The overall design of software and hardware that PCB engineers need to master
PCB manufacturers, PCB designers and PCBA manufacturers explain the overall design of software and hardware that PCB engineers need to master
You can choose the software to use based on the following knowledge
Based on practical experience and actual projects, the basic knowledge of becoming a qualified hardware engineer should be understood and mastered in detail.
1) Basic Design Specification
2) Basic knowledge, architecture, performance and model selection guidance of CPU
3) MOTOROLA's PowerPC series basic knowledge, detailed performance and model selection guidance
4) Basic knowledge, architecture, performance and model selection of network processors (INTEL, MOTOROLA, IBM)
5) Basic knowledge and performance of common buses
6) Detailed performance introduction, key design points and model selection of various memories
7) Basic knowledge, performance, design points and model selection of common physical layer interface chips in Datacom and Telecom
8) Key points and essence of common device selection
9) Detailed performance introduction, design key points and model selection guidance of FPGA, CPLD and EPLD
10) VHDL and Verilog HDL Introduction
11) Network Basis
12) Hardware research and development process of large domestic communication equipment companies;
2、 The most popular EDA tool guide
Master and use the latest and most popular professional design tools in the industry
1) ViewDraw, PowerPCB, Cam350 from Innoveda
2) OrCad, Allegro, Spectra of CADENCE
3) Altera's MAX+PLUS II
4) Learn and skillfully use tools such as VIEWDRAW, ORCAD, POWERPCB, SPECCTRA, ALLEGRO, CAM350, MAX+PLUS II, ISE, FOUNDATION, etc;
5) XILINX's FOUNDATION, ISE
Hardware overall design
Master the hardware design experience and design ideas required by the overall hardware design
1) Product demand analysis
2) Development feasibility analysis
3) System scheme research
4) Overall architecture, CPU selection, bus type
5) Mainstream CPUs in the field of data communication and telecommunications: M68k series, PowerPC 860, PowerPC 82408260 architecture, performance and comparison;
6) Overall hardware structure design and problems needing attention;
7) Communication interface type selection
8) Task decomposition
9) Minimum system design;
10) PCI bus knowledge and specification;
11) How to avoid fatal errors in the overall design stage;
12) How to reasonably decompose tasks to achieve twice the result with half the effort?
13) Project case: medium and low-end routers
PCB manufacturers, PCB designers and PCBA manufacturers will explain the overall design of software and hardware that PCB engineers need to master.