The circuit shown in Figure 1 provides a low-current, adjustable negative supply rail suitable for use as a sensor bias, liquid-crystal-display (LCD) contrast bias, or voltage-controlled-oscillator (VCO) tuning supply. By operating a charge-pump doubler from the output of a buffered digital-to-analog converter (DAC), the circuit avoids the customary approach involving clumsy level shifters based on op amps and discrete components. Figure 1. This adjustable negative supply consists of an inverting-doubler charge pump controlled by an 8-bit, serial-input DAC. IC1 is a dual, 8-bit DAC with serial input and buffered voltage outputs. Output impedances are 50Ω; therefore, the DAC output in use drops about 50mV while providing the 1.1mA typically drawn by the IC2 charge pump. As the input code varies from 0 to 255, the DAC output ranges rail-to-rail, changing approximately 40mV per step. With a +5V input (VCC) applied to IC1 and a -3V output from IC2, the code that produces the minimum allowable voltage to the charge pump (1.5V) is 80 (decimal). The charge pump draws 0.6mA and generates ±2 times the voltage at its VCC terminal, producing ±3V to ±12V as its input ranges from 1.5V to 6V. (The positive and negative outputs can be used simultaneously.) The main power can go as low as 2.7V, producing a negative output slightly over -5V. The minimum code for this condition is about 140 (decimal). To shut down the supply, simply write zeros to the DAC. The DAC itself has a shutdown mode that draws only 1µA. To ensure a reliable start-up when bringing the system out of shutdown, write a value that powers the charge pump with a minimum of 2V. Note that a microcontroller (µC) with a pulse-width-modulation (PWM) output can eliminate the DAC altogether. For example, you can provide a variable VCC to the charge pump by filtering a 20kHz PWM signal with a 270Ω/3.3µF lowpass network. Be sure the µC's port pin can supply the current with an acceptable voltage drop; if not, buffer it with a CMOS buffer or inverter such as the 74HC04. A related idea appeared in the 7/21/97 issue of Electronic Design. Related Parts   APP 1071: Jul 09, 1998 MAX522 Dual, 8-Bit, Voltage-Output Serial DAC in 8-Pin SO Package Full Data Sheet (PDF, 128kB) Free Samples MAX552 +3V/+5V, 12-Bit, Serial, Multiplying DACs in 10-Pin µMAX Package Full Data Sheet (PDF, 176kB) Free Samples MAX865 Compact, Dual-Output Charge Pump Full Data Sheet (PDF, 90kB) Free Samples 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™. We Want Your Feedback!   Download, PDF Format (28kB)  AN1071, AN 1071, APP1071, Appnote1071, Appnote 1071