In this study, the two designs of the compact microstrip patch antennas, exhibiting ultra wideband characteristics are presented. The design offers an overall bandwidth of 4.7 and 5.2 GHz with a return loss of −35dB and −40 dB, respectively. The presented designs of the antennas are targeted for applications in medical telemetry. Geometrical optimizations for the slotted rectangular patch antenna loaded with notches are carried out to enhance the bandwidth over the ultra wideband. Unlike the conventional way, the microstrip patch antenna is optimized by considering an infinite substrate. The effect of finite substrate on the bandwidth of the microstrip patch is investigated leading to better results in terms of simplicity, compact size, and bandwidth. Also, it is perceived that the partial ground plane, which is incorporated, improves the antenna’s bandwidth drastically and also the reflection coefficient. The prototype of the two presented designs is formulated by creating notches with three slots naming it to be MPA1, and the other one without slots and with only notches naming it to be MPA2 for observing the relative effect of slots and the partial ground plane on the bandwidth. A very close agreement is confirmed between the simulated and the experimental values of the reflection coefficient and the bandwidth. The maximum percentage bandwidth of 85% is attained in the case of MPA2, while a maximum gain of 2.39 dBi is achieved for MPA1, which offers flexibility to manufacturers for use.