gearmotor - FAULHABER - DC Motors & Micro Drive Systems
for further processing. Electronically commutated micromotors with integrated motion controllers enable safe, maintenance-free operation in three shifts.
Today, sensor elements are required in
bulk quantities. Cost-effective fabrication is possible only
if the fabrication process is more or gearmotor gearmotor - FAULHABER - DC Motors & Micro Drive Systems less fully automated. Many of these mass products are deployed as safety-critical processes,
e.g. as Gear Motor - Buying Leads for Gear Motor - Buyers, Importers ... ABS sensors, acceleration sensors and others. Hence, quality always has top priority. Until recently, the silicon
wafer was manually placed into a carrier and clamped. gearmotor Only
wafers that are accurately positioned can be
etched in the subsequent fabrication process. As the wafers already have considerable value at this stage of the manufacturing process, they must be
handled with extreme care. Round-the-clock shift operation adds to the overall cost of production.
Fast & safe gearmotor – Transportation of carrier
frames with the robot arm
A stepping motor ensures the exact
alignment of the wafers
Quality reigns supreme
Committed to excellence, INGENIA, a handling system expert in electronic production, has gearmotor developed an automated assembly system designed specially for chip fabrication. In order to address the key issues facing customized manufacturing gearmotor processes, INGENIA’s product offering has been tailored to the specific requirements of its clients. The demands on handling systems are enormous: in addition to meeting the challenge of three-shift operation, gearmotor the equipment deployed also has to guarantee safety and exact positioning on a long-term basis. To etch the expensive silicon wafer optimally, it is important that the wafer be inserted into the holder with the utmost precision and then clamped for further processing.
And the demands on handling become even more challenging if sensors or micro-mechanical chips are being fabricated instead of standard ICs. Here, in contrast to the usual memory chips or CPUs, the wafer is processed on both sides. This is the only way of optimally combining the intricate structure of the mechanical elements with the necessary electronics. As there are no handling experts and drive specialists involved in the fabrication plant, the installation and maintenance of the system and its drives must be kept as simple as possible. The objective is to ensure that readjustments and optimization can be undertaken while the system is in operation, or that the system can be started up again after interruptions. Moreover, simple handling is also designed to reduce the operating costs of a system.
Safe insertion
As is the case in every field of automation, the principle of designing highly versatile and adaptable production equipment is of paramount importance. A mix of standard components and special solutions enables optimal handling. The device itself is responsible for handling the full range of processes, from arranging the wafers through mounting the carrier frame right up to transferring the mounted frame. All assembly steps are executed at one level.
There are robot arms for inserting the wafers and storing the wafer inserted in the box. To be able to guarantee safety and exact positioning, as well as CE conformity during power failure, motors with integrated brakes are used in these business-critical machine components. The
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