Δψ=ψd−ψs(3.319) \Delta \psi = \psi_d - \psi_s \qquad (3.319) Δψ=ψd−ψs(3.319)
qba=qbs(3.320) q_{ba} = q_{bs} \qquad (3.320) qba=qbs(3.320)
Δqi=qis−qid(3.321) \Delta q_i = q_{is} - q_{id} \qquad (3.321) Δqi=qis−qid(3.321)
qia=0.5⋅(qis+qid)(3.322) q_{ia} = 0.5 \cdot (q_{is} + q_{id}) \qquad (3.322) qia=0.5⋅(qis+qid)(3.322)
qba=0.5⋅(qbacc,d+qbcc,s)(3.323) q_{ba} = 0.5 \cdot (q_{bacc,d} + q_{bcc,s}) \qquad (3.323) qba=0.5⋅(qbacc,d+qbcc,s)(3.323)
qia2=0.5⋅(qis+qid)+0.5⋅CHARGEWF⋅[1−exp(Vdseff26.25e−4)]⋅Δqi(3.324) q_{ia2} = 0.5 \cdot (q_{is} + q_{id}) + 0.5 \cdot CHARGEWF \cdot \Bigg[ 1 - exp \Bigg( \dfrac{V_{dseff}^2}{6.25 e^{-4}} \Bigg) \Bigg] \cdot \Delta q_i \qquad (3.324) qia2=0.5⋅(qis+qid)+0.5⋅CHARGEWF⋅[1−exp(6.25e−4Vdseff2)]⋅Δqi(3.324)