Where did all that racket come from?

Since arriving in the market, CMOS single-supply amplifiers have been beneficial to single-supply-system designers worldwide. Key players affecting the THD+N (total-harmonic-distortion-plus-noise) characteristics of dual-supply amplifiers are input noise and output-stage crossover distortion. The THD+N performance of a single-supply amplifier also originates in the amplifier’s input and output stages. However, the input stage’s impact on THD+N complicates the nature of this specification with single-supply amplifiers.

Several types of single-supply amplifier topologies can accept input signals across the power supplies. In the complementary-differential-input-stage topology, when the amplifier’s inputs are near the negative rail, the PMOS transistors are on, and the NMOS transistors are off (Figure 1). When the amplifier’s inputs are closer to the positive rail, the NMOS transistors are on, and the PMOS transistors are off.

This design topology has significant variations in the amplifier’s offset voltage across the common-mode input range. In the input region near ground, the PMOS transistor’s offset error is dominant. In the region near the positive power supply, the NMOS-transistor pair dominates the offset error. Both pairs are on as the amplifier’s inputs pass between these two regions. The end result is that the input offset voltage changes between the stages. When the PMOS and NMOS transistors are both on, the common-mode voltage region is approximately 400 mV. This crossover-distortion phenomenon affects the amplifier’s THD. If you configure the complementary-input amplifier in a noninverting configuration, the input crossover distortion can affect the amplifier’s THD+N performance. For instance, in Figure 2 the THD+N is 0.0006% if you avoid using the input transition. If the THD+N tests include the amplifier’s input crossover distortion, the THD+N is 0.004%. You can avoid this type of amplifier crossover distortion by using an inverting configuration.

To optimize a complementary-input-single-supply amplifier’s THD+N performance, place the amplifier in an inverting-gain configuration and keep the closed-loop gain low. If the system requires the amplifier to be configured as a noninverting buffer, an amplifier with a single-differential input stage and charge pump is a more appropriate choice.