Title :
Defect detection from visual abnormalities in manufacturing process using IDDQ
Author_Institution :
Anal. Technol. Dev. Div., NEC, USA
Abstract :
Abnormal IDDQ (quiescent VDD supply current) indicates the existence of physical damage in a circuit. Using this phenomenon, a CAD-based fault diagnosis technology has been developed to enhance the manufacturing yield of logic LSI. This method to detect the fatal defect fragments in several abnormalities identified with wafer inspection apparatus includes a way to separate various leakage faults, and to define the diagnosis area encircling the abnormal portions. The proposed technique progressively narrows the faulty area by using logic simulation to extract the logic states of the diagnosis area, and by locating test vectors related to abnormal IDDQ. The fundamental diagnosis way employs the comparative operation of each circuit element to determine whether the same logic state with abnormal IDDQ exists in normal logic state or not
Keywords :
CMOS logic circuits; automatic test pattern generation; design for manufacture; design for testability; fault diagnosis; integrated circuit testing; integrated circuit yield; large scale integration; leakage currents; logic simulation; logic testing; CAD-based fault diagnosis; CMOS logic LSI; IDDQ testing; abnormal IDDQ; blocks extraction; combinational circuit; fatal defect fragments; killer defects; leakage faults; logic simulation; manufacturing yield; sequential circuit; shorted-line fault; test vectors; visual abnormalities; Circuit faults; Current supplies; Electrical fault detection; Fault detection; Fault diagnosis; Large scale integration; Leak detection; Logic circuits; Logic testing; Manufacturing processes;
Conference_Titel :
Test Workshop, 2000. Proceedings. IEEE European
Conference_Location :
Cascais
Print_ISBN :
0-7695-0701-8
DOI :
10.1109/ETW.2000.873777
