Hybrid coupler based t/r switch

1 . (canceled) 2 . A circuit arrangement comprising: i) a balanced amplifier comprising an output hybrid coupler comprising a first port, coupled port (CPL), a second port, direct port (DIR), a third port, isolated port (ISO), and a fourth port, input port (IN), the fourth port, IN, being configured for connection to an antenna; ii) a first series switch coupled to the first port, CPL, and a second series switch coupled to the second port, DIR; and iii) a terminating switch coupled to the third port, ISO, the terminating switch configured to selectively couple one or more series-connected tuning elements to the third port, ISO, wherein during a first mode of operation of the circuit arrangement: the first and second series switches are configured to respectively couple amplified phase-shifted signals of the balanced amplifier to the first port, CPL, and the second port, DIR, and the terminating switch is closed so to couple the one or more series-connected tuning elements to the third port, ISO. 3 . The circuit arrangement according to claim 2 , wherein during a second mode of operation of the circuit arrangement: the first and second series switches are configured to: respectively decouple the amplified phase-shifted signals from the first port, CPL, and the second port, DIR, and respectively couple substantially identical impedances to the first port, CPL, and the second port, DIR, and the terminating switch is open. 4 . The circuit arrangement according to claim 3 , further comprising a bypass switch coupled to the third port, ISO and a bypass conduction path. 5 . The circuit arrangement according to claim 4 , wherein during a third mode of operation of the circuit arrangement: the first and second series switches are configured to: respectively decouple the amplified phase-shifted signals from the first port, CPL, and the second port, DIR, and respectively couple substantially identical impedances to the first port, CPL, and the second port, DIR, the terminating switch is open, and the bypass switch is closed to couple the bypass conduction path to the third port, ISO. 6 . The circuit arrangement according to claim 5 , wherein the substantially identical impedances are provided via one of: a) a short circuit to a reference ground, or b) an open circuit. 7 . The circuit arrangement according to claim 5 , wherein the first and second series switches are configured to provide the open circuit in their respective open states. 8 . The circuit arrangement according to claim 2 , wherein the one or more series-connected tuning elements comprises a terminating resistor coupled to a reference ground. 9 . The circuit arrangement according to claim 2 , wherein the one or more series-connected tuning elements comprises an inductor in series connection with a capacitor. 10 . The circuit arrangement according to claim 5 , further comprising a low noise amplifier, LNA, coupled to the third port, ISO, with the bypass conduction path configured to bypass the low noise amplifier through the bypass switch. 11 . The circuit arrangement according to claim 10 , wherein the low noise amplifier comprises an input transistor having a gate node that is coupled to the third port, ISO, and a source node that is coupled to a degeneration inductor. 12 . The circuit arrangement according to claim 10 , wherein during the second mode of operation, a combined impedance seen by the third port, ISO, looking into the low noise amplifier, is substantially equal to an impedance seen at the fourth port, IN. 13 . The circuit arrangement according to claim 10 , wherein: the first mode of operation is a transmit mode of operation for output at the fourth port, IN, of a transmit RF signal based on combined amplified phase-shifted signals of the balanced amplifier that are coupled to the first port, CPL, and the second port, DIR, the second mode of operation is a receive mode of operation for input at the fourth port, IN, of a receive RF signal that is coupled to the third port, ISO, for amplification by the low noise amplifier, and the third mode of operation is a bypass mode of operation for output or input at the fourth port, IN, of an RF signal that is coupled to the third port, ISO, and conducted through the bypass conduction path, thereby bypassing the balanced amplifier and the low noise amplifier. 14 . The circuit arrangement according to claim 4 , further comprising a single-pole multi-throw bypass selection switch, comprising: a first throw for provision of a throw of the terminating switch, the first throw coupled to the one or more series-connected tuning elements; and a second throw for provision of a throw of the bypass switch, the second throw coupled to the bypass path. 15 . The circuit arrangement according to claim 2 , further comprising a switchable conduction path coupled to the third port, ISO, the switchable conduction path comprising: a quarter wavelength transmission line based on a frequency of a signal at the fourth port IN; and a shunting switch coupled at an end of the quarter wavelength transmission line away from the third port, ISO, wherein during the first mode of operation, the shunting switch is closed so to provide an open seen by the third port, ISO, looking into the switchable conduction path, and wherein during the second mode of operation, the shunting switch is open. 16 . The circuit arrangement according to claim 15 , further comprising a low noise amplifier, LNA, coupled to the additional shunting switch. 17 . The circuit arrangement according to claim 2 , wherein the circuit arrangement is monolithically integrated. 18 . The circuit arrangement according to claim 17 , wherein the circuit arrangement is monolithically integrated by using a fabrication technology comprising one of: a) silicon-on-insulator (SOI) technology, or b) silicon-on-sapphire technology (SOS). 19 . The circuit arrangement according to claim 2 , wherein the circuit arrangement is adapted to transmit and receive a signal via an antenna connected at the fourth port, IN, that has a frequency equal to, or greater than, 1 GHz. 20 . A phased array element comprising the circuit arrangement according to claim 2 . 21 . A method, comprising: implementing the circuit arrangement of claim 2 in one or more electronic systems comprising: a) a television, b) a cellular telephone, c) a personal computer, d) a workstation, e) a radio, f) a video player, g) an audio player, h) a vehicle, i) a medical device, or j) other electronic systems.