A. Fudoli scite author profile

A. Fudoli

5Publications

57Citation Statements Received

2Citation Statements Given

How they've been cited

110

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Affiliations

STMicroelectronics (Italy)

Publications

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High accuracy stimulus generation for A/D converter BIST

Roy¹,

Sunter²,

Fudoli³

et al.

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A novel approach is presented for digital generation of an analog waveform suitable f o r BIST of high-resolution analog-to-digital converters (ADCs). The staircase-like exponential waveform is shown to have propenies of a perfectly linear ramp when used as the stimulus f a r a 3" order polynomial Jitting algoriihm that measures offset, gain, 2" and 3d harmonic distonion. The technique is particularly suitable f o r iesting high resolution ( > I 2 bits) sigma-delta ADCs in a noisy environment, which can then be used to test digital-toanalog converters (DACs). Experimental results for a 44 kHz I b b i t ADC show, that the technique measures distoriion with better than 0.01% accuracy in the presence of random and 50 o r 60 Hz noise. IntroductionMore than 60% of IC designs now include mixedsignal circuitry [l], typically an ADC or DAC, or both. These converters are typically 8-12 bits, however 16-bit converters are common, especially for audio frequencies.Sigma-delta techniques allow this resolution to be practical in a CMOS process that achieves 0.1 % element matching at best, and the converter is almost routinely integrated alongside large amounts of high frequency digital circuitry.In this context, the testing of these components becomes a problem mainly because of noise in a production environment, and test time. Also, high pincount mixed-signal testers typically cost 2 5 4 0 % more than digital testers. Connecting the ADC to an external mixed-signal tester requires a careful loadboard layout to limit noise and to provide higher precisiodresolution than the ADC under test. The problem is worse when testing an ADC on a bench-top, in a system, or in the fieldpower line noise inevitably corrupts low-level measurement results.In telecom applications, the sampling interval is always chosen to be a multiple of the power line frequency (60 Hz in some countries, 50 Hz in others) [7], hut this has not been a consideration for previously published BIST.A built-in-self test (BIST) technique for ADCs capable of evaluating key performance parameters is one way to alleviate these problems. A purely digital interface between the BIST circuitry and the tester allows a lower cost, digital tester to perform the test. A small amount of analog circuitry on the loadboard is feasible in close proximity to the chip, as long as it does not need to be accurate or bulky.One of the main challenges of developing any mixed-signal BIST technique is the generation of a stimulus waveform with predictable and controllable characteristics. For the technique presented in this paper, the ideal waveform would be a linear ramp with a controlled slope.The linearity required must be significantly better than the resolution of the ADC under test.To qualify as a BIST technique, the stimulus must be self-generated. Using on-chip analog circuitry to generate the ramp is often not practical because it needs custom layout or redesign for every technology in which the BIST circuit is to be implemented. For ASIC or FPGA design, mask-level layout by the custom...

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Exploiting programmable bist for the diagnosis of embedded memory cores

Appello

Bernardi

Fudoli

et al.

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Understanding yield losses in logic circuits

Appello

Fudoli

Giarda

et al. 2004

IEEE Des. Test. Comput.

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A practical evaluation of I/sub DDQ/ test strategies for deep submicron production test application. Experiences and targets from the field

Fudoli

Ascagni

Appello

et al.

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Electro Optical Terahertz Pulse Reflectometry, a non destructive technique to localize defects on various type of package

Reverdy¹,

Marchetti

Fudoli

et al. 2014

Microelectronics Reliability

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A. Fudoli

High accuracy stimulus generation for A/D converter BIST

Exploiting programmable bist for the diagnosis of embedded memory cores

Understanding yield losses in logic circuits

A practical evaluation of I/sub DDQ/ test strategies for deep submicron production test application. Experiences and targets from the field

Electro Optical Terahertz Pulse Reflectometry, a non destructive technique to localize defects on various type of package

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