IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0748394
(2007-05-14)
|
등록번호 |
US-7840199
(2011-01-22)
|
발명자
/ 주소 |
- Krishnaswamy, Harish
- Hashemi, Hossein
|
출원인 / 주소 |
- University of Southern California
|
대리인 / 주소 |
McDermott Will & Emery LLP
|
인용정보 |
피인용 횟수 :
21 인용 특허 :
22 |
초록
▼
Embodiments of the present disclosure allow for a linear phase progression between adjacent elements in array by providing a symmetric ring configuration of tuned amplifiers and a single phase shifter. This ring topology is coupled to a single phase locked loop (“PLL”) that allows for
Embodiments of the present disclosure allow for a linear phase progression between adjacent elements in array by providing a symmetric ring configuration of tuned amplifiers and a single phase shifter. This ring topology is coupled to a single phase locked loop (“PLL”) that allows for direct modulation and demodulation of arbitrary waveforms without using RF up/down converting mixers. In addition, the PLL distributes the transmit waveforms to all antenna elements in the transmit mode and combines the received waveforms in the receive mode without any complicated power distribution network.
대표청구항
▼
What is claimed is: 1. A variable-phase ring-oscillator circuit comprising: at least three tuned amplifiers configured in series to form a ring configured to cause each tuned amplifier to output an oscillation shifted in phase from the oscillation outputted from the other tuned amplifiers; a single
What is claimed is: 1. A variable-phase ring-oscillator circuit comprising: at least three tuned amplifiers configured in series to form a ring configured to cause each tuned amplifier to output an oscillation shifted in phase from the oscillation outputted from the other tuned amplifiers; a single variable phase shifter coupled to the ring of tuned amplifiers and configured such that adjustment of the single variable phase shifter alters the amount of phase shift between each pair of successive tuned amplifiers; and a phase-locked loop connected to the ring and configured to fix the frequency of the oscillation. 2. The variable-phase ring-oscillator circuit of claim 1, further comprising a second phase shifter connected to the ring. 3. The variable-phase ring oscillator of claim 2, wherein the phase-locked loop is disposed on a semiconductor substrate. 4. The variable-phase ring-oscillator of claim 1, wherein the phase-locked loop includes a frequency divider. 5. The variable-phase ring-oscillator of claim 1, wherein the phase-locked loop includes a frequency phase detector. 6. The variable-phase ring-oscillator of claim 1, wherein the phase-locked loop includes a charge pump. 7. The variable-phase ring-oscillator of claim 1, wherein the phase-locked loop includes a loop filter. 8. The variable-phase ring-oscillator circuit of claim 1, further comprising a plurality of antennas coupled to the plurality of tuned amplifiers, wherein the plurality of antennas are configured and arranged as an array. 9. The variable-phase ring-oscillator circuit of claim 8, wherein the plurality of tunable amplifiers and plurality of antennas are configured on a semiconductor substrate. 10. The variable phase ring oscillator circuit of claim 1, wherein the tuned amplifiers are configured in a two dimensional m×n array. 11. The variable phase ring oscillator circuit of claim 10, further comprising m first phase shifters, each coupled to a separate ring in the m dimension of the m×n array and n second phase shifters, each coupled to a separate ring in the m×n array. 12. A phased array comprising: a plurality of tuned amplifiers configured in series in a ring; a first phase shifter coupled to the plurality of tuned amplifiers, wherein the first phase delay structure provides a phase delay between each pair of successive tuned amplifier; a phase-locked loop connected to the ring; and a plurality of antennas connected to the ring. 13. The phased array of claim 12, wherein the plurality of tuned amplifiers are disposed on a semiconductor substrate. 14. The phased array of claim 13, wherein the substrate comprise silicon. 15. The phased array of claim 13, wherein transistors in the circuit comprise bipolar, FET, or hetero-junction bipolar transistors (HBT). 16. The phased array of claim 15, comprising CMOS, BJT, or silicon-germanium transistors. 17. The phased array of claim 13, wherein the phase-locked loop is disposed on the substrate. 18. The phased array of claim 17, wherein the plurality of antennas are disposed on the substrate. 19. The phased array of claim 12, wherein plurality of tuned amplifiers comprises a plurality of amplifier differential pairs. 20. The phased array of claim 12, further comprising a second phase shifter inserted in second ring coupled to the plurality of tuned amplifiers, wherein the second phase delay structure provides a second phase delay between each pair of successive tuned amplifiers. 21. The phased array of claim 12, wherein the amplifiers phase shifter, and phase-locked loop are part of a variable phase, ring oscillator which are configured to implement the following method: applying a signal to the variable phase ring oscillator; providing a phase shift to the signal within the ring oscillator; locking the phase and/or frequency of the ring oscillator with a phase locked loop; and associating a phase shift and amplitude of a signal with a direction for the plurality of antennas. 22. The phased array of claim 21, wherein applying a signal to a variable phase ring oscillator comprises transmitting a signal from the variable phase ring oscillator coupled to the plurality of antennas. 23. The phased array of claim 22, wherein the method further comprises modulating a carrier signal. 24. The phased array of 23, wherein the modulating a carrier signal comprises a phase or frequency modulation scheme. 25. The phased array of claim 23, wherein the modulation scheme comprises FM, PM, PSK, FSK modulation. 26. The phased array of claim 23, wherein the demodulation scheme is QAM, OFDM, BPSK, AM, FM, PM, QPSK, FSK, or PSK. 27. The phased array of claim 21, wherein applying a signal to the variable phase ring oscillator comprises receiving a signal from the variable phase ring oscillator coupled to the plurality of antennas. 28. The phased array of claim 27, wherein the method further comprises demodulating a carrier signal. 29. The phased array of claim 28, wherein the demodulating a carrier signal comprises a phase, frequency, or demodulation scheme. 30. The phased array of claim 21, wherein the method further comprises determining a distance to a target object using the signal applied to the variable phase ring oscillator coupled to a plurality of antennas. 31. The phased array of claim 21, wherein the signal applied is a GHz signal. 32. The phased array of claim 31, wherein the signal applied is in a 2.4 GHz, 5 GHz, 22-29 GHz, 59-64 GHz, 71-76 GHz, 77-78 GHz, 81-86 GHz, or 92-95 GHz band. 33. The phased array of claim 30, wherein the determining a distance comprises determining a distance from an object to an automobile connected to the variable phase ring oscillator coupled to the plurality of antennas. 34. The phased array of 33, wherein the method further comprises determining relative direction from the automobile to the object.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.