This work presents the application of geometric programming in the design of a CMOS low-voltage bandgap voltage reference source. Test results of a bandgap voltage reference designed via a conventional method are showed, this design experience motivated and helped to formulate the geometric program developed in this work. The geometric program developed in this work optimizes the bandgap source performance and speeds up the design time. The mathematical expressions that describe the bandgap source functioning and specifications were developed and adapted in the geometric program format. The temperature compensation, the PSRR, the current consumption, the area, the output voltage and its variations under the operational tranconductance amplifier offset voltage, and the stability are the main specifications of this type of bandgap reference source and they are included into the geometric program presented in this work. An example of the design using the geometric program formulated in this work, shows the possibility of designing the bandgap source in a few minutes with low errors between the geometric program results and the simulation results.
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