Improving oscillator phase noise using active device stacking

What is claimed is: 1. An integrated electronic circuit, comprising: active decoupling circuits, including, a first active device with a first capacitive device connected across the non-current control terminals of the first active device, and the current control terminal of the first active device connected to ground across a third capacitive device; and a second active device with a second capacitive device connected across the non-current control terminals of the second active device and the current control terminal of the second active device connected to ground across a fourth capacitive device; and a tank circuit that is direct current decoupled from a transconductance cell by the active decoupling circuits and a fifth and sixth capacitive device connected between the tank and the transconductance cell devices. 2. The integrated electronic device of claim 1 , further comprising n active devices in a series configuration in a stack, with n being an integer greater than one, wherein the tank is connected to a collector or source of a top one of the n active devices in the stack. 3. The integrated electronic device of claim 2 , wherein voltage swings across individual ones of the n active devices add up in-phase to provide a combined voltage swing that is n times higher than an individual voltage swing provided by a single one of the n active devices. 4. The integrated electronic device of claim 3 , wherein the active and passive decoupling circuits perform a sign inversion to transform the voltage swing of the given magnitude to the voltage swing of the reduced magnitude. 5. The integrated electronic device of claim 3 , wherein the active and passive decoupling circuits are configured to determine a ratio of voltage swings between the collector or source of the top one of the n active devices in the stack and the base or gate of the bottom one of the n active devices in the stack. 6. The integrated electronic device of claim 2 , further comprising a tail inductor connected to an emitter or drain of a bottom one of then active devices in the stack. 7. The integrated electronic device of claim 6 , wherein the n active devices comprise one or more metal oxide semiconductor field effect transistors or one or more bipolar junction transistors. 8. The integrated electronic device of claim 1 , wherein the active decoupling circuits are in between the tank and the transconductance cell to decouple the tank from the transconductance cell.