Demonstration of anti-ambipolar switch and its applications for extremely low power ternary logic circuits
Acs Nano, 2022•ACS Publications
Anti-ambipolar switch (AAS) devices at a narrow bias region are necessary to solve the
intrinsic leakage current problem of ternary logic circuits. In this study, an AAS device with a
very high peak-to-valley ratio (∼ 106) and adjustable operating range characteristics was
successfully demonstrated using a ZnO and dinaphtho [2, 3-b: 2′, 3′-f] thieno [3, 2-b]
thiophene heterojunction structure. The entire device integration was completed at a low
thermal budget of less than 200° C, which makes this AAS device compatible with monolithic …
intrinsic leakage current problem of ternary logic circuits. In this study, an AAS device with a
very high peak-to-valley ratio (∼ 106) and adjustable operating range characteristics was
successfully demonstrated using a ZnO and dinaphtho [2, 3-b: 2′, 3′-f] thieno [3, 2-b]
thiophene heterojunction structure. The entire device integration was completed at a low
thermal budget of less than 200° C, which makes this AAS device compatible with monolithic …
Anti-ambipolar switch (AAS) devices at a narrow bias region are necessary to solve the intrinsic leakage current problem of ternary logic circuits. In this study, an AAS device with a very high peak-to-valley ratio (∼106) and adjustable operating range characteristics was successfully demonstrated using a ZnO and dinaphtho[2,3-b:2′,3′-f]thieno[3,2-b]thiophene heterojunction structure. The entire device integration was completed at a low thermal budget of less than 200 °C, which makes this AAS device compatible with monolithic 3D integration. A 1-trit ternary full adder designed with this AAS device exhibits excellent power–delay product performance (∼122 aJ) with extremely low power (∼0.15 μW, 7 times lower than the reference circuit) and lower device count than those of other ternary device candidates.
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