Resumen
Se propone una fuente de alimentación con elevada ganancia entre el voltaje de entrada y el voltaje de salida para aplicaciones que necesitan ser alimentadas desde 12 V a 14 V y en las que sea necesario contar con aislamiento galvánico. Fuentes de alimentación de estas características encuentran particulares retos de diseño, ya que dependiendo del tipo de aplicación para el que se utilicen, deberán proporcionar alto voltaje de salida, que sea simétrico o con pulsos de salida de muy corta duración. En este artículo se diseña, simula, construye y prueba una fuente con potencia de 10 W que alcanza voltajes desde 0 V a 1,000 V a partir de voltajes de 12 V a 14 V logrando una elevada ganancia entre el voltaje de entrada y el voltaje de salida (83). Estos niveles de voltaje de salida encuentran utilidad en aplicaciones de alto voltaje como en actuadores ultrasónicos.
Palabras Clave: Alto voltaje, fuente de alimentación conmutada, ultrasónico.

Abstract
A power supply with a high gain between the input and the output voltage is proposed for applications that need to be supplied from 12 V to 14 V and in which it is necessary to have galvanic isolation. Power supplies of these characteristics encounter design challenges, since depending on the type of application for which they are used, they must provide high output voltage, which is symmetrical or with very short output pulses. This article designs, simulates, builds, and tests a 10 W power supply that reaches voltages of 0 V to 1,000 V from voltages of 12 V to 14 V achieving a high relationship between input and output voltage (83). These output voltage levels find utility in high voltage applications such as ultrasonic actuators.
Keywords: High voltage, switched power supply, ultrasonic.

Chebli, R., M. Sawan, and Y. Savaria. 2005. A Programmable Positive and Negative High-Voltage Dc-Dc Converter Dedicated for Ultrasonic Applications. 48th Midwest Symposium on Circuits and Systems, 2005.

Flores, L. A., O. Garcia, A. Roman, F. Rizo, and L. E. Arambula. 2007. Isolated Two Inductor Boost Converter Start-up and Steady State Operation with Any Output Voltage. Electronics, Robotics and Automotive Mechanics Conference (CERMA 2007).

Jeong, D., J. Kim, H. Kim, and J. Baek. 2015. High Power Ultrasonic Transducer with Llcc Resonant Converter Using Digital Control Algorithm. 2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM).

Qiu, W., Y. Yu, F. K. Tsang, and L. Sun. 2012. "A Multifunctional, Reconfigurable Pulse Generator for High-Frequency Ultrasound Imaging." IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 59, no. 7: 1558-1567. https://dx.doi.org/10.1109/TUFFC.2012.2355.

Tseng, S., Y. Chen, Y. Huang, H. Hsieh, and T. Wu. 2004. Quasiresonant Flyback Converter for Transdermal Drug Delivery Applications. Vol. 3. Nineteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2004. APEC '04.

Xiao, D., J. Shao, H. Ren, and C. Xu. 2013. Design of a High Voltage Pulse Circuit for Exciting Ultrasonic Transducers. 2013 Far East Forum on Nondestructive Evaluation/Testing: New Technology and Application.

Xu, J., E. Grant, A. I. Kingon, J. M. Wilson, and P. D. Franzon. 2005. Drive Circuit for a Mode Conversion Rotary Ultrasonic Motor. 31st Annual Conference of IEEE Industrial Electronics Society, 2005. IECON 2005.