Tag Archives: Micro-Electro-Mechanical-Systems (MEMS)

Laser Joining for Packaging in MEMS Applications and Micro-Devices

Posted on by
Reply

By: Norbert Lorenz

In recent years the interest in micro-devices, including Micro-Electro-Mechanical-Systems (MEMS), from research institutions, industry and the press has risen considerably. However one of the persisting challenges in the fabrication of such devices is the packaging process. A number of different bonding techniques have been developed but in general they require the entire device to be heated to high temperatures. In particular for direct bonding techniques like Si-fusion and anodic bonding, temperatures in excess of 1000°C and strong electric fields (1000-2000 V) are essential for successful packaging. As a consequence the use of temperature-sensitive materials within the package is restricted and problems are generated in multi-stage packaging processes where several heating cycles are carried out in sequence; parts joined in an earlier heating step can disassemble in a later one. Furthermore it is clearly important that the package should not affect the performance of the device or cause any damage. Often hermetic and/or vacuum packaging is required which makes the process application specific and expensive. Therefore it can easily account for up to 50% of the overall device cost and can even reach as much as 90%.

Continue reading

Electrical-Mechanical-Systems

Posted on by
Reply

By: Norbert Lorenz

Over the past few years the interest in Micro-Electro-Mechanical-Systems (MEMS) and Micro-Optical-Electrical-Mechanical-Systems (MOEMS) from research institutions, industrial firms and the press has risen considerably. Of particular interest are lab-on-a chip devices where many subsystems (ICs and MEMS) are assembled to a functional system for medical and bio-photonic applications. To date the main focus has been on the devices themselves; the research and development of low cost, high reliability assembly and packaging has been rather limited, and as a result current MEMS packaging costs can reach up to 90% of the overall device costs.

MEMS are sensors and actuators on a micro- and nanometre scale incorporating mechanical elements and electronics. They are normally built on a common silicon substrate through microfabrication technology, although alternative technologies using different materials are being increasingly developed. MEMS are commonly known for the realisation of “lab-on-a-chip” devices where many subsystems (ICs and MEMS) are assembled together to make a functional system.

The Heriot-Watt group has demonstrated the feasibility of laser-based glass frit bonding of a range of miniature packages, important for MEMS and related applications. The laser provides localised heat energy, preventing damage to temperature-sensitive materials or dis-assembly of other components of the overall system. Glass frit is an ideal material to use, as it conforms well to the surfaces being joined, provides good hermeticity, and the temperatures required are relatively modest.

The above brief overview was extracted from its original abstract and paper presented at The International Congress on Applications of Lasers & Electro-Optics (ICALEO) in Orlando, FL. To order a copy of the complete proceedings from this conference click here