Title :
Bipolar I-MOS—An Impact-Ionization MOS With Reduced Operating Voltage Using the Open-Base BJT Configuration
Author :
Kumar, Mamidala Jagadesh ; Maheedhar, Maram ; Varma, P. Pradeep
Author_Institution :
Electr. Eng. Dept., IIT Delhi, New Delhi, India
Abstract :
In this brief, we propose a novel bipolar junction transistor-based I-MOS, called the bipolar I-MOS, to reduce the operating voltage of the I-MOS using the transistor gain action. Using 2-D simulations, we demonstrate that the proposed bipolar I-MOS exhibits a low operating voltage (~2.8 V), which is ~60% lower than that of the corresponding p-i-n I-MOS, and also a steep subthreshold slope of 6.25 mV/decade. In the bipolar I-MOS, since the avalanche-generated carriers do not pass through the channel region under the gate, it is expected to have a higher reliability compared with the p-i-n I-MOS. Therefore, the bipolar I-MOS could be a promising candidate for near ideal switching applications.
Keywords :
MOSFET; bipolar transistors; impact ionisation; semiconductor device models; semiconductor device reliability; 2D simulations; avalanche-generated carriers; bipolar junction transistor-based I-MOS; channel region; impact-ionization MOS; near ideal switching applications; open-base BJT configuration; operating voltage; transistor gain action; Impact ionization; MOS devices; MOSFET; PIN photodiodes; Reliability; Semiconductor process modeling; Bipolar I-MOS; low operating voltage; p-i-n I-MOS; reliability; transistor gain action; transistor gain action.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2492358
