Your search keyword '"Buchner, Stephen P."' showing total 22 results

1. Voltage-Controlled Oscillator Utilizing Inverse-Mode SiGe-HBT Biasing Circuit for the Mitigation of Single-Event Effects.

Author

Mishu, Pujan K. C., Cho, Moon-Kyu, Khachatrian, Ani, Buchner, Stephen P., McMorrow, Dale, Paki, Pauline, Cressler, John D., and Song, Ickhyun

Subjects

HETEROJUNCTION bipolar transistors, VOLTAGE-controlled oscillators

Abstract

The advantages and the tradeoffs associated with the use of inverse-mode (IM) silicon–germanium (SiGe) heterojunction bipolar transistors (HBTs) biasing circuitry in radio-frequency (RF) voltage-controlled oscillators (VCOs) have been investigated and the performance of proposed VCOs (IM VCOs) is compared with VCOs with conventional forward-mode (FM) SiGe-HBTs (FM VCOs). Where the high-frequency performance of IM VCOs is inevitably degraded due to unfavorable device optimization unlike FM VCOs, IM VCOs provide acceptable low-GHz VCO circuit performance. In terms of single-event effects (SEEs), the IM VCOs show reduced transient peaks and duration in comparison with conventional FM VCOs. In addition, the performance of the VCOs is analyzed in terms of transient error vector magnitude (TEVM) in an RF receiver (RX) using quadrature phase-shift keying (QPSK) modulation under a radiation environment. The IM VCOs in the RX circuit show better reliability under SEEs, offering 28.2% lower TEVM at a 64 Mb/s data rate, than that of the RX circuit with conventional FM VCOs. Therefore, the application of IM SiGe-HBT biasing circuits for RF VCOs can be a viable SEE-hardening technique for space-based RF systems. The VCO prototype was fabricated using IHP 130-nm SiGe bipolar complementary metal-oxide-semiconductor (BiCMOS) technology. [ABSTRACT FROM AUTHOR]

Published

2022

2. Tradeoffs Between RF Performance and SET Robustness in Low-Noise Amplifiers in a Complementary SiGe BiCMOS Platform.

Author

Ildefonso, Adrian, Tzintzarov, George N., Lourenco, Nelson E., Fleetwood, Zachary E., Khachatrian, Ani, Buchner, Stephen P, McMorrow, Dale, Warner, Jeffrey H., Kaynak, Mehmet, and Cressler, John D.

Subjects

LOW noise amplifiers, HETEROJUNCTION bipolar transistors, LINEAR energy transfer, TELECOMMUNICATION systems, DESIGN techniques

Abstract

Low-noise amplifiers (LNAs) are necessary components for any communications system. Single-event transients (SETs) induced by energetic particles in space can corrupt the data in an RF receiver. Using p-n-p silicon–germanium (SiGe) heterojunction bipolar transistors (HBTs), instead of their more common n-p-n counterparts, has been shown to be an effective mitigation technique in digital, analog, and RF circuits. Since p-n-p SiGe HBTs tend to have lower performance than n-p-n SiGe HBTs, in this article, the tradeoffs between performance and SET robustness have been evaluated through the use of simulations. Two LNAs were designed using an algorithmic design technique: one using only n-p-n SiGe HBTs, and the other using only p-n-p devices. The n-p-n LNA had higher peak gain and lower noise figure at the center frequency of 5 GHz when compared to the p-n-p LNA, by 3.2 and 0.4 dB, respectively. However, the n-p-n LNA also produced transients with amplitudes larger than the p-n-p LNA across all simulated linear energy transfers. Although the p-n-p LNA has lower overall performance, it is also more robust to SETs. Thus, the choice between using n-p-n and p-n-p SiGe HBTs for an RF design will depend on application requirements. [ABSTRACT FROM AUTHOR]

Published

2020

3. Electronic-to-Photonic Single-Event Transient Propagation in a Segmented Mach–Zehnder Modulator in a Si/SiGe Integrated Photonics Platform.

Author

Tzintzarov, George N., Buchner, Stephen P., McMorrow, Dale, Warner, Jeffrey H., Kaynak, Mehmet, Zimmermann, Lars, Cressler, John D., Ildefonso, Adrian, Goley, Patrick S., Frounchi, Milad, Nergui, Delgermaa, Rao, Sunil G., Teng, Jeffrey, Campbell, Jacob, and Khachatrian, Ani

Subjects

*PHOTONICS, *HETEROJUNCTION bipolar transistors, *OPTICAL modulation, *PULSED lasers, *OPTICAL devices, *PHASE shifters

Abstract

The propagation of single-event transients from the electrical to the photonic domain in a segmented Mach–Zehnder modulator was investigated using pulsed-laser measurements and lumerical simulations. Although electrical transients can heavily degrade the input data to the modulator, almost all of the degradation can be suppressed once it is converted into the optical domain. The mitigation of transients is primarily accomplished by increasing Vπ of each segment, making electrical transients up to 6 V essentially negligible. A “folding” effect of the optical transient is also explained in relation to Vπ. Two radiation-hardening-by-design (RHBD) approaches are suggested to mitigate transient effects. [ABSTRACT FROM AUTHOR]

Published

2020

4. Comparison of Single-Event Transients in SiGe HBTs on Bulk and Thick-Film SOI.

Author

Ildefonso, Adrian, Warner, Jeffrey H., Cressler, John D., Tzintzarov, George N., Nergui, Delgermaa, Omprakash, Anup P., Goley, Patrick S., Hales, Joel M., Khachatrian, Ani, Buchner, Stephen P., and McMorrow, Dale

Subjects

HETEROJUNCTION bipolar transistors, LASER cooling, PULSED lasers, TRANSISTORS, ENERGY dissipation, LASER beams, DATA reduction

Abstract

A comparison of heavy-ion-induced single-event transients (SETs) in silicon–germanium heterojunction bipolar transistors (SiGe HBTs) fabricated on both bulk and silicon-on-insulator (SOI) substrates is presented. Experimental heavy-ion data show a reduction of sensitive volume of ≈ 350 × for the SiGe HBTs fabricated on SOI compared to those on a bulk substrate. Furthermore, the results indicate that the sensitive volume of the SOI SiGe HBTs is confined to the intrinsic device. These results have been confirmed using pulsed laser data and TCAD simulations. Limiting the charge collection depth of SiGe HBTs by fabricating them on SOI facilitates correlation of ion and laser results. The improved ease of correlation is a result of suppressing diffusive charge collection mechanisms that are difficult to replicate with the charge deposition profile generated by two-photon absorption using a tightly focused laser beam. However, a potential issue with pulsed laser testing is determining the loss of the pulse energy through the buried oxide, which requires detailed knowledge of the semiconductor platform. Overall, the reduction of sensitive volume for the SOI SiGe HBTs compared to those on a bulk substrate is a clear advantage from a single-event upset vulnerability perspective. [ABSTRACT FROM AUTHOR]

Published

2020

5. The Effects of Temperature on the Single-Event Transient Response of a High-Voltage (>30 V) Complementary SiGe-on-SOI Technology.

Author

Omprakash, Anup P., Ildefonso, Adrian, Fleetwood, Zachary E., Tzintzarov, George N., Cardoso, Adilson S., Babcock, Jeffrey A., Mukhopadhyay, Rajarshi, Khachatrian, Ani, Warner, Jeffrey H., McMorrow, Dale, Buchner, Stephen P., and Cressler, John D.

Subjects

SINGLE event effects, TEMPERATURE effect, SILICON germanium integrated circuits, SILICON-on-insulator technology, HETEROJUNCTION bipolar transistors

Abstract

The single-event transient response of a high-voltage complementary SiGe-on-silicon-on-insulator technology is investigated along with its temperature dependence using a pulse laser. The p-n-p silicon-germanium heterojunction bipolar transistor (SiGe HBT) shows a larger transient peak amplitude compared to the n-p-n SiGe HBT, which is largely related to the differences in total device volume and peak germanium content between the p-n-p and n-p-n devices. The effects of temperature on the transient response are also investigated using heaters and sensors mounted directly on the device-under-test package. The collector transient peak amplitude shows a negative temperature coefficient for a $V {_{\text {CB}}}$ of 0-V condition, for both the n-p-n and p-n-p devices. However, the temperature dependence of the transient peak amplitude becomes significantly weaker at $V {_{\text {CB}}}>0$ V. Calibrated TCAD simulations were performed to better understand the temperature dependence, and the simulations indicated that the electric field and mobility at higher $V {_{\text {CB}}}$ have a reduced temperature dependence than at a $V {_{\text {CB}}}$ of 0 V. The effects of self-heating are also explored using TCAD simulations and show that even under aggressive self-heating conditions, there is only less than 10% reduction in transient peak amplitude with the self-heating models turned on. The results shown suggest that this particular SiGe technology can be used for environments where highly energetic particles and high temperatures are encountered simultaneously. [ABSTRACT FROM AUTHOR]

Published

2019

6. p-n-p-Based RF Switches for the Mitigation of Single-Event Transients in a Complementary SiGe BiCMOS Platform.

Author

Song, Ickhyun, Cho, Moon-Kyu, Fleetwood, Zachary E., Gong, Yunyi, Pavlidis, Spyridon, Buchner, Stephen P., McMorrow, Dale, Paki, Pauline, Kaynak, Mehmet, and Cressler, John. D.

Subjects

SEMICONDUCTOR switches, RADIO frequency, METAL oxide semiconductor field-effect transistors, FREQUENCIES of oscillating systems, SWITCHING circuits, INTERMODULATION

Abstract

The benefits of using p-n-p silicon–germanium (SiGe) heterojuction bipolar transistors (HBTs) in radio frequency (RF) circuits for the mitigation of single-event transients (SETs) have been investigated. As a representative circuit example, p-n-p SiGe-HBT RF single-pole single-throw (SPST) switches have been designed in a complementary SiGe BiCMOS platform. The fabricated p-n-p-based RF switches provide comparable RF performance to n-p-n-based switches. In terms of SET transient peaks and duration, the p-n-p SiGe HBT RF switches exhibit a significant reduction in SET sensitivity compared with their n-p-n counterparts. In the frequency domain, the p-n-p switches show fewer low-frequency spurs than that of the n-p-n switches. In addition, inverse-mode p-n-p SiGe HBT switches provide the best overall SET response among all RF SPST switches investigated. [ABSTRACT FROM PUBLISHER]

Published

2018

7. On the Application of Inverse-Mode SiGe HBTs in RF Receivers for the Mitigation of Single-Event Transients.

Author

Song, Ickhyun, Cho, Moon-Kyu, Oakley, Michael A., Ildefonso, Adrian, Ju, Inchan, Buchner, Stephen P., Mcmorrow, Dale, Paki, Pauline, and Cressler, John. D.

Subjects

RADIO frequency modulation, HETEROJUNCTION bipolar transistors, SINGLE event effects, LOW noise amplifiers, LIGHT absorption, PARAMETRIC downconversion

Abstract

Best practice in mitigation strategies for single-event transients (SETs) in radio-frequency (RF) receiver modules is investigated using a variety of integrated receivers utilizing inverse-mode silicon–germanium (SiGe) heterojunction bipolar transistors (HBTs). The receivers were designed and implemented in a 130-nm SiGe BiCMOS technology platform. In general, RF switches, low-noise amplifiers (LNAs), and downconversion mixers utilizing inverse-mode SiGe HBTs exhibit less susceptibility to SETs than conventional RF designs, in terms of transient peaks and duration, at the cost of RF performance. Under normal RF operation, the SET-hardened switch is mainly effective in peak reduction, while the LNA and the mixer exhibit reductions in transient peaks as well as transient duration. [ABSTRACT FROM PUBLISHER]

Published

2017

8. Single-Event Effects in a Millimeter-Wave Receiver Front-End Implemented in 90 nm, 300 GHz SiGe HBT Technology.

Author

Zeinolabedinzadeh, Saeed, Ulusoy, Ahmet C., Inanlou, Farzad, Ying, Hanbin, Gong, Yunyi, Fleetwood, Zachary E., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki, Pauline, and Cressler, John D.

Subjects

SINGLE event effects, MILLIMETER wave antennas, SILICON germanium integrated circuits, HETEROJUNCTION bipolar transistors, LIGHT absorption, CUBESATS (Artificial satellites), ELECTROMAGNETIC spectrum

Abstract

The single-event transient (SET) response of a W-band (75–110 GHz) radar receiver front-end is investigated in this paper. A new technique to facilitate the SET testing of the high frequency transceivers is proposed and demonstrated experimentally. The entire radar receiver front-end, including the high frequency signal sources and modulators, were designed and fully integrated in 90 nm 300 GHz SiGe process technology (Global Foundries SiGe 9HP). Two-photon absorption (TPA) laser pulses were utilized to induce transient currents in different devices in various circuit blocks. The study shows how short transient pulses from the high frequency tuned circuits are propagated throughout the receiver and are broadened while passing through low-pass filters present at supply nodes and the low-pass filter following the down-conversion mixer, thus affecting the digital data at the output of the receiver. The proposed methodology allows the study of the effect of SETs on the recovered digital data at the output of the high frequency receivers, thus allowing bit error rate calculations. Comprehensive device and circuit level simulations were also performed, and a close agreement between the measurement results and simulation data was demonstrated. To the authors’ best knowledge, this is the first study of SET on full receiver at millimeter-wave (mmW) frequencies. [ABSTRACT FROM PUBLISHER]

Published

2017

9. The Impact of Technology Scaling on the Single-Event Transient Response of SiGe HBTs.

Author

Lourenco, Nelson E., Fleetwood, Zachary E., Ildefonso, Adrian, Wachter, Mason T., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Itsuji, Hiroaki, Kobayashi, Daisuke, Hirose, Kazuyuki, Paki, Pauline, Raman, Ashok, and Cressler, John D.

Subjects

SINGLE event effects, SILICON germanium integrated circuits, HETEROJUNCTION bipolar transistors, BICMOS analog integrated circuits, PULSED laser deposition, LIGHT absorption

Abstract

The impact of semiconductor process scaling on the overall transient response of SiGe BiCMOS platforms is investigated. Pulsed-laser two-photon absorption (TPA) and heavy-ion broad-beam testing of SiGe HBT device and digital test structures across several generations of SiGe technologies are utilized to investigate the potential impacts of semiconductor process scaling (e.g., lateral/vertical scaling, changes in doping, Ge content, etc.) on the overall transient shape, magnitude, and duration. Technology scaling is shown to increase the single-event effect (SEE) sensitivity of SiGe HBTs (i.e., elevated collected charge, where 1st Gen. QC <3 rd Gen. QC <4 th Gen. QC ). Modern third-generation and fourth-generation devices under a forward-active bias (i.e., forward-biased EB junction, reverse-biased CB junction) exhibit a large diffusive transient component between the emitter and collector terminals, driving an elevation in collected charge. 3-D TCAD modeling is utilized to understand the fundamental transient mechanisms and assess the primary scaling factors affecting SEE sensitivity. Ion-strike simulations show that bulk traps can substantially enhance the charge collection mechanisms within these devices. These results suggest that SiGe technology scaling may have a strong impact on the radiation-induced transient response of SiGe HBTs, with future SiGe technology generations potentially exhibiting increased sensitivities to single-event effects. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Single-Event Effects in High-Frequency Linear Amplifiers: Experiment and Analysis.

Author

Zeinolabedinzadeh, Saeed, Ying, Hanbin, Fleetwood, Zachary E., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki-Amouzou, Pauline, and Cressler, John D.

Subjects

SINGLE event effects, SILICON germanium integrated circuits, LOW noise amplifiers, BICMOS analog integrated circuits, BICMOS digital integrated circuits, SHORTWAVE radio, LIGHT absorption

Abstract

The single-event transient (SET) response of two different silicon-germanium (SiGe) X-band (8–12 GHz) low noise amplifier (LNA) topologies is fully investigated in this paper. The two LNAs were designed and implemented in 130nm SiGe HBT BiCMOS process technology. Two-photon absorption (TPA) laser pulses were utilized to induce transients within various devices in these LNAs. Impulse response theory is identified as a useful tool for predicting the settling behavior of the LNAs subjected to heavy ion strikes. Comprehensive device and circuit level modeling and simulations were performed to accurately simulate the behavior of the circuits under ion strikes. The simulations agree well with TPA measurements. The simulation, modeling and analysis presented in this paper can be applied for any other circuit topologies for SET modeling and prediction. [ABSTRACT FROM PUBLISHER]

Published

2017

11. Single-Event Transient Response of Comparator Pre-Amplifiers in a Complementary SiGe Technology.

Author

Ildefonso, Adrian, Lourenco, Nelson E., Fleetwood, Zachary E., Wachter, Mason T., Tzintzarov, George N., Cardoso, Adilson S., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki, Pauline, Kaynak, Mehmet, Tillack, Bernd, and Cressler, John D.

Subjects

SINGLE event effects, COMPARATOR circuits, VOLTAGE comparators, SILICON germanium integrated circuits, HETEROJUNCTION bipolar transistors

Abstract

The single-event transient (SET) response of the pre-amplification stage of two latched comparators designed using either npn or pnp silicon-germanium heterojunction bipolar transistors (SiGe HBTs) is investigated via two-photon absorption (TPA) carrier injection and mixed-mode TCAD simulations. Experimental data and TCAD simulations showed an improved SET response for the pnp comparator circuit. 2-D raster scans revealed that the devices in the pnp circuit exhibit a reduction in sensitive area of up to 80% compared to their npn counterparts. In addition, by sweeping the input voltage, the sensitive operating region with respect to SETs was determined. By establishing a figure-of-merit, relating the transient peaks and input voltage polarities, the pnp device was determined to have a 21.4% improved response with respect to input voltage. This study has shown that using pnp devices is an effective way to mitigate SETs, and could enable further radiation-hardening-by-design techniques. [ABSTRACT FROM PUBLISHER]

Published

2017

12. An Investigation of the Use of Inverse-Mode SiGe HBTs as Switching Pairs for SET-Mitigated RF Mixers.

Author

Song, Ickhyun, Raghunathan, Uppili S., Lourenco, Nelson E., Fleetwood, Zachary E., Oakley, Michael A., Jung, Seungwoo, Cho, Moon-Kyu, Roche, Nicholas J.-H., Khachatrian, Ani, Warner, Jeffrey H., Buchner, Stephen P., McMorrow, Dale, Paki, Pauline, and Cressler, John D.

Subjects

SILICON germanium integrated circuits, SWITCHING systems (Telecommunication), DATA transmission systems, LIGHT absorption, FREQUENCIES of oscillating systems

Abstract

The capability of inverse-mode (IM) silicon- germanium (SiGe) heterojunction bipolar transistors (HBTs) for the mitigation of single-event transients (SETs) under large-signal operation was investigated in an RF down-conversion single- balanced mixer using a through-wafer, two-photon absorption pulsed-laser beam experiment and TCAD heavy-ion simulations. The IM SiGe HBTs replace conventional forward-mode (FM) SiGe HBTs in the differential pair, which provides full current steering for frequency mixing operation. Under steady-state conditions, the IM SiGe HBT differential pair exhibits smaller transient peaks with shorter durations compared to the FM SiGe HBTs. In addition, under the injection of a local oscillator (LO) signal with large swing, the IM SiGe HBTs show faster recovery (50% reduction in the best case) from the impact of SETs. In the frequency domain, it is observed that IM SiGe HBTs produce less distortion at the output for an intermediate frequency below 1 GHz. Based on the performance comparison between FM and IM SiGe HBT down-conversion mixers, system design guidelines to compensate the noise figure degradation associated with using IM SiGe HBTs are discussed. [ABSTRACT FROM AUTHOR]

Published

2016

13. An Investigation of Single-Event Effect Modeling Techniques for a SiGe RF Low-Noise Amplifier.

Author

Lourenco, Nelson E., Zeinolabedinzadeh, Saeed, Ildefonso, Adrian, Fleetwood, Zachary E., Coen, Christopher T., Song, Ickhyun, Jung, Seungwoo, Inanlou, Farzad, Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki, Pauline, and Cressler, John D.

Subjects

ELECTRIC transients, LOW noise amplifiers, SIMULATION methods & models, LIGHT absorption, DATA transmission systems

Abstract

The single-event transient (SET) response of a SiGe-based, L-band low-noise amplifier (LNA) is investigated, with a focus on providing recommendations for radiation event simulation techniques. Pulsed-laser, two-photon absorption experiments show that the SET sensitivity of the SiGe LNA is highly dependent on operating conditions and strike location. Time and frequency-domain analyses raise potential concerns for digital data modulated on RF carrier signals. Device and circuit-level ion-strike TCAD simulations are utilized to compare alternative simulation approaches, highlight the importance of parasitics on SET simulation accuracy, and suggest best practices for modeling radiation-induced transients within RF/mm-wave circuits. [ABSTRACT FROM AUTHOR]

Published

2016

14. Optimization of SiGe HBT RF Switches for Single-Event Transient Mitigation.

Author

Song, Ickhyun, Jung, Seungwoo, Lourenco, Nelson E., Raghunathan, Uppili S., Fleetwood, Zachary E., Cho, Moon-Kyu, Roche, Nicholas J.-H., Khachatrian, Ani, Warner, Jeffrey H., Buchner, Stephen P., McMorrow, Dale, Paki, Pauline, and Cressler, John D.

Subjects

SINGLE event effects, SILICON germanium integrated circuits, TWO-photon absorbing materials, BIPOLAR transistors, COMPLEMENTARY metal oxide semiconductors

Abstract

Single-event transient (SET)-hardened SiGe HBT RF single-pole single-throw (SPST) switches were designed and fabricated for the first time. TCAD-based heavy-ion simulations and two-photon absorption (TPA) laser-induced beam experiments were used to optimize the switch core configuration for SET mitigation. Among different configurations, the reverse-connected series and shunt device core, where both emitter terminals are connected to the output, exhibits the smallest transient peaks and shortest durations at the output terminal of the switch. Based on this finding, the design considerations for maximizing the RF performance of SiGe HBT SPST RF switches are discussed. In addition, a comparison of the SET response and RF performance of CMOS (nFET) SPST and SiGe HBT SPST switches provides additional information on the trade-offs in the SET mitigation strategy and potential RF capabilities. [ABSTRACT FROM PUBLISHER]

Published

2015

15. Single-Event Effects in a W-Band (75-110 GHz) Radar Down-Conversion Mixer Implemented in 90 nm, 300 GHz SiGe HBT Technology.

Author

Zeinolabedinzadeh, Saeed, Song, Ickhyun, Raghunathan, Uppili S., Lourenco, Nelson E., Fleetwood, Zachary E., Oakley, Michael A., Cardoso, Adilson S., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki-Amouzou, Pauline, and Cressler, John D.

Subjects

SINGLE event effects, REMOTE sensing by radar, REMOTE sensing devices, RADIO frequency integrated circuits, SILICON germanium integrated circuits

Abstract

This paper investigates single-event effects in a W-Band (75-110 GHz) SiGe HBT down-conversion mixer intended for use in a space-based remote sensing radar system. Transient pulse propagation to the output of the mixer as a linear time variant system is analyzed theoretically. This study facilitates the understanding of transient propagation in RF receivers. Device- and circuit-level simulations were conducted to verify the results of the proposed theory. A two photon absorption laser was used to induce transients on different SiGe HBTs within the circuit to assess the impact of SETs on performance. This study shows that significant transients can be produced at the output of the mixer, which can potentially corrupt the received data or received pulse of the radar. It is shown that a differential double-balanced structure can effectively eliminate some of the transients at the output of the mixer. To the authors’ best knowledge this is the first study of single event transients conducted on a millimeter-wave SiGe circuit. [ABSTRACT FROM PUBLISHER]

Published

2015

16. The Role of Negative Feedback Effects on Single-Event Transients in SiGe HBT Analog Circuits.

Author

Seungwoo, Jung, Song, Ickhyun, Fleetwood, Zachary E., Raghunathan, Uppili, Lourenco, Nelson E., Oakley, Michael A., Wier, Brian R., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Warner, Jeffrey H., Paki, Pauline, and Cressler, John D.

Subjects

SINGLE event effects, ANALOG circuits, CIRCUIT feedback, RADIATION hardening (Electronics), SILICON germanium integrated circuits

Abstract

The effects of negative feedback, both external and internal, on single event transients (SETs) in SiGe HBT analog circuits are investigated. In order to examine internal negative feedback effects, basic common-emitter NPN current mirrors, with and without emitter degeneration resistors, are utilized. A Wilson current mirror and a Wilson mirror with its intrinsic external feedback removed are used to study external negative feedback effects under the influence of laser-induced single events. The measurement data clearly show notable improvements in SET response that can be made by employing both internal and external negative feedback. The peak transient in the output current is reduced, and the settling time upon a laser strike is shortened significantly by negative feedback. All four investigated current mirrors were fabricated with IBM 8HP 130 nm SiGe BiCMOS technology. [ABSTRACT FROM PUBLISHER]

Published

2015

17. On the Transient Response of a Complementary (npn + pnp) SiGe HBT BiCMOS Technology.

Author

Lourenco, Nelson E., Fleetwood, Zachary E., Jung, Seungwoo, Cardoso, Adilson S., Chakraborty, Partha S., England, Troy D., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Melinger, Joseph S., Warner, Jeffrey H., Paki, Pauline, Kaynak, Mehmet, Tillack, Bernd, Knoll, Dieter, and Cressler, John D.

Subjects

BICMOS digital integrated circuits, LIGHT absorption, SILICON germanium integrated circuits, BIPOLAR transistors, ELECTRONS

Abstract

The single-event transient (SET) response of a third-generation bulk C-SiGe (\ npn + \ pnp) BiCMOS platform is investigated for the first time. Pulsed-laser, two-photon absorption experiments show that the pnp SiGe heterojunction bipolar transistor (SiGe HBT) exhibits a significant reduction in sensitive area as well as an improved transient response compared with the npn SiGe HBT. Ion-strike simulations on 3-D TCAD, C-SiGe HBT models agree with experimental findings, showing a reduction in overall transient duration and collected charge for the pnp SiGe HBT. These improvements in device-level SETs are attributed to the n-well isolation layer present in the vertical material stack of the pnp HBT. These results suggest that precision analog, RF/mm-wave, and high-speed digital applications utilizing unhardened, high-performance bulk pnp SiGe HBTs should benefit from an inherently improved SEE response. [ABSTRACT FROM PUBLISHER]

Published

2014

18. Design of Radiation-Hardened RF Low-Noise Amplifiers Using Inverse-Mode SiGe HBTs.

Author

Song, Ickhyun, Jung, Seungwoo, Lourenco, Nelson E., Raghunathan, Uppili S., Fleetwood, Zachary E., Zeinolabedinzadeh, Saeed, Gebremariam, Tikurete B., Inanlou, Farzad, Roche, Nicholas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Melinger, Joseph S., Warner, Jeffrey H., Paki-Amouzou, Pauline, and Cressler, John D.

Subjects

ELECTRONIC amplifiers, LIGHT absorption, WAVE analysis, INTEGRATED circuits, RADIATION, OSCILLATIONS

Abstract

A SiGe RF low-noise amplifier (LNA) with built-in tolerance to single-event transients is proposed. The LNA utilizes an inverse-mode SiGe HBT for the common-base transistor in a cascode core. This new cascode configuration exhibits reduced transient peaks and shorter transient durations compared to the conventional cascode one. The improved SET response was verified with through-wafer two-photon absorption pulsed-laser experiments and supported via mixed-mode TCAD simulations. In addition, analysis of the RF performance and the reliability issues associated with the inverse-mode operation further suggests this new cascode structure can be a strong contender for space-based applications. The LNA with the inverse-mode-based cascode core was fabricated in a 130 nm SiGe BiCMOS platform and has similar RF performance to the conventional schematic-based LNA, further validating the proposed approach. [ABSTRACT FROM PUBLISHER]

Published

2014

19. An Investigation of Single-Event Transients in C-SiGe HBT on SOI Current Mirror Circuits.

Author

Jung, Seungwoo, Lourenco, Nelson E., Song, Ickhyun, Oakley, Michael A., England, Troy D., Arora, Rajan, Cardoso, Adilson S., Roche, Nicolas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Melinger, Joseph S., Warner, Jeffrey H., Paki-Amouzou, Pauline, Babcock, Jeff A., and Cressler, John D.

Subjects

SILICON germanium integrated circuits, COMPLEMENTARY metal oxide semiconductors, DIGITAL electronics, INTEGRATED circuits, LIGHT absorption

Abstract

The single-event effect sensitivity of three different commonly employed current mirror circuits, as well as an unconventional inverse-mode current mirror, all implemented in C-SiGe (NPN + PNP) HBT on SOI technology are investigated. Comparisons of the measured data of the basic NPN and PNP current mirror circuits show higher single-event radiation tolerance of PNP SiGe HBTs compared with NPN SiGe HBTs. The concept of utilizing inverse-mode SiGe HBTs in current mirror circuits is investigated. Measurement results validate the feasibility of employing inverse-mode PNP SiGe HBTs in current mirrors and show an excellent resilience against ion-strikes. Full 3-D NanoTCAD models of the SiGe HBTs are developed and used in mixed-mode TCAD simulations (within Cadence) to validate the measurement results. Finally, based on the measurement data and analysis of the four current mirrors, some practical suggestions and observations are offered for operation of such circuits in extreme environments. [ABSTRACT FROM PUBLISHER]

Published

2014

20. Single-Event Transient and Total Dose Response of Precision Voltage Reference Circuits Designed in a 90-nm SiGe BiCMOS Technology.

Author

Cardoso, Adilson S., Chakraborty, Partha S., Karaulac, Nedeljko, Fleischhauer, David M., Lourenco, Nelson E., Fleetwood, Zachary E., Omprakash, Anup P., England, Troy D., Jung, Seungwoo, Najafizadeh, Laleh, Roche, Nicolas J.-H., Khachatrian, Ani, Warner, Jeffrey H., McMorrow, Dale, Buchner, Stephen P., Zhang, En Xia, Zhang, Cher Xuan, McCurdy, Michael W., Reed, Robert A., and Fleetwood, Daniel M.

Subjects

IONIZATION (Atomic physics), BICMOS digital integrated circuits, BAND gaps, RADIATION, VOLTAGE references

Abstract

This paper presents an investigation of the impact of single-event transients (SETs) and total ionization dose (TID) on precision voltage reference circuits designed in a fourth-generation, 90-nm SiGe BiCMOS technology. A first-order uncompensated bandgap reference (BGR) circuit is used to benchmark the SET and TID responses of these voltage reference circuits (VRCs). Based on the first-order BGR radiation response, new circuit-level radiation-hardening-by-design (RHBD) techniques are proposed. An RHBD technique using inverse-mode (IM) transistors is demonstrated in a BGR circuit. In addition, a PIN diode VRC is presented as a potential SET and TID tolerant, circuit-level RHBD alternative. [ABSTRACT FROM PUBLISHER]

Published

2014

21. Evaluating the Effects of Single Event Transients in FET-Based Single-Pole Double-Throw RF Switches.

Author

Cardoso, Adilson S., Chakraborty, Partha S., Lourenco, Nelson E., England, Troy D., Saha, Prabir, Howard, Duane C., Fleischhauer, David M., Warner, Jeffrey H., McMorrow, Dale, Buchner, Stephen P., Paki-Amouzou, Pauline, Thrivikraman, Tushar K., and Cressler, John D.

Subjects

COMPLEMENTARY metal oxide semiconductors, SINGLE event effects, ELECTRONIC circuits, EFFECT of radiation on electronic apparatus & appliances

Abstract

The impact of single event transients (SETs) on single-pole double-throw (SPDT) RF switch circuits designed in a commercially-available, 180 nm second-generation SiGe BiCMOS (IBM 7HP) technology is investigated. The intended application for these SPDT RF switches requires a 1 GHz to 20 GHz band of operation, relatively low insertion loss (< 3.0~\dB at 20 GHz), and moderate isolation ( > 15~\dB at 20 GHz). Two-photon absorption experiment results reveal that the SPDT switches are vulnerable to SETs due to biasing effects as well as the triple-well (TW) nFETs, which are found to be more sensitive to SETs than bulk nFETs. From these results, potential implications are discussed and mitigation strategies are proposed. To verify one of the proposed mitigation techniques, SPDT switches were also designed in a 180 nm twin-well SOI CMOS (IBM 7RF-SOI) technology. A different biasing technique is implemented to help improve the SET response. The fabricated SOI SPDT switches achieve an insertion loss of < 1.04~\dB at 20 GHz and > 21~\dB isolation at 20 GHz. For this circuit, no transients were observed even at very high laser energies ( \approx 5~\nJ). [ABSTRACT FROM PUBLISHER]

Published

2014

22. An Investigation of Single-Event Effects and Potential SEU Mitigation Strategies in Fourth-Generation, 90 nm SiGe BiCMOS.

Author

Lourenco, Nelson E., Phillips, Stanley D., England, Troy D., Cardoso, Adilson S., Fleetwood, Zachary E., Moen, Kurt A., McMorrow, Dale, Warner, Jeffrey H., Buchner, Stephen P., Paki-Amouzou, Pauline, Pekarik, Jack, Harame, David, Raman, Ashok, Turowski, Marek, and Cressler, John D.

Subjects

SINGLE event effects, EFFECT of radiation on electronic apparatus & appliances, BIT error rate, LIGHT absorption, COMPLEMENTARY metal oxide semiconductors

Abstract

The single-event effect sensitivity of fourth-generation, 90 nm SiGe HBTs is investigated. Inverse-mode, \geq 1.0~\Gbps SiGe digital logic using standard, unoptimized, fourth-generation SiGe HBTs is demonstrated and the inverse-mode shift register exhibited a reduction in bit-error cross section across all ion-strike LETs. Ion-strike simulations on dc calibrated, 3-D TCAD SiGe HBT models show a reduction in peak current transient magnitude and a reduction in overall transient duration for bulk SiGe HBTs operating in inverse mode. These improvements in device-level SETs are attributed to the electrical isolation of the physical emitter from the subcollector-substrate junction and the high doping in the SiGe HBT base and emitter, suggesting that SiGe BiCMOS technology scaling will drive further improvements in inverse-mode device and circuit-level SEE. Two-photon absorption experiments at NRL support the transient mechanisms described in the device-level TCAD simulations. Fully-coupled mixed-mode simulations predict large improvements in circuit-level SEU for inverse-mode SiGe HBTs in multi-Gbps, inverse-mode digital logic. [ABSTRACT FROM PUBLISHER]

Published

2013