3.13 Drain Current Model

ηiv=q0q0+qia(3.394) \eta_{iv} = \dfrac{q_0}{q_0 + q_{ia}} \qquad (3.394)

T2=(2ηiv)nKTq(3.395) T_2 = (2 - \eta_{iv}) \cdot \frac{nKT}{q} \qquad (3.395)

ids0Δqi=T1+T2(3.396) \dfrac{i_{ds0}}{\Delta q_i} = T_1 + T_2 \qquad (3.396)

ids0=ids0ΔqiΔqi(3.397) i_{ds0} = \dfrac{i_{ds0}}{\Delta q_i} \cdot \Delta q_i \qquad (3.397)

Ids=IDS0MULTμ0(T)CoxWeffLeffids0MocMobMnudDmobDrDvsat×NFINtotal(3.398) I_{ds} = IDS0MULT \cdot \mu_0(T) \cdot C_{ox} \cdot \dfrac{W_{eff}}{L_{eff}} \cdot i_{ds0} \cdot \dfrac{M_{oc} \cdot M_{ob} \cdot M_{nud}}{D_{mob} \cdot D_r \cdot D_{vsat}} \times NFIN_{total} \qquad (3.398)

results matching ""

    No results matching ""