Ultra-wide band circulators with sequentially-switched delay line (SSDL)

What is claimed is: 1. An ultra-wide band circulator apparatus, comprising: (a) a plurality of delay line segments; and (b) a switch coupled between each of said plurality of delay line segments to form a sequentially-switched delay line (SSDL); (c) wherein each said switch in said sequentially-switched delay line (SSDL) is configured for being sequentially turned on and off to connect and disconnect, or connect different paths, along adjoining delay line segments; and (d) wherein said switches are sequentially switched for synchronicity with first and second transient signals, for either (i) passing the first transient signal and blocking the second transient signal, or alternatively passing the second transient signal and blocking the first transient signal, to thus separate the first and second transient signals, or (ii) redirecting the first and second transient signals along different paths to separate the signals. 2. The apparatus of claim 1 , wherein said switch is a single pole switch which either allows passage of a transient signal or blocks it. 3. The apparatus of claim 1 , wherein said switch is a multiple pole switch which can select which path a transient signal is directed along. 4. The apparatus of claim 1 , wherein said sequentially-switched delay lines (SSDLs) are configured for breaking space-time symmetry of wave propagation. 5. The apparatus of claim 1 , wherein said plurality of delay line segments comprise at least four segments of delay lines. 6. The apparatus of claim 1 , wherein each of said plurality of delay line segments is selected from the group of delay line segments consisting of a transmission line (TL), surface acoustic wave (SAW) delay line, optical fiber, LC filter network, or combinations thereof. 7. The apparatus of claim 1 , wherein said ultra-wide band circulator apparatus is configured for use in a communication system as a means of separating transmitted and received signals. 8. The apparatus of claim 1 , wherein said ultra-wide band circulator apparatus is configured for being integrated on an integrated circuit chip, and/or integrated in wireless transmitters and radar sensor systems that require reciprocity. 9. An ultra-wide band circulator apparatus, comprising: (a) a plurality of delay line segments; and (b) a switch coupled between each of said plurality of delay line segments to form a sequentially-switched delay line (SSDL); (c) wherein each said switch in said sequentially-switched delay line (SSDL) is configured for being sequentially turned on and off to connect and disconnect adjoining delay line segments; and (d) wherein said switches are sequentially switched for synchronicity with transient signals passing in a first direction so that these signals pass through said apparatus, while signals attempting to traverse in the opposite direction are blocked. 10. The apparatus of claim 9 , wherein said sequentially-switched delay lines (SSDLs) are configured for breaking space-time symmetry of wave propagation. 11. The apparatus of claim 9 , wherein said plurality of delay line segments comprise at least four delay line segments. 12. The apparatus of claim 9 , wherein said plurality of delay line segments comprise approximately six delay line segments. 13. The apparatus of claim 9 , wherein each of said plurality of delay line segments is selected from the group of delay line segments consisting of a transmission line (TL), surface acoustic wave (SAW) delay line, optical fiber, LC filter network, or combinations thereof. 14. The apparatus of claim 9 , wherein said ultra-wide band circulator apparatus is configured for use in a communication system as a means of separating transmitted and received signals. 15. The apparatus of claim 9 , wherein said ultra-wide band circulator apparatus is configured for being integrated on an integrated circuit chip. 16. The apparatus of claim 9 , wherein said ultra-wide band circulator apparatus is configured for integration in wireless transmitters and radar sensor systems that require reciprocity. 17. An ultra-wide band circulator apparatus, comprising: (a) a first pair of switches each coupling a single delay line section to a selected first or second path; (b) a second pair of switches each coupling either a first or second path to a single delay line section; (c) four delay lines sections coupled between said first and second pair of switches, with a first pair of delay line sections coupling directly from the first pair of switches to the second pair of switches, and a second pair of delay line sections crossing over from said first pair of delay line sections to the second pair of delay line sections; (d) wherein said first and second pairs of switches allow selectively routing signals to, or from, either of the first pair of switches or the second pair of switches, depending on the direction of signal travel; (e) an antenna switch configured for connection to an antenna on its common input; (f) a first and second antenna delay line coupled between poles of said antenna switch to the common input of said second pair of switches, for selectively directing signals to, and from, said second pair of switches to said antenna switch which selects a signal to couple onto or from the antenna; (g) wherein said four delay line sections and said first and second antenna delay lines comprise sequentially-switched delay lines (SSDLs) configured for breaking space-time symmetry of wave propagation; (h) a control circuit configured for generating control signals for switching said first and second pairs of switches and said antenna switch to split transmitted and received waves into two pulses synchronized with the switching of the switches and thus separating the transmit and receive signals. 18. The apparatus of claim 17 , wherein said ultra-wide band circulator apparatus is configured for use in a communication system as a means of separating transmitted and received signals. 19. The apparatus of claim 17 , wherein said ultra-wide band circulator apparatus is configured for being integrated on an integrated circuit chip. 20. The apparatus of claim 17 , wherein said ultra-wide band circulator apparatus is configured for integration in wireless transmitters and radar sensor systems that require reciprocity. 21. The apparatus of claim 17 , wherein each of said plurality of delay line sections is selected from the group of delay line sections consisting of a transmission line (TL), surface acoustic wave (SAW) delay line, optical fiber, LC filter network, or combinations thereof. 22. An ultra-wide band circulator apparatus, comprising: (a) a transmitter demultiplexor having an input node configured for coupling to a transmitter, and having a first and second pole output; (b) a first delay line segment along a first transmitter signal path having a proximal end coupled to the first pole output of said transmitter demultiplexor; (c) a second delay line segment along a second transmitter signal path having a proximal end coupled to the second pole output of said transmitter demultiplexor; (d) a receiver multiplexor having a first and second pole input and an output configured for coupling to a receiver; (e) a third delay line segment along a first receiver signal path having a proximal end coupled to the first pole input of said receiver multiplexor; (f) a fourth delay line segment along a second receiver signal path having a proximal end coupled to the second pole input of said receiver mu