The polarity-protection circuit in Figure 1 is a high-performance alternative to the usual series diode (often Schottky). The circuit incurs a much lower voltage drop than even the best Schottky diode. The circuit uses MOSFET devices because of their low on-resistance. For the transistors in this design, the combined on-resistance is 0.013V. With a 10A load, the voltage drop is 0.13Ω at 25°C. Compare this figure with forward-voltage drops of several hundred millivolts for Schottky diodes under the same conditions. You must use p- and n-channel transistors in series because of their intrinsic diodes. A photovoltaic isolator provides the appropriate gate drive to the MOSFETs. The performance is even better at lower currents. You can replace the two discrete transistors by a single-package, complementary-MOSFET pair, such as an IRF7389, which has a combined on-resistance of 0.108Ω. Resistors R₂ and R₃ are necessary to turn off the transistors when IC₁ turns off. R₁ provides a nominal 12V input.

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