Blood oxygen analyzer pcb assembly

The design supports a variety of photoelectric sensors, can receive and process optical signals from sensors, and realize accurate monitoring of blood oxygen saturation and pulse rate.

Use high-performance microcontrollers (MCUs) to achieve fast signal processing and data calculation to ensure real-time feedback data.

Use low-power components to extend the life of the device, suitable for the needs of portable devices, such as wearable blood oxygen monitors.

Integrate Bluetooth and/or Wi-Fi modules to support wireless data transmission, convenient for data synchronization and monitoring with mobile applications or other devices.

Provide a simple and easy-to-use display interface to display real-time blood oxygen saturation and pulse rate for users to view and record.

Built-in storage function can save historical data, support subsequent review and analysis, and meet the needs of medical monitoring.

Use reasonable PCB layout and electromagnetic interference (EMI) protection measures to ensure stable operation in different environments.