How Do I Become a Hardware Engineer?
The position of Hardware Engineer requires to be familiar with the computer market; develop a computer assembly plan; be able to purchase the hardware equipment required for assembly and reasonably configure and install computers and peripherals; install and configure computer software systems; maintain hardware and peripherals; Describe the computer software and hardware failures that occurred.
hardware engineer
- Chinese name
- The position of Hardware Engineer requires to be familiar with the computer market; develop a computer assembly plan; be able to purchase the hardware equipment required for assembly and reasonably configure and install computers and peripherals; install and configure computer software systems; maintain hardware and peripherals; Describe the computer software and hardware failures that occurred.
- Computer product hardware design
- 2. Understanding calculations
- 1. Computer software and hardware installation and commissioning;
- 2. Network installation and commissioning based on TCP / IP protocol;
- 3. Installation and commissioning of peripheral products;
- Learn and master
- 1. Familiar with circuit design, PCB layout, circuit debugging, and proficiency in circuit design software such as PROTEL;
- 2. Familiar with common electronic components, and proficient in searching for various component materials;
- 3. Grasp common hardware design tools and use methods of debugging instruments;
- 4. Familiar
- Proficient in the installation, commissioning and networking of computer software and hardware, peripheral products;
- As a hardware engineer, you need both solid hardware knowledge and good software knowledge. Now with the use of device updates, the requirements for software are getting higher and higher.
- Learn and master the motherboard
- basic knowledge
- Purpose: To understand and master the most basic knowledge of becoming a qualified hardware engineer in detail based on actual experience and actual projects.
- 1); Basic design specifications
- 2); CPU basic knowledge, architecture, performance and selection guide
- 3); MOTOROLA's PowerPC series basic knowledge, detailed performance and selection guide
- 4); Basic knowledge, architecture, performance and selection of network processors (INTEL, MOTOROLA, IBM)
- 5); Basic knowledge and performance of commonly used buses
- 6); detailed performance introduction, design points and selection of various memories
- 7); Basic knowledge, performance, design points and selection of commonly used physical layer interface chips in the fields of Datacom and Telecom
- 8); Key points and essence of common device selection
- 9); Detailed performance introduction, design points and selection guide of FPGA, CPLD, EPLD
- 10); VHDL and Verilog; HDL introduction
- 11); network foundation
- 12); hardware research and development process of large domestic communication equipment companies;
- Guide to the most popular EDA tools
- Proficiency and use of the latest and most popular professional design tools in the industry
- 1); ViewDraw, PowerPCB, Cam350 by Innoveda
- 2) Orcad, CADENCE, Allegro, Spectra
- 3); MAX + PLUS of Altera; II
- 4); Learn to use VIEWDRAW, ORCAD, POWERPCB, SPECCTRA, ALLEGRO, CAM350, MAX + PLUS; II, ISE, FOUNDATION and other tools;
- 5); FOUNDATION, ISE from XILINX
- One. Overall hardware design
- Master the hardware design experience and design ideas necessary for the overall hardware design
- 1); product demand analysis
- 2); development feasibility analysis
- 3); System solution research
- 4); Overall architecture, CPU selection, bus type
- 5); Mainstream CPUs in the field of data communication and telecommunications: M68k series, PowerPC860, PowerPC8240, 8260 architecture, performance and comparison;
- 6); the overall hardware structure design and issues that should be paid attention to;
- 7); choice of communication interface type
- 8); task decomposition
- 9); minimum system design;
- 10); PCI bus knowledge and specifications;
- 11); how to avoid fatal errors in the overall design phase;
- 12); How to reasonably perform task decomposition to achieve more results with less effort?
- 13); Project examples: medium and low-end routers, etc.
- two. Hardware schematic design technology
- Purpose: Through detailed project cases, carry out all the experience of schematic design in detail, and reveal the key points and essence of the design.
- 1); Principle design experience and essence of mainstream CPUs (M68k, PowerPC860, 8240, 8260, etc.) in the field of telecommunications and data communications;
- 2); The essence of the schematic design of the Intel PC motherboard
- 3); Principle design experience and essence of network processor;
- 4); Experience and essence of bus structure principle design;
- 5); Experience and essence of memory system principle design;
- 6); Principle design experience and essence of general physical layer interface in the field of data communication and telecommunications;
- 7); Principle design experience and essence of WATCHDOG commonly used in telecommunications and data communication equipment;
- 8); Telecom and data communication equipment system live plugging principle design experience and essence;
- 9); Experience and essence of crystal oscillator and clock system principle design;
- 10); Experience and essence of schematic design of PCI bus;
- 11); Project examples: medium and low-end routers, etc.
- three. Hardware PCB drawing design
- Purpose: To reveal all the experience of PCB design through specific project cases, so that you can quickly grow into an excellent hardware engineer
- 1); PCB design experience and essence of high-speed CPU board;
- 2); Design points and essence of ordinary PCB
- 3); PCB design essence of MOTOROLA's PowerPC series
- 4); PCB design essence of Intel's PC motherboard
- 5); The essence of PCB design experience for PC motherboards, industrial computer motherboards, and telecommunication equipment motherboards;
- 6); PCB design specifications and workflows of well-known domestic communication companies;
- 7); Relevant requirements for production and processing technology in PCB design;
- 8); Transmission line problems in high-speed PCB design;
- 9); PCB design experience and essence of the mainstream CPU (PowerPC series) in the field of telecommunications and data communications;
- 10); PCB design experience and essence of universal physical layer interface (100M, Gigabit Ethernet, ATM, etc.) in the field of telecommunications and data communications;
- 11); PCB design experience and essence of network processors;
- 12); The topology of the PCB step line is extremely important;
- 13); PCB design experience and essence of PCI step line;
- 14); SDRAM, DDR; PCB design experience and essence of SDRAM (125 / 133MHz);
- 15); Project case: PCB design of mid-range router
- four. Hardware debugging
- Purpose: To teach hardware debugging and testing experiences and points with specific project cases
- 1); hardware debugging is equivalent to black box debugging, how to quickly analyze and solve the problem?
- 2); Passing on a lot of debugging experience;
- 3) How to speed up the hardware debugging process
- 4); How to quickly resolve hardware debugging issues
- Fives. Software and hardware joint debugging
- 1); How to judge the fault of the software?
- 2); How to perform joint debugging with the software?
- 3); Passing on a lot of joint debugging experience;
- Purpose: To clarify the direction and positioning of career development, to truly understand the requirements of large enterprises for talents, and to clarify the direction of individual efforts in vocational skills.
- 1); Career consulting and guidance
- 2); How to become a good hardware development engineer and get a high salary and vocational level?
- 3); Dilemma and Outlet for Hardware Engineers
- 4); Standard for Excellent Hardware Engineer
- The salary of hardware engineers is generally 3000-25000.