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Medical equipment control pcb assembly

Medical control PCB is an indispensable electronic component in medical devices, responsible for precise control and reliable monitoring. Through efficient data processing, modular expansion and design that meets medical standards, medical control PCB can effectively support various medical applications and improve patient care quality and medical efficiency.
Shenzhen Xindachang Technology Co., Ltd. was established in 2016. The company specializes in circuit board production, component procurement, SMT patch processing, assembly and testing one-stop service. Positioned as a "professional and fast multi-variety sample and batch one-stop EMS service provider". The company is equipped with high-precision imported equipment, fully automatic multi-functional patch machines, reflow soldering, wave soldering, selective wave soldering, X-Ray inspection machines, AOI equipment, etc.
If you need to know more about medical control PCB or have special needs, please feel free to contact us!

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Product Description

Medical Equipment Control PCB Assembly

High-performance microcontrollers (MCU) or digital signal processors (DSP) are used to achieve precise control of device actions, signal acquisition, and data output, ensuring the reliability of the device in medical operations.

Integrate multiple communication interfaces, such as UART, I2C, SPI, and CAN, and bus support, so that the control PCB can exchange data with various sensors, displays, storage devices, and host computer systems.

The design supports modular construction, which is convenient for the addition or modification of subsequent functions and adapts to the needs of different types of medical devices.

Meet international medical device standards such as ISO 13485 and IEC 60601 to ensure product compliance in terms of safety, electrical performance, and biocompatibility.

Support real-time data acquisition and processing, quickly respond to event changes, and ensure the device's instant feedback capabilities in medical monitoring and treatment.

Accurate circuit design and effective shielding measures improve the ability to resist electromagnetic interference (EMI), maintain the stability of the device and the accuracy of the data.

Use low-power components and optimize power management to extend the battery life of the device, especially suitable for portable medical devices.