Gain distribution circuit
First Claim
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1. A gain allocating circuit comprising:
- a gain input to receive a gain control signal;
a programming input for receiving a programming signal;
a first output to couple to a control input of a first amplifier;
a second output to couple to a control input of a second amplifier; and
a generator supplying a first signal at the first output according to the programming signal and the gain control signal and generating a second signal at the second output according to the programming signal and the gain control signal, wherein levels of the first and second signals can be independently set, the generator including a first variable impedance circuit coupled to the gain input and a second variable impedance circuit coupled to the gain input, the first and second variable impedance circuits including switches and impedance elements, the switches coupled to the impedance elements for controlling an impedance of each impedance element according to the programming signal, the first variable impedance circuit coupled to the first output to control the gain of the first amplifier and the second variable impedance circuit coupled to the second output to control the gain of the second amplifier.
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Abstract
A system (100 or 200) includes a first AGC stage (102) having a programming input and a gain input. A second AGC stage (104 or 210 and 234) is coupled in a common path with the first AGC stage, the second AGC stage having a programming input and a gain input. The first and second AGC stages are programmed by respective programming signals to produce independent gain characteristics responsive to a common gain signal at their respective gain inputs.
31 Citations
4 Claims
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1. A gain allocating circuit comprising:
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a gain input to receive a gain control signal; a programming input for receiving a programming signal; a first output to couple to a control input of a first amplifier; a second output to couple to a control input of a second amplifier; and a generator supplying a first signal at the first output according to the programming signal and the gain control signal and generating a second signal at the second output according to the programming signal and the gain control signal, wherein levels of the first and second signals can be independently set, the generator including a first variable impedance circuit coupled to the gain input and a second variable impedance circuit coupled to the gain input, the first and second variable impedance circuits including switches and impedance elements, the switches coupled to the impedance elements for controlling an impedance of each impedance element according to the programming signal, the first variable impedance circuit coupled to the first output to control the gain of the first amplifier and the second variable impedance circuit coupled to the second output to control the gain of the second amplifier.
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2. A circuit comprising:
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a first AGC stage having a programming input and a gain input; and a second AGC stage coupled in a common path with the first AGC stage, wherein the second AGC stage has a programming input and a gain input, wherein the first and second AGC stages are programmed by first and second programming signals, respectively, to produce independent gain characteristics responsive to a common gain signal at their respective gain inputs. - View Dependent Claims (3, 4)
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Specification
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Current AssigneeApple Inc.
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Original AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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InventorsSnider, James Roderick, Gonzalez, David M., Hietala, Alexander Wayne
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Primary Examiner(s)Mullins, James B.
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Application NumberUS08/760,767Time in Patent Office789 DaysField of Search330/129, 330/133, 330/134, 330/278, 330/279, 375/345, 455/234.1, 455/234.2, 455/241.1, 455/245.2, 455/247.1, 455/251.1, 455/253.2US Class Current330/133CPC Class CodesH03G 3/3068 Circuits generating control...
