Strategic Test Cost Reduction with On-Chip Measurement Circuitry for RF Transceiver Front-Ends - An Overview

A novel design-for-testability approach is proposed, which is derived from the aggressive probabilistic targets set forth for the yield and quality to be achieved in the massproduction of high-volume low-cost transceiver SoCs, thus requiring solutions that are fundamentally different from the traditional approaches. Statistical analysis is presented as the basis for the proposed approach, and specific guidelines are defined and demonstrated through examples. The proposed approach, based on built-in-self-testing (BIST) of RF/mixedsignal functions in the transceiver SoC, relies on digital processing resources that are typically available within the SoC at no additional cost and may aid in its testing and calibration. The important roles of characterization and built-in-selfcalibration and compensation in this context are also defined.

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“…An overview of technical and economic aspects of such approach is found in [1], with a focus on RF front ends.…”

Section: A Reliance On Built-in Self-testing (Bist)mentioning

confidence: 99%

A statistical approach for design and testing of analog circuitry in low-cost SoCs

Eliezer

Staszewski

Mannath

2010

2010 53rd IEEE International Midwest Symposium on Circuits and Systems

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“…With increasing complexity and Pin-counts on nextgeneration RF devices, the research activities are on demand by incorporating RF technology with massproduction concept for developing a solution, either through low cost means and/or augmenting their installed base with RF functionality [1]- [2]. The IC manufacturing supply chain also possesses a large installed base of production test equipment with limited RF functionality.…”

Section: Introductionmentioning

confidence: 99%

A novel method for RF device's contact test

Jeng

Chen³

et al. 2014

2014 IEEE International Wireless Symposium (IWS 2014)

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A novel method for RF device's contact test is proposed to improve the yield of the RFIC test employing test less technique. An equivalent circuit for modeling the RF device incorporating RF traces with contact impedance is applied for theoretical analysis of prototype design. Measured data of RF devices testing attained in production runs precisely address the contact issue using the novel methodology present here.Index Terms -Auto Test Equipment (ATE); System-inPackage (SiP); Multi-Chip Module (MCM).

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“…Techniques for reducing RFIC test costs can be categorised into those that test less, those that test earlier, and those that test faster [5, 6]. The test‐less technique uses efficient testing methods [7, 8] to eliminate redundant or non‐critical tests based on statistical correlations with the existing measured data and sampling plan reduction.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of radio frequency device's contact test using a novel method

Chen²,

Ko³

2014

IET Science, Measurement & Technology

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This investigation describes novel automatic test equipment for verifying the electric contact of radio frequency (RF) traces between RF devices by, for example, the opens and shorts test. An equivalent circuit for modelling the RF device incorporating RF traces with contact impedance is applied for theoretical analysis of the prototype design. The effectiveness of the proposed novel test methodology is then validated. The measured data from experimental testing of RF devices attained in production runs precisely address the contact issue using the novel methodology presented here.

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Strategic Test Cost Reduction with On-Chip Measurement Circuitry for RF Transceiver Front-Ends - An Overview

Cited by 5 publications

References 30 publications

A statistical approach for design and testing of analog circuitry in low-cost SoCs

A statistical approach for design and testing of analog circuitry in low-cost SoCs

A novel method for RF device's contact test

Enhancement of radio frequency device's contact test using a novel method

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