Who owns hzo technology

Simply stated, we know how to get your job done most effectively, efficiently, consistently, and affordably. HZO answers what are conformal coatings and offers a variety of materials to meet your coating needs. Making automotive and aerospace electronics more durable, reliable, and safer.

Keeping your machines protected and your employees productive. Trusted Performance. Proven Longevity. Scalable Performance. Dependable Partnerships. Global Convenience. Proven Technology. Our solutions include: Conformal coatings with parylene Plasma applied nano coatings Atomic layer deposition coatings We can meet the protection level, budget, and manufacturing demands of your project on point, on time, every time.

When HzO technology is applied to a substrate, angstrom sized particles in a gas state align in a 3-D matrix to create a polymer coating that is transparent, and pinhole free with consistent thickness and universal coverage on all exposed surfaces. We apply no coating to the exterior of the device so it never affects the look and feel.

The coating does not retain heat so circuitry does not sustain thermal damage. We simply like to say that HzO provides protection from the inside out. SW : What kinds of applications do you see for HzO's nanocoatings?

PC : Certainly consumer mobile communication devices are a huge and growing market. Everyone is carrying their computer in their pocket today. And because our "computers" are now with us everywhere we go, they are exposed to damage by water through natural elements like rain and sweat and human accidents.

Our research shows the number of devices falling in toilets when skinny jeans are loosened is astounding. And by the way, the communications market is equally as large in military, commercial, first responders, and a host of other market segments.

HzO will enter the mobile laptop market as well. Additionally, we are currently doing applications for massive markets like consumer appliances think dishwashers, washing machines, refrigerators, kitchen appliances, bathroom appliances, etc. Other areas include medical devices, automotive electronics, aerospace, and solar energy. There are scores of other markets like hearing aids, artificial limbs, GPS, exercise equipment, performance racing, recreational vehicles, and freight and transport monitors.

Our primary business model is to license our technology to high volume manufacturers for installation at customer facilities. However, we also have installed our high speed equipment at our headquarters and we are doing application coatings jobs daily for customers who do not have volume which warrants an investment in machinery.

SW : Are there any special challenges in bringing HzO's technology to market? PC : Integration of machinery and process into existing manufacturing equipment is not a trivial endeavor. Adoption of HzO technology into consumer markets requires specifying HzO into production plans for the next generation of devices and working very closely with customer engineering teams.

In addition, there are consumer device components, like cameras, that are not built to withstand water. While our technology can protect the component electronics, there can be other issues, like condensation on a camera lens that requires additional engineering.

However, we have been jointly developing solutions to those problems for over a year. All can and will be solved in future devices. Additionally, automotive, medical and other industries electronics usually do not require the same component redesign or do not have components attached.

We can bring these applications to market much quicker. In addition, there is an interesting market dynamic that is a minor challenge. A water barrier protocol was developed in Japan several decades back that measured the ability of the case on a device to prevent water ingress inside the chamber holding the electronics. The water ingress referred to as IPX standard standard assigns a numerical value to the ability to withstand everything from minor external water exposure IP1 to submersion at 1 meter for 30 minutes IP7.

This system then allows device manufacturers to claim an IPX rating based on which testing level was met. These IPX ratings are also known as waterproofing standards. HzO enters the market and everyone is asking which IPX standard we meet with our technology. The practical answer is all of them by performance. The technical answer is none of them, because we allow water ingress around the electronics with no resulting damage.

We cannot tell anyone we meet IPX standards. This confuses technical assessment for manufacturers who want to know the IPX rating. If we state we have waterproof technology, it is practically true, but technically incorrect. Because we are changing the paradigm of water protection, we have now developed a new testing standard called the WaterBlock standard, which we are bringing to market with industry players. This new testing standard will measure the ability to protect electronic assemblies even when directly surrounded by water.

We believe this will clear up some of the confusion surrounding existing industry standards. In the future, we expect to see a WBX rating for electronics water protection coatings. Finally, manufacturers have been hesitant to adopt HzO without demand from the carriers and retailers who are buying the devices, because they will sell fewer devices if HzO is protecting against water damage. However, carriers and retailers - not to mention consumers - are growing very weary of being forced to pay the cost to keep loyal customers, because the customer has a dead phone from water damage that is not covered under warranty.

Now that carriers and retailers see there is a solution, they are driving the manufacturers to adopt HzO quickly. Our unique approach has HZO well-positioned for exponential global growth in the years ahead.

Our global team brings our mission to life through relentless innovation, seamless collaboration, and flawless execution. We hold ourselves accountable to the highest performance standards, placing the customer at the heart of everything we do. We cultivate a culture of belonging which prohibits discrimination and harassment, and we are committed to maintaining a workplace where everyone adds value and anyone can make a difference.

We work closely with original equipment manufacturers OEMs to optimize the design for coating effectiveness, relying on our different conformal coatings types, utilizing the diversity of materials supported, combined with coating equipment designed and built by HZO, and finally drawing on the experience and expertise of our award-winning scientist, technologist, and engineers. Some common application methods you may have heard of include brushing, spray coatings, encapsulation, conformal coating dipping, adhesive solutions, moisture curing and chemical vapor deposition.

HZO prides itself on using the chemical vapor deposition CVD process to apply our different coating solutions. We believe this process is the best as it allows a truly uniform conformal coating thickness to be placed on the desired surface — penetrating into the hardest to reach crevices — thanks to the vapor form the coatings take when applied.

All great projects begin with a great plan. Thankfully, HZO likely has a solution to meet your specific coating criteria with experience to ensure quality and success. We can provide a conformal coating type for almost any application. The tricky part about CVD is that — it allows the coating vapor to adhere to any uncovered surfaces, whether we want it to or not. This may include screens, sensors, lenses, connectors, and more whose functionality may be hampered with a coating.

Depending on the coating solution selected, you may not even need masking as many of our nano coatings are thin enough to allow connect-through as well as not interfere with sensitive electronic components. If masking is required for more robust coatings, such as Parylene, take confidence in the fact that HZO is a leading expert when it comes to masking. Much of our intellectual property is based in innovative materials and processes designed to streamline the masking process, ensuring your production is on time, on budget with quality assured.

We can meet your production and budget needs with solutions for: Many of the above-proven masking products and solutions are not found anywhere else in manufacturing, giving you the confidence that HZO has invested in your bottom line in terms of efficiency, quality and throughput. By the time you get here, things are already moving smoothly. Once your PCBAs or other electrical components have completed the masking process if applicable during pre-production, your products are now ready to be coated within our large, industry-first square coating chambers.

The units are loaded onto coating trays and placed into racks inside the coating chamber where our technicians will apply the coatings. HZO makes full use of our square-shaped chambers with trays that hold hundreds of different rack-loading configurations, depending on the size and the width of the products to be coated.

At this point, the actual coating process commences. Depending on the selected coating material, a different process takes place within the respective coating chamber. Take a look at our single material coating applications.

For Parylene coating, the conformal coating raw material in powder form is added to a vaporizer and sublimed from a solid to a vapor form. At room temperature in the coating chamber, vapor forms a uniform, thin-film polymer barrier around the electrical components being coated. Because of its vapor form, the gas is able to penetrate layers deep, protecting areas not even visible in complex PCBAs. Parylene coating acts like a literal shield around the components, not allowing moisture, corrosive gas, salts, sticky beverages, sweat, and more to get through.

For plasma-applied nano coatings, actual plasma the 4th state of matter is combined with fluorocarbon gases to create a vapor inside the coating chamber. This vapor creates a fine-tuned nano coating on the PCBAs or components inside. When finished, the PCBAs have a highly dense and pinhole-free hydrophobic top layer.

Water and other moisture will bead up and roll off the surface. Plasma-applied nano coatings also have the ability to protect from salt spray, humidity, condensation, limited water immersion, noxious or corrosive gasses, and solvent splashes, spills, or immersion. This new coating technology has the potential to introduce benefits including: Why settle for one coating layer? HZO can deposit specific materials on top of one another, the result being unique, strong, and long-lasting coatings that meet the protection needs of your products where other solutions may fall short.

Instead of applying one coating in a vapor form, ALD enables HZO to apply multiple layers of robust materials including metals and ceramics. ALD coats provide significant coverage for miniature to microscopic components. The stationary method involves injecting one material at a time into the coating chamber, waiting for it to attach itself to the component to be coated, then purging the remaining residual from the chamber.

A second material is then added to the chamber to cause a chemical reaction to the first one. This process is repeated with each additional layer of material until the desired protection is complete. After the material layer is applied, the rotary method uses a spinning action to separate the precursor formation.

Just like plasma-enhanced Parylene, plasma can be used to enhance the ALD coating process. Each layer of material is different, kind of like a lasagna! Given the many unique coating attributes generated, hybrid coatings allow for far more options when it comes to picking the solution you need to do the right job. The hybrid application process involves applying different layers of thin-film coatings on top of each other for specialized and customized protection capabilities.

Once the coating process is complete, the printed circuit boards PCBAs then go through a process of demasking, which is essentially just removing the masking that was strategically placed in the pre-production process.

Demasking can be done by hand or via automation. Quality Assurance is also done during the post-production phase. Quality assurance may be done visually with or without the help of our automated equipment. Our coating machines are calibrated and tested on a regular basis to guarantee expected and measurable results each time components go through the coating process.

Reach out for to see how else we can help you! Contact Us To Learn More. HZO Inc - Webinars. HZO webinars feature top experts in their field, sharing industry knowledge and best practices to ensure your knowledge is up to date when it comes to liquid protection.

Designing a differentiated product in an industry that has become globalized is no small feat. China is the largest automobile market worldwide, with automobile registrations totaling 21 million units in As such, competition for market share is vast. In an industry where rivals may lurk around many corners of the world, meeting consumer demands is more important than ever before, and safety tops the list.

As your customers become more dependent on integrated electronic components, they expect you to make sure each one is safe and dependable. If you have a device that must operate dependably in harsh, fluctuating environments, hybrid coatings are a strong technology consideration.

Along with the possibility of yielding higher temperature resistance with quicker processing times, hybrid alternative coatings offers other advantages, including:.

The products and services in these segments enable everything from commerce, construction, and operation — benefits so diverse and vital that they have catapulted the industrial space into a period of incredible change. Big-data is driving this market success.

Industrial systems and appliances have been brought online to deliver smart analytics, critical information generated from machines that have optimized and modified processes to lower cost, prevent downtime, and increase safety. We are sharing how thin-film alternatives and nanocoatings can help industrial electronics stay reliable as the landscape continues to evolve.

After all, any unprotected components will quickly be damaged by contaminants like rain, harmful gases, salt, humidity, and chlorinated water. Lack of device resiliency is a significant problem for manufacturers and device designers.