Contact Your Local Micromachining Engineer
The IX-6100-PCD is optimized for drilling round as well as shaped holes in ceramics sheets typically used in microelectronic applications.
The IX-6100-PCD platform is designed for routine single-micron placement accuracy over many hours of continuous operation.
Test Test Test
The Human Machine Interface (HMI) follows the SEMI E95 standard and gives the flexibility to adapt the screen layout to each user’s tasks.
|Frame and Enclosure||Fully enclosed Class I Laser system, heavy duty weldment frame integrates laser, beam delivery system and control electronics into a single 1 m x 1.9 m footprint; includes casters and leveling feet with vibration isolations pads|
|Beam Delivery System for Wafer Dicing||
All Granite Beam Delivery Support Structure
Vibration isolating mounting platform for wafer stages and beam delivery optics; Stiffness and large thermal mass of granite structure prevent changes in beam delivery system alignment over time; Pneumatic, 2 position laser beam stop; Precision optic mounts for stability and ease of adjustment; select grade UV optics
|Motion Control Electronics||Up to 8-axes of Servo or Step Motor Control, integrated into single interface for all motorized components as well as the laser fire mechanism|
|Air-bearing X-Y Guide Plate Positioning Stage||Linear Glass Scale Encoders; Linear Motor Servo Drive System|
|X-Y Stage Specifications||
Travel: Up to 200 mm diameter processing area
Travel: 10.0 mm
|Video Microscope System||MicroTech Camera Assembly
OXC Camera for On-target Process Viewing; High Magnification Inspection Camera
|Programmable Illumination||Programmable Control of Lighting Intensity for Automated Imaging and Alignment|
Automatic Part Alignment
Download IX-6100-PCD Datasheet
For automated part handling and 24x7 fully automated operation.
High resolution vision system with programmable lighting for automated part alignment.
Closed-loop control of laser processing parameters and job data logging for laser calibration.
Automated logging of part ID, process parameters and data from in-built metrology modules, configured for seamless interfacing with factory MES systems.
Digital barcode/matrix scanner with interface to system control computer for individual part identification.
High flow-rate fume extractor for collection of smoke, fumes and air-borne debris.
Chroma.NET is the system control software on IPG’s Micromachining tools used by the microelectronics and medical device industries for drilling, cutting and patterning of parts.
This powerful software can support the simultaneous operation of separate lasers within a single recipe. Chroma.NET provides support of process variables as well as conditional programming through the use of a Macro language, which allows for teaching of complex applications. This flexibility gives customers the ability to change the machine's behavior, so it is not restricted to the single application for which it was purchased. It also allows users to assess the quality of a part as it is being machined; making almost real-time adjustments to machining parameters to maximize yield.
Unlike traditional control software that addresses one specific process, the Chroma.NET software is designed for maximum flexibility; providing ease of use, a single-interface system control, and powerful conditional logic processing that delivers unmatched system adaptability and performance.
Chroma.NET is developed from a 20-year IPG history that includes laser systems design, micromachining system control, and operations in a commercial contract manufacturing environment. Written in the Microsoft.NET framework for maximum reliability, it has been developed to meet the combined goals of maximizing system processing performance and simplifying recipe generation and operator-level controls, while extending the range of applications covered by the company’s multi-laser micromachining workstations.