Three-volt systems are becoming common, but they often include at least a few 5V components. A single five-comparator IC can produce the required 5V (from 3V) while generating power-on reset signals for the system microprocessor as well (Figure 1
More detailed image
Figure 1. This IC and related components boost the 3V supply to 5V, issue "5V ready" signals, and issue µP-reset signals.
Comparator IC1A is configured as an oscillator whose square-wave output (with approximate 60% duty cycle) drives the base of Q1. Q1 drives a conventional dc-dc converter consisting of inductor L1, catch diode D2, and C2. When VOUT
exceeds 5V, comparator IC1B pulls the oscillator signal low (IC1's open-drain outputs may be tied together without harm). The net effect is regulation at 5V.
IC1's minimum operating voltage is 2.7V, and when the circuit is operated at that voltage it can supply 2.8mA at 5V with 60% efficiency. L1 is an inexpensive 1mH inductor with a series resistance of about 25Ω. For higher current and better efficiency, you must lower this resistance by providing a more expensive inductor. Output ripple, which is almost entirely due to the hysteresis built into comparator IC1B, is about 50mV.
Comparator IC1C provides an active-high "5V ready" signal when the boost regulator's output reaches 4.5V-the level at which most 5V logic is operable.
Comparators IC1D and IC1E provide a reset for the microprocessor when the 3V supply is too low (below 2.83V). Active-low RESET goes low when the supply voltage falls below this threshold, and remains low for 200ms after it rises above the threshold. For the positive-going supply voltage, hysteresis raises the threshold to approximately 2.87V. The 200ms interval assures time for a full reset of the microprocessor after power is restored, and it allows time for recharging any capacitors associated with the circuit.
A related application for the five comparators of IC1 is to translate the logic signals generated by 3V devices to the levels appropriate for 5V devices.