Experimental comparison of RF power LDMOSFETs on thin-film SOI and bulk silicon

Fiorenza, J.G.; Alamo, J.A. del

doi:10.1109/16.992880

Cited by 47 publications

(13 citation statements)

References 15 publications

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“…For MESFETs with 0.3µm isolation depth, the measured gain and efficiency were much worse. Similar impact of pad capacitance on power performance was also observed in SOI LDMOS [13]. Notice that the parasitic pad capacitance can be reduced to negligible level either by using a semi-insulating substrate with p + implant to contact the p -buffer [11], or by using a deeper isolation implantation combined with a thick dielectric layer under the probe pads.…”

Section: Large-signal Rf Characteristicssupporting

confidence: 62%

28V planar GaAs MESFETs for wireless base-station power amplifiers

Yang¹,

Haldar

Ye³

et al. 2005

IEEE Compound Semiconductor Integrated Circuit Symposium, 2005. CSIC '05.

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This paper reports DC and RF characteristics of a high-voltage planar GaAs MESFET. Its breakdown voltages are over 65V at off state (V gs = -1.5V) and 30V at on state (V gs = 0.5V). Under 28V drain bias and 1.9GHz input, the power density reaches 1.0 W/mm with greater than 14dB linear gain. The third-order intermodulation product is −34dBc with 1dB back off from 1dB gain compression. These results suggest that the planar GaAs MESFET may be used as high-power and high-linearity RF power amplifiers in wireless base stations. The planar structure also makes it highly suitable for low-cost mass production.

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Section: Large-signal Rf Characteristicssupporting

confidence: 62%

28V planar GaAs MESFETs for wireless base-station power amplifiers

Yang¹,

Haldar

Ye³

et al. 2005

IEEE Compound Semiconductor Integrated Circuit Symposium, 2005. CSIC '05.

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“…Silicon-on-insulator (SOl) technology appears to be particularly promising to power MOSFET in various applications from high voltage power devices to RF power amplifiers and low-power electronics, due to its numerous advantages over conventional bulk silicon technology, such as speed, isolation and density [1][2][3][4]. The REduced SURface Field (RESURF) principle [5] and Composite Buffer structure (CB) [6][7], also called superjunction [8], have been extended to SOl power devices to sustain high voltage.…”

Section: Introductionmentioning

confidence: 99%

An analytical model for SOI triple RESURF devices

Huang

Wang

Chen

2011

2011 9th IEEE International Conference on ASIC

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An analytical model for the surface potential and electric field distributions of silicon-on-insulator (SOl) triple REduced SURface Field (RESURF) devices has been presented on the basis of the two-dimensional Poisson equation. Meanwhile, the lateral breakdown voltages for N""N and P""N junctions as well as the vertical breakdown voltage are derived. Further, the influence of P-buried layer concentration on the surface electric field and the breakdown voltage is investigated in detail. All analytical results are well verified by simulation results conducted by MEDICI, showing the validity of the presented model.

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“…Also, when evaluated on the RF characteristics, SOILDMOS outperforms silicon MOSFET in the gain, linearity, switching performance, and so on. Because of its potential applications, SOLIDMOS has attracted great attention from research community and commercial organizations [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Parameter extraction of SOILDMOS based on the HISIM-HV model

Tianle

Wang

et al. 2010

2010 International Conference on Microwave and Millimeter Wave Technology

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As an RF power device, SOILDMOS has a huge market demand and broad development prospects. In this paper ,we conduct extensive measurement of the SOILDMOS chip using the vector network analyzer, microwave probe station, semiconductor parameter analyzer. The measuring results are obtained with Agilent IC-CAP 2008. With these results, SOILDMOS can be modeled based on the HiSIM-HV model. The parameter extraction and curve fitting are carried out with the IC-CAP tool. The experimental results show that the parameters extracted based on the HiSIM-HV model perform well.

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Experimental comparison of RF power LDMOSFETs on thin-film SOI and bulk silicon

Cited by 47 publications

References 15 publications

28V planar GaAs MESFETs for wireless base-station power amplifiers

28V planar GaAs MESFETs for wireless base-station power amplifiers

An analytical model for SOI triple RESURF devices

Parameter extraction of SOILDMOS based on the HISIM-HV model

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