Network amplifier with microprocessor control
First Claim
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1. A network amplifier, comprising:
- a variable equalizer having at least one control input;
a variable attenuator having at least one control input;
at least one amplifier circuit, coupled in series with the variable equalizer and the variable attenuator in a signal path of the network amplifier; and
an automatic gain control circuit with a processor that monitors signals in the signal path and generates control signals for the control input of the variable equalizer and the control input of the variable attenuator to control at least one characteristic of the network amplifier.
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Abstract
A network amplifier is provided. The network amplifier includes a variable equalizer having at least one control input and a variable attenuator having at least one control input. The network amplifier also includes at least one amplifier circuit that is coupled in series with the variable equalizer and the variable attenuator in a signal path of the network amplifier. The network amplifier also includes an automatic gain control circuit with a processor that monitors signals in the signal path and generates control signals for the control input of the variable equalizer and the control input of the variable attenuator to control at least one characteristic of the network amplifier.
46 Citations
17 Claims
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1. A network amplifier, comprising:
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a variable equalizer having at least one control input;
a variable attenuator having at least one control input;
at least one amplifier circuit, coupled in series with the variable equalizer and the variable attenuator in a signal path of the network amplifier; and
an automatic gain control circuit with a processor that monitors signals in the signal path and generates control signals for the control input of the variable equalizer and the control input of the variable attenuator to control at least one characteristic of the network amplifier. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a two port bridge “
T”
network having a number of independently controllable top and bottom branches; and
wherein the frequency response of the variable equalizer is controlled by selectively and independently adjusting frequency breakpoints of the top and bottom branches based on the control signals from the processor.
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3. The network amplifier of claim 1, wherein the variable attenuator includes:
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at least three PIN diodes coupled to provide attenuation in the signal path; and
at least two current sources that are coupled to provide first and second bias current levels to the PIN diodes based on the control signals from the processor to establish a selected attenuation level.
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4. The network amplifier of claim 1, wherein the automatic gain control circuit further includes a memory circuit that stores data used to generate the control signals for the variable attenuator and the variable equalizer.
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5. The network amplifier of claim 4, wherein the memory circuit comprises a non-volatile memory circuit.
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6. The network amplifier of claim 4, wherein the automatic gain control circuit further includes:
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an RF detector coupled to the signal path through a monitoring circuit and coupled to the processor, wherein the processor corrects the output of the RF detector based on data stored in the memory and the output of a temperature sensor, and wherein the processor uses the corrected data from the RF detector in generating the control signals for the variable equalizer and the variable attenuator.
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7. The network amplifier of claim 6, and further including:
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at least one additional signal path coupled to the signal path, and a monitoring circuit coupled to the additional signal path that provides signals through the RF detector to the processor such that the automatic gain control circuit controls the variable attenuator and the variable equalizer based on signals in either the signal path or the additional signal path.
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8. The network amplifier of claim 1, wherein the automatic gain control circuit controls slope and gain of the signal path.
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9. A method for controlling gain and slope of a network amplifier, the method comprising:
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monitoring the signal level of a signal in a signal path of the network amplifier;
monitoring an operating temperature for the network amplifier;
when the signal level changes by a selected amount, selectively adjusting a control input to a variable attenuator; and
when the temperature changes by a selected amount, selectively adjusting a control signal for a variable equalizer. - View Dependent Claims (10, 11, 12)
determining when a pilot is lost; and
when the pilot is lost, using the stored values for the control signals.
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13. An amplifier, comprising:
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a variable equalizer having at least one control input;
a variable attenuator having at least one control input;
at least one amplification circuit, coupled in series with the variable equalizer and the variable attenuator in a signal path of the amplifier;
an input device that is adapted to receive an indication of at least one desired characteristic for signals in the signal path; and
a processor, responsive to the control input device, wherein the processor is adapted to generate control signals for the variable equalizer and the variable attenuator to achieve the at least one desired characteristic selected by the input device. - View Dependent Claims (14, 15, 16, 17)
a two port bridge “
T”
network having a number of independently controllable top and bottom branches; and
wherein the frequency response of the variable equalizer is controlled by selectively and independently adjusting frequency breakpoints of the top and bottom branches based on the control signals from the processor.
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17. The amplifier of claim 13, wherein the variable attenuator includes:
at least three PIN diodes coupled to provide attenuation in the signal path; and
at least two current sources that are coupled to provide first and second bias current levels to the PIN diodes based on the control signals from the processor to establish a selected attenuation level.
Specification
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Current AssigneeCommScope Technologies, LLC (CommScope Holding Company, Inc.)
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Original AssigneeADC Telecommunications Incorporated (TE Connectivity Limited)
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InventorsBrown, Jeffrey O., Backes, Glen, Memarzadeh, Kazem, Daughtry, Earl A., Harton, Thomas Baxter IV
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Primary Examiner(s)NGUYEN, PATRICIA T
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Application NumberUS09/608,360Time in Patent Office1,642 DaysField of Search330/144, 330/145, 330/284, 330/304, 333/81.RUS Class Current330/144CPC Class CodesH03F 3/189 High-frequency amplifiers, ...H03G 3/3042 in modulators, frequency-ch...
