Desenvolvimento de um sistema para medir potência ativa em equipamentos eletrocirúrgicos em tempo real

Abstract

This work presents the design of electronic structures that can be used for voltage and current probing in static power converters, switched or not, which work at frequencies above 100 kHz, in particular electrosurgical frequencies (300 kHz..5 MHz). In addition, also the instantaneous power and the active power are determined analogically, allowing the development of a control system that stabilizes active output power of an electrosurgical unit. The purpose of this work is to find a structure with neglectable reactance in the frequency band considered, or compensate them, creating low cost sampler circuits for complex high frequency signals. A brief study of Pin Through Holes (PTH) signal resistors, Surface Mounted Devices (SMD) signal resistor, and power wire resistors above 100 Ω characteristics is presented. Two realistic simplified models are proposed. One for signal resistances lower than 100 Ω and power wire resistors lower than 100 Ω. Another one for signal resistance greater than 100 Ω. Further, an analog system for reading the output voltage and current are proposed as well as one for real time active power determination. Each system is individually designed and tested. Validated results of one stage are used to assess the effectiveness of the subsequent stage. In the end, the full circuit is tested, and the results are analyzed demonstrating that a lower than 20% error is achieved as well as the low implementation cost. Finally, these results show a way to implement an active power measurement system for electrosurgical units that is unprecedented up to now.