Current density limits in InP DHBTs: collector current spreading and effective electron velocity

To minimize the dominant delay term in emitter-coupled logic, /spl Delta/V/sub logic/C/sub cb//I/sub c/, HBTs must operate at high current densities. Current density is limited by device thermal failure and by the Kirk effect. We here experimentally determine two key factors influencing the Kirk-effect limit. The collector current spreads laterally away from each side the emitter stripe over a distance /spl Delta/ approximately equal to the collector depletion thickness. This effect substantially increases the achievable current in submicron-emitter HBTs. Further, the variation of the Kirk-effect-limited current density with bias voltage indicates a 3.2(10/sup 5/) m/s effective collector electron velocity, consistent with that extracted from the measured transistor f/sub /spl tau//.

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