Webinars
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PCB Prototyping
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RF PCB Prototyping: Why In-House?
Prototyping PCBs in-house offers advantages in areas designers and managers care about, including speed, flexibility, and cost. This presentation covers 4 reasons why in-house PCB prototyping is quickly becoming the go-to option for RF and microwave PCB design. |
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Then and Now: PCB prototyping with LPKF over the past two decades
20 years ago, gas was cheap and Netscape Navigator was still in the development stage. A lot has changed since then, including what is possible with in-house PCB prototyping. Over the past two decades, technology introduced by LPKF has made PCB prototyping more efficient, more accurate, and of higher quality than was previously thought possible. |
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How To Write a "Four Course" Business Case for Engineers
Are you having trouble convincing management that the investment in a PCB prototyping system will be a sound one? Are financial decision makers looking for financial data to justify the purchase? If so, then this webinar is for you. |
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Maximizing R&D Efficiency with In-house PCB Prototyping
It is vital to streamline operations at the R&D level by implementing processes that improve overall lab efficiency. In-house PCB prototyping does this, saving time and money while providing engineers with a design tool that spurs innovation and maximizes R&D efficiency. |
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Laser Plastic Welding |
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Transparent Laser Plastic Welding
A breakthrough in laser plastic welding technology has opened doors for bonding of transparent polymers. |
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Laser Plastic Welding 101
What is laser plastic welding? How does it work? Find out in this informative 30 minute webinar. |
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Laser Plastic Welding Design Guidelines
This webinar will walk you through the technical guidelines for designing parts to be laser plastic welded. |
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Cleaner Joints, Stronger Seals: Laser Plastic Welding of Automotive Lighting
Modern automotive lighting is as much dictated by design as it is functionality. Exterior lighting has become a focal point of car designs and compromising large, curvy, free-form designs for function, durability and ease of assembly just isn’t an option any longer. |
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3D Circuitry on Thermoplastics
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3D Circuitry on Thermoplastics
3D molded interconnect devices (MIDs) utilize the best of both mechanical and electrical design - saving space, reducing cost, and increasing reliability. |
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Laser Direct Structuring |
3D Antennas on Plastic
Your next generation products will do more in a smaller form factor - lighter, less complex in less space – how to get there? |
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PCB Depaneling
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PCB Depaneling With Lasers
Depaneling of modern circuit boards can be a difficult task. Smaller, more complex PCBs are creating a demand for more sophisticated depaneling solutions. |
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Laser Cutting of Flex Circuits
Flex circuits play an important role in the PCB industry today. Precision, accuracy, and complexity are challenged as smaller circuits with more function are sought out. |
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SMT Stencil
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Stencil Aperture Size and Its Impact on the Printing Process
Correct aperture size is vital to achieve optimum paste release for SMT solder printing. |
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How Stencil Manufacturing Methods Impact Precision and Accuracy
This webinar discusses five parameters of the manufacturing process and how they affect precision and accuracy. |
