Robots have been in use for several decades now. One such field where robots have gained mass usage is in electronic and semi-conductor manufacturing. The production of semi-conductors is a challenging and intricate process. More so due to the incorporation of microtechnology and nanotechnology into semi-conductor manufacturing which further necessitates using robots that can manipulate minuscule components.
Even though robots are a crucial factor in the automation of the manufacture of semi-conductors, they are still machines. As such, they need to be serviced and kept in working order to maintain their level of productivity. When it comes to the maintenance and repair of your robotic semi-conductor production machines, one such firm that specialises in the industrial mechanical maintenance of semi-conductor production machines is eumetrys-robotics.com.
So, what’s new with robots in electronics and semi-conductors?
Changing to Delta
To meet the high speed and precision demands of the semi-conductor and electronics production industries, integrators suggest that end customers invest in delta-style robots. Automated high-speed robots are used on final assembly lines to assemble components with unusual shapes.
As a result of their speed, delta-style robots have overtaken SCARA robots as the most often used industrial robots. Clean and precision are equally as important as speed when assembling electronic components. Delta robots with 6 axes and a delta design are ideal for the electronics industry, which demands precise positioning of components. These robots can rotate components before placing them in the precise location needed.
Cutting Down on Size
Increasingly compact items necessitate robots with an even smaller internal circuitry, and this trend is expected to continue. The electronic components of the robot are designed using the same cutting-edge technology used in consumer electronics. Among the many advantages of the small size are cheaper processes, faster performance and improved dependability.
Robot controllers used to be around the size of a mini-fridge. Today, they are smaller and more compact and integrated into the robot’s base. Electronic components are created in much smaller spaces than those used in automotive applications, so the robot and its controls must have a compact footprint to be suitable for use in a factory setting. Additionally, the compact size results in reduced weight allowing the robots to move more quickly in electronics manufacturing.
The semi-conductor industry has created a set of standards for communications across production equipment in response to the rapid pace at which technological advancements are altering the products that incorporate semi-conductors and the method by which these goods are manufactured.
When producing cutting-edge products such as flat panel displays, LEDs, photovoltaics and other emerging products for both military and consumer electronics, these standards, which were promulgated by the Semi-conductor Equipment and Materials International (SEMI), support robotics-using manufacturers in adhering to a uniform policy worldwide. A global communication standard for automated semi-conductor manufacturing equipment, such as robotics, has been outlined by SEMI’s Equipment Communications Standard (SECS I and II) and Generic Equipment Model (GEM).
Connectivity of Robots and Data Management
A growing number of work cells in the semi-conductor and electronics industries are incorporating Ethernet connectivity. Ethernet connections make it possible for individual robots to communicate with each other in a matter of microseconds.
Since the data is delivered directly through the robot thanks to its electrical connectivity, it is possible to undertake tests on the robot’s end and benefit from the increased flexibility. Also, communication interfaces built into the robot’s wiring allow users to link servo grippers, gigabit Ethernet devices, and other advanced electrical components to it.
As robots used in electronic and semi-conductor manufacturing advance, there is a need to engage a skilled and experienced semi-conductor production machine repair company. Eumetrys, a semi-conductor robotic repair company, has a robot repair department and semi-conductor production machine reconditioning department. ready to meet the demands of consumers throughout Europe and the Middle East. Eumetrys offers load port repair services, pre-aligner repair services and electronic repair services for the semi-conductor.