Parker Chomerics CHO-SHIELD® 608 EMI coating is a one-component, silver-filler conductive polyester coating that provides superb EMI shielding and a very thin dry film thickness
Parker Chomerics CHO-SHIELD® 2056 EMI coating is a one-component, silver and silver-plated copper filled acrylic paint designed for high levels of EMI shielding on plastic substrates
Parker Chomerics CHO-SHIELD® 4994 conductive coating is a very smooth, highly conductive, silver-filled polyurethane designed for military/aerospace airframe applications
Parker Chomerics CHO-SHIELD® 610 EMI coating is a three-component, silver-plated copper filled conductive epoxy that provides a cost effective and environmentally stable EMI shield on plastics and composite substrates
Electrically Conductive Paints
Parker Chomerics electrically conductive paints and coatings deliver critical EMI/RFI shielding on plastic and composite housings of electronic assemblies, as well as aircraft and airframe components. Choose from a variety of electrically conductive filler and binder configurations, each designed for durable, reliable and high performing EMI/RFI shielding in various applications. Our versatile EMI shielding paints and coatings are suitable for use across a diverse range of applications, with many options to choose from.
The next generation 5G wireless network seen in the advertisements is not the 5G available today. To understand why, it is necessary to set out the three different signal frequency bands.
Today’s 5G is essentially an advanced version of 4G. It has a little more capability, but it operates on the same frequencies (700 MHz to 2.6 GHz). Although there is a mid-range frequency band available of 2.5 to 6 GHz, the true promise of 5G and its potential to transform the world will take place in the ultr
Our team of expert engineers guide you through everything you need to know about working with electrically conductive sealants and adhesives.
Let us help you determine if CHO-BOND is right for your project.
Our EMI shielding products are of exceptional quality and encompass a diverse range of materials to suit a variety of applications.
If you need assistance identifying the most suitable material for your application, speak with one of our expert engineers. Our team is ready to help.
Every design engineer should know that an EMI gasket must be installed between mating flanges to prevent electromagnetic radiation (EMI) from entering or leaving an electronic enclosure. But what if your equipment will be used in humid or tempest environments? How confident are you in your design that corrosion protection will be addressed? Not so much? Well, then read on. Here’s our top three design tips for ensuring corrosion resistant EMI protection.
Please join us for a webinar discussing the basics of electrically conductive paints and coatings on the housings of electronic assemblies. You'll learn about:
Electrically conductive coatings for plastic enclosure electromagnetic shielding are growing in popularity as concerns overweight increase for a variety of EMI applications in the military, aerospace, automotive, telecom, medical, and semiconductor marketplaces. These paints are filled with conductive metals such as silver, nickel, copper, or other specialty powders and flakes.
Parker Chomerics CHO-MUTE 9009 is an elastomer-based absorber material that offers a user-friendly approach to reducing unwanted electromagnetic radiation from electronic equipment as well as minimizing cavity-to-cavity cross coupling and microwave cavity resonances.
Parker Chomerics has launched new solutions to protect drones from electromagnetic interference and overheating. Drones operating near cell phone towers, buildings, antennae, high-voltage power lines and other obstacles can be affected by serious electromagnetic interference (EMI), compromising their performance and safety.
Our customer, a global defense contractor is tasked with developing the next generation of armored land fighting vehicles, each needing to provide first-class protection and survivability, reliability and all-weather performance. The Parker Chomerics design and applications engineering team worked closely with the customer design team to meet rigorous testing procedures and ensure compliance of all specified technologies.
Parker Chomerics’ manufacturing operations span the globe, allowing us to serve you locally no matter where you are. We understand your unique needs and provide personalized solutions that cater to your specific requirements.