Semiconductor Chip Handlers are predominantly utilized to for sorting, testing and transferring chips with the modest electrical interface diagram: ATE ITA DUT (package) Handler. And such machines are effectively able of processing thousands of chips in an hour. Generally, the packaged parts utilize a handler to dwelling the device on a personalized interface board, then IC chip handler transfers finished chips to the inspection equipment for ending the visual and electrical performance test and then genus the chips into good, wicked or several other bins based on test results.
According to the report analysis, ‘Global Semiconductor Chip Handler Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2024’ states that in the worldwide semiconductor chip handler market, there are numerous potential companies which recently functioning more actively for leading the fastest market growth and registering the handsome worth of the market share around the globe during the review time while increasing the usage of semiconductor chip handlers, intensifying the applications of the semiconductor chip handler, spreading the awareness related to the benefits of the semiconductor chip handler and analyzing the government regulations includes Advantest, Cohu, Multitest, Boston Semi Equipment, Seiko Epson Corporation, ASM Pacific Technology, Hon Technologies, Chroma, SRM Integration, MCT, CST, TESEC Corporation, SYNAX, ChangChuan Technology and several others.
In addition, the global market for Semiconductor Chip Handler is anticipated to increase at a CAGR of roughly 4.8% over the next five years, will reach 680 million USD in 2024, from 510 million USD in 2019.
The worldwide semiconductor chip handler market will increase at a modest CAGR of just over 4% by the end of the review duration. One of the principal drivers of this market is the augmented requirement for the compact electronic devices. This trend is manifest in segments such as mobile phones, automotive, healthcare equipment, and even industrial manufacturing. This has led to semiconductor IC manufacturers effectively contributing in R&D to work towards decreasing the size of ICs along with advanced performance. These R&D activities have resulted in the appearance of micro-electrical-mechanical systems (MEMs) and 3D stacked ICs. Consequently, growth in the MEMs market will influence the requirement for the testing equipment for the complex ICs until the end of the review period.
An essential trend which is encouraging market growth is the appearance of strip testing. Integrated device manufacturers and subcontractors usage test-in-strip technology to cut down on costs. This technology assists testers to handle several small ICs at the same time, test over 100 in parallel while decreasing the bottlenecks. Unlike the gravity, pick-and-place, and battlement type handlers, strip test handlers can control the IC chips with 0.3mm x 0.6mm measurements and can test more than 100 devices in parallel without jams.
The OSAT sector is the greatest of the chip handler market and is anticipated to garner close to 63% of market share by the end of the review duration. The growth of the semiconductor industry and effective growth in the costs of packaging and testing equipment will generate a high requirement for the automated test equipment along with chip handlers from these OSATs. They are also contributing in the precision and high-speed IC test handlers so that they can speed up the production and provide the high-performance products to market quicker.
Therefore, in near years, it is predicted that the market of semiconductor chip handler will augment the growth more effectively over the coming duration.
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Ankur Gupta, Head Marketing & Communications