Beijing, July 15, 2015 - Since the German government upgraded Industry 4.0 to a national strategy, a new round of industrial revolution and industrial transformation around the world is in the ascendant, and technological innovation is deeply integrated and widely infiltrated into all levels of society, becoming a remodeling China is also accelerating the transformation and upgrading of traditional manufacturing industries with the industrial structure and the leading force in creating the future of the world. In order to comply with this international development trend, the “2015 Infineon XMCTM Microcontroller Roving Seminar†with “Industry 4.0†as the main line officially opened the national tour in July, systematically depicting the industrial 4.0 blueprint and the vision of Industry 4.0. The development of the German automation industry and the sharing of Infineon XMCTM microcontroller solutions in smart appliances, low-speed electric vehicles and digital power applications. In Infineon's view, connectivity and communication, information security and system security are key elements of industrial automation in the industry 4.0 environment, and Infineon is the only semiconductor company among the initiators of German Industry 4.0. Industry-leading semiconductor solutions for Industry 4.0.
The Infineon XMC4000 family has always been the industry's star-rated microcontroller, which is inevitably the highlight of the tour. The new XMC4800 series 32-bit microcontrollers with integrated on-chip EtherCAT® (Ethernet for Control and Automation) nodes simplify the implementation of EtherCAT to the market's expectations for many years, and the XMC4800 series with outstanding real-time capabilities will also be The accelerated development of networked industrial automation has injected a shot of intensive agent. With the XMC4800, users no longer need a dedicated EtherCAT ASIC, external memory and clock crystals to design a compact system with EtherCAT connectivity. A member of the XMC4000 family, the core of the XMC4800 family is based on the ARM® Cortex®-M4 processor and is designed for industrial and building automation as well as electric drives and solar inverters. The series allows users to seamlessly upgrade to EtherCAT technology and support EtherCAT in harsh conditions at ambient temperatures up to 125 °C.
In addition, in this tour, Infineon has released the latest XMC1400 series of microcontrollers for applications such as motors, power control, appliance control, industrial I/O modules and small general-purpose machines. As a new member of the XMC1000 family, the XMC1400 includes three sub-series of general-purpose/enhanced motor control/CAN communication. Based on the original XMC1000 series products, the new product will increase the CPU frequency to 48MHz. Combined with the 96MHz coprocessor unit MATH, it can provide more computing power. At the same time, it has more communication interfaces and pin packages, integrates MulTICAN modules, and supports CAN 2.0B to meet the needs of CAN communication in industrial applications. The XMC1400 also offers more peripheral units for motor and power applications that support dual motor control and complex power control. The XMC1400 package includes VQFN40, VQFN48, VQFN64, and LQFP64, which are suitable for applications requiring more I/O resources in industrial control.
Open development environment, personalized design of complete XMCTM microcontrollerInfineon not only provides customers and partners with comprehensive microcontroller products and solutions, but also provides a free, efficient and complete development environment for users who have personalized design requirements for XMCTM microcontrollers - based on Eclipse The platform's DAVE Version 4 helps users use the XMCTM microcontroller more easily and shortens the project development cycle. DAVE Version 4 integrates an IDE, a free compiler and simulation tools, as well as automatic code generation. In addition, the LLD (Low Level Driver) for the XMCTM family of microcontrollers is added; the LLD-based, application-designed, optimized and tested feature package App covers all the basic functions of the chip, and Application code generation, such as motor control or power conversion; with the software development kit SDK, users can design, compile, optimize or extend the App.
Online technology community, helping partners to seize business opportunitiesThe Infineon microcontroller online technology community is another highlight of the tour. The technical community not only provides users with functions such as data download, forum discussion, sample application, online activities and small-volume purchase, but also aims to bridge the gap between users and solution providers. With this platform, the low-speed electric vehicle drive kit developed by Infineon-Harbin Institute of Technology has an AC asynchronous motor FOC control algorithm, which allows users to easily modify parameters to implement custom functions. The hardware design is also quite noticeable. This kit is another successful collaboration since the joint launch of the servo control kit.
The RCA interface (CVBS)
Composite Video Broadcast Signal
CVBS is short for Composite Video Broadcast Signal. This is the most common video interface, the first application in the field of radio and television, then a lot of camera output support the CVBS interface, CVBS signals are interlaced video signal, and a resolution of 720 x576 (PAL) or 720 x480 (NTSC), CVBS is the analog video signal interface, has gradually been digital video signal interface and replace the hd video signal interface.
The AV interface (CVBS)
AV video interface English full name is: "Composite video connector", AV terminal is usually consists of three lines, transmission of video is usually yellow RCA terminal, the other with two red and white RCA terminal transmit audio, transmitted in AV terminal is analog TV signal source of three elements: Y, U, V, as well as the benchmark of the pulse signal synchronization. Y represents the brightness of the image (luminance, also called brightness), and contains the sync pulse, as long as there is signal Y can see black and white television image (in fact, this is the method of color TV and early black and white TV compatible). The U and V signals are loaded with color data. The U and V are first mixed into two sets of orthogonal phases ina signal (the mixed signal is called Chrominance), and then summed with the Y signal. Since Y is the fundamental signal and UV is mixed with the carrier, this summing action is equivalent to frequency division multiplexing.
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