Title :
Intrinsic leakage in deep submicron CMOS ICs-measurement-based test solutions
Author :
Keshavarzi, Ali ; Roy, Kaushik ; Hawkins, Charles F.
Author_Institution :
Intel Corp., Hillsboro, OR, USA
Abstract :
The high leakage current in deep submicron, short-channel transistors can increase the stand-by power dissipation of future IC products and threaten well established quiescent current (I/sub DDQ/)-based testing techniques. This paper reviews transistor intrinsic leakage mechanisms. Then, these well-known device properties are applied to a test application that combines I/sub DDQ/ and ICs maximum operating frequency (F/sub max/) to establish a novel two-parameter test technique for distinguishing intrinsic and extrinsic (defect) leakages in ICs with high background leakage. Results show that I/sub DDQ/ along with F/sub max/ can be effectively used to screen defects in high performance, low V/sub T/ (transistor threshold voltage) CMOS ICs.
Keywords :
CMOS integrated circuits; integrated circuit measurement; integrated circuit testing; leakage currents; IDDQ testing; deep submicron CMOS IC; defect screening; leakage current measurement; maximum operating frequency; short-channel transistor; stand-by power dissipation; threshold voltage; Circuit testing; Current measurement; Current supplies; Integrated circuit testing; Leak detection; Leakage current; Microprocessors; Power measurement; Power supplies; Threshold voltage;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
