R. Marec

Effects of Ion Species on SEB Failure Voltage of Power DMOSFET

This paper presents and explains test results showing the effect of ion species on the single event burnout (SEB) failure voltage using a SEB sensitive engineering power double diffused metal oxide silicon field effect transistor (DMOSFET). The analyses show the determining factor of tested SEB failure voltage is the ion species itself rather than test or beam conditions such as initial beam energy, surface linear energy transfer (LET), ion range, or ionized charge. Also, results from five test facilities and five test setups are compared to determine if there will be differences in test results when different test setups or different heavy ion accelerator facilities were used.

Investigation and Analysis of LM124 Bipolar Linear Circuitry Response Phenomenon in Pulsed X-Ray Environment

Analog Transient Radiation Effects in Electronics (ATREE) induced by high dose-rate X-ray pulses are investigated using a flash X-ray facility. The ATREEs induced in a LM124 operational amplifier configured in three different bias configurations are investigated. A predictive methodology, based upon a previously developed ASET simulation tool, is used to model the ATREE phenomena. A semiempirical physical model is used to perform the correlation between the duration of the parasitic pulse signal induced in the LM124 and an equivalent value of the high dose-rate X-ray pulse level.

Review and Analysis of the Radiation-Induced Degradation Observed for the Input Bias Current of Linear Integrated Circuits

It is shown that the variety of shapes of the input current versus dose curve observed in several ICs is due to circuit effects, depending on the architecture, the value of the currents and the bias conditions. When stages are cascaded, the degradation of the second stage may add or subtract current to the collector current of the input transistor. The variations of the collector currents can be evaluated using the variations of the supply current. It is then possible to model the compensation effects using basic equations and study the impact of irradiation conditions. In some cases, the effect of biasing the circuit during irradiation is to reduce the compensation mechanism leading to an stronger increase in the input current. When a peak shaped degradation curve is recorded, annealing may either induce an additional degradation or a recovery depending on which side of the peak irradiation has brought the circuit.

Accelerated Irradiation Method to Study Synergy Effects in Bipolar Integrated Circuits

An accelerated irradiation technique is used to study dose-ASET synergy effects. The impact of TID on SET is found to be identical when the dose rate is switched from high to low or from low to high.

Development of a New Methodology to Model the Synergistic Effects Between TID and ASETs

A high level model is developed using circuit analysis to predict the synergy effect observed on a three stages operational amplifier. This model makes possible to explain and to predict the analog single event transients propagation in circuitry. The effect of total ionizing dose is taken into account by varying the model parameters using the monitoring of the usual supply current induced degradation of the operational amplifier.

Modeling and Investigations on TID-ASETs Synergistic Effect in LM124 Operational Amplifier From Three Different Manufacturers

The synergistic effect between Total Ionizing Dose (TID) and Analog Single Event Transient (ASET) in LM124 operational amplifiers (opamps) from three different manufacturers is investigated. This effect is clearly identified on only two manufacturers by three, highlighting manufacturer dependent. In fact, significant variations were observed on both the TID sensitivity and the ASET response of LM124 devices from different manufacturers. Hypotheses are made on the cause of the differences observed. A previously developed ASET simulation tool is used to model the transient response. The effects of TID on devices are taken into account in the model by injecting the variations of key electrical parameters obtained during Co60 irradiation. An excellent agreement is observed between the experimental responses and the model outputs, independently of the TID level, the bias configuration and the manufacturer of the device.

In flight observation of proton induced destructive single event phenomena

MEX Experience Module is a part of CARMEN2 instrument launched in June 22 2008 aboard JASON2 satellite. This scientific instrument is dedicated to the study of the effects of space radiation environment on various electronic devices. Among all the phenomena studied in this experiment, this paper focuses on the data collected on destructive SEEs: Latch-up on commercial SRAMs and Burnout on power MOSFETs.

Single Event-Induced Instability in Linear Voltage Regulators

SET-induced oscillations were measured on a stable linear-regulator that uses the LM124 op-amp in its regulation block. Simulations showed that single events act as stimuli that initiate a large-signal oscillation in the LM124 differential amplifier and compensation capacitor path. Laser testing validated the analysis and confirmed that transistors connected to the compensation capacitor are the most vulnerable

Impact of Switched Dose-Rate Irradiation on the Response of the LM124 Operational Amplifier to Pulsed X-Rays

The Synergistic effect between TID and ATREEs (Analog Transient Radiation Effects on Electronics) in an operational amplifier (opamp) (LM124) is investigated for three different bias configurations. An accelerated irradiation technique is used to study these synergistic effects. The impact of TID on ATREEs is found to be identical regardless of whether the irradiation is performed at low dose rate or whether the dose rate is switched from high to low using the Dose Rate Switching (DRS) technique. The correlation between the deviations of the opamps electrical parameters and the changes of ATREE widths is clearly established.

Effects of reliability screening tests on bipolar integrated circuits during total dose irradiation

The effects of burn-in, high temperature reverse bias (HTRB) and life tests on the total dose response of three different bipolar ICs are studied. Different behaviors have been observed on one type. Results analyses are consistent with the mechanisms previously reported for MOS devices.