Microelectronic RF substrate with an integral isolator/circulator

The scope of the invention is defined in the following claims: 1. An electronic assembly comprising: a planar semiconductor substrate; the planar semiconductor substrate having a front side with semiconductor components and a back side that includes at least one recess extending inwardly towards the front side; one of an isolator and circulator formed as part of the planar semiconductor substrate; the one of an isolator and circulator having at least one magnetic ferrite disk mounted in the at least one recess; and the one of an isolator and circulator having at least input and output ports, the input port disposed to receive a radio frequency signal to be coupled with low insertion loss to the output port while providing high insertion loss to other radio frequency radio frequency signals attempting to propagate from the output port to the input port. 2. The electronic assembly of claim 1 further comprising: a metal conductor on the front side opposite the at least one recess, the metal conductor defining an end of the at least one recess; a layer of metal attached to one surface of the at least one magnetic ferrite disk; the at least one magnetic ferrite disk mounted and retained within the at least one recess by attachment of the layer of metal to the metal conductor. 3. The electronic assembly of claim 1 further comprising: a power amplifier with components on the front side of the planar semiconductor substrate; a PA output of the power amplifier connected to the at least input port. 4. The electronic assembly of claim 1 wherein the at least one magnetic ferrite disk is contained within the thickness of the planar semiconductor substrate. 5. The electronic assembly of claim 4 wherein the thickness of the planar substrate is not more than 0.2 mm. 6. The electronic assembly of claim 1 wherein the one of an isolator and circulator is effective for radio frequency radio frequency signals within the 75-100 GHz range. 7. The electronic assembly of claim 6 wherein the planar semiconductor substrate has a width dimension that is not more than ½ wavelength of the radio frequency radio frequency signal which is substantially 1.6 mm. 8. The electronic assembly of claim 1 wherein the planar semiconductor substrate has a width dimension that is not more than ½ wavelength of the radio frequency radio frequency signal. 9. The electronic assembly of claim 8 further comprising an antenna array having a plurality of driven elements with a spacing among adjacent elements of not more than ½ wavelength of the radio frequency signal, the output port being connectable to a first driven element, the width dimension of the planar semiconductor substrate permitting additional planar semiconductor substrates to be connected directly to respective adjacent antenna elements without physical interference between such adjacent planar semiconductor substrates. 10. An electronic assembly comprising: a planar semiconductor substrate; the planar semiconductor substrate having a front side with semiconductor components and a back side that includes at least one recess extending inwardly towards the front side; a circulator formed as part of the planar semiconductor substrate and having at least one magnetic ferrite disk mounted in the at least one recess, the circulator capable of operating at frequencies between 75-100 GHz; the circulator having an transmit port, an output port, and a receive port, the transmit port disposed to receive a radio frequency transmit signal to be coupled with low insertion loss to the output port, the output port disposed to receive a receive radio frequency signal to be coupled with low insertion loss to the receive port, the circulator providing high insertion loss at the receive port to the radio frequency transmit signal; and the planar semiconductor substrate having at least one of the width and length dimensions that is not more than ½ wavelength of the radio frequency signal which is substantially 1.6 mm. 11. The electronic assembly of claim 10 further comprising an antenna array having a plurality of driven elements with a spacing among adjacent elements of not more than ½ wavelength of the radio frequency signal, the output port being connectable to a first driven element, the at least one of the width and length dimensions of the planar semiconductor substrate permitting additional planar semiconductor substrates to be connected directly to respective other adjacent antenna elements without physical interference between such adjacent planar semiconductor substrates. 12. The electronic assembly of claim 10 further comprising: a metal conductor on the front side opposite the at least one recess, the metal conductor defining an end of the at least one recess; a layer of metal attached to one surface of the at least one magnetic ferrite disk; the at least one magnetic ferrite disk mounted and retained within the at least one recess by attachment of the layer of metal to the metal conductor. 13. The electronic assembly of claim 10 further comprising: a power amplifier with components on the front side of the planar semiconductor substrate; a PA output of the power amplifier connected to the transmit port; a receive amplifier with components on the front side of the planar semiconductor substrate; and an input of the receive amplifier connected to the receive port. 14. The electronic assembly of claim 10 wherein the at least one magnetic ferrite disk is contained entirely within the thickness of the planar semiconductor substrate. 15. The electronic assembly of claim 14 wherein the thickness of the planar substrate is not more than 0.2 mm.