Epson SG2016CAN crystal oscillator advantages and multi field applications

In today's digital age, electronic devices are ubiquitous, from cutting-edge technological products to daily household appliances. As a key component that provides stable clock signals for these devices, the performance of crystal oscillators directly affects the overall performance of the equipment. Epson SG2016CAN crystal oscillator, with its excellent performance and wide applicability, plays an indispensable role in many fields and has become the core clock power driving the development of various industries.

SG2016CAN crystal oscillator advantages:

1. Ultra small packaging, unleashing design potential

The size is only 2.0 × 1.6 × 0.7mm (packaged in 2016), which reduces the volume of traditional crystal oscillators by 54%, providing more space optimization possibilities for compact devices such as wearable devices and 5G optical modules, and supporting flexible PCB design.

2. Wide temperature and pressure range, suitable for harsh environments

Temperature range: -40 ℃ to+105 ℃ (some models support -40 ℃ to+85 ℃), suitable for extreme scenarios such as industrial high temperature environments, outdoor base stations, and vehicle electronics.

Voltage range: 1.6V-3.63V, compatible with various low-power circuit designs, extending the battery life of battery powered devices.

3. High frequency and low consumption, achieving both performance and energy efficiency

Frequency range: 1.2MHz to 75MHz, meeting the needs of 5G communication and high-speed data transmission, with the 48MHz model optimized for real-time communication in the Internet of Things.

Ultra low power consumption: The standby current is as low as 2.7 μ A, and the operating current is only 1.8mA (when there is no load at 20MHz), significantly reducing the overall energy consumption of the device.

4. Industrial grade reliability, ensuring long-term stability

The frequency stability reaches ± 50ppm, and the aging rate is below ± 3ppm/year, ensuring accurate timing for long-term operation of optical modules, medical equipment, and other devices.

Strong anti-interference ability, reduces data packet loss, and improves communication stability.

Application areas of Epson SG2016CAN crystal oscillator:

1. Communication field; In the current era of rapid development of 5G communication, the requirements for clock accuracy and stability of communication equipment have reached unprecedented heights. The SG2016CAN crystal oscillator, with its excellent frequency stability, provides a precise clock reference for signal processing, data exchange, and other modules of 5G base stations. During data transmission, a stable clock signal ensures that data packets can be sent and received accurately and without errors, effectively reducing the bit error rate and greatly improving the transmission efficiency and stability of communication networks.

2. Industrial automation: Industrial automation production lines require extremely high synchronization and accuracy of equipment. The SG2016CAN crystal oscillator provides stable and accurate clock signals for automation control systems, robot arms, and various sensors.

3. Medical equipment: Medical equipment such as portable health monitoring devices, medical diagnostic devices, etc. require high-precision, low-power clock sources SG2016CAN's low power consumption and anti-interference capability meet the dual requirements of stability and endurance for medical equipment. The SG2016CAN crystal oscillator provides a stable clock reference for data acquisition and processing, accurate monitoring, and reliable data support for medical treatment.

4. Consumer Electronics: SG2016CAN, due to its ultra-thin packaging (2.0 × 1.6 × 0.7mm) and low-power design, has become an ideal clock source for devices such as smartphones and tablets, especially for compact designs that require saving circuit board space.

5. Internet of Things: With the rapid development of IoT technology, a large number of devices need to be connected together for data exchange. The SG2016CAN crystal oscillator provides stable clock signals for IoT devices, ensuring accurate data synchronization and communication between devices.

6. Automotive electronics: Automotive electronic systems such as engine control and safety systems require high-precision and stable clock signals. The SG2016CAN crystal oscillator can meet these requirements, while its high temperature resistance and impact resistance enable it to operate stably in automotive environments.