Microelectromechanical system (MEMS) devices often require high DC-bias voltages (40V to 100V) at low current (< 1mA), but the available supply voltage may be < 12V. A DC-DC converter that combines inductive and capacitive step-up circuitry (Figure 1) achieves the high voltage without need for a costly transformer. Figure 1. A high-voltage DC-DC converter (U1) converts a typical 5V input to 36V, and a 2-stage charge pump boosts that voltage to more than 100V. U1 is a step-up DC-DC converter capable of output voltages to +36V, and a 2-stage charge-pump converter (D2-D5 and C1-C4) nearly triples the U1 output. The R1/R2 divider provides feedback for regulating the circuit's output voltage. Use these equations to calculate the resistor values: For lower output voltages (< 70V), remove D4, D5, C3, and C4 to produce a single-stage charge pump. Similarly, you can add another stage to produce voltages higher than 100V. An optional post filter (R3 and C5) reduces the output ripple to < 10mVP-P. Figure 2 illustrates the variation of output voltage with output current. Figure 2. The output voltage in Figure 1 is well regulated for load currents up to 0.7mA. A similar version of this article appeared in the August 18, 2002 issue of EET magazine. We Want Your Feedback! Automatic Updates Would you like to be automatically notified when new application notes are published in your areas of interest? Sign up for EE-Mail™. More Information   APP 1751: Sep 27, 2002 MAX5025 500kHz, 36V Output, SOT23, PWM Step-Up DC-DC Converters Full Data Sheet (PDF, 264kB) Free Samples   Download, PDF Format (37kB)  AN1751, AN 1751, APP1751, Appnote1751, Appnote 1751