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Computer Hardware Engineer Main job tasks.
1.Hardware design of computer products.
2.Learn about the structure of computers and how they are evolving.
3.Have a deep understanding of the sales and market of computer hardware4Regional market management.
5.Complete hardware products that meet functional performance requirements and quality standards as planned;
6.According to the detailed design report of the product, complete the logical design that meets the functional and performance requirements;
7.According to the logic design specification, design detailed schematic diagram and PCB diagram;
8.Write debugging programs, test or assist in testing and developing hardware devices to ensure that they operate normally according to the design requirements;
9.Preparation of project documentation, quality records and other relevant documentation;
10.Maintain management or assist in the management of the hardware developed.
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Baseband Hardware Engineer. It's up to you to do it!
What hardware engineers basically need to master is:
1. Digital logic circuit design.
2. EDA software, PCB drawing software.
3. Master one or several embedded processors.
4. C language or assembly.
Baseband hardware engineers also need to master the following:
1. Analog circuit design.
2. Baseband chips (such as Ethernet chips).
3. Data coding (such as Manchester coding, 4B 5B coding, PAM5 and other coding) but it depends on what you are engaged in, if it is research and development, you may also use FPGA CPLD and DSP chips!
There are also some mathematical algorithms.
If you used to do hardware work! It should be relatively simple to engage in baseband work, and you can be familiar with it a little!
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Hardware engineers need to master the basic analysis methods of circuits, master the basic analysis methods of circuits, master a circuit design tool, analog electronic circuit knowledge, digital electronic circuit knowledge, and microprocessor applications.
1. Master the basic analysis methods of circuits, such as circuit analysis or circuit books, the core is Kirchhoff's current and voltage theorem, which expounds the loop, which is the basis for our analysis of whether complex or simple circuits, the loop analysis is clear, and the rest is calculation. There is also circuit equivalence, which is an effective means of simplifying complex problems, such as Thevenin's theorem.
2. Master the knowledge of devices, whether it is analog electricity, digital electricity or power electronics, the beginning is device knowledge, with the increase of your development experience, you will find that the design is originally the selection of devices, and the deeper step is your understanding and application of the principle of the device. It is difficult for newcomers who are just starting to design to appreciate this.
3. Master a circuit design tool, schematic drawing and PCB design, this is very effective, the core is to draw that is, design, by drawing the schematic diagram you will enhance the circuit analysis ability, because we will not face the real circuit. In addition, when you are drawing a schematic, you will unconsciously consult information, such as data sheets, etc., and the actual design will urge you to behave.
4. Analog electronic circuit knowledge, analog circuit knowledge is the foundation, starting from understanding the most basic resistors, capacitors, inductors, diodes and transistors and other components, you need to be familiar with some basic analog circuit design methods. For example, simple amplification circuits, addition and subtraction circuits, circuits with triodes as switches, etc. In particular, the basics of circuit voltage division and power calculation are used every day.
5. Digital electronic circuit knowledge, digital electronic circuit knowledge is also a foundation that needs to be mastered, digital electricity is relatively easy to learn or understand than analog electricity, to understand some commonly used gate circuits, flip-flops and timing relationships.
6. The application of microprocessor has the basis of single-chip microcomputer, understanding the internal working principle, and some functions and usage methods, peripheral circuits, etc. The commonly used basis is the 51 microcontroller, or some processors of the ARM series.
Introduction to Hardware Engineer
Hardware Engineer position requires familiarity with the computer market**; Develop a computer assembly plan; Be able to purchase and assemble the hardware equipment required, and be able to reasonably configure and install computers and peripherals; installation and configuration of computer software systems; maintenance of hardware and peripherals; Clearly describe the computer hardware and software failures that have occurred.
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