Transmitter/receiver module for millimeter wave 5G MIMO communication systems

What is claimed is: 1. A transmit/receive module, comprising: an integrated control circuit that is configured to operate in a transmit mode and in a receive mode, wherein in the transmit mode, the integrated control circuit is configured to convert a digital input signal into a plurality of phase shifted RF transmit signals corresponding to a radiation pattern for a phased array, and wherein in receive mode, the integrated control circuit is configured to convert an RF receive signal that is received from a phased array into a digital output signal; and a plurality of transmit/receive integrated circuits connected to and controlled by the integrated control circuit, wherein each of the transmit/receive integrated circuits are configured to amplify one of the RF transmit signals using a power amplifier during the transmit mode, and to amplify one of the RF receive signals using a low noise amplifier during the receive mode, wherein the integrated control circuit is configured to bias the power amplifier of each transmit/receive integrated circuit and to calibrate a power level of the power amplifier of each transmit/receive amplifier integrated circuit in the transmit mode, and wherein the integrated control circuit is configured to protect the integrated control circuit from damaging power levels of the RF receive signal by biasing the low noise amplifier of each transmit/receive amplifier integrated circuit in the receive mode. 2. The transmit/receive module of claim 1 , wherein the integrated control circuit comprises multiple pairs of I/O terminals, each pair comprising a TX output terminal and an RX input terminal, wherein the integrated control circuit is configured to apply the plurality of phase shifted RF transmit signals to the TX output terminals, and wherein the integrated control circuit is configured to receive the RF receive signals at the RX input terminals. 3. The transmit/receive module of claim 2 , wherein each transmit/receive integrated circuit comprises a TX input terminal, an RX output terminal, an antenna interface terminal, and a switch, wherein the power amplifier is connected to the TX input terminal, wherein the low noise amplifier is connected to the RX output terminal, wherein the TX input terminal of each transmit/receive integrated circuit is connected to one of the TX output terminals of the integrated control circuit, wherein the RX output terminal of each transmit/receive integrated circuit is connected to one of the RX input terminals of the integrated control circuit, wherein the switch is configured to connect an output of the power amplifier to the antenna interface terminal and to disconnect the low noise amplifier from the antenna interface terminal during the transmit mode, and wherein the switch is configured to connect the antenna interface terminal to an input of the low noise amplifier and to disconnect the power amplifier from the antenna interface terminal during the receive mode. 4. The transmit/receive module of claim 3 , wherein the integrated control circuit comprises a TX power sensor connected to each TX output terminal, and wherein the integrated control circuit comprises an RX power sensor connected to each RX input terminal. 5. The transmit/receive module of claim 4 , wherein the integrated control circuit is configured to protect the integrated control circuit from damaging power levels of the RF receive signal by monitoring a power level of the RF receive signal at each RX output terminal using the RX power sensors and by reducing an input bias of the low noise amplifier power associated with an RF receive signal that exceeds a predefined power level. 6. The transmit/receive module of claim 5 , wherein the integrated control circuit is configured to turn the low noise amplifier power associated with the RF receive signal off in the event that the RF receive signal exceeds the predefined power level. 7. The transmit/receive module of claim 3 , wherein a final output stage of the power amplifier of each transmit/receive integrated circuit comprises a gate terminal and a drain terminal, and wherein each gate terminal and drain terminal is independently connected to the integrated control circuit. 8. The transmit/receive module of claim 7 , wherein the integrated control circuit is configured to calibrate the power level of the power amplifier of each transmit/receive amplifier integrated circuit in the transmit mode by comparing a measured power value of the of the RF transmit signals and an observed drain current of the final output stage of the power amplifier with power versus current plot that is internally stored in the integrated control circuit. 9. The transmit/receive module of claim 8 , wherein the integrated control circuit is configured calibrate the power level of the power amplifier by operating the power amplifier at a 1 dB compression point using the stored plot. 10. The transmit/receive module of claim 5 , wherein the integrated control circuit is configured to bias the power amplifier of each transmit/receive integrated circuit by controlling a gate bias of the final output stage of the power amplifier of each transmit/receive integrated circuit based upon a measurement of the drain current of the final output stage of the power amplifier of each transmit/receive integrated circuit. 11. A method of transmitting and receiving RF signals across a phased array using a transmit/receive module, the transmit/receive module comprising an integrated control circuit and a plurality of transmit/receive integrated circuits, each of the transmit/receive integrated circuits comprising a power amplifier and a low noise amplifier, the method comprising: operating the transmit/receive module in a transmit mode, the transmit mode comprising: converting a digital input signal into a plurality of phase shifted RF transmit signals corresponding to a radiation pattern for a phased array using the integrated control circuit; amplifying each of the phase shifted RF transmit signals using the power amplifier in the transmit/receive integrated circuits, wherein amplifying each of the phase shifted RF transmit signals comprises biasing the power amplifier of each transmit/receive integrated circuit and calibrating a power level of the power amplifier of each transmit/receive amplifier integrated circuit using the integrated control circuit; operating the transmit/receive module in a receive mode, the receive mode comprising: amplifying a plurality of phase shifted RF receive signal that are received from a phased array using the low noise amplifier in the transmit/receive integrated circuits; converting the phase shifted RF receive signal into a digital output signal using the integrated control circuit; and protecting the integrated control circuit from damaging power levels of the RF receive signal by biasing the low noise amplifier in the transmit/receive integrated circuits using the integrated control circuit. 12. The method of claim 11 , wherein protecting the integrated control circuit from damaging power levels comprises: using a power sensor in the integrated control circuit to measure a power level of the RF receive signal; and adjusting an input bias of the low noise amplifiers based upon the measured power level of the RF receive signal. 13. The method of claim 12 , wherein protecting the integrated control circuit from damaging power levels comprises turning the low noise amplifiers off that are associated with a RF receive signal that exceeds a predefined power level. 14. The method of claim 11 , wherein calibrating the power level of the power amplifier of each transmit/receiv