Allicdata Part #: | SIT1602BC-82-30N-40.500000T-ND |
Manufacturer Part#: |
SIT1602BC-82-30N-40.500000T |
Price: | $ 0.45 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | SiTime |
Short Description: | -20 TO 70C, 7050, 25PPM, 3.0V, 4 |
More Detail: | 40.5MHz XO (Standard) HCMOS, LVCMOS Oscillator 3V ... |
DataSheet: | SIT1602BC-82-30N-40.500000T Datasheet/PDF |
Quantity: | 1000 |
3000 +: | $ 0.40625 |
Frequency Stability: | ±25ppm |
Current - Supply (Disable) (Max): | -- |
Height - Seated (Max): | 0.039" (1.00mm) |
Size / Dimension: | 0.276" L x 0.197" W (7.00mm x 5.00mm) |
Package / Case: | 4-SMD, No Lead |
Mounting Type: | Surface Mount |
Ratings: | -- |
Current - Supply (Max): | 4.5mA |
Operating Temperature: | -20°C ~ 70°C |
Absolute Pull Range (APR): | -- |
Series: | SiT1602B |
Voltage - Supply: | 3V |
Output: | HCMOS, LVCMOS |
Function: | -- |
Frequency: | 40.5MHz |
Type: | XO (Standard) |
Base Resonator: | MEMS |
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
In the world of modern technologies, Oscillators are an important component in various types of instruments and systems that are used for providing an accurate reference frequency, enabling data communication, synchronization and timing signals. One particular type of oscillator that is growing in popularity is the SIT1602BC-82-30N-40.500000T. Used in different applications, this oscillator is designed to offer high performance, reliability and accuracy while still being cost effective.
The SIT1602BC-82-30N-40.500000T oscillator is built using a variety of different components, including quartz crystals, capacitors and resistors. It is designed as a two-wire output, 65.536MHz oscillator, with a 40.5MHz center frequency and an operating range of temperature from -40oC to +85oC. The nominal power supply voltage of the device is 3.3V and the maximum operating current is 40mA. It is also built with an optimal pullability of <50ppm, providing good performance in terms of frequency accuracy and stability.
As an oscillator, the SIT1602BC-82-30N-40.500000T has several main applications. It can be used in computer and industrial systems as a frequency reference for data communication, such as USB, Ethernet or CAN. It can also be used in cellular phones as a timing reference for GSM and CDMA. This oscillator is also suitable for microprocessors and signal processors to provide accuracy and reliability for the operation of these devices.
The working principle of the SIT1602BC-82-30N-40.500000T oscillator is based on two main principles, namely the piezoelectric effect and the capacitive effect. A quartz crystal is used as the primary element of the oscillator, with the crystal itself acting as the timing element that provides stable and accurate frequency. The piezoelectric effect in the crystal causes it to vibrate at a certain frequency when an electric field is applied to it. The frequency at which the crystal vibrates is determined by the size and shape of the crystal itself.
The capacitive effect of the SIT1602BC-82-30N-40.500000T is used to provide signal amplification for the output of the crystal. Capacitors, along with a resistor, are connected in series or parallel to the crystal to form a resonator circuit. The signal from the crystal is amplified by the capacitive effect, with the frequency of the output determined by the circuit components.
The combination of the piezoelectric effect of the crystal and the capacitive effect of the resonator circuit is what gives the SIT1602BC-82-30N-40.500000T its accuracy, stability and reliability. These features, together with the fact that it is a cost effective solution, make it an ideal oscillator for applications in computers and other digital devices.
In conclusion, the SIT1602BC-82-30N-40.500000T is an oscillator that is ideal for use in computers, industrial systems, cellular phones, microprocessors and signal processors. It combines a quartz crystal with a capacitive circuit to provide accurate frequency reference, with stability and low power consumption added to the high reliability and cost effectiveness of the device completing the list of its advantages.
The specific data is subject to PDF, and the above content is for reference
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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, ... |
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