Sequenced transmit muting for wideband power amplifiers

The invention claimed is: 1. A sequenced transmit muting wideband power amplifier, the power amplifier comprising: at least one pre-driver stage including a transmit radio frequency (RF) input and at least a first pre-driver and a second pre-driver; a mute switch configured to selectively establish a communication path between the first and second pre-drivers and couple the second pre-driver to a termination resistor; at least one pre-driver switch to selectively couple a supply voltage and ground to the first and second pre-drivers; a driver stage in communication with the at least one pre-driver stage, the driver stage including at least one first driver; a final amplifier stage including a transmit RF output and at least one second driver; at least one slow negative-bias-switching (S-NBS) switch configured to selectively couple one of a first voltage and a second voltage to the at least one first driver and at least one second driver; and at least one controller configured to activate the at least one pre-driver switch, the mute switch, the at least one S-NBS switch to selectively place the amplifier in one of a transmit mode and a mute mode. 2. The power amplifier of claim 1 , wherein the at least one controller is also configured upon detecting an ending receive frame to activate the at least one S-NBS switch to couple the first voltage to the gate of the at least one first and at least one second drivers, the at least one controller further configured activate the mute switch to establish the communication path between the first and second pre-driver and activate the at least one pre-driver switch to couple the supply voltage to the first and second pre-drivers to turn on the first and second pre-drivers after a select period of time from the activation of the at least one S-NBS switch to place the amplifier in the transmit mode. 3. The power amplifier of claim 1 , wherein the at least one controller is configured upon detecting an ending transmit frame to activate the at least one S-NBS switch to couple the second voltage to the gate of the at least one first and at least one second drivers, the at least one controller further configured activate the mute switch to couple the second pre-driver to the terminal resistance and activate the at least one pre-driver switch to couple ground to the first and second pre-drivers to turn off the first and second pre-drivers after a select period of time from the activation of the at least one S-NBS switch to place the amplifier in the mute mode. 4. The power amplifier of claim 1 , wherein the at least one pre-driver stage further comprises: a first pre-driver stage including the first pre-driver; a second pre-driver stage including the second pre-driver; a third pre-driver stage, the third pre-driver stage including, a first signal splitter coupled to split an output of the second pre-driver of the second pre-driver stage; a third pre-driver amplifier and fourth pre-driver amplifier in a parallel configuration, outputs of the first signal splitter coupled to respective inputs of the third and fourth pre-driver amplifiers; a first signal combiner configured to combine outputs of the third pre-driver amplifier and the fourth pre-driver amplifier, an output of the first signal combiner coupled to an input of the first driver of the driver stage; the at least one pre-driver switch including, a first pre-driver switch to selectively couple a supply voltage and ground to the first pre-driver, a second pre-driver switch to selectively couple a supply voltage and ground to the second pre-driver, and a third switch to selectively coupled one of the supply voltage and ground to the third pre-driver and the fourth pre-driver, the at least one controller configured to activate the third pre-driver switch. 5. The power amplifier of claim 1 , wherein the at least one second driver of the final amplifier stage further includes: a pair of second final amplifier drivers in a Doherty configuration; a second signal splitter having an input coupled to a output of the first driver in the first driver stage, outputs of the second signal splitter coupled to respective inputs of the pair of second final amplifier drivers; and a Doherty combiner having inputs coupled to respective outputs of the pair of second final amplifier drivers, an output of the Doherty combiner outputting the RF output signal. 6. The power amplifier of claim 1 , wherein the first and second pre-drivers are low noise amplifiers. 7. The power amplifier of claim 1 , wherein the first and at least one second driver is a Gallium Nitride (GaN) device. 8. The power amplifier of claim 1 , wherein the at least one controller is a field programmable gate array (FPGA) of one of a remote antenna unit in a distributed antenna system (DAS) and a repeater. 9. A sequenced transmit muting wideband power amplifier, the power amplifier comprising; a first pre-driver stage having a first pre-driver, the first pre-driver having an input coupled to receive an radio frequency (RF) input signal; a first pre-driver switch configured to selectively coupled one of a supply voltage and ground to the first pre-driver; a second pre-driver stage having a second pre-driver; a mute switch configured to selectively couple an input of the second pre-driver to an output of the first pre-driver and the input of the second pre-driver to a termination resistor; a second pre-driver switch to selectively coupled one of the supply voltage and the ground to the second pre-driver amplifier; a driver stage, the driver stage including a first driver that is in communication with an output of the second pre-driver stage; a first slow negative-bias-switching (S-NBS) switch configured to selectively couple one of a first negative voltage and second negative voltage to a first driver gate of the first driver; a final amplifier stage having at least one second driver, the at least one second driver having an input coupled to an output of the first driver of the driver stage, the at least one second driver providing a RF output signal; a second S-NBS switch configured to selectively couple one of the first negative voltage and the second negative voltage to a second driver gate of the second driver; and at least one controller configured to activate the first pre-driver switch, the second pre-driver switch, the mute switch, the first S-NBS and the second S-NBS switches to selectively place the amplifier in one of a transmit mode and a mute mode. 10. The power amplifier of claim 9 , further comprising: a third pre-driver stage including, a first signal splitter coupled to split an output of the second pre-driver amplifier of the second pre-driver stage; a third pre-driver and fourth pre-driver in a parallel configuration, outputs of the first signal splitter coupled to respective inputs of the third and fourth pre-drivers; a first signal combiner configured to combine outputs of the third pre-driver and the fourth pre-driver, an output of the first signal combiner coupled to an input of the first driver of the driver stage; and a third pre-driver switch to selectively couple one of a supply voltage and ground to the third pre-driver and the fourth pre-driver, the at least one controller configured to activate the third switch. 11. The power amplifier of claim 9 , wherein the at least one second driver of the final amplifier stage further comprises: a pair of second final amplifier drivers in a Doherty configuration; a second signal splitter having an input coupled to an output of the first driver in the first driver stage, outputs of the second signal splitter coupled to respective inputs of the pair of sec