Cascode power amplifier with voltage limiter

What is claimed is: 1. A power amplification system comprising: an input transistor having an input transistor gate configured to receive a radio-frequency (RF) signal, an input transistor source coupled to a ground voltage, and an input transistor drain; an output transistor having an output transistor drain coupled to a supply voltage via an inductor and configured to output an amplified version of the RF signal, an output transistor gate coupled to a bias voltage, and an output transistor source; one or more middle transistors coupling the input transistor drain to the output transistor source, the one or more middle transistors including a first middle transistor having a first middle transistor gate coupled to the bias voltage and a first middle transistor drain coupled to the output transistor source; and a high voltage limiter coupled between the output transistor drain and output transistor gate, the high voltage limiter configured to prevent a gate-drain voltage of the output transistor from exceeding a high voltage threshold. 2. The power amplification system of claim 1 wherein the high voltage limiter includes a high voltage limiter transistor having a high voltage limiter transistor gate coupled to the output transistor drain, a high voltage limiter transistor drain coupled to the output transistor drain, and a high voltage limiter transistor source coupled to the output transistor gate. 3. The power amplification system of claim 1 further comprising a low voltage limiter coupled between the supply voltage and the first middle transistor gate, the low voltage limiter configured to prevent the gate voltage of the first middle transistor from dropping below a low voltage threshold. 4. The power amplification system of claim 3 wherein the low voltage limiter includes a low voltage limiter transistor having a low voltage limiter transistor source coupled to the first middle transistor gate, a low voltage limiter transistor drain coupled to the supply voltage, and a low voltage limiter gate coupled to a supplemental bias voltage. 5. The power amplification system of claim 4 wherein the supplemental bias voltage is higher than the bias voltage. 6. The power amplification system of claim 1 further comprising a second middle transistor having a second middle transistor gate coupled to the bias voltage, a second middle transistor drain coupled to the first middle transistor source, and a second middle transistor source coupled to the input transistor drain. 7. The power amplification system of claim 6 wherein the first middle transistor gate is coupled to the bias voltage via a first RC circuit including a first resistor coupled between the first middle transistor gate and the bias voltage and a first capacitor coupled between the first middle transistor gate and the ground voltage. 8. The power amplification system of claim 7 wherein the second middle transistor gate is coupled to the bias voltage via a second RC circuit including a second resistor coupled between the second middle transistor gate and the bias voltage and a second capacitor coupled between the first middle transistor gate and the ground voltage. 9. The power amplification system of claim 8 wherein the first capacitor has a first capacitance and the second capacitor has a second capacitance, the second capacitance being larger than the first capacitance. 10. A radio-frequency (RF) module comprising: a packaging substrate configured to receive a plurality of components; and a power amplification system implemented on the packaging substrate, the power amplification system including an input transistor having an input transistor gate configured to receive a radio-frequency (RF) signal, an input transistor source coupled to a ground voltage, and an input transistor drain, an output transistor having an output transistor drain coupled to a supply voltage via an inductor and configured to output transistor gate configured to output an amplified version of the RF signal, an output transistor gate coupled to a bias voltage, and an output transistor source, one or more middle transistors coupling the input transistor drain to the output transistor source, the one or more middle transistors including a first middle transistor having a first middle transistor gate coupled to the bias voltage and a first middle transistor drain coupled to the output transistor source, and a high voltage limiter coupled between the output transistor drain and output transistor gate, the high voltage limiter configured to prevent a gate-drain voltage of the output transistor from exceeding a high voltage threshold. 11. The RF module of claim 10 wherein the packaging substrate includes a silicon-on-insulator (SOI) substrate. 12. The RF module of claim 10 wherein the input transistor and output transistor are complementary metal-oxide semiconductor (CMOS) transistors. 13. A wireless device comprising: a transceiver configured to generate a radio-frequency (RF) signal; a front-end module (FEM) in communication with the transceiver, the FEM including a packaging substrate configured to receive a plurality of components, the FEM further including a power amplification system implemented on the packaging substrate, the power amplification system including an input transistor having an input transistor gate configured to receive a radio-frequency (RF) signal, an input transistor source coupled to a ground voltage, and an input transistor drain, an output transistor having an output transistor drain coupled to a supply voltage via an inductor and configured to output transistor gate configured to output an amplified version of the RF signal, an output transistor gate coupled to a bias voltage, and an output transistor source, one or more middle transistors coupling the input transistor drain to the output transistor source, the one or more middle transistors including a first middle transistor having a first middle transistor gate coupled to the bias voltage and a first middle transistor drain coupled to the output transistor source, and a high voltage limiter coupled between the output transistor drain and output transistor gate, the high voltage limiter configured to prevent a gate-drain voltage of the output transistor from exceeding a high voltage threshold; and an antenna in communication with the FEM, the antenna configured to transmit the amplified RF signal received from the power amplification system. 14. The wireless device of claim 13 wherein the power amplification system further includes a low voltage limiter configured to prevent a gate voltage of a transistor from dropping below a low voltage threshold.