RU96122867A

RU96122867A - METHOD AND DEVICE FOR AUTOMATIC ADJUSTMENT OF AMPLIFICATION IN A DIGITAL RADIO RECEIVER

Info

Publication number: RU96122867A
Application number: RU96122867/09A
Authority: RU
Inventors: И.Питерзелл Пол; Б.Вилсон Натаниель; Дж.Блэк Питер
Original assignee: Квэлкомм Инкорпорейтед
Priority date: 1994-04-28
Filing date: 1995-04-28
Publication date: 1999-03-20

Claims

1. Device for automatic gain control, comprising an amplifier with adjustable gain, having an input for receiving an input signal, a control input for receiving a gain control signal and an output for outputting an output signal, comprising means for generating a received power signal based on the output signal power, an integrator with saturation for comparison in response to an enable signal integrating a received power signal with a reference signal and generating a gain control signal, and a decisive means for generating a resolution signal, integration in response to certain values of a gain control signal, a received power signal and a reference signal.

2. The automatic gain control device according to claim 1, characterized in that the integration enable signal blocks the integrator with saturation if the gain control signal falls below the first set threshold and if the gain control signal exceeds the second set threshold.

3. The automatic gain control device according to claim 2, characterized in that the gain control signal falls below the first set threshold, the integration enable signal blocks the integrator with saturation until the value of the received power signal is lower than the reference signal.

4. The automatic gain control device according to claim 2, characterized in that if the gain control signal exceeds the second set threshold, the integration enable signal blocks the integrator with saturation until the received power signal is higher than the reference signal.

5. The automatic gain control device according to claim 1, characterized in that it further comprises an analog-to-digital converter associated with the output of the amplifier with an adjustable gain and designed to generate digital samples of the output signal in the established dynamic range.

6. The automatic gain control device according to claim 1, characterized in that it further comprises a step-down converter connected to the output of an amplifier with an adjustable gain for its input, for down-converting the frequency of the output signal, restrictive means for limiting changes in the power of the input signal within the input dynamic range, and an analog-to-digital converter associated with the output of the buck converter and configured to form in a given din the range of digital samples of the output signal converted with decreasing frequency, and if the value of the input signal is within the input dynamic range, then the corresponding value of the output signal is also within the set dynamic range.

7. The automatic gain control device according to claim 1, characterized in that it further comprises means for converting the output signal with decreasing frequency to a frequency level of modulating signals to obtain a modulating signal, while means for converting with decreasing frequency comprises means for converting with decreasing the frequency of the set average frequency of the output signal to the frequency of the modulating signals, shifted by a set margin from DC to ensure that the error is offset I DC at the output of a continuous wave signal therein.

8. The automatic gain control device according to claim 7, characterized in that the means for down-converting comprises a narrow-band DC notch filter for attenuating signals having a frequency below the frequency of the modulating signals from the modulating signal.

9. A method for automatically adjusting gain using an adjustable gain amplifier having an input for receiving an input signal, a control input for receiving a gain control signal, and an output for outputting an output signal, comprising the following steps: generating a received power signal based on the output signal power, integrating in response to the integration enable signal, the difference between the received power signal and the reference signal, and a gain control signal is generated, and a signal is generated al permit integration on the basis of received power values of the signal, the reference signal and the gain control signal.

10. The automatic gain control method according to claim 9, characterized in that the step of generating the integration enable signal comprises the following steps: block the integration enable signal while the gain control signal is lower than the first set threshold, and release the integration enable signal if the value of the received power signal below the value of the reference signal.

11. The automatic gain control method according to claim 9, characterized in that the step of generating the integration enable signal includes the following steps: block the integration enable signal until the gain control signal is higher than the second set threshold, and unlocks the integration enable signal if the value of the received power signal higher than the value of the reference signal.

12. The automatic gain control method according to claim 9, characterized in that it further includes the step of generating digital samples of the output signal so that if the magnitude of the output signal is within the specified dynamic range, these digital samples have proportional values to the output signal.

13. The method of automatic gain control according to item 12, characterized in that it further includes the step of limiting changes in the power of the input signal within the input dynamic range, which ensures the limitation of changes in the power of the output signal within the specified dynamic range.

14. The automatic gain control method according to claim 12, characterized in that the step of generating a received power signal includes the steps of accumulating digital samples to obtain a received power signal.

15. The method of automatic gain control according to 14, characterized in that the integration step includes the following steps: subtract the received power signal from the reference signal to obtain an error signal, scale the error signal in accordance with the time constant of the control loop, and accumulate the scaled signal errors in response to the enable signal integration.

16. A dual-mode digital radio receiver for processing signals received from CDMA and FM cellular systems, having an automatic gain control device comprising an amplifier with adjustable gain, having an input for receiving an input signal, a control input for receiving a gain control signal, and an output for issuing an output signal in which the automatic gain control device comprises selection means for selecting a gain control in CDMA mode and for selecting a gain control in FM mode, first means for filtering the output signal after selecting the gain control in CDMA mode and second means for filtering the output signal after choosing the gain adjustment in FM mode, means for generating a received power signal based on the output signal power, means for integrating the received power signal based on comparison with the reference signal and generating a gain control signal, and means for unlocking the integration means based on the values of the reference signal, the received power signal The gain control signal.

17. An automatic gain control device comprising a variable gain amplifier having an input for receiving an input signal, a control input for receiving a gain control signal and an output for outputting an output signal, said automatic gain control device comprising means for generating a received power signal based on power of the output signal, a saturator integrator to compare the received power signal with the reference signal and generate an error signal in response on the result of the comparison, wherein the saturation integrator comprises means for generating a gain control signal by accumulating an error signal for only one or more integration periods, and a decisive means for determining this one or more integration periods based on the values of the error signal and the power control signal.

18. The automatic gain control device according to claim 17, wherein the means for generating a received power signal comprises means for storing digital samples to receive a received power signal.

19. The automatic gain control device according to claim 18, wherein the saturation integrator further comprises means for subtracting the received power signal from the reference signal to obtain an error signal, means for scaling the error signal in accordance with the time constant of the control loop, and means for accumulating a scaled error signal in response to an integration enable signal.

20. An automatic gain control device comprising an adjustable gain amplifier having an input for receiving an input signal, a control input for receiving a gain control signal and an output for outputting an output signal, said automatic gain control device comprising means for generating a received power signal based on power of the output signal, a saturator integrator to compare the received power signal with the reference signal and generate an error signal in response the comparison result, wherein the saturator integrator comprises means for generating a gain control signal by selectively integrating the error signal based on the values of the error signal and the power control signal.

21. The automatic gain control device according to claim 20, characterized in that the saturator integrator contains the first means for selectively resolving the integration of the error signal only if the magnitude of the power control signal is lower than the first set threshold, and the second means for selectively resolving the signal integration errors only if the magnitude of the gain control signal is higher than the second set threshold.

22. The automatic gain control device according to claim 20, characterized in that it further comprises an analog-to-digital converter associated with the output of the amplifier with an adjustable gain, and the analog-to-digital converter is configured to generate digital samples of the output signal in the established dynamic range.

23. The automatic gain control device according to item 21, characterized in that it further comprises a step-down converter having an input connected to an output of an amplifier with adjustable gain for down-converting the frequency of the output signal, restrictive means for limiting changes in the power of the input dynamic range, and analog-to-digital Converter associated with the output of the downconverter and configured to form in a given dynamic range digital s output signal samples the down-converted frequency, wherein if the input signal is within the dynamic range of the input, the corresponding output signal value is within the specified dynamic range.

24. The automatic gain control device according to item 22, wherein the saturation integrator comprises means for storing digital samples into a digital control signal, and a digital-to-analog converter for converting the digital control signal into a gain control signal.

25. A method of automatically adjusting gain using an amplifier with a variable gain having an input for receiving an input signal, a control input for receiving a gain control signal and an output for outputting an output signal, comprising the following steps: generating a received power signal based on the output signal power, comparing a received power signal with a reference signal, and an error signal is generated in response to the comparison result, and a gain control signal is generated by selective integrating the error signal in accordance with the values of the error signals and gain control.

26. The automatic gain control method of claim 25, wherein the step of generating a gain control signal includes the following steps: integrate the error signal during the first period only while the gain control signal is lower than the first set threshold, and integrate the error signal during the second period, only until the value of the gain control signal is above the second set threshold.

27. The automatic gain control method of claim 25, further comprising the step of generating digital samples of the output signal such that if the magnitude of the output signal is within a specified range, these digital samples are proportional to the magnitude of this output signal.

28. The method of automatic gain control according to item 27, characterized in that it further includes the step of limiting changes in the power of the input signal within the input dynamic range, which ensures the limitation of changes in the power of the output signal within the specified dynamic range.

29. The automatic gain control method according to claim 27, characterized in that it further includes the following steps: accumulating digital samples into a digital control signal, and converting the digital control signal into a gain control signal.

30. The method of automatic gain control according to clause 29, characterized in that it further includes the step of scaling the digital samples in accordance with the time constant of the control loop, depending on the response of the automatic gain control device to changes in the value of the input signal.

31. The automatic gain control device according to paragraph 24, wherein the saturation integrator further comprises means for scaling digital samples in accordance with the time constant of the control loop, depending on the response of the automatic gain control device to a change in the value of the input signal.

32. The automatic gain control device according to item 22, wherein the saturation integrator comprises means for selectively integrating the error signal if the magnitude of the gain control signal is between the upper and lower thresholds, wherein the saturation integrator comprises means for preventing the integration of the error signal into Otherwise, the adjustable gain amplifier is configured to provide a set gain range in response to the gain control signals. eniya having a value in the range between the upper and lower thresholds.

33. The automatic gain control device according to claim 20, characterized in that it further comprises means for converting the output signal with decreasing the frequency to the frequency level of the modulating signals to obtain a modulating signal, the means for converting with decreasing the frequency contains means for downconverting the set average frequency output signal to the level of the frequency of the modulating signals, shifted by a specified margin from the frequency of the direct current of the modulating signals to ensure To isolate the error of DC bias in the output signal from the signals of a continuous wave in it.

34. The device for automatically adjusting gain according to claim 33, wherein the means for down-converting comprises a narrow-band DC notch filter for removing signals at a frequency of modulating DC signals from the modulating signal.

35. A dual-mode digital radio receiver for processing signals received from CDMA and FM cellular systems, having an automatic gain control device comprising an amplifier with adjustable gain, having an input for receiving an input signal, a control input for receiving a gain control signal, and an output for issuing an output signal in which the automatic gain control device comprises selection means for selecting a gain control in CDMA mode and for selecting a gain control in FM mode, first means for filtering the output signal after selecting gain control in CDMA mode and second means for filtering the output signal after selecting gain adjustment in FM mode, means for generating a received power signal based on the output signal power, means for comparing the received power signal with the reference signal and generating an error signal in response to a comparison result, a saturator integrator for generating a power control signal by selectively integrating the signal Error based on the values of the error signals and gain control.

36. An automatic gain control device comprising a variable gain amplifier having an input for receiving an input signal, a control input for receiving a gain control signal and an output for outputting an output signal, said automatic gain control device comprising means for generating a received power signal based on power of the output signal, and a saturator integrator having a first input for receiving a reference signal and a second input to which it is supplied with The switching signal is the received power, and the saturator integrator is designed to selectively integrate the received power signal to generate a gain control signal in the specified adjustment range.

37. The automatic gain control device according to clause 36, characterized in that it further comprises an analog-to-digital converter connected to the output of the amplifier with an adjustable gain and designed to generate digital samples of the output signal in the established dynamic range.

38. The automatic gain control device according to clause 37, characterized in that it further includes restrictive means for limiting changes in the input signal power within the input dynamic range, and if the value of the input signal is within the input dynamic range, the corresponding output signal is within the set dynamic range.

39. A method of automatic gain control using an adjustable gain amplifier having an input for receiving an input signal, a control input for a gain control signal and an output for outputting an output signal, the steps including: generating a received power signal based on the power of the output signal, selectively integrating a received power signal for receiving a gain control signal in a predetermined adjustment range, wherein selective signal integration is received second power is performed based on the amount of signal gain adjustment value and the received power signal.