In this study, a reconfigurable wideband antenna with inkjet printing is created using a low-cost resin coated commercial photo paper substrate. A PIN diode is primarily utilized to disperse the surface current, which gives the proposed antenna reconfigurable features in the lower frequency region. The antenna’s dimensions are 28. 94mmx36.36mmx0.44mm, and it has a partial ground that covers the mobile and wireless bands from 3. 32GHz to 7. 73GHz. For the antenna’s design parameter to be optimized, parametric analysis is done. The primary radiator is intended to operate at a frequency range of 4-7. 7GHz, while the L-shaped radiators are intended to work between 3. 3-3.9GHz. Peak gain and radiation efficiency for the suggested antenna were 3. 45dBi and 65%, respectively. Reflection coefficient, gain, and efficiency simulation and measurement findings indicate that the antenna design is in good agreement. This method eliminates the requirement for several electronic parts to provide multiband frequency.