Continuing innovation, ongoing research and development resulted in a new generation of machines and software. Our design flexibility achieved by the use of a systematized construction means any custom solution can be applied to a range of different equipment.

MMS Products

Product Innovation

With the R&D effort, the first Trim and Form System was designed and developed, emphasizing our tooling core competency in 2000. It featured a distinct product differentiation as compared to most of the local competitors that were not strong in integration both tooling and automation technologies into one.

In 2001, the first LED assembly machine was developed, featuring a servo driven press and clinching technology to replace the conventional soldering process. Clinching is a viable substitute for mechanical fasteners, welding and soldering processes; and it is now widely used in the Automotive industry for LED lighting. The product is environmentally friendly and no peripheral equipment needs. Fully programmable to suit different LED layouts and assembly sizes.

Continuous development process established the first Turret Test Handlers in 2002. The system provides a tie-line multiple process integration system that combine test, trim, form, vision inspection, sort and taping capability into a single equipment.

Developed a large quantity of Automated Focusing and Test Handling Systems for embedded camera module used in the mobile phones of the telecommunication industry in 2003, one of the most rapidly expending markets at the moment.



Software Innovation

MCSP:
  • Component Oriented Programming paradigm
  • Flexible, robust & reusable software architecture
  • Rapid system development

1999 marked a successful development of the first PC-based software for the development of the control systems for each automation systems. This success was followed by a successful implementation of Vision inspection system in year 2000.

A standard PC-based software platform know as PCMCA (Personal Computer Machine Control Application for controlling) using c++ programming and Window NT which acts as the backbone program for the development of control systems for all its automation systems was successfully developed in 2001 and successfully implemented into all machine built in 2002.

In year 2004, MCSP.Net (Machine Control Software Platform on .Net Framework) platform was introduced as a replacement for PCMCA.

MCSP.Net is based upon an Evolutionary Software Process Model which is iterative in nature. It enables software engineers to develop increasingly more complete and improve version of the platform over a period of time.

The software architecture of MCSP.Net is built upon Component Oriented Programming & Object Oriented Programming. The concept of encapsulation, inheritance, polymorphism and interface based programming are fully exploited & applied in the platform. Besides this, the platform also utilizes Dependency Inversion Principle, Event Driven Communication & Enterprise Library. Ultimately, the platform is designed to fulfill all the traits of "Good Design" i.e. flexible, robust and reusable.

To fully harness the technology of Component Based Programming, .NET Framework is the next choice of development platform where the new software solution will target on. .NET is fundamentally a component technology that provides easy and clean way to generate binary components. .NET is engineered from the ground up to simplify component development and deployment, and to support interoperability between programming languages.