SG2016CAN active crystal oscillator X1G00480106000 is suitable for IoT applications

    Internet of Things (IoT) devices have extremely high requirements for stable and reliable clock sources to ensure the accuracy of data transmission, processing, and synchronization. Epson's SG2016CAN active crystal oscillator model X1G004801006000, with its outstanding performance and adaptability, has become an ideal choice for IoT applications. It not only meets the strict requirements of IoT devices for clock sources, but also optimizes device performance and energy efficiency, making it a key component in improving the overall performance of IoT systems.

    Epson SG2016CAN crystal oscillator is a small-sized quartz crystal oscillator (SPXO) with a size of 2.0x1.6mm. It supports CMOS output levels, four pin surface mount crystal oscillator, active crystal oscillator, and a wide operating voltage and temperature range from -40 ° C to 85 ° C from 1.6V to 3.63V. In addition, the highest operating temperature can reach 105 ° C. It has the characteristics of ultra small, lightweight, low jitter, low power consumption, low loss, low energy consumption, low current consumption, etc., and is very suitable for various applications such as the Internet of Things, wearable devices, medical, industrial automation, etc.

The advantages of SG2016CAN active crystal oscillator

1. High frequency stability

Accurate clock signal: SG2016CAN provides a frequency of up to 48MHz, ensuring high-frequency clock requirements in IoT devices. This frequency stability supports fast data processing and real-time communication of the device, improving the reliability and efficiency of the overall system.

2. Low power design

Extending device battery life: Energy efficiency is a key consideration in IoT applications. The low-power design of SG2016CAN ensures the energy efficiency of devices during long-term operation, making it suitable for various battery powered IoT devices and reducing the need for battery replacement.

3. Compact packaging

Space saving: SG2016CAN adopts a compact packaging design, making it suitable for IoT devices with limited space. This miniaturized packaging not only saves circuit board space, but also allows for more flexible and compact device design.

4. High temperature stability

Adapt to various environments: SG2016CAN has good high-temperature stability, allowing it to work stably under various environmental conditions. This is particularly important for IoT devices that need to operate in high or changing temperature environments.

5. High anti-interference ability

Enhance communication stability: In wireless communication and data transmission, the high anti-interference ability of SG2016CAN ensures the stability and accuracy of signals. This is crucial for the wireless module of IoT devices, as it can reduce data loss and communication errors.

The use of SG2016CAN crystal oscillator in IoT applications:

1. Wireless sensor network

Accurate data collection and transmission: The high-frequency stability provided by SG2016CAN supports precise data collection and real-time transmission of wireless sensors, ensuring the reliability and consistency of data.

2. Smart home devices

Enhance system performance: Smart home devices such as smart light bulbs and smart door locks rely on stable clock signals to coordinate the operation of different modules. The low power consumption and high stability of SG2016CAN make it an ideal choice.

3. Industrial Internet of Things

Improving device reliability: In industrial IoT applications, the high temperature stability and anti-interference ability of SG2016CAN enhance device reliability, ensuring the accuracy of data acquisition and processing in industrial environments.

4. Intelligent Agriculture

Optimize data management: Intelligent agricultural equipment such as environmental monitoring sensors, automatic irrigation systems, etc. rely on stable clock sources to ensure real-time data processing and efficient system operation.