The Internet of Things for Electronics Manufacturing

whitePaper | March 29, 2023

Smart factories have various areas of strengths and weaknesses, just as people do. Strengths bring the opportunity for positive differentiation, whilst weaknesses offer challenges to address in order to deliver consistently on expectation. Many people like to measure their IQ to see how they compare in terms of being “Smart”— so why should we not do the same for the data-driven Smart assembly factory? This helps reveal both strengths and weaknesses, builds the roadmap for improvement and development, increases visibility of unique values, and eliminates risk derived from bottlenecks and inefficiencies. It is time to put our Smart, data-driven manufacturing operation to the test, ensuring preparedness as the industry transforms toward the elusive Industry 4.0.

whitePaper | June 6, 2021

Three-dimensional (3D) printing is a powerful technology that has wide-ranging applications, including many in the pharmaceutical industry. Among the approaches that are being explored in the production of pharmaceutical dosage forms powder-based systems which utilize either drop-on-powder or selective laser sintering and liquid-based systems which use dropon-drop deposition or stereolithography are frequently applied. With liquid-based technology, either UV, laser energy or high temperature is used to induce polymerization and build the 3D structure.1 The process of 3D printing offers the potential to produce medications tailored to the needs of patients and dosage forms in various shapes, sizes and textures with different release profiles that can be difficult to produce using conventional techniques.2

whitePaper | February 23, 2022

Fully automated assembly lines with industrial robots are highly efficient, fast and precise – as long as they are in operation. When unplanned downtimes occur, the economic damage can be immense within just a matter of minutes. Prevention is better than repair. Using high-performance lubricants during regular maintenance of industrial robots prevents unscheduled downtimes, optimizes the robotics and maximizes the uptime of the assembly line. In this white paper, you will learn more about the right lubrication for your industrial robots.

whitePaper | April 25, 2022

In the late 18th century, the first industrial revolution transformed hand production methods into steam machines. The second industrial revolution which occurred at the end of the 19th century revolutionized communication and transport methods with the telegraph and railway. The third revolution brought computing power to manufacturing processes in the second half of the 20th century.

whitePaper | April 4, 2022

Digital transformation is driving the adoption of Industry 4.0 in manufacturing. Multiple technologies, such as internet of things (IoT) devices and artificial intelligence (AI), are changing manufacturing processes. For instance, more is being done with robotics, 3D printing, and industrial clouds. Employees need to digest all these innovations to enable new ways for them to do their jobs properly. Around the globe, industries have implemented work-from-home policies. In most manufacturing companies, there is a mixture of employees from the business office to the factory floor, and manufacturers can now instantly enable remote work for these employees.

whitePaper | September 21, 2022

In its early days, 3D Printing reinvented the prototyping process by allowing a faster and more cost-efficient way to create new products. The effortless experimentation with CAD designs and the production of proof-of-concepts with almost no design limitations or material waste, revolutionized the prototyping world.