Abstract
It is difficult to measure the random telegraph noises (RTN) of MOSFET subthreshold currents at the sub-pA level directly and accurately. In this work, we used a charge integration method similar to the operation of the CMOS image sensors (CIS) to characterize the RTN of subthreshold currents approximately from 1 fA to 1 nA, using a test chip of 1M cell array in a 40 nm process. We found that each RTN trap was active only within a specific window of gate voltages. The trap became less active or inactive outside the corresponding window of operations. We showed that the sets of RTN-active devices under different gate voltages were different. Furthermore, the choice of sampling frequency in measuring RTN and the number of sampled data points determined the observable range of RTN emission and capture time constants. For the data measured by sampling periods of 3.82 s, 299 ms, and 372 $\mu {\mathrm{ s}}$ , different sets of RTN traps were observed with different spans of time constants. The combined time constants range was about 7 orders of magnitude. For single-trap RTN, we found and verified a relation between the probability of trap occupancy (PTO) and the ratio of root-mean-square random noise (RN) versus the RTN amplitude.
Highlights
The random telegraph signal (RTS) phenomena and the random telegraph noises (RTN) due to carrier trapping and de-trapping in semiconductor devices have been studied for more than 35 years since the early reports in the 80’s and 90’s [1]–[11]
1,000 device under test (DUT), we find a subset of 597 samples showing well-behaved single-trap RTN behavior
We studied the RTN behavior statistically in a subthreshold current range of roughly 6 decades, primarily focusing on the well-behaved single-trap RTN devices
Summary
The random telegraph signal (RTS) phenomena and the random telegraph noises (RTN) due to carrier trapping and de-trapping in semiconductor devices have been studied for more than 35 years since the early reports in the 80’s and 90’s [1]–[11]. It becomes necessary to examine the RTN behavior of devices operated in near-threshold and subthreshold regions. We intended to find out the correlations among the RTN devices under different operation conditions, and to study the general trends of the RTN amplitudes and time constants as functions of the gate voltages. The main findings of this work: the correlation of RTN under different operation conditions, the voltage dependence of the RTN behavior, the probability of trap occupancy (PTO), and the RTN time constants are presented in Sections V, VI, VII, and VIII, respectively.
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