HFSS12 Projects - I need help
时间:04-05
整理:3721RD
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Hi there,
I'm very new to this board. I have to pick a project from a list given by my teacher, in which we have to make simulations in HFSS12.
The remaining projects sound like this:
1.Conical spiral metal strip logarithmically periodic 1-10 Ghz analysis (Fig. 11.6 - Antenna Theory - Analysis and Design - Balanis p620)
2.Dipol Array log periodic 1-10 GHz analysis
3.Designign a 3rd order fractal antenna in microstrip technology (Sierpisnki) 1-10 GHz
4.Designign a 3rd order fractal antenna (Koch fractal dipole)
5.Impedance adaptation with the inset method at 2100 MHz
6.Designing a feeding network of a linear array at 2.1GHz
7.Designing a microstrip patch antenna with circular polarization and two point feeding at 2.1Ghz frequency
8.Designing a feeding network for a linear array with 4 microstrip patch elements at 1800 Mhz
I don't have much time to train myself in HFSS, but if you have some similar projects post them here and I will be very grateful.
Thank you.
I'm very new to this board. I have to pick a project from a list given by my teacher, in which we have to make simulations in HFSS12.
The remaining projects sound like this:
1.Conical spiral metal strip logarithmically periodic 1-10 Ghz analysis (Fig. 11.6 - Antenna Theory - Analysis and Design - Balanis p620)
2.Dipol Array log periodic 1-10 GHz analysis
3.Designign a 3rd order fractal antenna in microstrip technology (Sierpisnki) 1-10 GHz
4.Designign a 3rd order fractal antenna (Koch fractal dipole)
5.Impedance adaptation with the inset method at 2100 MHz
6.Designing a feeding network of a linear array at 2.1GHz
7.Designing a microstrip patch antenna with circular polarization and two point feeding at 2.1Ghz frequency
8.Designing a feeding network for a linear array with 4 microstrip patch elements at 1800 Mhz
I don't have much time to train myself in HFSS, but if you have some similar projects post them here and I will be very grateful.
Thank you.
Considering you are fresh in this field, I recommend u choose the 4th topic -- Koch fractal dipole. Other topics deal with more advanced techniques, such as array or circular polarization. There are step-by-step examples on dipole simulation in the manual accompanying the HFSS software.