Compensation For Gain/Phase Imbalance And DC Offset At Quadrature Modulator And Demodulator With Adaptive Inverse QRD-RLS Algorithm

Huang, Chun-Ying

08 July 2002

There has been much effort in new design for transceiver used in mobile communications. The general approach is to combine RF functions with DSP to allow linear modulation techniques and permit flexibility of modulation format and receiver processing. In practice, with the quadrature modulation technique there is always some imbalance between the I- and Q channels of modulator and demodulator. This is mainly due to finite tolerances of capacitor and resistor values used to implement the analog components. The unavoidable imbalance between the I- and Q channels is known to degrade the performance of quadrature communication system. The main concern of this thesis is to propose a new blind scheme and with fast convergence algorithm, such as the inverse QRD-RLS algorithm, to deal with the problem described above for compensation in the transmitter and receiver. First, for the transmitter, the so-called adaptive estimation and compensation with power measurement implemented by the inverse QRD-RLS algorithm is employed. While in the receiver, a new blind adaptive filtering approach of the nonlinear parameters estimation and compensation, along with the power measurement in the receiver, is devised to adaptively compensate for the gain/phase imbalance and DC offsets in a quadrature demodulator. Where the conventional inverse QRD-RLS algorithm is employed for estimating the parameters of compensator, without using any reference signal transmitted from the transmitter. To document the merits of the proposed scheme, computer simulation for the coherent 16-PSK-communication system is carried out. With our proposed method a great improvement for eliminating the effects of the imbalance and offset over the existing techniques has verified. It has rapidly convergence rate and the smaller mean square error in steady state.

Inverse QRD-RLS Algorithm

Predistorter

Quadrature Modulation

Gain/Phase Imbalance

Adaptive Filter

DC Offset

Compensation

The Realization of Narrow Band-Pass characteristics Using Sampled Data Filters

Benthin, Louis

04 1900

Pages 42, 63, 69, 71-72, 77, 87, 90, 93-94, and 97 had titles that were cut off in the scanning process. The administrator uploading this file re-wrote them on the bottom of each page. / <p>This thesis presents the results of an investigation of an alternative technique for the realization of narrow band-pass filters. This technique uses N parallel connected RC time-varying networks. A comparison of the performance of the 3-channel sampled data filter and one using the technique of quadrature modulation is made with respect to overall system performance.</p> <p>Excellent agreement between the theoretical and experimental results are obtained for the band-pass characteristics. Design criteria are also presented in order to approach the ideal operation of an N-path sampled data filter.</p> / Thesis / Master of Engineering (ME)

realization

narrow band-pass filters

comparison

3 channel sample data filter

quadrature modulation

Construction of FPGA-based Test Bench for QAM Modulators

Hederström, Josef

January 2010

In todays fast evolving mobile communications the requirements of higher datarates are continuously increasing, pushing operators to upgrade the backhaul to support these speeds. A cost eective way of doing this is by using microwave links between base stations, but as the requirements of data rates increase, the capacity of the microwave links must be increased. This thesis was part of a funded research project with the objective of developing the next generation high speed microwave links for the E-band. In the research project there was a need for a testing system that was able to generate a series of test signals with selectable QAM modulations and adjustable properties to be able to measure and evaluate hardware within the research project. The developed system was designed in a digital domain using an FPGA platform from Altera, and had the ability of selecting several types of modulations and changing the properties of the output signals as requested. By using simulation in several steps and measurements of the complete system the functionality was verified and the system was delivered to the research project successfully. The developed system can be used to test several dierent modulators in other projects as well and is easily extended to provide further properties.

FPGA

Signal generation

Quadrature modulation

Software defined radio

Testbench

Radio communication

High datarate

Computer and Information Sciences

Data- och informationsvetenskap