| 摘要 |
An output stage of an amplifier contains N-channel high-side and low-side transistors for producing an output current. The gate drive circuitry for the transistors includes an N-channel transistor having its gate connected in common with the gate of the low-side transistor to the output of a high-gain input stage amplifier, and having its drain connected to the gate of the high-side transistor. This structure reduces distortion at the crossover between positive and negative output voltages and improves control of the quiescent current. Avoiding a P-channel low-side transistor also reduces the area required for the amplifier on an IC chip and eliminates clipping during negative swings of the output voltage. A capacitive coupling stage is used to prevent clipping during positive swings of the output voltage. When the gate drive for the high-side transistor goes low, a capacitor charges through a diode. When the gate drive goes high again, the diode becomes reverse-biased, and a P-channel transistor turns on to deliver the charge on the capacitor to the gate of the high-side transistor, providing a gate bias above the positive voltage rail. The capacitor can be fabricated in integrated form.
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