schotkyy
Newbie
Sure! Here's the English translation of your request:
Hi all!
I want to simulate the type of rfid tag shown in the photo using CST. I am interested in the dipole structure shown in the photo. I want to investigate what changes the horizontal and vertical arm lengths of this dipole cause. Based on my research, this dipole is obtained by forming a conductive material into a thread-like structure. Can I consider it as a single conductor? Additionally, how should I use this in the simulation? The dipole is not directly powered by an energy source; instead, it loops around the central module. I am not interested in the effect of the central module, only in how the geometry of the dipole affects the impedance. How can I achieve this? Should I treat the dipole as a single conductor and add a waveguide port to one end of it? Or should I open a gap in the center of the dipole and place a discrete port there?
Hi all!
I want to simulate the type of rfid tag shown in the photo using CST. I am interested in the dipole structure shown in the photo. I want to investigate what changes the horizontal and vertical arm lengths of this dipole cause. Based on my research, this dipole is obtained by forming a conductive material into a thread-like structure. Can I consider it as a single conductor? Additionally, how should I use this in the simulation? The dipole is not directly powered by an energy source; instead, it loops around the central module. I am not interested in the effect of the central module, only in how the geometry of the dipole affects the impedance. How can I achieve this? Should I treat the dipole as a single conductor and add a waveguide port to one end of it? Or should I open a gap in the center of the dipole and place a discrete port there?
