A radio frequency (RF) device based on a frequency band Band 28 and a communication method thereof are provided by the disclosure. The device includes a first duplexer for transceiving a first band signal, a second duplexer for transceiving a second band signal, a processor for selecting a corresponding one of the duplexers to transceive a signal by the channel switch according to a frequency band of the signal. An overlapping band belongs to a first band, frequency test points belong to a second band, a sum of frequency of the first band and the second band fall in Band 28. The second duplexer suppresses the overlapping band, so as to meet the requirement of full band of Band 28.

A radio frequency (RF) device based on a frequency band Band 28 and a communication method thereof are provided by the disclosure. The device includes a first duplexer for transceiving a first band signal, a second duplexer for transceiving a second band signal, a processor for selecting a corresponding one of the duplexers to transceive a signal by the channel switch according to a frequency band of the signal. An overlapping band belongs to a first band, frequency test points belong to a second band, a sum of frequency of the first band and the second band fall in Band 28. The second duplexer suppresses the overlapping band, so as to meet the requirement of full band of Band 28.

A transceiver circuit includes a signal generator arranged to generate an output signal; a transmitter coupled to the signal generator so as to transmit the output signal; a receiver arranged to receive a received signal; a mixer coupled to the receiver and to the signal generator so as to mix the output signal and the received signal so as to produce a mixed signal; and at least one filter coupled to the mixer so as to act upon the mixed signal to produce a filtered signal. The filtered signal includes an unwanted portion of the output signal is received at the receiver without having been reflected from a target. The transceiver circuit further includes a correction circuit arranged to generate a simulated waveform that simulates the behavior of the each filter to the unwanted portion of the output signal and applies a correction so as to remove the simulated waveform from the filtered signal.

A radio frequency interference (RFI) mitigation module is provided that is coupled to a high speed data link. The RFI mitigation module is to reduce RFI caused by the high speed data link. The RFI mitigation module includes at least one resister, at least one inductor, and at least one capacitor.

Various embodiments of the system and method relate to improvements in co-channel interference mitigation in shared spectrum environments operating under the aegis of a Spectrum Access System and companion database. Implementation orchestrates, detects, and obtains noise measurements from a potentially-affected receiver utilizing programmed reduction of transmitted power from a potential interferer when the two entities connect over the Internet or other communication network. Receivers and transmitters may use the method with the same or different Physical Layers (PHYs) and protocols. In one embodiment, a momentary reduction of transmitter power is noted during which putative interference is measured at the receiver. In another embodiment, an isolated burst is sent from a not-yet commissioned transmitter to contemporaneously detect possible interference at an operating receiver. A third embodiment can be used to measure and mitigate interference from a stationary mobile transmitter. A fourth embodiment establishes hosting for potential interference recognition as a service.

Embodiments of the present invention provide an apparatus and a method for determining a transmission direction of a secondary carrier. A reference carrier of a first secondary carrier is obtained according to network configuration information, and a transmission direction of a subframe on the first secondary carrier is determined according to a transmission direction of a subframe on the reference carrier, so that data transmission directions of the reference carrier and the first secondary carrier are the same at a same moment. A transmission direction of data of the subframes on the first secondary carrier transmitted in a frequency band adjacent to a frequency band of the reference carrier is determined by using the reference carrier, thereby avoiding interference occurring when the adjacent frequency bands simultaneously transmit data of different directions.

Described is an apparatus which comprises: a pre-driver coupled to a transmitter, the transmitter having a differential output; and a tuning circuit operable to couple to the differential output to tune the pre-driver of the transmitter according to a common mode noise signature of a common mode signal derived from the differential output.

Reducing interference between communications performed by a Wi-Fi transceiver and coexisting wireless communications performed by a second transceiver in a dual wireless communication system. A method includes receiving, by a controller of the second transceiver, a Wi-Fi state signal from the Wi-Fi transceiver. The Wi-Fi state signal indicates timing of a transmit mode and a receive mode of the Wi-Fi transceiver. The method further includes outputting, by the controller of the second transceiver, a control signal for a radio-frequency (RF) component to cause switching between a first mode of the RF component, corresponding to a normal transmit mode, and a second mode of the RF component, corresponding to a receive mode or a low power mode, based at least in part on the Wi-Fi state signal, and a transmit or receive mode status of the second transceiver to reduce interference with the receive mode of the Wi-Fi transceiver.

A cancellation circuit includes a limiter connected to an output of a first transmitter power amplifier that converts in input sinewave to a digital square wave and a digital to time converter (DTC) connected to the limiter. A RF digital to RF converter is connected to the DTC that converts the digital square wave input into an analog RF output. A cancellation amplifier with an input receives an output from the RF digital to RF converter and has an output connected to an output of a second transmitter power amplifier. The cancellation amplifier produces a cancellation signal to cancel an interference signal at the output of the second transmitter power amplifier from the output of the first transmitter power amplifier. A power detector is connected to the output of the second power amplifier that produces a power value detected at the output of the second power amplifier.