Circuits for generating sweep frequency signal

What is claimed is: 1. A circuit to generate a sweep frequency signal, the circuit comprising: a reference frequency source operative to generate a reference frequency signal; a first frequency combination circuit operating on a first frequency band spanning a range of frequencies, with an input coupled to an output of the reference frequency source, and operative to generate a sweep frequency signal in the first frequency band at its output based on the reference frequency signal; a second frequency combination circuit operating on a second frequency band spanning a range of frequencies that doesn't overlap the range of frequencies of the first frequency band, with an input coupled to the output of the reference frequency source, and operative to generate a sweep frequency signal in the second frequency band at its output based on the reference frequency signal, wherein each of the first frequency combination circuit and the second frequency combination circuit comprises a phase locked loop; a multiple-level switch with an input coupled to an output of the first frequency combination circuit and to an output of the second frequency combination circuit, the multiple-level switch comprising a plurality of switching units connected in series in a switching channel of the multiple-level switch; and a control circuit coupled to and controlling the first frequency combination circuit, the second frequency combination circuit and the multiple-level switch to output (i) the sweep frequency signal at a first frequency in the first frequency band, immediately followed by the sweep frequency signal at a first frequency in the second frequency band, (ii) immediately followed by the sweep frequency signal at a second frequency in the first frequency band, immediately followed by the sweep frequency signal at a second frequency in the second frequency band, and (iii) continuing the pattern of (i) and (ii) to a sweep frequency signal at a Mth frequency in the second frequency band where M is equal to or larger than 3, at an output of the multiple-level switch. 2. The circuit to generate a sweep frequency signal according to claim 1 , wherein when the first frequency combination circuit outputs a first sweep frequency signal in the first frequency band stably, the second frequency combination circuit is prepared for a first sweep frequency signal in the second frequency band; and when the second frequency combination circuit outputs the first sweep frequency signal in the second frequency band stably, the first frequency combination circuit is prepared for a second sweep frequency signal in the first frequency band. 3. The circuit to generate a sweep frequency signal according to claim 1 , wherein the first frequency band and the second frequency band both are in the range of millimeter waves. 4. The circuit to generate a sweep frequency signal according to claim 1 , wherein the multiple-level switch comprises a plurality of switching channels, each of which includes three levels of switching units that are connected in series, each switching unit including a first switch and a second switch, a first terminal of the first switch being coupled to a first terminal of the second switch, another terminal of the second switch being grounded. 5. The circuit to generate a sweep frequency signal according to claim 1 , wherein the multiple-level switch comprises a plurality of switching channels, each switching channel connecting the input of the multiple-level switch to the output of the multiple-level switch and each switching channel including a plurality of levels of switching units that are connected in series, each switching unit including a first switch and a second switch. 6. The circuit to generate a sweep frequency signal according to claim 5 , wherein, for each switching unit, a first terminal of the first switch is coupled to a first terminal of the second switch and another terminal of the second switch is grounded. 7. A circuit to generate a sweep frequency signal, the circuit comprising: a reference frequency source operative to generate a reference frequency signal; a number N of frequency combination circuits operating on non-overlapping frequency bands, with all the inputs coupled to an output of the reference frequency source, and operative to generate sweep frequency signals in the respective frequency bands at respective outputs based on the reference frequency signal, where N is equal to or larger than 3, wherein each of the N frequency combination circuits comprises a phase locked loop; a multiple-level switch with an input coupled to an output of the number N of frequency combination circuits, the multiple-level switch comprising a plurality of switching units connected in series in a switching channel of the multiple-level switch; and a control circuit coupled to and controlling the number N of frequency combination circuits and the multiple-level switch to output (i) the sweep frequency signal at a first frequency in the first frequency band, immediately followed by the sweep frequency signal at a first frequency in the second frequency band, . . . , immediately followed by the sweep frequency signal at a first frequency in the Nth frequency band, (ii) immediately followed by the sweep frequency signal at a second frequency in the first frequency band, immediately followed by the sweep frequency signal at a second frequency in the second frequency band, . . . , immediately followed by the sweep frequency signal at a second frequency in the Nth frequency band, and (iii) continuing the pattern of (i) and (ii) to a sweep frequency signal at the Mth frequency in the Nth frequency band where M is equal to or larger than 3, at an output of the multiple-level switch. 8. The circuit to generate a sweep frequency signal according to claim 7 , wherein each of the respective frequency bands is in the range of millimeter waves. 9. The circuit to generate a sweep frequency signal according to claim 7 , wherein the multiple-level switch comprises a plurality of switching channels, each of which includes three levels of switching units that are connected in series, each switching unit including a first switch and a second switch, a first terminal of the first switch being coupled to a first terminal of the second switch, another terminal of the second switch being grounded. 10. The circuit to generate a sweep frequency signal according to claim 7 , wherein the multiple-level switch comprises a plurality of switching channels, each switching channel connecting the input of the multiple-level switch to the output of the multiple-level switch and each switching channel including a plurality of levels of switching units that are connected in series, each switching unit including a first switch and a second switch. 11. The circuit to generate a sweep frequency signal according to claim 10 , wherein, for each switching unit, a first terminal of the first switch is coupled to a first terminal of the second switch and another terminal of the second switch is grounded. 12. A method to generate a sweep frequency signal, the method comprising: generating a reference frequency signal using a reference frequency source; generating, using a first frequency combination circuit operating on a first frequency band spanning a range of frequencies and having an input coupled to an output of the reference frequency source, a sweep frequency signal in the first frequency band at an output of the first frequency combination circuit based on the reference frequency signal; generating, using a second frequency combination circuit operating on a second frequency band spanning a range of frequencies that doesn't overla