Improved RF Devices for Future Adaptive Wireless Systems Using Two-Sided Contacting and AlN Cooling

Nanver, L.K.; Schellevis, H.; Scholtes, T.L.M.; Spina, L. La; Lorito, G.; Sarubbi, F.; Gonda, Viktor; Popadic, M.; Buisman, Koen; Vreede, L.C.N. de; Huang, Cong; Milosavljevic, S.; Goudena, E.J.G.

doi:10.1109/jssc.2009.2023016

Cited by 14 publications

(8 citation statements)

References 58 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Situations where the latter could have been useful were in the past encountered in connection with the fabrication of photodetectors and silicon-on-glass varactors [18,[115][116][117]. Both involved microstructuring of the Si using conventional dielectric masking layers, to either reduce resistance/capacitance parasitics [118][119][120] or to fabricate through wafer apertures [115]. In the course of this past research the robustness of the B-layers used for diode fabrication with respect to etching in TMAH or KOH became apparent and it had to be taken into account when designing process flows.…”

Section: Chapter 4 Materials Analysis Using Tmah/koh Wet-etchingmentioning

confidence: 99%

Low temperature pure boron layer deposition for Si diode and micromachining applications

Liu¹

View full text Add to dashboard Cite

Section: Chapter 4 Materials Analysis Using Tmah/koh Wet-etchingmentioning

confidence: 99%

Low temperature pure boron layer deposition for Si diode and micromachining applications

Liu¹

View full text Add to dashboard Cite

“…Moreover, this network of parallel diodes resulting in the size ⋅ may be augmented with an additional diode of size to represent the anti-series topology, and the inductances in the resulting network may be summed as an equivalent series inductance . The expression of is given by (12). Note that (12) neglects any mutual inductance phenomena for simplification purposes but still adequately captures the negative impact of on linearity.…”

Section: ) Effect Of Series Parasitic Inductance On Linearitymentioning

confidence: 99%

“…It shows a significant degradation of 2 2 − 1 with an increasing between 0 and ~300 . This is because an increasing (and according to (12)) in series with ( ) translates into a decreasing resulting reactance seen by , hence an increasing , which in turn translates into an increasing RF voltage across each nonlinear junction capacitance within the varactor and consequently higher 2 2 − 1 . The peak at ≈ 400 results from ≈ 550 (12) resonating at the frequency 2 0 with 0 ≈ 0.9pF (computed with ( 11)) when = 0 .…”

Section: ) Effect Of Series Parasitic Inductance On Linearitymentioning

confidence: 99%

See 1 more Smart Citation

Anti-Series Varactor Network With Improved Linearity Performances in the Presence of Inductive and Capacitive Parasitics

2021

View full text Add to dashboard Cite

This paper proposes a varactor-based circuit technique intended for amplitude and phase control, with improved linearity in the presence of parasitic capacitances and parasitic inductances. The mechanism causing linearity degradation in an anti-series varactor network that includes significant parasitic elementsa key aspect that, to our knowledge, has never been reportedis first studied using an analytical approach based on multi-tone excitation. It is demonstrated that simply optimizing the ratio of diode sizes is insufficient to circumvent this linearity degradation. The underlying linearity degradation concept serves as the basis for the introduction of a modified anti-series controllable capacitance, followed by a design and practical implementation. Experimental validations with multi-tone and modulated signals demonstrate improved linearity performances with respect to the state-of-the-art when parasitic capacitances and inductances are significant. Moreover, it is shown that the complete varactor-based circuit topology proposed here, which uses the proposed modified anti-series controllable capacitance in conjunction with a secondharmonic trap filter, constitutes a very attractive alternative to the state-of-the-art anti-series/anti-parallel topology, since it reduces the required number of diodes by a factor of 2. Measurements on discretecomponent designs operating at 3.6GHz, hence with significant parasitic effects, demonstrate that the proposed circuit topology improves the 3 rd order intermodulation distortion levels by 10.6dB and 6.6dB at output powers of 10dBm and 18dBm respectively, in comparison with the state-of-the-art topology. Measurements with a 16QAM modulated signal also show 3.9dB improvement in ACPR at 18dBm. These performances constitute improved state-of-the-art results in anti-series hyper-abrupt varactor-based electronic control.

show abstract

“…The effects of this have been detected up to 0.6 lm away from the implant itself, for example, as a reduced breakdown voltage in devices such as back-wafer-contacted varactors and bipolar transistors. 21 When injected into boron-doped p-type silicon, the interstitials also cause a significant level of dopant deactivation 22 that is readily detected by C-V profiling, an example of which is shown in Fig. 10.…”

Section: Sheet Resistancementioning

confidence: 99%

Low-Complexity Full-Melt Laser-Anneal Process for Fabrication of Low-Leakage Implanted Ultrashallow Junctions

Biasotto

Gonda

Nanver

et al. 2011

Journal of Elec Materi

Self Cite

View full text Add to dashboard Cite

Good-quality ultrashallow n + p junctions are formed using 5-keV amorphizing As + implantations followed by a single-shot excimer laser anneal for dopant activation. By using an implant that is self-aligned to the contact windows etched in an oxide isolation layer, straightforward processing of the diodes is achieved with postimplantation processing temperatures kept below 400°C. A possible source of junction leakage at the perimeter caused by dip-etch enlargement of the contact window, also confirmed by transmission electron microscopy (TEM) analysis, is identified, and diode performance is improved by increasing the junction/contact window overlap. The optimum performance in terms of low leakage, shallow junctions, and low resistivity is achieved for 30°tilted implants and by applying a thin laser-reflective aluminum layer. This work isolates the minimum requirements for achieving low-leakage diode characteristics.

show abstract

Improved RF Devices for Future Adaptive Wireless Systems Using Two-Sided Contacting and AlN Cooling

Cited by 14 publications

References 58 publications

Low temperature pure boron layer deposition for Si diode and micromachining applications

Low temperature pure boron layer deposition for Si diode and micromachining applications

Anti-Series Varactor Network With Improved Linearity Performances in the Presence of Inductive and Capacitive Parasitics

Low-Complexity Full-Melt Laser-Anneal Process for Fabrication of Low-Leakage Implanted Ultrashallow Junctions

Contact Info

Product

Resources

About