Allicdata Part #: | SIT1602BC-71-30N-66.666000G-ND |
Manufacturer Part#: |
SIT1602BC-71-30N-66.666000G |
Price: | $ 0.64 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | SiTime |
Short Description: | -20 TO 70C, 2016, 20PPM, 3.0V, 6 |
More Detail: | 66.666MHz XO (Standard) HCMOS, LVCMOS Oscillator 3... |
DataSheet: | SIT1602BC-71-30N-66.666000G Datasheet/PDF |
Quantity: | 1000 |
250 +: | $ 0.57718 |
Frequency Stability: | ±20ppm |
Current - Supply (Disable) (Max): | -- |
Height - Seated (Max): | 0.032" (0.80mm) |
Size / Dimension: | 0.079" L x 0.063" W (2.00mm x 1.60mm) |
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: | 66.666MHz |
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
Oscillators are essential and widely used components in electronics. An oscillator is an electronic circuit that produces a continuous waveform output signal. A SIT1602BC-71-30N-66.666000G oscillator, a type of quartz oscillator, works by vibrating the quartz crystal crystal, producing alternating electric currents as a result of the quartz’s characteristics of piezoelectricity. This alternating current then creates a fixed frequency, which can be used for many applications. The SIT1602BC-71-30N-66.666000G oscillator is a popular model of quartz oscillator, offering superior stability, accuracy, and reliability.
The SIT1602BC-71-30N-66.666000G oscillator is a highly precise, extremely stable quartz oscillator that offers accuracy and long-term reliability. It utilizes quartz crystals to generate signals of an extremely stable frequency. This type of quartz crystal oscillator uses a combination of two quartz crystals and is composed of several components. Quartz crystal oscillators operate using piezoelectricity, which is the characteristic of quartz that causes it to produce electricity when a mechanical stress is applied.
The oscillator begins to vibrate when a voltage is applied to the quartz crystal in the oscillator. The vibration of the quartz creates an alternating electric current that is known as electrical noise. The electrical noise resonates around the oscillator circuit and produces a signal known as a sine wave. This signal is then used as the clock source for circuit timing.
The SIT1602BC-71-30N-66.666000G oscillator provides a wide range of applications in the electronics field. It can be used in the design of digital and analog systems, in embedded chips for timing, and in wireless communications systems. This type of quartz oscillator is also ideal for precision timing in compute server applications, due to its excellent accuracy and stability. It is also used in precision data collection systems and in inertial navigation systems.
The SIT1602BC-71-30N-66.666000G oscillator offers excellent performance in many applications. It is designed to provide high accuracy and to eliminate jitter, meaning it is capable of supplying frequencies that are accurate and repeatable. The oscillator is designed to guarantee low temperature sensitivity and high shock resistance. It is also designed to be electromagnetic interference resistant, meaning it can be used in sensitive operations requiring high precision and accuracy.
In conclusion, the SIT1602BC-71-30N-66.666000G oscillator is a popular model of quartz crystal oscillator, offering superior stability, accuracy, and reliability. It utilizes quartz crystals to generate signals of an extremely stable frequency and is used in a wide range of applications in the electronics field. This type of quartz oscillator is ideal for precision timing in compute server applications, due to its excellence in accuracy and stability. The oscillator is also designed to guarantee low temperature sensitivity and high shock resistance, as well as being electromagnetic interference resistant.
The specific data is subject to PDF, and the above content is for reference
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SIT1602BI-72-30S-40.000000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
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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, ... |
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SIT1602BI-72-30S-8.192000D | SiTime | 0.43 $ | 1000 | -40 TO 85C, 2016, 25PPM, ... |
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