Systems and methods to dynamically calibrate and adjust gains in a direct conversion receiver

What is claimed is: 1. A method comprising: detecting gain adjustment indicators in a receiver system; evaluating the gain adjustment indicators and taking a highest priority transition to another state in the receiver system when transition conditions based on the gain adjustment indicators are met for transitioning to at least two different states with different priorities in the receiver system, wherein different ones of the gain adjustment indicators are evaluated depending on a current state in the receiver system being a fast automatic gain control (AGC) state or a slow AGC state; applying one or more gain control signals to one or more gain elements of the receiver system according to the current state of the receiver system, wherein the applying one or more gain control signals results in a gain change to the receiver system; in response to the gain change, determining whether the receiver system exhibits a DC (direct current) offset; and in response to a determination that the receiver system exhibits the DC offset, applying one or more DC offset correction control signals to the one or more gain elements of the receiver system, wherein the one or more DC offset correction signals are configured to correct the DC offset. 2. The method of claim 1 , further comprising: in response to the detecting the gain adjustment indicators, determining a selected gain profile from a plurality of gain profiles associated with the receiver system, wherein each of the plurality of gain profiles corresponds to one of a plurality of receiver gain levels of the receiver system, and the selected gain profile comprises the one or more gain control signals. 3. The method of claim 2 , wherein the gain adjustment indicators comprise a high peak detection signal that indicates a signal clip of the receiver system, and the selected gain profile is determined to reduce a present receiver gain level by a coarse gain adjustment. 4. The method of claim 2 , wherein the gain adjustment indicators comprise at least one or more of an RSSI (received signal strength indicator) value that exceeds a maximum threshold value and an RSSI headroom value that fails to exceed a minimum headroom threshold value, and the selected gain profile is determined to reduce a present receiver gain level by a fine gain adjustment. 5. The method of claim 2 , wherein the gain adjustment indicators comprise at least one or more of an absence of a low peak detection signal and an RSSI (received signal strength indicator) value that fails to exceed a minimum threshold value, and the selected gain profile is determined to increase a present receiver gain level by a small step. 6. The method of claim 2 , further comprising: asserting a gain change signal to indicate the gain change of the receiver system, wherein the gain change signal is asserted after a monitoring time has elapsed, the monitoring time begins in response to the detecting the gain adjustment indicators, the gain change signal is asserted in response to a subsequent gain adjustment indicator not being detected during the monitoring time, and the determining whether the receiver system exhibits the DC offset is performed in response to the asserting the gain change signal. 7. The method of claim 6 , further comprising: in response to detecting the subsequent gain adjustment indicator during the monitoring time, determining a subsequent gain profile from the plurality of gain profiles; applying one or more gain control signals of the subsequent gain profile to the one or more gain elements of the receiver system; and resetting the monitoring time in response to detecting the subsequent gain adjustment indicator. 8. The method of claim 7 , further comprising: incrementing a gain adjustment count in response to the applying one or more gain control signals of the subsequent gain profile, wherein the gain change signal is asserted in response to the gain adjustment count reaching a maximum count. 9. A method comprising: detecting gain adjustment indicators in a receiver system; evaluating the gain adjustment indicators and taking a highest priority transition to another state in the receiver system when transition conditions based on the gain adjustment indicators are met for transitioning to at least two different states with different priorities in the receiver system, wherein different ones of the gain adjustment indicators are evaluated depending on a current state of the receiver system being a fast automatic gain control (AGC) state or a slow AGC state; applying a first gain profile to the receiver system according to the current state of the receiver system, wherein the first gain profile comprises one or more gain control signals, each of the one or more gain control signals corresponds to a respective gain element of one or more gain elements of the receiver system, and the one or more gain control signals implement a present gain setting of the receiver system; detecting whether the present gain setting of the receiver system requires a gain adjustment within a monitoring time, wherein the monitoring time begins in response to the applying the first gain profile; in response to a detection that the present gain setting does not require the gain adjustment within the monitoring time, determining whether the receiver system exhibits a DC offset; and in response to a determination that the receiver system exhibits the DC offset, applying one or more DC offset correction signals to the one or more gain elements of the receiver system, wherein the one or more DC offset correction signals are configured to correct the DC offset. 10. The method of claim 9 , further comprising: in response to a detection that the present gain setting requires the gain adjustment within the monitoring time, selecting a second gain profile from a plurality of gain profiles associated with the receiver system, wherein each of the plurality of gain profiles are associated with a corresponding gain setting of the receiver system, and the second gain profile is selected to implement the gain adjustment; applying the second gain profile to the receiver system; and resetting the monitoring time in response to the applying the second gain profile. 11. The method of claim 10 , further comprising: in response to expiration of the monitoring time without detecting that the present gain setting requires a subsequent gain adjustment, determining whether the receiver system exhibits a subsequent DC offset. 12. The method of claim 9 , wherein in response to the determination that the receiver system exhibits the DC offset, calculating the one or more DC offset correction signals; and updating the present gain profile of the receiver system to include the one or more DC offset correction signals. 13. The method of claim 9 , further comprising: performing DC offset calibration of the receiver system prior to enabling the receiver system for RF (radio frequency) signal receipt, wherein each gain profile of a plurality of gain profiles comprises a plurality of estimated DC offset calibration signals for the one or more gain elements of the receiver system; and performing I/Q (in-phase/quadrature) phase and gain mismatch calibration of the receiver system prior to enabling the receiver system for RF (radio frequency) signal receipt, wherein the plurality of gain profiles each comprise a corresponding I/Q mismatch factor. 14. A method comprising: detecting gain adjustment indicators in a receiver system; evaluating the gain adjustment indicators and taking a highest priority transition to ano