Study of Cutoff Frequency at High Collector Current Density in SiGe Single-Heterojunction Bipolar Transistor

Abstract: The cutoff frequency performance of an NPN Si/SiGe/SiGe Single-heterojunction bipolar transistor (SiGe SHBT) at high collector current densities has been analyzed using a 2-dimensional MEDICI device simulator. A conventional NPN Si/SiGe/Si Double-heterojunction bipolar transistor (SiGe DHBT) having uniform 14%Ge in the base region has been investigated for comparison. The analysis shows the formation of a retarding potential barrier for minority carrier electrons at the base collector heterojunction of the DHB… Show more

“…However, the conventional NPN Si/SiGe/Si DHBT structures exhibit sharp fall in cutoff frequency at high collector current densities, due to the formation of retarding potential barrier for minority electrons at base-collector heterojunction 5 . An alternate NPN SiGe HBT structure with linearly graded germanium atomic per cent (at %) has been proposed in collector to smooth-out this retarding potential barrier at base-collector hetrojunction for improving the current gain and cutoff frequencies at high collector current densities 6 .…”

Silicon-germanium Single-heterojunction Bipolar Transistor

“…However, the conventional NPN Si/SiGe/Si DHBT structures exhibit sharp fall in cutoff frequency at high collector current densities, due to the formation of retarding potential barrier for minority electrons at base-collector heterojunction 5 . An alternate NPN SiGe HBT structure with linearly graded germanium atomic per cent (at %) has been proposed in collector to smooth-out this retarding potential barrier at base-collector hetrojunction for improving the current gain and cutoff frequencies at high collector current densities 6 .…”

Silicon-germanium Single-heterojunction Bipolar Transistor

Base doping profile effect in SiGe heterojunction bipolar transistors

Structural and electrical properties of the Ge x Si1−x /Si heterojunctions obtained by the method of direct bonding