Title :
On the Performance and Scaling of Symmetric Lateral Bipolar Transistors on SOI
Author :
Ning, Tak H. ; Jin Cai
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
The performance potential and scaling characteristics of thin-base SOI symmetric lateral bipolar transistors were examined using 1-D analytic equations for the currents and capacitances. The device can operate at collector current densities >100 mA/μm2, and it scales similarly to CMOS in terms of density. The physical base width is scalable to less than 20 nm. Multiple devices of different specifications can be integrated on a chip. A sample design is shown to have fT > 200 GHz, fmax >1 THz, VA > 4V, and a self gain of 60. A balanced design is shown to have 350-GHz fT and 700-GHz fmax, VA of 2.4 V, and a self gain of 20. These results are superior to those reported for 32 nm SOI CMOS. The results suggest a need to rethink bipolar circuit design. They also suggest opportunities for novel bipolar and BiCMOS circuits. The devices in high-speed Si-base bipolar circuits operate at about 1.0 V. The path toward 0.5 V bipolar circuits is to use semiconductors with smaller bandgap, such as Ge.
Keywords :
BiCMOS integrated circuits; CMOS integrated circuits; bipolar transistors; current density; germanium; silicon; silicon-on-insulator; 1D analytic equations; BiCMOS circuits; Ge; SOI; Si; bipolar circuit design; collector current density; frequency 350 GHz; frequency 700 GHz; performance potential; silicon-on-insulator; size 32 nm; symmetric lateral bipolar transistors; voltage 0.5 V; voltage 1.0 V; voltage 2.4 V; Bipolar transistors; CMOS integrated circuits; Capacitance; Mathematical model; Performance evaluation; Silicon on insulator technology; Transistors; Bipolar transistors; SOI devices; complementary bipolar transistors; lateral bipolar transistors;
Journal_Title :
Electron Devices Society, IEEE Journal of the
DOI :
10.1109/JEDS.2012.2233272
