Design Patch Antenna¶
A simple patch antenna design library
Prerequisite¶
Python environment
python=3.10
Install below packages
pip install scipy==1.9.0
pip install gerber_writer==0.3.4
Installation¶
pip install patch_antenna
Design patch antenna¶
To get the design results of a patch antenna use the method design(freq, er, h) by passing your resonant frequency (Hz), dielectric constant and thickness of the cavity (m) values as arguments.
Getting design parameters
import patch_antenna as pa
# resonant frequency in Hz
freq = 2.4 * 10 ** 9
# dielectric constant
er = 4.4
# thickness of the cavity in meter
h = 1.6 * 10 ** -3
result = pa.design_string(freq, er, h)
print(result)
Output:
{'frequency': 2400000000.0, 'patch_width': 0.0380099749575278, 'patch_length': 0.0294215930843705, 'feeder_width': 0.015203989983011122, 'feeder_length': 0.015449608708025277, 'inset_gap_width': 0.007601994991505561, 'inset_length': 0.010914409094654586, 'ground_length': 0.05447120179239577, 'ground_width': 0.06281396494053892, 'input_edge_impedance': 321.50075290241097}
Write as Gerber file for both feed types
Normal feed
pa.write_gerber(freq, er, h, 'patch_design_normal_2.4GHz_4.4_er_1.6_h.gbr', 'normal')
Inset feed
pa.write_gerber(freq, er, h, 'patch_design_inset_2.4GHz_4.4_er_1.6_h.gbr', 'inset')
Customize design results¶
Using design object
design = pa.design(freq, er, h)
design.feeder_length *= 1.25
design.feeder_width *= 1.10
pa.write_gerber_design(design, 'custom_patch_normal_design.gbr', 'normal')
pa.write_gerber_design(design, 'custom_patch_inset_design.gbr', 'inset')
Future¶
Design and gerber generation for patch antenna arrays and including other parameters calculation.
Note¶
Patch antenna design, 3D simulation, and Gerber file facility also published as Web-Live application.