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Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability

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Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability. / Thombre, Sarang; Hurskainen, Heikki; Nurmi, Jari.

Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy. 2010. p. 349-354.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Thombre, S, Hurskainen, H & Nurmi, J 2010, Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability. in Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy. pp. 349-354. https://doi.org/10.1109/ASMS-SPSC.2010.5586885

APA

Thombre, S., Hurskainen, H., & Nurmi, J. (2010). Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability. In Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy (pp. 349-354) https://doi.org/10.1109/ASMS-SPSC.2010.5586885

Vancouver

Thombre S, Hurskainen H, Nurmi J. Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability. In Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy. 2010. p. 349-354 https://doi.org/10.1109/ASMS-SPSC.2010.5586885

Author

Thombre, Sarang ; Hurskainen, Heikki ; Nurmi, Jari. / Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability. Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy. 2010. pp. 349-354

Bibtex - Download

@inproceedings{68754f4c18bc486f9adb3aacef6f7883,
title = "Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability",
abstract = "This paper presents the design methodology, simulation results and implementation details of a low noise amplifier (LNA) designed to operate over the whole range of Global Navigation Satellite System (GNSS) frequencies (1164MHz to 1615.5MHz). This LNA works over combined (but overlapping) frequency bands of all three GNSS constellations (GNSS consist of the American Global Positioning System (GPS), European Galileo system and the Russian GLONASS system). Designed to be unconditionally stable with gain of over 18dB and noise figure of 2dB over a considerable bandwidth of about 450MHz, the achieved results conformed quite well to the specifications. Final implementation results include a gain of 18.5dB at the centre frequency with a nominal variation of ±1.3dB over the desired bandwidth. The noise figure obtained is 2.18dB and the amplifier stability range extends from OHz to 9GHz. Very high degree of linearity is achieved with output 1dB compression at +13dBm and output third order intercept at +23dBm. This paper describes results at every stage of design, simulation and implementation along with a solution against typical low frequency instability by a small trade-off in noise figure.",
author = "Sarang Thombre and Heikki Hurskainen and Jari Nurmi",
note = "Poistettu tupla r=3084<br/>Contribution: organisation=tkt,FACT1=1",
year = "2010",
doi = "10.1109/ASMS-SPSC.2010.5586885",
language = "English",
isbn = "978-1-4244-6831-7",
pages = "349--354",
booktitle = "Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Wideband, high gain, high linearity, low noise amplifier for GNSS frequencies with compensation for low frequency instability

AU - Thombre, Sarang

AU - Hurskainen, Heikki

AU - Nurmi, Jari

N1 - Poistettu tupla r=3084<br/>Contribution: organisation=tkt,FACT1=1

PY - 2010

Y1 - 2010

N2 - This paper presents the design methodology, simulation results and implementation details of a low noise amplifier (LNA) designed to operate over the whole range of Global Navigation Satellite System (GNSS) frequencies (1164MHz to 1615.5MHz). This LNA works over combined (but overlapping) frequency bands of all three GNSS constellations (GNSS consist of the American Global Positioning System (GPS), European Galileo system and the Russian GLONASS system). Designed to be unconditionally stable with gain of over 18dB and noise figure of 2dB over a considerable bandwidth of about 450MHz, the achieved results conformed quite well to the specifications. Final implementation results include a gain of 18.5dB at the centre frequency with a nominal variation of ±1.3dB over the desired bandwidth. The noise figure obtained is 2.18dB and the amplifier stability range extends from OHz to 9GHz. Very high degree of linearity is achieved with output 1dB compression at +13dBm and output third order intercept at +23dBm. This paper describes results at every stage of design, simulation and implementation along with a solution against typical low frequency instability by a small trade-off in noise figure.

AB - This paper presents the design methodology, simulation results and implementation details of a low noise amplifier (LNA) designed to operate over the whole range of Global Navigation Satellite System (GNSS) frequencies (1164MHz to 1615.5MHz). This LNA works over combined (but overlapping) frequency bands of all three GNSS constellations (GNSS consist of the American Global Positioning System (GPS), European Galileo system and the Russian GLONASS system). Designed to be unconditionally stable with gain of over 18dB and noise figure of 2dB over a considerable bandwidth of about 450MHz, the achieved results conformed quite well to the specifications. Final implementation results include a gain of 18.5dB at the centre frequency with a nominal variation of ±1.3dB over the desired bandwidth. The noise figure obtained is 2.18dB and the amplifier stability range extends from OHz to 9GHz. Very high degree of linearity is achieved with output 1dB compression at +13dBm and output third order intercept at +23dBm. This paper describes results at every stage of design, simulation and implementation along with a solution against typical low frequency instability by a small trade-off in noise figure.

U2 - 10.1109/ASMS-SPSC.2010.5586885

DO - 10.1109/ASMS-SPSC.2010.5586885

M3 - Conference contribution

SN - 978-1-4244-6831-7

SP - 349

EP - 354

BT - Advanced Satellite Multimedia Systems Conference ASMA and the 11th Signal Processing for Space Communications Workshop SPSC, 2010 5th, 13-15 September 2010, Cagliari, Italy

ER -