CMOS output crystal oscillator SG5032CCN suitable for mobile communication devices

Jun 18,2024
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Epson's SG5032CCN is a CMOS output crystal oscillator designed for high stability and low-power applications. It is very suitable for mobile communication devices, which require high-precision clock sources to ensure reliable communication and data transmission. The SG5032CCN crystal oscillator has become an ideal choice in mobile communication devices due to its high frequency stability, low power consumption, and miniaturization design. It not only improves the communication quality and reliability of devices, but also provides a solid clock foundation for various mobile applications. With the continuous development and popularization of mobile communication technology, SG5032CCN will continue to play an important role in high-performance communication devices.

SG5032CCN is a CMOS output crystal oscillator with a small volume size of 5.0x3.2mm four pin chip oscillator, active crystal oscillator, power supply voltage of 4.5V to 5.5V, and frequency range of 2.5MHz to 50MHz. Featuring ultra small size, lightweight, low jitter, low power consumption, high performance, and high quality, the crystal oscillator has a frequency of 20.000MHz and a frequency tolerance of ± 50ppm. It can operate stably in temperatures ranging from -40 ℃ to+85 ℃.

The application of SG5032CCN in mobile communication devices has significant advantages:

1. Base stations and small base stations: Mobile communication base stations require high-precision clock sources to achieve synchronization and data transmission. The high stability and precise clock signal of SG5032CCN help improve the communication quality and reliability of base stations.

2. Smartphones: Smartphones have many subsystems that require precise clock sources to coordinate their work, such as processors, wireless modules, and sensors. The miniaturization design and low power consumption characteristics of SG5032CCN are very suitable for smartphone applications.

3. Wireless communication modules: such as Wi Fi, Bluetooth, and LTE modules, which require a stable clock source to ensure efficient data transmission and communication quality. The high frequency stability and low phase noise clock signal provided by SG5032CCN help improve the performance of these modules.

4. Internet of Things (IoT) devices: Many IoT devices require long-term stable communication connections and low power consumption to extend battery life. The high stability and low power consumption characteristics of SG5032CCN are very suitable for these application scenarios.