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Advancing Implantable Medical Device Reliability with Enhanced Laser Joining Technology
In the realm of high-performance, Class III implantable medical devices, laser joining is the gold standard for assembly. This technology enables the production of many medical innovations, from passive devices like guidewire assemblies to sophisticated active products such as cardiac rhythm modulation (CRM) devices and brain-computer interfaces (BCIs). Manufacturers need to know – with certainty – that device components will maintain their integrity once deployed within a patient. Laser joining addresses this critical need by offering a non-contact, particulate-free joining method, high-strength bonds formed at rapid speeds, and exceptional precision and controllability.
Harnessing laser joining’s full potential hinges on precise process control. The location and amount of thermal energy the laser applies to the materials to form a high-integrity bond is instrumental in ensuring consistent, reproducible joints with minimal heat-affected zones. By pairing advanced controller features such as spatial domain laser pulse control with superior electromechanics, device manufacturers can achieve unprecedented levels of part reproducibility in their assembly processes. These control features enhance joining processes to pave the way for increasingly complex and miniaturized implantable devices, ultimately leading to better patient outcomes and expanded treatment options.
Automation1 Command Queue
Aerotech is a company that solves your toughest precision motion and automation challenges. Automation1 is a motion control platform consisting of:
– software-based controls and development tools
– PC and drive-based control hardware, AND
– hardware-based drives for servo motors and other devices.
In this video, you will discover… the benefits of Command Queue and an example configuration.
Automation1 Version 2.9
Welcome to the Automation1 2.9 release update. This update includes: Access Control on Drive Based Controllers (Beta Release), Secure, Communications (Beta Release), Galvo Calibration Module (Beta Release), R/Theta Gantry Easy Tune (Beta Release), Machine Setup Improvements, 3D Surface Plotting, API Improvements
Brain Computer Interface (BCI) Electrode Manufacturing
An industry-leading BCI manufacturer needed a precision laser micromachining solution to produce high-density neural microelectrode arrays.
The Aerotech Difference: Building the Future of Manufacturing with BotsIQ
Aerotech is proud to sponsor Fox Chapel High School’s robotics club, the reigning BotsIQ Combat Robotics Grand Champions. As the students design and build their robot, we provide mentorship, resources and expertise to help turn their ideas into reality. This hands-on engineering and machining experience sparks students’ interest in manufacturing careers and sets them apart when it’s time to enter the job market.
Advanced motion concepts for high-precision laser drilling
Key electronics and semiconductor manufacturing technologies require laser processing vertical high-aspect ratio holes. Laser-drilled vias in flexible and rigid PCBs are found in most electronic devices. Semiconductors recently adopted heterogeneous integration techniques with glass interposers requiring high-density through glass vias (TGV) manufactured via ablation or laser-induced deep etching (LIDE).
Automation1 XA4 & iXA4 4 Axis, I/O, and DC Option Overview
Unlock the power of precision with the XA4! Take…
Advanced Laser Processing Techniques for Surgical Robot End Effector Manufacturing
For the cutting-edge manufacturers of minimally invasive surgical robots, precision laser processing is the cornerstone for crafting optimal end effectors. Advancements in laser and motion controls enable the creation of ultra-precise, miniature features without sacrificing dexterity, strength, reliability or end effector reproducibility.
Laser Scan Head Advancements Boost Productivity and Process Quality in High-Performance Laser Processing
Creating custom human-machine interfaces (HMIs) for precision automation and motion control systems allows developers to deliver the most targeted and specific user experience. Unfortunately, building custom HMIs from scratch can be tedious and time-consuming. When hard deadlines are a real concern, it can seem necessary to compromise and settle for a more general “one size fits all” development tool solution. This often results in an interface that is ill-suited to individual users and challenging for new users who are onboarding. Fortunately, as HMI development tools evolve their increased capabilities mean compromise is not always necessary. By selecting an HMI development tool with the right features, developers can speed up their process and minimize errors while meeting the needs of various end users.
