Multi-Layered Stacks: The Big Opportunity in Automotive LED Lighting
In these times of hyper-fast innovation, LED lighting is making a big impact in the auto industry. Beyond headlights and taillights, LED lights are making their way onto dashboards, rear view mirrors, and anywhere and everywhere auto manufacturers can find a use for them.
Making those challenges a reality has been the charge of Boyd Corporation. They embraced the rapidly changing world of LED lighting a few years back, understanding that big things were coming for LEDs and the auto world.
Whatās amazing about Boyd’s financial and strategic commitment in LEDs was they didnāt just chase a hot new product. They helped develop it themselves.
What is LED Lighting?
The term LED stands for āLight Emitting Diodeā a two-lead semiconductor light source. LEDs create light by electroluminescence in a semiconductor material. Electroluminescence is the phenomenon of a material emitting light when an electric current or an electric field passes through it. (Source: Edison Tech Center)
This video gives an in-depth explanation of how an LED light works.
Why is LED Lighting Making Such a Big Impact in the Automotive Industry?
LED lighting has grown by leaps and bounds as the technology has rapidly improved over the years. These particularly become useful to the automotive industry, and for good reason.
According to ThinkProgress, the best LED bulbs:
- Cut electricity use by 85 percent compared to incandescent light bulbs and 40 percent compared to fluorescent (with increases on the way).
- Can last for up to 5 years of nonstop use or a few decades if used just a few hours a day.
- Provide superior light quality.
As Autos Cheat Sheet notes, these little diodes illuminate quickly, are virtually heat-free, last long, and are nearly indestructible. Itās easy to see the enthusiasm behind LEDs for automakers, especially as their cost drops.
āIn the next 2-5 years, everything on a vehicle will use LED lighting, both internal and external,ā said Scott Anderson of Boyd. This is what piqued the interest of Boyd, and prompted them to make a move into the supply chain via innovation and one very smart investment.
The Light Bulb Goes Off: Seeing an Opportunity
Boyd Corporation is headquartered in Pleasanton, CA. Founded in 1928, itās an engineered materials and thermal management company that serves a diverse range of industries, including automotive and e-Mobility. Theyāre not afraid to push the envelope on innovation, and several years ago, they sensed an opportunity with LED lighting.
LEDs are now used in interior mirrors to display things like a compass or a back-up mirror. The LEDs are laminated onto the mirror, using a protective film that diffuses light and heat.
According to Anderson, China produces roughly 90% of the LED lights. However, the application of the lights provided Boyd with an opportunity. Knowing that their automotive partners didnāt want to laminate the film on their production floor, they set about finding a way to do it for them.
Multi-Layered Stack = Multiple Challenges
To create a mirror with an LED light within it requires a multi-layered stack. Boyd needed to bond the LED module to the glass mirror and include the light diffusion film in between. This posed multiple challenges for the team.
āWe had to seal out light, moisture, and contamination,ā said Boyd Engineering Manager Jeff Snedeker. āThere are extremely tight tolerances. And with the small LED, there were small areas to cut out. Everything had to line up right.ā
The components had to be particulate-free; no one could handle them. Boyd uses a Delta ModTech Crusader converting press to stack the adhesive diffuser with a foam component for shock absorption. Then all the materials are die cut to size and shipped to the automotive manufacturer.
Itās All in the Island Placement Feature
The key is the cut that isolates the LED component. Even though a fair amount of the components are small – about the size of a quarter – itās still cost-prohibitive to put down a full layer on the stack.
Both diffusion and brightness enhancing films are highly engineered. Diffusion films are made up of polycarbonate and can be from 1 mil to 10 mil-thick. The heat management films may have specific ingredients in the film to gather and disperse heat.
āEverything is getting smaller and more powerful,ā Anderson said. “And as a result, more expensive.ā Boyd knew that scrap in this case would make the project cost-prohibitive, but they also knew they didnāt have many options with most converting machinery.
āTraditional rotary converting equipment couldnāt make that cut,ā Snedeker said. āYouād have to cover the whole part.ā Boyd utilizes Delta ModTechās patented Island Placement module to make and place the small die cut diffuser onto the larger layered part, thereby reducing scrap.
Take a look at this video to see Boyd’s multi-layered manufacturing techniques:
Collaborating From the Get-Go
āThe end product produced today is amazing,” said Anderson. āBut getting from A to B took a significant investment on Boyd’s part, and a leap of faith.ā
First, the idea of a laminated stack didnāt even exist until Boyd approached its automotive partners and suggested the possibility. āWe came to the table with our customer base, and shared the idea that we would make the stack here. We wanted to give them the option,ā Anderson said.
The automotive companies agreed to the idea in principle, but Boyd had to execute. They teamed with Delta ModTech to investigate the multi-layered stack option. It was a true collaboration, according to Anderson.
āDelta knew what their machine could do, and our expertise is in adhesive and film converting,ā he explained. āWe talked to the customer, got the best case scenario, and then worked with Delta.ā
Build It and They Will Come
The investment in the Delta ModTech machine was a significant one, especially since Boyd did not have full capacity to justify the purchase. They were banking on a ābuild it and they will comeā model.
Boyd’s risk tolerance extended beyond simply dollars. They had to send their own engineers to Delta to learn the operational aspects of the machine, and to determine if the stackable product could truly be produced.
āWe really started from scratch,ā Snedeker said. āItās been quite a learning curve.ā
āThe Next Ten Years Will Be Very Interesting.ā
The innovation that Boyd has pioneered is opening eyes across many different industries. Theyāre prompting a shift from a paradigm where components are cut separately overseas because of cheap labor, and then assembled here in a sophisticated package.
āWhen it comes to the adhesive, we are producing a highly functional, high-tolerance part,ā Anderson said.
And where will this lead? āThere seems to be ample opportunity, with products like mobile phones, tablets, and laptops, as well as electric cars,ā said Snedeker. āEverything will need circuit boards, and the question of heat dispersion and light enhancement will need to be answered over and over again.ā
āWe started with one customer committed to this process. More are coming. I think we are moving in the right direction,ā Anderson said. āThe next ten years will be very interesting.ā