In situ phosphorus-doped polysilicon emitter technology for very high-speed, small emitter bipolar transistors

In situ phosphorus-doped polysilicon emitter (IDP) technology for very high-speed, small-emitter bipolar transistors is studied. The device characteristics of IDP transistors are evaluated and compared with those of conventional ion-implanted polysilicon emitter transistors. IDP technology is used to fabricate double polysilicon self-aligned bipolar transistors and the I-V characteristics, current gain, transconductance, emitter resistance, and cut-off frequency are measured. In conventional transistors, these device characteristics degrade when the emitter is small because of the emitter-peripheral-thick-polysilicon effect. In IDP transistors, the peripheral effect is completely suppressed and large-grain, high-mobility polysilicon can be used. The device characteristics, therefore, are not degraded in sub-0.2-μm emitter transistors. In addition, large-grain, high-mobility, and high phosphorus concentration IDP films increase current gain and lower emitter resistance. The use of IDP technology to build very small emitter transistors is evaluated and discussed