Claims
- 1. An automatic gain control (AGC) method for use in an OFDM receiver, the AGC method comprising:
repeatedly performing a first AGC process which adjusts amplifier gain based on determining that a signal level of multiple time sample values from a received OFDM signal is outside a limit set by a first predefined threshold; and repeatedly performing a second AGC process which adjusts the amplifier gain based on determining that a signal level of multiple frequency sample values associated with a plurality of pilot tones from the received OFDM signal is outside a limit set by a second predefined threshold.
- 2. The AGC method according to claim 1, wherein the first AGC process is performed repeatedly at a first rate and the second AGC process is performed repeatedly at a second rate that is less than the first rate.
- 3. The AGC method according to claim 1, wherein the received OFDM signal is sampled to generate a plurality of time domain samples, and the first AGC process is operative to calculate an absolute value of each one of multiple time domain samples to generate the multiple time sample values.
- 4. The AGC method according to claim 1, wherein the received OFDM signal is sampled to generate a plurality of time domain samples, and the first AGC process is operative to calculate a square of each one of multiple time domain samples to generate the multiple time sample values.
- 5. The AGC method according to claim 1, wherein the received OFDM signal is sampled to generate a plurality of time domain samples which are converted into a plurality of frequency domain signals, the first AGC process being operative to calculate a power of each one of multiple time domain samples to generate the multiple time sample values, and the second AGC process being operative to calculate a power of multiple frequency domain signals corresponding to the plurality of pilot tones to generate the multiple frequency sample values.
- 6. An automatic gain control (AGC) method for use in a wireless OFDM receiver, the AGC method comprising:
receiving radio frequency (RF) OFDM signals; amplifying the RF OFDM signals with amplifier circuitry; sampling the amplified RF OFDM signals with analog-to-digital (A/D) circuitry to generate a plurality of time domain samples; determining, with one or more processors, if the amplified RF OFDM signals are being clipped by the A/D circuitry based on a signal level of multiple time domain samples and a predefined threshold; and adjusting a gain of the amplifier circuitry if it is determined that the amplified RF OFDM signals are being clipped.
- 7. The AGC method according to claim 6, wherein the plurality of time domain samples correspond to RF OFDM signals over a first time period, the method further comprising:
repeating the above steps for each time period of a plurality of time periods subsequent to the first time period, each said subsequent time period having the same duration as the first time period.
- 8. The AGC method according to claim 6, further comprising:
maintaining a previous gain of the amplifier circuitry if it is determined that the RF OFDM signals are not being clipped.
- 9. The AGC method according to claim 6, wherein determining if the amplified RF OFDM signals are being clipped further comprises:
determining a magnitude or square of each one of the multiple time domain samples to generate the multiple time sample values; and comparing each one of the multiple time sample values with the predefined threshold.
- 10. The AGC method according to claim 6, wherein determining if the amplified RF OFDM signals are being clipped further comprises:
determining a magnitude or square of each one of the multiple time domain samples to generate multiple time sample values; determining the signal level based on an average of the multiple time sample values; and comparing the signal level with the predefined threshold.
- 11. The AGC method according to claim 6, wherein determining if the amplified RF OFDM signals are being clipped further comprises:
for each sample of the multiple time domain samples:
generating a time sample value from the time domain sample; comparing the time sample value to a limit set by a first predefined threshold; incrementing/decrementing a counter if the time sample value is outside the limit set by the first predefined threshold; comparing the counter with a limit set by a second predefined threshold; and determining that the amplified RF OFDM signals are being clipped if the counter is outside the limit set by the second predefined threshold.
- 12. The AGC method according to claim 11, wherein generating the time sample value comprises one of determining an absolute value or square of the time domain sample.
- 13. Automatic gain control (AGC) circuitry for an OFDM receiver, comprising:
amplifier circuitry, said amplifier circuitry to amplify radio frequency (RF) OFDM signals; analog-to-digital (A/D) circuitry, said A/D circuitry coupled to receive amplified RF OFDM signals from said amplifier circuitry; one or more processors, said one or more processors coupled to receive a plurality of time domain samples of the amplified RF OFDM signals from said A/D circuitry; said one or more processors operative to determine whether the amplified RF OFDM signals are being clipped by the A/D circuitry based on a signal level of multiple time domain samples and a predefined threshold; and said one or more processors operative to produce a gain control signal for adjusting a gain of said amplifier circuitry if it is determined that the amplified RF OFDM signals are being clipped.
- 14. The AGC circuitry according to claim 13, further comprising:
said one or more processors being further operative to produce a gain control signal for maintaining a previous gain of the amplifier circuitry if it is determined that the amplified RF OFDM signals are not being clipped.
- 15. The AGC circuitry according to claim 13 wherein, to determine if the amplified RF OFDM signals are being clipped, said one or more processors is further operative to calculate a magnitude or square of each one of the multiple time domain samples in order to generate multiple time sample values, and to compare each one of the multiple time sample values to the predefined threshold.
- 16. The AGC circuitry according to claim 13 wherein, to determine if the amplified RF OFDM signals are being clipped, said one or more processors is further operative to calculate a magnitude or square of each one of the multiple time domain samples in order to generate multiple time sample values, to calculate the signal level based on an average of the multiple time sample values, and to compare the signal level to the predefined threshold.
- 17. The AGC circuitry according to claim 13 wherein, to determine if the amplified RF OFDM signals are being clipped, said one or more processors is further operative to:
for each sample of the multiple time domain samples:
generating a time sample value; comparing the time sample value with a first predefined threshold; incrementing/decrementing a counter if the time sample value is outside a limit set by the first predefined threshold; comparing the counter with a limit set by a second predefined threshold; and determining that the amplified RF OFDM signals are being clipped if the counter is outside the limit set by the second predefined threshold.
- 18. An automatic gain control (AGC) method for use in a wireless OFDM receiver, the AGC method comprising:
receiving radio frequency (RF) OFDM signals; amplifying the RF OFDM signals with amplifier circuitry; sampling the amplified RF OFDM signals with analog-to-digital (A/D) circuitry to generate a plurality of time domain samples; converting, with one or more processors, the plurality of time domain samples to a plurality of frequency domain signals; during the receiving, amplifying, sampling, and converting, performing a first AGC process repeatedly at a first rate, the first AGC process including the steps of:
determining, with the one or more processors, a time sample value for each one of multiple time domain samples; determining, with the one or more processors, if the amplified RF OFDM signals are being clipped by the A/D circuitry based on a signal level of the multiple time sample values and a first predefined threshold; adjusting a gain of the amplifier circuitry if it is determined that the amplified RF OFDM signals are being clipped; during the receiving, amplifying, sampling, and converting, performing a second AGC process repeatedly at a second rate that is less than the first rate, the second AGC process including the steps of:
calculating, with the one or more processors, a signal level of multiple frequency domain signals corresponding to a plurality of pilot tone signals; determining, with the one or more processors, if channel fading has occurred based on the signal level of the multiple frequency domain signals and a second predefined threshold; and adjusting a gain of the amplifier circuitry if it is determined that the channel fading has occurred.
- 19. The AGC method according to claim 18, wherein determining each time sample value comprises determining a magnitude or square of the time domain sample.
- 20. A wireless OFDM receiver having an automatic gain control (AGC), comprising:
amplifier circuitry, said amplifier circuitry to amplify incoming radio frequency (RF) OFDM signals; analog-to-digital (A/D) circuitry, said A/D circuitry coupled to receive the amplified RF OFDM signals from said amplifier circuitry; one or more processors, said one or more processors coupled to receive a plurality of time domain samples of the amplified RF OFDM signals from said A/D circuitry; said one or more processors operative to convert the plurality of time domain samples to a plurality of frequency domain signals; said one or more processors operative to repeatedly perform a first AGC process comprising the steps of:
generating a time sample value for each one of multiple time domain samples; determining whether the amplified RF OFDM signals are being clipped based on a signal level of the multiple time sample values and a first predefined threshold; producing a gain control signal for adjusting a gain of said amplifier circuitry if it is determined that the amplified RF OFDM signals are being clipped; said one or more processors operative to repeatedly perform a second AGC process, said second AGC process comprising the steps of:
determining a signal level based on multiple frequency domain signals; determining if channel fading has occurred based on the signal level of the multiple frequency domain signals and a second predefined threshold; and adjusting a gain of the amplifier circuitry if it is determined that the channel fading has occurred.
RELATED APPLICATION
[0001] This Application claims the benefit of U.S. Provisional Application No. 60/140,622, filed Jun. 23,1999 and entitled “Method for Automatic Gain Control in a Personal Wireless Access Network,” which is incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
|
60140622 |
Jun 1999 |
US |
Continuations (1)
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Number |
Date |
Country |
Parent |
09591043 |
Jun 2000 |
US |
Child |
10051714 |
Jan 2002 |
US |