Author_Institution :
Semicond. Equipment Group, Watkins-Johnson Co., Scotts Valley, CA, USA
Abstract :
A method for small signal operating point analysis of the stability of chemical source vapor flow from liquid source vapor generators (bubblers) is presented. The analytical technique allow´s quantification of the relative effect of changes in the flow, pressure, and temperature operating conditions of the vapor generator on the vapor output of the generator. Application of the analysis to ({tetraethylorthosilicate≡TEOS)+{trimethylphosphite ≡TMPi}+({trimethyl borate≡TMB}+{O3≡ozone) based atmospheric pressure chemical vapor deposition (APCVD) processes yields example stability criteria for the bubbler control parameters. Examination of 5-wt%-B/4-wt%-P BPSG pre-metal dielectric (PMD), and SiO 2 intermetal dielectric (IMD) processes show that variances in the bubbler temperature, ΔT, bubbler head space pressure, ΔPHS, and carrier nitrogen flow, ΔQN2 affect the source vapor flow variance, ΔQν, in the ratio of about 4.3:2.8:1 respectively. Film-doping and film-depth range-method uniformity specifications of ±0.1 wt% and ±2% require bubbler parameter control limits of: ΔT<0.25°C, ΔPHS⩽6 torr, and ΔQN2⩽0.3% of operating point flow
Keywords :
borosilicate glasses; chemical vapour deposition; dielectric thin films; phosphosilicate glasses; semiconductor process modelling; silicon compounds; APCVD; B2O3-P2O5-SiO2; BPSG; BPSG pre-metal dielectric; SiO2; SiO2 intermetal dielectric; TEOS-TMPi-TMB-ozone; atmospheric pressure chemical vapor deposition; bubbler control; chemical source vapor flow; film depth range; film doping; liquid source vapor generator; operating point; small signal analysis; stability; Chemical analysis; Chemical vapor deposition; Dielectrics; Fluid flow; Pressure control; Signal analysis; Signal generators; Stability analysis; Stability criteria; Temperature;
