Electronic Industry

The medical electronics industry is one of the fastest growing markets in the United States. Since the drive to reduce weight and space, while additional features at a low cost continuous, flexible circuits quickly to a perfect connection and packaging design solutions for this sector.

The adoption of flexible circuits in medical devices dates to the beginning of 1970, when it is used in companies such as Medtronic pacemakers and flex-circuitimplantable pacemakers and implantable defibrillators. The advanced electronics and packaging industry, medical products have enjoyed tremendous growth in the United States and abroad. This growth can be expected as new products and innovation have continued with the increasingly demanding requirements for designers of electronic products for ten books in a bag of five pounds.

Today flexible circuits are in a wide range of medical applications:

Implantable medicalDevices. These include pacemakers, defibrillators, cochlear implants and neurological) implants (hearing. These devices are surgically implanted in the body. Product requirements are extremely reliable, durable, lightweight and compact in size.
Non-implantable medical devices. Hearing aids, drug distribution systems, and external defibrillators (related to the patient) are some examples of this medical application. These devices are usually worn or attachedthe skin of the patient.
Monitoring devices: The devices are portable or handheld electronic devices that monitor heart rate, blood pressure, body temperature and levels of blood sugar. Also included in this category are control devices bed.
The Diagnostic Equipment: This category includes devices that scan, MRI, CT, X-Ray and a host of other materials that aid in the detection and diagnosis of healthProblems.
Surgical instruments: These include electronic saws, screwdrivers and scissors corrosive for stretching and closing of blood vessels during the execution of the operation.
Single Use Devices (South). Typical applications include ultrasonic scalpel, the recording electrode catheters, biopsy instruments, electric biopsy forceps, and hundreds of other applications requiring the use for which the requirements for a sterile.

The diversity of uses and applications will be continuouslyExtension with new innovative projects or conversions of existing equipment. This makes the medical field is one of the fastest growing segments, and other applications for flexible printed circuits. There are a number of good reasons that the flexible circuit is ideal for the medical industry:

Reliability: Already in 1950, flex circuit has been used in military and aerospace industries, with both applications, the reliability extraordinary.Almost 20 years of proven performance in these applications high demand, provided the medical sector, with confidence in the reliability of flex circuits and robustness. Flexible circuits have inherent advantages because it removes the nodes, thus simplifying assembly and eliminating the possibility of human error or interconnect defects such as solder joints hurt.

Space and weight: the demand in the medical devices smaller andlighter flexible circuits makes it ideal for applications where weight and space are a premium. Flexible circuits thin (the thickness is to be a complete circuit

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