Disclosed is an electronic device including an antenna module comprising a plurality of radio frequency (RF) chains, and a processor configured to control the antenna module, wherein each of the RF chains comprises an amplifier that amplifies power and a power detector, and wherein the antenna module further comprises a switching circuit that selectively switches between a first path and a second path, the first path being a connection through which an RF signal converted in the antenna module is transmitted to the power detector causing the RF signal to be detected, and the second path being a connection through which the RF signal is transmitted to the amplifier causing the power detector to detect an RF signal of the amplifier.

A radio frequency module includes a module board including a first principal surface and a second principal surface on opposite sides of the module board, a transmission power amplifier connected to a transmission path, a first circuit component connected to a reception path, and a control circuit that controls the transmission power amplifier. The control circuit is disposed on the first principal surface, and the first circuit component is disposed on the second principal surface.

Herein disclosed in some embodiments is a fault detector for power amplifiers of a communication system. The fault detector can detect a portion of the power amplifiers that are in fault condition and can prevent or limit current flow to the power amplifiers in fault condition while allowing the rest of the power amplifiers to operate normally. The fault detector can further indicate which power amplifiers are in fault condition and/or the cause for the power amplifiers to be in fault condition. Based on the indication, a controller can direct communications away from the power amplifiers in fault condition and/or perform operations to correct the fault condition.

Disclosed herein is a new type of fully-connected, hybrid beamforming transceiver architecture. The transceiver described herein is bi-directional and can be configured as a transmit beamformer or a receive beamformer. A method and apparatus are described that allows the beamformer to operate in “carrier aggregated” mode, where communication channels in multiple disparate frequency bands can be simultaneously accessed.

A device and a method for processing a radio signal in an electronic device. An electronic device may include: a first antenna structure including multiple first antenna elements, and a second antenna structure including multiple second antenna elements; and a wireless communication circuit configured to transmit and/or receive a radio frequency signal via the first antenna structure and the second antenna structure. The wireless communication circuit may include: a first front-end circuit; a second front-end circuit; a first transmission path; and a first reception path configured to down-convert the first radio frequency reception signal, which has been output from the first front-end circuit, so as to output the same to the first input/output port, and a second reception path configured to down-convert the second radio frequency reception signal, which has been output from the second front-end circuit, so as to output the same to a first output port of the wireless communication circuit. Other embodiments may be possible.

Described are concepts, systems and techniques for detecting whether an antenna is connected to a transmit system to thereby protect a power amplifier lineup from damage.

A radio frequency module includes: a module board that includes a first principal surface and a second principal surface on opposite sides of the module board; a power amplifier; and a first circuit component. The power amplifier includes: a first amplifying element; a second amplifying element; and an output transformer that includes a primary coil and a secondary coil. An end of the primary coil is connected to an output terminal of the first amplifying element, another end of the primary coil is connected to an output terminal of the second amplifying element, an end of the secondary coil is connected to an output terminal of the power amplifier, the first amplifying element and the second amplifying element are disposed on the first principal surface, and the first circuit component is disposed on the second principal surface.

A converged device with dual RFPA technology for a dynamic switchable mode. One example provides a communication device comprising a RF transmitter system and a controller. The RF transmitter system includes a plurality of RFPAs, each RFPA having a biasing system and outputting an output signal, and a summing junction, wherein the output signal of each RFPA are combined to form an output RF transmitter signal. The controller is configured to control the biasing state of each biasing system to a nominal bias state for a first mode of the communication device. The controller is configured to control a first plurality of offset voltages applied to each biasing system for a second mode of the communication device. The controller is configured to control a second plurality of offset voltages applied to each biasing system for a third mode of the communication device.

A system for providing distributed communication with respect to a user equipment is provided. The system includes multiple communication units for distributing the communication with respect to the user equipment, a communication management unit connected to at least a pan of the multiple communication units in a connection line for managing the distributed communication, a connection unit including loss-inserting properties for connecting the multiple communication units to the connection line, an amplifying unit for being arranged with respect to the connection units, and a scheduling unit. The scheduling unit is configured to determine power loss with respect to the units on the basis of the corresponding loss-inserting properties and/or to schedule at least one of the multiple communication units and/or the at least one amplifying unit m order to compensate for power loss with respect to the at least one connection unit.

An apparatus is disclosed, comprising means for storing reference data indicative of characteristics for each of two or more amplifiers for amplifying signals in two or more respective bands, the reference data including voltage characteristics required by the particular amplifier to achieve a particular output power for a range of output power values for its respective frequency band. The apparatus may comprise means for receiving at least a first required output power for a first amplifier and a second required output power for a second amplifier, and determining, based on the reference data, the voltage characteristics required for the first amplifier to achieve the first required output power and the voltage characteristics required for the second amplifier to achieve the second required output power.