CyberOptics Presents Best Practice Process Insights for Reticle Environments at SPIE Advanced Lithography 2015
February 24, 2015 at 11:00 AM EST
CyberOptics® Corporation (NASDAQ: CYBE), a leading global developer and manufacturer of high precision 3D sensing technology solutions, will present at the SPIE Advanced Lithography 2015, the industry's most important event for lithography R&D, devices, tools, fabrication, and services, at the San Jose Marriott and San Jose Convention Center today. The company will also have an exhibit featuring the ReticleSense® wireless measurement portfolio in Booth #314.
The new ReticleSense Airborne Particle Sensor Quartz (APSRQ) has quartz housing for use in semiconductor tools that handle quartz reticles. The technology inside is the same CyberOptics particle sensor technology widely used by equipment OEMs and fabs worldwide that improves yields and tool uptime. Designed and developed specifically for use with scanners in the semiconductor fabs, the ReticleSense APSRQ has all of the necessary alignment marks and bar codes for compatibility with ASML, Nikon and Canon scanners. The APSRQ can be loaded directly into a scanner just like a quartz reticle and travel the entire reticle path to detect in real-time when and where particles occur.
A paper presentation today at 6 pm will feature Allyn Jackson, Field Application Engineer for CyberOptics discussing how to quickly identify when and where airborne particles originate, the source of the contamination and how best to solve this challenge.
“Minimizing airborne particles in lithography applications remains a challenge if using traditional surface scan reticles, in-situ or hand-held methods. In addition, these methods lack real-time feedback, and often unexpected particle sources go undetected or take a long time to finally identify. CyberOptics’ new APSRQ enables quick particle qualification in reticle environments. APSRQ technology saves the time-consuming task of partitioning with multiple surface scan reticles which require the high-value scanner to be brought off-line for lengthy particle source troubleshooting,” said Allyn Jackson, Field Application Engineer, CyberOptics. “By extending the line to include a quartz airborne particle sensor, we’re helping our customers exceed manufacturing quality and productivity standards in the Photo Lithography scanner environment.”
Lithography engineers can rely on CyberOptics ReticleSense proprietary technology, which is an extension of the proven WaferSense® wafer-shaped Airborne Particle Sensor (APS) device in use at semiconductor fabs worldwide including the three largest manufacturers where a contamination-free environment is critical.
WaferSense and ReticleSense Airborne Particle Sensors enable equipment engineers to shorten equipment qualification, release to production and maintenance cycles, all while reducing expenses. Customers have experienced up to 88% time savings, up to 95% reduction in costs, and up to 20X the through-put with half the manpower resource requirements using the WaferSense or ReticleSense sensors relative to legacy surface scan wafer methods.
About the WaferSense and ReticleSense Line
The WaferSense measurement portfolio including the Auto Leveling System (ALS), the Auto Gapping System (AGS), the Auto Vibration System (AVS), the Auto Teaching System (ATS) and the Airborne Particle Sensor (APS) are available now in 200mm, 300mm and 450mm wafer sizes. Additionally, both APS and ALS are available in 150mm sizes. The ReticleSense Airborne Particle Sensor (APSR), the ReticleSense Auto Leveling System (ALSR) and the new ReticleSense Airborne Particle Sensor Quartz (APSRQ) are available in a reticle shaped form factor.
For more information about the entire line of CyberOptics solutions please visit the company’s website at www.cyberoptics.com.
CyberOptics Corporation (NASDAQ: CYBE) is a leading global developer and manufacturer of high precision sensing technology solutions. CyberOptics sensors are being used in general purpose metrology and 3D scanning, surface mount technology (SMT) and semiconductor markets to significantly improve yields and productivity. By leveraging its leading edge technologies, the company has strategically established itself as a global leader in high precision 3D sensors, allowing CyberOptics to further increase its penetration of its key vertical segments. Headquartered in Minneapolis, Minnesota, CyberOptics conducts worldwide operations through its facilities in North America, Asia and Europe.
Statements regarding the Company’s anticipated performance are forward-looking and therefore involve risks and uncertainties, including but not limited to: market conditions in the global SMT and semiconductor capital equipment industries; increasing price competition and price pressure on our product sales, particularly our SMT systems; the level of orders from our OEM customers; the availability of parts required to meet customer orders; unanticipated product development challenges; the effect of world events on our sales, the majority of which are from foreign customers; rapid changes in technology in the electronics markets; product introductions and pricing by our competitors; the success of our 3D technology initiatives; expectations regarding LDI and its impact on our operations; integration risks associated with LDI; forecasts for at least 10% growth in sales and break-even operating results for 2015 and other factors set forth in the Company’s filings with the Securities and Exchange Commission.
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