Temperature stabilized voltage controlled oscillator
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H03L-001/00
출원번호
US-0066990
(2005-02-25)
발명자
/ 주소
Aparin,Vladimir
Wu,Yue
출원인 / 주소
Qualcomm Incorporated
인용정보
피인용 횟수 :
12인용 특허 :
4
초록▼
A Voltage Controlled Oscillator (VCO) in a battery-powered device, such as a cellular phone, can be configured to tune across a fairly wide frequency range using a relatively narrow control voltage range. The frequency response of the VCO can be temperature compensated by applying a temperature vari
A Voltage Controlled Oscillator (VCO) in a battery-powered device, such as a cellular phone, can be configured to tune across a fairly wide frequency range using a relatively narrow control voltage range. The frequency response of the VCO can be temperature compensated by applying a temperature variable voltage source to varactors that form part of a VCO resonant circuit. The reference end of the varactor can be supplied with a temperature dependent voltage source that has a temperature dependence that substantially compensates for varactor temperature dependence. The temperature dependent voltage source can be a Proportional To Absolute Temperature (PTAT) device.
대표청구항▼
What is claimed is: 1. An integrated circuit (IC) temperature compensated Voltage Controlled Oscillator (VCO), comprising: a semiconductor substrate; an oscillator manufactured on the substrate and having a variable frequency resonant circuit, the frequency of the resonant circuit controlled, in pa
What is claimed is: 1. An integrated circuit (IC) temperature compensated Voltage Controlled Oscillator (VCO), comprising: a semiconductor substrate; an oscillator manufactured on the substrate and having a variable frequency resonant circuit, the frequency of the resonant circuit controlled, in part, based on a control voltage applied to at least one varactor diode; a first variable voltage source manufactured on the substrate configured to substantially compensate for a temperature sensitive frequency drift attributable to the at least one varactor; and a second variable voltage source manufactured on the substrate configured to substantially compensate for a temperature sensitive frequency drift attributable to the at least one varactor, wherein the variable frequency resonant circuit comprises: a fixed value inductor manufactured on the substrate and having a first end and a second end; a first pair of varactor diodes having a common anode connection, and a cathode of a first varactor of the first pair of varactor diodes coupled to the first end of the fixed value inductor and a cathode of a second varactor of the first pair of varactor diodes coupled to the second end of the fixed value inductor, the common anode connection of the first pair coupled to an output of the first variable voltage source; a second pair of varactor diodes having a common anode connection distinct from the common anode of the first varactor diode pair, and a cathode of a first varactor of the second pair of varactor diodes coupled to a cathode of the first varactor of the first varactor diode pair and a cathode of a second varactor of the second pair of varactor diodes coupled to the cathode of the second varactor of the first varactor diode pair, the common anode connection of the second pair coupled to an output of the second variable voltage source; a first coupling capacitor configured to couple the cathode of the first varactor to the first end of the fixed value inductor; and a second coupling capacitor configured to couple the cathode of the second varactor to the second end of the fixed value inductor. 2. The VCO of claim 1, wherein the oscillator comprises a CMOS oscillator. 3. An integrated circuit (IC) temperature compensated Voltage Controlled Oscillator (VCO), comprising: a semiconductor substrate; an oscillator manufactured on the substrate and having a variable frequency resonant circuit, the frequency of the resonant circuit controlled, in part, based on a control voltage applied to at least one varactor diode; a first variable voltage source manufactured on the substrate configured to substantially compensate for a temperature sensitive frequency drift attributable to the at least one varactor; and a second variable voltage source manufactured on the substrate configured to substantially compensate for a temperature sensitive frequency drift attributable to the at least one varactor, wherein the variable frequency resonant circuit comprises: a fixed value inductor manufactured on the substrate and having a first end and a second end; a first pair of varactor diodes having a common anode connection, and a cathode of a first varactor of the first pair of varactor diodes coupled to the first end of the fixed value inductor and a cathode of a second varactor of the first pair of varactor diodes coupled to the second end of the fixed value inductor, the common anode connection of the first pair coupled to an output of the first variable voltage source; a second pair of varactor diodes having a common anode connection distinct from the common anode of the first varactor diode pair, and a cathode of a first varactor of the second pair of varactor diodes coupled to a cathode of the first varactor of the first varactor diode pair and a cathode of a second varactor of the second pair of varactor diodes coupled to the cathode of the second varactor of the first varactor diode pair, the common anode connection of the second pair coupled to an output of the second variable voltage source; a MIM capacitor manufactured on the substrate and coupling the cathode of the first varactor to the first end of the fixed value inductor. 4. The VCO of claim 3, wherein the variable frequency resonant circuit further comprises at least one fixed value capacitor selectively coupled to the resonant circuit and configured to coarse tune a frequency band of operation. 5. An integrated circuit (IC) temperature compensated Voltage Controlled Oscillator (VCO), comprising: a semiconductor substrate; an oscillator manufactured on the substrate and having a variable frequency resonant circuit the frequency of the resonant circuit controlled, in part, based on a control voltage applied to at least one veractor diode; and a variable voltage source manufactured on the substrate having an output coupled to a reference end of the at least one varactor and configured to substantially compensate for a temperature sensitive frequency drift attributable to the at least one veractor, wherein the variable frequency resonant circuit comprises: a fixed value inductor manufactured on the substrate and having a first end and a second end; a first pair of varactor diodes having a common anode connection, and a cathode of a first varactor of the first pair of varactor diodes coupled to the first end of the fixed value inductor and a cathode of a second varactor of the first pair of varactor diodes coupled to the second end of the fixed value inductor; a second pair of varactor diodes having a common anode connection distinct from the common anode of the first varactor diode pair, and a cathode of a first varactor of the second pair of varactor diodes coupled to a cathode of the first varactor of the first varactor diode pair and a cathode of a second varactor of the second pair of varactor diodes coupled to the cathode of the second varactor of the first varactor diode pair; and p1 an additional variable voltage source having a temperature sensitive output voltage coupled to the common anode connection of the second varactor diode pair. 6. The VCO of claim 1, wherein the first and second variable voltage sources comprise a PTAT voltage source. 7. The VCO of claim 1, wherein the first and second variable voltage sources comprise: a PTAT current source; and a resistive load coupled to the output of the PTAT current source and having a selectable temperature coefficient. 8. The VCO of claim 7, wherein the resistive load comprises a plurality of composite resistors coupled in parallel, each of the plurality of composite resistors having a distinct temperature coefficient and configured to selectively load the PTAT current source.
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