Compensation mechanism for compensating bias levels of an operation circuit in response to supply voltage changes
First Claim
1. A bias circuit for biasing a differential pair of Field Effect Transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the bias circuit comprising:
- AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively.
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Accused Products
Abstract
A compensation circuit is disclosed for compensating bias levels of an operational circuit in response to variations in a supply voltage. The compensation mechanism identifies variations in the supply voltage by comparing the voltage of a selected node of the operation circuit with a relatively constant or fixed reference voltage. Based on the results of the comparison, the compensation mechanism adjusts selected bias levels in the operational circuit, preferably using current stealing circuitry, so that the functionality and performance of the operational circuit can be substantially maintained. A biasing circuit for biasing one or more differential pairs is also disclosed.
83 Citations
33 Claims
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1. A bias circuit for biasing a differential pair of Field Effect Transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A bias circuit for biasing a differential pair of Field Effect Transistors (FET) having a first differential input and a second differential input, the bias circuit comprising:
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reference voltage generating means for generating a predetermined reference voltage;
first resistance means having a first terminal and a second terminal, the first terminal of the first resistance means connected to the reference voltage and the second terminal of the first resistance means connected to the first differential input of the differential pair of FET transistors;
second resistance means having a first terminal and a second terminal, the first terminal of the second resistance means connected to the reference voltage and the second terminal of the second resistance means connected to the second differential input of the differential pair of FET transistors;
first capacitance means having a first terminal and a second terminal, the first terminal of the first capacitance means connected to the first differential input of the differential pair of FET transistors;
second capacitance means having a first terminal and a second terminal, the first terminal of the second capacitance means connected to the second differential input of the differential pair of FET transistors; and
input signal source means for providing a positive input signal and a negative input signal, the positive input signal provided to the second terminal of the first capacitance means and the negative input signal provided to the second terminal of the second capacitance means. - View Dependent Claims (11, 12, 13, 14)
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15. A mixer, comprising:
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a first differential pair having a source terminal, two drain terminals, and two gate terminals;
a second differential pair having a source terminal, two drain terminals and two gate terminals;
a third differential pair having a source terminal, two drain terminals and two gate terminals;
a first one of the drain terminal of the third differential pair coupled to the source terminal of the first differential pair, and a second one of the drain terminal of the third differential pair coupled to the source terminal of the second differential pair;
at least one of the two drain terminals of the first differential pair and the second differential pair indirectly or directly coupled to a power supply voltage;
the source terminal of the third differential pair indirectly or directly coupled to ground;
reference voltage generating means for generating a first predetermined reference voltage and a second predetermined reference voltage;
first resistance means having a first terminal and a second terminal, the first terminal of the first resistance means connected to the first reference voltage and the second terminal of the first resistance means connected to one of the gate terminals of the first differential pair and one of the gate terminals of the second differential pair;
second resistance means having a first terminal and a second terminal, the first terminal of the second resistance means connected to the first reference voltage and the second terminal of the second resistance means connected to the other gate terminal of the first differential pair and the other gate terminal of the second differential pair;
third resistance means having a first terminal and a second terminal, the first terminal of the third resistance means connected to the second reference voltage and the second terminal of the third resistance means connected to one of the gate terminals of the third differential pair;
fourth resistance means having a first terminal and a second terminal, the first terminal of the fourth resistance means connected to the second reference voltage and the second terminal of the fourth resistance means connected to the other gate terminal of the third differential pair;
first capacitance means having a first terminal and a second terminal, the first terminal of the first capacitance means coupled to one of the gate terminals of the first differential pair and the second differential pair;
second capacitance means having a first terminal and a second terminal, the first terminal of the second capacitance means coupled to the other gate terminal of the first differential pair and the second differential pair;
third capacitance means having a first terminal and a second terminal, the first terminal of the third capacitance means coupled to one of the gate terminals of the third differential pair;
fourth capacitance means having a first terminal and a second terminal, the first terminal of the fourth capacitance means coupled to the other gate terminal of the third differential pair;
local oscillator input signal source means for providing a positive local oscillator input signal and a negative local oscillator input signal, the positive local oscillator input signal provided to the second terminal of the first capacitance means and the negative local oscillator input signal provided to the second terminal of the second capacitance means; and
data input signal source means for providing a positive data input signal and a negative data input signal, the positive data input signal provided to the second terminal of the third capacitance means and the negative data input signal provided to the second terminal of the fourth capacitance means.
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16. A bias circuit for biasing a differential pair of Field Effect Transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors;
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively; and
the first resistance means and the second resistance means each having a resistance that appears as an effective open to the differential RF input signal to help isolate the predetermined DC voltage from the differential RF input signal. - View Dependent Claims (17, 18)
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19. A bias circuit for biasing a differential pair of field effect transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means placing the differential pair of FET transistors into a linear operating range, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively.
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20. A bias circuit for biasing a differential pair of field effect transistors (FET) having a first differential input, a second differential input, a first differential output and a second differential output, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively.
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21. A bias circuit for biasing a differential pair of field effect transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the differential pair of FET transistors being coupled to a current source adapted to control the current passing through the differential pair of FET transistors, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively.
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22. A bias circuit for biasing a differential pair of field effect transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the differential pair of FET transistors being adapted for use in an amplifier for amplifying the differential RF input signal, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively.
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23. A bias circuit for biasing a differential pair of field effect transistors (FET) having a first differential input and a second differential input, the differential pair of FET transistors being driven by a differential RF input signal having a positive RF signal and a negative RF signal, the differential pair of FET transistors further including a source terminal and two drain terminals, the drain terminals being electrically isolated from one another, the bias circuit comprising:
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AC coupling means for AC coupling the positive RF signal and the negative RF signal to the first differential input and a second differential input, respectively, of the differential pair of FET transistors; and
DC biasing means for DC biasing the first differential input and the second differential input at a predetermined DC voltage, the DC biasing means including a reference voltage that is coupled to the first differential input and the second differential input through a first resistance means and a second resistance means, respectively. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33)
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Specification