Microscope Solutions for
Semiconductor Manufacturing
Explore Microscope Solutions
for the Semiconductor Production Process
IC Design
Integrated circuit (IC) design companies need to inspect the pattern of IC chips. Additionally, IC chip manufacturers must analyze the IC chip design at the trial production step. Since the inspection volume is low, manufacturers can use manual equipment with high accuracy.
Our DSX1000 digital microscope is an easy-to-use system that can observe sub-micrometer patterns.
The method for producing semiconductor wafers is the same regardless of the semiconductor materials: dissolve the materials into a mold to create a solid cylinder shape. The solid silicon is called an ingot.
Slicing and Polishing
Slice the ingot into thin silicon plates (wafers). Polish the top and bottom of the wafer surfaces. This flattens the surface so the circuit patterns can be imprinted. The polished wafer is then marked with laser marking equipment.
Our OLS5000 laser confocal microscope can analyze surface roughness conditions after polishing.
Form an oxide film on the wafer in a high-temperature oven.
Photolithography
Photolithography is the process of imprinting integrated circuit patterns on the wafer. This process is repeated several times to make complex circuit patterns.
Our OLS5000 laser confocal microscope can measure the thickness of the photoresist and pattern.
An IC chip connects to external devices with wire bonding. Wire bonding is a method to weld between an IC chip and the lead frames. A wire is attached to a lead frame and an IC chip's aluminum pad using a combination of downward pressure, ultrasonic energy, and heat to make a weld.
We provide a variety of solutions for lead frames, bonding wire, mashed balls, and other applications.