A Fully-Digital BIST Wrapper Based on Ternary Test Stimuli for the Dynamic Test of a 40 nm CMOS 18-bit Stereo Audio $\Sigma\Delta$ ADC

Barragán, Manuel J.; Alhakim, Rshdee; Stratigopoulos, Haralampos-G.; Dubois, Marc-Jacques; Mir, Salvador; Gall, Herve Le; Bhargava, Neha; Bal, Ankur

doi:10.1109/tcsi.2016.2602387

Cited by 18 publications

(8 citation statements)

References 20 publications

(27 reference statements)

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“…The requirement for a high-resolution test stimulus can be relaxed by using non-linear stimulus generators combined with advanced post-processing techniques of the converter's output [44]. Traditional BIST schemes for dynamic testing, i.e., Signal-to-Noise Ratio (SNR), use test stimulus generation performed by sinusoidal signal generators [45], [46] or Σ∆ bitsteams encoding sinusoidal signals [47], and test response analyzers that perform spectral analysis [48] or sine-wave fitting analysis [47].…”

Section: Dft For A/m-s and Rf Icsmentioning

confidence: 99%

Digital-to-Analog Hardware Trojan Attacks

Elshamy

Natale

Sayed

et al. 2022

IEEE Trans. Circuits Syst. I

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We propose a Hardware Trojan (HT) attack for analog circuits with its key characteristic being that it cannot be prevented or detected in the analog domain. The HT attack works in the context of Systems-on-Chip (SoCs) comprising both digital and analog Intellectual Property (IP) blocks. The attacker could be either the SoC integrator or the foundry. More specifically, the HT trigger is placed inside a dense digital IP block where it can be effectively hidden, whereas the HT payload is in the form of a digital pattern transported via the test bus or generated within the test bus, reaching the Design-for-Test (DfT) or programmability interface of the victim analog IP with the test bus. The HT payload unexpectedly activates the DfT and sets the victim analog IP into some possibly partial and undocumented test mode or changes the nominal programmability. The HT payload can be designed to result in performance degradation or complete malfunction, i.e., denial of service. We demonstrate this HT attack scenario on two analog IPs, namely a low-dropout (LDO) regulator using simulation and an RF receiver using hardware measurements.

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Section: Dft For A/m-s and Rf Icsmentioning

confidence: 99%

Digital-to-Analog Hardware Trojan Attacks

Elshamy

Natale

Sayed

et al. 2022

IEEE Trans. Circuits Syst. I

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“…For instance, if an onchip ramp generator could be shared for the test of the column read-out ADCs in a consumer CMOS imager sensor, the area overhead could be below 0.1% of the total system area. In future applications, this system level approach may also allow a complete ADC characterization combining on-chip static and dynamic tests in the same VLSI system by integrating also dynamic stimulus generators, such as the one presented in [40] for Σ∆ ADCs. In this line, the target application defines the type of tests required for the ADCs in the system.…”

Section: Applicationsmentioning

confidence: 99%

Fully Differential 4-V Output Range 14.5-ENOB Stepwise Ramp Stimulus Generator for On-Chip Static Linearity Test of ADCs

Renaud

Diallo

Barragán

et al. 2019

IEEE Trans. VLSI Syst.

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This paper presents an on-chip step-wise ramp stimulus generator aimed at static linearity test applications for ADCs. The proposed ramp stimulus generator is based on a simple switched-capacitor integrator with a constant DC input. The integrator has been conveniently modified to produce a very small integration gain proportional to the capacitance difference of two capacitors, in such a way that the resulting step-wise ramp signal at the output has a step size below the LSB of the target ADC under test. In order to verify the feasibility of the proposed ramp generation technique, this paper details the design and experimental characterization of a proof-of-concept step-wise ramp generator in a 65 nm CMOS technology. Experimental results on 15 fabricated samples show an average linearity of 14.5 effective bits in a differential output range of ±2 V. Moreover, a discrete-time static linearity measurement strategy is proposed and, as a proof-of-concept validation, it is verified on an offthe-shelf 11-bit ADC using the fabricated generator samples. Experimental results show an accuracy of ±0.3 LSB in the measurement of the INL of the ADC under test.

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“…On the other hand, oversampling Σ∆ ADCs are more prone to gain and offset errors, and it has been proved that the incremental Σ∆ modulation is inherently more robust to complex non-linear effects such as idle tone generation and dead zones [19]. In addition, well-known digital test solutions for Σ∆ modulators can be adapted for assuring the correct functionality of the added test circuitry [20], [21]. In the remainder of this section, the basic operation of an IΣ∆ ADC is explained and the design trade-offs for sizing the proposed circuitry are explored.…”

Section: Practical On-chip Implementationmentioning

confidence: 99%

Reduced-Code Static Linearity Test of Split-Capacitor SAR ADCs Using an Embedded Incremental <inline-formula> <tex-math notation="LaTeX">$\Sigma\Delta$ </tex-math> </inline-formula> Converter

Feitoza

Barragán

Dzahini

et al. 2019

IEEE Trans. Device Mater. Relib.

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Reduced-code techniques for ADC static linearity test have the potential to drastically reduce the number of necessary measurements for a complete static linearity characterization. These techniques take advantage of the repetitive operation of certain families of converters such as pipelines, SARs, cyclic, etc. In this paper we present a novel reducedcode technique for the static linearity test of split-capacitor SAR ADCs based on the on-chip generation and measurement of the major carrier transitions of the input DAC of the converter. The proposed test method does not require a test stimulus, and we show that the necessary measurements can be easily extracted by reconfiguring portions of the SAR into a lowresolution Incremental Σ∆ converter. The proposed technique is validated with both behavioral and electrical simulations of a 10-bit SAR ADC in a 65 nm CMOS technology.

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A Fully-Digital BIST Wrapper Based on Ternary Test Stimuli for the Dynamic Test of a 40 nm CMOS 18-bit Stereo Audio $\Sigma\Delta$ ADC

Cited by 18 publications

References 20 publications

Digital-to-Analog Hardware Trojan Attacks

Digital-to-Analog Hardware Trojan Attacks

Fully Differential 4-V Output Range 14.5-ENOB Stepwise Ramp Stimulus Generator for On-Chip Static Linearity Test of ADCs

Reduced-Code Static Linearity Test of Split-Capacitor SAR ADCs Using an Embedded Incremental <inline-formula> <tex-math notation="LaTeX">$\Sigma\Delta$ </tex-math> </inline-formula> Converter

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