New Hybrid-Based Self-Test Strategy for Faulty Modules of Complex Microcontroller Systems

Electronics ETF Pub Date : 2019-09-19 DOI:10.7251/els1822059e

M. El-Mahlawy, Sherif Hussein, G. Mohamed

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引用次数: 4

Abstract

In this paper, a new hybrid test strategy, called hybrid-based self-test (HYBST), is presented to test complex digital circuits such as microcontrollers. This test strategy integrates the signature multi-mode hardware-based self-test (SM-BST) with the software-based self-test (SBST). In this test strategy, the microcontroller is divided into a number of main modules, and then test subroutines are used to functionally test each module, based on its instruction set architecture (ISA). The ISA is used to generate test subroutines that represent test pattern generators (TPGs) and part of the test controller. The SMHBST represents the other part of the test controller and the test response compaction (TRC). The experimental results illustrate the superiority of the HYBST in the memory utilization, test application time, testing of internal modules of the microcontroller, and testing of general-purpose input-output (GPIO) pins of the microcontroller. In addition, an integrated test solution for fault diagnosis of the circuit boards including random logic integrated circuits (ICs) and microcontroller chips is presented to indicate a real practical test strategy.

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复杂单片机系统故障模块的混合自检新策略

本文提出了一种新的混合测试策略，即基于混合的自检(HYBST)，用于测试微控制器等复杂数字电路。该测试策略将签名多模式硬件自检(SM-BST)和软件自检(SBST)相结合。在该测试策略中，将微控制器划分为多个主模块，然后根据其指令集体系结构(ISA)，使用测试子程序对每个模块进行功能测试。ISA用于生成测试子例程，这些子例程表示测试模式生成器(TPGs)和测试控制器的一部分。SMHBST表示测试控制器的另一部分和测试响应压缩(TRC)。实验结果表明，HYBST在内存利用率、测试应用时间、微控制器内部模块测试以及微控制器通用输入输出(GPIO)引脚测试等方面具有优势。此外，还提出了一种包含随机逻辑集成电路(ic)和微控制器芯片的电路板故障诊断集成测试方案，为电路板故障诊断提供了一种真正实用的测试策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Electronics ETF

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