Electronic Materials Private Limited

Electronic Materials Pte Ltd

. . your preferred partner-supplier of electronic materials solutions.

Polymer Solutions for

Circuit Assembly

Encapsulation & Potting

Hybrid/Thick Film

Optoelectronic

Semiconductor Packaging Thermal Management Automotive Electronics

EMI Shielding Gaskets

EMI Shielding Tapes

I/O Backplane Gaskets

EMI Shielding Laminates

Cyanoacrylate and Anaerobic Engineering Adhesives

Surface Protection, Masking and Specialty Tapes

Conductive Ink for RFID, Flex Circuits, Membrane Switches, High Density Interconnect

Engineered Films & Papers for Photovoltaic, RFID, Flex Circuit, Insulation, Biomedical

High Tech Metallurgy - Chemically Active Materials

Electrically Conductive, Thermal, Structural Adhesive Films & Preforms

Active Solder Alloy, Join Metal, Ceramic, Glass, Carbon Material Without Plating and Flux

Total RFID Solutions

Parelec ispearheaded the development, manufacturing and marketing of Parmod® VLT (Very Low Temperature) inks and pastes for printed circuitry to customers across the electronics industry. Parmod VLT conductive inks and pastes are ideally suited for the Radio Frequency Identification (RFID) inlets used in smart cards and smart labels, membrane switches, flexible circuits, and high-density applications such as chip scale packaging.

In July 2002, the Company introduced ModflexTM, a family of new specially developed, flexible substrates that work in conjunction with Parmod VLT to offer the electronic industry a fully additive process for screen-printing circuits and reflow soldering components.

Parmod Conductive Ink

Parmod® provides a new way to create electrical circuits small enough to give you the high-tech products your customers enjoy at a price you can afford. Parmod® technology is based on a simple two-step process:

Step One: Print

Parmod inks, pastes and toners–which include silver, copper, gold, and a variety of other metal compositions–are quickly and easily applied to industry-standard substrates (such as polyimide and FR-4 epoxy glass) by any convenient printing process, including screen printing, computer-controlled dispensing, and electrostatic printing.

Step Two: Heat

After printing, substrates are cured to pure metallic conductors in seconds at a temperature low enough to permit their use on conventional circuit boards. Once cured, the Parmod® circuit can be used as is or transfer laminated onto lower cost materials.

Benefits

Cost Effective

Parmod® employs an additive process, which means that only the exact amount of conductive material required to make a circuit is used in processing. This translates into substantial cost savings, where conductive material purchased equals conductive material used. The two-step process is fast and simple, further reducing costs and increasing yield.

Solderable and Highly Conductive

Parmod® products convert to pure metal without organic binders or alloying elements. Therefore, they have solderability similar to etched and and plated copper.

Rapid Processing

Through Parmod® technology, conductors are cured onto substrates in a matter of minutes, without costly finishing steps. This increases productivity and efficiency, reduces inventory and provides for faster turnaround.

Environmentally Friendly = No Waste

Parmod® uses an environmentally-friendly process, which results in no hazardous waste. This is unlike subtractive and semi-additive processes, where unused copper must be etched away and hazardous plating waste discarded.

Compatibility

Parmod® is compatible with a number of familiar substrates--such as polyimide--allowing for a wide variety of uses across many industries. Parmod® traces can be transfer laminated to a still wider variety of polymer substrates such as polyethylene and polyester. Even paper can be used as a substrate. Parmod® silver can also be printed directly on glass.

Computer Aided Manufacturing

Parmod® compositions can be printed under computer control direct from Computer-Aided Design (CAD) files without special tooling or masks to provide the ultimate in flexible, just-in-time manufacturing. An electronic design can be prototyped, modified and produced using computer driven dispensing equipment. Designs can be kept on file and additional parts produced as needed in quanitities large or small. Modification to accept new components or design ideas is simple.