J. Putnam scite author profile

J. Putnam

5Publications

10Citation Statements Received

12Citation Statements Given

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Broadcom (United States)

Publications

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Field trial results for high-speed wireless indoor data communications

Frigon

Daneshrad

Putnam

et al. 2000

IEEE J. Select. Areas Commun.

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Abstract-This paper reports on the development of a flexible 5-MBd equalized M-QAM testbed for high-speed wireless data communications. The unit operates in real time and was field tested in typical indoor environments. A total of 3600 independent experiments were conducted using the testbed where one of 4-, 16-, 64-QAM constellations were transmitted, and the performance as a function of adaptive equalization and antenna selection diversity was studied. The experimental results presented here help put previous simulation and analytical results into perspective and demonstrate some of the performance bounds associated with a practical implementation. The field trial results show that with only 10-mW of transmit power, reliable 10-Mbit/s data communication can take place in between rooms with a coverage radius of 17 m, and better than 15% outage at an uncoded bit error rate (BER) of 10 3 . The addition of two-branch antenna selection diversity to the system would allow 10-Mbit/s transmission at better than 3% outage and 20-Mbit/s transmission at 10% outage in the same environment. Moreover, 30-Mbit/s data transmission is feasible when both the transmitter and receiver are located within the same room, albeit at higher outage levels. In general, the results demonstrate the tremendous impact that adaptive equalization can have on the achievable performance of indoor links. Average SNR was improved anywhere from 8 dB to 12 dB depending on the particular environment and data rate. The impact on the outage performance, however, was much more dramatic.

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A 70-Mb/s variable-rate 1024-QAM cable receiver IC with integrated 10-b ADC and FEC decoder

Tan

Putnam

Lü

et al. 1998

IEEE J. Solid-State Circuits

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30 Mbps wireless data transmission using an equalized 5-MBaud M-QAM testbed

Cho¹,

Putnam²,

Berg³

et al.

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A VLSI architecture for a frequency-agile single-chip 10-MBaud digital QAM modulator

Cho¹,

Putnam²,

Samueli³

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A 42 MB/S multi-channel digital adaptive beamforming QAM demodulator for wireless applications

Lee¹,

Liu²,

Putnam³

et al.

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A VLSI implementation of an integrated complete adaptive beamforming processor and QAM demodulator is presented. The adaptive beamforming processor includes variable number of adaptive beamforming channel combining, a fully writable training processor, a programmable adaptive beamforming control processor, and a microcontroller interface. Interleaving area intensive blocks such as the Nyquist filters and multipliers is often employed to save chip area and thus enable the integration of all these features into a single chip. This chip can operate as a stand-alone adaptive beamforming QAM demodulator, or it can work together with an adaptive equalizer for the high bit-rate indoor wireless applications. In a 2.22 dB SINR interference environment, the receiver achieves a link quality of 32.6 dB SNR by the digital adaptive beamforming processing.

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J. Putnam

Field trial results for high-speed wireless indoor data communications

A 70-Mb/s variable-rate 1024-QAM cable receiver IC with integrated 10-b ADC and FEC decoder

30 Mbps wireless data transmission using an equalized 5-MBaud M-QAM testbed

A VLSI architecture for a frequency-agile single-chip 10-MBaud digital QAM modulator

A 42 MB/S multi-channel digital adaptive beamforming QAM demodulator for wireless applications

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