The height of the dielectric substrate (h) = 1.6 mm.
FR4 material have: Dielectric constant of substrate (r) 4.3.
LINE SOURCE CST MICROWAVE STUDIO PATCH
Dielectric constant of substrate (εr) = 4.3. Method of Moments (MoM) Example: To design a microstrip patch antenna with the microstrip feed line (inset-fed) work on for WiFi 2.4 GHz.
CST MICROWAVE STUDIO - Frequency Domain Solver (Tetrahedral Mesh) In rare cases and with multiple excitations, the direct solver had set some solutions to zero.
The operating frequency (f˳) = 2.4 GHz. CST MICROWAVE STUDIO - Transient Solver (TLM Mesh) Fixed modeling of off -axis anisotropic frequency independent materials.
There are a a lot of methods for analysis microstrip patch antenna:Įxample: To design a microstrip patch antenna with the microstrip feed line (inset-fed) work on for WiFi 2.4 GHz.
The width and length of the Ground plane and the substrate -Wg -Lg.
The height of the dielectric substrate (h).
There are four essential parameters which are important to know: Microstrip patch antenna feeds with different mechanism feedings, the four most popular are :
in mobile satellite communication system.
Easy to feed (coaxial cable, microstrip line, etc.).
Can be integrated with microwave circuits.
The patch can take different shapes, such as rectangular, circular, triangular, or U-shaped, E-shaped, etc. The frequency range in which the antenna is planed to be be propagating, the size of the antenna, the material, the gain of the antenna and the structure of the antenna.īasically, the Microstrip Patch Antenna consists of : There are few basic things that must be known before designing an antenna in general such as: In general Microstrip patch antennas are also known as “PRINTED ANTENNAS ”.