It takes years to get "into cars" and with a burgeoning commercial market, many vendors probably don't think it is worth the learning curve.
@Janine, I totally get that. But I beg to differ on your second point. Believe me, every major wireless chip company I talk to is deeply interested in moving their consumer chips into the automotive market by getting their chips automotive qualified.
This says WiGig transfers huge video files from tablet to car (not direct from the Internet?). A simple cheap USB or WiFi will do that quite nicely. Then the car sends to the user (using a $600 tablet/phone) such useless data as tire pressure and battery state; which probably require about 64 bytes of data, and that data may change from week to week. What big problem is being solved by this technology? How about telling me precisely what component on the engine is throwing the P0171 trouble code and whether it needs cleaning, replacement, or just a jiggle on the connector? The dealer would charge $150 for that one-time info.
Most of the cell phone chip makers are watching for Automotive industry. I know Nvidia/Qualcomm/Broadcom and other such companies ar elooking into Automotive industry as well however none of those companies are right now actively pursuing these chips. My feeling is that WiFI + BT are not going to solve prolem in longer term, there need a whole new system to support the need. A system that can integrate all high data requirement needs within car + integrate system to cell phone netowrk and system that can easily connect them to home network as well.
@Junko, my understanding from working with clients in the automotive market is that you don't just "enter the market." It is an establishment of trust and vendor longevity process that is, perhaps, more like the mil/aero market then the consumer one. It takes years to get "into cars" and with a burgeoning commercial market, many vendors probably don't think it is worth the learning curve.
I wonder if it means that current combo chip suppliers for phones/tablets are not interested in making "automotive-qualified" versions. Or, they are simply holding back, to see if car OEMs believe the combo is the way to go...
As others have noted, designing chips for the automotive industry may be a big leap for some of the manufacturers who have traditionally been supplying parts for consumer devices like smartphones and tablets. A similar situation exists for the space industry, which Rajan Bedi recently discussed in a blog post - You guys are dinosaurs! - on EDN.
Chip making for Automotive industry is bit different than cell phone or tablets. Usually automotive system needs lot more reliability under extreme conditions and redundancy too. You certainly cannot afford to have wireless rear view camera image chopy or stuck due to some wireless noise around causing network congestion. And of couse you dont like nearby car causing interfearence in your car wireless system.
It will be interesting to see how we slowly moves from using wireless beyond just entertainment system.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.