Medical control motherboard PCB design

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Data Sheet

Medical control motherboard PCB design

Name: Medical control motherboard PCB design

Designable layers: 1-32 layers

Minimum line width and line spacing: 3mil

Minimum laser aperture: 4mil

Minimum mechanical aperture: 8mil

Copper foil thickness: 18-175цm (standard: 18цm35цm70цm)

Peel strength: 1.25N/mm

Minimum punching hole diameter: single side: 0.9mm/35mil

Minimum hole diameter: 0.25mm/10mil

Aperture tolerance: ≤φ0.8mm±0.05mm

Hole tolerance: ±0.05mm

Hole wall copper thickness: double-sided/multi-layer: ≥2um/0.8mil

Hole resistance: double-sided/multi-layer: ≤300цΩ

Minimum line width: 0.127mm/5mil

Minimum pitch: 0.127mm/5mil

Screen printing color: black, white, red, green, etc.

Surface treatment: lead/lead-free tin spray, ENIG, silver, OSP

Service: Provide OEM service

Certificate: ISO9001.ROSH.UL

Product Details

The Printed Circuit Board (PCB) business has expanded its irresistible beneficial influence due to the continuous growth of the tech world and its use in various fields. In recent years, its impact on the world of electronics has exceeded all forecasts, including IoT devices, smartphones, computers, artificial intelligence, and more.

Now, PCBs are transforming medical devices and bridging the gap between patients and physicians in the medical technology business.

PCB, enabling the development of these convenient medical devices. Advances in healthcare technology are helping to solve several key challenges in the medical field, such as establishing accurate diagnoses and tracking patient health.

The medical electronics industry is growing rapidly and does not seem to be slowing down, which shows the influence of PCBs in the medical field. The global medical electronics market is expected to reach $4.4 billion by 2022. With the advancement of technology, PCBs are becoming more and more important in the medical field. Due to their digital nature, most medical devices and gadgets today require PCBs to work correctly and efficiently.

PCBs are required to operate medical devices such as defibrillators, electrical muscle stimulation devices, MRI, medical imaging systems, CT scans, and ultrasound equipment.

Medical PCB Technology and Its Types

Extra care must be taken to ensure reliability when producing medical PCBs. This is because human life depends on the equipment that houses them. PCBs also have to meet very strict requirements when it comes to cleanliness. This is especially true for those used in implants. First, they must be hygienic. They also have to be more compact than usual. Therefore, HDI (High Density Interconnect) PCBs are used in most medical devices.

The following are the techniques used in medical PCB assembly:

HDI / via-in-pad technology

The design of inserting vias inside copper pads is called via-in-pad and is often used to save space on the PCB. With in-pad technology, the PCB can provide up to 50% more space for component placement. The widespread use of vias in pads by PCB engineers is in pursuit of more acceptable pitch for devices and smaller electronics.

Other vias, such as blind and buried vias, help reduce space and increase component density, but for PCBs that require high speed and high dissipation, only via-in-pads are still the best choice.

surface mount technology

Surface Mount Technology, or SMT, is now used in nearly all commercially manufactured devices because it offers huge advantages in the PCB manufacturing process and, due to the smaller size of SMT components, allows more electronic devices to be packaged into smaller in a small space. In addition to being compact, surface mount technology (SMT) enables automated soldering and PCB assembly, improving reliability and saving money.

PCB fine lines and spaces

Next-generation portable electronic devices will rely heavily on high-density interconnect (HDI) PCB technology, including tiny lines and spaces (2 mil and below). This technology has several advantages over conventional techniques, including reduced board size, enhanced wiring, and cheaper manufacturing costs.

Application of Medical PCB in Healthcare Industry

Printed circuit boards and electronics play a vital role in the medical industry. They are not only used in appliances, but also in monitoring, diagnostic and therapeutic equipment. Furthermore, with the advancement of technology, PCBs in the healthcare industry are rapidly expanding, opening up new possibilities.

PCBs are commonly used in the following applications:

Scanning equipment: CT scanners, X-ray screens, and ultrasound scans all rely on electronic components to work.

Monitors: Medical monitoring devices such as heart rate monitors, blood glucose monitors, and blood pressure monitors contain electronic components.

Medical Instruments: Medical research requires a variety of instruments to collect data and test results. PCBs are commonly found in electron microscopes, control systems, compressors, and other equipment.

Due to health concerns, PCBs must meet higher standards in the medical industry. Additionally, these devices must be reliable and of good quality to meet medical requirements. Due to device size constraints, medical device PCBs are mainly developed and tend to be smaller.

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