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1 to 110 MHz, Wide Temperature (-55 to +125°C) SOT23 Oscillator
LoginThe SiT2020B oscillator comes in a SOT23 package for the best board-level solder joint reliability and low-cost, optical-ONLY board-level inspection. This device features a wide frequency range, excellent stability, and the shortest lead time for industrial, medical, automotive, avionics, and other high-temperature applications. This device also features the industry's best 0.1 ppb/g vibration sensitivity, 50,000 g shock and 70 g vibration resistance.
For the same device in SMD packages, refer to the SiT8920B clock oscillator.
Program oscillators to get instant samples, optimized performance, and fast prototyping | Learn More
View related products: 119 to 137 MHz | QFN package | Automotive | Automotive & High Temp lineup
| "Specs" | "Value" |
|---|---|
| Oscillator Type | XO-SE |
| Frequency | 1 to 110 MHz |
| Frequency Stability (ppm) | ±20, ±25, ±50 |
| Phase Jitter (rms) | 1.3 ps |
| Output Type | LVCMOS |
| Operating Temperature Range (°C) | -55 to +125 |
| FlexEdgeTM Rise/Fall Time | Yes |
| Voltage Supply (V) | 1.8, 2.5 to 3.3 |
| Package Type (mm²) | SOT23 (2.9x2.8) |
| Features | Field programmable, Military temperature -55 to 125°C, SOT23-5 |
| Availability | Production |
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Image: SiT2020b SOT-23 5-pin package, top & bottom
Unique combination of
- ±20 ppm
- -55 °C to 125 °C operating temperature range
- Small SOT23-5 package:
- Best-in-class stability over extreme temperature range for outdoor applications;
0.1 ppb/g low g-sensitivity
- No performance degradation in harsh environments;
70 g vibration and 50,000 g shock
- Indestructible;
FlexEdge™ rise/fall time
- Optimize EMI to reduce interference to other subsystems;
SOT23-5 package
- Best board-level solder joint reliability
- Easy, low-cost, optical-only, board-level inspection of solder joint;
Ultra-fast lead time (4 to 6 weeks)
- Reduce inventory overhead
- Mitigate shortage risk
- Oil exploration drilling
- Power amplifiers
- Industrial motors
- Pressure meters
- Aerospace equipment
- Radar
- Avionics
- SiT2020 7.3728MHz LVCMOS
- SiT2020 8.192MHz LVCMOS
- SiT2020 8MHz LVCMOS
- SiT2020 9.8304MHz LVCMOS
- SiT2020 9.84375MHz LVCMOS
- SiT2020 11.0592MHz LVCMOS
- SiT2020 12.288MHz LVCMOS
- SiT2020 12MHz LVCMOS
- SiT2020 13.52127MHz LVCMOS
- SiT2020 13.225625MHz LVCMOS
- SiT2020 13MHz LVCMOS
- SiT2020 14.7456MHz LVCMOS
- SiT2020 14.31818MHz LVCMOS
- SiT2020 15MHz LVCMOS
- SiT2020 16.384MHz LVCMOS
- SiT2020 16MHz LVCMOS
- SiT2020 18.432MHz LVCMOS
- SiT2020 19.6608MHz LVCMOS
- SiT2020 20MHz LVCMOS
- SiT2020 22.1184MHz LVCMOS
- SiT2020 24.56MHz LVCMOS
- SiT2020 24.576MHz LVCMOS
- SiT2020 24MHz LVCMOS
- SiT2020 25MHz LVCMOS
- SiT2020 26MHz LVCMOS
- SiT2020 27MHz LVCMOS
- SiT2020 29.4912MHz LVCMOS
- SiT2020 30MHz LVCMOS
- SiT2020 32MHz LVCMOS
- SiT2020 33MHz LVCMOS
- SiT2020 36MHz LVCMOS
- SiT2020 40MHz LVCMOS
- SiT2020 48MHz LVCMOS
- SiT2020 50MHz LVCMOS
- SiT2020 54MHz LVCMOS
- SiT2020 60MHz LVCMOS
- SiT2020 62.5MHz LVCMOS
- SiT2020 66MHz LVCMOS
- SiT2020 72MHz LVCMOS
- SiT2020 74.25MHz LVCMOS
- SiT2020 74.176MHz LVCMOS
- SiT2020 74.175824MHz LVCMOS
- SiT2020 75MHz LVCMOS
- SiT2020 77.76MHz LVCMOS
- SiT2020 100MHz LVCMOS
Evaluation Board (Contact SiTime) – SiT6907 (2928 SOT23-5)
Time Machine II Programmer – Program frequency, voltage, stability & more
Frequency Slope (dF/dT) Calculator – Calculate frequency slope over temperature
Reliability Calculator – Get FIT/MTBF data for various operating conditions
SOT 23 5-Pins 3D Step Model – Preview oscillator packages in 3D
