Leveling and angular measurements are vital functions for precision equipment installation, machine setup alignments and metrology in many industries within the precision engineering cluster. Imprecise leveling a machine affects its structural stability thus severely reduces the accuracy, functional and quality performances of a machine/equipment. In fact, precision levelling, angle measurement and alignment tasks essentially involve 2-dimentional planes rather than conventionally known as two independent single-axis orthogonal lines reading an angle one-axis at a time. Dual-axis simultaneous angles display and real-time continuous tracking of tilted-plane angular readings are required to guide field engineers in aligning precision object/machine to a required position accurately, speedily and effectively.
Digi-Pas® pioneered world's-first 2-axis MEMS digital leveling instrument, sensor module and inclinometer (US granted patents) embedded with vibrometer offers superior performance with ability to operate in a very unforgiving/harsh operating environment (e.g. high shock/impact, temperature & water) which empower application engineers/scientists in eradicating constraints previously difficult or unable to do with traditional 'bubble' spirit level or conventional single-axis pendulum/servo-based/optical inclinometers.
With reference to user's testimonials, feedbacks, and from interacting with professionals and trade specialists in many countries over the years, countless valuable application information on "where", "how" and "why" Digi-Pas® 2-axis instruments and sensor modules have been used to simplify and speed up leveling/alignment/angle-setting tasks productively, with higher accuracy, improved quality and performance. The following are application samples in various industries for convenient reference. Many of these pictures are obtained resulting from our user's generous courtesy while others are provided for solely illustrative purpose.
Digi-Pas® DWL-3000XY & DWL-3500XY is used for aligning precision fixtures. Absolute levelling and positional accuracy are required in meeting tight tolerance for highest quality in many manufacturing processes within semiconductor wafer foundries.
Setup and maintenance of wire bonders in semiconductor backend assembly require high machine positional stability. Precise levelling for wire bonding machine prevents unnecessary structural vibration affecting wire-bond quality and production yield. The DWL-3000XY levelling and vibrometer features serve the above purpose effortlessly.
Digi-Pas® DWL-3500XY 2-Axis Precision Machinist level is used for installation, setup & maintenance precision measurement instruments in wafer foundry.
Digi-Pas® DWL-3500XY 2-Axis model is used for monitoring a precision wafer manufacturing equipment performance.
Digi-Pas® DWL-3500XY 2-Axis model is used for monitoring levelling and vibration of research laboratory precision measurement equipment such as Scan Electron Microscope (SEM), Transmission Electron Microscope (TEM) & Smartscope Vision Measuring System.
Accurately calibrating robotics arm encoders to maintain precise positional location is critical to achieve desired performance and required safety. Digi-Pas® DWL-3000XY & DWL-3500XY provide angular reference to calibrate each arm encoder of robotic arms and manipulators.
Digi-Pas® DWL-3500XY 2-Axis model is used in research laboratory for laser guided beam setup.
Repeat experiments and data collection are tedious processes in many research activities. Digi-Pas® DWL-2000XY & DWL-3500XY are used by researchers to align experimental equipment work surfaces, levelling objects and ensuring critical angular position is set. The superb 2-axis accuracy combined with the temperature stabilization feature speed up and improves the reliability of those tasks even in a varying temperature of working environment.
Digi-Pas® DWL-3500XY 2-Axis Machinist Digital Level is suitable for precision Coordinate Measurement Machine (CMM) installation & setup. The device provides high precision levelling and checking for machine's positional stability to achieve high quality sharp image capturing and measurement.