Allicdata Part #: | SIT1602BC-22-25N-33.330000G-ND |
Manufacturer Part#: |
SIT1602BC-22-25N-33.330000G |
Price: | $ 0.67 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | SiTime |
Short Description: | -20 TO 70C, 3225, 25PPM, 2.5V, 3 |
More Detail: | 33.33MHz XO (Standard) HCMOS, LVCMOS Oscillator 2.... |
DataSheet: | SIT1602BC-22-25N-33.330000G Datasheet/PDF |
Quantity: | 1000 |
250 +: | $ 0.60611 |
Frequency Stability: | ±25ppm |
Current - Supply (Disable) (Max): | -- |
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): | 4.2mA |
Operating Temperature: | -20°C ~ 70°C |
Absolute Pull Range (APR): | -- |
Series: | SiT1602B |
Voltage - Supply: | 2.5V |
Output: | HCMOS, LVCMOS |
Function: | -- |
Frequency: | 33.33MHz |
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 have been used in numerous applications ranging from clock generators to radio transmissions. One of the most popular and useful oscillators is the SIT1602BC-22-25N-33.330000G oscillator. This oscillator provides users with a combination of stability, low power consumption, low noise, and low-cost features suitable for use in many applications, including: microprocessor-based systems, medical equipment, embedded controllers, communication devices, and consumer electronics.
The working principle of the SIT1602BC-22-25N-33.330000G oscillator is based on the concept of inverted phase shift oscillation. To understand this concept, it is important to review some basic electronics fundamentals. The primary purpose of an oscillator is to generate an electrical signal at a predetermined frequency, and this is accomplished by using a feedback loop. In the case of a phase shift oscillator, the feedback loop is composed of four passive components: an inductor, a capacitor, a resistor, and a diode. The feedback loop is connected to the input of an amplifier, such as a transistor or operational amplifier.
The basic theory of the inverted phase shift oscillator is as follows. When the input signal to the amplifier is equal to the feedback loop signal, the output of the amplifier will be zero. However, when the input signal is greater then the feedback loop signal, the output of the amplifier will be positive. As the input signal continues to increase, it will eventually reach a point where it exceeds the feedback loop signal and it will begin to invert the phase of the signal. This inverted phase shift is what causes the feedback loop to oscillate, resulting in an output signal from the amplifier that is equal to the predetermined frequency of the oscillator.
The SIT1602BC-22-25N-33.330000G oscillator is suitable for many applications requiring low power consumption, low noise, and low-cost features. It is ideal for microprocessor-based systems where precise, stable frequency control is required. The low power consumption and low noise features make it ideal for use in medical equipment where sensitivity is important. It is also suitable for embedded controllers, communications devices, and consumer electronics where power efficiency and low cost are key considerations.
In summary, the SIT1602BC-22-25N-33.330000G oscillator is an ideal choice for many applications requiring low power consumption, low noise, and low-cost features. The working principle of the oscillator utilizes the inverted phase shift concept, which creates a feedback loop that oscillates to generate a signal of a predetermined frequency. This oscillator is an excellent choice for a variety of applications ranging from microprocessor-based systems to medical equipment and consumer electronics.
The specific data is subject to PDF, and the above content is for reference
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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, ... |
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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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