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A radio frequency (RF) power transistor circuit includes a power transistor and a decoupling circuit. The power transistor has a control electrode coupled to an input terminal for receiving an RF input signal, a first current electrode for providing an RF output signal at an output terminal, and a s

A radio frequency (RF) power transistor circuit includes a power transistor and a decoupling circuit. The power transistor has a control electrode coupled to an input terminal for receiving an RF input signal, a first current electrode for providing an RF output signal at an output terminal, and a second current electrode coupled to a voltage reference. The decoupling circuit includes a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the power transistor and the voltage reference. The decoupling circuit is for dampening a resonance at a frequency lower than an RF frequency.

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1. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;an output terminal coupled to the first current electrode;a first inductance

1. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;an output terminal coupled to the first current electrode;a first inductance coupled between the first current electrode and a node;a first capacitor coupled between the node and a voltage reference; anda first decoupling circuit coupled between the node and the voltage reference, wherein the first decoupling circuit presents a high impedance to a passband range of frequencies, and the first decoupling circuit comprises: a second inductance, a first resistor, and a second capacitor coupled together in series between the node and the voltage reference, wherein the second inductance and the second capacitor form a first inductor/capacitor circuit, and wherein the first resistor is configured to dampen a resonance of the first inductor/capacitor circuit in a frequency range of 1 to 20 megahertz. 2. The RF power transistor circuit of claim 1, further comprising: an input terminal coupled to the control terminal of the first power transistor, wherein the input terminal is configured to receive the first RF input signal; anda D.C. terminal coupled to the control terminal of the first power transistor, wherein a gate bias voltage is coupled to the D.C. terminal. 3. The RF power transistor circuit of claim 1, further comprising: a third inductance coupled between the first current electrode of the first power transistor and the output terminal, and wherein a power supply voltage also is coupled to the output terminal. 4. The RF power transistor circuit of claim 1, wherein a resistance value of the first resistor is in a range of 0.5 ohms to 5 ohms. 5. The RF power transistor circuit of claim 1, wherein a capacitance value of the second capacitor is in a range of 10 nano Farads to 1,000 nano Farads. 6. The RF power transistor circuit of claim 1, wherein an inductance value of the second inductance is in a range of 0.1 nano Henrys to 3 nano Henrys. 7. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;a first decoupling circuit, comprising a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit;an output terminal;a second inductive element coupled between the first current electrode of the first power transistor and the output terminal;a third inductive element coupled between the first current electrode of the first power transistor and a first node;a second capacitor coupled between the first node and the voltage reference; andthe first node, wherein the first decoupling circuit is coupled between the first node and the voltage reference. 8. The RF power transistor circuit of claim 7, wherein the first decoupling circuit further comprises: a second inductor coupled between the first node and the first resistor. 9. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal; anda first decoupling circuit, comprising: a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first resistor and the first inductor are coupled in series between first and second nodes, the first capacitor is coupled to the second node, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit, and wherein the first resistor is configured to dampen a resonance of the first inductor/capacitor circuit, anda second capacitor coupled between the first and second nodes in parallel with the first resistor and the first inductor. 10. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;a first decoupling circuit, comprising a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit;a second capacitor coupled between the first current terminal of the first power transistor and the voltage reference; anda second inductive element having a first terminal and a second terminal, wherein the first terminal is coupled to the second capacitor and to the first current terminal, and the second terminal is coupled to a power supply voltage. 11. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;a first decoupling circuit, comprising a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit; anda second decoupling circuit, the second decoupling circuit comprising a second inductive element, a second resistor, and a second capacitor coupled together in series between the control electrode of the first power transistor and the voltage reference, wherein the second inductive element and the second capacitor form a second inductor/capacitor circuit, and wherein the second resistor is configured to dampen a resonance of the second inductor/capacitor circuit. 12. The RF power transistor circuit of claim 11, further comprising: an input terminal;a first node, wherein the control electrode of the first power transistor is coupled to the first node, and the second decoupling circuit is coupled between the first node and the voltage reference; anda first matching network coupled between the input terminal and the first node. 13. The RF power transistor circuit of claim 12, wherein a gate bias voltage is coupled to the input terminal. 14. The RF power transistor circuit of claim 11, wherein the second resistor is incorporated into the second capacitor as a composite structure. 15. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;an input terminal;a first node, wherein the control electrode of the first power transistor is coupled to the first node;a first decoupling circuit, comprising: a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit, and wherein the first resistor is configured to dampen a resonance of the first inductor/capacitor circuit;a second decoupling circuit coupled between the first node and the voltage reference, the second decoupling circuit comprising a second inductive element, a second resistor, and a second capacitor coupled together in series between the control electrode of the first power transistor and the voltage reference, wherein the second inductive element and the second capacitor form a second inductor/capacitor circuit, and wherein the second resistor is configured to dampen a resonance of the second inductor/capacitor circuit; anda first matching network coupled between the input terminal and the first node, wherein the first matching network comprises: second and third inductors coupled in series between the input terminal and the first node; anda capacitor coupled between the voltage reference and a second node between the second and third inductors. 16. The RF power transistor circuit of claim 15, wherein the second inductor comprises a wire. 17. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;a first decoupling circuit, comprising a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit; anda second power transistor having a control electrode for receiving a second RF input signal and coupled to the first decoupling circuit, and a first current electrode for providing a second RF output signal. 18. A radio frequency (RF) power transistor circuit comprising: a first power transistor having a control electrode for receiving a first RF input signal, and a first current electrode for providing a first RF output signal;a first decoupling circuit, comprising a first inductive element, a first resistor, and a first capacitor coupled together in series between the first current electrode of the first power transistor and a voltage reference, wherein the first inductive element and the first capacitor form a first inductor/capacitor circuit;a second power transistor having a control electrode and a first current electrode for providing a second RF output signal; anda second decoupling circuit, the second decoupling circuit comprising a second inductive element, a second resistor, and a second capacitor coupled together in series between the control electrode of the second power transistor and a power supply voltage terminal, wherein the second inductive element and the second capacitor form a second inductor/capacitor circuit, and wherein the second resistor is configured to dampen a resonance of the second inductor/capacitor circuit. 19. The RF power transistor circuit of claim 18, wherein the second decoupling circuit is also coupled to the control electrode of the first power transistor. 20. The RF power transistor circuit of claim 18, wherein the first decoupling circuit is also coupled to the first current electrode of the second power transistor.