Disclosed is a power amplifier having an output stage (12) having a radio frequency (RF) output (14) and an RF input (16) and a driver stage (18) having a driver input (20) coupled to the RF input (16), a control input (22), and a driver output (24), wherein the driver stage (18) is configured to have a controllable soft compression characteristic that substantially neutralizes a gain expansion characteristic of the output stage (12). Also included is a controller (26) having a control output (28) coupled to the control input (22) of the driver stage (18), wherein the controller (26) is configured to generate a control signal at the control output (28) that controls the soft compression characteristic of the driver stage (18).

A peak detector for a power amplifier is provided that includes a threshold voltage detector configured to pulse a detection current in response to an amplified output signal from the amplifier exceeding a peak threshold. A plurality of such peak detectors may be integrated with a corresponding plurality of power amplifiers in a transmitter. Should any peak detector assert an alarm signal or more than a threshold number of alarm signals during a given period, a controller reduces a gain for the plurality of power amplifiers.

An analog front-end (AFE) circuit has at least one AFE stage to generate a conditioned analog signal, and a gain control block to set a gain of the AFE stages. A finite state machine (FSM) block sets the gain to a baseline set gain without gain compression, or a current set gain with gain compression. An amplitude block determines amplitudes of the inner and outer eyes of a signal eye of the conditioned analog signal at the baseline set gain and the current set gain. A compression calculation block determines a gain compression of the conditioned analog signal at the current signal gain based on the relative changes in the respective amplitudes of the inner and outer signal eyes between the baseline and current set gains. The FSM block increases the current set gain until the gain compression ratio reaches a predefined limit.

Device and method are disclosed for downlink gain compensation at a radio unit. According to an embodiment, the device comprises a pre-distortion circuit, a digital gain adjuster, a gain determiner and a first gain controller. The pre-distortion circuit is configured to generate and apply a pre-distortion to an input signal. The digital gain adjuster is configured to apply an adjustable gain to an output signal from the pre-distortion circuit. The gain determiner is configured to determine a gain difference between a target downlink gain and current downlink gain. The first gain controller is configured to control the digital gain adjuster based on the gain difference. A radio unit comprising the device is also disclosed.

An electronic device includes a conductive lead, a semiconductor die, a package structure enclosing the semiconductor die and a portion of the conductive lead, and a non-conductive die attach film extending between the conductive lead and the semiconductor die and having a thickness less than 50 m. A method of fabricating an electronic device includes singulating portions of a non-conductive die attach film on a carrier, partially singulating prospective die areas from a front side of a wafer, removing wafer material from a back side of the wafer to separate a semiconductor die from the wafer, and attaching a backside the semiconductor die to a singulated portion of the non-conductive die attach film on the carrier.