2013年2月25日 星期一

Innovation driven by electronics

 

High-end electronics provide drivers and passengers with in-car navigation and entertainment and information delivered over a wireless network. In fact, many car buyers today care more about the infotainment technologies embedded in the dashboard than what's under the hood. This phenomenon is requiring additional storage space for rich multimedia data and advanced software and applications and is driving an explosive growth of both volatile and nonvolatile memories. Embedded multimedia cards are helping meet this demand in today's memory-hungry automotives.

Industrial PC, gaming platform, networking appliance
 
The automotive market is moderately but steadily growing. Global car sales rose 6 percent year-on-year in the first half of 2012, despite the ongoing headwinds associated with the sovereign debt problems in Western Europe and some moderation in the pace of global economic activity. Global sales of passenger  and light commercial vehicles are expected to grow from 78 million units in 2011 to more than 100 million units in 2018. In a recent study, Gartner confirmed that electronics are playing a major role in the advancement of automotive technology. Electronic content in cars has been steadily increasing since the first digital engine control modules were introduced in the ’80s.
Today, microelectronics enable advanced safety features, new information and entertainment services, and greater energy efficiency. The electric/electronic share of value added to a state-of-the-art  is already at 40 percent for traditional, internal combustion engine cars and jumps as high as 75 percent for electric or hybrid electric vehicles. This trend will accelerate as advances in semiconductor technology continue to drive down the cost of various electronic modules and subsystems.
Infotainment is one of the key megatrends fueling the pervasiveness of microelectronics in cars. Users want to be connected and conveniently access their personal content anywhere, anytime, on all of their devices. The vehicle becomes just another node in the network, an extension of the user’s digital and social lifestyle (see this article’s lead-in photo). A “connected” car is also more comfortable, safer, and energy efficient, having early access to important information such as weather reports, traffic jams, or road accidents. According to a recent study, 60 percent of new cars will be connected by 2017. Given this scenario, consumer electronic trends are dictating features in the car, and the innovation cycle time is becoming shorter and shorter. Meanwhile, a key to this automotive infotainment innovation is the system’s enabler: memory.

Refer:
http://embedded-computing.com/articles/automotive-industry-innovation-driven-electronics/

The competitive market for smart


Industrial computer, Panel PC, networking appliance
 

The competitive market for smart, connected devices is heating up, which requires OEMs to stay focused on differentiating their products and getting to market quickly. ARM-based building blocks are enabling OEMs to reallocate the resources needed to find, install, program, and troubleshoot drivers or debug hardware and concentrate instead on their core competencies. With prevalidated platforms that are fully configured and tested to deliver the required interoperability, compatibility, and functionality, OEMs can focus on application development and reuse existing application-specific software on a flexible hardware framework.

It is a dynamic time in the embedded market, as processors and software advancements are breaking down the barriers that once limited the implementation of various computing platforms. In conjunction with these advancements, embedded computing board and module suppliers are continually enhancing their platform portfolios to take advantage of the performance, interface, functionality, and power improvements available with next-generation processor architectures.
Refer:
http://embedded-computing.com/articles/modular-scalability-smart-connected-devices/#at_pco=cfd-1.0

2013年2月4日 星期一

Intel 3rd Generation Core i7/i5 and Celeron processors AIV-HM76V0FL

Industrial PC, gaming platform, networking appliance
Industrial PC, gaming platform, networking appliance

AIV-HM76V0FL features Intel HM76 mobile chipset and FCPGA 988 socket for 3rd generation Core i mobile computer platform. AIV-HM76V0FL adopts Acrosser’s expertise of design for in-vehicle applications. These designs include smart power management, high efficient thermal module, and diversity of integrated communication technology such as 4 USB 3.0, CAN bus, Wi-Fi, 3.5G wireless WAN, Bluetooth and GPS.

The smart power management subsystem enables user to define the power on and off sequences through software interface or BIOS setting to meet any requirement of in-vehicle applications.

AIV-HM76V0FL Features
‧ FCPGA 988 socket support Intel 3rd Generation Core i7/i5 and Celeron processors up to 45W i7-3820QM
‧ Fanless thermal design and anti-vibration industrial design
‧ HDMI/DVI/VGA video outputs
‧ Combo connector for Acrosser’s In-Vehicle monitor
‧ 4 external USB 3.0 ports
‧ CAN bus 2.0 A/B
‧ Wi-Fi, Bluetooth, 3.5G, GPS
‧ One-wire (i-Button) interface
‧ 9-32 VDC power input
‧ -20 to 60 degree C operating temperature