80-Mb/s QPSK and 72-Mb/s 64-QAM flexible and scalable digital OFDM transceiver ASICs for wireless local area networks in the 5-GHz band

Eberle, Wolfgang; Derudder, Veerle; Vanwijnsberghe, G.; Vergara, M.; Deneire, Luc; Perre, Liesbet Van der; Engels, M.; Bolsens, I.; Man, H. De

doi:10.1109/4.962306

Cited by 45 publications

(21 citation statements)

References 16 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…One is being written in the bit-reverse order, while data in the other is read out in the normal order [7]. We propose a more complex, yet area-efficient implementation using two single-port SRAM modules each with N/2 words, saving 50% of the memory.…”

Section: A Fft Modulementioning

confidence: 99%

A 1.1-V 9.9-mW MC-CDMA Downlink Baseband Receiver IC for Next-Generation Cellular Communication Systems

Tsai

Chiueh

2005

2005 IEEE Asian Solid-State Circuits Conference

View full text Add to dashboard Cite

A baseband receiver IC for a downlink multicarrier code-division multiple access (MC-CDMA) system suitable for the next generation mobile communication in urban areas is designed and implemented. To meet mobile receiver requirements, we have proposed a synchronization algorithm, which tracks and reduces residual synchronization errors, and a channel estimation algorithm, which provides accurate channel state information up to mobility of 120 km/hr. Low-power and low-complexity architectures are designed for hardware implementation. The superior performance of the proposed chip as a low-power solution for mobile communication is demonstrated by the experimental results. It consumes only 9.9 mW at nominal frequency 5.76 MHz from a supply voltage of 1.1V. Its core area is 2.6 mm × 2.6 mm in 0.18-µm technology. The highest throughput can achieve 21.7 Mbps in a 5-MHz bandwidth.

show abstract

Section: A Fft Modulementioning

confidence: 99%

A 1.1-V 9.9-mW MC-CDMA Downlink Baseband Receiver IC for Next-Generation Cellular Communication Systems

Tsai

Chiueh

2005

2005 IEEE Asian Solid-State Circuits Conference

View full text Add to dashboard Cite

show abstract

“…Multi-carrier modulation is used in most wireless standards for broadband transmission [16] due to its robustness over harsh frequency selective channels combined with a relatively low implementation complexity of its digital receiver. However, from the mixed-signal perspective, the advantages come at the cost of large signal dynamics making circuits operating non-linear and thus causing inter-modulation distortion.…”

Section: Circuit Non-linearitiesmentioning

confidence: 99%

Calibration Method Enabling Low-Cost SDR

Debaillie

Wesemael

Craninckx

2008

2008 IEEE International Conference on Communications

View full text Add to dashboard Cite

A digital in-system calibration method is presented eliminating distortions caused by transceiver circuit imperfections such as quadrature imbalance, carrier feedthrough and receiver dc-offset. The method enables standard compliancy over multiple modes and multiple bands while using a low-cost Software Defined Radio (SDR). By using non-iterative algorithms and standard compliant calibration signals, the system remains operational during calibration. As the calibration does not require dedicated circuitry, there is no penalty in area or design effort and is thus applicable on most SDR. Implementation shows Error Vector Magnitude (EVM) performance improvements down to 1.8%.

show abstract

“…Although IEEE 802.11a standard operates in the 5GHz range with a channel bandwidth of 20MHz, with each channel being an OFDM modulated signal consisting of 52 subcarriers, for initial design phase, a prototype 10 channel multitone signal generator has been designed and implemented for generating signals with frequencies equispaced from 1MHz to 10MHz only [12]- [14].…”

Section: Figure 2: Block Diagram Of a Regenerative Frequency Dividermentioning

confidence: 99%

Design and implementation of analog multitone signal generator using regenerative frequency divider for OFDM transceiver

Ghosh

Ranjan

Chakrabarti

2006

Third IEEE International Workshop on Electronic Design, Test and Applications (DELTA'06)

View full text Add to dashboard Cite

This paper is concerned with design and an integrated circuit implementation of a multicarrier quadrature phase generator for application in analog spectral synthesis and orthogonal frequency division multiplexing transceiver using amplitude phase shift keying using 0.18μ technology. A noble analog or sampled data based rotational quadrature oscillator has been designed for generating quadrature signals. Scheme of multicarrier generation studied includes multiple frequency generation, using regenerative frequency dividers and mixers. Simulation results and performance of multicarrier generation have been presented. This scheme shows very low power consumption than typical method of multi-frequency signal synthesis using IFFT.

show abstract

80-Mb/s QPSK and 72-Mb/s 64-QAM flexible and scalable digital OFDM transceiver ASICs for wireless local area networks in the 5-GHz band

Cited by 45 publications

References 16 publications

A 1.1-V 9.9-mW MC-CDMA Downlink Baseband Receiver IC for Next-Generation Cellular Communication Systems

A 1.1-V 9.9-mW MC-CDMA Downlink Baseband Receiver IC for Next-Generation Cellular Communication Systems

Calibration Method Enabling Low-Cost SDR

Design and implementation of analog multitone signal generator using regenerative frequency divider for OFDM transceiver

Contact Info

Product

Resources

About