IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0347056
(2008-12-31)
|
등록번호 |
US-7689193
(2010-04-23)
|
발명자
/ 주소 |
- Lester, David P.
- Chin, Allan P.
- Zoso, Luciano
|
출원인 / 주소 |
- Freescale Semiconductor, Inc.
|
대리인 / 주소 |
Ingrassia, Fisher & Lorenz, P.C.
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
14 |
초록
▼
An embodiment of a self-aligning resonator filter circuit includes a tunable resonator having a filter output node, an oscillator having an oscillator output node, a resistance element connected between the oscillator output node and the filter output node when the self-aligning resonator filter cir
An embodiment of a self-aligning resonator filter circuit includes a tunable resonator having a filter output node, an oscillator having an oscillator output node, a resistance element connected between the oscillator output node and the filter output node when the self-aligning resonator filter circuit is in a tuning mode, and a phase detector loop controller coupled between the oscillator output node and the filter output node. The phase detector loop controller is configured to measure a phase difference across the resistance element, and to adjust the tunable resonator in response to the phase difference.
대표청구항
▼
What is claimed is: 1. A self-aligning resonator filter circuit comprising: a tunable resonator having a filter output node; an oscillator having an oscillator output node, the oscillator being configured to generate a tuning signal at the oscillator output node; a resistance element connected betw
What is claimed is: 1. A self-aligning resonator filter circuit comprising: a tunable resonator having a filter output node; an oscillator having an oscillator output node, the oscillator being configured to generate a tuning signal at the oscillator output node; a resistance element connected between the oscillator output node and the filter output node when the self-aligning resonator filter circuit is in a tuning mode; and a phase detector loop controller coupled between the oscillator output node and the filter output node, the phase detector loop controller being configured to measure a phase difference across the resistance element, and to adjust the tunable resonator in response to the phase difference; a circuit input node; and a switch coupled to the circuit input node, the resistance element, and the filter output node, the switch being controllable to switch between a run state corresponding to a run mode for the self-aligning resonator filter circuit and a tuning state corresponding to the tuning mode; the switch being configured to disconnect the resistance element from the filter output node when the self-aligning resonator filter circuit is in the run mode, and to connect the resistance element to the filter output node when the self-aligning resonator filter circuit is in the tuning mode. 2. A self-aligning resonator filter circuit according to claim 1, the switch being configured to connect the circuit input node to the filter output node when the self-aligning resonator filter circuit is in the run mode, and to disconnect the circuit input node from the filter output node when the self-aligning resonator filter circuit is in the tuning mode. 3. A self-aligning resonator filter circuit according to claim 1, the tunable resonator comprising an inductance element in parallel with a variable capacitance element, and the phase detector loop controller being configured to adjust the variable capacitance element in response to the phase difference. 4. A self-aligning resonator filter circuit according to claim 3, wherein: the local oscillator, the resistance element, the phase detector loop controller, and the variable capacitance element are on-chip components; and the inductance element is an off-chip component. 5. A self-aligning resonator filter circuit according to claim 1, the phase detector loop controller being configured to adjust the tunable resonator such that the phase difference is driven toward zero degrees. 6. A self-aligning resonator filter circuit according to claim 1, the oscillator being configured to generate the tuning signal at a reference frequency, and the phase detector loop controller being configured to adjust the tunable resonator such that it resonates at the reference frequency. 7. A self-aligning resonator filter circuit according to claim 1, the tuning mode being performed at each power-up cycle of a system that includes the self-aligning resonator filter circuit. 8. A self-aligning resonator filter circuit according to claim 1, the tuning mode being performed each time a tuner channel is selected for the self-aligning resonator filter circuit. 9. A self-aligning resonator filter circuit comprising: a circuit input node; a first tunable resonator having a first filter output node; an oscillator having an oscillator output node, the oscillator being configured to generate a tuning signal at the oscillator output node; a first resistance element connected between the oscillator output node and the first filter output node when the self-aligning resonator filter circuit is in a first tuning mode; a first phase detector loop controller coupled between the oscillator output node and the first filter output node, the first phase detector loop controller being configured to measure a first phase difference across the first resistance element, and to adjust the first tunable resonator in response to the first phase difference; and a first switch coupled to the circuit input node, the first resistance element, and the first filter output node, wherein the first switch is controllable to switch between a run state corresponding to a run mode for the self-aligning resonator filter circuit and a first tuning state corresponding to the first tuning mode, and wherein the first switch is configured to disconnect the first resistance element from the first filter output node when the self-aligning resonator filter circuit is in the run mode, and to connect the first resistance element to the first filter output node when the self-aligning resonator filter circuit is in the first tuning mode. 10. A self-aligning resonator filter circuit according to claim 9, the first tunable resonator comprising an inductance element in parallel with a variable capacitance element, and the first phase detector loop controller being configured to adjust the variable capacitance element in response to the first phase difference. 11. A self-aligning resonator filter circuit according to claim 9, further comprising: a second tunable resonator having a second filter output node; a second resistance element connected between the oscillator output node and the second filter output node when the self-aligning resonator filter circuit is in a second tuning mode; and a second phase detector loop controller coupled between the oscillator output node and the second filter output node, the second phase detector loop controller being configured to measure a second phase difference across the second resistance element, and to adjust the second tunable resonator in response to the second phase difference. 12. A self-aligning resonator filter circuit according to claim 11, further comprising: a second switch coupled to the circuit input node, the second resistance element, and the second filter output node, wherein the second switch is controllable to switch between the run state corresponding to the run mode for the self-aligning resonator filter circuit and a second tuning state corresponding to the second tuning mode, and wherein the switch is configured to disconnect the second resistance element from the second filter output node when the self-aligning resonator filter circuit is in the run mode, and to connect the second resistance element to the second filter output node when the self-aligning resonator filter circuit is in the second tuning mode. 13. A self-aligning resonator filter circuit according to claim 11, the first tunable resonator comprising a first inductance element in parallel with a first variable capacitance element, and the first phase detector loop controller being configured to adjust the first variable capacitance element in response to the first phase difference; and the second tunable resonator comprising a second inductance element in parallel with a second variable capacitance element, and the second phase detector loop controller being configured to adjust the second variable capacitance element in response to the second phase difference. 14. A self-aligning resonator filter circuit according to claim 13, wherein: the first local oscillator, the first resistance element, the first phase detector loop controller, the first variable capacitance element, the second local oscillator, the second resistance element, the second phase detector loop controller, and the second variable capacitance element are on-chip components; and the first inductance element and the second inductance element are off-chip components. 15. A self-aligning resonator filter circuit comprising: a tunable resonator having a filter output node; an oscillator having an oscillator output node, the oscillator being configured to generate a tuning signal at the oscillator output node; a resistance element connected between the oscillator output node and the filter output node when the self-aligning resonator filter circuit is in a tuning mode; and a phase detector loop controller coupled between the oscillator output node and the filter output node, wherein the phase detector loop controller is configured to measure a phase difference across the resistance element, and to adjust the tunable resonator in response to the phase difference such that the phase difference is driven toward zero degrees; a circuit input node; and a switch coupled to the circuit input node, the resistance element, and the filter output node, wherein the switch is controllable to switch between a run state corresponding to a run mode for the self-aligning resonator filter circuit and a tuning state corresponding to the tuning mode, and wherein the switch is configured to disconnect the resistance element from the filter output node when the self-aligning resonator filter circuit is in the run mode, and to connect the resistance element to the filter output node when the self-aligning resonator filter circuit is in the tuning mode. 16. A self-aligning resonator filter circuit according to claim 15, the oscillator being configured to generate the tuning signal at a reference frequency, and the phase detector loop controller being configured to adjust the tunable resonator such that it resonates at the reference frequency. 17. A self-aligning resonator filter circuit according to claim 15, the tuning mode being performed at each power-up cycle of a system that includes the self-aligning resonator filter circuit. 18. A self-aligning resonator filter circuit according to claim 15, the tuning mode being performed each time a tuner channel is selected for the self-aligning resonator filter circuit.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.