Claims
- 1. A multi-stage apparatus used as a voltage controlled oscillator, each stage including:
- a first current starved differential switch;
- a second current starved differential switch connected to said first current starved differential switch in a push pull arrangement;
- circuit means for cross coupling outputs of said first current starved differential switch and said second current starved differential switch; and
- a controlled complementary voltage clamp connected to current source nodes of said first differential switch and second differential switch.
- 2. The multi-stage apparatus according to claim 1 wherein said first current starved differential switch and said second current starved differential switch are CMOS devices.
- 3. The multi-stage apparatus according to claim 1 wherein said controlled complementary voltage clamp is a CMOS device.
- 4. A multi-stage ring oscillator circuit, each stage including:
- two complementary MOS devices wired in an arrangement each sharing an NMOS and PMOS current source arrangement and being wired to form two sets of complementary differential current switches, each differential current switch having an input and an output, said output of one of said sets of switches being connected to said input of another one of said sets of switches and with a controlled complementary voltage clamp connected to said outputs of each of said two sets of complementary differential current switches.
- 5. A multi-stage apparatus used as a voltage controlled oscillator, each stage including:
- a first set of complementary differential current switches having a first complementary differential current switch and a second complementary differential current switch;
- a second set of complementary differential current switches having a first complementary differential current switch and a second complementary differential current switch, said second set of complementary differential current switches connected to said first set of complementary differential current switches in a push pull arrangement;
- circuit means for connecting outputs of said first complementary differential current switch of said first set of complementary differential current switches and said first complementary differential current switch of said second set of complementary differential current switches with the input of said second complementary differential current switch of said first set of complementary differential current switches;
- circuit means for connecting outputs of said second complementary differential current switch of said second set of complementary differential current switches and said second complementary differential current switch of said first set of complementary differential current switches with the input of said first complementary differential current switch of said second set of complementary differential current switches; and
- a controlled complementary voltage clamp connected to current source nodes of said first set of complementary differential current switches and said second set of complementary differential current switches.
- 6. The multi-stage apparatus according to claim 5, wherein said first set of complementary differential current switches and second set of complementary differential current switches are CMOS devices.
- 7. The multi-stage apparatus according to claim 5, wherein said controlled complementary voltage clamp is a CMOS device.
- 8. A multi-stage apparatus used as a voltage controlled oscillator, each stage including:
- a plurality of sets of complementary differential current switches, each set having a first complementary differential current switch and a second complementary differential current switch;
- circuit means for cross coupling outputs and inputs of one set of complementary differential current switches and another set of complementary differential current switches; and,
- controlled complementary clamp means connected to current source nodes of said sets of complementary differential current switches.
- 9. The multi-stage apparatus according to claim 8, wherein said circuit means includes:
- first connection means for connecting outputs of said first complementary differential current switch of one set of complementary differential current switches and said first complementary differential current switch of another set of complementary differential current switches with the input of said second complementary differential current switch of said one set of complementary differential current switches;
- second connection means for connecting outputs of said second complementary differential current switch of said one set of complementary differential current switches and said second complementary differential current switch of said other set of complementary differential current switches with the input of said first complementary differential current switch of said other set of complementary differential current switches.
- 10. The multi-stage apparatus according to claim 8, wherein said controlled complementary clamp means includes:
- first voltage clamp means connected to current source nodes of one set of complementary differential current switches; and
- second voltage clamp means connected to current source nodes of another set of complementary differential current switches.
- 11. The multi-stage apparatus according to claim 8, wherein said sets of complementary differential current switches are CMOS devices.
- 12. The multi-stage apparatus according to claim 8, wherein said controlled complementary clamp means includes a CMOS device.
- 13. A multi-stage apparatus used as a voltage controlled oscillator, each stage including:
- a plurality of sets of complementary differential current switches, each set having a first complementary differential current switch and a second complementary differential current switch where outputs of said first complementary differential current switch of one set of complementary differential current switches and said first complementary differential current switch of another set of complementary differential current switches are connected with the input of said second complementary differential current switch of said one set of complementary differential current switches, and outputs of said second complementary differential current switch of said one set of complementary differential current switches and said second complementary differential current switch of said other set of complementary differential current switches are connected with the input of said first complementary differential current switch of said other set of complementary differential current switches; and,
- controlled complementary clamp means connected to current source nodes of said sets of complementary differential current switches.
- 14. The multi-stage apparatus according to claim 13, wherein said sets of complementary differential current switches are CMOS devices.
- 15. The multi-stage apparatus according to claim 13, wherein said controlled complementary clamp means includes a CMOS device.
Parent Case Info
This is a continuation of U.S. patent application Ser. No. 08/569,683, filed Dec. 8, 1995 and now abandoned.
US Referenced Citations (3)
Non-Patent Literature Citations (1)
Entry |
1993 IEEE International Solid-State Circuits Conference--M. Horowitz et al., "TP 10:5: PLL Design for a 500 MB/s Interface", Feb. 1993, pp. 93, 161, 282. |
Continuations (1)
|
Number |
Date |
Country |
Parent |
569683 |
Dec 1995 |
|