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Use these equations to build your own calculator in Excel, Python, or MATLAB.
[ y_0 = \frac28.4\pi \cos^-1\sqrt\frac50297 \approx 9.04 \times \cos^-1(0.41) \approx 9.04 \times 1.148 \approx 10.4 \text mm ]
[ L = \frac3e82\times2.45e9\sqrt4.18 - 2\times0.00074 \approx 28.4 - 0.00148 \approx 28.4 \text mm ]
1. Introduction A rectangular microstrip patch antenna is one of the most common planar antennas. Feeding it directly with a microstrip line creates an impedance mismatch because the patch edge has high impedance (typically 150–300 Ω), while the feed line is usually 50 Ω. The inset fed (or recessed microstrip line feed) technique solves this by placing the feed point inside the patch, where the input resistance drops to 50 Ω at a specific inset depth.
Use these equations to build your own calculator in Excel, Python, or MATLAB.
[ y_0 = \frac28.4\pi \cos^-1\sqrt\frac50297 \approx 9.04 \times \cos^-1(0.41) \approx 9.04 \times 1.148 \approx 10.4 \text mm ]
[ L = \frac3e82\times2.45e9\sqrt4.18 - 2\times0.00074 \approx 28.4 - 0.00148 \approx 28.4 \text mm ]
1. Introduction A rectangular microstrip patch antenna is one of the most common planar antennas. Feeding it directly with a microstrip line creates an impedance mismatch because the patch edge has high impedance (typically 150–300 Ω), while the feed line is usually 50 Ω. The inset fed (or recessed microstrip line feed) technique solves this by placing the feed point inside the patch, where the input resistance drops to 50 Ω at a specific inset depth.