Digi-Pas® R&D composes a team of multinational, interdisciplinary and highly specialized professionals focusing on the development of core capabilities and competencies within niched domain expertise of precision digital levelling, two-dimensional surface plane angular measurement/alignment, and proximity access security technologies. We relentlessly perform R&D activities to innovate global-leading intelligent angular measuring instruments and eGeeTouch® smart locking devices in contributing to the advancement of the precision engineering and consumer solutions, particualry to the automotive, aerospace, medical, energy, building, semiconductor and consumer electronics industries.

In 2009, Digi-Pas® pioneered the world's-first dual-axis precision digital level and in 2011, we further pioneered the world's-first 2-axis intelligent machinist level that have greatly simplified any high precision machine levelling and planar angle measurements tasks. In 2012, we sustained our innovation by presenting the world-first Digi-Pas® 2-axis ultra-precision inclinometer at JIMTOS in Tokyo. As leveling and angular measurements are vital functions for precision equipment installation, machine alignments and metrology in many industries within the precision engineering cluster, field engineers are often constraint by using traditional spirit bubble levels or single-axis digital inclinometers to accomplish these basic leveling tasks one axis at a time and tedious trial-and-error iterations. In fact, modern precision leveling, angle measurement and alignment tasks essentially involve a plane or two dimensional (i.e. 2-axis), while conventional leveling tools/instruments are limited to single axis, Digi-Pas® technology and innovation have empowered many engineers by eradicating constraints associated with using single-axis instrument. Further, at higher precision and wider range of angular measurements, conventional single-axis inclinometer becomes susceptible to cross-axis error. Digi-Pas® 2-axis ultra-precision inclinometer embedded with advanced MEMS and proprietary compensation process technologies effectively prevents cross-axis error and simultaneously displays tilted-plane surface angles with greater accuracy.

In 2014, we launched eGeeTouch® NFC smart locking device that utilizes state-of-art proximity access security technologies and it was the world's first of its kind, which subsiquently receiving numerous Innovation Awards from Japan and USA. These smartlocks effectively resolve disadvantages associated with conventional locks, providing enhanced security as well as a truely hassle-free expereince to users. The novel innovation of eGeeTouch® smartlocks wirelessly link to the internet to the Cloud-computing infrastructure, deploying highly secured NFC technology via smart devices such as smartphones, smartags etc., validated us as the world pioneer in introducing Internet of Things (IoT) into travel luggage industry by prestigeous world's largest Consumer Electronic Association (CEA) at 2014 CES Unvieled New York. eGeeTouch® smart padlock tracks, WHO, WHEN & WHERE an access was made providing an audit trail (audit log - a security relevant chronological record), containing documentary evidence of the sequence of access history which is a highly useful new feature unmatched by any conventional padlock. For more info, please visit www.egeetouch.com.

Digi-Pas® continues to collaborate with world-leading metrology laboratories and product's accuracy performance to specification has been verified by accredited 3rd party independent certification bodies in USA, Japan, Germany and UK traceable to NIST, JIS, DIN & UKAS. In over a decade, we have attained over 30 Intellectual Property (IP) rights (incl. patents, registered designs and trademarks) in U.S, Japan & Europe. Our product development roadmaps have unveiled numerous world-first innovative new products in leading international tradeshows. For over a decade, our R&D have been strategically focusing on applied research in the area of advanced technology deployment to electronic devices based on the concept of disruptive innovation creating radically new products that seek to replace thier respective conventional products and in collaboration with many world-leading research institutes have successfully developed and turned cutting-edge research findings into global-leading new products.

Advantages of using Digi-Pas® 2-Axis precision digital inclinometer over conventional single-axis levelling instruments:

Traditional spirit level, pendulum-based digital level and inclinometer were constrained with (i) single axis, (ii) narrow angle measurement range and (iii) large footprint/size. Single-axis inclinometer is also susceptible to cross-axis error particularly when measuring at larger angles. However, precision levelling, angle measurement, alignment and surface flatness profiling tasks essentially involve 2-dimensional plane rather than two independent orthogonal single-axis lines. Digi-Pas® 2-Axis precision inclinometer utilizing advanced MEMS technology provides simultaneous 2-axis and wide angle measuring range capabilities that traditional single-axis digital/'bubble' levels are unable to offer.

Digi-Pas® 2-Axis Machinist Digital Level on 2D (X-Y plane) of a 2-axis Sine Table
Digi-Pas® 2-Axis Machinist Digital Level on 2D (X-Y plane) of a 2-axis Sine Table
  • 2-axis MEMS technology enables simultaneous 2D (X-Y plane) leveling and angles measurement instrument (i.e. pitch & roll), completely eliminates tedious trial-and-error (i.e. going back-and-forth taking reading one-axis at a time) experienced when using single-axis levels to align precision machines/objects. No costly need for owning 2 units of single-axis digital levels to do the same task as one unit Digi-Pas® dual-axis. i.e. effective & time saving. The repetitive yet monotonous trial-and-error activity of using single-axis levels is also time-consuming, non-productive and promote boredom that often succumb engineers to resort for compromising works.
  • Digi-Pas® 2-axis MEMS driven inclinometers are compensated and calibrated for non-linearity and operating temperature variation utilizing proprietary advanced manufacturing patented processes. Angular accuracy and stability performance over a very wide measurement range are externally verified by accredited 3rd party independent certification bodies traceable to NIST, UKAS, DIN & JIS. i.e. accredited & reliable. Because of its 2-axis, wide angular measuring range and vibrometer functions, Digi-Pas® inclinometer is more than just a leveling tool. It is an instrument that provides a comprehensive solution for planar angular leveling, measuring, diagnostic and alignment needs.
    angular linearityangular deviaton vs. temperature
    Compensating and calibrating Digi-Pas® 2-Axis Machinist Digital Level
  • Digital Bull's Eye with numerical/graphical data and a built-in VibroMeter enable machine installer to track/guide alignment in real-time and instantly verify positional stability of the levelled/aligned machine by comparing machine's status profiles before and after setting up. Dual axis smart Bull's eye also prevents parallax error that is prone to experience when viewing the 'bubble' of a traditional spirit level, i.e. accountability & quality works.
  • Wireless/USB connectivity to PC/mobile device enables engineers to perform 'one-man-operation' when conducting levelling and alignment tasks, i.e. speedy & cost saving.
    One-man-operation can be performed when levelling machine using Digi-Pas® 2-Axis precision Digital Level via wireless Bluetooth connectivity
    'One-man-operation' can be performed when levelling machine using Digi-Pas® 2-Axis precision Digital Level via wireless Bluetooth connectivity

Utilizing Digi-Pas® 2-axis inclinometer translates into speedy machine installation and productive maintenance works with professional quality that maximizes precision machine performance. Thus, leads to improved user's product quality (e.g. accuracy & yield) and higher customer satisfaction.

Digi-Pas® 2-axis digital inclinometer provides a comprehensive solution for precision levelling and angular measurement, and serves as a superior alternative that seeks to replace the use of outdated spirit levels and limited angle-measuring range of conventional single-axis digital levels.

©2022 DIGIPAS USA LLC. All Rights Reserved

Three-Point Contact Base of Digi-Pas® 2-axis Precision Inclinometer

  1. Limitations of conventional rectangular contact base levelling instrument

    The contact base surface finish quality of a typical conventional leveling instrument or inclinometer is one of the critical determinants of its accuracy performance and the common rectangular-shape flat surface often suffers from geometrical deviation resulting from:

    • Waviness and unevenness
    • Irregularities due to distorted or worn surface
    • Dust and dirt trapped or surface roughness

    Figure 1 illustrates three typical poor surface finishes of conventional rectangular surface contact base. The unstable surface-to-surface contact causes rocking which results in measurement inaccuracy derived from inconsistent readings. A common practice to improve the outcome under such constraint is by taking more samples to obtain an averaged reading. However, this time-consuming and repetitive activity often promotes boredom that succumb engineers to resort for compromising works, especially when the instrument is located at some distance.

    Figure 1 Poor surface finishes of typical levelling instrument contact base and implications
    Figure 1: Poor surface finishes of typical levelling instrument contact base and implications

    Although high quality surface requires both flatness and smoothness, it is difficult and expensive to control in machining of metal alloy surface particularly when involving relatively large area. Increasing the flatness and smoothness of a few microns would usually increase exponentially on its manufacturing costs. This often results in a trade-off between the manufacturing costs of the instrument and thus compromises its accuracy performance.

    In addition, the rectangular contact base surface of a conventional leveling instrument is also susceptible to target measuring surface unevenness, which is another factor affecting levelling and measurement accuracy. Figure 2 illustrates issues associated when a rectangular contact base of a traditional single-axis spirit level is placed on a typical machined surface having low frequency, long wavelength flatness variation. It is clearly shown that full and stable surface-to-surface contact could not be achieved between the instrument base and the measuring surface. The contact may cause rocking that results in measurement errors, hence affects the accuracy and reliability of the leveling outcome.

    Figure 2: Conventional single-axis contact base on a two-dimensional uneven plane
    Figure 2: Conventional single-axis contact base on a two-dimensional uneven plane
  2. Pioneering the application of 3-point contact base in 2-axis precision levelling instrument

    In view of the constraints inherent in conventional contact base measuring instrument described in the foregoing, Digi-Pas® pioneered and patented the utility of 3-point contact base for its 2-axis precision angular and surface flatness measurement instruments. The triangular shape of 3-point contact base seeks to address the shortcomings associated with conventional rectangular contact base.

    Figure 3: Stable 3-point-to-surface contact between Digi-Pas® inclinometer and flat surface object
    Figure 3: Stable 3-point-to-surface contact between Digi-Pas® inclinometer and flat surface object
    Figure 4: Stable 3-point-to-surface contact between inclinometer and uneven surface
    Figure 4: Stable 3-point-to-surface contact between inclinometer and uneven surface

    When a 3-point contact base leveling instrument is placed on either flat or uneven surface object (e.g. typically machined metal surface) as shown in figure 3 and 4 respectively, the three-point frame serves as a triangle-plane platform for supporting the weight and maintaining the stability of the instrument. It provides maximum stability and strength against downward forces and horizontal forces as well as movements about horizontal axes. With the sturdy three-point stand, a most stable 3-point-to-surface contact can be established without rocking and thus achieving consistent leveling readings of the two-dimensional measuring surface. Any angular deviations on the surface area is detected by Digi-Pas® 2-axis inclinometer as sensitive contact points touch on a particular section of uneven surface area.

  3. Advantages of Digi-Pas® 3-point contact base levelling instrument

    In 2009, Digi-Pas® pioneered and patented the utility of 3-points contact base to its world-first 2-axis precision digital level series that effectively prevent any surface dimensional deviation caused by unevenness of its own instrument’s metal surface contact base. Figure 5 illustrates the 3-point contact base screws made of harden steel and titanium materials that offers great stability and prevent it from ‘rocking’ when placed on either flat or uneven smooth surface for 2D levelling and planar angular measurement.

    Figure 5: Digi-Pas<sup>®</sup> patented 2-Axis Precision inclinometer utilizing 3-Point Contact Base
    Figure 5: Digi-Pas® patented 2-Axis Precision inclinometer utilizing 3-Point Contact Base

    Maintaining the 3-points contact is easy, speedy and cost effective simply by replacing the harden/titanium screws whenever they wear off, saving significant amount of time and cost as compared to maintain the instrument’s contact base surface finish through standard machining. Device accuracy performance can also be re-calibrated by performing User Self-Calibration or “Absolute Level” setting at ease. Please refer to user manual for detail instructions.

    For using Digi-Pas® 2-axis inclinometer to level an object having a very rough top surface, the 3-point harden/titanium screws can be temporarily removed and use the flat base surface to naturally average the rough surface. Absolute Level Setting is required to be performed immediately after changing the base to ensure the instrument maintains its reference accuracy. However, in high precision leveling, angular measurement and surface profiling tasks usually involve high quality flatness and smooth surfaces such as granite and metal alloy machined surfaces. Hence, 3-point contact base is a better choice.

©2022 DIGIPAS USA LLC. All Rights Reserved