Gain control method and apparatus
First Claim
1. A gain controller comprising:
- a first low pass filter configured to generate a filtered in-phase (I) signal;
a second low pass filter configured to generate a filtered quadrature (Q) signal;
a normalization circuit coupled to outputs of the first and second low pass filters for adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined signal strength measurements of the filtered I and Q signals;
a first delay circuit electrically coupled to an output of the first low pass filter for outputting a delayed filtered I signal;
a second delay circuit electrically coupled to an output of the second low pass filter for outputting a delayed filtered Q signal;
a first multiplier having a first input electrically coupled to an output of the first delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered I signal, wherein the first multiplier outputs a value substantially equal to the delayed filtered I signal divided by the averaged combined signal strength of the filtered I and Q signals; and
a second multiplier having a first input electrically coupled to an output of the second delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered Q signal, wherein the second multiplier outputs a value substantially equal to the delayed filtered Q signal divided by the averaged combined signal strength of the filtered I and Q signals.
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Abstract
An analog/digital gain control device avoid some of the requirements associated with the nature of a closed-loop AGC circuits and which meets the remaining requirements without much difficulty uses an analog to digital conversion method that increases the number of effective ADC bits by compressing the baseband input analog signal using a logarithmic circuit. After the compressed analog signal is converted into a digital signal, a digital anti-log process or look-up table (LUT) is used to expand the digital signal back to the original linear scale. The word size of the output of the anti-log process is larger than the input word size due to the nature of the anti-log function. To reduce the word size of the digital signal an open loop normalization technique can be applied.
17 Citations
13 Claims
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1. A gain controller comprising:
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a first low pass filter configured to generate a filtered in-phase (I) signal; a second low pass filter configured to generate a filtered quadrature (Q) signal; a normalization circuit coupled to outputs of the first and second low pass filters for adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined signal strength measurements of the filtered I and Q signals; a first delay circuit electrically coupled to an output of the first low pass filter for outputting a delayed filtered I signal; a second delay circuit electrically coupled to an output of the second low pass filter for outputting a delayed filtered Q signal; a first multiplier having a first input electrically coupled to an output of the first delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered I signal, wherein the first multiplier outputs a value substantially equal to the delayed filtered I signal divided by the averaged combined signal strength of the filtered I and Q signals; and a second multiplier having a first input electrically coupled to an output of the second delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered Q signal, wherein the second multiplier outputs a value substantially equal to the delayed filtered Q signal divided by the averaged combined signal strength of the filtered I and Q signals. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A gain control method for obtaining wide range and high resolution analog-to-digital conversion of an in-phase (I) signal and a quadrature (Q) signal, the method comprising:
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filtering a digital I signal to generate a filtered I signal; filtering a digital Q signal to generate a filtered Q signal; adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined power measurements of the filtered I and Q signals; delaying the filtered I signal to generate a delayed filtered I signal; delaying the filtered Q signal to generate a delayed filtered Q signal; dividing the delayed filtered I signal by the averaged combined signal strength of the filtered I and Q signals; and dividing the delayed filtered Q signal by the averaged combined signal strength of the filtered I and Q signals. - View Dependent Claims (9, 10, 11, 12, 13)
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Specification