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Epson SG-9101CA Programmable Crystal Oscillator X1G005301003100 Applied to Automotive Digital Devices
Epson SG-9101CA, CMOS output programmable crystal oscillator X1G005301003100 applied to car digital devices
With the continuous progress of automotive electronic technology, the application of in car digital devices in automobiles is becoming more and more widespread. From navigation systems, entertainment systems to advanced driving assistance systems (ADAS), high-precision and high stability clock sources are required to ensure the normal operation of their functions. The Epson crystal oscillator SG-9101 series is a programmable crystal oscillator series with CMOS output. Although this series provides equally easy programmable Epsqn products with similar frequencies and other parameters as early ones, they also have a wider operating temperature range, with an upper limit of 105 ℃. In addition, this oscillator is packaged in a 2.5x2.0m package, which helps electronic manufacturers save circuit board space. It also offers the following common package sizes: 3.2x2.5mm, 5.0x3.2m, and 7.0x5.0m quartz crystal oscillators. Users can use EpsonSc writer II (sold separately) to program the product to the desired output frequency and spread spectrum settings. This will also greatly help improve performance, reduce power requirements, shorten development cycles, and achieve small-scale production. This product is widely used in communication devices such as clocks, digital products, in car digital devices, mobile phones, walkie talkies, digital cameras, IID tablets, optoelectronic technology, and various frequency control devices
features:
Spread spectrum crystal oscillator (programmable)
Output frequency: 0.67MHz to 170MHz (1x10-6 steps)
Output: CMOS
Power supply voltage: 1.62V to 3.63V
Configurable spreading settings: 2 spreading types, 6 spreading widths, 4 modulation frequencies, and 3 spreading modes.
Application advantages of SG-9101CA crystal oscillator in automotive digital devices
1. Ensure system synchronization and coordination: High precision and high stability crystal oscillators can provide stable clock signals for onboard digital devices, ensuring synchronization and coordination between various systems. For example, in navigation systems, precise clock signals can ensure the accuracy and real-time performance of positioning.
2. Improve system reliability: The high reliability characteristics enable the SG-9101CA crystal oscillator to operate stably for a long time, reducing the frequency of system failures and maintenance, improving the reliability and service life of onboard digital devices, ensuring driving safety and user experience.
3. Support for multifunctional integration: The miniaturized packaging design makes the SG-9101CA crystal oscillator very suitable for integration into various in car electronic devices, such as in car entertainment systems, navigation systems, in car communication systems, etc. It supports multifunctional integration and optimizes the interior space.
4. Adaptation to complex environments: The wide temperature range enables the SG-9101CA crystal oscillator to operate stably under various extreme in car environmental conditions, ensuring the normal operation of the equipment in both high temperature summers and low temperature winters, and adapting to various complex in car application scenarios.
5. Flexibly responding to multiple needs: The programmable function allows the crystal oscillator to flexibly set frequencies according to the needs of different onboard digital devices, meeting the frequency requirements of different applications, enhancing its versatility and flexibility.
Programmable crystal oscillators, which are still unfamiliar to many people, have actually been widely used in various precision electronic instruments. When popularizing programmable crystal oscillators, some people also have many knowledge blind spots about this' new product ', such as can both passive and active programmable crystal oscillators be burned? The only widely used and popular programmable crystal oscillator is active crystal oscillator. Because programmable crystal oscillators can be customized, they support many packaging standards. From international QF packaging to 7050, 5032, 3225, 2520 and even smaller 2016, customers can choose according to their needs. Similarly, they also support various working voltage matching such as 1.8V, 2.5V, 2.8V, 3.0V, 3.3V, etc. Some customers may confuse programmable crystal oscillators with temperature compensated crystal oscillators. In fact, programmable crystal oscillators are internally integrated with temperature compensation circuits and also have automatic temperature compensation functions.
| 产品编码 | 贴片晶振 | 型号 | 尺寸(长宽高) | 输出波 | 电源电压 | 工作温度 |
| X1G005301001100 | 66.666000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001200 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001300 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001400 | 6.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001500 | 20.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001600 | 48.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105℃ |
| X1G005301001700 | 64.100000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105℃ |
| X1G005301001800 | 6.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301001900 | 82.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105℃ |
| X1G005301002000 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002100 | 30.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002200 | 66.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002300 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002400 | 66.660000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002500 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002600 | 33.333300MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002700 | 66.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301002800 | 32.768000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105℃ |
| X1G005301002900 | 66.666700MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301003000 | 32.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85℃ |
| X1G005301003100 | 25.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105℃ |
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