840000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-37.500000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-38.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-38.400000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-4.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-4.096000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-40.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-40.500000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-48.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-50.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-54.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-6.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-60.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-62.500000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-65.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.600000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.660000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.666000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.666600D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-66.666660D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-7.372800D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-72.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-74.175824D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-74.176000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-74.250000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-75.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-77.760000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-30S-8.192000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-10.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-14.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-18.432000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-19.200000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-20.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
SIT1602BI-72-33E-24.576000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
-20 TO 70C, 2520, 10PPM, 1.8V, 2Oscillat...
-20 TO 70C, 2520, 10PPM, 1.8V, 2Oscillat...
-20 TO 70C, 2520, 10PPM, 1.8V, 2Oscillat...
-20 TO 70C, 3225, 10PPM, 1.8V, 2Oscillat...
-20 TO 70C, 3225, 10PPM, 1.8V, 2Oscillat...
-20 TO 70C, 3225, 10PPM, 1.8V, 2Oscillat...