The effects of the composite-collector structure and the δ-doping density in InGaAs/InP DHBT on the Kirk current have been studied.The effective grade layer in the discretely graded layer goes into the InGaAs setback layer.The formulas of the maximum doping density,the maximum Kirk current,and the corresponding δ-doping density are derived under different Kirk-effect conditions.Both the maximum collector doping density and the maximum Kirk current are dependent on the δ-doping layer.By opti-mizing the delta doping,the Kirk current density can be greatly increased. The effects of the composite-collector structure and the δ-doping density in InGaAs / InP DHBT on the Kirk current have been studied. The effective grade layer in the discretely graded layer goes into the InGaAs setback layer. The formulas of the maximum doping density , the maximum Kirk current, and the corresponding δ-doping density are derived under different Kirk-effect conditions. By the maximum collector doping density and the maximum Kirk current are dependent on the δ-doping layer. By opti-mizing the delta doping, the Kirk current density can be greatly increased.